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+ Any, + Callable, +) + +if TYPE_CHECKING: + from pandas._typing import Scalar + +import numpy as np + +from pandas.compat._optional import import_optional_dependency + + +@functools.cache +def generate_apply_looper(func, nopython=True, nogil=True, parallel=False): + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + nb_compat_func = numba.extending.register_jitable(func) + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def nb_looper(values, axis): + # Operate on the first row/col in order to get + # the output shape + if axis == 0: + first_elem = values[:, 0] + dim0 = values.shape[1] + else: + first_elem = values[0] + dim0 = values.shape[0] + res0 = nb_compat_func(first_elem) + # Use np.asarray to get shape for + # https://github.com/numba/numba/issues/4202#issuecomment-1185981507 + buf_shape = (dim0,) + np.atleast_1d(np.asarray(res0)).shape + if axis == 0: + buf_shape = buf_shape[::-1] + buff = np.empty(buf_shape) + + if axis == 1: + buff[0] = res0 + for i in numba.prange(1, values.shape[0]): + buff[i] = nb_compat_func(values[i]) + else: + buff[:, 0] = res0 + for j in numba.prange(1, values.shape[1]): + buff[:, j] = nb_compat_func(values[:, j]) + return buff + + return nb_looper + + +@functools.cache +def make_looper(func, result_dtype, is_grouped_kernel, nopython, nogil, parallel): + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + if is_grouped_kernel: + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def column_looper( + values: np.ndarray, + labels: np.ndarray, + ngroups: int, + min_periods: int, + *args, + ): + result = np.empty((values.shape[0], ngroups), dtype=result_dtype) + na_positions = {} + for i in numba.prange(values.shape[0]): + output, na_pos = func( + values[i], result_dtype, labels, ngroups, min_periods, *args + ) + result[i] = output + if len(na_pos) > 0: + na_positions[i] = np.array(na_pos) + return result, na_positions + + else: + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def column_looper( + values: np.ndarray, + start: np.ndarray, + end: np.ndarray, + min_periods: int, + *args, + ): + result = np.empty((values.shape[0], len(start)), dtype=result_dtype) + na_positions = {} + for i in numba.prange(values.shape[0]): + output, na_pos = func( + values[i], result_dtype, start, end, min_periods, *args + ) + result[i] = output + if len(na_pos) > 0: + na_positions[i] = np.array(na_pos) + return result, na_positions + + return column_looper + + +default_dtype_mapping: dict[np.dtype, Any] = { + np.dtype("int8"): np.int64, + np.dtype("int16"): np.int64, + np.dtype("int32"): np.int64, + np.dtype("int64"): np.int64, + np.dtype("uint8"): np.uint64, + np.dtype("uint16"): np.uint64, + np.dtype("uint32"): np.uint64, + np.dtype("uint64"): np.uint64, + np.dtype("float32"): np.float64, + np.dtype("float64"): np.float64, + np.dtype("complex64"): np.complex128, + np.dtype("complex128"): np.complex128, +} + + +# TODO: Preserve complex dtypes + +float_dtype_mapping: dict[np.dtype, Any] = { + np.dtype("int8"): np.float64, + np.dtype("int16"): np.float64, + np.dtype("int32"): np.float64, + np.dtype("int64"): np.float64, + np.dtype("uint8"): np.float64, + np.dtype("uint16"): np.float64, + np.dtype("uint32"): np.float64, + np.dtype("uint64"): np.float64, + np.dtype("float32"): np.float64, + np.dtype("float64"): np.float64, + np.dtype("complex64"): np.float64, + np.dtype("complex128"): np.float64, +} + +identity_dtype_mapping: dict[np.dtype, Any] = { + np.dtype("int8"): np.int8, + np.dtype("int16"): np.int16, + np.dtype("int32"): np.int32, + np.dtype("int64"): np.int64, + np.dtype("uint8"): np.uint8, + np.dtype("uint16"): np.uint16, + np.dtype("uint32"): np.uint32, + np.dtype("uint64"): np.uint64, + np.dtype("float32"): np.float32, + np.dtype("float64"): np.float64, + np.dtype("complex64"): np.complex64, + np.dtype("complex128"): np.complex128, +} + + +def generate_shared_aggregator( + func: Callable[..., Scalar], + dtype_mapping: dict[np.dtype, np.dtype], + is_grouped_kernel: bool, + nopython: bool, + nogil: bool, + parallel: bool, +): + """ + Generate a Numba function that loops over the columns 2D object and applies + a 1D numba kernel over each column. + + Parameters + ---------- + func : function + aggregation function to be applied to each column + dtype_mapping: dict or None + If not None, maps a dtype to a result dtype. + Otherwise, will fall back to default mapping. + is_grouped_kernel: bool, default False + Whether func operates using the group labels (True) + or using starts/ends arrays + + If true, you also need to pass the number of groups to this function + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + + # A wrapper around the looper function, + # to dispatch based on dtype since numba is unable to do that in nopython mode + + # It also post-processes the values by inserting nans where number of observations + # is less than min_periods + # Cannot do this in numba nopython mode + # (you'll run into type-unification error when you cast int -> float) + def looper_wrapper( + values, + start=None, + end=None, + labels=None, + ngroups=None, + min_periods: int = 0, + **kwargs, + ): + result_dtype = dtype_mapping[values.dtype] + column_looper = make_looper( + func, result_dtype, is_grouped_kernel, nopython, nogil, parallel + ) + # Need to unpack kwargs since numba only supports *args + if is_grouped_kernel: + result, na_positions = column_looper( + values, labels, ngroups, min_periods, *kwargs.values() + ) + else: + result, na_positions = column_looper( + values, start, end, min_periods, *kwargs.values() + ) + if result.dtype.kind == "i": + # Look if na_positions is not empty + # If so, convert the whole block + # This is OK since int dtype cannot hold nan, + # so if min_periods not satisfied for 1 col, it is not satisfied for + # all columns at that index + for na_pos in na_positions.values(): + if len(na_pos) > 0: + result = result.astype("float64") + break + # TODO: Optimize this + for i, na_pos in na_positions.items(): + if len(na_pos) > 0: + result[i, na_pos] = np.nan + return result + + return looper_wrapper diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/extensions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/extensions.py new file mode 100644 index 0000000000000000000000000000000000000000..b05f12295a729176aadae19bb1d17f3191f98806 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/extensions.py @@ -0,0 +1,585 @@ +# Disable type checking for this module since numba's internals +# are not typed, and we use numba's internals via its extension API +# mypy: ignore-errors +""" +Utility classes/functions to let numba recognize +pandas Index/Series/DataFrame + +Mostly vendored from https://github.com/numba/numba/blob/main/numba/tests/pdlike_usecase.py +""" + +from __future__ import annotations + +from contextlib import contextmanager +import operator + +import numba +from numba import types +from numba.core import cgutils +from numba.core.datamodel import models +from numba.core.extending import ( + NativeValue, + box, + lower_builtin, + make_attribute_wrapper, + overload, + overload_attribute, + overload_method, + register_model, + type_callable, + typeof_impl, + unbox, +) +from numba.core.imputils import impl_ret_borrowed +import numpy as np + +from pandas._libs import lib + +from pandas.core.indexes.base import Index +from pandas.core.indexing import _iLocIndexer +from pandas.core.internals import SingleBlockManager +from pandas.core.series import Series + + +# Helper function to hack around fact that Index casts numpy string dtype to object +# +# Idea is to set an attribute on a Index called _numba_data +# that is the original data, or the object data casted to numpy string dtype, +# with a context manager that is unset afterwards +@contextmanager +def set_numba_data(index: Index): + numba_data = index._data + if numba_data.dtype in (object, "string"): + numba_data = np.asarray(numba_data) + if not lib.is_string_array(numba_data): + raise ValueError( + "The numba engine only supports using string or numeric column names" + ) + numba_data = numba_data.astype("U") + try: + index._numba_data = numba_data + yield index + finally: + del index._numba_data + + +# TODO: Range index support +# (this currently lowers OK, but does not round-trip) +class IndexType(types.Type): + """ + The type class for Index objects. + """ + + def __init__(self, dtype, layout, pyclass: any) -> None: + self.pyclass = pyclass + name = f"index({dtype}, {layout})" + self.dtype = dtype + self.layout = layout + super().__init__(name) + + @property + def key(self): + return self.pyclass, self.dtype, self.layout + + @property + def as_array(self): + return types.Array(self.dtype, 1, self.layout) + + def copy(self, dtype=None, ndim: int = 1, layout=None): + assert ndim == 1 + if dtype is None: + dtype = self.dtype + layout = layout or self.layout + return type(self)(dtype, layout, self.pyclass) + + +class SeriesType(types.Type): + """ + The type class for Series objects. + """ + + def __init__(self, dtype, index, namety) -> None: + assert isinstance(index, IndexType) + self.dtype = dtype + self.index = index + self.values = types.Array(self.dtype, 1, "C") + self.namety = namety + name = f"series({dtype}, {index}, {namety})" + super().__init__(name) + + @property + def key(self): + return self.dtype, self.index, self.namety + + @property + def as_array(self): + return self.values + + def copy(self, dtype=None, ndim: int = 1, layout: str = "C"): + assert ndim == 1 + assert layout == "C" + if dtype is None: + dtype = self.dtype + return type(self)(dtype, self.index, self.namety) + + +@typeof_impl.register(Index) +def typeof_index(val, c): + """ + This will assume that only strings are in object dtype + index. + (you should check this before this gets lowered down to numba) + """ + # arrty = typeof_impl(val._data, c) + arrty = typeof_impl(val._numba_data, c) + assert arrty.ndim == 1 + return IndexType(arrty.dtype, arrty.layout, type(val)) + + +@typeof_impl.register(Series) +def typeof_series(val, c): + index = typeof_impl(val.index, c) + arrty = typeof_impl(val.values, c) + namety = typeof_impl(val.name, c) + assert arrty.ndim == 1 + assert arrty.layout == "C" + return SeriesType(arrty.dtype, index, namety) + + +@type_callable(Series) +def type_series_constructor(context): + def typer(data, index, name=None): + if isinstance(index, IndexType) and isinstance(data, types.Array): + assert data.ndim == 1 + if name is None: + name = types.intp + return SeriesType(data.dtype, index, name) + + return typer + + +@type_callable(Index) +def type_index_constructor(context): + def typer(data, hashmap=None): + if isinstance(data, types.Array): + assert data.layout == "C" + assert data.ndim == 1 + assert hashmap is None or isinstance(hashmap, types.DictType) + return IndexType(data.dtype, layout=data.layout, pyclass=Index) + + return typer + + +# Backend extensions for Index and Series and Frame +@register_model(IndexType) +class IndexModel(models.StructModel): + def __init__(self, dmm, fe_type) -> None: + # We don't want the numpy string scalar type in our hashmap + members = [ + ("data", fe_type.as_array), + # This is an attempt to emulate our hashtable code with a numba + # typed dict + # It maps from values in the index to their integer positions in the array + ("hashmap", types.DictType(fe_type.dtype, types.intp)), + # Pointer to the Index object this was created from, or that it + # boxes to + # https://numba.discourse.group/t/qst-how-to-cache-the-boxing-of-an-object/2128/2?u=lithomas1 + ("parent", types.pyobject), + ] + models.StructModel.__init__(self, dmm, fe_type, members) + + +@register_model(SeriesType) +class SeriesModel(models.StructModel): + def __init__(self, dmm, fe_type) -> None: + members = [ + ("index", fe_type.index), + ("values", fe_type.as_array), + ("name", fe_type.namety), + ] + models.StructModel.__init__(self, dmm, fe_type, members) + + +make_attribute_wrapper(IndexType, "data", "_data") +make_attribute_wrapper(IndexType, "hashmap", "hashmap") + +make_attribute_wrapper(SeriesType, "index", "index") +make_attribute_wrapper(SeriesType, "values", "values") +make_attribute_wrapper(SeriesType, "name", "name") + + +@lower_builtin(Series, types.Array, IndexType) +def pdseries_constructor(context, builder, sig, args): + data, index = args + series = cgutils.create_struct_proxy(sig.return_type)(context, builder) + series.index = index + series.values = data + series.name = context.get_constant(types.intp, 0) + return impl_ret_borrowed(context, builder, sig.return_type, series._getvalue()) + + +@lower_builtin(Series, types.Array, IndexType, types.intp) +@lower_builtin(Series, types.Array, IndexType, types.float64) +@lower_builtin(Series, types.Array, IndexType, types.unicode_type) +def pdseries_constructor_with_name(context, builder, sig, args): + data, index, name = args + series = cgutils.create_struct_proxy(sig.return_type)(context, builder) + series.index = index + series.values = data + series.name = name + return impl_ret_borrowed(context, builder, sig.return_type, series._getvalue()) + + +@lower_builtin(Index, types.Array, types.DictType, types.pyobject) +def index_constructor_2arg(context, builder, sig, args): + (data, hashmap, parent) = args + index = cgutils.create_struct_proxy(sig.return_type)(context, builder) + + index.data = data + index.hashmap = hashmap + index.parent = parent + return impl_ret_borrowed(context, builder, sig.return_type, index._getvalue()) + + +@lower_builtin(Index, types.Array, types.DictType) +def index_constructor_2arg_parent(context, builder, sig, args): + # Basically same as index_constructor_1arg, but also lets you specify the + # parent object + (data, hashmap) = args + index = cgutils.create_struct_proxy(sig.return_type)(context, builder) + + index.data = data + index.hashmap = hashmap + return impl_ret_borrowed(context, builder, sig.return_type, index._getvalue()) + + +@lower_builtin(Index, types.Array) +def index_constructor_1arg(context, builder, sig, args): + from numba.typed import Dict + + key_type = sig.return_type.dtype + value_type = types.intp + + def index_impl(data): + return Index(data, Dict.empty(key_type, value_type)) + + return context.compile_internal(builder, index_impl, sig, args) + + +# Helper to convert the unicodecharseq (numpy string scalar) into a unicode_type +# (regular string) +def maybe_cast_str(x): + # Dummy function that numba can overload + pass + + +@overload(maybe_cast_str) +def maybe_cast_str_impl(x): + """Converts numba UnicodeCharSeq (numpy string scalar) -> unicode type (string). + Is a no-op for other types.""" + if isinstance(x, types.UnicodeCharSeq): + return lambda x: str(x) + else: + return lambda x: x + + +@unbox(IndexType) +def unbox_index(typ, obj, c): + """ + Convert a Index object to a native structure. + + Note: Object dtype is not allowed here + """ + data_obj = c.pyapi.object_getattr_string(obj, "_numba_data") + index = cgutils.create_struct_proxy(typ)(c.context, c.builder) + # If we see an object array, assume its been validated as only containing strings + # We still need to do the conversion though + index.data = c.unbox(typ.as_array, data_obj).value + typed_dict_obj = c.pyapi.unserialize(c.pyapi.serialize_object(numba.typed.Dict)) + # Create an empty typed dict in numba for the hashmap for indexing + # equiv of numba.typed.Dict.empty(typ.dtype, types.intp) + arr_type_obj = c.pyapi.unserialize(c.pyapi.serialize_object(typ.dtype)) + intp_type_obj = c.pyapi.unserialize(c.pyapi.serialize_object(types.intp)) + hashmap_obj = c.pyapi.call_method( + typed_dict_obj, "empty", (arr_type_obj, intp_type_obj) + ) + index.hashmap = c.unbox(types.DictType(typ.dtype, types.intp), hashmap_obj).value + # Set the parent for speedy boxing. + index.parent = obj + + # Decrefs + c.pyapi.decref(data_obj) + c.pyapi.decref(arr_type_obj) + c.pyapi.decref(intp_type_obj) + c.pyapi.decref(typed_dict_obj) + + return NativeValue(index._getvalue()) + + +@unbox(SeriesType) +def unbox_series(typ, obj, c): + """ + Convert a Series object to a native structure. + """ + index_obj = c.pyapi.object_getattr_string(obj, "index") + values_obj = c.pyapi.object_getattr_string(obj, "values") + name_obj = c.pyapi.object_getattr_string(obj, "name") + + series = cgutils.create_struct_proxy(typ)(c.context, c.builder) + series.index = c.unbox(typ.index, index_obj).value + series.values = c.unbox(typ.values, values_obj).value + series.name = c.unbox(typ.namety, name_obj).value + + # Decrefs + c.pyapi.decref(index_obj) + c.pyapi.decref(values_obj) + c.pyapi.decref(name_obj) + + return NativeValue(series._getvalue()) + + +@box(IndexType) +def box_index(typ, val, c): + """ + Convert a native index structure to a Index object. + + If our native index is of a numpy string dtype, we'll cast it to + object. + """ + # First build a Numpy array object, then wrap it in a Index + index = cgutils.create_struct_proxy(typ)(c.context, c.builder, value=val) + + res = cgutils.alloca_once_value(c.builder, index.parent) + + # Does parent exist? + # (it means already boxed once, or Index same as original df.index or df.columns) + # xref https://github.com/numba/numba/blob/596e8a55334cc46854e3192766e643767bd7c934/numba/core/boxing.py#L593C17-L593C17 + with c.builder.if_else(cgutils.is_not_null(c.builder, index.parent)) as ( + has_parent, + otherwise, + ): + with has_parent: + c.pyapi.incref(index.parent) + with otherwise: + # TODO: preserve the original class for the index + # Also need preserve the name of the Index + # class_obj = c.pyapi.unserialize(c.pyapi.serialize_object(typ.pyclass)) + class_obj = c.pyapi.unserialize(c.pyapi.serialize_object(Index)) + array_obj = c.box(typ.as_array, index.data) + if isinstance(typ.dtype, types.UnicodeCharSeq): + # We converted to numpy string dtype, convert back + # to object since _simple_new won't do that for uss + object_str_obj = c.pyapi.unserialize(c.pyapi.serialize_object("object")) + array_obj = c.pyapi.call_method(array_obj, "astype", (object_str_obj,)) + c.pyapi.decref(object_str_obj) + # this is basically Index._simple_new(array_obj, name_obj) in python + index_obj = c.pyapi.call_method(class_obj, "_simple_new", (array_obj,)) + index.parent = index_obj + c.builder.store(index_obj, res) + + # Decrefs + c.pyapi.decref(class_obj) + c.pyapi.decref(array_obj) + return c.builder.load(res) + + +@box(SeriesType) +def box_series(typ, val, c): + """ + Convert a native series structure to a Series object. + """ + series = cgutils.create_struct_proxy(typ)(c.context, c.builder, value=val) + series_const_obj = c.pyapi.unserialize(c.pyapi.serialize_object(Series._from_mgr)) + mgr_const_obj = c.pyapi.unserialize( + c.pyapi.serialize_object(SingleBlockManager.from_array) + ) + index_obj = c.box(typ.index, series.index) + array_obj = c.box(typ.as_array, series.values) + name_obj = c.box(typ.namety, series.name) + # This is basically equivalent of + # pd.Series(data=array_obj, index=index_obj) + # To improve perf, we will construct the Series from a manager + # object to avoid checks. + # We'll also set the name attribute manually to avoid validation + mgr_obj = c.pyapi.call_function_objargs( + mgr_const_obj, + ( + array_obj, + index_obj, + ), + ) + mgr_axes_obj = c.pyapi.object_getattr_string(mgr_obj, "axes") + # Series._constructor_from_mgr(mgr, axes) + series_obj = c.pyapi.call_function_objargs( + series_const_obj, (mgr_obj, mgr_axes_obj) + ) + c.pyapi.object_setattr_string(series_obj, "_name", name_obj) + + # Decrefs + c.pyapi.decref(series_const_obj) + c.pyapi.decref(mgr_axes_obj) + c.pyapi.decref(mgr_obj) + c.pyapi.decref(mgr_const_obj) + c.pyapi.decref(index_obj) + c.pyapi.decref(array_obj) + c.pyapi.decref(name_obj) + + return series_obj + + +# Add common series reductions (e.g. mean, sum), +# and also add common binops (e.g. add, sub, mul, div) +def generate_series_reduction(ser_reduction, ser_method): + @overload_method(SeriesType, ser_reduction) + def series_reduction(series): + def series_reduction_impl(series): + return ser_method(series.values) + + return series_reduction_impl + + return series_reduction + + +def generate_series_binop(binop): + @overload(binop) + def series_binop(series1, value): + if isinstance(series1, SeriesType): + if isinstance(value, SeriesType): + + def series_binop_impl(series1, series2): + # TODO: Check index matching? + return Series( + binop(series1.values, series2.values), + series1.index, + series1.name, + ) + + return series_binop_impl + else: + + def series_binop_impl(series1, value): + return Series( + binop(series1.values, value), series1.index, series1.name + ) + + return series_binop_impl + + return series_binop + + +series_reductions = [ + ("sum", np.sum), + ("mean", np.mean), + # Disabled due to discrepancies between numba std. dev + # and pandas std. dev (no way to specify dof) + # ("std", np.std), + # ("var", np.var), + ("min", np.min), + ("max", np.max), +] +for reduction, reduction_method in series_reductions: + generate_series_reduction(reduction, reduction_method) + +series_binops = [operator.add, operator.sub, operator.mul, operator.truediv] + +for ser_binop in series_binops: + generate_series_binop(ser_binop) + + +# get_loc on Index +@overload_method(IndexType, "get_loc") +def index_get_loc(index, item): + def index_get_loc_impl(index, item): + # Initialize the hash table if not initialized + if len(index.hashmap) == 0: + for i, val in enumerate(index._data): + index.hashmap[val] = i + return index.hashmap[item] + + return index_get_loc_impl + + +# Indexing for Series/Index +@overload(operator.getitem) +def series_indexing(series, item): + if isinstance(series, SeriesType): + + def series_getitem(series, item): + loc = series.index.get_loc(item) + return series.iloc[loc] + + return series_getitem + + +@overload(operator.getitem) +def index_indexing(index, idx): + if isinstance(index, IndexType): + + def index_getitem(index, idx): + return index._data[idx] + + return index_getitem + + +class IlocType(types.Type): + def __init__(self, obj_type) -> None: + self.obj_type = obj_type + name = f"iLocIndexer({obj_type})" + super().__init__(name=name) + + @property + def key(self): + return self.obj_type + + +@typeof_impl.register(_iLocIndexer) +def typeof_iloc(val, c): + objtype = typeof_impl(val.obj, c) + return IlocType(objtype) + + +@type_callable(_iLocIndexer) +def type_iloc_constructor(context): + def typer(obj): + if isinstance(obj, SeriesType): + return IlocType(obj) + + return typer + + +@lower_builtin(_iLocIndexer, SeriesType) +def iloc_constructor(context, builder, sig, args): + (obj,) = args + iloc_indexer = cgutils.create_struct_proxy(sig.return_type)(context, builder) + iloc_indexer.obj = obj + return impl_ret_borrowed( + context, builder, sig.return_type, iloc_indexer._getvalue() + ) + + +@register_model(IlocType) +class ILocModel(models.StructModel): + def __init__(self, dmm, fe_type) -> None: + members = [("obj", fe_type.obj_type)] + models.StructModel.__init__(self, dmm, fe_type, members) + + +make_attribute_wrapper(IlocType, "obj", "obj") + + +@overload_attribute(SeriesType, "iloc") +def series_iloc(series): + def get(series): + return _iLocIndexer(series) + + return get + + +@overload(operator.getitem) +def iloc_getitem(iloc_indexer, i): + if isinstance(iloc_indexer, IlocType): + + def getitem_impl(iloc_indexer, i): + return iloc_indexer.obj.values[i] + + return getitem_impl diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..1116c61c4ca8e48d94a6c9c6222aaf545d989e86 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/__init__.py @@ -0,0 +1,27 @@ +from pandas.core._numba.kernels.mean_ import ( + grouped_mean, + sliding_mean, +) +from pandas.core._numba.kernels.min_max_ import ( + grouped_min_max, + sliding_min_max, +) +from pandas.core._numba.kernels.sum_ import ( + grouped_sum, + sliding_sum, +) +from pandas.core._numba.kernels.var_ import ( + grouped_var, + sliding_var, +) + +__all__ = [ + "sliding_mean", + "grouped_mean", + "sliding_sum", + "grouped_sum", + "sliding_var", + "grouped_var", + "sliding_min_max", + "grouped_min_max", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/mean_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/mean_.py new file mode 100644 index 0000000000000000000000000000000000000000..f415804781753372a5715b6ffee6a7ab8cc70b64 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/mean_.py @@ -0,0 +1,196 @@ +""" +Numba 1D mean kernels that can be shared by +* Dataframe / Series +* groupby +* rolling / expanding + +Mirrors pandas/_libs/window/aggregation.pyx +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numba +import numpy as np + +from pandas.core._numba.kernels.shared import is_monotonic_increasing +from pandas.core._numba.kernels.sum_ import grouped_kahan_sum + +if TYPE_CHECKING: + from pandas._typing import npt + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def add_mean( + val: float, + nobs: int, + sum_x: float, + neg_ct: int, + compensation: float, + num_consecutive_same_value: int, + prev_value: float, +) -> tuple[int, float, int, float, int, float]: + if not np.isnan(val): + nobs += 1 + y = val - compensation + t = sum_x + y + compensation = t - sum_x - y + sum_x = t + if val < 0: + neg_ct += 1 + + if val == prev_value: + num_consecutive_same_value += 1 + else: + num_consecutive_same_value = 1 + prev_value = val + + return nobs, sum_x, neg_ct, compensation, num_consecutive_same_value, prev_value + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def remove_mean( + val: float, nobs: int, sum_x: float, neg_ct: int, compensation: float +) -> tuple[int, float, int, float]: + if not np.isnan(val): + nobs -= 1 + y = -val - compensation + t = sum_x + y + compensation = t - sum_x - y + sum_x = t + if val < 0: + neg_ct -= 1 + return nobs, sum_x, neg_ct, compensation + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def sliding_mean( + values: np.ndarray, + result_dtype: np.dtype, + start: np.ndarray, + end: np.ndarray, + min_periods: int, +) -> tuple[np.ndarray, list[int]]: + N = len(start) + nobs = 0 + sum_x = 0.0 + neg_ct = 0 + compensation_add = 0.0 + compensation_remove = 0.0 + + is_monotonic_increasing_bounds = is_monotonic_increasing( + start + ) and is_monotonic_increasing(end) + + output = np.empty(N, dtype=result_dtype) + + for i in range(N): + s = start[i] + e = end[i] + if i == 0 or not is_monotonic_increasing_bounds: + prev_value = values[s] + num_consecutive_same_value = 0 + + for j in range(s, e): + val = values[j] + ( + nobs, + sum_x, + neg_ct, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_mean( + val, + nobs, + sum_x, + neg_ct, + compensation_add, + num_consecutive_same_value, + prev_value, # pyright: ignore[reportGeneralTypeIssues] + ) + else: + for j in range(start[i - 1], s): + val = values[j] + nobs, sum_x, neg_ct, compensation_remove = remove_mean( + val, nobs, sum_x, neg_ct, compensation_remove + ) + + for j in range(end[i - 1], e): + val = values[j] + ( + nobs, + sum_x, + neg_ct, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_mean( + val, + nobs, + sum_x, + neg_ct, + compensation_add, + num_consecutive_same_value, + prev_value, # pyright: ignore[reportGeneralTypeIssues] + ) + + if nobs >= min_periods and nobs > 0: + result = sum_x / nobs + if num_consecutive_same_value >= nobs: + result = prev_value + elif neg_ct == 0 and result < 0: + result = 0 + elif neg_ct == nobs and result > 0: + result = 0 + else: + result = np.nan + + output[i] = result + + if not is_monotonic_increasing_bounds: + nobs = 0 + sum_x = 0.0 + neg_ct = 0 + compensation_remove = 0.0 + + # na_position is empty list since float64 can already hold nans + # Do list comprehension, since numba cannot figure out that na_pos is + # empty list of ints on its own + na_pos = [0 for i in range(0)] + return output, na_pos + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def grouped_mean( + values: np.ndarray, + result_dtype: np.dtype, + labels: npt.NDArray[np.intp], + ngroups: int, + min_periods: int, +) -> tuple[np.ndarray, list[int]]: + output, nobs_arr, comp_arr, consecutive_counts, prev_vals = grouped_kahan_sum( + values, result_dtype, labels, ngroups + ) + + # Post-processing, replace sums that don't satisfy min_periods + for lab in range(ngroups): + nobs = nobs_arr[lab] + num_consecutive_same_value = consecutive_counts[lab] + prev_value = prev_vals[lab] + sum_x = output[lab] + if nobs >= min_periods: + if num_consecutive_same_value >= nobs: + result = prev_value * nobs + else: + result = sum_x + else: + result = np.nan + result /= nobs + output[lab] = result + + # na_position is empty list since float64 can already hold nans + # Do list comprehension, since numba cannot figure out that na_pos is + # empty list of ints on its own + na_pos = [0 for i in range(0)] + return output, na_pos diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/min_max_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/min_max_.py new file mode 100644 index 0000000000000000000000000000000000000000..c9803980e64a6bf2ec5b274acd582850e3a07420 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/min_max_.py @@ -0,0 +1,125 @@ +""" +Numba 1D min/max kernels that can be shared by +* Dataframe / Series +* groupby +* rolling / expanding + +Mirrors pandas/_libs/window/aggregation.pyx +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numba +import numpy as np + +if TYPE_CHECKING: + from pandas._typing import npt + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def sliding_min_max( + values: np.ndarray, + result_dtype: np.dtype, + start: np.ndarray, + end: np.ndarray, + min_periods: int, + is_max: bool, +) -> tuple[np.ndarray, list[int]]: + N = len(start) + nobs = 0 + output = np.empty(N, dtype=result_dtype) + na_pos = [] + # Use deque once numba supports it + # https://github.com/numba/numba/issues/7417 + Q: list = [] + W: list = [] + for i in range(N): + curr_win_size = end[i] - start[i] + if i == 0: + st = start[i] + else: + st = end[i - 1] + + for k in range(st, end[i]): + ai = values[k] + if not np.isnan(ai): + nobs += 1 + elif is_max: + ai = -np.inf + else: + ai = np.inf + # Discard previous entries if we find new min or max + if is_max: + while Q and ((ai >= values[Q[-1]]) or values[Q[-1]] != values[Q[-1]]): + Q.pop() + else: + while Q and ((ai <= values[Q[-1]]) or values[Q[-1]] != values[Q[-1]]): + Q.pop() + Q.append(k) + W.append(k) + + # Discard entries outside and left of current window + while Q and Q[0] <= start[i] - 1: + Q.pop(0) + while W and W[0] <= start[i] - 1: + if not np.isnan(values[W[0]]): + nobs -= 1 + W.pop(0) + + # Save output based on index in input value array + if Q and curr_win_size > 0 and nobs >= min_periods: + output[i] = values[Q[0]] + else: + if values.dtype.kind != "i": + output[i] = np.nan + else: + na_pos.append(i) + + return output, na_pos + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def grouped_min_max( + values: np.ndarray, + result_dtype: np.dtype, + labels: npt.NDArray[np.intp], + ngroups: int, + min_periods: int, + is_max: bool, +) -> tuple[np.ndarray, list[int]]: + N = len(labels) + nobs = np.zeros(ngroups, dtype=np.int64) + na_pos = [] + output = np.empty(ngroups, dtype=result_dtype) + + for i in range(N): + lab = labels[i] + val = values[i] + if lab < 0: + continue + + if values.dtype.kind == "i" or not np.isnan(val): + nobs[lab] += 1 + else: + # NaN value cannot be a min/max value + continue + + if nobs[lab] == 1: + # First element in group, set output equal to this + output[lab] = val + continue + + if is_max: + if val > output[lab]: + output[lab] = val + else: + if val < output[lab]: + output[lab] = val + + # Set labels that don't satisfy min_periods as np.nan + for lab, count in enumerate(nobs): + if count < min_periods: + na_pos.append(lab) + + return output, na_pos diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/shared.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/shared.py new file mode 100644 index 0000000000000000000000000000000000000000..c52372fe6b08f3ec9ec6e836341e08ac804d50f3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/shared.py @@ -0,0 +1,29 @@ +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numba + +if TYPE_CHECKING: + import numpy as np + + +@numba.jit( + # error: Any? not callable + numba.boolean(numba.int64[:]), # type: ignore[misc] + nopython=True, + nogil=True, + parallel=False, +) +def is_monotonic_increasing(bounds: np.ndarray) -> bool: + """Check if int64 values are monotonically increasing.""" + n = len(bounds) + if n < 2: + return True + prev = bounds[0] + for i in range(1, n): + cur = bounds[i] + if cur < prev: + return False + prev = cur + return True diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/sum_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/sum_.py new file mode 100644 index 0000000000000000000000000000000000000000..94db84267ceecb83234fc2e0b231566a2fdffd66 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/sum_.py @@ -0,0 +1,244 @@ +""" +Numba 1D sum kernels that can be shared by +* Dataframe / Series +* groupby +* rolling / expanding + +Mirrors pandas/_libs/window/aggregation.pyx +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +import numba +from numba.extending import register_jitable +import numpy as np + +if TYPE_CHECKING: + from pandas._typing import npt + +from pandas.core._numba.kernels.shared import is_monotonic_increasing + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def add_sum( + val: Any, + nobs: int, + sum_x: Any, + compensation: Any, + num_consecutive_same_value: int, + prev_value: Any, +) -> tuple[int, Any, Any, int, Any]: + if not np.isnan(val): + nobs += 1 + y = val - compensation + t = sum_x + y + compensation = t - sum_x - y + sum_x = t + + if val == prev_value: + num_consecutive_same_value += 1 + else: + num_consecutive_same_value = 1 + prev_value = val + + return nobs, sum_x, compensation, num_consecutive_same_value, prev_value + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def remove_sum( + val: Any, nobs: int, sum_x: Any, compensation: Any +) -> tuple[int, Any, Any]: + if not np.isnan(val): + nobs -= 1 + y = -val - compensation + t = sum_x + y + compensation = t - sum_x - y + sum_x = t + return nobs, sum_x, compensation + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def sliding_sum( + values: np.ndarray, + result_dtype: np.dtype, + start: np.ndarray, + end: np.ndarray, + min_periods: int, +) -> tuple[np.ndarray, list[int]]: + dtype = values.dtype + + na_val: object = np.nan + if dtype.kind == "i": + na_val = 0 + + N = len(start) + nobs = 0 + sum_x = 0 + compensation_add = 0 + compensation_remove = 0 + na_pos = [] + + is_monotonic_increasing_bounds = is_monotonic_increasing( + start + ) and is_monotonic_increasing(end) + + output = np.empty(N, dtype=result_dtype) + + for i in range(N): + s = start[i] + e = end[i] + if i == 0 or not is_monotonic_increasing_bounds: + prev_value = values[s] + num_consecutive_same_value = 0 + + for j in range(s, e): + val = values[j] + ( + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_sum( + val, + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + else: + for j in range(start[i - 1], s): + val = values[j] + nobs, sum_x, compensation_remove = remove_sum( + val, nobs, sum_x, compensation_remove + ) + + for j in range(end[i - 1], e): + val = values[j] + ( + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_sum( + val, + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + + if nobs == 0 == min_periods: + result: object = 0 + elif nobs >= min_periods: + if num_consecutive_same_value >= nobs: + result = prev_value * nobs + else: + result = sum_x + else: + result = na_val + if dtype.kind == "i": + na_pos.append(i) + + output[i] = result + + if not is_monotonic_increasing_bounds: + nobs = 0 + sum_x = 0 + compensation_remove = 0 + + return output, na_pos + + +# Mypy/pyright don't like the fact that the decorator is untyped +@register_jitable # type: ignore[misc] +def grouped_kahan_sum( + values: np.ndarray, + result_dtype: np.dtype, + labels: npt.NDArray[np.intp], + ngroups: int, +) -> tuple[ + np.ndarray, npt.NDArray[np.int64], np.ndarray, npt.NDArray[np.int64], np.ndarray +]: + N = len(labels) + + nobs_arr = np.zeros(ngroups, dtype=np.int64) + comp_arr = np.zeros(ngroups, dtype=values.dtype) + consecutive_counts = np.zeros(ngroups, dtype=np.int64) + prev_vals = np.zeros(ngroups, dtype=values.dtype) + output = np.zeros(ngroups, dtype=result_dtype) + + for i in range(N): + lab = labels[i] + val = values[i] + + if lab < 0: + continue + + sum_x = output[lab] + nobs = nobs_arr[lab] + compensation_add = comp_arr[lab] + num_consecutive_same_value = consecutive_counts[lab] + prev_value = prev_vals[lab] + + ( + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_sum( + val, + nobs, + sum_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + + output[lab] = sum_x + consecutive_counts[lab] = num_consecutive_same_value + prev_vals[lab] = prev_value + comp_arr[lab] = compensation_add + nobs_arr[lab] = nobs + return output, nobs_arr, comp_arr, consecutive_counts, prev_vals + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def grouped_sum( + values: np.ndarray, + result_dtype: np.dtype, + labels: npt.NDArray[np.intp], + ngroups: int, + min_periods: int, +) -> tuple[np.ndarray, list[int]]: + na_pos = [] + + output, nobs_arr, comp_arr, consecutive_counts, prev_vals = grouped_kahan_sum( + values, result_dtype, labels, ngroups + ) + + # Post-processing, replace sums that don't satisfy min_periods + for lab in range(ngroups): + nobs = nobs_arr[lab] + num_consecutive_same_value = consecutive_counts[lab] + prev_value = prev_vals[lab] + sum_x = output[lab] + if nobs >= min_periods: + if num_consecutive_same_value >= nobs: + result = prev_value * nobs + else: + result = sum_x + else: + result = sum_x # Don't change val, will be replaced by nan later + na_pos.append(lab) + output[lab] = result + + return output, na_pos diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/var_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/var_.py new file mode 100644 index 0000000000000000000000000000000000000000..c63d0b90b0fc3f4a4a532b9ce85e57d8bd823fb1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/_numba/kernels/var_.py @@ -0,0 +1,245 @@ +""" +Numba 1D var kernels that can be shared by +* Dataframe / Series +* groupby +* rolling / expanding + +Mirrors pandas/_libs/window/aggregation.pyx +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numba +import numpy as np + +if TYPE_CHECKING: + from pandas._typing import npt + +from pandas.core._numba.kernels.shared import is_monotonic_increasing + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def add_var( + val: float, + nobs: int, + mean_x: float, + ssqdm_x: float, + compensation: float, + num_consecutive_same_value: int, + prev_value: float, +) -> tuple[int, float, float, float, int, float]: + if not np.isnan(val): + if val == prev_value: + num_consecutive_same_value += 1 + else: + num_consecutive_same_value = 1 + prev_value = val + + nobs += 1 + prev_mean = mean_x - compensation + y = val - compensation + t = y - mean_x + compensation = t + mean_x - y + delta = t + if nobs: + mean_x += delta / nobs + else: + mean_x = 0 + ssqdm_x += (val - prev_mean) * (val - mean_x) + return nobs, mean_x, ssqdm_x, compensation, num_consecutive_same_value, prev_value + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def remove_var( + val: float, nobs: int, mean_x: float, ssqdm_x: float, compensation: float +) -> tuple[int, float, float, float]: + if not np.isnan(val): + nobs -= 1 + if nobs: + prev_mean = mean_x - compensation + y = val - compensation + t = y - mean_x + compensation = t + mean_x - y + delta = t + mean_x -= delta / nobs + ssqdm_x -= (val - prev_mean) * (val - mean_x) + else: + mean_x = 0 + ssqdm_x = 0 + return nobs, mean_x, ssqdm_x, compensation + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def sliding_var( + values: np.ndarray, + result_dtype: np.dtype, + start: np.ndarray, + end: np.ndarray, + min_periods: int, + ddof: int = 1, +) -> tuple[np.ndarray, list[int]]: + N = len(start) + nobs = 0 + mean_x = 0.0 + ssqdm_x = 0.0 + compensation_add = 0.0 + compensation_remove = 0.0 + + min_periods = max(min_periods, 1) + is_monotonic_increasing_bounds = is_monotonic_increasing( + start + ) and is_monotonic_increasing(end) + + output = np.empty(N, dtype=result_dtype) + + for i in range(N): + s = start[i] + e = end[i] + if i == 0 or not is_monotonic_increasing_bounds: + prev_value = values[s] + num_consecutive_same_value = 0 + + for j in range(s, e): + val = values[j] + ( + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_var( + val, + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + else: + for j in range(start[i - 1], s): + val = values[j] + nobs, mean_x, ssqdm_x, compensation_remove = remove_var( + val, nobs, mean_x, ssqdm_x, compensation_remove + ) + + for j in range(end[i - 1], e): + val = values[j] + ( + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_var( + val, + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + + if nobs >= min_periods and nobs > ddof: + if nobs == 1 or num_consecutive_same_value >= nobs: + result = 0.0 + else: + result = ssqdm_x / (nobs - ddof) + else: + result = np.nan + + output[i] = result + + if not is_monotonic_increasing_bounds: + nobs = 0 + mean_x = 0.0 + ssqdm_x = 0.0 + compensation_remove = 0.0 + + # na_position is empty list since float64 can already hold nans + # Do list comprehension, since numba cannot figure out that na_pos is + # empty list of ints on its own + na_pos = [0 for i in range(0)] + return output, na_pos + + +@numba.jit(nopython=True, nogil=True, parallel=False) +def grouped_var( + values: np.ndarray, + result_dtype: np.dtype, + labels: npt.NDArray[np.intp], + ngroups: int, + min_periods: int, + ddof: int = 1, +) -> tuple[np.ndarray, list[int]]: + N = len(labels) + + nobs_arr = np.zeros(ngroups, dtype=np.int64) + comp_arr = np.zeros(ngroups, dtype=values.dtype) + consecutive_counts = np.zeros(ngroups, dtype=np.int64) + prev_vals = np.zeros(ngroups, dtype=values.dtype) + output = np.zeros(ngroups, dtype=result_dtype) + means = np.zeros(ngroups, dtype=result_dtype) + + for i in range(N): + lab = labels[i] + val = values[i] + + if lab < 0: + continue + + mean_x = means[lab] + ssqdm_x = output[lab] + nobs = nobs_arr[lab] + compensation_add = comp_arr[lab] + num_consecutive_same_value = consecutive_counts[lab] + prev_value = prev_vals[lab] + + ( + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) = add_var( + val, + nobs, + mean_x, + ssqdm_x, + compensation_add, + num_consecutive_same_value, + prev_value, + ) + + output[lab] = ssqdm_x + means[lab] = mean_x + consecutive_counts[lab] = num_consecutive_same_value + prev_vals[lab] = prev_value + comp_arr[lab] = compensation_add + nobs_arr[lab] = nobs + + # Post-processing, replace vars that don't satisfy min_periods + for lab in range(ngroups): + nobs = nobs_arr[lab] + num_consecutive_same_value = consecutive_counts[lab] + ssqdm_x = output[lab] + if nobs >= min_periods and nobs > ddof: + if nobs == 1 or num_consecutive_same_value >= nobs: + result = 0.0 + else: + result = ssqdm_x / (nobs - ddof) + else: + result = np.nan + output[lab] = result + + # Second pass to get the std.dev + # na_position is empty list since float64 can already hold nans + # Do list comprehension, since numba cannot figure out that na_pos is + # empty list of ints on its own + na_pos = [0 for i in range(0)] + return output, na_pos diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..a7655a013c6cf3fca754086fdeb29b806220d5e4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/__init__.py @@ -0,0 +1,9 @@ +""" +core.array_algos is for algorithms that operate on ndarray and ExtensionArray. +These should: + +- Assume that any Index, Series, or DataFrame objects have already been unwrapped. +- Assume that any list arguments have already been cast to ndarray/EA. +- Not depend on Index, Series, or DataFrame, nor import any of these. +- May dispatch to ExtensionArray methods, but should not import from 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b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/datetimelike_accumulations.py @@ -0,0 +1,67 @@ +""" +datetimelke_accumulations.py is for accumulations of datetimelike extension arrays +""" + +from __future__ import annotations + +from typing import Callable + +import numpy as np + +from pandas._libs import iNaT + +from pandas.core.dtypes.missing import isna + + +def _cum_func( + func: Callable, + values: np.ndarray, + *, + skipna: bool = True, +): + """ + Accumulations for 1D datetimelike arrays. + + Parameters + ---------- + func : np.cumsum, np.maximum.accumulate, np.minimum.accumulate + values : np.ndarray + Numpy array with the values (can be of any dtype that support the + operation). Values is changed is modified inplace. + skipna : bool, default True + Whether to skip NA. + """ + try: + fill_value = { + np.maximum.accumulate: np.iinfo(np.int64).min, + np.cumsum: 0, + np.minimum.accumulate: np.iinfo(np.int64).max, + }[func] + except KeyError: + raise ValueError(f"No accumulation for {func} implemented on BaseMaskedArray") + + mask = isna(values) + y = values.view("i8") + y[mask] = fill_value + + if not skipna: + mask = np.maximum.accumulate(mask) + + result = func(y) + result[mask] = iNaT + + if values.dtype.kind in "mM": + return result.view(values.dtype.base) + return result + + +def cumsum(values: np.ndarray, *, skipna: bool = True) -> np.ndarray: + return _cum_func(np.cumsum, values, skipna=skipna) + + +def cummin(values: np.ndarray, *, skipna: bool = True): + return _cum_func(np.minimum.accumulate, values, skipna=skipna) + + +def cummax(values: np.ndarray, *, skipna: bool = True): + return _cum_func(np.maximum.accumulate, values, skipna=skipna) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_accumulations.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_accumulations.py new file mode 100644 index 0000000000000000000000000000000000000000..ad9e96d398a242dc64de2018b749fd2dbca7ed78 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_accumulations.py @@ -0,0 +1,90 @@ +""" +masked_accumulations.py is for accumulation algorithms using a mask-based approach +for missing values. +""" + +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Callable, +) + +import numpy as np + +if TYPE_CHECKING: + from pandas._typing import npt + + +def _cum_func( + func: Callable, + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, +): + """ + Accumulations for 1D masked array. + + We will modify values in place to replace NAs with the appropriate fill value. + + Parameters + ---------- + func : np.cumsum, np.cumprod, np.maximum.accumulate, np.minimum.accumulate + values : np.ndarray + Numpy array with the values (can be of any dtype that support the + operation). + mask : np.ndarray + Boolean numpy array (True values indicate missing values). + skipna : bool, default True + Whether to skip NA. + """ + dtype_info: np.iinfo | np.finfo + if values.dtype.kind == "f": + dtype_info = np.finfo(values.dtype.type) + elif values.dtype.kind in "iu": + dtype_info = np.iinfo(values.dtype.type) + elif values.dtype.kind == "b": + # Max value of bool is 1, but since we are setting into a boolean + # array, 255 is fine as well. Min value has to be 0 when setting + # into the boolean array. + dtype_info = np.iinfo(np.uint8) + else: + raise NotImplementedError( + f"No masked accumulation defined for dtype {values.dtype.type}" + ) + try: + fill_value = { + np.cumprod: 1, + np.maximum.accumulate: dtype_info.min, + np.cumsum: 0, + np.minimum.accumulate: dtype_info.max, + }[func] + except KeyError: + raise NotImplementedError( + f"No accumulation for {func} implemented on BaseMaskedArray" + ) + + values[mask] = fill_value + + if not skipna: + mask = np.maximum.accumulate(mask) + + values = func(values) + return values, mask + + +def cumsum(values: np.ndarray, mask: npt.NDArray[np.bool_], *, skipna: bool = True): + return _cum_func(np.cumsum, values, mask, skipna=skipna) + + +def cumprod(values: np.ndarray, mask: npt.NDArray[np.bool_], *, skipna: bool = True): + return _cum_func(np.cumprod, values, mask, skipna=skipna) + + +def cummin(values: np.ndarray, mask: npt.NDArray[np.bool_], *, skipna: bool = True): + return _cum_func(np.minimum.accumulate, values, mask, skipna=skipna) + + +def cummax(values: np.ndarray, mask: npt.NDArray[np.bool_], *, skipna: bool = True): + return _cum_func(np.maximum.accumulate, values, mask, skipna=skipna) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_reductions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_reductions.py new file mode 100644 index 0000000000000000000000000000000000000000..6bf97729a79b1436fdf466eade06e0049984c1d0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/masked_reductions.py @@ -0,0 +1,201 @@ +""" +masked_reductions.py is for reduction algorithms using a mask-based approach +for missing values. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Callable, +) +import warnings + +import numpy as np + +from pandas._libs import missing as libmissing + +from pandas.core.nanops import check_below_min_count + +if TYPE_CHECKING: + from pandas._typing import ( + AxisInt, + npt, + ) + + +def _reductions( + func: Callable, + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + min_count: int = 0, + axis: AxisInt | None = None, + **kwargs, +): + """ + Sum, mean or product for 1D masked array. + + Parameters + ---------- + func : np.sum or np.prod + values : np.ndarray + Numpy array with the values (can be of any dtype that support the + operation). + mask : np.ndarray[bool] + Boolean numpy array (True values indicate missing values). + skipna : bool, default True + Whether to skip NA. + min_count : int, default 0 + The required number of valid values to perform the operation. If fewer than + ``min_count`` non-NA values are present the result will be NA. + axis : int, optional, default None + """ + if not skipna: + if mask.any() or check_below_min_count(values.shape, None, min_count): + return libmissing.NA + else: + return func(values, axis=axis, **kwargs) + else: + if check_below_min_count(values.shape, mask, min_count) and ( + axis is None or values.ndim == 1 + ): + return libmissing.NA + + if values.dtype == np.dtype(object): + # object dtype does not support `where` without passing an initial + values = values[~mask] + return func(values, axis=axis, **kwargs) + return func(values, where=~mask, axis=axis, **kwargs) + + +def sum( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + min_count: int = 0, + axis: AxisInt | None = None, +): + return _reductions( + np.sum, values=values, mask=mask, skipna=skipna, min_count=min_count, axis=axis + ) + + +def prod( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + min_count: int = 0, + axis: AxisInt | None = None, +): + return _reductions( + np.prod, values=values, mask=mask, skipna=skipna, min_count=min_count, axis=axis + ) + + +def _minmax( + func: Callable, + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, +): + """ + Reduction for 1D masked array. + + Parameters + ---------- + func : np.min or np.max + values : np.ndarray + Numpy array with the values (can be of any dtype that support the + operation). + mask : np.ndarray[bool] + Boolean numpy array (True values indicate missing values). + skipna : bool, default True + Whether to skip NA. + axis : int, optional, default None + """ + if not skipna: + if mask.any() or not values.size: + # min/max with empty array raise in numpy, pandas returns NA + return libmissing.NA + else: + return func(values, axis=axis) + else: + subset = values[~mask] + if subset.size: + return func(subset, axis=axis) + else: + # min/max with empty array raise in numpy, pandas returns NA + return libmissing.NA + + +def min( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, +): + return _minmax(np.min, values=values, mask=mask, skipna=skipna, axis=axis) + + +def max( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, +): + return _minmax(np.max, values=values, mask=mask, skipna=skipna, axis=axis) + + +def mean( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, +): + if not values.size or mask.all(): + return libmissing.NA + return _reductions(np.mean, values=values, mask=mask, skipna=skipna, axis=axis) + + +def var( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, + ddof: int = 1, +): + if not values.size or mask.all(): + return libmissing.NA + + with warnings.catch_warnings(): + warnings.simplefilter("ignore", RuntimeWarning) + return _reductions( + np.var, values=values, mask=mask, skipna=skipna, axis=axis, ddof=ddof + ) + + +def std( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + *, + skipna: bool = True, + axis: AxisInt | None = None, + ddof: int = 1, +): + if not values.size or mask.all(): + return libmissing.NA + + with warnings.catch_warnings(): + warnings.simplefilter("ignore", RuntimeWarning) + return _reductions( + np.std, values=values, mask=mask, skipna=skipna, axis=axis, ddof=ddof + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/putmask.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/putmask.py new file mode 100644 index 0000000000000000000000000000000000000000..f65d2d20e028e36b35a397d8ac973f184ce1412c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/putmask.py @@ -0,0 +1,149 @@ +""" +EA-compatible analogue to np.putmask +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np + +from pandas._libs import lib + +from pandas.core.dtypes.cast import infer_dtype_from +from pandas.core.dtypes.common import is_list_like + +from pandas.core.arrays import ExtensionArray + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + npt, + ) + + from pandas import MultiIndex + + +def putmask_inplace(values: ArrayLike, mask: npt.NDArray[np.bool_], value: Any) -> None: + """ + ExtensionArray-compatible implementation of np.putmask. The main + difference is we do not handle repeating or truncating like numpy. + + Parameters + ---------- + values: np.ndarray or ExtensionArray + mask : np.ndarray[bool] + We assume extract_bool_array has already been called. + value : Any + """ + + if ( + not isinstance(values, np.ndarray) + or (values.dtype == object and not lib.is_scalar(value)) + # GH#43424: np.putmask raises TypeError if we cannot cast between types with + # rule = "safe", a stricter guarantee we may not have here + or ( + isinstance(value, np.ndarray) and not np.can_cast(value.dtype, values.dtype) + ) + ): + # GH#19266 using np.putmask gives unexpected results with listlike value + # along with object dtype + if is_list_like(value) and len(value) == len(values): + values[mask] = value[mask] + else: + values[mask] = value + else: + # GH#37833 np.putmask is more performant than __setitem__ + np.putmask(values, mask, value) + + +def putmask_without_repeat( + values: np.ndarray, mask: npt.NDArray[np.bool_], new: Any +) -> None: + """ + np.putmask will truncate or repeat if `new` is a listlike with + len(new) != len(values). We require an exact match. + + Parameters + ---------- + values : np.ndarray + mask : np.ndarray[bool] + new : Any + """ + if getattr(new, "ndim", 0) >= 1: + new = new.astype(values.dtype, copy=False) + + # TODO: this prob needs some better checking for 2D cases + nlocs = mask.sum() + if nlocs > 0 and is_list_like(new) and getattr(new, "ndim", 1) == 1: + shape = np.shape(new) + # np.shape compat for if setitem_datetimelike_compat + # changed arraylike to list e.g. test_where_dt64_2d + if nlocs == shape[-1]: + # GH#30567 + # If length of ``new`` is less than the length of ``values``, + # `np.putmask` would first repeat the ``new`` array and then + # assign the masked values hence produces incorrect result. + # `np.place` on the other hand uses the ``new`` values at it is + # to place in the masked locations of ``values`` + np.place(values, mask, new) + # i.e. values[mask] = new + elif mask.shape[-1] == shape[-1] or shape[-1] == 1: + np.putmask(values, mask, new) + else: + raise ValueError("cannot assign mismatch length to masked array") + else: + np.putmask(values, mask, new) + + +def validate_putmask( + values: ArrayLike | MultiIndex, mask: np.ndarray +) -> tuple[npt.NDArray[np.bool_], bool]: + """ + Validate mask and check if this putmask operation is a no-op. + """ + mask = extract_bool_array(mask) + if mask.shape != values.shape: + raise ValueError("putmask: mask and data must be the same size") + + noop = not mask.any() + return mask, noop + + +def extract_bool_array(mask: ArrayLike) -> npt.NDArray[np.bool_]: + """ + If we have a SparseArray or BooleanArray, convert it to ndarray[bool]. + """ + if isinstance(mask, ExtensionArray): + # We could have BooleanArray, Sparse[bool], ... + # Except for BooleanArray, this is equivalent to just + # np.asarray(mask, dtype=bool) + mask = mask.to_numpy(dtype=bool, na_value=False) + + mask = np.asarray(mask, dtype=bool) + return mask + + +def setitem_datetimelike_compat(values: np.ndarray, num_set: int, other): + """ + Parameters + ---------- + values : np.ndarray + num_set : int + For putmask, this is mask.sum() + other : Any + """ + if values.dtype == object: + dtype, _ = infer_dtype_from(other) + + if lib.is_np_dtype(dtype, "mM"): + # https://github.com/numpy/numpy/issues/12550 + # timedelta64 will incorrectly cast to int + if not is_list_like(other): + other = [other] * num_set + else: + other = list(other) + + return other diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/quantile.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/quantile.py new file mode 100644 index 0000000000000000000000000000000000000000..5c933294fb944f04dd3e9a64e4731ea4349254f9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/quantile.py @@ -0,0 +1,226 @@ +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + Scalar, + npt, + ) + + +def quantile_compat( + values: ArrayLike, qs: npt.NDArray[np.float64], interpolation: str +) -> ArrayLike: + """ + Compute the quantiles of the given values for each quantile in `qs`. + + Parameters + ---------- + values : np.ndarray or ExtensionArray + qs : np.ndarray[float64] + interpolation : str + + Returns + ------- + np.ndarray or ExtensionArray + """ + if isinstance(values, np.ndarray): + fill_value = na_value_for_dtype(values.dtype, compat=False) + mask = isna(values) + return quantile_with_mask(values, mask, fill_value, qs, interpolation) + else: + return values._quantile(qs, interpolation) + + +def quantile_with_mask( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + fill_value, + qs: npt.NDArray[np.float64], + interpolation: str, +) -> np.ndarray: + """ + Compute the quantiles of the given values for each quantile in `qs`. + + Parameters + ---------- + values : np.ndarray + For ExtensionArray, this is _values_for_factorize()[0] + mask : np.ndarray[bool] + mask = isna(values) + For ExtensionArray, this is computed before calling _value_for_factorize + fill_value : Scalar + The value to interpret fill NA entries with + For ExtensionArray, this is _values_for_factorize()[1] + qs : np.ndarray[float64] + interpolation : str + Type of interpolation + + Returns + ------- + np.ndarray + + Notes + ----- + Assumes values is already 2D. For ExtensionArray this means np.atleast_2d + has been called on _values_for_factorize()[0] + + Quantile is computed along axis=1. + """ + assert values.shape == mask.shape + if values.ndim == 1: + # unsqueeze, operate, re-squeeze + values = np.atleast_2d(values) + mask = np.atleast_2d(mask) + res_values = quantile_with_mask(values, mask, fill_value, qs, interpolation) + return res_values[0] + + assert values.ndim == 2 + + is_empty = values.shape[1] == 0 + + if is_empty: + # create the array of na_values + # 2d len(values) * len(qs) + flat = np.array([fill_value] * len(qs)) + result = np.repeat(flat, len(values)).reshape(len(values), len(qs)) + else: + result = _nanpercentile( + values, + qs * 100.0, + na_value=fill_value, + mask=mask, + interpolation=interpolation, + ) + + result = np.asarray(result) + result = result.T + + return result + + +def _nanpercentile_1d( + values: np.ndarray, + mask: npt.NDArray[np.bool_], + qs: npt.NDArray[np.float64], + na_value: Scalar, + interpolation: str, +) -> Scalar | np.ndarray: + """ + Wrapper for np.percentile that skips missing values, specialized to + 1-dimensional case. + + Parameters + ---------- + values : array over which to find quantiles + mask : ndarray[bool] + locations in values that should be considered missing + qs : np.ndarray[float64] of quantile indices to find + na_value : scalar + value to return for empty or all-null values + interpolation : str + + Returns + ------- + quantiles : scalar or array + """ + # mask is Union[ExtensionArray, ndarray] + values = values[~mask] + + if len(values) == 0: + # Can't pass dtype=values.dtype here bc we might have na_value=np.nan + # with values.dtype=int64 see test_quantile_empty + # equiv: 'np.array([na_value] * len(qs))' but much faster + return np.full(len(qs), na_value) + + return np.percentile( + values, + qs, + # error: No overload variant of "percentile" matches argument + # types "ndarray[Any, Any]", "ndarray[Any, dtype[floating[_64Bit]]]" + # , "Dict[str, str]" [call-overload] + method=interpolation, # type: ignore[call-overload] + ) + + +def _nanpercentile( + values: np.ndarray, + qs: npt.NDArray[np.float64], + *, + na_value, + mask: npt.NDArray[np.bool_], + interpolation: str, +): + """ + Wrapper for np.percentile that skips missing values. + + Parameters + ---------- + values : np.ndarray[ndim=2] over which to find quantiles + qs : np.ndarray[float64] of quantile indices to find + na_value : scalar + value to return for empty or all-null values + mask : np.ndarray[bool] + locations in values that should be considered missing + interpolation : str + + Returns + ------- + quantiles : scalar or array + """ + + if values.dtype.kind in "mM": + # need to cast to integer to avoid rounding errors in numpy + result = _nanpercentile( + values.view("i8"), + qs=qs, + na_value=na_value.view("i8"), + mask=mask, + interpolation=interpolation, + ) + + # Note: we have to do `astype` and not view because in general we + # have float result at this point, not i8 + return result.astype(values.dtype) + + if mask.any(): + # Caller is responsible for ensuring mask shape match + assert mask.shape == values.shape + result = [ + _nanpercentile_1d(val, m, qs, na_value, interpolation=interpolation) + for (val, m) in zip(list(values), list(mask)) + ] + if values.dtype.kind == "f": + # preserve itemsize + result = np.asarray(result, dtype=values.dtype).T + else: + result = np.asarray(result).T + if ( + result.dtype != values.dtype + and not mask.all() + and (result == result.astype(values.dtype, copy=False)).all() + ): + # mask.all() will never get cast back to int + # e.g. values id integer dtype and result is floating dtype, + # only cast back to integer dtype if result values are all-integer. + result = result.astype(values.dtype, copy=False) + return result + else: + return np.percentile( + values, + qs, + axis=1, + # error: No overload variant of "percentile" matches argument types + # "ndarray[Any, Any]", "ndarray[Any, dtype[floating[_64Bit]]]", + # "int", "Dict[str, str]" [call-overload] + method=interpolation, # type: ignore[call-overload] + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/replace.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/replace.py new file mode 100644 index 0000000000000000000000000000000000000000..7d40fb985a593b482672e487b5eeaa5f75fac35e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/replace.py @@ -0,0 +1,154 @@ +""" +Methods used by Block.replace and related methods. +""" +from __future__ import annotations + +import operator +import re +from re import Pattern +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np + +from pandas.core.dtypes.common import ( + is_bool, + is_re, + is_re_compilable, +) +from pandas.core.dtypes.missing import isna + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + Scalar, + npt, + ) + + +def should_use_regex(regex: bool, to_replace: Any) -> bool: + """ + Decide whether to treat `to_replace` as a regular expression. + """ + if is_re(to_replace): + regex = True + + regex = regex and is_re_compilable(to_replace) + + # Don't use regex if the pattern is empty. + regex = regex and re.compile(to_replace).pattern != "" + return regex + + +def compare_or_regex_search( + a: ArrayLike, b: Scalar | Pattern, regex: bool, mask: npt.NDArray[np.bool_] +) -> ArrayLike: + """ + Compare two array-like inputs of the same shape or two scalar values + + Calls operator.eq or re.search, depending on regex argument. If regex is + True, perform an element-wise regex matching. + + Parameters + ---------- + a : array-like + b : scalar or regex pattern + regex : bool + mask : np.ndarray[bool] + + Returns + ------- + mask : array-like of bool + """ + if isna(b): + return ~mask + + def _check_comparison_types( + result: ArrayLike | bool, a: ArrayLike, b: Scalar | Pattern + ): + """ + Raises an error if the two arrays (a,b) cannot be compared. + Otherwise, returns the comparison result as expected. + """ + if is_bool(result) and isinstance(a, np.ndarray): + type_names = [type(a).__name__, type(b).__name__] + + type_names[0] = f"ndarray(dtype={a.dtype})" + + raise TypeError( + f"Cannot compare types {repr(type_names[0])} and {repr(type_names[1])}" + ) + + if not regex or not should_use_regex(regex, b): + # TODO: should use missing.mask_missing? + op = lambda x: operator.eq(x, b) + else: + op = np.vectorize( + lambda x: bool(re.search(b, x)) + if isinstance(x, str) and isinstance(b, (str, Pattern)) + else False + ) + + # GH#32621 use mask to avoid comparing to NAs + if isinstance(a, np.ndarray): + a = a[mask] + + result = op(a) + + if isinstance(result, np.ndarray) and mask is not None: + # The shape of the mask can differ to that of the result + # since we may compare only a subset of a's or b's elements + tmp = np.zeros(mask.shape, dtype=np.bool_) + np.place(tmp, mask, result) + result = tmp + + _check_comparison_types(result, a, b) + return result + + +def replace_regex( + values: ArrayLike, rx: re.Pattern, value, mask: npt.NDArray[np.bool_] | None +) -> None: + """ + Parameters + ---------- + values : ArrayLike + Object dtype. + rx : re.Pattern + value : Any + mask : np.ndarray[bool], optional + + Notes + ----- + Alters values in-place. + """ + + # deal with replacing values with objects (strings) that match but + # whose replacement is not a string (numeric, nan, object) + if isna(value) or not isinstance(value, str): + + def re_replacer(s): + if is_re(rx) and isinstance(s, str): + return value if rx.search(s) is not None else s + else: + return s + + else: + # value is guaranteed to be a string here, s can be either a string + # or null if it's null it gets returned + def re_replacer(s): + if is_re(rx) and isinstance(s, str): + return rx.sub(value, s) + else: + return s + + f = np.vectorize(re_replacer, otypes=[np.object_]) + + if mask is None: + values[:] = f(values) + else: + if values.ndim != mask.ndim: + mask = np.broadcast_to(mask, values.shape) + values[mask] = f(values[mask]) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/take.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/take.py new file mode 100644 index 0000000000000000000000000000000000000000..ac674e31586e72040a8e1313f232a00299b961ee --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/take.py @@ -0,0 +1,594 @@ +from __future__ import annotations + +import functools +from typing import ( + TYPE_CHECKING, + cast, + overload, +) + +import numpy as np + +from pandas._libs import ( + algos as libalgos, + lib, +) + +from pandas.core.dtypes.cast import maybe_promote +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_1d_only_ea_dtype, +) +from pandas.core.dtypes.missing import na_value_for_dtype + +from pandas.core.construction import ensure_wrapped_if_datetimelike + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + AxisInt, + npt, + ) + + from pandas.core.arrays._mixins import NDArrayBackedExtensionArray + from pandas.core.arrays.base import ExtensionArray + + +@overload +def take_nd( + arr: np.ndarray, + indexer, + axis: AxisInt = ..., + fill_value=..., + allow_fill: bool = ..., +) -> np.ndarray: + ... + + +@overload +def take_nd( + arr: ExtensionArray, + indexer, + axis: AxisInt = ..., + fill_value=..., + allow_fill: bool = ..., +) -> ArrayLike: + ... + + +def take_nd( + arr: ArrayLike, + indexer, + axis: AxisInt = 0, + fill_value=lib.no_default, + allow_fill: bool = True, +) -> ArrayLike: + """ + Specialized Cython take which sets NaN values in one pass + + This dispatches to ``take`` defined on ExtensionArrays. + + Note: this function assumes that the indexer is a valid(ated) indexer with + no out of bound indices. + + Parameters + ---------- + arr : np.ndarray or ExtensionArray + Input array. + indexer : ndarray + 1-D array of indices to take, subarrays corresponding to -1 value + indices are filed with fill_value + axis : int, default 0 + Axis to take from + fill_value : any, default np.nan + Fill value to replace -1 values with + allow_fill : bool, default True + If False, indexer is assumed to contain no -1 values so no filling + will be done. This short-circuits computation of a mask. Result is + undefined if allow_fill == False and -1 is present in indexer. + + Returns + ------- + subarray : np.ndarray or ExtensionArray + May be the same type as the input, or cast to an ndarray. + """ + if fill_value is lib.no_default: + fill_value = na_value_for_dtype(arr.dtype, compat=False) + elif lib.is_np_dtype(arr.dtype, "mM"): + dtype, fill_value = maybe_promote(arr.dtype, fill_value) + if arr.dtype != dtype: + # EA.take is strict about returning a new object of the same type + # so for that case cast upfront + arr = arr.astype(dtype) + + if not isinstance(arr, np.ndarray): + # i.e. ExtensionArray, + # includes for EA to catch DatetimeArray, TimedeltaArray + if not is_1d_only_ea_dtype(arr.dtype): + # i.e. DatetimeArray, TimedeltaArray + arr = cast("NDArrayBackedExtensionArray", arr) + return arr.take( + indexer, fill_value=fill_value, allow_fill=allow_fill, axis=axis + ) + + return arr.take(indexer, fill_value=fill_value, allow_fill=allow_fill) + + arr = np.asarray(arr) + return _take_nd_ndarray(arr, indexer, axis, fill_value, allow_fill) + + +def _take_nd_ndarray( + arr: np.ndarray, + indexer: npt.NDArray[np.intp] | None, + axis: AxisInt, + fill_value, + allow_fill: bool, +) -> np.ndarray: + if indexer is None: + indexer = np.arange(arr.shape[axis], dtype=np.intp) + dtype, fill_value = arr.dtype, arr.dtype.type() + else: + indexer = ensure_platform_int(indexer) + + dtype, fill_value, mask_info = _take_preprocess_indexer_and_fill_value( + arr, indexer, fill_value, allow_fill + ) + + flip_order = False + if arr.ndim == 2 and arr.flags.f_contiguous: + flip_order = True + + if flip_order: + arr = arr.T + axis = arr.ndim - axis - 1 + + # at this point, it's guaranteed that dtype can hold both the arr values + # and the fill_value + out_shape_ = list(arr.shape) + out_shape_[axis] = len(indexer) + out_shape = tuple(out_shape_) + if arr.flags.f_contiguous and axis == arr.ndim - 1: + # minor tweak that can make an order-of-magnitude difference + # for dataframes initialized directly from 2-d ndarrays + # (s.t. df.values is c-contiguous and df._mgr.blocks[0] is its + # f-contiguous transpose) + out = np.empty(out_shape, dtype=dtype, order="F") + else: + out = np.empty(out_shape, dtype=dtype) + + func = _get_take_nd_function( + arr.ndim, arr.dtype, out.dtype, axis=axis, mask_info=mask_info + ) + func(arr, indexer, out, fill_value) + + if flip_order: + out = out.T + return out + + +def take_1d( + arr: ArrayLike, + indexer: npt.NDArray[np.intp], + fill_value=None, + allow_fill: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> ArrayLike: + """ + Specialized version for 1D arrays. Differences compared to `take_nd`: + + - Assumes input array has already been converted to numpy array / EA + - Assumes indexer is already guaranteed to be intp dtype ndarray + - Only works for 1D arrays + + To ensure the lowest possible overhead. + + Note: similarly to `take_nd`, this function assumes that the indexer is + a valid(ated) indexer with no out of bound indices. + + Parameters + ---------- + arr : np.ndarray or ExtensionArray + Input array. + indexer : ndarray + 1-D array of indices to take (validated indices, intp dtype). + fill_value : any, default np.nan + Fill value to replace -1 values with + allow_fill : bool, default True + If False, indexer is assumed to contain no -1 values so no filling + will be done. This short-circuits computation of a mask. Result is + undefined if allow_fill == False and -1 is present in indexer. + mask : np.ndarray, optional, default None + If `allow_fill` is True, and the mask (where indexer == -1) is already + known, it can be passed to avoid recomputation. + """ + if not isinstance(arr, np.ndarray): + # ExtensionArray -> dispatch to their method + return arr.take(indexer, fill_value=fill_value, allow_fill=allow_fill) + + if not allow_fill: + return arr.take(indexer) + + dtype, fill_value, mask_info = _take_preprocess_indexer_and_fill_value( + arr, indexer, fill_value, True, mask + ) + + # at this point, it's guaranteed that dtype can hold both the arr values + # and the fill_value + out = np.empty(indexer.shape, dtype=dtype) + + func = _get_take_nd_function( + arr.ndim, arr.dtype, out.dtype, axis=0, mask_info=mask_info + ) + func(arr, indexer, out, fill_value) + + return out + + +def take_2d_multi( + arr: np.ndarray, + indexer: tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]], + fill_value=np.nan, +) -> np.ndarray: + """ + Specialized Cython take which sets NaN values in one pass. + """ + # This is only called from one place in DataFrame._reindex_multi, + # so we know indexer is well-behaved. + assert indexer is not None + assert indexer[0] is not None + assert indexer[1] is not None + + row_idx, col_idx = indexer + + row_idx = ensure_platform_int(row_idx) + col_idx = ensure_platform_int(col_idx) + indexer = row_idx, col_idx + mask_info = None + + # check for promotion based on types only (do this first because + # it's faster than computing a mask) + dtype, fill_value = maybe_promote(arr.dtype, fill_value) + if dtype != arr.dtype: + # check if promotion is actually required based on indexer + row_mask = row_idx == -1 + col_mask = col_idx == -1 + row_needs = row_mask.any() + col_needs = col_mask.any() + mask_info = (row_mask, col_mask), (row_needs, col_needs) + + if not (row_needs or col_needs): + # if not, then depromote, set fill_value to dummy + # (it won't be used but we don't want the cython code + # to crash when trying to cast it to dtype) + dtype, fill_value = arr.dtype, arr.dtype.type() + + # at this point, it's guaranteed that dtype can hold both the arr values + # and the fill_value + out_shape = len(row_idx), len(col_idx) + out = np.empty(out_shape, dtype=dtype) + + func = _take_2d_multi_dict.get((arr.dtype.name, out.dtype.name), None) + if func is None and arr.dtype != out.dtype: + func = _take_2d_multi_dict.get((out.dtype.name, out.dtype.name), None) + if func is not None: + func = _convert_wrapper(func, out.dtype) + + if func is not None: + func(arr, indexer, out=out, fill_value=fill_value) + else: + # test_reindex_multi + _take_2d_multi_object( + arr, indexer, out, fill_value=fill_value, mask_info=mask_info + ) + + return out + + +@functools.lru_cache +def _get_take_nd_function_cached( + ndim: int, arr_dtype: np.dtype, out_dtype: np.dtype, axis: AxisInt +): + """ + Part of _get_take_nd_function below that doesn't need `mask_info` and thus + can be cached (mask_info potentially contains a numpy ndarray which is not + hashable and thus cannot be used as argument for cached function). + """ + tup = (arr_dtype.name, out_dtype.name) + if ndim == 1: + func = _take_1d_dict.get(tup, None) + elif ndim == 2: + if axis == 0: + func = _take_2d_axis0_dict.get(tup, None) + else: + func = _take_2d_axis1_dict.get(tup, None) + if func is not None: + return func + + # We get here with string, uint, float16, and complex dtypes that could + # potentially be handled in algos_take_helper. + # Also a couple with (M8[ns], object) and (m8[ns], object) + tup = (out_dtype.name, out_dtype.name) + if ndim == 1: + func = _take_1d_dict.get(tup, None) + elif ndim == 2: + if axis == 0: + func = _take_2d_axis0_dict.get(tup, None) + else: + func = _take_2d_axis1_dict.get(tup, None) + if func is not None: + func = _convert_wrapper(func, out_dtype) + return func + + return None + + +def _get_take_nd_function( + ndim: int, + arr_dtype: np.dtype, + out_dtype: np.dtype, + axis: AxisInt = 0, + mask_info=None, +): + """ + Get the appropriate "take" implementation for the given dimension, axis + and dtypes. + """ + func = None + if ndim <= 2: + # for this part we don't need `mask_info` -> use the cached algo lookup + func = _get_take_nd_function_cached(ndim, arr_dtype, out_dtype, axis) + + if func is None: + + def func(arr, indexer, out, fill_value=np.nan) -> None: + indexer = ensure_platform_int(indexer) + _take_nd_object( + arr, indexer, out, axis=axis, fill_value=fill_value, mask_info=mask_info + ) + + return func + + +def _view_wrapper(f, arr_dtype=None, out_dtype=None, fill_wrap=None): + def wrapper( + arr: np.ndarray, indexer: np.ndarray, out: np.ndarray, fill_value=np.nan + ) -> None: + if arr_dtype is not None: + arr = arr.view(arr_dtype) + if out_dtype is not None: + out = out.view(out_dtype) + if fill_wrap is not None: + # FIXME: if we get here with dt64/td64 we need to be sure we have + # matching resos + if fill_value.dtype.kind == "m": + fill_value = fill_value.astype("m8[ns]") + else: + fill_value = fill_value.astype("M8[ns]") + fill_value = fill_wrap(fill_value) + + f(arr, indexer, out, fill_value=fill_value) + + return wrapper + + +def _convert_wrapper(f, conv_dtype): + def wrapper( + arr: np.ndarray, indexer: np.ndarray, out: np.ndarray, fill_value=np.nan + ) -> None: + if conv_dtype == object: + # GH#39755 avoid casting dt64/td64 to integers + arr = ensure_wrapped_if_datetimelike(arr) + arr = arr.astype(conv_dtype) + f(arr, indexer, out, fill_value=fill_value) + + return wrapper + + +_take_1d_dict = { + ("int8", "int8"): libalgos.take_1d_int8_int8, + ("int8", "int32"): libalgos.take_1d_int8_int32, + ("int8", "int64"): libalgos.take_1d_int8_int64, + ("int8", "float64"): libalgos.take_1d_int8_float64, + ("int16", "int16"): libalgos.take_1d_int16_int16, + ("int16", "int32"): libalgos.take_1d_int16_int32, + ("int16", "int64"): libalgos.take_1d_int16_int64, + ("int16", "float64"): libalgos.take_1d_int16_float64, + ("int32", "int32"): libalgos.take_1d_int32_int32, + ("int32", "int64"): libalgos.take_1d_int32_int64, + ("int32", "float64"): libalgos.take_1d_int32_float64, + ("int64", "int64"): libalgos.take_1d_int64_int64, + ("int64", "float64"): libalgos.take_1d_int64_float64, + ("float32", "float32"): libalgos.take_1d_float32_float32, + ("float32", "float64"): libalgos.take_1d_float32_float64, + ("float64", "float64"): libalgos.take_1d_float64_float64, + ("object", "object"): libalgos.take_1d_object_object, + ("bool", "bool"): _view_wrapper(libalgos.take_1d_bool_bool, np.uint8, np.uint8), + ("bool", "object"): _view_wrapper(libalgos.take_1d_bool_object, np.uint8, None), + ("datetime64[ns]", "datetime64[ns]"): _view_wrapper( + libalgos.take_1d_int64_int64, np.int64, np.int64, np.int64 + ), + ("timedelta64[ns]", "timedelta64[ns]"): _view_wrapper( + libalgos.take_1d_int64_int64, np.int64, np.int64, np.int64 + ), +} + +_take_2d_axis0_dict = { + ("int8", "int8"): libalgos.take_2d_axis0_int8_int8, + ("int8", "int32"): libalgos.take_2d_axis0_int8_int32, + ("int8", "int64"): libalgos.take_2d_axis0_int8_int64, + ("int8", "float64"): libalgos.take_2d_axis0_int8_float64, + ("int16", "int16"): libalgos.take_2d_axis0_int16_int16, + ("int16", "int32"): libalgos.take_2d_axis0_int16_int32, + ("int16", "int64"): libalgos.take_2d_axis0_int16_int64, + ("int16", "float64"): libalgos.take_2d_axis0_int16_float64, + ("int32", "int32"): libalgos.take_2d_axis0_int32_int32, + ("int32", "int64"): libalgos.take_2d_axis0_int32_int64, + ("int32", "float64"): libalgos.take_2d_axis0_int32_float64, + ("int64", "int64"): libalgos.take_2d_axis0_int64_int64, + ("int64", "float64"): libalgos.take_2d_axis0_int64_float64, + ("float32", "float32"): libalgos.take_2d_axis0_float32_float32, + ("float32", "float64"): libalgos.take_2d_axis0_float32_float64, + ("float64", "float64"): libalgos.take_2d_axis0_float64_float64, + ("object", "object"): libalgos.take_2d_axis0_object_object, + ("bool", "bool"): _view_wrapper( + libalgos.take_2d_axis0_bool_bool, np.uint8, np.uint8 + ), + ("bool", "object"): _view_wrapper( + libalgos.take_2d_axis0_bool_object, np.uint8, None + ), + ("datetime64[ns]", "datetime64[ns]"): _view_wrapper( + libalgos.take_2d_axis0_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), + ("timedelta64[ns]", "timedelta64[ns]"): _view_wrapper( + libalgos.take_2d_axis0_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), +} + +_take_2d_axis1_dict = { + ("int8", "int8"): libalgos.take_2d_axis1_int8_int8, + ("int8", "int32"): libalgos.take_2d_axis1_int8_int32, + ("int8", "int64"): libalgos.take_2d_axis1_int8_int64, + ("int8", "float64"): libalgos.take_2d_axis1_int8_float64, + ("int16", "int16"): libalgos.take_2d_axis1_int16_int16, + ("int16", "int32"): libalgos.take_2d_axis1_int16_int32, + ("int16", "int64"): libalgos.take_2d_axis1_int16_int64, + ("int16", "float64"): libalgos.take_2d_axis1_int16_float64, + ("int32", "int32"): libalgos.take_2d_axis1_int32_int32, + ("int32", "int64"): libalgos.take_2d_axis1_int32_int64, + ("int32", "float64"): libalgos.take_2d_axis1_int32_float64, + ("int64", "int64"): libalgos.take_2d_axis1_int64_int64, + ("int64", "float64"): libalgos.take_2d_axis1_int64_float64, + ("float32", "float32"): libalgos.take_2d_axis1_float32_float32, + ("float32", "float64"): libalgos.take_2d_axis1_float32_float64, + ("float64", "float64"): libalgos.take_2d_axis1_float64_float64, + ("object", "object"): libalgos.take_2d_axis1_object_object, + ("bool", "bool"): _view_wrapper( + libalgos.take_2d_axis1_bool_bool, np.uint8, np.uint8 + ), + ("bool", "object"): _view_wrapper( + libalgos.take_2d_axis1_bool_object, np.uint8, None + ), + ("datetime64[ns]", "datetime64[ns]"): _view_wrapper( + libalgos.take_2d_axis1_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), + ("timedelta64[ns]", "timedelta64[ns]"): _view_wrapper( + libalgos.take_2d_axis1_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), +} + +_take_2d_multi_dict = { + ("int8", "int8"): libalgos.take_2d_multi_int8_int8, + ("int8", "int32"): libalgos.take_2d_multi_int8_int32, + ("int8", "int64"): libalgos.take_2d_multi_int8_int64, + ("int8", "float64"): libalgos.take_2d_multi_int8_float64, + ("int16", "int16"): libalgos.take_2d_multi_int16_int16, + ("int16", "int32"): libalgos.take_2d_multi_int16_int32, + ("int16", "int64"): libalgos.take_2d_multi_int16_int64, + ("int16", "float64"): libalgos.take_2d_multi_int16_float64, + ("int32", "int32"): libalgos.take_2d_multi_int32_int32, + ("int32", "int64"): libalgos.take_2d_multi_int32_int64, + ("int32", "float64"): libalgos.take_2d_multi_int32_float64, + ("int64", "int64"): libalgos.take_2d_multi_int64_int64, + ("int64", "float64"): libalgos.take_2d_multi_int64_float64, + ("float32", "float32"): libalgos.take_2d_multi_float32_float32, + ("float32", "float64"): libalgos.take_2d_multi_float32_float64, + ("float64", "float64"): libalgos.take_2d_multi_float64_float64, + ("object", "object"): libalgos.take_2d_multi_object_object, + ("bool", "bool"): _view_wrapper( + libalgos.take_2d_multi_bool_bool, np.uint8, np.uint8 + ), + ("bool", "object"): _view_wrapper( + libalgos.take_2d_multi_bool_object, np.uint8, None + ), + ("datetime64[ns]", "datetime64[ns]"): _view_wrapper( + libalgos.take_2d_multi_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), + ("timedelta64[ns]", "timedelta64[ns]"): _view_wrapper( + libalgos.take_2d_multi_int64_int64, np.int64, np.int64, fill_wrap=np.int64 + ), +} + + +def _take_nd_object( + arr: np.ndarray, + indexer: npt.NDArray[np.intp], + out: np.ndarray, + axis: AxisInt, + fill_value, + mask_info, +) -> None: + if mask_info is not None: + mask, needs_masking = mask_info + else: + mask = indexer == -1 + needs_masking = mask.any() + if arr.dtype != out.dtype: + arr = arr.astype(out.dtype) + if arr.shape[axis] > 0: + arr.take(indexer, axis=axis, out=out) + if needs_masking: + outindexer = [slice(None)] * arr.ndim + outindexer[axis] = mask + out[tuple(outindexer)] = fill_value + + +def _take_2d_multi_object( + arr: np.ndarray, + indexer: tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]], + out: np.ndarray, + fill_value, + mask_info, +) -> None: + # this is not ideal, performance-wise, but it's better than raising + # an exception (best to optimize in Cython to avoid getting here) + row_idx, col_idx = indexer # both np.intp + if mask_info is not None: + (row_mask, col_mask), (row_needs, col_needs) = mask_info + else: + row_mask = row_idx == -1 + col_mask = col_idx == -1 + row_needs = row_mask.any() + col_needs = col_mask.any() + if fill_value is not None: + if row_needs: + out[row_mask, :] = fill_value + if col_needs: + out[:, col_mask] = fill_value + for i, u_ in enumerate(row_idx): + if u_ != -1: + for j, v in enumerate(col_idx): + if v != -1: + out[i, j] = arr[u_, v] + + +def _take_preprocess_indexer_and_fill_value( + arr: np.ndarray, + indexer: npt.NDArray[np.intp], + fill_value, + allow_fill: bool, + mask: npt.NDArray[np.bool_] | None = None, +): + mask_info: tuple[np.ndarray | None, bool] | None = None + + if not allow_fill: + dtype, fill_value = arr.dtype, arr.dtype.type() + mask_info = None, False + else: + # check for promotion based on types only (do this first because + # it's faster than computing a mask) + dtype, fill_value = maybe_promote(arr.dtype, fill_value) + if dtype != arr.dtype: + # check if promotion is actually required based on indexer + if mask is not None: + needs_masking = True + else: + mask = indexer == -1 + needs_masking = bool(mask.any()) + mask_info = mask, needs_masking + if not needs_masking: + # if not, then depromote, set fill_value to dummy + # (it won't be used but we don't want the cython code + # to crash when trying to cast it to dtype) + dtype, fill_value = arr.dtype, arr.dtype.type() + + return dtype, fill_value, mask_info diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/transforms.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/transforms.py new file mode 100644 index 0000000000000000000000000000000000000000..ec67244949e3db92cc811b19cdfcd5d1dd2b4de8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/array_algos/transforms.py @@ -0,0 +1,50 @@ +""" +transforms.py is for shape-preserving functions. +""" + +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +if TYPE_CHECKING: + from pandas._typing import ( + AxisInt, + Scalar, + ) + + +def shift( + values: np.ndarray, periods: int, axis: AxisInt, fill_value: Scalar +) -> np.ndarray: + new_values = values + + if periods == 0 or values.size == 0: + return new_values.copy() + + # make sure array sent to np.roll is c_contiguous + f_ordered = values.flags.f_contiguous + if f_ordered: + new_values = new_values.T + axis = new_values.ndim - axis - 1 + + if new_values.size: + new_values = np.roll( + new_values, + np.intp(periods), + axis=axis, + ) + + axis_indexer = [slice(None)] * values.ndim + if periods > 0: + axis_indexer[axis] = slice(None, periods) + else: + axis_indexer[axis] = slice(periods, None) + new_values[tuple(axis_indexer)] = fill_value + + # restore original order + if f_ordered: + new_values = new_values.T + + return new_values diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..245a171fea74bc9409a315b64d157a37b3da6eaa --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__init__.py @@ -0,0 +1,43 @@ +from pandas.core.arrays.arrow import ArrowExtensionArray +from pandas.core.arrays.base import ( + ExtensionArray, + ExtensionOpsMixin, + ExtensionScalarOpsMixin, +) +from pandas.core.arrays.boolean import BooleanArray +from pandas.core.arrays.categorical import Categorical +from pandas.core.arrays.datetimes import DatetimeArray +from pandas.core.arrays.floating import FloatingArray +from pandas.core.arrays.integer import IntegerArray +from pandas.core.arrays.interval import IntervalArray +from pandas.core.arrays.masked import BaseMaskedArray +from pandas.core.arrays.numpy_ import NumpyExtensionArray +from pandas.core.arrays.period import ( + PeriodArray, + period_array, +) +from pandas.core.arrays.sparse import SparseArray +from pandas.core.arrays.string_ import StringArray +from pandas.core.arrays.string_arrow import ArrowStringArray +from pandas.core.arrays.timedeltas import TimedeltaArray + +__all__ = [ + "ArrowExtensionArray", + "ExtensionArray", + "ExtensionOpsMixin", + "ExtensionScalarOpsMixin", + "ArrowStringArray", + "BaseMaskedArray", + "BooleanArray", + "Categorical", + "DatetimeArray", + "FloatingArray", + "IntegerArray", + "IntervalArray", + "NumpyExtensionArray", + "PeriodArray", + "period_array", + "SparseArray", + "StringArray", + "TimedeltaArray", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..fe316844ab0d809e8f643d278360d393e8d6bff4 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__pycache__/__init__.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/__pycache__/_arrow_string_mixins.cpython-310.pyc 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0000000000000000000000000000000000000000..e136b4f92031dc4aacac55ea857d641b9d53c15b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_arrow_string_mixins.py @@ -0,0 +1,356 @@ +from __future__ import annotations + +from functools import partial +import re +from typing import ( + TYPE_CHECKING, + Any, + Literal, +) + +import numpy as np + +from pandas._libs import lib +from pandas.compat import ( + pa_version_under10p1, + pa_version_under11p0, + pa_version_under13p0, + pa_version_under17p0, +) + +if not pa_version_under10p1: + import pyarrow as pa + import pyarrow.compute as pc + +if TYPE_CHECKING: + from collections.abc import Callable + + from pandas._typing import ( + Scalar, + Self, + ) + + +class ArrowStringArrayMixin: + _pa_array: pa.ChunkedArray + + def __init__(self, *args, **kwargs) -> None: + raise NotImplementedError + + def _convert_bool_result(self, result, na=lib.no_default, method_name=None): + # Convert a bool-dtype result to the appropriate result type + raise NotImplementedError + + def _convert_int_result(self, result): + # Convert an integer-dtype result to the appropriate result type + raise NotImplementedError + + def _apply_elementwise(self, func: Callable) -> list[list[Any]]: + raise NotImplementedError + + def _str_len(self): + result = pc.utf8_length(self._pa_array) + return self._convert_int_result(result) + + def _str_lower(self) -> Self: + return type(self)(pc.utf8_lower(self._pa_array)) + + def _str_upper(self) -> Self: + return type(self)(pc.utf8_upper(self._pa_array)) + + def _str_strip(self, to_strip=None) -> Self: + if to_strip is None: + result = pc.utf8_trim_whitespace(self._pa_array) + else: + result = pc.utf8_trim(self._pa_array, characters=to_strip) + return type(self)(result) + + def _str_lstrip(self, to_strip=None) -> Self: + if to_strip is None: + result = pc.utf8_ltrim_whitespace(self._pa_array) + else: + result = pc.utf8_ltrim(self._pa_array, characters=to_strip) + return type(self)(result) + + def _str_rstrip(self, to_strip=None) -> Self: + if to_strip is None: + result = pc.utf8_rtrim_whitespace(self._pa_array) + else: + result = pc.utf8_rtrim(self._pa_array, characters=to_strip) + return type(self)(result) + + def _str_pad( + self, + width: int, + side: Literal["left", "right", "both"] = "left", + fillchar: str = " ", + ): + if side == "left": + pa_pad = pc.utf8_lpad + elif side == "right": + pa_pad = pc.utf8_rpad + elif side == "both": + if pa_version_under17p0: + # GH#59624 fall back to object dtype + from pandas import array as pd_array + + obj_arr = self.astype(object, copy=False) # type: ignore[attr-defined] + obj = pd_array(obj_arr, dtype=object) + result = obj._str_pad(width, side, fillchar) # type: ignore[attr-defined] + return type(self)._from_sequence(result, dtype=self.dtype) # type: ignore[attr-defined] + else: + # GH#54792 + # https://github.com/apache/arrow/issues/15053#issuecomment-2317032347 + lean_left = (width % 2) == 0 + pa_pad = partial(pc.utf8_center, lean_left_on_odd_padding=lean_left) + else: + raise ValueError( + f"Invalid side: {side}. Side must be one of 'left', 'right', 'both'" + ) + return type(self)(pa_pad(self._pa_array, width=width, padding=fillchar)) + + def _str_get(self, i: int): + lengths = pc.utf8_length(self._pa_array) + if i >= 0: + out_of_bounds = pc.greater_equal(i, lengths) + start = i + stop = i + 1 + step = 1 + else: + out_of_bounds = pc.greater(-i, lengths) + start = i + stop = i - 1 + step = -1 + not_out_of_bounds = pc.invert(out_of_bounds.fill_null(True)) + selected = pc.utf8_slice_codeunits( + self._pa_array, start=start, stop=stop, step=step + ) + null_value = pa.scalar(None, type=self._pa_array.type) + result = pc.if_else(not_out_of_bounds, selected, null_value) + return type(self)(result) + + def _str_slice( + self, start: int | None = None, stop: int | None = None, step: int | None = None + ): + if pa_version_under11p0: + # GH#59724 + result = self._apply_elementwise(lambda val: val[start:stop:step]) + return type(self)(pa.chunked_array(result, type=self._pa_array.type)) + if start is None: + if step is not None and step < 0: + # GH#59710 + start = -1 + else: + start = 0 + if step is None: + step = 1 + return type(self)( + pc.utf8_slice_codeunits(self._pa_array, start=start, stop=stop, step=step) + ) + + def _str_slice_replace( + self, start: int | None = None, stop: int | None = None, repl: str | None = None + ): + if repl is None: + repl = "" + if start is None: + start = 0 + if stop is None: + stop = np.iinfo(np.int64).max + return type(self)(pc.utf8_replace_slice(self._pa_array, start, stop, repl)) + + def _str_replace( + self, + pat: str | re.Pattern, + repl: str | Callable, + n: int = -1, + case: bool = True, + flags: int = 0, + regex: bool = True, + ) -> Self: + if isinstance(pat, re.Pattern) or callable(repl) or not case or flags: + raise NotImplementedError( + "replace is not supported with a re.Pattern, callable repl, " + "case=False, or flags!=0" + ) + + func = pc.replace_substring_regex if regex else pc.replace_substring + # https://github.com/apache/arrow/issues/39149 + # GH 56404, unexpected behavior with negative max_replacements with pyarrow. + pa_max_replacements = None if n < 0 else n + result = func( + self._pa_array, + pattern=pat, + replacement=repl, + max_replacements=pa_max_replacements, + ) + return type(self)(result) + + def _str_capitalize(self) -> Self: + return type(self)(pc.utf8_capitalize(self._pa_array)) + + def _str_title(self): + return type(self)(pc.utf8_title(self._pa_array)) + + def _str_swapcase(self): + return type(self)(pc.utf8_swapcase(self._pa_array)) + + def _str_removeprefix(self, prefix: str): + if not pa_version_under13p0: + starts_with = pc.starts_with(self._pa_array, pattern=prefix) + removed = pc.utf8_slice_codeunits(self._pa_array, len(prefix)) + result = pc.if_else(starts_with, removed, self._pa_array) + return type(self)(result) + predicate = lambda val: val.removeprefix(prefix) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_removesuffix(self, suffix: str): + ends_with = pc.ends_with(self._pa_array, pattern=suffix) + removed = pc.utf8_slice_codeunits(self._pa_array, 0, stop=-len(suffix)) + result = pc.if_else(ends_with, removed, self._pa_array) + return type(self)(result) + + def _str_startswith( + self, pat: str | tuple[str, ...], na: Scalar | lib.NoDefault = lib.no_default + ): + if isinstance(pat, str): + result = pc.starts_with(self._pa_array, pattern=pat) + else: + if len(pat) == 0: + # For empty tuple we return null for missing values and False + # for valid values. + result = pc.if_else(pc.is_null(self._pa_array), None, False) + else: + result = pc.starts_with(self._pa_array, pattern=pat[0]) + + for p in pat[1:]: + result = pc.or_(result, pc.starts_with(self._pa_array, pattern=p)) + return self._convert_bool_result(result, na=na, method_name="startswith") + + def _str_endswith( + self, pat: str | tuple[str, ...], na: Scalar | lib.NoDefault = lib.no_default + ): + if isinstance(pat, str): + result = pc.ends_with(self._pa_array, pattern=pat) + else: + if len(pat) == 0: + # For empty tuple we return null for missing values and False + # for valid values. + result = pc.if_else(pc.is_null(self._pa_array), None, False) + else: + result = pc.ends_with(self._pa_array, pattern=pat[0]) + + for p in pat[1:]: + result = pc.or_(result, pc.ends_with(self._pa_array, pattern=p)) + return self._convert_bool_result(result, na=na, method_name="endswith") + + def _str_isalnum(self): + result = pc.utf8_is_alnum(self._pa_array) + return self._convert_bool_result(result) + + def _str_isalpha(self): + result = pc.utf8_is_alpha(self._pa_array) + return self._convert_bool_result(result) + + def _str_isdecimal(self): + result = pc.utf8_is_decimal(self._pa_array) + return self._convert_bool_result(result) + + def _str_isdigit(self): + result = pc.utf8_is_digit(self._pa_array) + return self._convert_bool_result(result) + + def _str_islower(self): + result = pc.utf8_is_lower(self._pa_array) + return self._convert_bool_result(result) + + def _str_isnumeric(self): + result = pc.utf8_is_numeric(self._pa_array) + return self._convert_bool_result(result) + + def _str_isspace(self): + result = pc.utf8_is_space(self._pa_array) + return self._convert_bool_result(result) + + def _str_istitle(self): + result = pc.utf8_is_title(self._pa_array) + return self._convert_bool_result(result) + + def _str_isupper(self): + result = pc.utf8_is_upper(self._pa_array) + return self._convert_bool_result(result) + + def _str_contains( + self, + pat, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + regex: bool = True, + ): + if flags: + raise NotImplementedError(f"contains not implemented with {flags=}") + + if regex: + pa_contains = pc.match_substring_regex + else: + pa_contains = pc.match_substring + result = pa_contains(self._pa_array, pat, ignore_case=not case) + return self._convert_bool_result(result, na=na, method_name="contains") + + def _str_match( + self, + pat: str, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + if not pat.startswith("^"): + pat = f"^{pat}" + return self._str_contains(pat, case, flags, na, regex=True) + + def _str_fullmatch( + self, + pat, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + if not pat.endswith("$") or pat.endswith("\\$"): + pat = f"{pat}$" + return self._str_match(pat, case, flags, na) + + def _str_find(self, sub: str, start: int = 0, end: int | None = None): + if ( + pa_version_under13p0 + and not (start != 0 and end is not None) + and not (start == 0 and end is None) + ): + # GH#59562 + res_list = self._apply_elementwise(lambda val: val.find(sub, start, end)) + return self._convert_int_result(pa.chunked_array(res_list)) + + if (start == 0 or start is None) and end is None: + result = pc.find_substring(self._pa_array, sub) + else: + if sub == "": + # GH#56792 + res_list = self._apply_elementwise( + lambda val: val.find(sub, start, end) + ) + return self._convert_int_result(pa.chunked_array(res_list)) + if start is None: + start_offset = 0 + start = 0 + elif start < 0: + start_offset = pc.add(start, pc.utf8_length(self._pa_array)) + start_offset = pc.if_else(pc.less(start_offset, 0), 0, start_offset) + else: + start_offset = start + slices = pc.utf8_slice_codeunits(self._pa_array, start, stop=end) + result = pc.find_substring(slices, sub) + found = pc.not_equal(result, pa.scalar(-1, type=result.type)) + offset_result = pc.add(result, start_offset) + result = pc.if_else(found, offset_result, -1) + return self._convert_int_result(result) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_mixins.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_mixins.py new file mode 100644 index 0000000000000000000000000000000000000000..cb6861a8dd00ff29edb398f0a8cc6ca73205c78d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_mixins.py @@ -0,0 +1,544 @@ +from __future__ import annotations + +from functools import wraps +from typing import ( + TYPE_CHECKING, + Any, + Literal, + cast, + overload, +) + +import numpy as np + +from pandas._libs import lib +from pandas._libs.arrays import NDArrayBacked +from pandas._libs.tslibs import is_supported_dtype +from pandas._typing import ( + ArrayLike, + AxisInt, + Dtype, + F, + FillnaOptions, + PositionalIndexer2D, + PositionalIndexerTuple, + ScalarIndexer, + Self, + SequenceIndexer, + Shape, + TakeIndexer, + npt, +) +from pandas.errors import AbstractMethodError +from pandas.util._decorators import doc +from pandas.util._validators import ( + validate_bool_kwarg, + validate_fillna_kwargs, + validate_insert_loc, +) + +from pandas.core.dtypes.common import pandas_dtype +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + ExtensionDtype, + PeriodDtype, +) +from pandas.core.dtypes.missing import array_equivalent + +from pandas.core import missing +from pandas.core.algorithms import ( + take, + unique, + value_counts_internal as value_counts, +) +from pandas.core.array_algos.quantile import quantile_with_mask +from pandas.core.array_algos.transforms import shift +from pandas.core.arrays.base import ExtensionArray +from pandas.core.construction import extract_array +from pandas.core.indexers import check_array_indexer +from pandas.core.sorting import nargminmax + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + NumpySorter, + NumpyValueArrayLike, + ) + + from pandas import Series + + +def ravel_compat(meth: F) -> F: + """ + Decorator to ravel a 2D array before passing it to a cython operation, + then reshape the result to our own shape. + """ + + @wraps(meth) + def method(self, *args, **kwargs): + if self.ndim == 1: + return meth(self, *args, **kwargs) + + flags = self._ndarray.flags + flat = self.ravel("K") + result = meth(flat, *args, **kwargs) + order = "F" if flags.f_contiguous else "C" + return result.reshape(self.shape, order=order) + + return cast(F, method) + + +class NDArrayBackedExtensionArray(NDArrayBacked, ExtensionArray): + """ + ExtensionArray that is backed by a single NumPy ndarray. + """ + + _ndarray: np.ndarray + + # scalar used to denote NA value inside our self._ndarray, e.g. -1 + # for Categorical, iNaT for Period. Outside of object dtype, + # self.isna() should be exactly locations in self._ndarray with + # _internal_fill_value. + _internal_fill_value: Any + + def _box_func(self, x): + """ + Wrap numpy type in our dtype.type if necessary. + """ + return x + + def _validate_scalar(self, value): + # used by NDArrayBackedExtensionIndex.insert + raise AbstractMethodError(self) + + # ------------------------------------------------------------------------ + + def view(self, dtype: Dtype | None = None) -> ArrayLike: + # We handle datetime64, datetime64tz, timedelta64, and period + # dtypes here. Everything else we pass through to the underlying + # ndarray. + if dtype is None or dtype is self.dtype: + return self._from_backing_data(self._ndarray) + + if isinstance(dtype, type): + # we sometimes pass non-dtype objects, e.g np.ndarray; + # pass those through to the underlying ndarray + return self._ndarray.view(dtype) + + dtype = pandas_dtype(dtype) + arr = self._ndarray + + if isinstance(dtype, PeriodDtype): + cls = dtype.construct_array_type() + return cls(arr.view("i8"), dtype=dtype) + elif isinstance(dtype, DatetimeTZDtype): + dt_cls = dtype.construct_array_type() + dt64_values = arr.view(f"M8[{dtype.unit}]") + return dt_cls._simple_new(dt64_values, dtype=dtype) + elif lib.is_np_dtype(dtype, "M") and is_supported_dtype(dtype): + from pandas.core.arrays import DatetimeArray + + dt64_values = arr.view(dtype) + return DatetimeArray._simple_new(dt64_values, dtype=dtype) + + elif lib.is_np_dtype(dtype, "m") and is_supported_dtype(dtype): + from pandas.core.arrays import TimedeltaArray + + td64_values = arr.view(dtype) + return TimedeltaArray._simple_new(td64_values, dtype=dtype) + + # error: Argument "dtype" to "view" of "_ArrayOrScalarCommon" has incompatible + # type "Union[ExtensionDtype, dtype[Any]]"; expected "Union[dtype[Any], None, + # type, _SupportsDType, str, Union[Tuple[Any, int], Tuple[Any, Union[int, + # Sequence[int]]], List[Any], _DTypeDict, Tuple[Any, Any]]]" + return arr.view(dtype=dtype) # type: ignore[arg-type] + + def take( + self, + indices: TakeIndexer, + *, + allow_fill: bool = False, + fill_value: Any = None, + axis: AxisInt = 0, + ) -> Self: + if allow_fill: + fill_value = self._validate_scalar(fill_value) + + new_data = take( + self._ndarray, + indices, + allow_fill=allow_fill, + fill_value=fill_value, + axis=axis, + ) + return self._from_backing_data(new_data) + + # ------------------------------------------------------------------------ + + def equals(self, other) -> bool: + if type(self) is not type(other): + return False + if self.dtype != other.dtype: + return False + return bool(array_equivalent(self._ndarray, other._ndarray, dtype_equal=True)) + + @classmethod + def _from_factorized(cls, values, original): + assert values.dtype == original._ndarray.dtype + return original._from_backing_data(values) + + def _values_for_argsort(self) -> np.ndarray: + return self._ndarray + + def _values_for_factorize(self): + return self._ndarray, self._internal_fill_value + + def _hash_pandas_object( + self, *, encoding: str, hash_key: str, categorize: bool + ) -> npt.NDArray[np.uint64]: + from pandas.core.util.hashing import hash_array + + values = self._ndarray + return hash_array( + values, encoding=encoding, hash_key=hash_key, categorize=categorize + ) + + # Signature of "argmin" incompatible with supertype "ExtensionArray" + def argmin(self, axis: AxisInt = 0, skipna: bool = True): # type: ignore[override] + # override base class by adding axis keyword + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return nargminmax(self, "argmin", axis=axis) + + # Signature of "argmax" incompatible with supertype "ExtensionArray" + def argmax(self, axis: AxisInt = 0, skipna: bool = True): # type: ignore[override] + # override base class by adding axis keyword + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return nargminmax(self, "argmax", axis=axis) + + def unique(self) -> Self: + new_data = unique(self._ndarray) + return self._from_backing_data(new_data) + + @classmethod + @doc(ExtensionArray._concat_same_type) + def _concat_same_type( + cls, + to_concat: Sequence[Self], + axis: AxisInt = 0, + ) -> Self: + if not lib.dtypes_all_equal([x.dtype for x in to_concat]): + dtypes = {str(x.dtype) for x in to_concat} + raise ValueError("to_concat must have the same dtype", dtypes) + + return super()._concat_same_type(to_concat, axis=axis) + + @doc(ExtensionArray.searchsorted) + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + npvalue = self._validate_setitem_value(value) + return self._ndarray.searchsorted(npvalue, side=side, sorter=sorter) + + @doc(ExtensionArray.shift) + def shift(self, periods: int = 1, fill_value=None): + # NB: shift is always along axis=0 + axis = 0 + fill_value = self._validate_scalar(fill_value) + new_values = shift(self._ndarray, periods, axis, fill_value) + + return self._from_backing_data(new_values) + + def __setitem__(self, key, value) -> None: + key = check_array_indexer(self, key) + value = self._validate_setitem_value(value) + self._ndarray[key] = value + + def _validate_setitem_value(self, value): + return value + + @overload + def __getitem__(self, key: ScalarIndexer) -> Any: + ... + + @overload + def __getitem__( + self, + key: SequenceIndexer | PositionalIndexerTuple, + ) -> Self: + ... + + def __getitem__( + self, + key: PositionalIndexer2D, + ) -> Self | Any: + if lib.is_integer(key): + # fast-path + result = self._ndarray[key] + if self.ndim == 1: + return self._box_func(result) + return self._from_backing_data(result) + + # error: Incompatible types in assignment (expression has type "ExtensionArray", + # variable has type "Union[int, slice, ndarray]") + key = extract_array(key, extract_numpy=True) # type: ignore[assignment] + key = check_array_indexer(self, key) + result = self._ndarray[key] + if lib.is_scalar(result): + return self._box_func(result) + + result = self._from_backing_data(result) + return result + + def _fill_mask_inplace( + self, method: str, limit: int | None, mask: npt.NDArray[np.bool_] + ) -> None: + # (for now) when self.ndim == 2, we assume axis=0 + func = missing.get_fill_func(method, ndim=self.ndim) + func(self._ndarray.T, limit=limit, mask=mask.T) + + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + mask = self.isna() + if mask.any(): + # (for now) when self.ndim == 2, we assume axis=0 + func = missing.get_fill_func(method, ndim=self.ndim) + + npvalues = self._ndarray.T + if copy: + npvalues = npvalues.copy() + func(npvalues, limit=limit, limit_area=limit_area, mask=mask.T) + npvalues = npvalues.T + + if copy: + new_values = self._from_backing_data(npvalues) + else: + new_values = self + + else: + if copy: + new_values = self.copy() + else: + new_values = self + return new_values + + @doc(ExtensionArray.fillna) + def fillna( + self, value=None, method=None, limit: int | None = None, copy: bool = True + ) -> Self: + value, method = validate_fillna_kwargs( + value, method, validate_scalar_dict_value=False + ) + + mask = self.isna() + # error: Argument 2 to "check_value_size" has incompatible type + # "ExtensionArray"; expected "ndarray" + value = missing.check_value_size( + value, mask, len(self) # type: ignore[arg-type] + ) + + if mask.any(): + if method is not None: + # (for now) when self.ndim == 2, we assume axis=0 + func = missing.get_fill_func(method, ndim=self.ndim) + npvalues = self._ndarray.T + if copy: + npvalues = npvalues.copy() + func(npvalues, limit=limit, mask=mask.T) + npvalues = npvalues.T + + # TODO: NumpyExtensionArray didn't used to copy, need tests + # for this + new_values = self._from_backing_data(npvalues) + else: + # fill with value + if copy: + new_values = self.copy() + else: + new_values = self[:] + new_values[mask] = value + else: + # We validate the fill_value even if there is nothing to fill + if value is not None: + self._validate_setitem_value(value) + + if not copy: + new_values = self[:] + else: + new_values = self.copy() + return new_values + + # ------------------------------------------------------------------------ + # Reductions + + def _wrap_reduction_result(self, axis: AxisInt | None, result): + if axis is None or self.ndim == 1: + return self._box_func(result) + return self._from_backing_data(result) + + # ------------------------------------------------------------------------ + # __array_function__ methods + + def _putmask(self, mask: npt.NDArray[np.bool_], value) -> None: + """ + Analogue to np.putmask(self, mask, value) + + Parameters + ---------- + mask : np.ndarray[bool] + value : scalar or listlike + + Raises + ------ + TypeError + If value cannot be cast to self.dtype. + """ + value = self._validate_setitem_value(value) + + np.putmask(self._ndarray, mask, value) + + def _where(self: Self, mask: npt.NDArray[np.bool_], value) -> Self: + """ + Analogue to np.where(mask, self, value) + + Parameters + ---------- + mask : np.ndarray[bool] + value : scalar or listlike + + Raises + ------ + TypeError + If value cannot be cast to self.dtype. + """ + value = self._validate_setitem_value(value) + + res_values = np.where(mask, self._ndarray, value) + if res_values.dtype != self._ndarray.dtype: + raise AssertionError( + # GH#56410 + "Something has gone wrong, please report a bug at " + "github.com/pandas-dev/pandas/" + ) + return self._from_backing_data(res_values) + + # ------------------------------------------------------------------------ + # Index compat methods + + def insert(self, loc: int, item) -> Self: + """ + Make new ExtensionArray inserting new item at location. Follows + Python list.append semantics for negative values. + + Parameters + ---------- + loc : int + item : object + + Returns + ------- + type(self) + """ + loc = validate_insert_loc(loc, len(self)) + + code = self._validate_scalar(item) + + new_vals = np.concatenate( + ( + self._ndarray[:loc], + np.asarray([code], dtype=self._ndarray.dtype), + self._ndarray[loc:], + ) + ) + return self._from_backing_data(new_vals) + + # ------------------------------------------------------------------------ + # Additional array methods + # These are not part of the EA API, but we implement them because + # pandas assumes they're there. + + def value_counts(self, dropna: bool = True) -> Series: + """ + Return a Series containing counts of unique values. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of NA values. + + Returns + ------- + Series + """ + if self.ndim != 1: + raise NotImplementedError + + from pandas import ( + Index, + Series, + ) + + if dropna: + # error: Unsupported operand type for ~ ("ExtensionArray") + values = self[~self.isna()]._ndarray # type: ignore[operator] + else: + values = self._ndarray + + result = value_counts(values, sort=False, dropna=dropna) + + index_arr = self._from_backing_data(np.asarray(result.index._data)) + index = Index(index_arr, name=result.index.name) + return Series(result._values, index=index, name=result.name, copy=False) + + def _quantile( + self, + qs: npt.NDArray[np.float64], + interpolation: str, + ) -> Self: + # TODO: disable for Categorical if not ordered? + + mask = np.asarray(self.isna()) + arr = self._ndarray + fill_value = self._internal_fill_value + + res_values = quantile_with_mask(arr, mask, fill_value, qs, interpolation) + if res_values.dtype == self._ndarray.dtype: + return self._from_backing_data(res_values) + else: + # e.g. test_quantile_empty we are empty integer dtype and res_values + # has floating dtype + # TODO: technically __init__ isn't defined here. + # Should we raise NotImplementedError and handle this on NumpyEA? + return type(self)(res_values) # type: ignore[call-arg] + + # ------------------------------------------------------------------------ + # numpy-like methods + + @classmethod + def _empty(cls, shape: Shape, dtype: ExtensionDtype) -> Self: + """ + Analogous to np.empty(shape, dtype=dtype) + + Parameters + ---------- + shape : tuple[int] + dtype : ExtensionDtype + """ + # The base implementation uses a naive approach to find the dtype + # for the backing ndarray + arr = cls._from_sequence([], dtype=dtype) + backing = np.empty(shape, dtype=arr._ndarray.dtype) + return arr._from_backing_data(backing) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_ranges.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_ranges.py new file mode 100644 index 0000000000000000000000000000000000000000..3e89391324ad4a90235da230250758662822678f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_ranges.py @@ -0,0 +1,207 @@ +""" +Helper functions to generate range-like data for DatetimeArray +(and possibly TimedeltaArray/PeriodArray) +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs.lib import i8max +from pandas._libs.tslibs import ( + BaseOffset, + OutOfBoundsDatetime, + Timedelta, + Timestamp, + iNaT, +) + +if TYPE_CHECKING: + from pandas._typing import npt + + +def generate_regular_range( + start: Timestamp | Timedelta | None, + end: Timestamp | Timedelta | None, + periods: int | None, + freq: BaseOffset, + unit: str = "ns", +) -> npt.NDArray[np.intp]: + """ + Generate a range of dates or timestamps with the spans between dates + described by the given `freq` DateOffset. + + Parameters + ---------- + start : Timedelta, Timestamp or None + First point of produced date range. + end : Timedelta, Timestamp or None + Last point of produced date range. + periods : int or None + Number of periods in produced date range. + freq : Tick + Describes space between dates in produced date range. + unit : str, default "ns" + The resolution the output is meant to represent. + + Returns + ------- + ndarray[np.int64] + Representing the given resolution. + """ + istart = start._value if start is not None else None + iend = end._value if end is not None else None + freq.nanos # raises if non-fixed frequency + td = Timedelta(freq) + b: int + e: int + try: + td = td.as_unit(unit, round_ok=False) + except ValueError as err: + raise ValueError( + f"freq={freq} is incompatible with unit={unit}. " + "Use a lower freq or a higher unit instead." + ) from err + stride = int(td._value) + + if periods is None and istart is not None and iend is not None: + b = istart + # cannot just use e = Timestamp(end) + 1 because arange breaks when + # stride is too large, see GH10887 + e = b + (iend - b) // stride * stride + stride // 2 + 1 + elif istart is not None and periods is not None: + b = istart + e = _generate_range_overflow_safe(b, periods, stride, side="start") + elif iend is not None and periods is not None: + e = iend + stride + b = _generate_range_overflow_safe(e, periods, stride, side="end") + else: + raise ValueError( + "at least 'start' or 'end' should be specified if a 'period' is given." + ) + + with np.errstate(over="raise"): + # If the range is sufficiently large, np.arange may overflow + # and incorrectly return an empty array if not caught. + try: + values = np.arange(b, e, stride, dtype=np.int64) + except FloatingPointError: + xdr = [b] + while xdr[-1] != e: + xdr.append(xdr[-1] + stride) + values = np.array(xdr[:-1], dtype=np.int64) + return values + + +def _generate_range_overflow_safe( + endpoint: int, periods: int, stride: int, side: str = "start" +) -> int: + """ + Calculate the second endpoint for passing to np.arange, checking + to avoid an integer overflow. Catch OverflowError and re-raise + as OutOfBoundsDatetime. + + Parameters + ---------- + endpoint : int + nanosecond timestamp of the known endpoint of the desired range + periods : int + number of periods in the desired range + stride : int + nanoseconds between periods in the desired range + side : {'start', 'end'} + which end of the range `endpoint` refers to + + Returns + ------- + other_end : int + + Raises + ------ + OutOfBoundsDatetime + """ + # GH#14187 raise instead of incorrectly wrapping around + assert side in ["start", "end"] + + i64max = np.uint64(i8max) + msg = f"Cannot generate range with {side}={endpoint} and periods={periods}" + + with np.errstate(over="raise"): + # if periods * strides cannot be multiplied within the *uint64* bounds, + # we cannot salvage the operation by recursing, so raise + try: + addend = np.uint64(periods) * np.uint64(np.abs(stride)) + except FloatingPointError as err: + raise OutOfBoundsDatetime(msg) from err + + if np.abs(addend) <= i64max: + # relatively easy case without casting concerns + return _generate_range_overflow_safe_signed(endpoint, periods, stride, side) + + elif (endpoint > 0 and side == "start" and stride > 0) or ( + endpoint < 0 < stride and side == "end" + ): + # no chance of not-overflowing + raise OutOfBoundsDatetime(msg) + + elif side == "end" and endpoint - stride <= i64max < endpoint: + # in _generate_regular_range we added `stride` thereby overflowing + # the bounds. Adjust to fix this. + return _generate_range_overflow_safe( + endpoint - stride, periods - 1, stride, side + ) + + # split into smaller pieces + mid_periods = periods // 2 + remaining = periods - mid_periods + assert 0 < remaining < periods, (remaining, periods, endpoint, stride) + + midpoint = int(_generate_range_overflow_safe(endpoint, mid_periods, stride, side)) + return _generate_range_overflow_safe(midpoint, remaining, stride, side) + + +def _generate_range_overflow_safe_signed( + endpoint: int, periods: int, stride: int, side: str +) -> int: + """ + A special case for _generate_range_overflow_safe where `periods * stride` + can be calculated without overflowing int64 bounds. + """ + assert side in ["start", "end"] + if side == "end": + stride *= -1 + + with np.errstate(over="raise"): + addend = np.int64(periods) * np.int64(stride) + try: + # easy case with no overflows + result = np.int64(endpoint) + addend + if result == iNaT: + # Putting this into a DatetimeArray/TimedeltaArray + # would incorrectly be interpreted as NaT + raise OverflowError + return int(result) + except (FloatingPointError, OverflowError): + # with endpoint negative and addend positive we risk + # FloatingPointError; with reversed signed we risk OverflowError + pass + + # if stride and endpoint had opposite signs, then endpoint + addend + # should never overflow. so they must have the same signs + assert (stride > 0 and endpoint >= 0) or (stride < 0 and endpoint <= 0) + + if stride > 0: + # watch out for very special case in which we just slightly + # exceed implementation bounds, but when passing the result to + # np.arange will get a result slightly within the bounds + + uresult = np.uint64(endpoint) + np.uint64(addend) + i64max = np.uint64(i8max) + assert uresult > i64max + if uresult <= i64max + np.uint64(stride): + return int(uresult) + + raise OutOfBoundsDatetime( + f"Cannot generate range with {side}={endpoint} and periods={periods}" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_utils.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_utils.py new file mode 100644 index 0000000000000000000000000000000000000000..6b46396d5efdfa4301a5362c8a5a71678345479b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/_utils.py @@ -0,0 +1,63 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np + +from pandas._libs import lib +from pandas.errors import LossySetitemError + +from pandas.core.dtypes.cast import np_can_hold_element +from pandas.core.dtypes.common import is_numeric_dtype + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + npt, + ) + + +def to_numpy_dtype_inference( + arr: ArrayLike, dtype: npt.DTypeLike | None, na_value, hasna: bool +) -> tuple[npt.DTypeLike, Any]: + if dtype is None and is_numeric_dtype(arr.dtype): + dtype_given = False + if hasna: + if arr.dtype.kind == "b": + dtype = np.dtype(np.object_) + else: + if arr.dtype.kind in "iu": + dtype = np.dtype(np.float64) + else: + dtype = arr.dtype.numpy_dtype # type: ignore[union-attr] + if na_value is lib.no_default: + na_value = np.nan + else: + dtype = arr.dtype.numpy_dtype # type: ignore[union-attr] + elif dtype is not None: + dtype = np.dtype(dtype) + dtype_given = True + else: + dtype_given = True + + if na_value is lib.no_default: + if dtype is None or not hasna: + na_value = arr.dtype.na_value + elif dtype.kind == "f": # type: ignore[union-attr] + na_value = np.nan + elif dtype.kind == "M": # type: ignore[union-attr] + na_value = np.datetime64("nat") + elif dtype.kind == "m": # type: ignore[union-attr] + na_value = np.timedelta64("nat") + else: + na_value = arr.dtype.na_value + + if not dtype_given and hasna: + try: + np_can_hold_element(dtype, na_value) # type: ignore[arg-type] + except LossySetitemError: + dtype = np.dtype(np.object_) + return dtype, na_value diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..5fc50f786fc6a6c51f78ef9ebd4ee6ed26a2bab3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__init__.py @@ -0,0 +1,7 @@ +from pandas.core.arrays.arrow.accessors import ( + ListAccessor, + StructAccessor, +) +from pandas.core.arrays.arrow.array import ArrowExtensionArray + +__all__ = ["ArrowExtensionArray", "StructAccessor", "ListAccessor"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..8cb4bcd66e67479d629cd12370c471db200dd22b Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/__init__.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/accessors.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/accessors.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..698581a09d761de24a1b25cb8de49bb83af61b9a Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/accessors.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/array.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/array.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..288af10afb493780ea7f3e9de15f2a8129664f73 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/__pycache__/array.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/_arrow_utils.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/_arrow_utils.py new file mode 100644 index 0000000000000000000000000000000000000000..285c3fd465ffcb9f507ebd1b3a0e3e6f55b76987 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/_arrow_utils.py @@ -0,0 +1,50 @@ +from __future__ import annotations + +import numpy as np +import pyarrow + + +def pyarrow_array_to_numpy_and_mask( + arr, dtype: np.dtype +) -> tuple[np.ndarray, np.ndarray]: + """ + Convert a primitive pyarrow.Array to a numpy array and boolean mask based + on the buffers of the Array. + + At the moment pyarrow.BooleanArray is not supported. + + Parameters + ---------- + arr : pyarrow.Array + dtype : numpy.dtype + + Returns + ------- + (data, mask) + Tuple of two numpy arrays with the raw data (with specified dtype) and + a boolean mask (validity mask, so False means missing) + """ + dtype = np.dtype(dtype) + + if pyarrow.types.is_null(arr.type): + # No initialization of data is needed since everything is null + data = np.empty(len(arr), dtype=dtype) + mask = np.zeros(len(arr), dtype=bool) + return data, mask + buflist = arr.buffers() + # Since Arrow buffers might contain padding and the data might be offset, + # the buffer gets sliced here before handing it to numpy. + # See also https://github.com/pandas-dev/pandas/issues/40896 + offset = arr.offset * dtype.itemsize + length = len(arr) * dtype.itemsize + data_buf = buflist[1][offset : offset + length] + data = np.frombuffer(data_buf, dtype=dtype) + bitmask = buflist[0] + if bitmask is not None: + mask = pyarrow.BooleanArray.from_buffers( + pyarrow.bool_(), len(arr), [None, bitmask], offset=arr.offset + ) + mask = np.asarray(mask) + else: + mask = np.ones(len(arr), dtype=bool) + return data, mask diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/accessors.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/accessors.py new file mode 100644 index 0000000000000000000000000000000000000000..65f0784eaa3fd45e278cef083c3a606023827da0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/accessors.py @@ -0,0 +1,473 @@ +"""Accessors for arrow-backed data.""" + +from __future__ import annotations + +from abc import ( + ABCMeta, + abstractmethod, +) +from typing import ( + TYPE_CHECKING, + cast, +) + +from pandas.compat import ( + pa_version_under10p1, + pa_version_under11p0, +) + +from pandas.core.dtypes.common import is_list_like + +if not pa_version_under10p1: + import pyarrow as pa + import pyarrow.compute as pc + + from pandas.core.dtypes.dtypes import ArrowDtype + +if TYPE_CHECKING: + from collections.abc import Iterator + + from pandas import ( + DataFrame, + Series, + ) + + +class ArrowAccessor(metaclass=ABCMeta): + @abstractmethod + def __init__(self, data, validation_msg: str) -> None: + self._data = data + self._validation_msg = validation_msg + self._validate(data) + + @abstractmethod + def _is_valid_pyarrow_dtype(self, pyarrow_dtype) -> bool: + pass + + def _validate(self, data): + dtype = data.dtype + if pa_version_under10p1 or not isinstance(dtype, ArrowDtype): + # Raise AttributeError so that inspect can handle non-struct Series. + raise AttributeError(self._validation_msg.format(dtype=dtype)) + + if not self._is_valid_pyarrow_dtype(dtype.pyarrow_dtype): + # Raise AttributeError so that inspect can handle invalid Series. + raise AttributeError(self._validation_msg.format(dtype=dtype)) + + @property + def _pa_array(self): + return self._data.array._pa_array + + +class ListAccessor(ArrowAccessor): + """ + Accessor object for list data properties of the Series values. + + Parameters + ---------- + data : Series + Series containing Arrow list data. + """ + + def __init__(self, data=None) -> None: + super().__init__( + data, + validation_msg="Can only use the '.list' accessor with " + "'list[pyarrow]' dtype, not {dtype}.", + ) + + def _is_valid_pyarrow_dtype(self, pyarrow_dtype) -> bool: + return ( + pa.types.is_list(pyarrow_dtype) + or pa.types.is_fixed_size_list(pyarrow_dtype) + or pa.types.is_large_list(pyarrow_dtype) + ) + + def len(self) -> Series: + """ + Return the length of each list in the Series. + + Returns + ------- + pandas.Series + The length of each list. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... [1, 2, 3], + ... [3], + ... ], + ... dtype=pd.ArrowDtype(pa.list_( + ... pa.int64() + ... )) + ... ) + >>> s.list.len() + 0 3 + 1 1 + dtype: int32[pyarrow] + """ + from pandas import Series + + value_lengths = pc.list_value_length(self._pa_array) + return Series(value_lengths, dtype=ArrowDtype(value_lengths.type)) + + def __getitem__(self, key: int | slice) -> Series: + """ + Index or slice lists in the Series. + + Parameters + ---------- + key : int | slice + Index or slice of indices to access from each list. + + Returns + ------- + pandas.Series + The list at requested index. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... [1, 2, 3], + ... [3], + ... ], + ... dtype=pd.ArrowDtype(pa.list_( + ... pa.int64() + ... )) + ... ) + >>> s.list[0] + 0 1 + 1 3 + dtype: int64[pyarrow] + """ + from pandas import Series + + if isinstance(key, int): + # TODO: Support negative key but pyarrow does not allow + # element index to be an array. + # if key < 0: + # key = pc.add(key, pc.list_value_length(self._pa_array)) + element = pc.list_element(self._pa_array, key) + return Series(element, dtype=ArrowDtype(element.type)) + elif isinstance(key, slice): + if pa_version_under11p0: + raise NotImplementedError( + f"List slice not supported by pyarrow {pa.__version__}." + ) + + # TODO: Support negative start/stop/step, ideally this would be added + # upstream in pyarrow. + start, stop, step = key.start, key.stop, key.step + if start is None: + # TODO: When adding negative step support + # this should be setto last element of array + # when step is negative. + start = 0 + if step is None: + step = 1 + sliced = pc.list_slice(self._pa_array, start, stop, step) + return Series(sliced, dtype=ArrowDtype(sliced.type)) + else: + raise ValueError(f"key must be an int or slice, got {type(key).__name__}") + + def __iter__(self) -> Iterator: + raise TypeError(f"'{type(self).__name__}' object is not iterable") + + def flatten(self) -> Series: + """ + Flatten list values. + + Returns + ------- + pandas.Series + The data from all lists in the series flattened. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... [1, 2, 3], + ... [3], + ... ], + ... dtype=pd.ArrowDtype(pa.list_( + ... pa.int64() + ... )) + ... ) + >>> s.list.flatten() + 0 1 + 1 2 + 2 3 + 3 3 + dtype: int64[pyarrow] + """ + from pandas import Series + + flattened = pc.list_flatten(self._pa_array) + return Series(flattened, dtype=ArrowDtype(flattened.type)) + + +class StructAccessor(ArrowAccessor): + """ + Accessor object for structured data properties of the Series values. + + Parameters + ---------- + data : Series + Series containing Arrow struct data. + """ + + def __init__(self, data=None) -> None: + super().__init__( + data, + validation_msg=( + "Can only use the '.struct' accessor with 'struct[pyarrow]' " + "dtype, not {dtype}." + ), + ) + + def _is_valid_pyarrow_dtype(self, pyarrow_dtype) -> bool: + return pa.types.is_struct(pyarrow_dtype) + + @property + def dtypes(self) -> Series: + """ + Return the dtype object of each child field of the struct. + + Returns + ------- + pandas.Series + The data type of each child field. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... {"version": 1, "project": "pandas"}, + ... {"version": 2, "project": "pandas"}, + ... {"version": 1, "project": "numpy"}, + ... ], + ... dtype=pd.ArrowDtype(pa.struct( + ... [("version", pa.int64()), ("project", pa.string())] + ... )) + ... ) + >>> s.struct.dtypes + version int64[pyarrow] + project string[pyarrow] + dtype: object + """ + from pandas import ( + Index, + Series, + ) + + pa_type = self._data.dtype.pyarrow_dtype + types = [ArrowDtype(struct.type) for struct in pa_type] + names = [struct.name for struct in pa_type] + return Series(types, index=Index(names)) + + def field( + self, + name_or_index: list[str] + | list[bytes] + | list[int] + | pc.Expression + | bytes + | str + | int, + ) -> Series: + """ + Extract a child field of a struct as a Series. + + Parameters + ---------- + name_or_index : str | bytes | int | expression | list + Name or index of the child field to extract. + + For list-like inputs, this will index into a nested + struct. + + Returns + ------- + pandas.Series + The data corresponding to the selected child field. + + See Also + -------- + Series.struct.explode : Return all child fields as a DataFrame. + + Notes + ----- + The name of the resulting Series will be set using the following + rules: + + - For string, bytes, or integer `name_or_index` (or a list of these, for + a nested selection), the Series name is set to the selected + field's name. + - For a :class:`pyarrow.compute.Expression`, this is set to + the string form of the expression. + - For list-like `name_or_index`, the name will be set to the + name of the final field selected. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... {"version": 1, "project": "pandas"}, + ... {"version": 2, "project": "pandas"}, + ... {"version": 1, "project": "numpy"}, + ... ], + ... dtype=pd.ArrowDtype(pa.struct( + ... [("version", pa.int64()), ("project", pa.string())] + ... )) + ... ) + + Extract by field name. + + >>> s.struct.field("project") + 0 pandas + 1 pandas + 2 numpy + Name: project, dtype: string[pyarrow] + + Extract by field index. + + >>> s.struct.field(0) + 0 1 + 1 2 + 2 1 + Name: version, dtype: int64[pyarrow] + + Or an expression + + >>> import pyarrow.compute as pc + >>> s.struct.field(pc.field("project")) + 0 pandas + 1 pandas + 2 numpy + Name: project, dtype: string[pyarrow] + + For nested struct types, you can pass a list of values to index + multiple levels: + + >>> version_type = pa.struct([ + ... ("major", pa.int64()), + ... ("minor", pa.int64()), + ... ]) + >>> s = pd.Series( + ... [ + ... {"version": {"major": 1, "minor": 5}, "project": "pandas"}, + ... {"version": {"major": 2, "minor": 1}, "project": "pandas"}, + ... {"version": {"major": 1, "minor": 26}, "project": "numpy"}, + ... ], + ... dtype=pd.ArrowDtype(pa.struct( + ... [("version", version_type), ("project", pa.string())] + ... )) + ... ) + >>> s.struct.field(["version", "minor"]) + 0 5 + 1 1 + 2 26 + Name: minor, dtype: int64[pyarrow] + >>> s.struct.field([0, 0]) + 0 1 + 1 2 + 2 1 + Name: major, dtype: int64[pyarrow] + """ + from pandas import Series + + def get_name( + level_name_or_index: list[str] + | list[bytes] + | list[int] + | pc.Expression + | bytes + | str + | int, + data: pa.ChunkedArray, + ): + if isinstance(level_name_or_index, int): + name = data.type.field(level_name_or_index).name + elif isinstance(level_name_or_index, (str, bytes)): + name = level_name_or_index + elif isinstance(level_name_or_index, pc.Expression): + name = str(level_name_or_index) + elif is_list_like(level_name_or_index): + # For nested input like [2, 1, 2] + # iteratively get the struct and field name. The last + # one is used for the name of the index. + level_name_or_index = list(reversed(level_name_or_index)) + selected = data + while level_name_or_index: + # we need the cast, otherwise mypy complains about + # getting ints, bytes, or str here, which isn't possible. + level_name_or_index = cast(list, level_name_or_index) + name_or_index = level_name_or_index.pop() + name = get_name(name_or_index, selected) + selected = selected.type.field(selected.type.get_field_index(name)) + name = selected.name + else: + raise ValueError( + "name_or_index must be an int, str, bytes, " + "pyarrow.compute.Expression, or list of those" + ) + return name + + pa_arr = self._data.array._pa_array + name = get_name(name_or_index, pa_arr) + field_arr = pc.struct_field(pa_arr, name_or_index) + + return Series( + field_arr, + dtype=ArrowDtype(field_arr.type), + index=self._data.index, + name=name, + ) + + def explode(self) -> DataFrame: + """ + Extract all child fields of a struct as a DataFrame. + + Returns + ------- + pandas.DataFrame + The data corresponding to all child fields. + + See Also + -------- + Series.struct.field : Return a single child field as a Series. + + Examples + -------- + >>> import pyarrow as pa + >>> s = pd.Series( + ... [ + ... {"version": 1, "project": "pandas"}, + ... {"version": 2, "project": "pandas"}, + ... {"version": 1, "project": "numpy"}, + ... ], + ... dtype=pd.ArrowDtype(pa.struct( + ... [("version", pa.int64()), ("project", pa.string())] + ... )) + ... ) + + >>> s.struct.explode() + version project + 0 1 pandas + 1 2 pandas + 2 1 numpy + """ + from pandas import concat + + pa_type = self._pa_array.type + return concat( + [self.field(i) for i in range(pa_type.num_fields)], axis="columns" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/array.py new file mode 100644 index 0000000000000000000000000000000000000000..5b2d3b7c065a85afb5336feaa7a474a8eb7306e1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/array.py @@ -0,0 +1,2927 @@ +from __future__ import annotations + +import functools +import operator +import re +import textwrap +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, +) +import unicodedata +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.tslibs import ( + NaT, + Timedelta, + Timestamp, + timezones, +) +from pandas.compat import ( + pa_version_under10p1, + pa_version_under11p0, + pa_version_under13p0, +) +from pandas.util._decorators import doc +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import validate_fillna_kwargs + +from pandas.core.dtypes.cast import ( + can_hold_element, + infer_dtype_from_scalar, +) +from pandas.core.dtypes.common import ( + is_array_like, + is_bool_dtype, + is_float_dtype, + is_integer, + is_list_like, + is_numeric_dtype, + is_scalar, + is_string_dtype, +) +from pandas.core.dtypes.dtypes import DatetimeTZDtype +from pandas.core.dtypes.missing import isna + +from pandas.core import ( + algorithms as algos, + missing, + ops, + roperator, +) +from pandas.core.algorithms import map_array +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays._arrow_string_mixins import ArrowStringArrayMixin +from pandas.core.arrays._utils import to_numpy_dtype_inference +from pandas.core.arrays.base import ( + ExtensionArray, + ExtensionArraySupportsAnyAll, +) +from pandas.core.arrays.masked import BaseMaskedArray +from pandas.core.arrays.string_ import StringDtype +import pandas.core.common as com +from pandas.core.indexers import ( + check_array_indexer, + unpack_tuple_and_ellipses, + validate_indices, +) +from pandas.core.nanops import check_below_min_count +from pandas.core.strings.base import BaseStringArrayMethods + +from pandas.io._util import _arrow_dtype_mapping +from pandas.tseries.frequencies import to_offset + +if not pa_version_under10p1: + import pyarrow as pa + import pyarrow.compute as pc + + from pandas.core.dtypes.dtypes import ArrowDtype + + ARROW_CMP_FUNCS = { + "eq": pc.equal, + "ne": pc.not_equal, + "lt": pc.less, + "gt": pc.greater, + "le": pc.less_equal, + "ge": pc.greater_equal, + } + + ARROW_LOGICAL_FUNCS = { + "and_": pc.and_kleene, + "rand_": lambda x, y: pc.and_kleene(y, x), + "or_": pc.or_kleene, + "ror_": lambda x, y: pc.or_kleene(y, x), + "xor": pc.xor, + "rxor": lambda x, y: pc.xor(y, x), + } + + ARROW_BIT_WISE_FUNCS = { + "and_": pc.bit_wise_and, + "rand_": lambda x, y: pc.bit_wise_and(y, x), + "or_": pc.bit_wise_or, + "ror_": lambda x, y: pc.bit_wise_or(y, x), + "xor": pc.bit_wise_xor, + "rxor": lambda x, y: pc.bit_wise_xor(y, x), + } + + def cast_for_truediv( + arrow_array: pa.ChunkedArray, pa_object: pa.Array | pa.Scalar + ) -> tuple[pa.ChunkedArray, pa.Array | pa.Scalar]: + # Ensure int / int -> float mirroring Python/Numpy behavior + # as pc.divide_checked(int, int) -> int + if pa.types.is_integer(arrow_array.type) and pa.types.is_integer( + pa_object.type + ): + # GH: 56645. + # https://github.com/apache/arrow/issues/35563 + return pc.cast(arrow_array, pa.float64(), safe=False), pc.cast( + pa_object, pa.float64(), safe=False + ) + + return arrow_array, pa_object + + def floordiv_compat( + left: pa.ChunkedArray | pa.Array | pa.Scalar, + right: pa.ChunkedArray | pa.Array | pa.Scalar, + ) -> pa.ChunkedArray: + # TODO: Replace with pyarrow floordiv kernel. + # https://github.com/apache/arrow/issues/39386 + if pa.types.is_integer(left.type) and pa.types.is_integer(right.type): + divided = pc.divide_checked(left, right) + if pa.types.is_signed_integer(divided.type): + # GH 56676 + has_remainder = pc.not_equal(pc.multiply(divided, right), left) + has_one_negative_operand = pc.less( + pc.bit_wise_xor(left, right), + pa.scalar(0, type=divided.type), + ) + result = pc.if_else( + pc.and_( + has_remainder, + has_one_negative_operand, + ), + # GH: 55561 + pc.subtract(divided, pa.scalar(1, type=divided.type)), + divided, + ) + else: + result = divided + result = result.cast(left.type) + else: + divided = pc.divide(left, right) + result = pc.floor(divided) + return result + + ARROW_ARITHMETIC_FUNCS = { + "add": pc.add_checked, + "radd": lambda x, y: pc.add_checked(y, x), + "sub": pc.subtract_checked, + "rsub": lambda x, y: pc.subtract_checked(y, x), + "mul": pc.multiply_checked, + "rmul": lambda x, y: pc.multiply_checked(y, x), + "truediv": lambda x, y: pc.divide(*cast_for_truediv(x, y)), + "rtruediv": lambda x, y: pc.divide(*cast_for_truediv(y, x)), + "floordiv": lambda x, y: floordiv_compat(x, y), + "rfloordiv": lambda x, y: floordiv_compat(y, x), + "mod": NotImplemented, + "rmod": NotImplemented, + "divmod": NotImplemented, + "rdivmod": NotImplemented, + "pow": pc.power_checked, + "rpow": lambda x, y: pc.power_checked(y, x), + } + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + ArrayLike, + AxisInt, + Dtype, + FillnaOptions, + InterpolateOptions, + Iterator, + NpDtype, + NumpySorter, + NumpyValueArrayLike, + PositionalIndexer, + Scalar, + Self, + SortKind, + TakeIndexer, + TimeAmbiguous, + TimeNonexistent, + npt, + ) + + from pandas import Series + from pandas.core.arrays.datetimes import DatetimeArray + from pandas.core.arrays.timedeltas import TimedeltaArray + + +def get_unit_from_pa_dtype(pa_dtype): + # https://github.com/pandas-dev/pandas/pull/50998#discussion_r1100344804 + if pa_version_under11p0: + unit = str(pa_dtype).split("[", 1)[-1][:-1] + if unit not in ["s", "ms", "us", "ns"]: + raise ValueError(pa_dtype) + return unit + return pa_dtype.unit + + +def to_pyarrow_type( + dtype: ArrowDtype | pa.DataType | Dtype | None, +) -> pa.DataType | None: + """ + Convert dtype to a pyarrow type instance. + """ + if isinstance(dtype, ArrowDtype): + return dtype.pyarrow_dtype + elif isinstance(dtype, pa.DataType): + return dtype + elif isinstance(dtype, DatetimeTZDtype): + return pa.timestamp(dtype.unit, dtype.tz) + elif dtype: + try: + # Accepts python types too + # Doesn't handle all numpy types + return pa.from_numpy_dtype(dtype) + except pa.ArrowNotImplementedError: + pass + return None + + +class ArrowExtensionArray( + OpsMixin, + ExtensionArraySupportsAnyAll, + ArrowStringArrayMixin, + BaseStringArrayMethods, +): + """ + Pandas ExtensionArray backed by a PyArrow ChunkedArray. + + .. warning:: + + ArrowExtensionArray is considered experimental. The implementation and + parts of the API may change without warning. + + Parameters + ---------- + values : pyarrow.Array or pyarrow.ChunkedArray + + Attributes + ---------- + None + + Methods + ------- + None + + Returns + ------- + ArrowExtensionArray + + Notes + ----- + Most methods are implemented using `pyarrow compute functions. `__ + Some methods may either raise an exception or raise a ``PerformanceWarning`` if an + associated compute function is not available based on the installed version of PyArrow. + + Please install the latest version of PyArrow to enable the best functionality and avoid + potential bugs in prior versions of PyArrow. + + Examples + -------- + Create an ArrowExtensionArray with :func:`pandas.array`: + + >>> pd.array([1, 1, None], dtype="int64[pyarrow]") + + [1, 1, ] + Length: 3, dtype: int64[pyarrow] + """ # noqa: E501 (http link too long) + + _pa_array: pa.ChunkedArray + _dtype: ArrowDtype + + def __init__(self, values: pa.Array | pa.ChunkedArray) -> None: + if pa_version_under10p1: + msg = "pyarrow>=10.0.1 is required for PyArrow backed ArrowExtensionArray." + raise ImportError(msg) + if isinstance(values, pa.Array): + self._pa_array = pa.chunked_array([values]) + elif isinstance(values, pa.ChunkedArray): + self._pa_array = values + else: + raise ValueError( + f"Unsupported type '{type(values)}' for ArrowExtensionArray" + ) + self._dtype = ArrowDtype(self._pa_array.type) + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy: bool = False): + """ + Construct a new ExtensionArray from a sequence of scalars. + """ + pa_type = to_pyarrow_type(dtype) + pa_array = cls._box_pa_array(scalars, pa_type=pa_type, copy=copy) + arr = cls(pa_array) + return arr + + @classmethod + def _from_sequence_of_strings( + cls, strings, *, dtype: Dtype | None = None, copy: bool = False + ): + """ + Construct a new ExtensionArray from a sequence of strings. + """ + pa_type = to_pyarrow_type(dtype) + if ( + pa_type is None + or pa.types.is_binary(pa_type) + or pa.types.is_string(pa_type) + or pa.types.is_large_string(pa_type) + ): + # pa_type is None: Let pa.array infer + # pa_type is string/binary: scalars already correct type + scalars = strings + elif pa.types.is_timestamp(pa_type): + from pandas.core.tools.datetimes import to_datetime + + scalars = to_datetime(strings, errors="raise") + elif pa.types.is_date(pa_type): + from pandas.core.tools.datetimes import to_datetime + + scalars = to_datetime(strings, errors="raise").date + elif pa.types.is_duration(pa_type): + from pandas.core.tools.timedeltas import to_timedelta + + scalars = to_timedelta(strings, errors="raise") + if pa_type.unit != "ns": + # GH51175: test_from_sequence_of_strings_pa_array + # attempt to parse as int64 reflecting pyarrow's + # duration to string casting behavior + mask = isna(scalars) + if not isinstance(strings, (pa.Array, pa.ChunkedArray)): + strings = pa.array(strings, type=pa.string(), from_pandas=True) + strings = pc.if_else(mask, None, strings) + try: + scalars = strings.cast(pa.int64()) + except pa.ArrowInvalid: + pass + elif pa.types.is_time(pa_type): + from pandas.core.tools.times import to_time + + # "coerce" to allow "null times" (None) to not raise + scalars = to_time(strings, errors="coerce") + elif pa.types.is_boolean(pa_type): + # pyarrow string->bool casting is case-insensitive: + # "true" or "1" -> True + # "false" or "0" -> False + # Note: BooleanArray was previously used to parse these strings + # and allows "1.0" and "0.0". Pyarrow casting does not support + # this, but we allow it here. + if isinstance(strings, (pa.Array, pa.ChunkedArray)): + scalars = strings + else: + scalars = pa.array(strings, type=pa.string(), from_pandas=True) + scalars = pc.if_else(pc.equal(scalars, "1.0"), "1", scalars) + scalars = pc.if_else(pc.equal(scalars, "0.0"), "0", scalars) + scalars = scalars.cast(pa.bool_()) + elif ( + pa.types.is_integer(pa_type) + or pa.types.is_floating(pa_type) + or pa.types.is_decimal(pa_type) + ): + from pandas.core.tools.numeric import to_numeric + + scalars = to_numeric(strings, errors="raise") + else: + raise NotImplementedError( + f"Converting strings to {pa_type} is not implemented." + ) + return cls._from_sequence(scalars, dtype=pa_type, copy=copy) + + @classmethod + def _box_pa( + cls, value, pa_type: pa.DataType | None = None + ) -> pa.Array | pa.ChunkedArray | pa.Scalar: + """ + Box value into a pyarrow Array, ChunkedArray or Scalar. + + Parameters + ---------- + value : any + pa_type : pa.DataType | None + + Returns + ------- + pa.Array or pa.ChunkedArray or pa.Scalar + """ + if isinstance(value, pa.Scalar) or not is_list_like(value): + return cls._box_pa_scalar(value, pa_type) + return cls._box_pa_array(value, pa_type) + + @classmethod + def _box_pa_scalar(cls, value, pa_type: pa.DataType | None = None) -> pa.Scalar: + """ + Box value into a pyarrow Scalar. + + Parameters + ---------- + value : any + pa_type : pa.DataType | None + + Returns + ------- + pa.Scalar + """ + if isinstance(value, pa.Scalar): + pa_scalar = value + elif isna(value): + pa_scalar = pa.scalar(None, type=pa_type) + else: + # Workaround https://github.com/apache/arrow/issues/37291 + if isinstance(value, Timedelta): + if pa_type is None: + pa_type = pa.duration(value.unit) + elif value.unit != pa_type.unit: + value = value.as_unit(pa_type.unit) + value = value._value + elif isinstance(value, Timestamp): + if pa_type is None: + pa_type = pa.timestamp(value.unit, tz=value.tz) + elif value.unit != pa_type.unit: + value = value.as_unit(pa_type.unit) + value = value._value + + pa_scalar = pa.scalar(value, type=pa_type, from_pandas=True) + + if pa_type is not None and pa_scalar.type != pa_type: + pa_scalar = pa_scalar.cast(pa_type) + + return pa_scalar + + @classmethod + def _box_pa_array( + cls, value, pa_type: pa.DataType | None = None, copy: bool = False + ) -> pa.Array | pa.ChunkedArray: + """ + Box value into a pyarrow Array or ChunkedArray. + + Parameters + ---------- + value : Sequence + pa_type : pa.DataType | None + + Returns + ------- + pa.Array or pa.ChunkedArray + """ + if isinstance(value, cls): + pa_array = value._pa_array + elif isinstance(value, (pa.Array, pa.ChunkedArray)): + pa_array = value + elif isinstance(value, BaseMaskedArray): + # GH 52625 + if copy: + value = value.copy() + pa_array = value.__arrow_array__() + else: + if ( + isinstance(value, np.ndarray) + and pa_type is not None + and ( + pa.types.is_large_binary(pa_type) + or pa.types.is_large_string(pa_type) + ) + ): + # See https://github.com/apache/arrow/issues/35289 + value = value.tolist() + elif copy and is_array_like(value): + # pa array should not get updated when numpy array is updated + value = value.copy() + + if ( + pa_type is not None + and pa.types.is_duration(pa_type) + and (not isinstance(value, np.ndarray) or value.dtype.kind not in "mi") + ): + # Workaround https://github.com/apache/arrow/issues/37291 + from pandas.core.tools.timedeltas import to_timedelta + + value = to_timedelta(value, unit=pa_type.unit).as_unit(pa_type.unit) + value = value.to_numpy() + + try: + pa_array = pa.array(value, type=pa_type, from_pandas=True) + except (pa.ArrowInvalid, pa.ArrowTypeError): + # GH50430: let pyarrow infer type, then cast + pa_array = pa.array(value, from_pandas=True) + + if pa_type is None and pa.types.is_duration(pa_array.type): + # Workaround https://github.com/apache/arrow/issues/37291 + from pandas.core.tools.timedeltas import to_timedelta + + value = to_timedelta(value) + value = value.to_numpy() + pa_array = pa.array(value, type=pa_type, from_pandas=True) + + if pa.types.is_duration(pa_array.type) and pa_array.null_count > 0: + # GH52843: upstream bug for duration types when originally + # constructed with data containing numpy NaT. + # https://github.com/apache/arrow/issues/35088 + arr = cls(pa_array) + arr = arr.fillna(arr.dtype.na_value) + pa_array = arr._pa_array + + if pa_type is not None and pa_array.type != pa_type: + if pa.types.is_dictionary(pa_type): + pa_array = pa_array.dictionary_encode() + else: + try: + pa_array = pa_array.cast(pa_type) + except ( + pa.ArrowInvalid, + pa.ArrowTypeError, + pa.ArrowNotImplementedError, + ): + if pa.types.is_string(pa_array.type) or pa.types.is_large_string( + pa_array.type + ): + # TODO: Move logic in _from_sequence_of_strings into + # _box_pa_array + return cls._from_sequence_of_strings( + value, dtype=pa_type + )._pa_array + else: + raise + + return pa_array + + def __getitem__(self, item: PositionalIndexer): + """Select a subset of self. + + Parameters + ---------- + item : int, slice, or ndarray + * int: The position in 'self' to get. + * slice: A slice object, where 'start', 'stop', and 'step' are + integers or None + * ndarray: A 1-d boolean NumPy ndarray the same length as 'self' + + Returns + ------- + item : scalar or ExtensionArray + + Notes + ----- + For scalar ``item``, return a scalar value suitable for the array's + type. This should be an instance of ``self.dtype.type``. + For slice ``key``, return an instance of ``ExtensionArray``, even + if the slice is length 0 or 1. + For a boolean mask, return an instance of ``ExtensionArray``, filtered + to the values where ``item`` is True. + """ + item = check_array_indexer(self, item) + + if isinstance(item, np.ndarray): + if not len(item): + # Removable once we migrate StringDtype[pyarrow] to ArrowDtype[string] + if ( + isinstance(self._dtype, StringDtype) + and self._dtype.storage == "pyarrow" + ): + # TODO(infer_string) should this be large_string? + pa_dtype = pa.string() + else: + pa_dtype = self._dtype.pyarrow_dtype + return type(self)(pa.chunked_array([], type=pa_dtype)) + elif item.dtype.kind in "iu": + return self.take(item) + elif item.dtype.kind == "b": + return type(self)(self._pa_array.filter(item)) + else: + raise IndexError( + "Only integers, slices and integer or " + "boolean arrays are valid indices." + ) + elif isinstance(item, tuple): + item = unpack_tuple_and_ellipses(item) + + if item is Ellipsis: + # TODO: should be handled by pyarrow? + item = slice(None) + + if is_scalar(item) and not is_integer(item): + # e.g. "foo" or 2.5 + # exception message copied from numpy + raise IndexError( + r"only integers, slices (`:`), ellipsis (`...`), numpy.newaxis " + r"(`None`) and integer or boolean arrays are valid indices" + ) + # We are not an array indexer, so maybe e.g. a slice or integer + # indexer. We dispatch to pyarrow. + if isinstance(item, slice): + # Arrow bug https://github.com/apache/arrow/issues/38768 + if item.start == item.stop: + pass + elif ( + item.stop is not None + and item.stop < -len(self) + and item.step is not None + and item.step < 0 + ): + item = slice(item.start, None, item.step) + + value = self._pa_array[item] + if isinstance(value, pa.ChunkedArray): + return type(self)(value) + else: + pa_type = self._pa_array.type + scalar = value.as_py() + if scalar is None: + return self._dtype.na_value + elif pa.types.is_timestamp(pa_type) and pa_type.unit != "ns": + # GH 53326 + return Timestamp(scalar).as_unit(pa_type.unit) + elif pa.types.is_duration(pa_type) and pa_type.unit != "ns": + # GH 53326 + return Timedelta(scalar).as_unit(pa_type.unit) + else: + return scalar + + def __iter__(self) -> Iterator[Any]: + """ + Iterate over elements of the array. + """ + na_value = self._dtype.na_value + # GH 53326 + pa_type = self._pa_array.type + box_timestamp = pa.types.is_timestamp(pa_type) and pa_type.unit != "ns" + box_timedelta = pa.types.is_duration(pa_type) and pa_type.unit != "ns" + for value in self._pa_array: + val = value.as_py() + if val is None: + yield na_value + elif box_timestamp: + yield Timestamp(val).as_unit(pa_type.unit) + elif box_timedelta: + yield Timedelta(val).as_unit(pa_type.unit) + else: + yield val + + def __arrow_array__(self, type=None): + """Convert myself to a pyarrow ChunkedArray.""" + return self._pa_array + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + """Correctly construct numpy arrays when passed to `np.asarray()`.""" + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + elif copy is None: + # `to_numpy(copy=False)` has the meaning of NumPy `copy=None`. + copy = False + + return self.to_numpy(dtype=dtype, copy=copy) + + def __invert__(self) -> Self: + # This is a bit wise op for integer types + if pa.types.is_integer(self._pa_array.type): + return type(self)(pc.bit_wise_not(self._pa_array)) + elif pa.types.is_string(self._pa_array.type) or pa.types.is_large_string( + self._pa_array.type + ): + # Raise TypeError instead of pa.ArrowNotImplementedError + raise TypeError("__invert__ is not supported for string dtypes") + else: + return type(self)(pc.invert(self._pa_array)) + + def __neg__(self) -> Self: + try: + return type(self)(pc.negate_checked(self._pa_array)) + except pa.ArrowNotImplementedError as err: + raise TypeError( + f"unary '-' not supported for dtype '{self.dtype}'" + ) from err + + def __pos__(self) -> Self: + return type(self)(self._pa_array) + + def __abs__(self) -> Self: + return type(self)(pc.abs_checked(self._pa_array)) + + # GH 42600: __getstate__/__setstate__ not necessary once + # https://issues.apache.org/jira/browse/ARROW-10739 is addressed + def __getstate__(self): + state = self.__dict__.copy() + state["_pa_array"] = self._pa_array.combine_chunks() + return state + + def __setstate__(self, state) -> None: + if "_data" in state: + data = state.pop("_data") + else: + data = state["_pa_array"] + state["_pa_array"] = pa.chunked_array(data) + self.__dict__.update(state) + + def _cmp_method(self, other, op): + pc_func = ARROW_CMP_FUNCS[op.__name__] + if isinstance(other, (ExtensionArray, np.ndarray, list)): + try: + result = pc_func(self._pa_array, self._box_pa(other)) + except pa.ArrowNotImplementedError: + # TODO: could this be wrong if other is object dtype? + # in which case we need to operate pointwise? + result = ops.invalid_comparison(self, other, op) + result = pa.array(result, type=pa.bool_()) + elif is_scalar(other): + try: + result = pc_func(self._pa_array, self._box_pa(other)) + except (pa.lib.ArrowNotImplementedError, pa.lib.ArrowInvalid): + mask = isna(self) | isna(other) + valid = ~mask + result = np.zeros(len(self), dtype="bool") + np_array = np.array(self) + try: + result[valid] = op(np_array[valid], other) + except TypeError: + result = ops.invalid_comparison(self, other, op) + result = pa.array(result, type=pa.bool_()) + result = pc.if_else(valid, result, None) + else: + raise NotImplementedError( + f"{op.__name__} not implemented for {type(other)}" + ) + return ArrowExtensionArray(result) + + def _op_method_error_message(self, other, op) -> str: + if hasattr(other, "dtype"): + other_type = f"dtype '{other.dtype}'" + else: + other_type = f"object of type {type(other)}" + return ( + f"operation '{op.__name__}' not supported for " + f"dtype '{self.dtype}' with {other_type}" + ) + + def _evaluate_op_method(self, other, op, arrow_funcs) -> Self: + pa_type = self._pa_array.type + other_original = other + other = self._box_pa(other) + + if ( + pa.types.is_string(pa_type) + or pa.types.is_large_string(pa_type) + or pa.types.is_binary(pa_type) + ): + if op in [operator.add, roperator.radd]: + sep = pa.scalar("", type=pa_type) + try: + if op is operator.add: + result = pc.binary_join_element_wise(self._pa_array, other, sep) + elif op is roperator.radd: + result = pc.binary_join_element_wise(other, self._pa_array, sep) + except pa.ArrowNotImplementedError as err: + raise TypeError( + self._op_method_error_message(other_original, op) + ) from err + return type(self)(result) + elif op in [operator.mul, roperator.rmul]: + binary = self._pa_array + integral = other + if not pa.types.is_integer(integral.type): + raise TypeError("Can only string multiply by an integer.") + pa_integral = pc.if_else(pc.less(integral, 0), 0, integral) + result = pc.binary_repeat(binary, pa_integral) + return type(self)(result) + elif ( + pa.types.is_string(other.type) + or pa.types.is_binary(other.type) + or pa.types.is_large_string(other.type) + ) and op in [operator.mul, roperator.rmul]: + binary = other + integral = self._pa_array + if not pa.types.is_integer(integral.type): + raise TypeError("Can only string multiply by an integer.") + pa_integral = pc.if_else(pc.less(integral, 0), 0, integral) + result = pc.binary_repeat(binary, pa_integral) + return type(self)(result) + if ( + isinstance(other, pa.Scalar) + and pc.is_null(other).as_py() + and op.__name__ in ARROW_LOGICAL_FUNCS + ): + # pyarrow kleene ops require null to be typed + other = other.cast(pa_type) + + pc_func = arrow_funcs[op.__name__] + if pc_func is NotImplemented: + if pa.types.is_string(pa_type) or pa.types.is_large_string(pa_type): + raise TypeError(self._op_method_error_message(other_original, op)) + raise NotImplementedError(f"{op.__name__} not implemented.") + + try: + result = pc_func(self._pa_array, other) + except pa.ArrowNotImplementedError as err: + raise TypeError(self._op_method_error_message(other_original, op)) from err + return type(self)(result) + + def _logical_method(self, other, op): + # For integer types `^`, `|`, `&` are bitwise operators and return + # integer types. Otherwise these are boolean ops. + if pa.types.is_integer(self._pa_array.type): + return self._evaluate_op_method(other, op, ARROW_BIT_WISE_FUNCS) + else: + return self._evaluate_op_method(other, op, ARROW_LOGICAL_FUNCS) + + def _arith_method(self, other, op): + return self._evaluate_op_method(other, op, ARROW_ARITHMETIC_FUNCS) + + def equals(self, other) -> bool: + if not isinstance(other, ArrowExtensionArray): + return False + # I'm told that pyarrow makes __eq__ behave like pandas' equals; + # TODO: is this documented somewhere? + return self._pa_array == other._pa_array + + @property + def dtype(self) -> ArrowDtype: + """ + An instance of 'ExtensionDtype'. + """ + return self._dtype + + @property + def nbytes(self) -> int: + """ + The number of bytes needed to store this object in memory. + """ + return self._pa_array.nbytes + + def __len__(self) -> int: + """ + Length of this array. + + Returns + ------- + length : int + """ + return len(self._pa_array) + + def __contains__(self, key) -> bool: + # https://github.com/pandas-dev/pandas/pull/51307#issuecomment-1426372604 + if isna(key) and key is not self.dtype.na_value: + if self.dtype.kind == "f" and lib.is_float(key): + return pc.any(pc.is_nan(self._pa_array)).as_py() + + # e.g. date or timestamp types we do not allow None here to match pd.NA + return False + # TODO: maybe complex? object? + + return bool(super().__contains__(key)) + + @property + def _hasna(self) -> bool: + return self._pa_array.null_count > 0 + + def isna(self) -> npt.NDArray[np.bool_]: + """ + Boolean NumPy array indicating if each value is missing. + + This should return a 1-D array the same length as 'self'. + """ + # GH51630: fast paths + null_count = self._pa_array.null_count + if null_count == 0: + return np.zeros(len(self), dtype=np.bool_) + elif null_count == len(self): + return np.ones(len(self), dtype=np.bool_) + + return self._pa_array.is_null().to_numpy() + + def any(self, *, skipna: bool = True, **kwargs): + """ + Return whether any element is truthy. + + Returns False unless there is at least one element that is truthy. + By default, NAs are skipped. If ``skipna=False`` is specified and + missing values are present, similar :ref:`Kleene logic ` + is used as for logical operations. + + Parameters + ---------- + skipna : bool, default True + Exclude NA values. If the entire array is NA and `skipna` is + True, then the result will be False, as for an empty array. + If `skipna` is False, the result will still be True if there is + at least one element that is truthy, otherwise NA will be returned + if there are NA's present. + + Returns + ------- + bool or :attr:`pandas.NA` + + See Also + -------- + ArrowExtensionArray.all : Return whether all elements are truthy. + + Examples + -------- + The result indicates whether any element is truthy (and by default + skips NAs): + + >>> pd.array([True, False, True], dtype="boolean[pyarrow]").any() + True + >>> pd.array([True, False, pd.NA], dtype="boolean[pyarrow]").any() + True + >>> pd.array([False, False, pd.NA], dtype="boolean[pyarrow]").any() + False + >>> pd.array([], dtype="boolean[pyarrow]").any() + False + >>> pd.array([pd.NA], dtype="boolean[pyarrow]").any() + False + >>> pd.array([pd.NA], dtype="float64[pyarrow]").any() + False + + With ``skipna=False``, the result can be NA if this is logically + required (whether ``pd.NA`` is True or False influences the result): + + >>> pd.array([True, False, pd.NA], dtype="boolean[pyarrow]").any(skipna=False) + True + >>> pd.array([1, 0, pd.NA], dtype="boolean[pyarrow]").any(skipna=False) + True + >>> pd.array([False, False, pd.NA], dtype="boolean[pyarrow]").any(skipna=False) + + >>> pd.array([0, 0, pd.NA], dtype="boolean[pyarrow]").any(skipna=False) + + """ + return self._reduce("any", skipna=skipna, **kwargs) + + def all(self, *, skipna: bool = True, **kwargs): + """ + Return whether all elements are truthy. + + Returns True unless there is at least one element that is falsey. + By default, NAs are skipped. If ``skipna=False`` is specified and + missing values are present, similar :ref:`Kleene logic ` + is used as for logical operations. + + Parameters + ---------- + skipna : bool, default True + Exclude NA values. If the entire array is NA and `skipna` is + True, then the result will be True, as for an empty array. + If `skipna` is False, the result will still be False if there is + at least one element that is falsey, otherwise NA will be returned + if there are NA's present. + + Returns + ------- + bool or :attr:`pandas.NA` + + See Also + -------- + ArrowExtensionArray.any : Return whether any element is truthy. + + Examples + -------- + The result indicates whether all elements are truthy (and by default + skips NAs): + + >>> pd.array([True, True, pd.NA], dtype="boolean[pyarrow]").all() + True + >>> pd.array([1, 1, pd.NA], dtype="boolean[pyarrow]").all() + True + >>> pd.array([True, False, pd.NA], dtype="boolean[pyarrow]").all() + False + >>> pd.array([], dtype="boolean[pyarrow]").all() + True + >>> pd.array([pd.NA], dtype="boolean[pyarrow]").all() + True + >>> pd.array([pd.NA], dtype="float64[pyarrow]").all() + True + + With ``skipna=False``, the result can be NA if this is logically + required (whether ``pd.NA`` is True or False influences the result): + + >>> pd.array([True, True, pd.NA], dtype="boolean[pyarrow]").all(skipna=False) + + >>> pd.array([1, 1, pd.NA], dtype="boolean[pyarrow]").all(skipna=False) + + >>> pd.array([True, False, pd.NA], dtype="boolean[pyarrow]").all(skipna=False) + False + >>> pd.array([1, 0, pd.NA], dtype="boolean[pyarrow]").all(skipna=False) + False + """ + return self._reduce("all", skipna=skipna, **kwargs) + + def argsort( + self, + *, + ascending: bool = True, + kind: SortKind = "quicksort", + na_position: str = "last", + **kwargs, + ) -> np.ndarray: + order = "ascending" if ascending else "descending" + null_placement = {"last": "at_end", "first": "at_start"}.get(na_position, None) + if null_placement is None: + raise ValueError(f"invalid na_position: {na_position}") + + result = pc.array_sort_indices( + self._pa_array, order=order, null_placement=null_placement + ) + np_result = result.to_numpy() + return np_result.astype(np.intp, copy=False) + + def _argmin_max(self, skipna: bool, method: str) -> int: + if self._pa_array.length() in (0, self._pa_array.null_count) or ( + self._hasna and not skipna + ): + # For empty or all null, pyarrow returns -1 but pandas expects TypeError + # For skipna=False and data w/ null, pandas expects NotImplementedError + # let ExtensionArray.arg{max|min} raise + return getattr(super(), f"arg{method}")(skipna=skipna) + + data = self._pa_array + if pa.types.is_duration(data.type): + data = data.cast(pa.int64()) + + value = getattr(pc, method)(data, skip_nulls=skipna) + return pc.index(data, value).as_py() + + def argmin(self, skipna: bool = True) -> int: + return self._argmin_max(skipna, "min") + + def argmax(self, skipna: bool = True) -> int: + return self._argmin_max(skipna, "max") + + def copy(self) -> Self: + """ + Return a shallow copy of the array. + + Underlying ChunkedArray is immutable, so a deep copy is unnecessary. + + Returns + ------- + type(self) + """ + return type(self)(self._pa_array) + + def dropna(self) -> Self: + """ + Return ArrowExtensionArray without NA values. + + Returns + ------- + ArrowExtensionArray + """ + return type(self)(pc.drop_null(self._pa_array)) + + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + if not self._hasna: + # TODO(CoW): Not necessary anymore when CoW is the default + return self.copy() + + if limit is None and limit_area is None: + method = missing.clean_fill_method(method) + try: + if method == "pad": + return type(self)(pc.fill_null_forward(self._pa_array)) + elif method == "backfill": + return type(self)(pc.fill_null_backward(self._pa_array)) + except pa.ArrowNotImplementedError: + # ArrowNotImplementedError: Function 'coalesce' has no kernel + # matching input types (duration[ns], duration[ns]) + # TODO: remove try/except wrapper if/when pyarrow implements + # a kernel for duration types. + pass + + # TODO(3.0): after EA.fillna 'method' deprecation is enforced, we can remove + # this method entirely. + return super()._pad_or_backfill( + method=method, limit=limit, limit_area=limit_area, copy=copy + ) + + @doc(ExtensionArray.fillna) + def fillna( + self, + value: object | ArrayLike | None = None, + method: FillnaOptions | None = None, + limit: int | None = None, + copy: bool = True, + ) -> Self: + value, method = validate_fillna_kwargs(value, method) + + if not self._hasna: + # TODO(CoW): Not necessary anymore when CoW is the default + return self.copy() + + if limit is not None: + return super().fillna(value=value, method=method, limit=limit, copy=copy) + + if method is not None: + return super().fillna(method=method, limit=limit, copy=copy) + + if isinstance(value, (np.ndarray, ExtensionArray)): + # Similar to check_value_size, but we do not mask here since we may + # end up passing it to the super() method. + if len(value) != len(self): + raise ValueError( + f"Length of 'value' does not match. Got ({len(value)}) " + f" expected {len(self)}" + ) + + try: + fill_value = self._box_pa(value, pa_type=self._pa_array.type) + except pa.ArrowTypeError as err: + msg = f"Invalid value '{value!s}' for dtype '{self.dtype}'" + raise TypeError(msg) from err + + try: + return type(self)(pc.fill_null(self._pa_array, fill_value=fill_value)) + except pa.ArrowNotImplementedError: + # ArrowNotImplementedError: Function 'coalesce' has no kernel + # matching input types (duration[ns], duration[ns]) + # TODO: remove try/except wrapper if/when pyarrow implements + # a kernel for duration types. + pass + + return super().fillna(value=value, method=method, limit=limit, copy=copy) + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + # short-circuit to return all False array. + if not len(values): + return np.zeros(len(self), dtype=bool) + + result = pc.is_in(self._pa_array, value_set=pa.array(values, from_pandas=True)) + # pyarrow 2.0.0 returned nulls, so we explicitly specify dtype to convert nulls + # to False + return np.array(result, dtype=np.bool_) + + def _values_for_factorize(self) -> tuple[np.ndarray, Any]: + """ + Return an array and missing value suitable for factorization. + + Returns + ------- + values : ndarray + na_value : pd.NA + + Notes + ----- + The values returned by this method are also used in + :func:`pandas.util.hash_pandas_object`. + """ + values = self._pa_array.to_numpy() + return values, self.dtype.na_value + + @doc(ExtensionArray.factorize) + def factorize( + self, + use_na_sentinel: bool = True, + ) -> tuple[np.ndarray, ExtensionArray]: + null_encoding = "mask" if use_na_sentinel else "encode" + + data = self._pa_array + pa_type = data.type + if pa_version_under11p0 and pa.types.is_duration(pa_type): + # https://github.com/apache/arrow/issues/15226#issuecomment-1376578323 + data = data.cast(pa.int64()) + + if pa.types.is_dictionary(data.type): + encoded = data + else: + encoded = data.dictionary_encode(null_encoding=null_encoding) + if encoded.length() == 0: + indices = np.array([], dtype=np.intp) + uniques = type(self)(pa.chunked_array([], type=encoded.type.value_type)) + else: + # GH 54844 + combined = encoded.combine_chunks() + pa_indices = combined.indices + if pa_indices.null_count > 0: + pa_indices = pc.fill_null(pa_indices, -1) + indices = pa_indices.to_numpy(zero_copy_only=False, writable=True).astype( + np.intp, copy=False + ) + uniques = type(self)(combined.dictionary) + + if pa_version_under11p0 and pa.types.is_duration(pa_type): + uniques = cast(ArrowExtensionArray, uniques.astype(self.dtype)) + return indices, uniques + + def reshape(self, *args, **kwargs): + raise NotImplementedError( + f"{type(self)} does not support reshape " + f"as backed by a 1D pyarrow.ChunkedArray." + ) + + def round(self, decimals: int = 0, *args, **kwargs) -> Self: + """ + Round each value in the array a to the given number of decimals. + + Parameters + ---------- + decimals : int, default 0 + Number of decimal places to round to. If decimals is negative, + it specifies the number of positions to the left of the decimal point. + *args, **kwargs + Additional arguments and keywords have no effect. + + Returns + ------- + ArrowExtensionArray + Rounded values of the ArrowExtensionArray. + + See Also + -------- + DataFrame.round : Round values of a DataFrame. + Series.round : Round values of a Series. + """ + return type(self)(pc.round(self._pa_array, ndigits=decimals)) + + @doc(ExtensionArray.searchsorted) + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + if self._hasna: + raise ValueError( + "searchsorted requires array to be sorted, which is impossible " + "with NAs present." + ) + if isinstance(value, ExtensionArray): + value = value.astype(object) + # Base class searchsorted would cast to object, which is *much* slower. + dtype = None + if isinstance(self.dtype, ArrowDtype): + pa_dtype = self.dtype.pyarrow_dtype + if ( + pa.types.is_timestamp(pa_dtype) or pa.types.is_duration(pa_dtype) + ) and pa_dtype.unit == "ns": + # np.array[datetime/timedelta].searchsorted(datetime/timedelta) + # erroneously fails when numpy type resolution is nanoseconds + dtype = object + return self.to_numpy(dtype=dtype).searchsorted(value, side=side, sorter=sorter) + + def take( + self, + indices: TakeIndexer, + allow_fill: bool = False, + fill_value: Any = None, + ) -> ArrowExtensionArray: + """ + Take elements from an array. + + Parameters + ---------- + indices : sequence of int or one-dimensional np.ndarray of int + Indices to be taken. + allow_fill : bool, default False + How to handle negative values in `indices`. + + * False: negative values in `indices` indicate positional indices + from the right (the default). This is similar to + :func:`numpy.take`. + + * True: negative values in `indices` indicate + missing values. These values are set to `fill_value`. Any other + other negative values raise a ``ValueError``. + + fill_value : any, optional + Fill value to use for NA-indices when `allow_fill` is True. + This may be ``None``, in which case the default NA value for + the type, ``self.dtype.na_value``, is used. + + For many ExtensionArrays, there will be two representations of + `fill_value`: a user-facing "boxed" scalar, and a low-level + physical NA value. `fill_value` should be the user-facing version, + and the implementation should handle translating that to the + physical version for processing the take if necessary. + + Returns + ------- + ExtensionArray + + Raises + ------ + IndexError + When the indices are out of bounds for the array. + ValueError + When `indices` contains negative values other than ``-1`` + and `allow_fill` is True. + + See Also + -------- + numpy.take + api.extensions.take + + Notes + ----- + ExtensionArray.take is called by ``Series.__getitem__``, ``.loc``, + ``iloc``, when `indices` is a sequence of values. Additionally, + it's called by :meth:`Series.reindex`, or any other method + that causes realignment, with a `fill_value`. + """ + indices_array = np.asanyarray(indices) + + if len(self._pa_array) == 0 and (indices_array >= 0).any(): + raise IndexError("cannot do a non-empty take") + if indices_array.size > 0 and indices_array.max() >= len(self._pa_array): + raise IndexError("out of bounds value in 'indices'.") + + if allow_fill: + fill_mask = indices_array < 0 + if fill_mask.any(): + validate_indices(indices_array, len(self._pa_array)) + # TODO(ARROW-9433): Treat negative indices as NULL + indices_array = pa.array(indices_array, mask=fill_mask) + result = self._pa_array.take(indices_array) + if isna(fill_value): + return type(self)(result) + # TODO: ArrowNotImplementedError: Function fill_null has no + # kernel matching input types (array[string], scalar[string]) + result = type(self)(result) + result[fill_mask] = fill_value + return result + # return type(self)(pc.fill_null(result, pa.scalar(fill_value))) + else: + # Nothing to fill + return type(self)(self._pa_array.take(indices)) + else: # allow_fill=False + # TODO(ARROW-9432): Treat negative indices as indices from the right. + if (indices_array < 0).any(): + # Don't modify in-place + indices_array = np.copy(indices_array) + indices_array[indices_array < 0] += len(self._pa_array) + return type(self)(self._pa_array.take(indices_array)) + + def _maybe_convert_datelike_array(self): + """Maybe convert to a datelike array.""" + pa_type = self._pa_array.type + if pa.types.is_timestamp(pa_type): + return self._to_datetimearray() + elif pa.types.is_duration(pa_type): + return self._to_timedeltaarray() + return self + + def _to_datetimearray(self) -> DatetimeArray: + """Convert a pyarrow timestamp typed array to a DatetimeArray.""" + from pandas.core.arrays.datetimes import ( + DatetimeArray, + tz_to_dtype, + ) + + pa_type = self._pa_array.type + assert pa.types.is_timestamp(pa_type) + np_dtype = np.dtype(f"M8[{pa_type.unit}]") + dtype = tz_to_dtype(pa_type.tz, pa_type.unit) + np_array = self._pa_array.to_numpy() + np_array = np_array.astype(np_dtype) + return DatetimeArray._simple_new(np_array, dtype=dtype) + + def _to_timedeltaarray(self) -> TimedeltaArray: + """Convert a pyarrow duration typed array to a TimedeltaArray.""" + from pandas.core.arrays.timedeltas import TimedeltaArray + + pa_type = self._pa_array.type + assert pa.types.is_duration(pa_type) + np_dtype = np.dtype(f"m8[{pa_type.unit}]") + np_array = self._pa_array.to_numpy() + np_array = np_array.astype(np_dtype) + return TimedeltaArray._simple_new(np_array, dtype=np_dtype) + + def _values_for_json(self) -> np.ndarray: + if is_numeric_dtype(self.dtype): + return np.asarray(self, dtype=object) + return super()._values_for_json() + + @doc(ExtensionArray.to_numpy) + def to_numpy( + self, + dtype: npt.DTypeLike | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + original_na_value = na_value + dtype, na_value = to_numpy_dtype_inference(self, dtype, na_value, self._hasna) + pa_type = self._pa_array.type + if not self._hasna or isna(na_value) or pa.types.is_null(pa_type): + data = self + else: + data = self.fillna(na_value) + copy = False + + if pa.types.is_timestamp(pa_type) or pa.types.is_duration(pa_type): + # GH 55997 + if dtype != object and na_value is self.dtype.na_value: + na_value = lib.no_default + result = data._maybe_convert_datelike_array().to_numpy( + dtype=dtype, na_value=na_value + ) + elif pa.types.is_time(pa_type) or pa.types.is_date(pa_type): + # convert to list of python datetime.time objects before + # wrapping in ndarray + result = np.array(list(data), dtype=dtype) + if data._hasna: + result[data.isna()] = na_value + elif pa.types.is_null(pa_type): + if dtype is not None and isna(na_value): + na_value = None + result = np.full(len(data), fill_value=na_value, dtype=dtype) + elif not data._hasna or ( + pa.types.is_floating(pa_type) + and ( + na_value is np.nan + or original_na_value is lib.no_default + and is_float_dtype(dtype) + ) + ): + result = data._pa_array.to_numpy() + if dtype is not None: + result = result.astype(dtype, copy=False) + if copy: + result = result.copy() + else: + if dtype is None: + empty = pa.array([], type=pa_type).to_numpy(zero_copy_only=False) + if can_hold_element(empty, na_value): + dtype = empty.dtype + else: + dtype = np.object_ + result = np.empty(len(data), dtype=dtype) + mask = data.isna() + result[mask] = na_value + result[~mask] = data[~mask]._pa_array.to_numpy() + return result + + def map(self, mapper, na_action=None): + if is_numeric_dtype(self.dtype): + return map_array(self.to_numpy(), mapper, na_action=na_action) + else: + return super().map(mapper, na_action) + + @doc(ExtensionArray.duplicated) + def duplicated( + self, keep: Literal["first", "last", False] = "first" + ) -> npt.NDArray[np.bool_]: + pa_type = self._pa_array.type + if pa.types.is_floating(pa_type) or pa.types.is_integer(pa_type): + values = self.to_numpy(na_value=0) + elif pa.types.is_boolean(pa_type): + values = self.to_numpy(na_value=False) + elif pa.types.is_temporal(pa_type): + if pa_type.bit_width == 32: + pa_type = pa.int32() + else: + pa_type = pa.int64() + arr = self.astype(ArrowDtype(pa_type)) + values = arr.to_numpy(na_value=0) + else: + # factorize the values to avoid the performance penalty of + # converting to object dtype + values = self.factorize()[0] + + mask = self.isna() if self._hasna else None + return algos.duplicated(values, keep=keep, mask=mask) + + def unique(self) -> Self: + """ + Compute the ArrowExtensionArray of unique values. + + Returns + ------- + ArrowExtensionArray + """ + pa_type = self._pa_array.type + + if pa_version_under11p0 and pa.types.is_duration(pa_type): + # https://github.com/apache/arrow/issues/15226#issuecomment-1376578323 + data = self._pa_array.cast(pa.int64()) + else: + data = self._pa_array + + pa_result = pc.unique(data) + + if pa_version_under11p0 and pa.types.is_duration(pa_type): + pa_result = pa_result.cast(pa_type) + + return type(self)(pa_result) + + def value_counts(self, dropna: bool = True) -> Series: + """ + Return a Series containing counts of each unique value. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of missing values. + + Returns + ------- + counts : Series + + See Also + -------- + Series.value_counts + """ + pa_type = self._pa_array.type + if pa_version_under11p0 and pa.types.is_duration(pa_type): + # https://github.com/apache/arrow/issues/15226#issuecomment-1376578323 + data = self._pa_array.cast(pa.int64()) + else: + data = self._pa_array + + from pandas import ( + Index, + Series, + ) + + vc = data.value_counts() + + values = vc.field(0) + counts = vc.field(1) + if dropna and data.null_count > 0: + mask = values.is_valid() + values = values.filter(mask) + counts = counts.filter(mask) + + if pa_version_under11p0 and pa.types.is_duration(pa_type): + values = values.cast(pa_type) + + counts = ArrowExtensionArray(counts) + + index = Index(type(self)(values)) + + return Series(counts, index=index, name="count", copy=False) + + @classmethod + def _concat_same_type(cls, to_concat) -> Self: + """ + Concatenate multiple ArrowExtensionArrays. + + Parameters + ---------- + to_concat : sequence of ArrowExtensionArrays + + Returns + ------- + ArrowExtensionArray + """ + chunks = [array for ea in to_concat for array in ea._pa_array.iterchunks()] + if to_concat[0].dtype == "string": + # StringDtype has no attribute pyarrow_dtype + pa_dtype = pa.large_string() + else: + pa_dtype = to_concat[0].dtype.pyarrow_dtype + arr = pa.chunked_array(chunks, type=pa_dtype) + return cls(arr) + + def _accumulate( + self, name: str, *, skipna: bool = True, **kwargs + ) -> ArrowExtensionArray | ExtensionArray: + """ + Return an ExtensionArray performing an accumulation operation. + + The underlying data type might change. + + Parameters + ---------- + name : str + Name of the function, supported values are: + - cummin + - cummax + - cumsum + - cumprod + skipna : bool, default True + If True, skip NA values. + **kwargs + Additional keyword arguments passed to the accumulation function. + Currently, there is no supported kwarg. + + Returns + ------- + array + + Raises + ------ + NotImplementedError : subclass does not define accumulations + """ + if is_string_dtype(self): + return self._str_accumulate(name=name, skipna=skipna, **kwargs) + + pyarrow_name = { + "cummax": "cumulative_max", + "cummin": "cumulative_min", + "cumprod": "cumulative_prod_checked", + "cumsum": "cumulative_sum_checked", + }.get(name, name) + pyarrow_meth = getattr(pc, pyarrow_name, None) + if pyarrow_meth is None: + return super()._accumulate(name, skipna=skipna, **kwargs) + + data_to_accum = self._pa_array + + pa_dtype = data_to_accum.type + + convert_to_int = ( + pa.types.is_temporal(pa_dtype) and name in ["cummax", "cummin"] + ) or (pa.types.is_duration(pa_dtype) and name == "cumsum") + + if convert_to_int: + if pa_dtype.bit_width == 32: + data_to_accum = data_to_accum.cast(pa.int32()) + else: + data_to_accum = data_to_accum.cast(pa.int64()) + + try: + result = pyarrow_meth(data_to_accum, skip_nulls=skipna, **kwargs) + except pa.ArrowNotImplementedError as err: + msg = f"operation '{name}' not supported for dtype '{self.dtype}'" + raise TypeError(msg) from err + + if convert_to_int: + result = result.cast(pa_dtype) + + return type(self)(result) + + def _str_accumulate( + self, name: str, *, skipna: bool = True, **kwargs + ) -> ArrowExtensionArray | ExtensionArray: + """ + Accumulate implementation for strings, see `_accumulate` docstring for details. + + pyarrow.compute does not implement these methods for strings. + """ + if name == "cumprod": + msg = f"operation '{name}' not supported for dtype '{self.dtype}'" + raise TypeError(msg) + + # We may need to strip out trailing NA values + tail: pa.array | None = None + na_mask: pa.array | None = None + pa_array = self._pa_array + np_func = { + "cumsum": np.cumsum, + "cummin": np.minimum.accumulate, + "cummax": np.maximum.accumulate, + }[name] + + if self._hasna: + na_mask = pc.is_null(pa_array) + if pc.all(na_mask) == pa.scalar(True): + return type(self)(pa_array) + if skipna: + if name == "cumsum": + pa_array = pc.fill_null(pa_array, "") + else: + # We can retain the running min/max by forward/backward filling. + pa_array = pc.fill_null_forward(pa_array) + pa_array = pc.fill_null_backward(pa_array) + else: + # When not skipping NA values, the result should be null from + # the first NA value onward. + idx = pc.index(na_mask, True).as_py() + tail = pa.nulls(len(pa_array) - idx, type=pa_array.type) + pa_array = pa_array[:idx] + + # error: Cannot call function of unknown type + pa_result = pa.array(np_func(pa_array), type=pa_array.type) # type: ignore[operator] + + if tail is not None: + pa_result = pa.concat_arrays([pa_result, tail]) + elif na_mask is not None: + pa_result = pc.if_else(na_mask, None, pa_result) + + result = type(self)(pa_result) + return result + + def _reduce_pyarrow(self, name: str, *, skipna: bool = True, **kwargs) -> pa.Scalar: + """ + Return a pyarrow scalar result of performing the reduction operation. + + Parameters + ---------- + name : str + Name of the function, supported values are: + { any, all, min, max, sum, mean, median, prod, + std, var, sem, kurt, skew }. + skipna : bool, default True + If True, skip NaN values. + **kwargs + Additional keyword arguments passed to the reduction function. + Currently, `ddof` is the only supported kwarg. + + Returns + ------- + pyarrow scalar + + Raises + ------ + TypeError : subclass does not define reductions + """ + pa_type = self._pa_array.type + + data_to_reduce = self._pa_array + + cast_kwargs = {} if pa_version_under13p0 else {"safe": False} + + if name in ["any", "all"] and ( + pa.types.is_integer(pa_type) + or pa.types.is_floating(pa_type) + or pa.types.is_duration(pa_type) + or pa.types.is_decimal(pa_type) + ): + # pyarrow only supports any/all for boolean dtype, we allow + # for other dtypes, matching our non-pyarrow behavior + + if pa.types.is_duration(pa_type): + data_to_cmp = self._pa_array.cast(pa.int64()) + else: + data_to_cmp = self._pa_array + + not_eq = pc.not_equal(data_to_cmp, 0) + data_to_reduce = not_eq + + elif name in ["min", "max", "sum"] and pa.types.is_duration(pa_type): + data_to_reduce = self._pa_array.cast(pa.int64()) + + elif name in ["median", "mean", "std", "sem"] and pa.types.is_temporal(pa_type): + nbits = pa_type.bit_width + if nbits == 32: + data_to_reduce = self._pa_array.cast(pa.int32()) + else: + data_to_reduce = self._pa_array.cast(pa.int64()) + + if name == "sem": + + def pyarrow_meth(data, skip_nulls, **kwargs): + numerator = pc.stddev(data, skip_nulls=skip_nulls, **kwargs) + denominator = pc.sqrt_checked(pc.count(self._pa_array)) + return pc.divide_checked(numerator, denominator) + + elif name == "sum" and ( + pa.types.is_string(pa_type) or pa.types.is_large_string(pa_type) + ): + + def pyarrow_meth(data, skip_nulls, min_count=0): # type: ignore[misc] + mask = pc.is_null(data) if data.null_count > 0 else None + if skip_nulls: + if min_count > 0 and check_below_min_count( + (len(data),), + None if mask is None else mask.to_numpy(), + min_count, + ): + return pa.scalar(None, type=data.type) + if data.null_count > 0: + # binary_join returns null if there is any null -> + # have to filter out any nulls + data = data.filter(pc.invert(mask)) + else: + if mask is not None or check_below_min_count( + (len(data),), None, min_count + ): + return pa.scalar(None, type=data.type) + + if pa.types.is_large_string(data.type): + # binary_join only supports string, not large_string + data = data.cast(pa.string()) + data_list = pa.ListArray.from_arrays( + [0, len(data)], data.combine_chunks() + )[0] + return pc.binary_join(data_list, "") + + else: + pyarrow_name = { + "median": "quantile", + "prod": "product", + "std": "stddev", + "var": "variance", + }.get(name, name) + # error: Incompatible types in assignment + # (expression has type "Optional[Any]", variable has type + # "Callable[[Any, Any, KwArg(Any)], Any]") + pyarrow_meth = getattr(pc, pyarrow_name, None) # type: ignore[assignment] + if pyarrow_meth is None: + # Let ExtensionArray._reduce raise the TypeError + return super()._reduce(name, skipna=skipna, **kwargs) + + # GH51624: pyarrow defaults to min_count=1, pandas behavior is min_count=0 + if name in ["any", "all"] and "min_count" not in kwargs: + kwargs["min_count"] = 0 + elif name == "median": + # GH 52679: Use quantile instead of approximate_median + kwargs["q"] = 0.5 + + try: + result = pyarrow_meth(data_to_reduce, skip_nulls=skipna, **kwargs) + except (AttributeError, NotImplementedError, TypeError) as err: + msg = ( + f"'{type(self).__name__}' with dtype {self.dtype} " + f"does not support reduction '{name}' with pyarrow " + f"version {pa.__version__}. '{name}' may be supported by " + f"upgrading pyarrow." + ) + raise TypeError(msg) from err + if name == "median": + # GH 52679: Use quantile instead of approximate_median; returns array + result = result[0] + if pc.is_null(result).as_py(): + return result + + if name in ["min", "max", "sum"] and pa.types.is_duration(pa_type): + result = result.cast(pa_type) + if name in ["median", "mean"] and pa.types.is_temporal(pa_type): + if not pa_version_under13p0: + nbits = pa_type.bit_width + if nbits == 32: + result = result.cast(pa.int32(), **cast_kwargs) + else: + result = result.cast(pa.int64(), **cast_kwargs) + result = result.cast(pa_type) + if name in ["std", "sem"] and pa.types.is_temporal(pa_type): + result = result.cast(pa.int64(), **cast_kwargs) + if pa.types.is_duration(pa_type): + result = result.cast(pa_type) + elif pa.types.is_time(pa_type): + unit = get_unit_from_pa_dtype(pa_type) + result = result.cast(pa.duration(unit)) + elif pa.types.is_date(pa_type): + # go with closest available unit, i.e. "s" + result = result.cast(pa.duration("s")) + else: + # i.e. timestamp + result = result.cast(pa.duration(pa_type.unit)) + + return result + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + """ + Return a scalar result of performing the reduction operation. + + Parameters + ---------- + name : str + Name of the function, supported values are: + { any, all, min, max, sum, mean, median, prod, + std, var, sem, kurt, skew }. + skipna : bool, default True + If True, skip NaN values. + **kwargs + Additional keyword arguments passed to the reduction function. + Currently, `ddof` is the only supported kwarg. + + Returns + ------- + scalar + + Raises + ------ + TypeError : subclass does not define reductions + """ + result = self._reduce_calc(name, skipna=skipna, keepdims=keepdims, **kwargs) + if isinstance(result, pa.Array): + return type(self)(result) + else: + return result + + def _reduce_calc( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + pa_result = self._reduce_pyarrow(name, skipna=skipna, **kwargs) + + if keepdims: + if isinstance(pa_result, pa.Scalar): + result = pa.array([pa_result.as_py()], type=pa_result.type) + else: + result = pa.array( + [pa_result], + type=to_pyarrow_type(infer_dtype_from_scalar(pa_result)[0]), + ) + return result + + if pc.is_null(pa_result).as_py(): + return self.dtype.na_value + elif isinstance(pa_result, pa.Scalar): + return pa_result.as_py() + else: + return pa_result + + def _explode(self): + """ + See Series.explode.__doc__. + """ + # child class explode method supports only list types; return + # default implementation for non list types. + if not hasattr(self.dtype, "pyarrow_dtype") or ( + not pa.types.is_list(self.dtype.pyarrow_dtype) + ): + return super()._explode() + values = self + counts = pa.compute.list_value_length(values._pa_array) + counts = counts.fill_null(1).to_numpy() + fill_value = pa.scalar([None], type=self._pa_array.type) + mask = counts == 0 + if mask.any(): + values = values.copy() + values[mask] = fill_value + counts = counts.copy() + counts[mask] = 1 + values = values.fillna(fill_value) + values = type(self)(pa.compute.list_flatten(values._pa_array)) + return values, counts + + def __setitem__(self, key, value) -> None: + """Set one or more values inplace. + + Parameters + ---------- + key : int, ndarray, or slice + When called from, e.g. ``Series.__setitem__``, ``key`` will be + one of + + * scalar int + * ndarray of integers. + * boolean ndarray + * slice object + + value : ExtensionDtype.type, Sequence[ExtensionDtype.type], or object + value or values to be set of ``key``. + + Returns + ------- + None + """ + # GH50085: unwrap 1D indexers + if isinstance(key, tuple) and len(key) == 1: + key = key[0] + + key = check_array_indexer(self, key) + value = self._maybe_convert_setitem_value(value) + + if com.is_null_slice(key): + # fast path (GH50248) + data = self._if_else(True, value, self._pa_array) + + elif is_integer(key): + # fast path + key = cast(int, key) + n = len(self) + if key < 0: + key += n + if not 0 <= key < n: + raise IndexError( + f"index {key} is out of bounds for axis 0 with size {n}" + ) + if isinstance(value, pa.Scalar): + value = value.as_py() + elif is_list_like(value): + raise ValueError("Length of indexer and values mismatch") + chunks = [ + *self._pa_array[:key].chunks, + pa.array([value], type=self._pa_array.type, from_pandas=True), + *self._pa_array[key + 1 :].chunks, + ] + data = pa.chunked_array(chunks).combine_chunks() + + elif is_bool_dtype(key): + key = np.asarray(key, dtype=np.bool_) + data = self._replace_with_mask(self._pa_array, key, value) + + elif is_scalar(value) or isinstance(value, pa.Scalar): + mask = np.zeros(len(self), dtype=np.bool_) + mask[key] = True + data = self._if_else(mask, value, self._pa_array) + + else: + indices = np.arange(len(self))[key] + if len(indices) != len(value): + raise ValueError("Length of indexer and values mismatch") + if len(indices) == 0: + return + argsort = np.argsort(indices) + indices = indices[argsort] + value = value.take(argsort) + mask = np.zeros(len(self), dtype=np.bool_) + mask[indices] = True + data = self._replace_with_mask(self._pa_array, mask, value) + + if isinstance(data, pa.Array): + data = pa.chunked_array([data]) + self._pa_array = data + + def _rank_calc( + self, + *, + axis: AxisInt = 0, + method: str = "average", + na_option: str = "keep", + ascending: bool = True, + pct: bool = False, + ): + if axis != 0: + ranked = super()._rank( + axis=axis, + method=method, + na_option=na_option, + ascending=ascending, + pct=pct, + ) + # keep dtypes consistent with the implementation below + if method == "average" or pct: + pa_type = pa.float64() + else: + pa_type = pa.uint64() + result = pa.array(ranked, type=pa_type, from_pandas=True) + return result + + data = self._pa_array.combine_chunks() + sort_keys = "ascending" if ascending else "descending" + null_placement = "at_start" if na_option == "top" else "at_end" + tiebreaker = "min" if method == "average" else method + + result = pc.rank( + data, + sort_keys=sort_keys, + null_placement=null_placement, + tiebreaker=tiebreaker, + ) + + if na_option == "keep": + mask = pc.is_null(self._pa_array) + null = pa.scalar(None, type=result.type) + result = pc.if_else(mask, null, result) + + if method == "average": + result_max = pc.rank( + data, + sort_keys=sort_keys, + null_placement=null_placement, + tiebreaker="max", + ) + result_max = result_max.cast(pa.float64()) + result_min = result.cast(pa.float64()) + result = pc.divide(pc.add(result_min, result_max), 2) + + if pct: + if not pa.types.is_floating(result.type): + result = result.cast(pa.float64()) + if method == "dense": + divisor = pc.max(result) + else: + divisor = pc.count(result) + result = pc.divide(result, divisor) + + return result + + def _rank( + self, + *, + axis: AxisInt = 0, + method: str = "average", + na_option: str = "keep", + ascending: bool = True, + pct: bool = False, + ): + """ + See Series.rank.__doc__. + """ + return self._convert_rank_result( + self._rank_calc( + axis=axis, + method=method, + na_option=na_option, + ascending=ascending, + pct=pct, + ) + ) + + def _quantile(self, qs: npt.NDArray[np.float64], interpolation: str) -> Self: + """ + Compute the quantiles of self for each quantile in `qs`. + + Parameters + ---------- + qs : np.ndarray[float64] + interpolation: str + + Returns + ------- + same type as self + """ + pa_dtype = self._pa_array.type + + data = self._pa_array + if pa.types.is_temporal(pa_dtype): + # https://github.com/apache/arrow/issues/33769 in these cases + # we can cast to ints and back + nbits = pa_dtype.bit_width + if nbits == 32: + data = data.cast(pa.int32()) + else: + data = data.cast(pa.int64()) + + result = pc.quantile(data, q=qs, interpolation=interpolation) + + if pa.types.is_temporal(pa_dtype): + if pa.types.is_floating(result.type): + result = pc.floor(result) + nbits = pa_dtype.bit_width + if nbits == 32: + result = result.cast(pa.int32()) + else: + result = result.cast(pa.int64()) + result = result.cast(pa_dtype) + + return type(self)(result) + + def _mode(self, dropna: bool = True) -> Self: + """ + Returns the mode(s) of the ExtensionArray. + + Always returns `ExtensionArray` even if only one value. + + Parameters + ---------- + dropna : bool, default True + Don't consider counts of NA values. + + Returns + ------- + same type as self + Sorted, if possible. + """ + pa_type = self._pa_array.type + if pa.types.is_temporal(pa_type): + nbits = pa_type.bit_width + if nbits == 32: + data = self._pa_array.cast(pa.int32()) + elif nbits == 64: + data = self._pa_array.cast(pa.int64()) + else: + raise NotImplementedError(pa_type) + else: + data = self._pa_array + + if dropna: + data = data.drop_null() + + res = pc.value_counts(data) + most_common = res.field("values").filter( + pc.equal(res.field("counts"), pc.max(res.field("counts"))) + ) + + if pa.types.is_temporal(pa_type): + most_common = most_common.cast(pa_type) + + most_common = most_common.take(pc.array_sort_indices(most_common)) + return type(self)(most_common) + + def _maybe_convert_setitem_value(self, value): + """Maybe convert value to be pyarrow compatible.""" + try: + value = self._box_pa(value, self._pa_array.type) + except pa.ArrowTypeError as err: + msg = f"Invalid value '{value!s}' for dtype '{self.dtype}'" + raise TypeError(msg) from err + return value + + def interpolate( + self, + *, + method: InterpolateOptions, + axis: int, + index, + limit, + limit_direction, + limit_area, + copy: bool, + **kwargs, + ) -> Self: + """ + See NDFrame.interpolate.__doc__. + """ + # NB: we return type(self) even if copy=False + if not self.dtype._is_numeric: + raise TypeError(f"Cannot interpolate with {self.dtype} dtype") + + mask = self.isna() + if self.dtype.kind == "f": + data = self._pa_array.to_numpy() + elif self.dtype.kind in "iu": + data = self.to_numpy(dtype="f8", na_value=0.0) + else: + raise NotImplementedError( + f"interpolate is not implemented for dtype={self.dtype}" + ) + + missing.interpolate_2d_inplace( + data, + method=method, + axis=0, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + mask=mask, + **kwargs, + ) + return type(self)(self._box_pa_array(pa.array(data, mask=mask))) + + @classmethod + def _if_else( + cls, + cond: npt.NDArray[np.bool_] | bool, + left: ArrayLike | Scalar, + right: ArrayLike | Scalar, + ): + """ + Choose values based on a condition. + + Analogous to pyarrow.compute.if_else, with logic + to fallback to numpy for unsupported types. + + Parameters + ---------- + cond : npt.NDArray[np.bool_] or bool + left : ArrayLike | Scalar + right : ArrayLike | Scalar + + Returns + ------- + pa.Array + """ + try: + return pc.if_else(cond, left, right) + except pa.ArrowNotImplementedError: + pass + + def _to_numpy_and_type(value) -> tuple[np.ndarray, pa.DataType | None]: + if isinstance(value, (pa.Array, pa.ChunkedArray)): + pa_type = value.type + elif isinstance(value, pa.Scalar): + pa_type = value.type + value = value.as_py() + else: + pa_type = None + return np.array(value, dtype=object), pa_type + + left, left_type = _to_numpy_and_type(left) + right, right_type = _to_numpy_and_type(right) + pa_type = left_type or right_type + result = np.where(cond, left, right) + return pa.array(result, type=pa_type, from_pandas=True) + + @classmethod + def _replace_with_mask( + cls, + values: pa.Array | pa.ChunkedArray, + mask: npt.NDArray[np.bool_] | bool, + replacements: ArrayLike | Scalar, + ): + """ + Replace items selected with a mask. + + Analogous to pyarrow.compute.replace_with_mask, with logic + to fallback to numpy for unsupported types. + + Parameters + ---------- + values : pa.Array or pa.ChunkedArray + mask : npt.NDArray[np.bool_] or bool + replacements : ArrayLike or Scalar + Replacement value(s) + + Returns + ------- + pa.Array or pa.ChunkedArray + """ + if isinstance(replacements, pa.ChunkedArray): + # replacements must be array or scalar, not ChunkedArray + replacements = replacements.combine_chunks() + if isinstance(values, pa.ChunkedArray) and pa.types.is_boolean(values.type): + # GH#52059 replace_with_mask segfaults for chunked array + # https://github.com/apache/arrow/issues/34634 + values = values.combine_chunks() + try: + return pc.replace_with_mask(values, mask, replacements) + except pa.ArrowNotImplementedError: + pass + if isinstance(replacements, pa.Array): + replacements = np.array(replacements, dtype=object) + elif isinstance(replacements, pa.Scalar): + replacements = replacements.as_py() + result = np.array(values, dtype=object) + result[mask] = replacements + return pa.array(result, type=values.type, from_pandas=True) + + # ------------------------------------------------------------------ + # GroupBy Methods + + def _to_masked(self): + pa_dtype = self._pa_array.type + + if pa.types.is_floating(pa_dtype) or pa.types.is_integer(pa_dtype): + na_value = 1 + elif pa.types.is_boolean(pa_dtype): + na_value = True + else: + raise NotImplementedError + + dtype = _arrow_dtype_mapping()[pa_dtype] + mask = self.isna() + arr = self.to_numpy(dtype=dtype.numpy_dtype, na_value=na_value) + return dtype.construct_array_type()(arr, mask) + + def _groupby_op( + self, + *, + how: str, + has_dropped_na: bool, + min_count: int, + ngroups: int, + ids: npt.NDArray[np.intp], + **kwargs, + ): + if isinstance(self.dtype, StringDtype): + if how in [ + "prod", + "mean", + "median", + "cumsum", + "cumprod", + "std", + "sem", + "var", + "skew", + ]: + raise TypeError( + f"dtype '{self.dtype}' does not support operation '{how}'" + ) + return super()._groupby_op( + how=how, + has_dropped_na=has_dropped_na, + min_count=min_count, + ngroups=ngroups, + ids=ids, + **kwargs, + ) + + # maybe convert to a compatible dtype optimized for groupby + values: ExtensionArray + pa_type = self._pa_array.type + if pa.types.is_timestamp(pa_type): + values = self._to_datetimearray() + elif pa.types.is_duration(pa_type): + values = self._to_timedeltaarray() + else: + values = self._to_masked() + + result = values._groupby_op( + how=how, + has_dropped_na=has_dropped_na, + min_count=min_count, + ngroups=ngroups, + ids=ids, + **kwargs, + ) + if isinstance(result, np.ndarray): + return result + return type(self)._from_sequence(result, copy=False) + + def _apply_elementwise(self, func: Callable) -> list[list[Any]]: + """Apply a callable to each element while maintaining the chunking structure.""" + return [ + [ + None if val is None else func(val) + for val in chunk.to_numpy(zero_copy_only=False) + ] + for chunk in self._pa_array.iterchunks() + ] + + def _convert_bool_result(self, result, na=lib.no_default, method_name=None): + if na is not lib.no_default and not isna( + na + ): # pyright: ignore [reportGeneralTypeIssues] + result = result.fill_null(na) + return type(self)(result) + + def _convert_int_result(self, result): + return type(self)(result) + + def _convert_rank_result(self, result): + return type(self)(result) + + def _str_count(self, pat: str, flags: int = 0): + if flags: + raise NotImplementedError(f"count not implemented with {flags=}") + return type(self)(pc.count_substring_regex(self._pa_array, pat)) + + def _str_repeat(self, repeats: int | Sequence[int]): + if not isinstance(repeats, int): + raise NotImplementedError( + f"repeat is not implemented when repeats is {type(repeats).__name__}" + ) + else: + return type(self)(pc.binary_repeat(self._pa_array, repeats)) + + def _str_join(self, sep: str): + if pa.types.is_string(self._pa_array.type) or pa.types.is_large_string( + self._pa_array.type + ): + result = self._apply_elementwise(list) + result = pa.chunked_array(result, type=pa.list_(pa.string())) + else: + result = self._pa_array + return type(self)(pc.binary_join(result, sep)) + + def _str_partition(self, sep: str, expand: bool): + predicate = lambda val: val.partition(sep) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_rpartition(self, sep: str, expand: bool): + predicate = lambda val: val.rpartition(sep) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_casefold(self): + predicate = lambda val: val.casefold() + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_encode(self, encoding: str, errors: str = "strict"): + predicate = lambda val: val.encode(encoding, errors) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_extract(self, pat: str, flags: int = 0, expand: bool = True): + if flags: + raise NotImplementedError("Only flags=0 is implemented.") + groups = re.compile(pat).groupindex.keys() + if len(groups) == 0: + raise ValueError(f"{pat=} must contain a symbolic group name.") + result = pc.extract_regex(self._pa_array, pat) + if expand: + return { + col: type(self)(pc.struct_field(result, [i])) + for col, i in zip(groups, range(result.type.num_fields)) + } + else: + return type(self)(pc.struct_field(result, [0])) + + def _str_findall(self, pat: str, flags: int = 0): + regex = re.compile(pat, flags=flags) + predicate = lambda val: regex.findall(val) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_get_dummies(self, sep: str = "|"): + split = pc.split_pattern(self._pa_array, sep) + flattened_values = pc.list_flatten(split) + uniques = flattened_values.unique() + uniques_sorted = uniques.take(pa.compute.array_sort_indices(uniques)) + lengths = pc.list_value_length(split).fill_null(0).to_numpy() + n_rows = len(self) + n_cols = len(uniques) + indices = pc.index_in(flattened_values, uniques_sorted).to_numpy() + indices = indices + np.arange(n_rows).repeat(lengths) * n_cols + dummies = np.zeros(n_rows * n_cols, dtype=np.bool_) + dummies[indices] = True + dummies = dummies.reshape((n_rows, n_cols)) + result = type(self)(pa.array(list(dummies))) + return result, uniques_sorted.to_pylist() + + def _str_index(self, sub: str, start: int = 0, end: int | None = None): + predicate = lambda val: val.index(sub, start, end) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_rindex(self, sub: str, start: int = 0, end: int | None = None): + predicate = lambda val: val.rindex(sub, start, end) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_normalize(self, form: str): + predicate = lambda val: unicodedata.normalize(form, val) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_rfind(self, sub: str, start: int = 0, end=None): + predicate = lambda val: val.rfind(sub, start, end) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_split( + self, + pat: str | None = None, + n: int | None = -1, + expand: bool = False, + regex: bool | None = None, + ): + if n in {-1, 0}: + n = None + if pat is None: + split_func = pc.utf8_split_whitespace + elif regex: + split_func = functools.partial(pc.split_pattern_regex, pattern=pat) + else: + split_func = functools.partial(pc.split_pattern, pattern=pat) + return type(self)(split_func(self._pa_array, max_splits=n)) + + def _str_rsplit(self, pat: str | None = None, n: int | None = -1): + if n in {-1, 0}: + n = None + if pat is None: + return type(self)( + pc.utf8_split_whitespace(self._pa_array, max_splits=n, reverse=True) + ) + else: + return type(self)( + pc.split_pattern(self._pa_array, pat, max_splits=n, reverse=True) + ) + + def _str_translate(self, table: dict[int, str]): + predicate = lambda val: val.translate(table) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + def _str_wrap(self, width: int, **kwargs): + kwargs["width"] = width + tw = textwrap.TextWrapper(**kwargs) + predicate = lambda val: "\n".join(tw.wrap(val)) + result = self._apply_elementwise(predicate) + return type(self)(pa.chunked_array(result)) + + @property + def _dt_days(self): + return type(self)( + pa.array(self._to_timedeltaarray().days, from_pandas=True, type=pa.int32()) + ) + + @property + def _dt_hours(self): + return type(self)( + pa.array( + [ + td.components.hours if td is not NaT else None + for td in self._to_timedeltaarray() + ], + type=pa.int32(), + ) + ) + + @property + def _dt_minutes(self): + return type(self)( + pa.array( + [ + td.components.minutes if td is not NaT else None + for td in self._to_timedeltaarray() + ], + type=pa.int32(), + ) + ) + + @property + def _dt_seconds(self): + return type(self)( + pa.array( + self._to_timedeltaarray().seconds, from_pandas=True, type=pa.int32() + ) + ) + + @property + def _dt_milliseconds(self): + return type(self)( + pa.array( + [ + td.components.milliseconds if td is not NaT else None + for td in self._to_timedeltaarray() + ], + type=pa.int32(), + ) + ) + + @property + def _dt_microseconds(self): + return type(self)( + pa.array( + self._to_timedeltaarray().microseconds, + from_pandas=True, + type=pa.int32(), + ) + ) + + @property + def _dt_nanoseconds(self): + return type(self)( + pa.array( + self._to_timedeltaarray().nanoseconds, from_pandas=True, type=pa.int32() + ) + ) + + def _dt_to_pytimedelta(self): + data = self._pa_array.to_pylist() + if self._dtype.pyarrow_dtype.unit == "ns": + data = [None if ts is None else ts.to_pytimedelta() for ts in data] + return np.array(data, dtype=object) + + def _dt_total_seconds(self): + return type(self)( + pa.array(self._to_timedeltaarray().total_seconds(), from_pandas=True) + ) + + def _dt_as_unit(self, unit: str): + if pa.types.is_date(self.dtype.pyarrow_dtype): + raise NotImplementedError("as_unit not implemented for date types") + pd_array = self._maybe_convert_datelike_array() + # Don't just cast _pa_array in order to follow pandas unit conversion rules + return type(self)(pa.array(pd_array.as_unit(unit), from_pandas=True)) + + @property + def _dt_year(self): + return type(self)(pc.year(self._pa_array)) + + @property + def _dt_day(self): + return type(self)(pc.day(self._pa_array)) + + @property + def _dt_day_of_week(self): + return type(self)(pc.day_of_week(self._pa_array)) + + _dt_dayofweek = _dt_day_of_week + _dt_weekday = _dt_day_of_week + + @property + def _dt_day_of_year(self): + return type(self)(pc.day_of_year(self._pa_array)) + + _dt_dayofyear = _dt_day_of_year + + @property + def _dt_hour(self): + return type(self)(pc.hour(self._pa_array)) + + def _dt_isocalendar(self): + return type(self)(pc.iso_calendar(self._pa_array)) + + @property + def _dt_is_leap_year(self): + return type(self)(pc.is_leap_year(self._pa_array)) + + @property + def _dt_is_month_start(self): + return type(self)(pc.equal(pc.day(self._pa_array), 1)) + + @property + def _dt_is_month_end(self): + result = pc.equal( + pc.days_between( + pc.floor_temporal(self._pa_array, unit="day"), + pc.ceil_temporal(self._pa_array, unit="month"), + ), + 1, + ) + return type(self)(result) + + @property + def _dt_is_year_start(self): + return type(self)( + pc.and_( + pc.equal(pc.month(self._pa_array), 1), + pc.equal(pc.day(self._pa_array), 1), + ) + ) + + @property + def _dt_is_year_end(self): + return type(self)( + pc.and_( + pc.equal(pc.month(self._pa_array), 12), + pc.equal(pc.day(self._pa_array), 31), + ) + ) + + @property + def _dt_is_quarter_start(self): + result = pc.equal( + pc.floor_temporal(self._pa_array, unit="quarter"), + pc.floor_temporal(self._pa_array, unit="day"), + ) + return type(self)(result) + + @property + def _dt_is_quarter_end(self): + result = pc.equal( + pc.days_between( + pc.floor_temporal(self._pa_array, unit="day"), + pc.ceil_temporal(self._pa_array, unit="quarter"), + ), + 1, + ) + return type(self)(result) + + @property + def _dt_days_in_month(self): + result = pc.days_between( + pc.floor_temporal(self._pa_array, unit="month"), + pc.ceil_temporal(self._pa_array, unit="month"), + ) + return type(self)(result) + + _dt_daysinmonth = _dt_days_in_month + + @property + def _dt_microsecond(self): + return type(self)(pc.microsecond(self._pa_array)) + + @property + def _dt_minute(self): + return type(self)(pc.minute(self._pa_array)) + + @property + def _dt_month(self): + return type(self)(pc.month(self._pa_array)) + + @property + def _dt_nanosecond(self): + return type(self)(pc.nanosecond(self._pa_array)) + + @property + def _dt_quarter(self): + return type(self)(pc.quarter(self._pa_array)) + + @property + def _dt_second(self): + return type(self)(pc.second(self._pa_array)) + + @property + def _dt_date(self): + return type(self)(self._pa_array.cast(pa.date32())) + + @property + def _dt_time(self): + unit = ( + self.dtype.pyarrow_dtype.unit + if self.dtype.pyarrow_dtype.unit in {"us", "ns"} + else "ns" + ) + return type(self)(self._pa_array.cast(pa.time64(unit))) + + @property + def _dt_tz(self): + return timezones.maybe_get_tz(self.dtype.pyarrow_dtype.tz) + + @property + def _dt_unit(self): + return self.dtype.pyarrow_dtype.unit + + def _dt_normalize(self): + return type(self)(pc.floor_temporal(self._pa_array, 1, "day")) + + def _dt_strftime(self, format: str): + return type(self)(pc.strftime(self._pa_array, format=format)) + + def _round_temporally( + self, + method: Literal["ceil", "floor", "round"], + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ): + if ambiguous != "raise": + raise NotImplementedError("ambiguous is not supported.") + if nonexistent != "raise": + raise NotImplementedError("nonexistent is not supported.") + offset = to_offset(freq) + if offset is None: + raise ValueError(f"Must specify a valid frequency: {freq}") + pa_supported_unit = { + "Y": "year", + "YS": "year", + "Q": "quarter", + "QS": "quarter", + "M": "month", + "MS": "month", + "W": "week", + "D": "day", + "h": "hour", + "min": "minute", + "s": "second", + "ms": "millisecond", + "us": "microsecond", + "ns": "nanosecond", + } + unit = pa_supported_unit.get(offset._prefix, None) + if unit is None: + raise ValueError(f"{freq=} is not supported") + multiple = offset.n + rounding_method = getattr(pc, f"{method}_temporal") + return type(self)(rounding_method(self._pa_array, multiple=multiple, unit=unit)) + + def _dt_ceil( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ): + return self._round_temporally("ceil", freq, ambiguous, nonexistent) + + def _dt_floor( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ): + return self._round_temporally("floor", freq, ambiguous, nonexistent) + + def _dt_round( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ): + return self._round_temporally("round", freq, ambiguous, nonexistent) + + def _dt_day_name(self, locale: str | None = None): + if locale is None: + locale = "C" + return type(self)(pc.strftime(self._pa_array, format="%A", locale=locale)) + + def _dt_month_name(self, locale: str | None = None): + if locale is None: + locale = "C" + return type(self)(pc.strftime(self._pa_array, format="%B", locale=locale)) + + def _dt_to_pydatetime(self): + if pa.types.is_date(self.dtype.pyarrow_dtype): + raise ValueError( + f"to_pydatetime cannot be called with {self.dtype.pyarrow_dtype} type. " + "Convert to pyarrow timestamp type." + ) + data = self._pa_array.to_pylist() + if self._dtype.pyarrow_dtype.unit == "ns": + data = [None if ts is None else ts.to_pydatetime(warn=False) for ts in data] + return np.array(data, dtype=object) + + def _dt_tz_localize( + self, + tz, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ): + if ambiguous != "raise": + raise NotImplementedError(f"{ambiguous=} is not supported") + nonexistent_pa = { + "raise": "raise", + "shift_backward": "earliest", + "shift_forward": "latest", + }.get( + nonexistent, None # type: ignore[arg-type] + ) + if nonexistent_pa is None: + raise NotImplementedError(f"{nonexistent=} is not supported") + if tz is None: + result = self._pa_array.cast(pa.timestamp(self.dtype.pyarrow_dtype.unit)) + else: + result = pc.assume_timezone( + self._pa_array, str(tz), ambiguous=ambiguous, nonexistent=nonexistent_pa + ) + return type(self)(result) + + def _dt_tz_convert(self, tz): + if self.dtype.pyarrow_dtype.tz is None: + raise TypeError( + "Cannot convert tz-naive timestamps, use tz_localize to localize" + ) + current_unit = self.dtype.pyarrow_dtype.unit + result = self._pa_array.cast(pa.timestamp(current_unit, tz)) + return type(self)(result) + + +def transpose_homogeneous_pyarrow( + arrays: Sequence[ArrowExtensionArray], +) -> list[ArrowExtensionArray]: + """Transpose arrow extension arrays in a list, but faster. + + Input should be a list of arrays of equal length and all have the same + dtype. The caller is responsible for ensuring validity of input data. + """ + arrays = list(arrays) + nrows, ncols = len(arrays[0]), len(arrays) + indices = np.arange(nrows * ncols).reshape(ncols, nrows).T.flatten() + arr = pa.chunked_array([chunk for arr in arrays for chunk in arr._pa_array.chunks]) + arr = arr.take(indices) + return [ArrowExtensionArray(arr.slice(i * ncols, ncols)) for i in range(nrows)] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/extension_types.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/extension_types.py new file mode 100644 index 0000000000000000000000000000000000000000..72bfd6f2212f8fae6ea7786599de44beaeb3f902 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/arrow/extension_types.py @@ -0,0 +1,174 @@ +from __future__ import annotations + +import json +from typing import TYPE_CHECKING + +import pyarrow + +from pandas.compat import pa_version_under14p1 + +from pandas.core.dtypes.dtypes import ( + IntervalDtype, + PeriodDtype, +) + +from pandas.core.arrays.interval import VALID_CLOSED + +if TYPE_CHECKING: + from pandas._typing import IntervalClosedType + + +class ArrowPeriodType(pyarrow.ExtensionType): + def __init__(self, freq) -> None: + # attributes need to be set first before calling + # super init (as that calls serialize) + self._freq = freq + pyarrow.ExtensionType.__init__(self, pyarrow.int64(), "pandas.period") + + @property + def freq(self): + return self._freq + + def __arrow_ext_serialize__(self) -> bytes: + metadata = {"freq": self.freq} + return json.dumps(metadata).encode() + + @classmethod + def __arrow_ext_deserialize__(cls, storage_type, serialized) -> ArrowPeriodType: + metadata = json.loads(serialized.decode()) + return ArrowPeriodType(metadata["freq"]) + + def __eq__(self, other): + if isinstance(other, pyarrow.BaseExtensionType): + return type(self) == type(other) and self.freq == other.freq + else: + return NotImplemented + + def __ne__(self, other) -> bool: + return not self == other + + def __hash__(self) -> int: + return hash((str(self), self.freq)) + + def to_pandas_dtype(self) -> PeriodDtype: + return PeriodDtype(freq=self.freq) + + +# register the type with a dummy instance +_period_type = ArrowPeriodType("D") +pyarrow.register_extension_type(_period_type) + + +class ArrowIntervalType(pyarrow.ExtensionType): + def __init__(self, subtype, closed: IntervalClosedType) -> None: + # attributes need to be set first before calling + # super init (as that calls serialize) + assert closed in VALID_CLOSED + self._closed: IntervalClosedType = closed + if not isinstance(subtype, pyarrow.DataType): + subtype = pyarrow.type_for_alias(str(subtype)) + self._subtype = subtype + + storage_type = pyarrow.struct([("left", subtype), ("right", subtype)]) + pyarrow.ExtensionType.__init__(self, storage_type, "pandas.interval") + + @property + def subtype(self): + return self._subtype + + @property + def closed(self) -> IntervalClosedType: + return self._closed + + def __arrow_ext_serialize__(self) -> bytes: + metadata = {"subtype": str(self.subtype), "closed": self.closed} + return json.dumps(metadata).encode() + + @classmethod + def __arrow_ext_deserialize__(cls, storage_type, serialized) -> ArrowIntervalType: + metadata = json.loads(serialized.decode()) + subtype = pyarrow.type_for_alias(metadata["subtype"]) + closed = metadata["closed"] + return ArrowIntervalType(subtype, closed) + + def __eq__(self, other): + if isinstance(other, pyarrow.BaseExtensionType): + return ( + type(self) == type(other) + and self.subtype == other.subtype + and self.closed == other.closed + ) + else: + return NotImplemented + + def __ne__(self, other) -> bool: + return not self == other + + def __hash__(self) -> int: + return hash((str(self), str(self.subtype), self.closed)) + + def to_pandas_dtype(self) -> IntervalDtype: + return IntervalDtype(self.subtype.to_pandas_dtype(), self.closed) + + +# register the type with a dummy instance +_interval_type = ArrowIntervalType(pyarrow.int64(), "left") +pyarrow.register_extension_type(_interval_type) + + +_ERROR_MSG = """\ +Disallowed deserialization of 'arrow.py_extension_type': +storage_type = {storage_type} +serialized = {serialized} +pickle disassembly:\n{pickle_disassembly} + +Reading of untrusted Parquet or Feather files with a PyExtensionType column +allows arbitrary code execution. +If you trust this file, you can enable reading the extension type by one of: + +- upgrading to pyarrow >= 14.0.1, and call `pa.PyExtensionType.set_auto_load(True)` +- install pyarrow-hotfix (`pip install pyarrow-hotfix`) and disable it by running + `import pyarrow_hotfix; pyarrow_hotfix.uninstall()` + +We strongly recommend updating your Parquet/Feather files to use extension types +derived from `pyarrow.ExtensionType` instead, and register this type explicitly. +""" + + +def patch_pyarrow(): + # starting from pyarrow 14.0.1, it has its own mechanism + if not pa_version_under14p1: + return + + # if https://github.com/pitrou/pyarrow-hotfix was installed and enabled + if getattr(pyarrow, "_hotfix_installed", False): + return + + class ForbiddenExtensionType(pyarrow.ExtensionType): + def __arrow_ext_serialize__(self): + return b"" + + @classmethod + def __arrow_ext_deserialize__(cls, storage_type, serialized): + import io + import pickletools + + out = io.StringIO() + pickletools.dis(serialized, out) + raise RuntimeError( + _ERROR_MSG.format( + storage_type=storage_type, + serialized=serialized, + pickle_disassembly=out.getvalue(), + ) + ) + + pyarrow.unregister_extension_type("arrow.py_extension_type") + pyarrow.register_extension_type( + ForbiddenExtensionType(pyarrow.null(), "arrow.py_extension_type") + ) + + pyarrow._hotfix_installed = True + + +patch_pyarrow() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/base.py new file mode 100644 index 0000000000000000000000000000000000000000..28a95ce1784a2969849f378f8680d9549006777a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/base.py @@ -0,0 +1,2609 @@ +""" +An interface for extending pandas with custom arrays. + +.. warning:: + + This is an experimental API and subject to breaking changes + without warning. +""" +from __future__ import annotations + +import operator +from typing import ( + TYPE_CHECKING, + Any, + Callable, + ClassVar, + Literal, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import ( + algos as libalgos, + lib, +) +from pandas.compat import set_function_name +from pandas.compat.numpy import function as nv +from pandas.errors import AbstractMethodError +from pandas.util._decorators import ( + Appender, + Substitution, + cache_readonly, +) +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import ( + validate_bool_kwarg, + validate_fillna_kwargs, + validate_insert_loc, +) + +from pandas.core.dtypes.cast import maybe_cast_pointwise_result +from pandas.core.dtypes.common import ( + is_list_like, + is_scalar, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import isna + +from pandas.core import ( + arraylike, + missing, + roperator, +) +from pandas.core.algorithms import ( + duplicated, + factorize_array, + isin, + map_array, + mode, + rank, + unique, +) +from pandas.core.array_algos.quantile import quantile_with_mask +from pandas.core.missing import _fill_limit_area_1d +from pandas.core.sorting import ( + nargminmax, + nargsort, +) + +if TYPE_CHECKING: + from collections.abc import ( + Iterator, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + AstypeArg, + AxisInt, + Dtype, + DtypeObj, + FillnaOptions, + InterpolateOptions, + NumpySorter, + NumpyValueArrayLike, + PositionalIndexer, + ScalarIndexer, + Self, + SequenceIndexer, + Shape, + SortKind, + TakeIndexer, + npt, + ) + + from pandas import Index + +_extension_array_shared_docs: dict[str, str] = {} + + +class ExtensionArray: + """ + Abstract base class for custom 1-D array types. + + pandas will recognize instances of this class as proper arrays + with a custom type and will not attempt to coerce them to objects. They + may be stored directly inside a :class:`DataFrame` or :class:`Series`. + + Attributes + ---------- + dtype + nbytes + ndim + shape + + Methods + ------- + argsort + astype + copy + dropna + duplicated + factorize + fillna + equals + insert + interpolate + isin + isna + ravel + repeat + searchsorted + shift + take + tolist + unique + view + _accumulate + _concat_same_type + _explode + _formatter + _from_factorized + _from_sequence + _from_sequence_of_strings + _hash_pandas_object + _pad_or_backfill + _reduce + _values_for_argsort + _values_for_factorize + + Notes + ----- + The interface includes the following abstract methods that must be + implemented by subclasses: + + * _from_sequence + * _from_factorized + * __getitem__ + * __len__ + * __eq__ + * dtype + * nbytes + * isna + * take + * copy + * _concat_same_type + * interpolate + + A default repr displaying the type, (truncated) data, length, + and dtype is provided. It can be customized or replaced by + by overriding: + + * __repr__ : A default repr for the ExtensionArray. + * _formatter : Print scalars inside a Series or DataFrame. + + Some methods require casting the ExtensionArray to an ndarray of Python + objects with ``self.astype(object)``, which may be expensive. When + performance is a concern, we highly recommend overriding the following + methods: + + * fillna + * _pad_or_backfill + * dropna + * unique + * factorize / _values_for_factorize + * argsort, argmax, argmin / _values_for_argsort + * searchsorted + * map + + The remaining methods implemented on this class should be performant, + as they only compose abstract methods. Still, a more efficient + implementation may be available, and these methods can be overridden. + + One can implement methods to handle array accumulations or reductions. + + * _accumulate + * _reduce + + One can implement methods to handle parsing from strings that will be used + in methods such as ``pandas.io.parsers.read_csv``. + + * _from_sequence_of_strings + + This class does not inherit from 'abc.ABCMeta' for performance reasons. + Methods and properties required by the interface raise + ``pandas.errors.AbstractMethodError`` and no ``register`` method is + provided for registering virtual subclasses. + + ExtensionArrays are limited to 1 dimension. + + They may be backed by none, one, or many NumPy arrays. For example, + ``pandas.Categorical`` is an extension array backed by two arrays, + one for codes and one for categories. An array of IPv6 address may + be backed by a NumPy structured array with two fields, one for the + lower 64 bits and one for the upper 64 bits. Or they may be backed + by some other storage type, like Python lists. Pandas makes no + assumptions on how the data are stored, just that it can be converted + to a NumPy array. + The ExtensionArray interface does not impose any rules on how this data + is stored. However, currently, the backing data cannot be stored in + attributes called ``.values`` or ``._values`` to ensure full compatibility + with pandas internals. But other names as ``.data``, ``._data``, + ``._items``, ... can be freely used. + + If implementing NumPy's ``__array_ufunc__`` interface, pandas expects + that + + 1. You defer by returning ``NotImplemented`` when any Series are present + in `inputs`. Pandas will extract the arrays and call the ufunc again. + 2. You define a ``_HANDLED_TYPES`` tuple as an attribute on the class. + Pandas inspect this to determine whether the ufunc is valid for the + types present. + + See :ref:`extending.extension.ufunc` for more. + + By default, ExtensionArrays are not hashable. Immutable subclasses may + override this behavior. + + Examples + -------- + Please see the following: + + https://github.com/pandas-dev/pandas/blob/main/pandas/tests/extension/list/array.py + """ + + # '_typ' is for pandas.core.dtypes.generic.ABCExtensionArray. + # Don't override this. + _typ = "extension" + + # similar to __array_priority__, positions ExtensionArray after Index, + # Series, and DataFrame. EA subclasses may override to choose which EA + # subclass takes priority. If overriding, the value should always be + # strictly less than 2000 to be below Index.__pandas_priority__. + __pandas_priority__ = 1000 + + # ------------------------------------------------------------------------ + # Constructors + # ------------------------------------------------------------------------ + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy: bool = False): + """ + Construct a new ExtensionArray from a sequence of scalars. + + Parameters + ---------- + scalars : Sequence + Each element will be an instance of the scalar type for this + array, ``cls.dtype.type`` or be converted into this type in this method. + dtype : dtype, optional + Construct for this particular dtype. This should be a Dtype + compatible with the ExtensionArray. + copy : bool, default False + If True, copy the underlying data. + + Returns + ------- + ExtensionArray + + Examples + -------- + >>> pd.arrays.IntegerArray._from_sequence([4, 5]) + + [4, 5] + Length: 2, dtype: Int64 + """ + raise AbstractMethodError(cls) + + @classmethod + def _from_scalars(cls, scalars, *, dtype: DtypeObj) -> Self: + """ + Strict analogue to _from_sequence, allowing only sequences of scalars + that should be specifically inferred to the given dtype. + + Parameters + ---------- + scalars : sequence + dtype : ExtensionDtype + + Raises + ------ + TypeError or ValueError + + Notes + ----- + This is called in a try/except block when casting the result of a + pointwise operation. + """ + try: + return cls._from_sequence(scalars, dtype=dtype, copy=False) + except (ValueError, TypeError): + raise + except Exception: + warnings.warn( + "_from_scalars should only raise ValueError or TypeError. " + "Consider overriding _from_scalars where appropriate.", + stacklevel=find_stack_level(), + ) + raise + + @classmethod + def _from_sequence_of_strings( + cls, strings, *, dtype: Dtype | None = None, copy: bool = False + ): + """ + Construct a new ExtensionArray from a sequence of strings. + + Parameters + ---------- + strings : Sequence + Each element will be an instance of the scalar type for this + array, ``cls.dtype.type``. + dtype : dtype, optional + Construct for this particular dtype. This should be a Dtype + compatible with the ExtensionArray. + copy : bool, default False + If True, copy the underlying data. + + Returns + ------- + ExtensionArray + + Examples + -------- + >>> pd.arrays.IntegerArray._from_sequence_of_strings(["1", "2", "3"]) + + [1, 2, 3] + Length: 3, dtype: Int64 + """ + raise AbstractMethodError(cls) + + @classmethod + def _from_factorized(cls, values, original): + """ + Reconstruct an ExtensionArray after factorization. + + Parameters + ---------- + values : ndarray + An integer ndarray with the factorized values. + original : ExtensionArray + The original ExtensionArray that factorize was called on. + + See Also + -------- + factorize : Top-level factorize method that dispatches here. + ExtensionArray.factorize : Encode the extension array as an enumerated type. + + Examples + -------- + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), + ... pd.Interval(1, 5), pd.Interval(1, 5)]) + >>> codes, uniques = pd.factorize(interv_arr) + >>> pd.arrays.IntervalArray._from_factorized(uniques, interv_arr) + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + """ + raise AbstractMethodError(cls) + + # ------------------------------------------------------------------------ + # Must be a Sequence + # ------------------------------------------------------------------------ + @overload + def __getitem__(self, item: ScalarIndexer) -> Any: + ... + + @overload + def __getitem__(self, item: SequenceIndexer) -> Self: + ... + + def __getitem__(self, item: PositionalIndexer) -> Self | Any: + """ + Select a subset of self. + + Parameters + ---------- + item : int, slice, or ndarray + * int: The position in 'self' to get. + + * slice: A slice object, where 'start', 'stop', and 'step' are + integers or None + + * ndarray: A 1-d boolean NumPy ndarray the same length as 'self' + + * list[int]: A list of int + + Returns + ------- + item : scalar or ExtensionArray + + Notes + ----- + For scalar ``item``, return a scalar value suitable for the array's + type. This should be an instance of ``self.dtype.type``. + + For slice ``key``, return an instance of ``ExtensionArray``, even + if the slice is length 0 or 1. + + For a boolean mask, return an instance of ``ExtensionArray``, filtered + to the values where ``item`` is True. + """ + raise AbstractMethodError(self) + + def __setitem__(self, key, value) -> None: + """ + Set one or more values inplace. + + This method is not required to satisfy the pandas extension array + interface. + + Parameters + ---------- + key : int, ndarray, or slice + When called from, e.g. ``Series.__setitem__``, ``key`` will be + one of + + * scalar int + * ndarray of integers. + * boolean ndarray + * slice object + + value : ExtensionDtype.type, Sequence[ExtensionDtype.type], or object + value or values to be set of ``key``. + + Returns + ------- + None + """ + # Some notes to the ExtensionArray implementer who may have ended up + # here. While this method is not required for the interface, if you + # *do* choose to implement __setitem__, then some semantics should be + # observed: + # + # * Setting multiple values : ExtensionArrays should support setting + # multiple values at once, 'key' will be a sequence of integers and + # 'value' will be a same-length sequence. + # + # * Broadcasting : For a sequence 'key' and a scalar 'value', + # each position in 'key' should be set to 'value'. + # + # * Coercion : Most users will expect basic coercion to work. For + # example, a string like '2018-01-01' is coerced to a datetime + # when setting on a datetime64ns array. In general, if the + # __init__ method coerces that value, then so should __setitem__ + # Note, also, that Series/DataFrame.where internally use __setitem__ + # on a copy of the data. + raise NotImplementedError(f"{type(self)} does not implement __setitem__.") + + def __len__(self) -> int: + """ + Length of this array + + Returns + ------- + length : int + """ + raise AbstractMethodError(self) + + def __iter__(self) -> Iterator[Any]: + """ + Iterate over elements of the array. + """ + # This needs to be implemented so that pandas recognizes extension + # arrays as list-like. The default implementation makes successive + # calls to ``__getitem__``, which may be slower than necessary. + for i in range(len(self)): + yield self[i] + + def __contains__(self, item: object) -> bool | np.bool_: + """ + Return for `item in self`. + """ + # GH37867 + # comparisons of any item to pd.NA always return pd.NA, so e.g. "a" in [pd.NA] + # would raise a TypeError. The implementation below works around that. + if is_scalar(item) and isna(item): + if not self._can_hold_na: + return False + elif item is self.dtype.na_value or isinstance(item, self.dtype.type): + return self._hasna + else: + return False + else: + # error: Item "ExtensionArray" of "Union[ExtensionArray, ndarray]" has no + # attribute "any" + return (item == self).any() # type: ignore[union-attr] + + # error: Signature of "__eq__" incompatible with supertype "object" + def __eq__(self, other: object) -> ArrayLike: # type: ignore[override] + """ + Return for `self == other` (element-wise equality). + """ + # Implementer note: this should return a boolean numpy ndarray or + # a boolean ExtensionArray. + # When `other` is one of Series, Index, or DataFrame, this method should + # return NotImplemented (to ensure that those objects are responsible for + # first unpacking the arrays, and then dispatch the operation to the + # underlying arrays) + raise AbstractMethodError(self) + + # error: Signature of "__ne__" incompatible with supertype "object" + def __ne__(self, other: object) -> ArrayLike: # type: ignore[override] + """ + Return for `self != other` (element-wise in-equality). + """ + # error: Unsupported operand type for ~ ("ExtensionArray") + return ~(self == other) # type: ignore[operator] + + def to_numpy( + self, + dtype: npt.DTypeLike | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Convert to a NumPy ndarray. + + This is similar to :meth:`numpy.asarray`, but may provide additional control + over how the conversion is done. + + Parameters + ---------- + dtype : str or numpy.dtype, optional + The dtype to pass to :meth:`numpy.asarray`. + copy : bool, default False + Whether to ensure that the returned value is a not a view on + another array. Note that ``copy=False`` does not *ensure* that + ``to_numpy()`` is no-copy. Rather, ``copy=True`` ensure that + a copy is made, even if not strictly necessary. + na_value : Any, optional + The value to use for missing values. The default value depends + on `dtype` and the type of the array. + + Returns + ------- + numpy.ndarray + """ + result = np.asarray(self, dtype=dtype) + if copy or na_value is not lib.no_default: + result = result.copy() + if na_value is not lib.no_default: + result[self.isna()] = na_value + return result + + # ------------------------------------------------------------------------ + # Required attributes + # ------------------------------------------------------------------------ + + @property + def dtype(self) -> ExtensionDtype: + """ + An instance of ExtensionDtype. + + Examples + -------- + >>> pd.array([1, 2, 3]).dtype + Int64Dtype() + """ + raise AbstractMethodError(self) + + @property + def shape(self) -> Shape: + """ + Return a tuple of the array dimensions. + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.shape + (3,) + """ + return (len(self),) + + @property + def size(self) -> int: + """ + The number of elements in the array. + """ + # error: Incompatible return value type (got "signedinteger[_64Bit]", + # expected "int") [return-value] + return np.prod(self.shape) # type: ignore[return-value] + + @property + def ndim(self) -> int: + """ + Extension Arrays are only allowed to be 1-dimensional. + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.ndim + 1 + """ + return 1 + + @property + def nbytes(self) -> int: + """ + The number of bytes needed to store this object in memory. + + Examples + -------- + >>> pd.array([1, 2, 3]).nbytes + 27 + """ + # If this is expensive to compute, return an approximate lower bound + # on the number of bytes needed. + raise AbstractMethodError(self) + + # ------------------------------------------------------------------------ + # Additional Methods + # ------------------------------------------------------------------------ + + @overload + def astype(self, dtype: npt.DTypeLike, copy: bool = ...) -> np.ndarray: + ... + + @overload + def astype(self, dtype: ExtensionDtype, copy: bool = ...) -> ExtensionArray: + ... + + @overload + def astype(self, dtype: AstypeArg, copy: bool = ...) -> ArrayLike: + ... + + def astype(self, dtype: AstypeArg, copy: bool = True) -> ArrayLike: + """ + Cast to a NumPy array or ExtensionArray with 'dtype'. + + Parameters + ---------- + dtype : str or dtype + Typecode or data-type to which the array is cast. + copy : bool, default True + Whether to copy the data, even if not necessary. If False, + a copy is made only if the old dtype does not match the + new dtype. + + Returns + ------- + np.ndarray or pandas.api.extensions.ExtensionArray + An ``ExtensionArray`` if ``dtype`` is ``ExtensionDtype``, + otherwise a Numpy ndarray with ``dtype`` for its dtype. + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr + + [1, 2, 3] + Length: 3, dtype: Int64 + + Casting to another ``ExtensionDtype`` returns an ``ExtensionArray``: + + >>> arr1 = arr.astype('Float64') + >>> arr1 + + [1.0, 2.0, 3.0] + Length: 3, dtype: Float64 + >>> arr1.dtype + Float64Dtype() + + Otherwise, we will get a Numpy ndarray: + + >>> arr2 = arr.astype('float64') + >>> arr2 + array([1., 2., 3.]) + >>> arr2.dtype + dtype('float64') + """ + dtype = pandas_dtype(dtype) + if dtype == self.dtype: + if not copy: + return self + else: + return self.copy() + + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + return cls._from_sequence(self, dtype=dtype, copy=copy) + + elif lib.is_np_dtype(dtype, "M"): + from pandas.core.arrays import DatetimeArray + + return DatetimeArray._from_sequence(self, dtype=dtype, copy=copy) + + elif lib.is_np_dtype(dtype, "m"): + from pandas.core.arrays import TimedeltaArray + + return TimedeltaArray._from_sequence(self, dtype=dtype, copy=copy) + + if not copy: + return np.asarray(self, dtype=dtype) + else: + return np.array(self, dtype=dtype, copy=copy) + + def isna(self) -> np.ndarray | ExtensionArraySupportsAnyAll: + """ + A 1-D array indicating if each value is missing. + + Returns + ------- + numpy.ndarray or pandas.api.extensions.ExtensionArray + In most cases, this should return a NumPy ndarray. For + exceptional cases like ``SparseArray``, where returning + an ndarray would be expensive, an ExtensionArray may be + returned. + + Notes + ----- + If returning an ExtensionArray, then + + * ``na_values._is_boolean`` should be True + * `na_values` should implement :func:`ExtensionArray._reduce` + * ``na_values.any`` and ``na_values.all`` should be implemented + + Examples + -------- + >>> arr = pd.array([1, 2, np.nan, np.nan]) + >>> arr.isna() + array([False, False, True, True]) + """ + raise AbstractMethodError(self) + + @property + def _hasna(self) -> bool: + # GH#22680 + """ + Equivalent to `self.isna().any()`. + + Some ExtensionArray subclasses may be able to optimize this check. + """ + return bool(self.isna().any()) + + def _values_for_argsort(self) -> np.ndarray: + """ + Return values for sorting. + + Returns + ------- + ndarray + The transformed values should maintain the ordering between values + within the array. + + See Also + -------- + ExtensionArray.argsort : Return the indices that would sort this array. + + Notes + ----- + The caller is responsible for *not* modifying these values in-place, so + it is safe for implementers to give views on ``self``. + + Functions that use this (e.g. ``ExtensionArray.argsort``) should ignore + entries with missing values in the original array (according to + ``self.isna()``). This means that the corresponding entries in the returned + array don't need to be modified to sort correctly. + + Examples + -------- + In most cases, this is the underlying Numpy array of the ``ExtensionArray``: + + >>> arr = pd.array([1, 2, 3]) + >>> arr._values_for_argsort() + array([1, 2, 3]) + """ + # Note: this is used in `ExtensionArray.argsort/argmin/argmax`. + return np.array(self) + + def argsort( + self, + *, + ascending: bool = True, + kind: SortKind = "quicksort", + na_position: str = "last", + **kwargs, + ) -> np.ndarray: + """ + Return the indices that would sort this array. + + Parameters + ---------- + ascending : bool, default True + Whether the indices should result in an ascending + or descending sort. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, optional + Sorting algorithm. + na_position : {'first', 'last'}, default 'last' + If ``'first'``, put ``NaN`` values at the beginning. + If ``'last'``, put ``NaN`` values at the end. + *args, **kwargs: + Passed through to :func:`numpy.argsort`. + + Returns + ------- + np.ndarray[np.intp] + Array of indices that sort ``self``. If NaN values are contained, + NaN values are placed at the end. + + See Also + -------- + numpy.argsort : Sorting implementation used internally. + + Examples + -------- + >>> arr = pd.array([3, 1, 2, 5, 4]) + >>> arr.argsort() + array([1, 2, 0, 4, 3]) + """ + # Implementer note: You have two places to override the behavior of + # argsort. + # 1. _values_for_argsort : construct the values passed to np.argsort + # 2. argsort : total control over sorting. In case of overriding this, + # it is recommended to also override argmax/argmin + ascending = nv.validate_argsort_with_ascending(ascending, (), kwargs) + + values = self._values_for_argsort() + return nargsort( + values, + kind=kind, + ascending=ascending, + na_position=na_position, + mask=np.asarray(self.isna()), + ) + + def argmin(self, skipna: bool = True) -> int: + """ + Return the index of minimum value. + + In case of multiple occurrences of the minimum value, the index + corresponding to the first occurrence is returned. + + Parameters + ---------- + skipna : bool, default True + + Returns + ------- + int + + See Also + -------- + ExtensionArray.argmax : Return the index of the maximum value. + + Examples + -------- + >>> arr = pd.array([3, 1, 2, 5, 4]) + >>> arr.argmin() + 1 + """ + # Implementer note: You have two places to override the behavior of + # argmin. + # 1. _values_for_argsort : construct the values used in nargminmax + # 2. argmin itself : total control over sorting. + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return nargminmax(self, "argmin") + + def argmax(self, skipna: bool = True) -> int: + """ + Return the index of maximum value. + + In case of multiple occurrences of the maximum value, the index + corresponding to the first occurrence is returned. + + Parameters + ---------- + skipna : bool, default True + + Returns + ------- + int + + See Also + -------- + ExtensionArray.argmin : Return the index of the minimum value. + + Examples + -------- + >>> arr = pd.array([3, 1, 2, 5, 4]) + >>> arr.argmax() + 3 + """ + # Implementer note: You have two places to override the behavior of + # argmax. + # 1. _values_for_argsort : construct the values used in nargminmax + # 2. argmax itself : total control over sorting. + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return nargminmax(self, "argmax") + + def interpolate( + self, + *, + method: InterpolateOptions, + axis: int, + index: Index, + limit, + limit_direction, + limit_area, + copy: bool, + **kwargs, + ) -> Self: + """ + See DataFrame.interpolate.__doc__. + + Examples + -------- + >>> arr = pd.arrays.NumpyExtensionArray(np.array([0, 1, np.nan, 3])) + >>> arr.interpolate(method="linear", + ... limit=3, + ... limit_direction="forward", + ... index=pd.Index([1, 2, 3, 4]), + ... fill_value=1, + ... copy=False, + ... axis=0, + ... limit_area="inside" + ... ) + + [0.0, 1.0, 2.0, 3.0] + Length: 4, dtype: float64 + """ + # NB: we return type(self) even if copy=False + raise NotImplementedError( + f"{type(self).__name__} does not implement interpolate" + ) + + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + """ + Pad or backfill values, used by Series/DataFrame ffill and bfill. + + Parameters + ---------- + method : {'backfill', 'bfill', 'pad', 'ffill'} + Method to use for filling holes in reindexed Series: + + * pad / ffill: propagate last valid observation forward to next valid. + * backfill / bfill: use NEXT valid observation to fill gap. + + limit : int, default None + This is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. + + copy : bool, default True + Whether to make a copy of the data before filling. If False, then + the original should be modified and no new memory should be allocated. + For ExtensionArray subclasses that cannot do this, it is at the + author's discretion whether to ignore "copy=False" or to raise. + The base class implementation ignores the keyword if any NAs are + present. + + Returns + ------- + Same type as self + + Examples + -------- + >>> arr = pd.array([np.nan, np.nan, 2, 3, np.nan, np.nan]) + >>> arr._pad_or_backfill(method="backfill", limit=1) + + [, 2, 2, 3, , ] + Length: 6, dtype: Int64 + """ + + # If a 3rd-party EA has implemented this functionality in fillna, + # we warn that they need to implement _pad_or_backfill instead. + if ( + type(self).fillna is not ExtensionArray.fillna + and type(self)._pad_or_backfill is ExtensionArray._pad_or_backfill + ): + # Check for _pad_or_backfill here allows us to call + # super()._pad_or_backfill without getting this warning + warnings.warn( + "ExtensionArray.fillna 'method' keyword is deprecated. " + "In a future version. arr._pad_or_backfill will be called " + "instead. 3rd-party ExtensionArray authors need to implement " + "_pad_or_backfill.", + DeprecationWarning, + stacklevel=find_stack_level(), + ) + if limit_area is not None: + raise NotImplementedError( + f"{type(self).__name__} does not implement limit_area " + "(added in pandas 2.2). 3rd-party ExtnsionArray authors " + "need to add this argument to _pad_or_backfill." + ) + return self.fillna(method=method, limit=limit) + + mask = self.isna() + + if mask.any(): + # NB: the base class does not respect the "copy" keyword + meth = missing.clean_fill_method(method) + + npmask = np.asarray(mask) + if limit_area is not None and not npmask.all(): + _fill_limit_area_1d(npmask, limit_area) + if meth == "pad": + indexer = libalgos.get_fill_indexer(npmask, limit=limit) + return self.take(indexer, allow_fill=True) + else: + # i.e. meth == "backfill" + indexer = libalgos.get_fill_indexer(npmask[::-1], limit=limit)[::-1] + return self[::-1].take(indexer, allow_fill=True) + + else: + if not copy: + return self + new_values = self.copy() + return new_values + + def fillna( + self, + value: object | ArrayLike | None = None, + method: FillnaOptions | None = None, + limit: int | None = None, + copy: bool = True, + ) -> Self: + """ + Fill NA/NaN values using the specified method. + + Parameters + ---------- + value : scalar, array-like + If a scalar value is passed it is used to fill all missing values. + Alternatively, an array-like "value" can be given. It's expected + that the array-like have the same length as 'self'. + method : {'backfill', 'bfill', 'pad', 'ffill', None}, default None + Method to use for filling holes in reindexed Series: + + * pad / ffill: propagate last valid observation forward to next valid. + * backfill / bfill: use NEXT valid observation to fill gap. + + .. deprecated:: 2.1.0 + + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. + + .. deprecated:: 2.1.0 + + copy : bool, default True + Whether to make a copy of the data before filling. If False, then + the original should be modified and no new memory should be allocated. + For ExtensionArray subclasses that cannot do this, it is at the + author's discretion whether to ignore "copy=False" or to raise. + The base class implementation ignores the keyword in pad/backfill + cases. + + Returns + ------- + ExtensionArray + With NA/NaN filled. + + Examples + -------- + >>> arr = pd.array([np.nan, np.nan, 2, 3, np.nan, np.nan]) + >>> arr.fillna(0) + + [0, 0, 2, 3, 0, 0] + Length: 6, dtype: Int64 + """ + if method is not None: + warnings.warn( + f"The 'method' keyword in {type(self).__name__}.fillna is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + value, method = validate_fillna_kwargs(value, method) + + mask = self.isna() + # error: Argument 2 to "check_value_size" has incompatible type + # "ExtensionArray"; expected "ndarray" + value = missing.check_value_size( + value, mask, len(self) # type: ignore[arg-type] + ) + + if mask.any(): + if method is not None: + meth = missing.clean_fill_method(method) + + npmask = np.asarray(mask) + if meth == "pad": + indexer = libalgos.get_fill_indexer(npmask, limit=limit) + return self.take(indexer, allow_fill=True) + else: + # i.e. meth == "backfill" + indexer = libalgos.get_fill_indexer(npmask[::-1], limit=limit)[::-1] + return self[::-1].take(indexer, allow_fill=True) + else: + # fill with value + if not copy: + new_values = self[:] + else: + new_values = self.copy() + new_values[mask] = value + else: + if not copy: + new_values = self[:] + else: + new_values = self.copy() + return new_values + + def dropna(self) -> Self: + """ + Return ExtensionArray without NA values. + + Returns + ------- + + Examples + -------- + >>> pd.array([1, 2, np.nan]).dropna() + + [1, 2] + Length: 2, dtype: Int64 + """ + # error: Unsupported operand type for ~ ("ExtensionArray") + return self[~self.isna()] # type: ignore[operator] + + def duplicated( + self, keep: Literal["first", "last", False] = "first" + ) -> npt.NDArray[np.bool_]: + """ + Return boolean ndarray denoting duplicate values. + + Parameters + ---------- + keep : {'first', 'last', False}, default 'first' + - ``first`` : Mark duplicates as ``True`` except for the first occurrence. + - ``last`` : Mark duplicates as ``True`` except for the last occurrence. + - False : Mark all duplicates as ``True``. + + Returns + ------- + ndarray[bool] + + Examples + -------- + >>> pd.array([1, 1, 2, 3, 3], dtype="Int64").duplicated() + array([False, True, False, False, True]) + """ + mask = self.isna().astype(np.bool_, copy=False) + return duplicated(values=self, keep=keep, mask=mask) + + def shift(self, periods: int = 1, fill_value: object = None) -> ExtensionArray: + """ + Shift values by desired number. + + Newly introduced missing values are filled with + ``self.dtype.na_value``. + + Parameters + ---------- + periods : int, default 1 + The number of periods to shift. Negative values are allowed + for shifting backwards. + + fill_value : object, optional + The scalar value to use for newly introduced missing values. + The default is ``self.dtype.na_value``. + + Returns + ------- + ExtensionArray + Shifted. + + Notes + ----- + If ``self`` is empty or ``periods`` is 0, a copy of ``self`` is + returned. + + If ``periods > len(self)``, then an array of size + len(self) is returned, with all values filled with + ``self.dtype.na_value``. + + For 2-dimensional ExtensionArrays, we are always shifting along axis=0. + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.shift(2) + + [, , 1] + Length: 3, dtype: Int64 + """ + # Note: this implementation assumes that `self.dtype.na_value` can be + # stored in an instance of your ExtensionArray with `self.dtype`. + if not len(self) or periods == 0: + return self.copy() + + if isna(fill_value): + fill_value = self.dtype.na_value + + empty = self._from_sequence( + [fill_value] * min(abs(periods), len(self)), dtype=self.dtype + ) + if periods > 0: + a = empty + b = self[:-periods] + else: + a = self[abs(periods) :] + b = empty + return self._concat_same_type([a, b]) + + def unique(self) -> Self: + """ + Compute the ExtensionArray of unique values. + + Returns + ------- + pandas.api.extensions.ExtensionArray + + Examples + -------- + >>> arr = pd.array([1, 2, 3, 1, 2, 3]) + >>> arr.unique() + + [1, 2, 3] + Length: 3, dtype: Int64 + """ + uniques = unique(self.astype(object)) + return self._from_sequence(uniques, dtype=self.dtype) + + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + """ + Find indices where elements should be inserted to maintain order. + + Find the indices into a sorted array `self` (a) such that, if the + corresponding elements in `value` were inserted before the indices, + the order of `self` would be preserved. + + Assuming that `self` is sorted: + + ====== ================================ + `side` returned index `i` satisfies + ====== ================================ + left ``self[i-1] < value <= self[i]`` + right ``self[i-1] <= value < self[i]`` + ====== ================================ + + Parameters + ---------- + value : array-like, list or scalar + Value(s) to insert into `self`. + side : {'left', 'right'}, optional + If 'left', the index of the first suitable location found is given. + If 'right', return the last such index. If there is no suitable + index, return either 0 or N (where N is the length of `self`). + sorter : 1-D array-like, optional + Optional array of integer indices that sort array a into ascending + order. They are typically the result of argsort. + + Returns + ------- + array of ints or int + If value is array-like, array of insertion points. + If value is scalar, a single integer. + + See Also + -------- + numpy.searchsorted : Similar method from NumPy. + + Examples + -------- + >>> arr = pd.array([1, 2, 3, 5]) + >>> arr.searchsorted([4]) + array([3]) + """ + # Note: the base tests provided by pandas only test the basics. + # We do not test + # 1. Values outside the range of the `data_for_sorting` fixture + # 2. Values between the values in the `data_for_sorting` fixture + # 3. Missing values. + arr = self.astype(object) + if isinstance(value, ExtensionArray): + value = value.astype(object) + return arr.searchsorted(value, side=side, sorter=sorter) + + def equals(self, other: object) -> bool: + """ + Return if another array is equivalent to this array. + + Equivalent means that both arrays have the same shape and dtype, and + all values compare equal. Missing values in the same location are + considered equal (in contrast with normal equality). + + Parameters + ---------- + other : ExtensionArray + Array to compare to this Array. + + Returns + ------- + boolean + Whether the arrays are equivalent. + + Examples + -------- + >>> arr1 = pd.array([1, 2, np.nan]) + >>> arr2 = pd.array([1, 2, np.nan]) + >>> arr1.equals(arr2) + True + """ + if type(self) != type(other): + return False + other = cast(ExtensionArray, other) + if self.dtype != other.dtype: + return False + elif len(self) != len(other): + return False + else: + equal_values = self == other + if isinstance(equal_values, ExtensionArray): + # boolean array with NA -> fill with False + equal_values = equal_values.fillna(False) + # error: Unsupported left operand type for & ("ExtensionArray") + equal_na = self.isna() & other.isna() # type: ignore[operator] + return bool((equal_values | equal_na).all()) + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + """ + Pointwise comparison for set containment in the given values. + + Roughly equivalent to `np.array([x in values for x in self])` + + Parameters + ---------- + values : np.ndarray or ExtensionArray + + Returns + ------- + np.ndarray[bool] + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.isin([1]) + + [True, False, False] + Length: 3, dtype: boolean + """ + return isin(np.asarray(self), values) + + def _values_for_factorize(self) -> tuple[np.ndarray, Any]: + """ + Return an array and missing value suitable for factorization. + + Returns + ------- + values : ndarray + An array suitable for factorization. This should maintain order + and be a supported dtype (Float64, Int64, UInt64, String, Object). + By default, the extension array is cast to object dtype. + na_value : object + The value in `values` to consider missing. This will be treated + as NA in the factorization routines, so it will be coded as + `-1` and not included in `uniques`. By default, + ``np.nan`` is used. + + Notes + ----- + The values returned by this method are also used in + :func:`pandas.util.hash_pandas_object`. If needed, this can be + overridden in the ``self._hash_pandas_object()`` method. + + Examples + -------- + >>> pd.array([1, 2, 3])._values_for_factorize() + (array([1, 2, 3], dtype=object), nan) + """ + return self.astype(object), np.nan + + def factorize( + self, + use_na_sentinel: bool = True, + ) -> tuple[np.ndarray, ExtensionArray]: + """ + Encode the extension array as an enumerated type. + + Parameters + ---------- + use_na_sentinel : bool, default True + If True, the sentinel -1 will be used for NaN values. If False, + NaN values will be encoded as non-negative integers and will not drop the + NaN from the uniques of the values. + + .. versionadded:: 1.5.0 + + Returns + ------- + codes : ndarray + An integer NumPy array that's an indexer into the original + ExtensionArray. + uniques : ExtensionArray + An ExtensionArray containing the unique values of `self`. + + .. note:: + + uniques will *not* contain an entry for the NA value of + the ExtensionArray if there are any missing values present + in `self`. + + See Also + -------- + factorize : Top-level factorize method that dispatches here. + + Notes + ----- + :meth:`pandas.factorize` offers a `sort` keyword as well. + + Examples + -------- + >>> idx1 = pd.PeriodIndex(["2014-01", "2014-01", "2014-02", "2014-02", + ... "2014-03", "2014-03"], freq="M") + >>> arr, idx = idx1.factorize() + >>> arr + array([0, 0, 1, 1, 2, 2]) + >>> idx + PeriodIndex(['2014-01', '2014-02', '2014-03'], dtype='period[M]') + """ + # Implementer note: There are two ways to override the behavior of + # pandas.factorize + # 1. _values_for_factorize and _from_factorize. + # Specify the values passed to pandas' internal factorization + # routines, and how to convert from those values back to the + # original ExtensionArray. + # 2. ExtensionArray.factorize. + # Complete control over factorization. + arr, na_value = self._values_for_factorize() + + codes, uniques = factorize_array( + arr, use_na_sentinel=use_na_sentinel, na_value=na_value + ) + + uniques_ea = self._from_factorized(uniques, self) + return codes, uniques_ea + + _extension_array_shared_docs[ + "repeat" + ] = """ + Repeat elements of a %(klass)s. + + Returns a new %(klass)s where each element of the current %(klass)s + is repeated consecutively a given number of times. + + Parameters + ---------- + repeats : int or array of ints + The number of repetitions for each element. This should be a + non-negative integer. Repeating 0 times will return an empty + %(klass)s. + axis : None + Must be ``None``. Has no effect but is accepted for compatibility + with numpy. + + Returns + ------- + %(klass)s + Newly created %(klass)s with repeated elements. + + See Also + -------- + Series.repeat : Equivalent function for Series. + Index.repeat : Equivalent function for Index. + numpy.repeat : Similar method for :class:`numpy.ndarray`. + ExtensionArray.take : Take arbitrary positions. + + Examples + -------- + >>> cat = pd.Categorical(['a', 'b', 'c']) + >>> cat + ['a', 'b', 'c'] + Categories (3, object): ['a', 'b', 'c'] + >>> cat.repeat(2) + ['a', 'a', 'b', 'b', 'c', 'c'] + Categories (3, object): ['a', 'b', 'c'] + >>> cat.repeat([1, 2, 3]) + ['a', 'b', 'b', 'c', 'c', 'c'] + Categories (3, object): ['a', 'b', 'c'] + """ + + @Substitution(klass="ExtensionArray") + @Appender(_extension_array_shared_docs["repeat"]) + def repeat(self, repeats: int | Sequence[int], axis: AxisInt | None = None) -> Self: + nv.validate_repeat((), {"axis": axis}) + ind = np.arange(len(self)).repeat(repeats) + return self.take(ind) + + # ------------------------------------------------------------------------ + # Indexing methods + # ------------------------------------------------------------------------ + + def take( + self, + indices: TakeIndexer, + *, + allow_fill: bool = False, + fill_value: Any = None, + ) -> Self: + """ + Take elements from an array. + + Parameters + ---------- + indices : sequence of int or one-dimensional np.ndarray of int + Indices to be taken. + allow_fill : bool, default False + How to handle negative values in `indices`. + + * False: negative values in `indices` indicate positional indices + from the right (the default). This is similar to + :func:`numpy.take`. + + * True: negative values in `indices` indicate + missing values. These values are set to `fill_value`. Any other + other negative values raise a ``ValueError``. + + fill_value : any, optional + Fill value to use for NA-indices when `allow_fill` is True. + This may be ``None``, in which case the default NA value for + the type, ``self.dtype.na_value``, is used. + + For many ExtensionArrays, there will be two representations of + `fill_value`: a user-facing "boxed" scalar, and a low-level + physical NA value. `fill_value` should be the user-facing version, + and the implementation should handle translating that to the + physical version for processing the take if necessary. + + Returns + ------- + ExtensionArray + + Raises + ------ + IndexError + When the indices are out of bounds for the array. + ValueError + When `indices` contains negative values other than ``-1`` + and `allow_fill` is True. + + See Also + -------- + numpy.take : Take elements from an array along an axis. + api.extensions.take : Take elements from an array. + + Notes + ----- + ExtensionArray.take is called by ``Series.__getitem__``, ``.loc``, + ``iloc``, when `indices` is a sequence of values. Additionally, + it's called by :meth:`Series.reindex`, or any other method + that causes realignment, with a `fill_value`. + + Examples + -------- + Here's an example implementation, which relies on casting the + extension array to object dtype. This uses the helper method + :func:`pandas.api.extensions.take`. + + .. code-block:: python + + def take(self, indices, allow_fill=False, fill_value=None): + from pandas.core.algorithms import take + + # If the ExtensionArray is backed by an ndarray, then + # just pass that here instead of coercing to object. + data = self.astype(object) + + if allow_fill and fill_value is None: + fill_value = self.dtype.na_value + + # fill value should always be translated from the scalar + # type for the array, to the physical storage type for + # the data, before passing to take. + + result = take(data, indices, fill_value=fill_value, + allow_fill=allow_fill) + return self._from_sequence(result, dtype=self.dtype) + """ + # Implementer note: The `fill_value` parameter should be a user-facing + # value, an instance of self.dtype.type. When passed `fill_value=None`, + # the default of `self.dtype.na_value` should be used. + # This may differ from the physical storage type your ExtensionArray + # uses. In this case, your implementation is responsible for casting + # the user-facing type to the storage type, before using + # pandas.api.extensions.take + raise AbstractMethodError(self) + + def copy(self) -> Self: + """ + Return a copy of the array. + + Returns + ------- + ExtensionArray + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr2 = arr.copy() + >>> arr[0] = 2 + >>> arr2 + + [1, 2, 3] + Length: 3, dtype: Int64 + """ + raise AbstractMethodError(self) + + def view(self, dtype: Dtype | None = None) -> ArrayLike: + """ + Return a view on the array. + + Parameters + ---------- + dtype : str, np.dtype, or ExtensionDtype, optional + Default None. + + Returns + ------- + ExtensionArray or np.ndarray + A view on the :class:`ExtensionArray`'s data. + + Examples + -------- + This gives view on the underlying data of an ``ExtensionArray`` and is not a + copy. Modifications on either the view or the original ``ExtensionArray`` + will be reflectd on the underlying data: + + >>> arr = pd.array([1, 2, 3]) + >>> arr2 = arr.view() + >>> arr[0] = 2 + >>> arr2 + + [2, 2, 3] + Length: 3, dtype: Int64 + """ + # NB: + # - This must return a *new* object referencing the same data, not self. + # - The only case that *must* be implemented is with dtype=None, + # giving a view with the same dtype as self. + if dtype is not None: + raise NotImplementedError(dtype) + return self[:] + + # ------------------------------------------------------------------------ + # Printing + # ------------------------------------------------------------------------ + + def __repr__(self) -> str: + if self.ndim > 1: + return self._repr_2d() + + from pandas.io.formats.printing import format_object_summary + + # the short repr has no trailing newline, while the truncated + # repr does. So we include a newline in our template, and strip + # any trailing newlines from format_object_summary + data = format_object_summary( + self, self._formatter(), indent_for_name=False + ).rstrip(", \n") + class_name = f"<{type(self).__name__}>\n" + footer = self._get_repr_footer() + return f"{class_name}{data}\n{footer}" + + def _get_repr_footer(self) -> str: + # GH#24278 + if self.ndim > 1: + return f"Shape: {self.shape}, dtype: {self.dtype}" + return f"Length: {len(self)}, dtype: {self.dtype}" + + def _repr_2d(self) -> str: + from pandas.io.formats.printing import format_object_summary + + # the short repr has no trailing newline, while the truncated + # repr does. So we include a newline in our template, and strip + # any trailing newlines from format_object_summary + lines = [ + format_object_summary(x, self._formatter(), indent_for_name=False).rstrip( + ", \n" + ) + for x in self + ] + data = ",\n".join(lines) + class_name = f"<{type(self).__name__}>" + footer = self._get_repr_footer() + return f"{class_name}\n[\n{data}\n]\n{footer}" + + def _formatter(self, boxed: bool = False) -> Callable[[Any], str | None]: + """ + Formatting function for scalar values. + + This is used in the default '__repr__'. The returned formatting + function receives instances of your scalar type. + + Parameters + ---------- + boxed : bool, default False + An indicated for whether or not your array is being printed + within a Series, DataFrame, or Index (True), or just by + itself (False). This may be useful if you want scalar values + to appear differently within a Series versus on its own (e.g. + quoted or not). + + Returns + ------- + Callable[[Any], str] + A callable that gets instances of the scalar type and + returns a string. By default, :func:`repr` is used + when ``boxed=False`` and :func:`str` is used when + ``boxed=True``. + + Examples + -------- + >>> class MyExtensionArray(pd.arrays.NumpyExtensionArray): + ... def _formatter(self, boxed=False): + ... return lambda x: '*' + str(x) + '*' if boxed else repr(x) + '*' + >>> MyExtensionArray(np.array([1, 2, 3, 4])) + + [1*, 2*, 3*, 4*] + Length: 4, dtype: int64 + """ + if boxed: + return str + return repr + + # ------------------------------------------------------------------------ + # Reshaping + # ------------------------------------------------------------------------ + + def transpose(self, *axes: int) -> ExtensionArray: + """ + Return a transposed view on this array. + + Because ExtensionArrays are always 1D, this is a no-op. It is included + for compatibility with np.ndarray. + + Returns + ------- + ExtensionArray + + Examples + -------- + >>> pd.array([1, 2, 3]).transpose() + + [1, 2, 3] + Length: 3, dtype: Int64 + """ + return self[:] + + @property + def T(self) -> ExtensionArray: + return self.transpose() + + def ravel(self, order: Literal["C", "F", "A", "K"] | None = "C") -> ExtensionArray: + """ + Return a flattened view on this array. + + Parameters + ---------- + order : {None, 'C', 'F', 'A', 'K'}, default 'C' + + Returns + ------- + ExtensionArray + + Notes + ----- + - Because ExtensionArrays are 1D-only, this is a no-op. + - The "order" argument is ignored, is for compatibility with NumPy. + + Examples + -------- + >>> pd.array([1, 2, 3]).ravel() + + [1, 2, 3] + Length: 3, dtype: Int64 + """ + return self + + @classmethod + def _concat_same_type(cls, to_concat: Sequence[Self]) -> Self: + """ + Concatenate multiple array of this dtype. + + Parameters + ---------- + to_concat : sequence of this type + + Returns + ------- + ExtensionArray + + Examples + -------- + >>> arr1 = pd.array([1, 2, 3]) + >>> arr2 = pd.array([4, 5, 6]) + >>> pd.arrays.IntegerArray._concat_same_type([arr1, arr2]) + + [1, 2, 3, 4, 5, 6] + Length: 6, dtype: Int64 + """ + # Implementer note: this method will only be called with a sequence of + # ExtensionArrays of this class and with the same dtype as self. This + # should allow "easy" concatenation (no upcasting needed), and result + # in a new ExtensionArray of the same dtype. + # Note: this strict behaviour is only guaranteed starting with pandas 1.1 + raise AbstractMethodError(cls) + + # The _can_hold_na attribute is set to True so that pandas internals + # will use the ExtensionDtype.na_value as the NA value in operations + # such as take(), reindex(), shift(), etc. In addition, those results + # will then be of the ExtensionArray subclass rather than an array + # of objects + @cache_readonly + def _can_hold_na(self) -> bool: + return self.dtype._can_hold_na + + def _accumulate( + self, name: str, *, skipna: bool = True, **kwargs + ) -> ExtensionArray: + """ + Return an ExtensionArray performing an accumulation operation. + + The underlying data type might change. + + Parameters + ---------- + name : str + Name of the function, supported values are: + - cummin + - cummax + - cumsum + - cumprod + skipna : bool, default True + If True, skip NA values. + **kwargs + Additional keyword arguments passed to the accumulation function. + Currently, there is no supported kwarg. + + Returns + ------- + array + + Raises + ------ + NotImplementedError : subclass does not define accumulations + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr._accumulate(name='cumsum') + + [1, 3, 6] + Length: 3, dtype: Int64 + """ + raise NotImplementedError(f"cannot perform {name} with type {self.dtype}") + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + """ + Return a scalar result of performing the reduction operation. + + Parameters + ---------- + name : str + Name of the function, supported values are: + { any, all, min, max, sum, mean, median, prod, + std, var, sem, kurt, skew }. + skipna : bool, default True + If True, skip NaN values. + keepdims : bool, default False + If False, a scalar is returned. + If True, the result has dimension with size one along the reduced axis. + + .. versionadded:: 2.1 + + This parameter is not required in the _reduce signature to keep backward + compatibility, but will become required in the future. If the parameter + is not found in the method signature, a FutureWarning will be emitted. + **kwargs + Additional keyword arguments passed to the reduction function. + Currently, `ddof` is the only supported kwarg. + + Returns + ------- + scalar + + Raises + ------ + TypeError : subclass does not define reductions + + Examples + -------- + >>> pd.array([1, 2, 3])._reduce("min") + 1 + """ + meth = getattr(self, name, None) + if meth is None: + raise TypeError( + f"'{type(self).__name__}' with dtype {self.dtype} " + f"does not support reduction '{name}'" + ) + result = meth(skipna=skipna, **kwargs) + if keepdims: + result = np.array([result]) + + return result + + # https://github.com/python/typeshed/issues/2148#issuecomment-520783318 + # Incompatible types in assignment (expression has type "None", base class + # "object" defined the type as "Callable[[object], int]") + __hash__: ClassVar[None] # type: ignore[assignment] + + # ------------------------------------------------------------------------ + # Non-Optimized Default Methods; in the case of the private methods here, + # these are not guaranteed to be stable across pandas versions. + + def _values_for_json(self) -> np.ndarray: + """ + Specify how to render our entries in to_json. + + Notes + ----- + The dtype on the returned ndarray is not restricted, but for non-native + types that are not specifically handled in objToJSON.c, to_json is + liable to raise. In these cases, it may be safer to return an ndarray + of strings. + """ + return np.asarray(self) + + def _hash_pandas_object( + self, *, encoding: str, hash_key: str, categorize: bool + ) -> npt.NDArray[np.uint64]: + """ + Hook for hash_pandas_object. + + Default is to use the values returned by _values_for_factorize. + + Parameters + ---------- + encoding : str + Encoding for data & key when strings. + hash_key : str + Hash_key for string key to encode. + categorize : bool + Whether to first categorize object arrays before hashing. This is more + efficient when the array contains duplicate values. + + Returns + ------- + np.ndarray[uint64] + + Examples + -------- + >>> pd.array([1, 2])._hash_pandas_object(encoding='utf-8', + ... hash_key="1000000000000000", + ... categorize=False + ... ) + array([ 6238072747940578789, 15839785061582574730], dtype=uint64) + """ + from pandas.core.util.hashing import hash_array + + values, _ = self._values_for_factorize() + return hash_array( + values, encoding=encoding, hash_key=hash_key, categorize=categorize + ) + + def _explode(self) -> tuple[Self, npt.NDArray[np.uint64]]: + """ + Transform each element of list-like to a row. + + For arrays that do not contain list-like elements the default + implementation of this method just returns a copy and an array + of ones (unchanged index). + + Returns + ------- + ExtensionArray + Array with the exploded values. + np.ndarray[uint64] + The original lengths of each list-like for determining the + resulting index. + + See Also + -------- + Series.explode : The method on the ``Series`` object that this + extension array method is meant to support. + + Examples + -------- + >>> import pyarrow as pa + >>> a = pd.array([[1, 2, 3], [4], [5, 6]], + ... dtype=pd.ArrowDtype(pa.list_(pa.int64()))) + >>> a._explode() + ( + [1, 2, 3, 4, 5, 6] + Length: 6, dtype: int64[pyarrow], array([3, 1, 2], dtype=int32)) + """ + values = self.copy() + counts = np.ones(shape=(len(self),), dtype=np.uint64) + return values, counts + + def tolist(self) -> list: + """ + Return a list of the values. + + These are each a scalar type, which is a Python scalar + (for str, int, float) or a pandas scalar + (for Timestamp/Timedelta/Interval/Period) + + Returns + ------- + list + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.tolist() + [1, 2, 3] + """ + if self.ndim > 1: + return [x.tolist() for x in self] + return list(self) + + def delete(self, loc: PositionalIndexer) -> Self: + indexer = np.delete(np.arange(len(self)), loc) + return self.take(indexer) + + def insert(self, loc: int, item) -> Self: + """ + Insert an item at the given position. + + Parameters + ---------- + loc : int + item : scalar-like + + Returns + ------- + same type as self + + Notes + ----- + This method should be both type and dtype-preserving. If the item + cannot be held in an array of this type/dtype, either ValueError or + TypeError should be raised. + + The default implementation relies on _from_sequence to raise on invalid + items. + + Examples + -------- + >>> arr = pd.array([1, 2, 3]) + >>> arr.insert(2, -1) + + [1, 2, -1, 3] + Length: 4, dtype: Int64 + """ + loc = validate_insert_loc(loc, len(self)) + + item_arr = type(self)._from_sequence([item], dtype=self.dtype) + + return type(self)._concat_same_type([self[:loc], item_arr, self[loc:]]) + + def _putmask(self, mask: npt.NDArray[np.bool_], value) -> None: + """ + Analogue to np.putmask(self, mask, value) + + Parameters + ---------- + mask : np.ndarray[bool] + value : scalar or listlike + If listlike, must be arraylike with same length as self. + + Returns + ------- + None + + Notes + ----- + Unlike np.putmask, we do not repeat listlike values with mismatched length. + 'value' should either be a scalar or an arraylike with the same length + as self. + """ + if is_list_like(value): + val = value[mask] + else: + val = value + + self[mask] = val + + def _where(self, mask: npt.NDArray[np.bool_], value) -> Self: + """ + Analogue to np.where(mask, self, value) + + Parameters + ---------- + mask : np.ndarray[bool] + value : scalar or listlike + + Returns + ------- + same type as self + """ + result = self.copy() + + if is_list_like(value): + val = value[~mask] + else: + val = value + + result[~mask] = val + return result + + # TODO(3.0): this can be removed once GH#33302 deprecation is enforced + def _fill_mask_inplace( + self, method: str, limit: int | None, mask: npt.NDArray[np.bool_] + ) -> None: + """ + Replace values in locations specified by 'mask' using pad or backfill. + + See also + -------- + ExtensionArray.fillna + """ + func = missing.get_fill_func(method) + npvalues = self.astype(object) + # NB: if we don't copy mask here, it may be altered inplace, which + # would mess up the `self[mask] = ...` below. + func(npvalues, limit=limit, mask=mask.copy()) + new_values = self._from_sequence(npvalues, dtype=self.dtype) + self[mask] = new_values[mask] + + def _rank( + self, + *, + axis: AxisInt = 0, + method: str = "average", + na_option: str = "keep", + ascending: bool = True, + pct: bool = False, + ): + """ + See Series.rank.__doc__. + """ + if axis != 0: + raise NotImplementedError + + return rank( + self._values_for_argsort(), + axis=axis, + method=method, + na_option=na_option, + ascending=ascending, + pct=pct, + ) + + @classmethod + def _empty(cls, shape: Shape, dtype: ExtensionDtype): + """ + Create an ExtensionArray with the given shape and dtype. + + See also + -------- + ExtensionDtype.empty + ExtensionDtype.empty is the 'official' public version of this API. + """ + # Implementer note: while ExtensionDtype.empty is the public way to + # call this method, it is still required to implement this `_empty` + # method as well (it is called internally in pandas) + obj = cls._from_sequence([], dtype=dtype) + + taker = np.broadcast_to(np.intp(-1), shape) + result = obj.take(taker, allow_fill=True) + if not isinstance(result, cls) or dtype != result.dtype: + raise NotImplementedError( + f"Default 'empty' implementation is invalid for dtype='{dtype}'" + ) + return result + + def _quantile(self, qs: npt.NDArray[np.float64], interpolation: str) -> Self: + """ + Compute the quantiles of self for each quantile in `qs`. + + Parameters + ---------- + qs : np.ndarray[float64] + interpolation: str + + Returns + ------- + same type as self + """ + mask = np.asarray(self.isna()) + arr = np.asarray(self) + fill_value = np.nan + + res_values = quantile_with_mask(arr, mask, fill_value, qs, interpolation) + return type(self)._from_sequence(res_values) + + def _mode(self, dropna: bool = True) -> Self: + """ + Returns the mode(s) of the ExtensionArray. + + Always returns `ExtensionArray` even if only one value. + + Parameters + ---------- + dropna : bool, default True + Don't consider counts of NA values. + + Returns + ------- + same type as self + Sorted, if possible. + """ + # error: Incompatible return value type (got "Union[ExtensionArray, + # ndarray[Any, Any]]", expected "Self") + return mode(self, dropna=dropna) # type: ignore[return-value] + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + if any( + isinstance(other, (ABCSeries, ABCIndex, ABCDataFrame)) for other in inputs + ): + return NotImplemented + + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + return arraylike.default_array_ufunc(self, ufunc, method, *inputs, **kwargs) + + def map(self, mapper, na_action=None): + """ + Map values using an input mapping or function. + + Parameters + ---------- + mapper : function, dict, or Series + Mapping correspondence. + na_action : {None, 'ignore'}, default None + If 'ignore', propagate NA values, without passing them to the + mapping correspondence. If 'ignore' is not supported, a + ``NotImplementedError`` should be raised. + + Returns + ------- + Union[ndarray, Index, ExtensionArray] + The output of the mapping function applied to the array. + If the function returns a tuple with more than one element + a MultiIndex will be returned. + """ + return map_array(self, mapper, na_action=na_action) + + # ------------------------------------------------------------------------ + # GroupBy Methods + + def _groupby_op( + self, + *, + how: str, + has_dropped_na: bool, + min_count: int, + ngroups: int, + ids: npt.NDArray[np.intp], + **kwargs, + ) -> ArrayLike: + """ + Dispatch GroupBy reduction or transformation operation. + + This is an *experimental* API to allow ExtensionArray authors to implement + reductions and transformations. The API is subject to change. + + Parameters + ---------- + how : {'any', 'all', 'sum', 'prod', 'min', 'max', 'mean', 'median', + 'median', 'var', 'std', 'sem', 'nth', 'last', 'ohlc', + 'cumprod', 'cumsum', 'cummin', 'cummax', 'rank'} + has_dropped_na : bool + min_count : int + ngroups : int + ids : np.ndarray[np.intp] + ids[i] gives the integer label for the group that self[i] belongs to. + **kwargs : operation-specific + 'any', 'all' -> ['skipna'] + 'var', 'std', 'sem' -> ['ddof'] + 'cumprod', 'cumsum', 'cummin', 'cummax' -> ['skipna'] + 'rank' -> ['ties_method', 'ascending', 'na_option', 'pct'] + + Returns + ------- + np.ndarray or ExtensionArray + """ + from pandas.core.arrays.string_ import StringDtype + from pandas.core.groupby.ops import WrappedCythonOp + + kind = WrappedCythonOp.get_kind_from_how(how) + op = WrappedCythonOp(how=how, kind=kind, has_dropped_na=has_dropped_na) + + # GH#43682 + if isinstance(self.dtype, StringDtype): + # StringArray + if op.how in [ + "prod", + "mean", + "median", + "cumsum", + "cumprod", + "std", + "sem", + "var", + "skew", + ]: + raise TypeError( + f"dtype '{self.dtype}' does not support operation '{how}'" + ) + if op.how not in ["any", "all"]: + # Fail early to avoid conversion to object + op._get_cython_function(op.kind, op.how, np.dtype(object), False) + + arr = self + if op.how == "sum": + # https://github.com/pandas-dev/pandas/issues/60229 + # All NA should result in the empty string. + if min_count == 0: + arr = arr.fillna("") + npvalues = arr.to_numpy(object, na_value=np.nan) + else: + raise NotImplementedError( + f"function is not implemented for this dtype: {self.dtype}" + ) + + res_values = op._cython_op_ndim_compat( + npvalues, + min_count=min_count, + ngroups=ngroups, + comp_ids=ids, + mask=None, + **kwargs, + ) + + if op.how in op.cast_blocklist: + # i.e. how in ["rank"], since other cast_blocklist methods don't go + # through cython_operation + return res_values + + if isinstance(self.dtype, StringDtype): + dtype = self.dtype + string_array_cls = dtype.construct_array_type() + return string_array_cls._from_sequence(res_values, dtype=dtype) + + else: + raise NotImplementedError + + +class ExtensionArraySupportsAnyAll(ExtensionArray): + def any(self, *, skipna: bool = True) -> bool: + raise AbstractMethodError(self) + + def all(self, *, skipna: bool = True) -> bool: + raise AbstractMethodError(self) + + +class ExtensionOpsMixin: + """ + A base class for linking the operators to their dunder names. + + .. note:: + + You may want to set ``__array_priority__`` if you want your + implementation to be called when involved in binary operations + with NumPy arrays. + """ + + @classmethod + def _create_arithmetic_method(cls, op): + raise AbstractMethodError(cls) + + @classmethod + def _add_arithmetic_ops(cls) -> None: + setattr(cls, "__add__", cls._create_arithmetic_method(operator.add)) + setattr(cls, "__radd__", cls._create_arithmetic_method(roperator.radd)) + setattr(cls, "__sub__", cls._create_arithmetic_method(operator.sub)) + setattr(cls, "__rsub__", cls._create_arithmetic_method(roperator.rsub)) + setattr(cls, "__mul__", cls._create_arithmetic_method(operator.mul)) + setattr(cls, "__rmul__", cls._create_arithmetic_method(roperator.rmul)) + setattr(cls, "__pow__", cls._create_arithmetic_method(operator.pow)) + setattr(cls, "__rpow__", cls._create_arithmetic_method(roperator.rpow)) + setattr(cls, "__mod__", cls._create_arithmetic_method(operator.mod)) + setattr(cls, "__rmod__", cls._create_arithmetic_method(roperator.rmod)) + setattr(cls, "__floordiv__", cls._create_arithmetic_method(operator.floordiv)) + setattr( + cls, "__rfloordiv__", cls._create_arithmetic_method(roperator.rfloordiv) + ) + setattr(cls, "__truediv__", cls._create_arithmetic_method(operator.truediv)) + setattr(cls, "__rtruediv__", cls._create_arithmetic_method(roperator.rtruediv)) + setattr(cls, "__divmod__", cls._create_arithmetic_method(divmod)) + setattr(cls, "__rdivmod__", cls._create_arithmetic_method(roperator.rdivmod)) + + @classmethod + def _create_comparison_method(cls, op): + raise AbstractMethodError(cls) + + @classmethod + def _add_comparison_ops(cls) -> None: + setattr(cls, "__eq__", cls._create_comparison_method(operator.eq)) + setattr(cls, "__ne__", cls._create_comparison_method(operator.ne)) + setattr(cls, "__lt__", cls._create_comparison_method(operator.lt)) + setattr(cls, "__gt__", cls._create_comparison_method(operator.gt)) + setattr(cls, "__le__", cls._create_comparison_method(operator.le)) + setattr(cls, "__ge__", cls._create_comparison_method(operator.ge)) + + @classmethod + def _create_logical_method(cls, op): + raise AbstractMethodError(cls) + + @classmethod + def _add_logical_ops(cls) -> None: + setattr(cls, "__and__", cls._create_logical_method(operator.and_)) + setattr(cls, "__rand__", cls._create_logical_method(roperator.rand_)) + setattr(cls, "__or__", cls._create_logical_method(operator.or_)) + setattr(cls, "__ror__", cls._create_logical_method(roperator.ror_)) + setattr(cls, "__xor__", cls._create_logical_method(operator.xor)) + setattr(cls, "__rxor__", cls._create_logical_method(roperator.rxor)) + + +class ExtensionScalarOpsMixin(ExtensionOpsMixin): + """ + A mixin for defining ops on an ExtensionArray. + + It is assumed that the underlying scalar objects have the operators + already defined. + + Notes + ----- + If you have defined a subclass MyExtensionArray(ExtensionArray), then + use MyExtensionArray(ExtensionArray, ExtensionScalarOpsMixin) to + get the arithmetic operators. After the definition of MyExtensionArray, + insert the lines + + MyExtensionArray._add_arithmetic_ops() + MyExtensionArray._add_comparison_ops() + + to link the operators to your class. + + .. note:: + + You may want to set ``__array_priority__`` if you want your + implementation to be called when involved in binary operations + with NumPy arrays. + """ + + @classmethod + def _create_method(cls, op, coerce_to_dtype: bool = True, result_dtype=None): + """ + A class method that returns a method that will correspond to an + operator for an ExtensionArray subclass, by dispatching to the + relevant operator defined on the individual elements of the + ExtensionArray. + + Parameters + ---------- + op : function + An operator that takes arguments op(a, b) + coerce_to_dtype : bool, default True + boolean indicating whether to attempt to convert + the result to the underlying ExtensionArray dtype. + If it's not possible to create a new ExtensionArray with the + values, an ndarray is returned instead. + + Returns + ------- + Callable[[Any, Any], Union[ndarray, ExtensionArray]] + A method that can be bound to a class. When used, the method + receives the two arguments, one of which is the instance of + this class, and should return an ExtensionArray or an ndarray. + + Returning an ndarray may be necessary when the result of the + `op` cannot be stored in the ExtensionArray. The dtype of the + ndarray uses NumPy's normal inference rules. + + Examples + -------- + Given an ExtensionArray subclass called MyExtensionArray, use + + __add__ = cls._create_method(operator.add) + + in the class definition of MyExtensionArray to create the operator + for addition, that will be based on the operator implementation + of the underlying elements of the ExtensionArray + """ + + def _binop(self, other): + def convert_values(param): + if isinstance(param, ExtensionArray) or is_list_like(param): + ovalues = param + else: # Assume its an object + ovalues = [param] * len(self) + return ovalues + + if isinstance(other, (ABCSeries, ABCIndex, ABCDataFrame)): + # rely on pandas to unbox and dispatch to us + return NotImplemented + + lvalues = self + rvalues = convert_values(other) + + # If the operator is not defined for the underlying objects, + # a TypeError should be raised + res = [op(a, b) for (a, b) in zip(lvalues, rvalues)] + + def _maybe_convert(arr): + if coerce_to_dtype: + # https://github.com/pandas-dev/pandas/issues/22850 + # We catch all regular exceptions here, and fall back + # to an ndarray. + res = maybe_cast_pointwise_result(arr, self.dtype, same_dtype=False) + if not isinstance(res, type(self)): + # exception raised in _from_sequence; ensure we have ndarray + res = np.asarray(arr) + else: + res = np.asarray(arr, dtype=result_dtype) + return res + + if op.__name__ in {"divmod", "rdivmod"}: + a, b = zip(*res) + return _maybe_convert(a), _maybe_convert(b) + + return _maybe_convert(res) + + op_name = f"__{op.__name__}__" + return set_function_name(_binop, op_name, cls) + + @classmethod + def _create_arithmetic_method(cls, op): + return cls._create_method(op) + + @classmethod + def _create_comparison_method(cls, op): + return cls._create_method(op, coerce_to_dtype=False, result_dtype=bool) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/boolean.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/boolean.py new file mode 100644 index 0000000000000000000000000000000000000000..04e6f0a0bcdde9a11550fcec8274e09fe8429430 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/boolean.py @@ -0,0 +1,407 @@ +from __future__ import annotations + +import numbers +from typing import ( + TYPE_CHECKING, + ClassVar, + cast, +) + +import numpy as np + +from pandas._libs import ( + lib, + missing as libmissing, +) + +from pandas.core.dtypes.common import is_list_like +from pandas.core.dtypes.dtypes import register_extension_dtype +from pandas.core.dtypes.missing import isna + +from pandas.core import ops +from pandas.core.array_algos import masked_accumulations +from pandas.core.arrays.masked import ( + BaseMaskedArray, + BaseMaskedDtype, +) + +if TYPE_CHECKING: + import pyarrow + + from pandas._typing import ( + Dtype, + DtypeObj, + Self, + npt, + type_t, + ) + + +@register_extension_dtype +class BooleanDtype(BaseMaskedDtype): + """ + Extension dtype for boolean data. + + .. warning:: + + BooleanDtype is considered experimental. The implementation and + parts of the API may change without warning. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> pd.BooleanDtype() + BooleanDtype + """ + + name: ClassVar[str] = "boolean" + + # https://github.com/python/mypy/issues/4125 + # error: Signature of "type" incompatible with supertype "BaseMaskedDtype" + @property + def type(self) -> type: # type: ignore[override] + return np.bool_ + + @property + def kind(self) -> str: + return "b" + + @property + def numpy_dtype(self) -> np.dtype: + return np.dtype("bool") + + @classmethod + def construct_array_type(cls) -> type_t[BooleanArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return BooleanArray + + def __repr__(self) -> str: + return "BooleanDtype" + + @property + def _is_boolean(self) -> bool: + return True + + @property + def _is_numeric(self) -> bool: + return True + + def __from_arrow__( + self, array: pyarrow.Array | pyarrow.ChunkedArray + ) -> BooleanArray: + """ + Construct BooleanArray from pyarrow Array/ChunkedArray. + """ + import pyarrow + + if array.type != pyarrow.bool_() and not pyarrow.types.is_null(array.type): + raise TypeError(f"Expected array of boolean type, got {array.type} instead") + + if isinstance(array, pyarrow.Array): + chunks = [array] + length = len(array) + else: + # pyarrow.ChunkedArray + chunks = array.chunks + length = array.length() + + if pyarrow.types.is_null(array.type): + mask = np.ones(length, dtype=bool) + # No need to init data, since all null + data = np.empty(length, dtype=bool) + return BooleanArray(data, mask) + + results = [] + for arr in chunks: + buflist = arr.buffers() + data = pyarrow.BooleanArray.from_buffers( + arr.type, len(arr), [None, buflist[1]], offset=arr.offset + ).to_numpy(zero_copy_only=False) + if arr.null_count != 0: + mask = pyarrow.BooleanArray.from_buffers( + arr.type, len(arr), [None, buflist[0]], offset=arr.offset + ).to_numpy(zero_copy_only=False) + mask = ~mask + else: + mask = np.zeros(len(arr), dtype=bool) + + bool_arr = BooleanArray(data, mask) + results.append(bool_arr) + + if not results: + return BooleanArray( + np.array([], dtype=np.bool_), np.array([], dtype=np.bool_) + ) + else: + return BooleanArray._concat_same_type(results) + + +def coerce_to_array( + values, mask=None, copy: bool = False +) -> tuple[np.ndarray, np.ndarray]: + """ + Coerce the input values array to numpy arrays with a mask. + + Parameters + ---------- + values : 1D list-like + mask : bool 1D array, optional + copy : bool, default False + if True, copy the input + + Returns + ------- + tuple of (values, mask) + """ + if isinstance(values, BooleanArray): + if mask is not None: + raise ValueError("cannot pass mask for BooleanArray input") + values, mask = values._data, values._mask + if copy: + values = values.copy() + mask = mask.copy() + return values, mask + + mask_values = None + if isinstance(values, np.ndarray) and values.dtype == np.bool_: + if copy: + values = values.copy() + elif isinstance(values, np.ndarray) and values.dtype.kind in "iufcb": + mask_values = isna(values) + + values_bool = np.zeros(len(values), dtype=bool) + values_bool[~mask_values] = values[~mask_values].astype(bool) + + if not np.all( + values_bool[~mask_values].astype(values.dtype) == values[~mask_values] + ): + raise TypeError("Need to pass bool-like values") + + values = values_bool + else: + values_object = np.asarray(values, dtype=object) + + inferred_dtype = lib.infer_dtype(values_object, skipna=True) + integer_like = ("floating", "integer", "mixed-integer-float") + if inferred_dtype not in ("boolean", "empty") + integer_like: + raise TypeError("Need to pass bool-like values") + + # mypy does not narrow the type of mask_values to npt.NDArray[np.bool_] + # within this branch, it assumes it can also be None + mask_values = cast("npt.NDArray[np.bool_]", isna(values_object)) + values = np.zeros(len(values), dtype=bool) + values[~mask_values] = values_object[~mask_values].astype(bool) + + # if the values were integer-like, validate it were actually 0/1's + if (inferred_dtype in integer_like) and not ( + np.all( + values[~mask_values].astype(float) + == values_object[~mask_values].astype(float) + ) + ): + raise TypeError("Need to pass bool-like values") + + if mask is None and mask_values is None: + mask = np.zeros(values.shape, dtype=bool) + elif mask is None: + mask = mask_values + else: + if isinstance(mask, np.ndarray) and mask.dtype == np.bool_: + if mask_values is not None: + mask = mask | mask_values + else: + if copy: + mask = mask.copy() + else: + mask = np.array(mask, dtype=bool) + if mask_values is not None: + mask = mask | mask_values + + if values.shape != mask.shape: + raise ValueError("values.shape and mask.shape must match") + + return values, mask + + +class BooleanArray(BaseMaskedArray): + """ + Array of boolean (True/False) data with missing values. + + This is a pandas Extension array for boolean data, under the hood + represented by 2 numpy arrays: a boolean array with the data and + a boolean array with the mask (True indicating missing). + + BooleanArray implements Kleene logic (sometimes called three-value + logic) for logical operations. See :ref:`boolean.kleene` for more. + + To construct an BooleanArray from generic array-like input, use + :func:`pandas.array` specifying ``dtype="boolean"`` (see examples + below). + + .. warning:: + + BooleanArray is considered experimental. The implementation and + parts of the API may change without warning. + + Parameters + ---------- + values : numpy.ndarray + A 1-d boolean-dtype array with the data. + mask : numpy.ndarray + A 1-d boolean-dtype array indicating missing values (True + indicates missing). + copy : bool, default False + Whether to copy the `values` and `mask` arrays. + + Attributes + ---------- + None + + Methods + ------- + None + + Returns + ------- + BooleanArray + + Examples + -------- + Create an BooleanArray with :func:`pandas.array`: + + >>> pd.array([True, False, None], dtype="boolean") + + [True, False, ] + Length: 3, dtype: boolean + """ + + # The value used to fill '_data' to avoid upcasting + _internal_fill_value = False + # Fill values used for any/all + # Incompatible types in assignment (expression has type "bool", base class + # "BaseMaskedArray" defined the type as "") + _truthy_value = True # type: ignore[assignment] + _falsey_value = False # type: ignore[assignment] + _TRUE_VALUES = {"True", "TRUE", "true", "1", "1.0"} + _FALSE_VALUES = {"False", "FALSE", "false", "0", "0.0"} + + @classmethod + def _simple_new(cls, values: np.ndarray, mask: npt.NDArray[np.bool_]) -> Self: + result = super()._simple_new(values, mask) + result._dtype = BooleanDtype() + return result + + def __init__( + self, values: np.ndarray, mask: np.ndarray, copy: bool = False + ) -> None: + if not (isinstance(values, np.ndarray) and values.dtype == np.bool_): + raise TypeError( + "values should be boolean numpy array. Use " + "the 'pd.array' function instead" + ) + self._dtype = BooleanDtype() + super().__init__(values, mask, copy=copy) + + @property + def dtype(self) -> BooleanDtype: + return self._dtype + + @classmethod + def _from_sequence_of_strings( + cls, + strings: list[str], + *, + dtype: Dtype | None = None, + copy: bool = False, + true_values: list[str] | None = None, + false_values: list[str] | None = None, + ) -> BooleanArray: + true_values_union = cls._TRUE_VALUES.union(true_values or []) + false_values_union = cls._FALSE_VALUES.union(false_values or []) + + def map_string(s) -> bool: + if s in true_values_union: + return True + elif s in false_values_union: + return False + else: + raise ValueError(f"{s} cannot be cast to bool") + + scalars = np.array(strings, dtype=object) + mask = isna(scalars) + scalars[~mask] = list(map(map_string, scalars[~mask])) + return cls._from_sequence(scalars, dtype=dtype, copy=copy) + + _HANDLED_TYPES = (np.ndarray, numbers.Number, bool, np.bool_) + + @classmethod + def _coerce_to_array( + cls, value, *, dtype: DtypeObj, copy: bool = False + ) -> tuple[np.ndarray, np.ndarray]: + if dtype: + assert dtype == "boolean" + return coerce_to_array(value, copy=copy) + + def _logical_method(self, other, op): + assert op.__name__ in {"or_", "ror_", "and_", "rand_", "xor", "rxor"} + other_is_scalar = lib.is_scalar(other) + mask = None + + if isinstance(other, BooleanArray): + other, mask = other._data, other._mask + elif is_list_like(other): + other = np.asarray(other, dtype="bool") + if other.ndim > 1: + raise NotImplementedError("can only perform ops with 1-d structures") + other, mask = coerce_to_array(other, copy=False) + elif isinstance(other, np.bool_): + other = other.item() + + if other_is_scalar and other is not libmissing.NA and not lib.is_bool(other): + raise TypeError( + "'other' should be pandas.NA or a bool. " + f"Got {type(other).__name__} instead." + ) + + if not other_is_scalar and len(self) != len(other): + raise ValueError("Lengths must match") + + if op.__name__ in {"or_", "ror_"}: + result, mask = ops.kleene_or(self._data, other, self._mask, mask) + elif op.__name__ in {"and_", "rand_"}: + result, mask = ops.kleene_and(self._data, other, self._mask, mask) + else: + # i.e. xor, rxor + result, mask = ops.kleene_xor(self._data, other, self._mask, mask) + + # i.e. BooleanArray + return self._maybe_mask_result(result, mask) + + def _accumulate( + self, name: str, *, skipna: bool = True, **kwargs + ) -> BaseMaskedArray: + data = self._data + mask = self._mask + if name in ("cummin", "cummax"): + op = getattr(masked_accumulations, name) + data, mask = op(data, mask, skipna=skipna, **kwargs) + return self._simple_new(data, mask) + else: + from pandas.core.arrays import IntegerArray + + return IntegerArray(data.astype(int), mask)._accumulate( + name, skipna=skipna, **kwargs + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..0fe69f6d1ebc2f77819d3e9d372c937cbc348ae9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/categorical.py @@ -0,0 +1,3103 @@ +from __future__ import annotations + +from csv import QUOTE_NONNUMERIC +from functools import partial +import operator +from shutil import get_terminal_size +from typing import ( + TYPE_CHECKING, + Literal, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas._libs import ( + NaT, + algos as libalgos, + lib, +) +from pandas._libs.arrays import NDArrayBacked +from pandas.compat.numpy import function as nv +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import validate_bool_kwarg + +from pandas.core.dtypes.cast import ( + coerce_indexer_dtype, + find_common_type, +) +from pandas.core.dtypes.common import ( + ensure_int64, + ensure_platform_int, + is_any_real_numeric_dtype, + is_bool_dtype, + is_dict_like, + is_hashable, + is_integer_dtype, + is_list_like, + is_scalar, + needs_i8_conversion, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, + CategoricalDtypeType, + ExtensionDtype, +) +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, +) + +from pandas.core import ( + algorithms, + arraylike, + ops, +) +from pandas.core.accessor import ( + PandasDelegate, + delegate_names, +) +from pandas.core.algorithms import ( + factorize, + take_nd, +) +from pandas.core.arrays._mixins import ( + NDArrayBackedExtensionArray, + ravel_compat, +) +from pandas.core.base import ( + ExtensionArray, + NoNewAttributesMixin, + PandasObject, +) +import pandas.core.common as com +from pandas.core.construction import ( + extract_array, + sanitize_array, +) +from pandas.core.ops.common import unpack_zerodim_and_defer +from pandas.core.sorting import nargsort +from pandas.core.strings.object_array import ObjectStringArrayMixin + +from pandas.io.formats import console + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + AstypeArg, + AxisInt, + Dtype, + DtypeObj, + NpDtype, + Ordered, + Self, + Shape, + SortKind, + npt, + ) + + from pandas import ( + DataFrame, + Index, + Series, + ) + + +def _cat_compare_op(op): + opname = f"__{op.__name__}__" + fill_value = op is operator.ne + + @unpack_zerodim_and_defer(opname) + def func(self, other): + hashable = is_hashable(other) + if is_list_like(other) and len(other) != len(self) and not hashable: + # in hashable case we may have a tuple that is itself a category + raise ValueError("Lengths must match.") + + if not self.ordered: + if opname in ["__lt__", "__gt__", "__le__", "__ge__"]: + raise TypeError( + "Unordered Categoricals can only compare equality or not" + ) + if isinstance(other, Categorical): + # Two Categoricals can only be compared if the categories are + # the same (maybe up to ordering, depending on ordered) + + msg = "Categoricals can only be compared if 'categories' are the same." + if not self._categories_match_up_to_permutation(other): + raise TypeError(msg) + + if not self.ordered and not self.categories.equals(other.categories): + # both unordered and different order + other_codes = recode_for_categories( + other.codes, other.categories, self.categories, copy=False + ) + else: + other_codes = other._codes + + ret = op(self._codes, other_codes) + mask = (self._codes == -1) | (other_codes == -1) + if mask.any(): + ret[mask] = fill_value + return ret + + if hashable: + if other in self.categories: + i = self._unbox_scalar(other) + ret = op(self._codes, i) + + if opname not in {"__eq__", "__ge__", "__gt__"}: + # GH#29820 performance trick; get_loc will always give i>=0, + # so in the cases (__ne__, __le__, __lt__) the setting + # here is a no-op, so can be skipped. + mask = self._codes == -1 + ret[mask] = fill_value + return ret + else: + return ops.invalid_comparison(self, other, op) + else: + # allow categorical vs object dtype array comparisons for equality + # these are only positional comparisons + if opname not in ["__eq__", "__ne__"]: + raise TypeError( + f"Cannot compare a Categorical for op {opname} with " + f"type {type(other)}.\nIf you want to compare values, " + "use 'np.asarray(cat) other'." + ) + + if isinstance(other, ExtensionArray) and needs_i8_conversion(other.dtype): + # We would return NotImplemented here, but that messes up + # ExtensionIndex's wrapped methods + return op(other, self) + return getattr(np.array(self), opname)(np.array(other)) + + func.__name__ = opname + + return func + + +def contains(cat, key, container) -> bool: + """ + Helper for membership check for ``key`` in ``cat``. + + This is a helper method for :method:`__contains__` + and :class:`CategoricalIndex.__contains__`. + + Returns True if ``key`` is in ``cat.categories`` and the + location of ``key`` in ``categories`` is in ``container``. + + Parameters + ---------- + cat : :class:`Categorical`or :class:`categoricalIndex` + key : a hashable object + The key to check membership for. + container : Container (e.g. list-like or mapping) + The container to check for membership in. + + Returns + ------- + is_in : bool + True if ``key`` is in ``self.categories`` and location of + ``key`` in ``categories`` is in ``container``, else False. + + Notes + ----- + This method does not check for NaN values. Do that separately + before calling this method. + """ + hash(key) + + # get location of key in categories. + # If a KeyError, the key isn't in categories, so logically + # can't be in container either. + try: + loc = cat.categories.get_loc(key) + except (KeyError, TypeError): + return False + + # loc is the location of key in categories, but also the *value* + # for key in container. So, `key` may be in categories, + # but still not in `container`. Example ('b' in categories, + # but not in values): + # 'b' in Categorical(['a'], categories=['a', 'b']) # False + if is_scalar(loc): + return loc in container + else: + # if categories is an IntervalIndex, loc is an array. + return any(loc_ in container for loc_ in loc) + + +class Categorical(NDArrayBackedExtensionArray, PandasObject, ObjectStringArrayMixin): + """ + Represent a categorical variable in classic R / S-plus fashion. + + `Categoricals` can only take on a limited, and usually fixed, number + of possible values (`categories`). In contrast to statistical categorical + variables, a `Categorical` might have an order, but numerical operations + (additions, divisions, ...) are not possible. + + All values of the `Categorical` are either in `categories` or `np.nan`. + Assigning values outside of `categories` will raise a `ValueError`. Order + is defined by the order of the `categories`, not lexical order of the + values. + + Parameters + ---------- + values : list-like + The values of the categorical. If categories are given, values not in + categories will be replaced with NaN. + categories : Index-like (unique), optional + The unique categories for this categorical. If not given, the + categories are assumed to be the unique values of `values` (sorted, if + possible, otherwise in the order in which they appear). + ordered : bool, default False + Whether or not this categorical is treated as a ordered categorical. + If True, the resulting categorical will be ordered. + An ordered categorical respects, when sorted, the order of its + `categories` attribute (which in turn is the `categories` argument, if + provided). + dtype : CategoricalDtype + An instance of ``CategoricalDtype`` to use for this categorical. + + Attributes + ---------- + categories : Index + The categories of this categorical. + codes : ndarray + The codes (integer positions, which point to the categories) of this + categorical, read only. + ordered : bool + Whether or not this Categorical is ordered. + dtype : CategoricalDtype + The instance of ``CategoricalDtype`` storing the ``categories`` + and ``ordered``. + + Methods + ------- + from_codes + __array__ + + Raises + ------ + ValueError + If the categories do not validate. + TypeError + If an explicit ``ordered=True`` is given but no `categories` and the + `values` are not sortable. + + See Also + -------- + CategoricalDtype : Type for categorical data. + CategoricalIndex : An Index with an underlying ``Categorical``. + + Notes + ----- + See the `user guide + `__ + for more. + + Examples + -------- + >>> pd.Categorical([1, 2, 3, 1, 2, 3]) + [1, 2, 3, 1, 2, 3] + Categories (3, int64): [1, 2, 3] + + >>> pd.Categorical(['a', 'b', 'c', 'a', 'b', 'c']) + ['a', 'b', 'c', 'a', 'b', 'c'] + Categories (3, object): ['a', 'b', 'c'] + + Missing values are not included as a category. + + >>> c = pd.Categorical([1, 2, 3, 1, 2, 3, np.nan]) + >>> c + [1, 2, 3, 1, 2, 3, NaN] + Categories (3, int64): [1, 2, 3] + + However, their presence is indicated in the `codes` attribute + by code `-1`. + + >>> c.codes + array([ 0, 1, 2, 0, 1, 2, -1], dtype=int8) + + Ordered `Categoricals` can be sorted according to the custom order + of the categories and can have a min and max value. + + >>> c = pd.Categorical(['a', 'b', 'c', 'a', 'b', 'c'], ordered=True, + ... categories=['c', 'b', 'a']) + >>> c + ['a', 'b', 'c', 'a', 'b', 'c'] + Categories (3, object): ['c' < 'b' < 'a'] + >>> c.min() + 'c' + """ + + # For comparisons, so that numpy uses our implementation if the compare + # ops, which raise + __array_priority__ = 1000 + # tolist is not actually deprecated, just suppressed in the __dir__ + _hidden_attrs = PandasObject._hidden_attrs | frozenset(["tolist"]) + _typ = "categorical" + + _dtype: CategoricalDtype + + @classmethod + # error: Argument 2 of "_simple_new" is incompatible with supertype + # "NDArrayBacked"; supertype defines the argument type as + # "Union[dtype[Any], ExtensionDtype]" + def _simple_new( # type: ignore[override] + cls, codes: np.ndarray, dtype: CategoricalDtype + ) -> Self: + # NB: This is not _quite_ as simple as the "usual" _simple_new + codes = coerce_indexer_dtype(codes, dtype.categories) + dtype = CategoricalDtype(ordered=False).update_dtype(dtype) + return super()._simple_new(codes, dtype) + + def __init__( + self, + values, + categories=None, + ordered=None, + dtype: Dtype | None = None, + fastpath: bool | lib.NoDefault = lib.no_default, + copy: bool = True, + ) -> None: + if fastpath is not lib.no_default: + # GH#20110 + warnings.warn( + "The 'fastpath' keyword in Categorical is deprecated and will " + "be removed in a future version. Use Categorical.from_codes instead", + DeprecationWarning, + stacklevel=find_stack_level(), + ) + else: + fastpath = False + + dtype = CategoricalDtype._from_values_or_dtype( + values, categories, ordered, dtype + ) + # At this point, dtype is always a CategoricalDtype, but + # we may have dtype.categories be None, and we need to + # infer categories in a factorization step further below + + if fastpath: + codes = coerce_indexer_dtype(values, dtype.categories) + dtype = CategoricalDtype(ordered=False).update_dtype(dtype) + super().__init__(codes, dtype) + return + + if not is_list_like(values): + # GH#38433 + raise TypeError("Categorical input must be list-like") + + # null_mask indicates missing values we want to exclude from inference. + # This means: only missing values in list-likes (not arrays/ndframes). + null_mask = np.array(False) + + # sanitize input + vdtype = getattr(values, "dtype", None) + if isinstance(vdtype, CategoricalDtype): + if dtype.categories is None: + dtype = CategoricalDtype(values.categories, dtype.ordered) + elif not isinstance(values, (ABCIndex, ABCSeries, ExtensionArray)): + values = com.convert_to_list_like(values) + if isinstance(values, list) and len(values) == 0: + # By convention, empty lists result in object dtype: + values = np.array([], dtype=object) + elif isinstance(values, np.ndarray): + if values.ndim > 1: + # preempt sanitize_array from raising ValueError + raise NotImplementedError( + "> 1 ndim Categorical are not supported at this time" + ) + values = sanitize_array(values, None) + else: + # i.e. must be a list + arr = sanitize_array(values, None) + null_mask = isna(arr) + if null_mask.any(): + # We remove null values here, then below will re-insert + # them, grep "full_codes" + arr_list = [values[idx] for idx in np.where(~null_mask)[0]] + + # GH#44900 Do not cast to float if we have only missing values + if arr_list or arr.dtype == "object": + sanitize_dtype = None + else: + sanitize_dtype = arr.dtype + + arr = sanitize_array(arr_list, None, dtype=sanitize_dtype) + values = arr + + if dtype.categories is None: + if isinstance(values.dtype, ArrowDtype) and issubclass( + values.dtype.type, CategoricalDtypeType + ): + arr = values._pa_array.combine_chunks() + categories = arr.dictionary.to_pandas(types_mapper=ArrowDtype) + codes = arr.indices.to_numpy() + dtype = CategoricalDtype(categories, values.dtype.pyarrow_dtype.ordered) + else: + if not isinstance(values, ABCIndex): + # in particular RangeIndex xref test_index_equal_range_categories + values = sanitize_array(values, None) + try: + codes, categories = factorize(values, sort=True) + except TypeError as err: + codes, categories = factorize(values, sort=False) + if dtype.ordered: + # raise, as we don't have a sortable data structure and so + # the user should give us one by specifying categories + raise TypeError( + "'values' is not ordered, please " + "explicitly specify the categories order " + "by passing in a categories argument." + ) from err + + # we're inferring from values + dtype = CategoricalDtype(categories, dtype.ordered) + + elif isinstance(values.dtype, CategoricalDtype): + old_codes = extract_array(values)._codes + codes = recode_for_categories( + old_codes, values.dtype.categories, dtype.categories, copy=copy + ) + + else: + codes = _get_codes_for_values(values, dtype.categories) + + if null_mask.any(): + # Reinsert -1 placeholders for previously removed missing values + full_codes = -np.ones(null_mask.shape, dtype=codes.dtype) + full_codes[~null_mask] = codes + codes = full_codes + + dtype = CategoricalDtype(ordered=False).update_dtype(dtype) + arr = coerce_indexer_dtype(codes, dtype.categories) + super().__init__(arr, dtype) + + @property + def dtype(self) -> CategoricalDtype: + """ + The :class:`~pandas.api.types.CategoricalDtype` for this instance. + + Examples + -------- + >>> cat = pd.Categorical(['a', 'b'], ordered=True) + >>> cat + ['a', 'b'] + Categories (2, object): ['a' < 'b'] + >>> cat.dtype + CategoricalDtype(categories=['a', 'b'], ordered=True, categories_dtype=object) + """ + return self._dtype + + @property + def _internal_fill_value(self) -> int: + # using the specific numpy integer instead of python int to get + # the correct dtype back from _quantile in the all-NA case + dtype = self._ndarray.dtype + return dtype.type(-1) + + @classmethod + def _from_sequence( + cls, scalars, *, dtype: Dtype | None = None, copy: bool = False + ) -> Self: + return cls(scalars, dtype=dtype, copy=copy) + + @classmethod + def _from_scalars(cls, scalars, *, dtype: DtypeObj) -> Self: + if dtype is None: + # The _from_scalars strictness doesn't make much sense in this case. + raise NotImplementedError + + res = cls._from_sequence(scalars, dtype=dtype) + + # if there are any non-category elements in scalars, these will be + # converted to NAs in res. + mask = isna(scalars) + if not (mask == res.isna()).all(): + # Some non-category element in scalars got converted to NA in res. + raise ValueError + return res + + @overload + def astype(self, dtype: npt.DTypeLike, copy: bool = ...) -> np.ndarray: + ... + + @overload + def astype(self, dtype: ExtensionDtype, copy: bool = ...) -> ExtensionArray: + ... + + @overload + def astype(self, dtype: AstypeArg, copy: bool = ...) -> ArrayLike: + ... + + def astype(self, dtype: AstypeArg, copy: bool = True) -> ArrayLike: + """ + Coerce this type to another dtype + + Parameters + ---------- + dtype : numpy dtype or pandas type + copy : bool, default True + By default, astype always returns a newly allocated object. + If copy is set to False and dtype is categorical, the original + object is returned. + """ + dtype = pandas_dtype(dtype) + if self.dtype is dtype: + result = self.copy() if copy else self + + elif isinstance(dtype, CategoricalDtype): + # GH 10696/18593/18630 + dtype = self.dtype.update_dtype(dtype) + self = self.copy() if copy else self + result = self._set_dtype(dtype) + + elif isinstance(dtype, ExtensionDtype): + return super().astype(dtype, copy=copy) + + elif dtype.kind in "iu" and self.isna().any(): + raise ValueError("Cannot convert float NaN to integer") + + elif len(self.codes) == 0 or len(self.categories) == 0: + # For NumPy 1.x compatibility we cannot use copy=None. And + # `copy=False` has the meaning of `copy=None` here: + if not copy: + result = np.asarray(self, dtype=dtype) + else: + result = np.array(self, dtype=dtype) + + else: + # GH8628 (PERF): astype category codes instead of astyping array + new_cats = self.categories._values + + try: + new_cats = new_cats.astype(dtype=dtype, copy=copy) + fill_value = self.categories._na_value + if not is_valid_na_for_dtype(fill_value, dtype): + fill_value = lib.item_from_zerodim( + np.array(self.categories._na_value).astype(dtype) + ) + except ( + TypeError, # downstream error msg for CategoricalIndex is misleading + ValueError, + ): + msg = f"Cannot cast {self.categories.dtype} dtype to {dtype}" + raise ValueError(msg) + + result = take_nd( + new_cats, ensure_platform_int(self._codes), fill_value=fill_value + ) + + return result + + def to_list(self): + """ + Alias for tolist. + """ + # GH#51254 + warnings.warn( + "Categorical.to_list is deprecated and will be removed in a future " + "version. Use obj.tolist() instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.tolist() + + @classmethod + def _from_inferred_categories( + cls, inferred_categories, inferred_codes, dtype, true_values=None + ) -> Self: + """ + Construct a Categorical from inferred values. + + For inferred categories (`dtype` is None) the categories are sorted. + For explicit `dtype`, the `inferred_categories` are cast to the + appropriate type. + + Parameters + ---------- + inferred_categories : Index + inferred_codes : Index + dtype : CategoricalDtype or 'category' + true_values : list, optional + If none are provided, the default ones are + "True", "TRUE", and "true." + + Returns + ------- + Categorical + """ + from pandas import ( + Index, + to_datetime, + to_numeric, + to_timedelta, + ) + + cats = Index(inferred_categories) + known_categories = ( + isinstance(dtype, CategoricalDtype) and dtype.categories is not None + ) + + if known_categories: + # Convert to a specialized type with `dtype` if specified. + if is_any_real_numeric_dtype(dtype.categories.dtype): + cats = to_numeric(inferred_categories, errors="coerce") + elif lib.is_np_dtype(dtype.categories.dtype, "M"): + cats = to_datetime(inferred_categories, errors="coerce") + elif lib.is_np_dtype(dtype.categories.dtype, "m"): + cats = to_timedelta(inferred_categories, errors="coerce") + elif is_bool_dtype(dtype.categories.dtype): + if true_values is None: + true_values = ["True", "TRUE", "true"] + + # error: Incompatible types in assignment (expression has type + # "ndarray", variable has type "Index") + cats = cats.isin(true_values) # type: ignore[assignment] + + if known_categories: + # Recode from observation order to dtype.categories order. + categories = dtype.categories + codes = recode_for_categories(inferred_codes, cats, categories) + elif not cats.is_monotonic_increasing: + # Sort categories and recode for unknown categories. + unsorted = cats.copy() + categories = cats.sort_values() + + codes = recode_for_categories(inferred_codes, unsorted, categories) + dtype = CategoricalDtype(categories, ordered=False) + else: + dtype = CategoricalDtype(cats, ordered=False) + codes = inferred_codes + + return cls._simple_new(codes, dtype=dtype) + + @classmethod + def from_codes( + cls, + codes, + categories=None, + ordered=None, + dtype: Dtype | None = None, + validate: bool = True, + ) -> Self: + """ + Make a Categorical type from codes and categories or dtype. + + This constructor is useful if you already have codes and + categories/dtype and so do not need the (computation intensive) + factorization step, which is usually done on the constructor. + + If your data does not follow this convention, please use the normal + constructor. + + Parameters + ---------- + codes : array-like of int + An integer array, where each integer points to a category in + categories or dtype.categories, or else is -1 for NaN. + categories : index-like, optional + The categories for the categorical. Items need to be unique. + If the categories are not given here, then they must be provided + in `dtype`. + ordered : bool, optional + Whether or not this categorical is treated as an ordered + categorical. If not given here or in `dtype`, the resulting + categorical will be unordered. + dtype : CategoricalDtype or "category", optional + If :class:`CategoricalDtype`, cannot be used together with + `categories` or `ordered`. + validate : bool, default True + If True, validate that the codes are valid for the dtype. + If False, don't validate that the codes are valid. Be careful about skipping + validation, as invalid codes can lead to severe problems, such as segfaults. + + .. versionadded:: 2.1.0 + + Returns + ------- + Categorical + + Examples + -------- + >>> dtype = pd.CategoricalDtype(['a', 'b'], ordered=True) + >>> pd.Categorical.from_codes(codes=[0, 1, 0, 1], dtype=dtype) + ['a', 'b', 'a', 'b'] + Categories (2, object): ['a' < 'b'] + """ + dtype = CategoricalDtype._from_values_or_dtype( + categories=categories, ordered=ordered, dtype=dtype + ) + if dtype.categories is None: + msg = ( + "The categories must be provided in 'categories' or " + "'dtype'. Both were None." + ) + raise ValueError(msg) + + if validate: + # beware: non-valid codes may segfault + codes = cls._validate_codes_for_dtype(codes, dtype=dtype) + + return cls._simple_new(codes, dtype=dtype) + + # ------------------------------------------------------------------ + # Categories/Codes/Ordered + + @property + def categories(self) -> Index: + """ + The categories of this categorical. + + Setting assigns new values to each category (effectively a rename of + each individual category). + + The assigned value has to be a list-like object. All items must be + unique and the number of items in the new categories must be the same + as the number of items in the old categories. + + Raises + ------ + ValueError + If the new categories do not validate as categories or if the + number of new categories is unequal the number of old categories + + See Also + -------- + rename_categories : Rename categories. + reorder_categories : Reorder categories. + add_categories : Add new categories. + remove_categories : Remove the specified categories. + remove_unused_categories : Remove categories which are not used. + set_categories : Set the categories to the specified ones. + + Examples + -------- + For :class:`pandas.Series`: + + >>> ser = pd.Series(['a', 'b', 'c', 'a'], dtype='category') + >>> ser.cat.categories + Index(['a', 'b', 'c'], dtype='object') + + >>> raw_cat = pd.Categorical(['a', 'b', 'c', 'a'], categories=['b', 'c', 'd']) + >>> ser = pd.Series(raw_cat) + >>> ser.cat.categories + Index(['b', 'c', 'd'], dtype='object') + + For :class:`pandas.Categorical`: + + >>> cat = pd.Categorical(['a', 'b'], ordered=True) + >>> cat.categories + Index(['a', 'b'], dtype='object') + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'c', 'b', 'a', 'c', 'b']) + >>> ci.categories + Index(['a', 'b', 'c'], dtype='object') + + >>> ci = pd.CategoricalIndex(['a', 'c'], categories=['c', 'b', 'a']) + >>> ci.categories + Index(['c', 'b', 'a'], dtype='object') + """ + return self.dtype.categories + + @property + def ordered(self) -> Ordered: + """ + Whether the categories have an ordered relationship. + + Examples + -------- + For :class:`pandas.Series`: + + >>> ser = pd.Series(['a', 'b', 'c', 'a'], dtype='category') + >>> ser.cat.ordered + False + + >>> raw_cat = pd.Categorical(['a', 'b', 'c', 'a'], ordered=True) + >>> ser = pd.Series(raw_cat) + >>> ser.cat.ordered + True + + For :class:`pandas.Categorical`: + + >>> cat = pd.Categorical(['a', 'b'], ordered=True) + >>> cat.ordered + True + + >>> cat = pd.Categorical(['a', 'b'], ordered=False) + >>> cat.ordered + False + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b'], ordered=True) + >>> ci.ordered + True + + >>> ci = pd.CategoricalIndex(['a', 'b'], ordered=False) + >>> ci.ordered + False + """ + return self.dtype.ordered + + @property + def codes(self) -> np.ndarray: + """ + The category codes of this categorical index. + + Codes are an array of integers which are the positions of the actual + values in the categories array. + + There is no setter, use the other categorical methods and the normal item + setter to change values in the categorical. + + Returns + ------- + ndarray[int] + A non-writable view of the ``codes`` array. + + Examples + -------- + For :class:`pandas.Categorical`: + + >>> cat = pd.Categorical(['a', 'b'], ordered=True) + >>> cat.codes + array([0, 1], dtype=int8) + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c']) + >>> ci.codes + array([0, 1, 2, 0, 1, 2], dtype=int8) + + >>> ci = pd.CategoricalIndex(['a', 'c'], categories=['c', 'b', 'a']) + >>> ci.codes + array([2, 0], dtype=int8) + """ + v = self._codes.view() + v.flags.writeable = False + return v + + def _set_categories(self, categories, fastpath: bool = False) -> None: + """ + Sets new categories inplace + + Parameters + ---------- + fastpath : bool, default False + Don't perform validation of the categories for uniqueness or nulls + + Examples + -------- + >>> c = pd.Categorical(['a', 'b']) + >>> c + ['a', 'b'] + Categories (2, object): ['a', 'b'] + + >>> c._set_categories(pd.Index(['a', 'c'])) + >>> c + ['a', 'c'] + Categories (2, object): ['a', 'c'] + """ + if fastpath: + new_dtype = CategoricalDtype._from_fastpath(categories, self.ordered) + else: + new_dtype = CategoricalDtype(categories, ordered=self.ordered) + if ( + not fastpath + and self.dtype.categories is not None + and len(new_dtype.categories) != len(self.dtype.categories) + ): + raise ValueError( + "new categories need to have the same number of " + "items as the old categories!" + ) + + super().__init__(self._ndarray, new_dtype) + + def _set_dtype(self, dtype: CategoricalDtype) -> Self: + """ + Internal method for directly updating the CategoricalDtype + + Parameters + ---------- + dtype : CategoricalDtype + + Notes + ----- + We don't do any validation here. It's assumed that the dtype is + a (valid) instance of `CategoricalDtype`. + """ + codes = recode_for_categories(self.codes, self.categories, dtype.categories) + return type(self)._simple_new(codes, dtype=dtype) + + def set_ordered(self, value: bool) -> Self: + """ + Set the ordered attribute to the boolean value. + + Parameters + ---------- + value : bool + Set whether this categorical is ordered (True) or not (False). + """ + new_dtype = CategoricalDtype(self.categories, ordered=value) + cat = self.copy() + NDArrayBacked.__init__(cat, cat._ndarray, new_dtype) + return cat + + def as_ordered(self) -> Self: + """ + Set the Categorical to be ordered. + + Returns + ------- + Categorical + Ordered Categorical. + + Examples + -------- + For :class:`pandas.Series`: + + >>> ser = pd.Series(['a', 'b', 'c', 'a'], dtype='category') + >>> ser.cat.ordered + False + >>> ser = ser.cat.as_ordered() + >>> ser.cat.ordered + True + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'a']) + >>> ci.ordered + False + >>> ci = ci.as_ordered() + >>> ci.ordered + True + """ + return self.set_ordered(True) + + def as_unordered(self) -> Self: + """ + Set the Categorical to be unordered. + + Returns + ------- + Categorical + Unordered Categorical. + + Examples + -------- + For :class:`pandas.Series`: + + >>> raw_cat = pd.Categorical(['a', 'b', 'c', 'a'], ordered=True) + >>> ser = pd.Series(raw_cat) + >>> ser.cat.ordered + True + >>> ser = ser.cat.as_unordered() + >>> ser.cat.ordered + False + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'a'], ordered=True) + >>> ci.ordered + True + >>> ci = ci.as_unordered() + >>> ci.ordered + False + """ + return self.set_ordered(False) + + def set_categories(self, new_categories, ordered=None, rename: bool = False): + """ + Set the categories to the specified new categories. + + ``new_categories`` can include new categories (which will result in + unused categories) or remove old categories (which results in values + set to ``NaN``). If ``rename=True``, the categories will simply be renamed + (less or more items than in old categories will result in values set to + ``NaN`` or in unused categories respectively). + + This method can be used to perform more than one action of adding, + removing, and reordering simultaneously and is therefore faster than + performing the individual steps via the more specialised methods. + + On the other hand this methods does not do checks (e.g., whether the + old categories are included in the new categories on a reorder), which + can result in surprising changes, for example when using special string + dtypes, which does not considers a S1 string equal to a single char + python string. + + Parameters + ---------- + new_categories : Index-like + The categories in new order. + ordered : bool, default False + Whether or not the categorical is treated as a ordered categorical. + If not given, do not change the ordered information. + rename : bool, default False + Whether or not the new_categories should be considered as a rename + of the old categories or as reordered categories. + + Returns + ------- + Categorical with reordered categories. + + Raises + ------ + ValueError + If new_categories does not validate as categories + + See Also + -------- + rename_categories : Rename categories. + reorder_categories : Reorder categories. + add_categories : Add new categories. + remove_categories : Remove the specified categories. + remove_unused_categories : Remove categories which are not used. + + Examples + -------- + For :class:`pandas.Series`: + + >>> raw_cat = pd.Categorical(['a', 'b', 'c', 'A'], + ... categories=['a', 'b', 'c'], ordered=True) + >>> ser = pd.Series(raw_cat) + >>> ser + 0 a + 1 b + 2 c + 3 NaN + dtype: category + Categories (3, object): ['a' < 'b' < 'c'] + + >>> ser.cat.set_categories(['A', 'B', 'C'], rename=True) + 0 A + 1 B + 2 C + 3 NaN + dtype: category + Categories (3, object): ['A' < 'B' < 'C'] + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'A'], + ... categories=['a', 'b', 'c'], ordered=True) + >>> ci + CategoricalIndex(['a', 'b', 'c', nan], categories=['a', 'b', 'c'], + ordered=True, dtype='category') + + >>> ci.set_categories(['A', 'b', 'c']) + CategoricalIndex([nan, 'b', 'c', nan], categories=['A', 'b', 'c'], + ordered=True, dtype='category') + >>> ci.set_categories(['A', 'b', 'c'], rename=True) + CategoricalIndex(['A', 'b', 'c', nan], categories=['A', 'b', 'c'], + ordered=True, dtype='category') + """ + + if ordered is None: + ordered = self.dtype.ordered + new_dtype = CategoricalDtype(new_categories, ordered=ordered) + + cat = self.copy() + if rename: + if cat.dtype.categories is not None and len(new_dtype.categories) < len( + cat.dtype.categories + ): + # remove all _codes which are larger and set to -1/NaN + cat._codes[cat._codes >= len(new_dtype.categories)] = -1 + codes = cat._codes + else: + codes = recode_for_categories( + cat.codes, cat.categories, new_dtype.categories + ) + NDArrayBacked.__init__(cat, codes, new_dtype) + return cat + + def rename_categories(self, new_categories) -> Self: + """ + Rename categories. + + Parameters + ---------- + new_categories : list-like, dict-like or callable + + New categories which will replace old categories. + + * list-like: all items must be unique and the number of items in + the new categories must match the existing number of categories. + + * dict-like: specifies a mapping from + old categories to new. Categories not contained in the mapping + are passed through and extra categories in the mapping are + ignored. + + * callable : a callable that is called on all items in the old + categories and whose return values comprise the new categories. + + Returns + ------- + Categorical + Categorical with renamed categories. + + Raises + ------ + ValueError + If new categories are list-like and do not have the same number of + items than the current categories or do not validate as categories + + See Also + -------- + reorder_categories : Reorder categories. + add_categories : Add new categories. + remove_categories : Remove the specified categories. + remove_unused_categories : Remove categories which are not used. + set_categories : Set the categories to the specified ones. + + Examples + -------- + >>> c = pd.Categorical(['a', 'a', 'b']) + >>> c.rename_categories([0, 1]) + [0, 0, 1] + Categories (2, int64): [0, 1] + + For dict-like ``new_categories``, extra keys are ignored and + categories not in the dictionary are passed through + + >>> c.rename_categories({'a': 'A', 'c': 'C'}) + ['A', 'A', 'b'] + Categories (2, object): ['A', 'b'] + + You may also provide a callable to create the new categories + + >>> c.rename_categories(lambda x: x.upper()) + ['A', 'A', 'B'] + Categories (2, object): ['A', 'B'] + """ + + if is_dict_like(new_categories): + new_categories = [ + new_categories.get(item, item) for item in self.categories + ] + elif callable(new_categories): + new_categories = [new_categories(item) for item in self.categories] + + cat = self.copy() + cat._set_categories(new_categories) + return cat + + def reorder_categories(self, new_categories, ordered=None) -> Self: + """ + Reorder categories as specified in new_categories. + + ``new_categories`` need to include all old categories and no new category + items. + + Parameters + ---------- + new_categories : Index-like + The categories in new order. + ordered : bool, optional + Whether or not the categorical is treated as a ordered categorical. + If not given, do not change the ordered information. + + Returns + ------- + Categorical + Categorical with reordered categories. + + Raises + ------ + ValueError + If the new categories do not contain all old category items or any + new ones + + See Also + -------- + rename_categories : Rename categories. + add_categories : Add new categories. + remove_categories : Remove the specified categories. + remove_unused_categories : Remove categories which are not used. + set_categories : Set the categories to the specified ones. + + Examples + -------- + For :class:`pandas.Series`: + + >>> ser = pd.Series(['a', 'b', 'c', 'a'], dtype='category') + >>> ser = ser.cat.reorder_categories(['c', 'b', 'a'], ordered=True) + >>> ser + 0 a + 1 b + 2 c + 3 a + dtype: category + Categories (3, object): ['c' < 'b' < 'a'] + + >>> ser.sort_values() + 2 c + 1 b + 0 a + 3 a + dtype: category + Categories (3, object): ['c' < 'b' < 'a'] + + For :class:`pandas.CategoricalIndex`: + + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'a']) + >>> ci + CategoricalIndex(['a', 'b', 'c', 'a'], categories=['a', 'b', 'c'], + ordered=False, dtype='category') + >>> ci.reorder_categories(['c', 'b', 'a'], ordered=True) + CategoricalIndex(['a', 'b', 'c', 'a'], categories=['c', 'b', 'a'], + ordered=True, dtype='category') + """ + if ( + len(self.categories) != len(new_categories) + or not self.categories.difference(new_categories).empty + ): + raise ValueError( + "items in new_categories are not the same as in old categories" + ) + return self.set_categories(new_categories, ordered=ordered) + + def add_categories(self, new_categories) -> Self: + """ + Add new categories. + + `new_categories` will be included at the last/highest place in the + categories and will be unused directly after this call. + + Parameters + ---------- + new_categories : category or list-like of category + The new categories to be included. + + Returns + ------- + Categorical + Categorical with new categories added. + + Raises + ------ + ValueError + If the new categories include old categories or do not validate as + categories + + See Also + -------- + rename_categories : Rename categories. + reorder_categories : Reorder categories. + remove_categories : Remove the specified categories. + remove_unused_categories : Remove categories which are not used. + set_categories : Set the categories to the specified ones. + + Examples + -------- + >>> c = pd.Categorical(['c', 'b', 'c']) + >>> c + ['c', 'b', 'c'] + Categories (2, object): ['b', 'c'] + + >>> c.add_categories(['d', 'a']) + ['c', 'b', 'c'] + Categories (4, object): ['b', 'c', 'd', 'a'] + """ + + if not is_list_like(new_categories): + new_categories = [new_categories] + already_included = set(new_categories) & set(self.dtype.categories) + if len(already_included) != 0: + raise ValueError( + f"new categories must not include old categories: {already_included}" + ) + + if hasattr(new_categories, "dtype"): + from pandas import Series + + dtype = find_common_type( + [self.dtype.categories.dtype, new_categories.dtype] + ) + new_categories = Series( + list(self.dtype.categories) + list(new_categories), dtype=dtype + ) + else: + new_categories = list(self.dtype.categories) + list(new_categories) + + new_dtype = CategoricalDtype(new_categories, self.ordered) + cat = self.copy() + codes = coerce_indexer_dtype(cat._ndarray, new_dtype.categories) + NDArrayBacked.__init__(cat, codes, new_dtype) + return cat + + def remove_categories(self, removals) -> Self: + """ + Remove the specified categories. + + `removals` must be included in the old categories. Values which were in + the removed categories will be set to NaN + + Parameters + ---------- + removals : category or list of categories + The categories which should be removed. + + Returns + ------- + Categorical + Categorical with removed categories. + + Raises + ------ + ValueError + If the removals are not contained in the categories + + See Also + -------- + rename_categories : Rename categories. + reorder_categories : Reorder categories. + add_categories : Add new categories. + remove_unused_categories : Remove categories which are not used. + set_categories : Set the categories to the specified ones. + + Examples + -------- + >>> c = pd.Categorical(['a', 'c', 'b', 'c', 'd']) + >>> c + ['a', 'c', 'b', 'c', 'd'] + Categories (4, object): ['a', 'b', 'c', 'd'] + + >>> c.remove_categories(['d', 'a']) + [NaN, 'c', 'b', 'c', NaN] + Categories (2, object): ['b', 'c'] + """ + from pandas import Index + + if not is_list_like(removals): + removals = [removals] + + removals = Index(removals).unique().dropna() + new_categories = ( + self.dtype.categories.difference(removals, sort=False) + if self.dtype.ordered is True + else self.dtype.categories.difference(removals) + ) + not_included = removals.difference(self.dtype.categories) + + if len(not_included) != 0: + not_included = set(not_included) + raise ValueError(f"removals must all be in old categories: {not_included}") + + return self.set_categories(new_categories, ordered=self.ordered, rename=False) + + def remove_unused_categories(self) -> Self: + """ + Remove categories which are not used. + + Returns + ------- + Categorical + Categorical with unused categories dropped. + + See Also + -------- + rename_categories : Rename categories. + reorder_categories : Reorder categories. + add_categories : Add new categories. + remove_categories : Remove the specified categories. + set_categories : Set the categories to the specified ones. + + Examples + -------- + >>> c = pd.Categorical(['a', 'c', 'b', 'c', 'd']) + >>> c + ['a', 'c', 'b', 'c', 'd'] + Categories (4, object): ['a', 'b', 'c', 'd'] + + >>> c[2] = 'a' + >>> c[4] = 'c' + >>> c + ['a', 'c', 'a', 'c', 'c'] + Categories (4, object): ['a', 'b', 'c', 'd'] + + >>> c.remove_unused_categories() + ['a', 'c', 'a', 'c', 'c'] + Categories (2, object): ['a', 'c'] + """ + idx, inv = np.unique(self._codes, return_inverse=True) + + if idx.size != 0 and idx[0] == -1: # na sentinel + idx, inv = idx[1:], inv - 1 + + new_categories = self.dtype.categories.take(idx) + new_dtype = CategoricalDtype._from_fastpath( + new_categories, ordered=self.ordered + ) + new_codes = coerce_indexer_dtype(inv, new_dtype.categories) + + cat = self.copy() + NDArrayBacked.__init__(cat, new_codes, new_dtype) + return cat + + # ------------------------------------------------------------------ + + def map( + self, + mapper, + na_action: Literal["ignore"] | None | lib.NoDefault = lib.no_default, + ): + """ + Map categories using an input mapping or function. + + Maps the categories to new categories. If the mapping correspondence is + one-to-one the result is a :class:`~pandas.Categorical` which has the + same order property as the original, otherwise a :class:`~pandas.Index` + is returned. NaN values are unaffected. + + If a `dict` or :class:`~pandas.Series` is used any unmapped category is + mapped to `NaN`. Note that if this happens an :class:`~pandas.Index` + will be returned. + + Parameters + ---------- + mapper : function, dict, or Series + Mapping correspondence. + na_action : {None, 'ignore'}, default 'ignore' + If 'ignore', propagate NaN values, without passing them to the + mapping correspondence. + + .. deprecated:: 2.1.0 + + The default value of 'ignore' has been deprecated and will be changed to + None in the future. + + Returns + ------- + pandas.Categorical or pandas.Index + Mapped categorical. + + See Also + -------- + CategoricalIndex.map : Apply a mapping correspondence on a + :class:`~pandas.CategoricalIndex`. + Index.map : Apply a mapping correspondence on an + :class:`~pandas.Index`. + Series.map : Apply a mapping correspondence on a + :class:`~pandas.Series`. + Series.apply : Apply more complex functions on a + :class:`~pandas.Series`. + + Examples + -------- + >>> cat = pd.Categorical(['a', 'b', 'c']) + >>> cat + ['a', 'b', 'c'] + Categories (3, object): ['a', 'b', 'c'] + >>> cat.map(lambda x: x.upper(), na_action=None) + ['A', 'B', 'C'] + Categories (3, object): ['A', 'B', 'C'] + >>> cat.map({'a': 'first', 'b': 'second', 'c': 'third'}, na_action=None) + ['first', 'second', 'third'] + Categories (3, object): ['first', 'second', 'third'] + + If the mapping is one-to-one the ordering of the categories is + preserved: + + >>> cat = pd.Categorical(['a', 'b', 'c'], ordered=True) + >>> cat + ['a', 'b', 'c'] + Categories (3, object): ['a' < 'b' < 'c'] + >>> cat.map({'a': 3, 'b': 2, 'c': 1}, na_action=None) + [3, 2, 1] + Categories (3, int64): [3 < 2 < 1] + + If the mapping is not one-to-one an :class:`~pandas.Index` is returned: + + >>> cat.map({'a': 'first', 'b': 'second', 'c': 'first'}, na_action=None) + Index(['first', 'second', 'first'], dtype='object') + + If a `dict` is used, all unmapped categories are mapped to `NaN` and + the result is an :class:`~pandas.Index`: + + >>> cat.map({'a': 'first', 'b': 'second'}, na_action=None) + Index(['first', 'second', nan], dtype='object') + """ + if na_action is lib.no_default: + warnings.warn( + "The default value of 'ignore' for the `na_action` parameter in " + "pandas.Categorical.map is deprecated and will be " + "changed to 'None' in a future version. Please set na_action to the " + "desired value to avoid seeing this warning", + FutureWarning, + stacklevel=find_stack_level(), + ) + na_action = "ignore" + + assert callable(mapper) or is_dict_like(mapper) + + new_categories = self.categories.map(mapper) + + has_nans = np.any(self._codes == -1) + + na_val = np.nan + if na_action is None and has_nans: + na_val = mapper(np.nan) if callable(mapper) else mapper.get(np.nan, np.nan) + + if new_categories.is_unique and not new_categories.hasnans and na_val is np.nan: + new_dtype = CategoricalDtype(new_categories, ordered=self.ordered) + return self.from_codes(self._codes.copy(), dtype=new_dtype, validate=False) + + if has_nans: + new_categories = new_categories.insert(len(new_categories), na_val) + + return np.take(new_categories, self._codes) + + __eq__ = _cat_compare_op(operator.eq) + __ne__ = _cat_compare_op(operator.ne) + __lt__ = _cat_compare_op(operator.lt) + __gt__ = _cat_compare_op(operator.gt) + __le__ = _cat_compare_op(operator.le) + __ge__ = _cat_compare_op(operator.ge) + + # ------------------------------------------------------------- + # Validators; ideally these can be de-duplicated + + def _validate_setitem_value(self, value): + if not is_hashable(value): + # wrap scalars and hashable-listlikes in list + return self._validate_listlike(value) + else: + return self._validate_scalar(value) + + def _validate_scalar(self, fill_value): + """ + Convert a user-facing fill_value to a representation to use with our + underlying ndarray, raising TypeError if this is not possible. + + Parameters + ---------- + fill_value : object + + Returns + ------- + fill_value : int + + Raises + ------ + TypeError + """ + + if is_valid_na_for_dtype(fill_value, self.categories.dtype): + fill_value = -1 + elif fill_value in self.categories: + fill_value = self._unbox_scalar(fill_value) + else: + raise TypeError( + "Cannot setitem on a Categorical with a new " + f"category ({fill_value}), set the categories first" + ) from None + return fill_value + + @classmethod + def _validate_codes_for_dtype(cls, codes, *, dtype: CategoricalDtype) -> np.ndarray: + if isinstance(codes, ExtensionArray) and is_integer_dtype(codes.dtype): + # Avoid the implicit conversion of Int to object + if isna(codes).any(): + raise ValueError("codes cannot contain NA values") + codes = codes.to_numpy(dtype=np.int64) + else: + codes = np.asarray(codes) + if len(codes) and codes.dtype.kind not in "iu": + raise ValueError("codes need to be array-like integers") + + if len(codes) and (codes.max() >= len(dtype.categories) or codes.min() < -1): + raise ValueError("codes need to be between -1 and len(categories)-1") + return codes + + # ------------------------------------------------------------- + + @ravel_compat + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + """ + The numpy array interface. + + Users should not call this directly. Rather, it is invoked by + :func:`numpy.array` and :func:`numpy.asarray`. + + Parameters + ---------- + dtype : np.dtype or None + Specifies the the dtype for the array. + + copy : bool or None, optional + See :func:`numpy.asarray`. + + Returns + ------- + numpy.array + A numpy array of either the specified dtype or, + if dtype==None (default), the same dtype as + categorical.categories.dtype. + + Examples + -------- + + >>> cat = pd.Categorical(['a', 'b'], ordered=True) + + The following calls ``cat.__array__`` + + >>> np.asarray(cat) + array(['a', 'b'], dtype=object) + """ + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + ret = take_nd(self.categories._values, self._codes) + # When we're a Categorical[ExtensionArray], like Interval, + # we need to ensure __array__ gets all the way to an + # ndarray. + + # `take_nd` should already make a copy, so don't force again. + return np.asarray(ret, dtype=dtype) + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + # for binary ops, use our custom dunder methods + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + # e.g. test_numpy_ufuncs_out + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + if method == "reduce": + # e.g. TestCategoricalAnalytics::test_min_max_ordered + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + # for all other cases, raise for now (similarly as what happens in + # Series.__array_prepare__) + raise TypeError( + f"Object with dtype {self.dtype} cannot perform " + f"the numpy op {ufunc.__name__}" + ) + + def __setstate__(self, state) -> None: + """Necessary for making this object picklable""" + if not isinstance(state, dict): + return super().__setstate__(state) + + if "_dtype" not in state: + state["_dtype"] = CategoricalDtype(state["_categories"], state["_ordered"]) + + if "_codes" in state and "_ndarray" not in state: + # backward compat, changed what is property vs attribute + state["_ndarray"] = state.pop("_codes") + + super().__setstate__(state) + + @property + def nbytes(self) -> int: + return self._codes.nbytes + self.dtype.categories.values.nbytes + + def memory_usage(self, deep: bool = False) -> int: + """ + Memory usage of my values + + Parameters + ---------- + deep : bool + Introspect the data deeply, interrogate + `object` dtypes for system-level memory consumption + + Returns + ------- + bytes used + + Notes + ----- + Memory usage does not include memory consumed by elements that + are not components of the array if deep=False + + See Also + -------- + numpy.ndarray.nbytes + """ + return self._codes.nbytes + self.dtype.categories.memory_usage(deep=deep) + + def isna(self) -> npt.NDArray[np.bool_]: + """ + Detect missing values + + Missing values (-1 in .codes) are detected. + + Returns + ------- + np.ndarray[bool] of whether my values are null + + See Also + -------- + isna : Top-level isna. + isnull : Alias of isna. + Categorical.notna : Boolean inverse of Categorical.isna. + + """ + return self._codes == -1 + + isnull = isna + + def notna(self) -> npt.NDArray[np.bool_]: + """ + Inverse of isna + + Both missing values (-1 in .codes) and NA as a category are detected as + null. + + Returns + ------- + np.ndarray[bool] of whether my values are not null + + See Also + -------- + notna : Top-level notna. + notnull : Alias of notna. + Categorical.isna : Boolean inverse of Categorical.notna. + + """ + return ~self.isna() + + notnull = notna + + def value_counts(self, dropna: bool = True) -> Series: + """ + Return a Series containing counts of each category. + + Every category will have an entry, even those with a count of 0. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of NaN. + + Returns + ------- + counts : Series + + See Also + -------- + Series.value_counts + """ + from pandas import ( + CategoricalIndex, + Series, + ) + + code, cat = self._codes, self.categories + ncat, mask = (len(cat), code >= 0) + ix, clean = np.arange(ncat), mask.all() + + if dropna or clean: + obs = code if clean else code[mask] + count = np.bincount(obs, minlength=ncat or 0) + else: + count = np.bincount(np.where(mask, code, ncat)) + ix = np.append(ix, -1) + + ix = coerce_indexer_dtype(ix, self.dtype.categories) + ix = self._from_backing_data(ix) + + return Series( + count, index=CategoricalIndex(ix), dtype="int64", name="count", copy=False + ) + + # error: Argument 2 of "_empty" is incompatible with supertype + # "NDArrayBackedExtensionArray"; supertype defines the argument type as + # "ExtensionDtype" + @classmethod + def _empty( # type: ignore[override] + cls, shape: Shape, dtype: CategoricalDtype + ) -> Self: + """ + Analogous to np.empty(shape, dtype=dtype) + + Parameters + ---------- + shape : tuple[int] + dtype : CategoricalDtype + """ + arr = cls._from_sequence([], dtype=dtype) + + # We have to use np.zeros instead of np.empty otherwise the resulting + # ndarray may contain codes not supported by this dtype, in which + # case repr(result) could segfault. + backing = np.zeros(shape, dtype=arr._ndarray.dtype) + + return arr._from_backing_data(backing) + + def _internal_get_values(self) -> ArrayLike: + """ + Return the values. + + For internal compatibility with pandas formatting. + + Returns + ------- + np.ndarray or ExtensionArray + A numpy array or ExtensionArray of the same dtype as + categorical.categories.dtype. + """ + # if we are a datetime and period index, return Index to keep metadata + if needs_i8_conversion(self.categories.dtype): + return self.categories.take(self._codes, fill_value=NaT)._values + elif is_integer_dtype(self.categories.dtype) and -1 in self._codes: + return ( + self.categories.astype("object") + .take(self._codes, fill_value=np.nan) + ._values + ) + return np.array(self) + + def check_for_ordered(self, op) -> None: + """assert that we are ordered""" + if not self.ordered: + raise TypeError( + f"Categorical is not ordered for operation {op}\n" + "you can use .as_ordered() to change the " + "Categorical to an ordered one\n" + ) + + def argsort( + self, *, ascending: bool = True, kind: SortKind = "quicksort", **kwargs + ): + """ + Return the indices that would sort the Categorical. + + Missing values are sorted at the end. + + Parameters + ---------- + ascending : bool, default True + Whether the indices should result in an ascending + or descending sort. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, optional + Sorting algorithm. + **kwargs: + passed through to :func:`numpy.argsort`. + + Returns + ------- + np.ndarray[np.intp] + + See Also + -------- + numpy.ndarray.argsort + + Notes + ----- + While an ordering is applied to the category values, arg-sorting + in this context refers more to organizing and grouping together + based on matching category values. Thus, this function can be + called on an unordered Categorical instance unlike the functions + 'Categorical.min' and 'Categorical.max'. + + Examples + -------- + >>> pd.Categorical(['b', 'b', 'a', 'c']).argsort() + array([2, 0, 1, 3]) + + >>> cat = pd.Categorical(['b', 'b', 'a', 'c'], + ... categories=['c', 'b', 'a'], + ... ordered=True) + >>> cat.argsort() + array([3, 0, 1, 2]) + + Missing values are placed at the end + + >>> cat = pd.Categorical([2, None, 1]) + >>> cat.argsort() + array([2, 0, 1]) + """ + return super().argsort(ascending=ascending, kind=kind, **kwargs) + + @overload + def sort_values( + self, + *, + inplace: Literal[False] = ..., + ascending: bool = ..., + na_position: str = ..., + ) -> Self: + ... + + @overload + def sort_values( + self, *, inplace: Literal[True], ascending: bool = ..., na_position: str = ... + ) -> None: + ... + + def sort_values( + self, + *, + inplace: bool = False, + ascending: bool = True, + na_position: str = "last", + ) -> Self | None: + """ + Sort the Categorical by category value returning a new + Categorical by default. + + While an ordering is applied to the category values, sorting in this + context refers more to organizing and grouping together based on + matching category values. Thus, this function can be called on an + unordered Categorical instance unlike the functions 'Categorical.min' + and 'Categorical.max'. + + Parameters + ---------- + inplace : bool, default False + Do operation in place. + ascending : bool, default True + Order ascending. Passing False orders descending. The + ordering parameter provides the method by which the + category values are organized. + na_position : {'first', 'last'} (optional, default='last') + 'first' puts NaNs at the beginning + 'last' puts NaNs at the end + + Returns + ------- + Categorical or None + + See Also + -------- + Categorical.sort + Series.sort_values + + Examples + -------- + >>> c = pd.Categorical([1, 2, 2, 1, 5]) + >>> c + [1, 2, 2, 1, 5] + Categories (3, int64): [1, 2, 5] + >>> c.sort_values() + [1, 1, 2, 2, 5] + Categories (3, int64): [1, 2, 5] + >>> c.sort_values(ascending=False) + [5, 2, 2, 1, 1] + Categories (3, int64): [1, 2, 5] + + >>> c = pd.Categorical([1, 2, 2, 1, 5]) + + 'sort_values' behaviour with NaNs. Note that 'na_position' + is independent of the 'ascending' parameter: + + >>> c = pd.Categorical([np.nan, 2, 2, np.nan, 5]) + >>> c + [NaN, 2, 2, NaN, 5] + Categories (2, int64): [2, 5] + >>> c.sort_values() + [2, 2, 5, NaN, NaN] + Categories (2, int64): [2, 5] + >>> c.sort_values(ascending=False) + [5, 2, 2, NaN, NaN] + Categories (2, int64): [2, 5] + >>> c.sort_values(na_position='first') + [NaN, NaN, 2, 2, 5] + Categories (2, int64): [2, 5] + >>> c.sort_values(ascending=False, na_position='first') + [NaN, NaN, 5, 2, 2] + Categories (2, int64): [2, 5] + """ + inplace = validate_bool_kwarg(inplace, "inplace") + if na_position not in ["last", "first"]: + raise ValueError(f"invalid na_position: {repr(na_position)}") + + sorted_idx = nargsort(self, ascending=ascending, na_position=na_position) + + if not inplace: + codes = self._codes[sorted_idx] + return self._from_backing_data(codes) + self._codes[:] = self._codes[sorted_idx] + return None + + def _rank( + self, + *, + axis: AxisInt = 0, + method: str = "average", + na_option: str = "keep", + ascending: bool = True, + pct: bool = False, + ): + """ + See Series.rank.__doc__. + """ + if axis != 0: + raise NotImplementedError + vff = self._values_for_rank() + return algorithms.rank( + vff, + axis=axis, + method=method, + na_option=na_option, + ascending=ascending, + pct=pct, + ) + + def _values_for_rank(self) -> np.ndarray: + """ + For correctly ranking ordered categorical data. See GH#15420 + + Ordered categorical data should be ranked on the basis of + codes with -1 translated to NaN. + + Returns + ------- + numpy.array + + """ + from pandas import Series + + if self.ordered: + values = self.codes + mask = values == -1 + if mask.any(): + values = values.astype("float64") + values[mask] = np.nan + elif is_any_real_numeric_dtype(self.categories.dtype): + values = np.array(self) + else: + # reorder the categories (so rank can use the float codes) + # instead of passing an object array to rank + values = np.array( + self.rename_categories( + Series(self.categories, copy=False).rank().values + ) + ) + return values + + def _hash_pandas_object( + self, *, encoding: str, hash_key: str, categorize: bool + ) -> npt.NDArray[np.uint64]: + """ + Hash a Categorical by hashing its categories, and then mapping the codes + to the hashes. + + Parameters + ---------- + encoding : str + hash_key : str + categorize : bool + Ignored for Categorical. + + Returns + ------- + np.ndarray[uint64] + """ + # Note we ignore categorize, as we are already Categorical. + from pandas.core.util.hashing import hash_array + + # Convert ExtensionArrays to ndarrays + values = np.asarray(self.categories._values) + hashed = hash_array(values, encoding, hash_key, categorize=False) + + # we have uint64, as we don't directly support missing values + # we don't want to use take_nd which will coerce to float + # instead, directly construct the result with a + # max(np.uint64) as the missing value indicator + # + # TODO: GH#15362 + + mask = self.isna() + if len(hashed): + result = hashed.take(self._codes) + else: + result = np.zeros(len(mask), dtype="uint64") + + if mask.any(): + result[mask] = lib.u8max + + return result + + # ------------------------------------------------------------------ + # NDArrayBackedExtensionArray compat + + @property + def _codes(self) -> np.ndarray: + return self._ndarray + + def _box_func(self, i: int): + if i == -1: + return np.nan + return self.categories[i] + + def _unbox_scalar(self, key) -> int: + # searchsorted is very performance sensitive. By converting codes + # to same dtype as self.codes, we get much faster performance. + code = self.categories.get_loc(key) + code = self._ndarray.dtype.type(code) + return code + + # ------------------------------------------------------------------ + + def __iter__(self) -> Iterator: + """ + Returns an Iterator over the values of this Categorical. + """ + if self.ndim == 1: + return iter(self._internal_get_values().tolist()) + else: + return (self[n] for n in range(len(self))) + + def __contains__(self, key) -> bool: + """ + Returns True if `key` is in this Categorical. + """ + # if key is a NaN, check if any NaN is in self. + if is_valid_na_for_dtype(key, self.categories.dtype): + return bool(self.isna().any()) + + return contains(self, key, container=self._codes) + + # ------------------------------------------------------------------ + # Rendering Methods + + def _formatter(self, boxed: bool = False): + # Returning None here will cause format_array to do inference. + return None + + def _repr_categories(self) -> list[str]: + """ + return the base repr for the categories + """ + max_categories = ( + 10 + if get_option("display.max_categories") == 0 + else get_option("display.max_categories") + ) + from pandas.io.formats import format as fmt + + format_array = partial( + fmt.format_array, formatter=None, quoting=QUOTE_NONNUMERIC + ) + if len(self.categories) > max_categories: + num = max_categories // 2 + head = format_array(self.categories[:num]._values) + tail = format_array(self.categories[-num:]._values) + category_strs = head + ["..."] + tail + else: + category_strs = format_array(self.categories._values) + + # Strip all leading spaces, which format_array adds for columns... + category_strs = [x.strip() for x in category_strs] + return category_strs + + def _get_repr_footer(self) -> str: + """ + Returns a string representation of the footer. + """ + category_strs = self._repr_categories() + dtype = str(self.categories.dtype) + levheader = f"Categories ({len(self.categories)}, {dtype}): " + width, _ = get_terminal_size() + max_width = get_option("display.width") or width + if console.in_ipython_frontend(): + # 0 = no breaks + max_width = 0 + levstring = "" + start = True + cur_col_len = len(levheader) # header + sep_len, sep = (3, " < ") if self.ordered else (2, ", ") + linesep = f"{sep.rstrip()}\n" # remove whitespace + for val in category_strs: + if max_width != 0 and cur_col_len + sep_len + len(val) > max_width: + levstring += linesep + (" " * (len(levheader) + 1)) + cur_col_len = len(levheader) + 1 # header + a whitespace + elif not start: + levstring += sep + cur_col_len += len(val) + levstring += val + start = False + # replace to simple save space by + return f"{levheader}[{levstring.replace(' < ... < ', ' ... ')}]" + + def _get_values_repr(self) -> str: + from pandas.io.formats import format as fmt + + assert len(self) > 0 + + vals = self._internal_get_values() + fmt_values = fmt.format_array( + vals, + None, + float_format=None, + na_rep="NaN", + quoting=QUOTE_NONNUMERIC, + ) + + fmt_values = [i.strip() for i in fmt_values] + joined = ", ".join(fmt_values) + result = "[" + joined + "]" + return result + + def __repr__(self) -> str: + """ + String representation. + """ + footer = self._get_repr_footer() + length = len(self) + max_len = 10 + if length > max_len: + # In long cases we do not display all entries, so we add Length + # information to the __repr__. + num = max_len // 2 + head = self[:num]._get_values_repr() + tail = self[-(max_len - num) :]._get_values_repr() + body = f"{head[:-1]}, ..., {tail[1:]}" + length_info = f"Length: {len(self)}" + result = f"{body}\n{length_info}\n{footer}" + elif length > 0: + body = self._get_values_repr() + result = f"{body}\n{footer}" + else: + # In the empty case we use a comma instead of newline to get + # a more compact __repr__ + body = "[]" + result = f"{body}, {footer}" + + return result + + # ------------------------------------------------------------------ + + def _validate_listlike(self, value): + # NB: here we assume scalar-like tuples have already been excluded + value = extract_array(value, extract_numpy=True) + + # require identical categories set + if isinstance(value, Categorical): + if self.dtype != value.dtype: + raise TypeError( + "Cannot set a Categorical with another, " + "without identical categories" + ) + # dtype equality implies categories_match_up_to_permutation + value = self._encode_with_my_categories(value) + return value._codes + + from pandas import Index + + # tupleize_cols=False for e.g. test_fillna_iterable_category GH#41914 + to_add = Index._with_infer(value, tupleize_cols=False).difference( + self.categories + ) + + # no assignments of values not in categories, but it's always ok to set + # something to np.nan + if len(to_add) and not isna(to_add).all(): + raise TypeError( + "Cannot setitem on a Categorical with a new " + "category, set the categories first" + ) + + codes = self.categories.get_indexer(value) + return codes.astype(self._ndarray.dtype, copy=False) + + def _reverse_indexer(self) -> dict[Hashable, npt.NDArray[np.intp]]: + """ + Compute the inverse of a categorical, returning + a dict of categories -> indexers. + + *This is an internal function* + + Returns + ------- + Dict[Hashable, np.ndarray[np.intp]] + dict of categories -> indexers + + Examples + -------- + >>> c = pd.Categorical(list('aabca')) + >>> c + ['a', 'a', 'b', 'c', 'a'] + Categories (3, object): ['a', 'b', 'c'] + >>> c.categories + Index(['a', 'b', 'c'], dtype='object') + >>> c.codes + array([0, 0, 1, 2, 0], dtype=int8) + >>> c._reverse_indexer() + {'a': array([0, 1, 4]), 'b': array([2]), 'c': array([3])} + + """ + categories = self.categories + r, counts = libalgos.groupsort_indexer( + ensure_platform_int(self.codes), categories.size + ) + counts = ensure_int64(counts).cumsum() + _result = (r[start:end] for start, end in zip(counts, counts[1:])) + return dict(zip(categories, _result)) + + # ------------------------------------------------------------------ + # Reductions + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + result = super()._reduce(name, skipna=skipna, keepdims=keepdims, **kwargs) + if name in ["argmax", "argmin"]: + # don't wrap in Categorical! + return result + if keepdims: + return type(self)(result, dtype=self.dtype) + else: + return result + + def min(self, *, skipna: bool = True, **kwargs): + """ + The minimum value of the object. + + Only ordered `Categoricals` have a minimum! + + Raises + ------ + TypeError + If the `Categorical` is not `ordered`. + + Returns + ------- + min : the minimum of this `Categorical`, NA value if empty + """ + nv.validate_minmax_axis(kwargs.get("axis", 0)) + nv.validate_min((), kwargs) + self.check_for_ordered("min") + + if not len(self._codes): + return self.dtype.na_value + + good = self._codes != -1 + if not good.all(): + if skipna and good.any(): + pointer = self._codes[good].min() + else: + return np.nan + else: + pointer = self._codes.min() + return self._wrap_reduction_result(None, pointer) + + def max(self, *, skipna: bool = True, **kwargs): + """ + The maximum value of the object. + + Only ordered `Categoricals` have a maximum! + + Raises + ------ + TypeError + If the `Categorical` is not `ordered`. + + Returns + ------- + max : the maximum of this `Categorical`, NA if array is empty + """ + nv.validate_minmax_axis(kwargs.get("axis", 0)) + nv.validate_max((), kwargs) + self.check_for_ordered("max") + + if not len(self._codes): + return self.dtype.na_value + + good = self._codes != -1 + if not good.all(): + if skipna and good.any(): + pointer = self._codes[good].max() + else: + return np.nan + else: + pointer = self._codes.max() + return self._wrap_reduction_result(None, pointer) + + def _mode(self, dropna: bool = True) -> Categorical: + codes = self._codes + mask = None + if dropna: + mask = self.isna() + + res_codes = algorithms.mode(codes, mask=mask) + res_codes = cast(np.ndarray, res_codes) + assert res_codes.dtype == codes.dtype + res = self._from_backing_data(res_codes) + return res + + # ------------------------------------------------------------------ + # ExtensionArray Interface + + def unique(self) -> Self: + """ + Return the ``Categorical`` which ``categories`` and ``codes`` are + unique. + + .. versionchanged:: 1.3.0 + + Previously, unused categories were dropped from the new categories. + + Returns + ------- + Categorical + + See Also + -------- + pandas.unique + CategoricalIndex.unique + Series.unique : Return unique values of Series object. + + Examples + -------- + >>> pd.Categorical(list("baabc")).unique() + ['b', 'a', 'c'] + Categories (3, object): ['a', 'b', 'c'] + >>> pd.Categorical(list("baab"), categories=list("abc"), ordered=True).unique() + ['b', 'a'] + Categories (3, object): ['a' < 'b' < 'c'] + """ + # pylint: disable=useless-parent-delegation + return super().unique() + + def equals(self, other: object) -> bool: + """ + Returns True if categorical arrays are equal. + + Parameters + ---------- + other : `Categorical` + + Returns + ------- + bool + """ + if not isinstance(other, Categorical): + return False + elif self._categories_match_up_to_permutation(other): + other = self._encode_with_my_categories(other) + return np.array_equal(self._codes, other._codes) + return False + + @classmethod + def _concat_same_type(cls, to_concat: Sequence[Self], axis: AxisInt = 0) -> Self: + from pandas.core.dtypes.concat import union_categoricals + + first = to_concat[0] + if axis >= first.ndim: + raise ValueError( + f"axis {axis} is out of bounds for array of dimension {first.ndim}" + ) + + if axis == 1: + # Flatten, concatenate then reshape + if not all(x.ndim == 2 for x in to_concat): + raise ValueError + + # pass correctly-shaped to union_categoricals + tc_flat = [] + for obj in to_concat: + tc_flat.extend([obj[:, i] for i in range(obj.shape[1])]) + + res_flat = cls._concat_same_type(tc_flat, axis=0) + + result = res_flat.reshape(len(first), -1, order="F") + return result + + result = union_categoricals(to_concat) + return result + + # ------------------------------------------------------------------ + + def _encode_with_my_categories(self, other: Categorical) -> Categorical: + """ + Re-encode another categorical using this Categorical's categories. + + Notes + ----- + This assumes we have already checked + self._categories_match_up_to_permutation(other). + """ + # Indexing on codes is more efficient if categories are the same, + # so we can apply some optimizations based on the degree of + # dtype-matching. + codes = recode_for_categories( + other.codes, other.categories, self.categories, copy=False + ) + return self._from_backing_data(codes) + + def _categories_match_up_to_permutation(self, other: Categorical) -> bool: + """ + Returns True if categoricals are the same dtype + same categories, and same ordered + + Parameters + ---------- + other : Categorical + + Returns + ------- + bool + """ + return hash(self.dtype) == hash(other.dtype) + + def describe(self) -> DataFrame: + """ + Describes this Categorical + + Returns + ------- + description: `DataFrame` + A dataframe with frequency and counts by category. + """ + counts = self.value_counts(dropna=False) + freqs = counts / counts.sum() + + from pandas import Index + from pandas.core.reshape.concat import concat + + result = concat([counts, freqs], axis=1) + result.columns = Index(["counts", "freqs"]) + result.index.name = "categories" + + return result + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + """ + Check whether `values` are contained in Categorical. + + Return a boolean NumPy Array showing whether each element in + the Categorical matches an element in the passed sequence of + `values` exactly. + + Parameters + ---------- + values : np.ndarray or ExtensionArray + The sequence of values to test. Passing in a single string will + raise a ``TypeError``. Instead, turn a single string into a + list of one element. + + Returns + ------- + np.ndarray[bool] + + Raises + ------ + TypeError + * If `values` is not a set or list-like + + See Also + -------- + pandas.Series.isin : Equivalent method on Series. + + Examples + -------- + >>> s = pd.Categorical(['lama', 'cow', 'lama', 'beetle', 'lama', + ... 'hippo']) + >>> s.isin(['cow', 'lama']) + array([ True, True, True, False, True, False]) + + Passing a single string as ``s.isin('lama')`` will raise an error. Use + a list of one element instead: + + >>> s.isin(['lama']) + array([ True, False, True, False, True, False]) + """ + null_mask = np.asarray(isna(values)) + code_values = self.categories.get_indexer_for(values) + code_values = code_values[null_mask | (code_values >= 0)] + return algorithms.isin(self.codes, code_values) + + def _replace(self, *, to_replace, value, inplace: bool = False): + from pandas import Index + + orig_dtype = self.dtype + + inplace = validate_bool_kwarg(inplace, "inplace") + cat = self if inplace else self.copy() + + mask = isna(np.asarray(value)) + if mask.any(): + removals = np.asarray(to_replace)[mask] + removals = cat.categories[cat.categories.isin(removals)] + new_cat = cat.remove_categories(removals) + NDArrayBacked.__init__(cat, new_cat.codes, new_cat.dtype) + + ser = cat.categories.to_series() + ser = ser.replace(to_replace=to_replace, value=value) + + all_values = Index(ser) + + # GH51016: maintain order of existing categories + idxr = cat.categories.get_indexer_for(all_values) + locs = np.arange(len(ser)) + locs = np.where(idxr == -1, locs, idxr) + locs = locs.argsort() + + new_categories = ser.take(locs) + new_categories = new_categories.drop_duplicates(keep="first") + new_categories = Index(new_categories) + new_codes = recode_for_categories( + cat._codes, all_values, new_categories, copy=False + ) + new_dtype = CategoricalDtype(new_categories, ordered=self.dtype.ordered) + NDArrayBacked.__init__(cat, new_codes, new_dtype) + + if new_dtype != orig_dtype: + warnings.warn( + # GH#55147 + "The behavior of Series.replace (and DataFrame.replace) with " + "CategoricalDtype is deprecated. In a future version, replace " + "will only be used for cases that preserve the categories. " + "To change the categories, use ser.cat.rename_categories " + "instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if not inplace: + return cat + + # ------------------------------------------------------------------------ + # String methods interface + def _str_map( + self, f, na_value=lib.no_default, dtype=np.dtype("object"), convert: bool = True + ): + # Optimization to apply the callable `f` to the categories once + # and rebuild the result by `take`ing from the result with the codes. + # Returns the same type as the object-dtype implementation though. + categories = self.categories + codes = self.codes + if categories.dtype == "string": + result = categories.array._str_map(f, na_value, dtype) # type: ignore[attr-defined] + if ( + categories.dtype.na_value is np.nan # type: ignore[union-attr] + and is_bool_dtype(dtype) + and (na_value is lib.no_default or isna(na_value)) + ): + # NaN propagates as False for functions with boolean return type + na_value = False + else: + from pandas.core.arrays import NumpyExtensionArray + + result = NumpyExtensionArray(categories.to_numpy())._str_map( + f, na_value, dtype + ) + return take_nd(result, codes, fill_value=na_value) + + def _str_get_dummies(self, sep: str = "|"): + # sep may not be in categories. Just bail on this. + from pandas.core.arrays import NumpyExtensionArray + + return NumpyExtensionArray(self.to_numpy(str, na_value="NaN"))._str_get_dummies( + sep + ) + + # ------------------------------------------------------------------------ + # GroupBy Methods + + def _groupby_op( + self, + *, + how: str, + has_dropped_na: bool, + min_count: int, + ngroups: int, + ids: npt.NDArray[np.intp], + **kwargs, + ): + from pandas.core.groupby.ops import WrappedCythonOp + + kind = WrappedCythonOp.get_kind_from_how(how) + op = WrappedCythonOp(how=how, kind=kind, has_dropped_na=has_dropped_na) + + dtype = self.dtype + if how in ["sum", "prod", "cumsum", "cumprod", "skew"]: + raise TypeError(f"{dtype} type does not support {how} operations") + if how in ["min", "max", "rank", "idxmin", "idxmax"] and not dtype.ordered: + # raise TypeError instead of NotImplementedError to ensure we + # don't go down a group-by-group path, since in the empty-groups + # case that would fail to raise + raise TypeError(f"Cannot perform {how} with non-ordered Categorical") + if how not in [ + "rank", + "any", + "all", + "first", + "last", + "min", + "max", + "idxmin", + "idxmax", + ]: + if kind == "transform": + raise TypeError(f"{dtype} type does not support {how} operations") + raise TypeError(f"{dtype} dtype does not support aggregation '{how}'") + + result_mask = None + mask = self.isna() + if how == "rank": + assert self.ordered # checked earlier + npvalues = self._ndarray + elif how in ["first", "last", "min", "max", "idxmin", "idxmax"]: + npvalues = self._ndarray + result_mask = np.zeros(ngroups, dtype=bool) + else: + # any/all + npvalues = self.astype(bool) + + res_values = op._cython_op_ndim_compat( + npvalues, + min_count=min_count, + ngroups=ngroups, + comp_ids=ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + + if how in op.cast_blocklist: + return res_values + elif how in ["first", "last", "min", "max"]: + res_values[result_mask == 1] = -1 + return self._from_backing_data(res_values) + + +# The Series.cat accessor + + +@delegate_names( + delegate=Categorical, accessors=["categories", "ordered"], typ="property" +) +@delegate_names( + delegate=Categorical, + accessors=[ + "rename_categories", + "reorder_categories", + "add_categories", + "remove_categories", + "remove_unused_categories", + "set_categories", + "as_ordered", + "as_unordered", + ], + typ="method", +) +class CategoricalAccessor(PandasDelegate, PandasObject, NoNewAttributesMixin): + """ + Accessor object for categorical properties of the Series values. + + Parameters + ---------- + data : Series or CategoricalIndex + + Examples + -------- + >>> s = pd.Series(list("abbccc")).astype("category") + >>> s + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (3, object): ['a', 'b', 'c'] + + >>> s.cat.categories + Index(['a', 'b', 'c'], dtype='object') + + >>> s.cat.rename_categories(list("cba")) + 0 c + 1 b + 2 b + 3 a + 4 a + 5 a + dtype: category + Categories (3, object): ['c', 'b', 'a'] + + >>> s.cat.reorder_categories(list("cba")) + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (3, object): ['c', 'b', 'a'] + + >>> s.cat.add_categories(["d", "e"]) + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (5, object): ['a', 'b', 'c', 'd', 'e'] + + >>> s.cat.remove_categories(["a", "c"]) + 0 NaN + 1 b + 2 b + 3 NaN + 4 NaN + 5 NaN + dtype: category + Categories (1, object): ['b'] + + >>> s1 = s.cat.add_categories(["d", "e"]) + >>> s1.cat.remove_unused_categories() + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (3, object): ['a', 'b', 'c'] + + >>> s.cat.set_categories(list("abcde")) + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (5, object): ['a', 'b', 'c', 'd', 'e'] + + >>> s.cat.as_ordered() + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (3, object): ['a' < 'b' < 'c'] + + >>> s.cat.as_unordered() + 0 a + 1 b + 2 b + 3 c + 4 c + 5 c + dtype: category + Categories (3, object): ['a', 'b', 'c'] + """ + + def __init__(self, data) -> None: + self._validate(data) + self._parent = data.values + self._index = data.index + self._name = data.name + self._freeze() + + @staticmethod + def _validate(data): + if not isinstance(data.dtype, CategoricalDtype): + raise AttributeError("Can only use .cat accessor with a 'category' dtype") + + def _delegate_property_get(self, name: str): + return getattr(self._parent, name) + + # error: Signature of "_delegate_property_set" incompatible with supertype + # "PandasDelegate" + def _delegate_property_set(self, name: str, new_values): # type: ignore[override] + return setattr(self._parent, name, new_values) + + @property + def codes(self) -> Series: + """ + Return Series of codes as well as the index. + + Examples + -------- + >>> raw_cate = pd.Categorical(["a", "b", "c", "a"], categories=["a", "b"]) + >>> ser = pd.Series(raw_cate) + >>> ser.cat.codes + 0 0 + 1 1 + 2 -1 + 3 0 + dtype: int8 + """ + from pandas import Series + + return Series(self._parent.codes, index=self._index) + + def _delegate_method(self, name: str, *args, **kwargs): + from pandas import Series + + method = getattr(self._parent, name) + res = method(*args, **kwargs) + if res is not None: + return Series(res, index=self._index, name=self._name) + + +# utility routines + + +def _get_codes_for_values( + values: Index | Series | ExtensionArray | np.ndarray, + categories: Index, +) -> np.ndarray: + """ + utility routine to turn values into codes given the specified categories + + If `values` is known to be a Categorical, use recode_for_categories instead. + """ + codes = categories.get_indexer_for(values) + return coerce_indexer_dtype(codes, categories) + + +def recode_for_categories( + codes: np.ndarray, old_categories, new_categories, copy: bool = True +) -> np.ndarray: + """ + Convert a set of codes for to a new set of categories + + Parameters + ---------- + codes : np.ndarray + old_categories, new_categories : Index + copy: bool, default True + Whether to copy if the codes are unchanged. + + Returns + ------- + new_codes : np.ndarray[np.int64] + + Examples + -------- + >>> old_cat = pd.Index(['b', 'a', 'c']) + >>> new_cat = pd.Index(['a', 'b']) + >>> codes = np.array([0, 1, 1, 2]) + >>> recode_for_categories(codes, old_cat, new_cat) + array([ 1, 0, 0, -1], dtype=int8) + """ + if len(old_categories) == 0: + # All null anyway, so just retain the nulls + if copy: + return codes.copy() + return codes + elif new_categories.equals(old_categories): + # Same categories, so no need to actually recode + if copy: + return codes.copy() + return codes + + indexer = coerce_indexer_dtype( + new_categories.get_indexer_for(old_categories), new_categories + ) + new_codes = take_nd(indexer, codes, fill_value=-1) + return new_codes + + +def factorize_from_iterable(values) -> tuple[np.ndarray, Index]: + """ + Factorize an input `values` into `categories` and `codes`. Preserves + categorical dtype in `categories`. + + Parameters + ---------- + values : list-like + + Returns + ------- + codes : ndarray + categories : Index + If `values` has a categorical dtype, then `categories` is + a CategoricalIndex keeping the categories and order of `values`. + """ + from pandas import CategoricalIndex + + if not is_list_like(values): + raise TypeError("Input must be list-like") + + categories: Index + + vdtype = getattr(values, "dtype", None) + if isinstance(vdtype, CategoricalDtype): + values = extract_array(values) + # The Categorical we want to build has the same categories + # as values but its codes are by def [0, ..., len(n_categories) - 1] + cat_codes = np.arange(len(values.categories), dtype=values.codes.dtype) + cat = Categorical.from_codes(cat_codes, dtype=values.dtype, validate=False) + + categories = CategoricalIndex(cat) + codes = values.codes + else: + # The value of ordered is irrelevant since we don't use cat as such, + # but only the resulting categories, the order of which is independent + # from ordered. Set ordered to False as default. See GH #15457 + cat = Categorical(values, ordered=False) + categories = cat.categories + codes = cat.codes + return codes, categories + + +def factorize_from_iterables(iterables) -> tuple[list[np.ndarray], list[Index]]: + """ + A higher-level wrapper over `factorize_from_iterable`. + + Parameters + ---------- + iterables : list-like of list-likes + + Returns + ------- + codes : list of ndarrays + categories : list of Indexes + + Notes + ----- + See `factorize_from_iterable` for more info. + """ + if len(iterables) == 0: + # For consistency, it should return two empty lists. + return [], [] + + codes, categories = zip(*(factorize_from_iterable(it) for it in iterables)) + return list(codes), list(categories) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimelike.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimelike.py new file mode 100644 index 0000000000000000000000000000000000000000..cfe1f3acd914344d5ec161b40a8cd494f03353dc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimelike.py @@ -0,0 +1,2583 @@ +from __future__ import annotations + +from datetime import ( + datetime, + timedelta, +) +from functools import wraps +import operator +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + Union, + cast, + final, + overload, +) +import warnings + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas._libs import ( + algos, + lib, +) +from pandas._libs.arrays import NDArrayBacked +from pandas._libs.tslibs import ( + BaseOffset, + IncompatibleFrequency, + NaT, + NaTType, + Period, + Resolution, + Tick, + Timedelta, + Timestamp, + add_overflowsafe, + astype_overflowsafe, + get_unit_from_dtype, + iNaT, + ints_to_pydatetime, + ints_to_pytimedelta, + periods_per_day, + to_offset, +) +from pandas._libs.tslibs.fields import ( + RoundTo, + round_nsint64, +) +from pandas._libs.tslibs.np_datetime import compare_mismatched_resolutions +from pandas._libs.tslibs.timedeltas import get_unit_for_round +from pandas._libs.tslibs.timestamps import integer_op_not_supported +from pandas._typing import ( + ArrayLike, + AxisInt, + DatetimeLikeScalar, + Dtype, + DtypeObj, + F, + InterpolateOptions, + NpDtype, + PositionalIndexer2D, + PositionalIndexerTuple, + ScalarIndexer, + Self, + SequenceIndexer, + TimeAmbiguous, + TimeNonexistent, + npt, +) +from pandas.compat.numpy import function as nv +from pandas.errors import ( + AbstractMethodError, + InvalidComparison, + PerformanceWarning, +) +from pandas.util._decorators import ( + Appender, + Substitution, + cache_readonly, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike +from pandas.core.dtypes.common import ( + is_all_strings, + is_integer_dtype, + is_list_like, + is_object_dtype, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ( + ABCCategorical, + ABCMultiIndex, +) +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, +) + +from pandas.core import ( + algorithms, + missing, + nanops, + ops, +) +from pandas.core.algorithms import ( + isin, + map_array, + unique1d, +) +from pandas.core.array_algos import datetimelike_accumulations +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays._mixins import ( + NDArrayBackedExtensionArray, + ravel_compat, +) +from pandas.core.arrays.arrow.array import ArrowExtensionArray +from pandas.core.arrays.base import ExtensionArray +from pandas.core.arrays.integer import IntegerArray +import pandas.core.common as com +from pandas.core.construction import ( + array as pd_array, + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.indexers import ( + check_array_indexer, + check_setitem_lengths, +) +from pandas.core.ops.common import unpack_zerodim_and_defer +from pandas.core.ops.invalid import ( + invalid_comparison, + make_invalid_op, +) + +from pandas.tseries import frequencies + +if TYPE_CHECKING: + from collections.abc import ( + Iterator, + Sequence, + ) + + from pandas import Index + from pandas.core.arrays import ( + DatetimeArray, + PeriodArray, + TimedeltaArray, + ) + +DTScalarOrNaT = Union[DatetimeLikeScalar, NaTType] + + +def _make_unpacked_invalid_op(op_name: str): + op = make_invalid_op(op_name) + return unpack_zerodim_and_defer(op_name)(op) + + +def _period_dispatch(meth: F) -> F: + """ + For PeriodArray methods, dispatch to DatetimeArray and re-wrap the results + in PeriodArray. We cannot use ._ndarray directly for the affected + methods because the i8 data has different semantics on NaT values. + """ + + @wraps(meth) + def new_meth(self, *args, **kwargs): + if not isinstance(self.dtype, PeriodDtype): + return meth(self, *args, **kwargs) + + arr = self.view("M8[ns]") + result = meth(arr, *args, **kwargs) + if result is NaT: + return NaT + elif isinstance(result, Timestamp): + return self._box_func(result._value) + + res_i8 = result.view("i8") + return self._from_backing_data(res_i8) + + return cast(F, new_meth) + + +# error: Definition of "_concat_same_type" in base class "NDArrayBacked" is +# incompatible with definition in base class "ExtensionArray" +class DatetimeLikeArrayMixin( # type: ignore[misc] + OpsMixin, NDArrayBackedExtensionArray +): + """ + Shared Base/Mixin class for DatetimeArray, TimedeltaArray, PeriodArray + + Assumes that __new__/__init__ defines: + _ndarray + + and that inheriting subclass implements: + freq + """ + + # _infer_matches -> which infer_dtype strings are close enough to our own + _infer_matches: tuple[str, ...] + _is_recognized_dtype: Callable[[DtypeObj], bool] + _recognized_scalars: tuple[type, ...] + _ndarray: np.ndarray + freq: BaseOffset | None + + @cache_readonly + def _can_hold_na(self) -> bool: + return True + + def __init__( + self, data, dtype: Dtype | None = None, freq=None, copy: bool = False + ) -> None: + raise AbstractMethodError(self) + + @property + def _scalar_type(self) -> type[DatetimeLikeScalar]: + """ + The scalar associated with this datelike + + * PeriodArray : Period + * DatetimeArray : Timestamp + * TimedeltaArray : Timedelta + """ + raise AbstractMethodError(self) + + def _scalar_from_string(self, value: str) -> DTScalarOrNaT: + """ + Construct a scalar type from a string. + + Parameters + ---------- + value : str + + Returns + ------- + Period, Timestamp, or Timedelta, or NaT + Whatever the type of ``self._scalar_type`` is. + + Notes + ----- + This should call ``self._check_compatible_with`` before + unboxing the result. + """ + raise AbstractMethodError(self) + + def _unbox_scalar( + self, value: DTScalarOrNaT + ) -> np.int64 | np.datetime64 | np.timedelta64: + """ + Unbox the integer value of a scalar `value`. + + Parameters + ---------- + value : Period, Timestamp, Timedelta, or NaT + Depending on subclass. + + Returns + ------- + int + + Examples + -------- + >>> arr = pd.array(np.array(['1970-01-01'], 'datetime64[ns]')) + >>> arr._unbox_scalar(arr[0]) + numpy.datetime64('1970-01-01T00:00:00.000000000') + """ + raise AbstractMethodError(self) + + def _check_compatible_with(self, other: DTScalarOrNaT) -> None: + """ + Verify that `self` and `other` are compatible. + + * DatetimeArray verifies that the timezones (if any) match + * PeriodArray verifies that the freq matches + * Timedelta has no verification + + In each case, NaT is considered compatible. + + Parameters + ---------- + other + + Raises + ------ + Exception + """ + raise AbstractMethodError(self) + + # ------------------------------------------------------------------ + + def _box_func(self, x): + """ + box function to get object from internal representation + """ + raise AbstractMethodError(self) + + def _box_values(self, values) -> np.ndarray: + """ + apply box func to passed values + """ + return lib.map_infer(values, self._box_func, convert=False) + + def __iter__(self) -> Iterator: + if self.ndim > 1: + return (self[n] for n in range(len(self))) + else: + return (self._box_func(v) for v in self.asi8) + + @property + def asi8(self) -> npt.NDArray[np.int64]: + """ + Integer representation of the values. + + Returns + ------- + ndarray + An ndarray with int64 dtype. + """ + # do not cache or you'll create a memory leak + return self._ndarray.view("i8") + + # ---------------------------------------------------------------- + # Rendering Methods + + def _format_native_types( + self, *, na_rep: str | float = "NaT", date_format=None + ) -> npt.NDArray[np.object_]: + """ + Helper method for astype when converting to strings. + + Returns + ------- + ndarray[str] + """ + raise AbstractMethodError(self) + + def _formatter(self, boxed: bool = False): + # TODO: Remove Datetime & DatetimeTZ formatters. + return "'{}'".format + + # ---------------------------------------------------------------- + # Array-Like / EA-Interface Methods + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + # used for Timedelta/DatetimeArray, overwritten by PeriodArray + if is_object_dtype(dtype): + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow this " + "behavior starting with pandas 3.0.\nThis conversion to NumPy " + "requires a copy, but 'copy=False' was passed. Consider using " + "'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + return np.array(list(self), dtype=object) + + if copy is True: + return np.array(self._ndarray, dtype=dtype) + return self._ndarray + + @overload + def __getitem__(self, item: ScalarIndexer) -> DTScalarOrNaT: + ... + + @overload + def __getitem__( + self, + item: SequenceIndexer | PositionalIndexerTuple, + ) -> Self: + ... + + def __getitem__(self, key: PositionalIndexer2D) -> Self | DTScalarOrNaT: + """ + This getitem defers to the underlying array, which by-definition can + only handle list-likes, slices, and integer scalars + """ + # Use cast as we know we will get back a DatetimeLikeArray or DTScalar, + # but skip evaluating the Union at runtime for performance + # (see https://github.com/pandas-dev/pandas/pull/44624) + result = cast("Union[Self, DTScalarOrNaT]", super().__getitem__(key)) + if lib.is_scalar(result): + return result + else: + # At this point we know the result is an array. + result = cast(Self, result) + result._freq = self._get_getitem_freq(key) + return result + + def _get_getitem_freq(self, key) -> BaseOffset | None: + """ + Find the `freq` attribute to assign to the result of a __getitem__ lookup. + """ + is_period = isinstance(self.dtype, PeriodDtype) + if is_period: + freq = self.freq + elif self.ndim != 1: + freq = None + else: + key = check_array_indexer(self, key) # maybe ndarray[bool] -> slice + freq = None + if isinstance(key, slice): + if self.freq is not None and key.step is not None: + freq = key.step * self.freq + else: + freq = self.freq + elif key is Ellipsis: + # GH#21282 indexing with Ellipsis is similar to a full slice, + # should preserve `freq` attribute + freq = self.freq + elif com.is_bool_indexer(key): + new_key = lib.maybe_booleans_to_slice(key.view(np.uint8)) + if isinstance(new_key, slice): + return self._get_getitem_freq(new_key) + return freq + + # error: Argument 1 of "__setitem__" is incompatible with supertype + # "ExtensionArray"; supertype defines the argument type as "Union[int, + # ndarray]" + def __setitem__( + self, + key: int | Sequence[int] | Sequence[bool] | slice, + value: NaTType | Any | Sequence[Any], + ) -> None: + # I'm fudging the types a bit here. "Any" above really depends + # on type(self). For PeriodArray, it's Period (or stuff coercible + # to a period in from_sequence). For DatetimeArray, it's Timestamp... + # I don't know if mypy can do that, possibly with Generics. + # https://mypy.readthedocs.io/en/latest/generics.html + + no_op = check_setitem_lengths(key, value, self) + + # Calling super() before the no_op short-circuit means that we raise + # on invalid 'value' even if this is a no-op, e.g. wrong-dtype empty array. + super().__setitem__(key, value) + + if no_op: + return + + self._maybe_clear_freq() + + def _maybe_clear_freq(self) -> None: + # inplace operations like __setitem__ may invalidate the freq of + # DatetimeArray and TimedeltaArray + pass + + def astype(self, dtype, copy: bool = True): + # Some notes on cases we don't have to handle here in the base class: + # 1. PeriodArray.astype handles period -> period + # 2. DatetimeArray.astype handles conversion between tz. + # 3. DatetimeArray.astype handles datetime -> period + dtype = pandas_dtype(dtype) + + if dtype == object: + if self.dtype.kind == "M": + self = cast("DatetimeArray", self) + # *much* faster than self._box_values + # for e.g. test_get_loc_tuple_monotonic_above_size_cutoff + i8data = self.asi8 + converted = ints_to_pydatetime( + i8data, + tz=self.tz, + box="timestamp", + reso=self._creso, + ) + return converted + + elif self.dtype.kind == "m": + return ints_to_pytimedelta(self._ndarray, box=True) + + return self._box_values(self.asi8.ravel()).reshape(self.shape) + + elif is_string_dtype(dtype): + if isinstance(dtype, ExtensionDtype): + arr_object = self._format_native_types(na_rep=dtype.na_value) # type: ignore[arg-type] + cls = dtype.construct_array_type() + return cls._from_sequence(arr_object, dtype=dtype, copy=False) + else: + return self._format_native_types() + + elif isinstance(dtype, ExtensionDtype): + return super().astype(dtype, copy=copy) + elif dtype.kind in "iu": + # we deliberately ignore int32 vs. int64 here. + # See https://github.com/pandas-dev/pandas/issues/24381 for more. + values = self.asi8 + if dtype != np.int64: + raise TypeError( + f"Converting from {self.dtype} to {dtype} is not supported. " + "Do obj.astype('int64').astype(dtype) instead" + ) + + if copy: + values = values.copy() + return values + elif (dtype.kind in "mM" and self.dtype != dtype) or dtype.kind == "f": + # disallow conversion between datetime/timedelta, + # and conversions for any datetimelike to float + msg = f"Cannot cast {type(self).__name__} to dtype {dtype}" + raise TypeError(msg) + else: + return np.asarray(self, dtype=dtype) + + @overload + def view(self) -> Self: + ... + + @overload + def view(self, dtype: Literal["M8[ns]"]) -> DatetimeArray: + ... + + @overload + def view(self, dtype: Literal["m8[ns]"]) -> TimedeltaArray: + ... + + @overload + def view(self, dtype: Dtype | None = ...) -> ArrayLike: + ... + + # pylint: disable-next=useless-parent-delegation + def view(self, dtype: Dtype | None = None) -> ArrayLike: + # we need to explicitly call super() method as long as the `@overload`s + # are present in this file. + return super().view(dtype) + + # ------------------------------------------------------------------ + # Validation Methods + # TODO: try to de-duplicate these, ensure identical behavior + + def _validate_comparison_value(self, other): + if isinstance(other, str): + try: + # GH#18435 strings get a pass from tzawareness compat + other = self._scalar_from_string(other) + except (ValueError, IncompatibleFrequency): + # failed to parse as Timestamp/Timedelta/Period + raise InvalidComparison(other) + + if isinstance(other, self._recognized_scalars) or other is NaT: + other = self._scalar_type(other) + try: + self._check_compatible_with(other) + except (TypeError, IncompatibleFrequency) as err: + # e.g. tzawareness mismatch + raise InvalidComparison(other) from err + + elif not is_list_like(other): + raise InvalidComparison(other) + + elif len(other) != len(self): + raise ValueError("Lengths must match") + + else: + try: + other = self._validate_listlike(other, allow_object=True) + self._check_compatible_with(other) + except (TypeError, IncompatibleFrequency) as err: + if is_object_dtype(getattr(other, "dtype", None)): + # We will have to operate element-wise + pass + else: + raise InvalidComparison(other) from err + + return other + + def _validate_scalar( + self, + value, + *, + allow_listlike: bool = False, + unbox: bool = True, + ): + """ + Validate that the input value can be cast to our scalar_type. + + Parameters + ---------- + value : object + allow_listlike: bool, default False + When raising an exception, whether the message should say + listlike inputs are allowed. + unbox : bool, default True + Whether to unbox the result before returning. Note: unbox=False + skips the setitem compatibility check. + + Returns + ------- + self._scalar_type or NaT + """ + if isinstance(value, self._scalar_type): + pass + + elif isinstance(value, str): + # NB: Careful about tzawareness + try: + value = self._scalar_from_string(value) + except ValueError as err: + msg = self._validation_error_message(value, allow_listlike) + raise TypeError(msg) from err + + elif is_valid_na_for_dtype(value, self.dtype): + # GH#18295 + value = NaT + + elif isna(value): + # if we are dt64tz and value is dt64("NaT"), dont cast to NaT, + # or else we'll fail to raise in _unbox_scalar + msg = self._validation_error_message(value, allow_listlike) + raise TypeError(msg) + + elif isinstance(value, self._recognized_scalars): + # error: Argument 1 to "Timestamp" has incompatible type "object"; expected + # "integer[Any] | float | str | date | datetime | datetime64" + value = self._scalar_type(value) # type: ignore[arg-type] + + else: + msg = self._validation_error_message(value, allow_listlike) + raise TypeError(msg) + + if not unbox: + # NB: In general NDArrayBackedExtensionArray will unbox here; + # this option exists to prevent a performance hit in + # TimedeltaIndex.get_loc + return value + return self._unbox_scalar(value) + + def _validation_error_message(self, value, allow_listlike: bool = False) -> str: + """ + Construct an exception message on validation error. + + Some methods allow only scalar inputs, while others allow either scalar + or listlike. + + Parameters + ---------- + allow_listlike: bool, default False + + Returns + ------- + str + """ + if hasattr(value, "dtype") and getattr(value, "ndim", 0) > 0: + msg_got = f"{value.dtype} array" + else: + msg_got = f"'{type(value).__name__}'" + if allow_listlike: + msg = ( + f"value should be a '{self._scalar_type.__name__}', 'NaT', " + f"or array of those. Got {msg_got} instead." + ) + else: + msg = ( + f"value should be a '{self._scalar_type.__name__}' or 'NaT'. " + f"Got {msg_got} instead." + ) + return msg + + def _validate_listlike(self, value, allow_object: bool = False): + if isinstance(value, type(self)): + if self.dtype.kind in "mM" and not allow_object: + # error: "DatetimeLikeArrayMixin" has no attribute "as_unit" + value = value.as_unit(self.unit, round_ok=False) # type: ignore[attr-defined] + return value + + if isinstance(value, list) and len(value) == 0: + # We treat empty list as our own dtype. + return type(self)._from_sequence([], dtype=self.dtype) + + if hasattr(value, "dtype") and value.dtype == object: + # `array` below won't do inference if value is an Index or Series. + # so do so here. in the Index case, inferred_type may be cached. + if lib.infer_dtype(value) in self._infer_matches: + try: + value = type(self)._from_sequence(value) + except (ValueError, TypeError): + if allow_object: + return value + msg = self._validation_error_message(value, True) + raise TypeError(msg) + + # Do type inference if necessary up front (after unpacking + # NumpyExtensionArray) + # e.g. we passed PeriodIndex.values and got an ndarray of Periods + value = extract_array(value, extract_numpy=True) + value = pd_array(value) + value = extract_array(value, extract_numpy=True) + + if is_all_strings(value): + # We got a StringArray + try: + # TODO: Could use from_sequence_of_strings if implemented + # Note: passing dtype is necessary for PeriodArray tests + value = type(self)._from_sequence(value, dtype=self.dtype) + except ValueError: + pass + + if isinstance(value.dtype, CategoricalDtype): + # e.g. we have a Categorical holding self.dtype + if value.categories.dtype == self.dtype: + # TODO: do we need equal dtype or just comparable? + value = value._internal_get_values() + value = extract_array(value, extract_numpy=True) + + if allow_object and is_object_dtype(value.dtype): + pass + + elif not type(self)._is_recognized_dtype(value.dtype): + msg = self._validation_error_message(value, True) + raise TypeError(msg) + + if self.dtype.kind in "mM" and not allow_object: + # error: "DatetimeLikeArrayMixin" has no attribute "as_unit" + value = value.as_unit(self.unit, round_ok=False) # type: ignore[attr-defined] + return value + + def _validate_setitem_value(self, value): + if is_list_like(value): + value = self._validate_listlike(value) + else: + return self._validate_scalar(value, allow_listlike=True) + + return self._unbox(value) + + @final + def _unbox(self, other) -> np.int64 | np.datetime64 | np.timedelta64 | np.ndarray: + """ + Unbox either a scalar with _unbox_scalar or an instance of our own type. + """ + if lib.is_scalar(other): + other = self._unbox_scalar(other) + else: + # same type as self + self._check_compatible_with(other) + other = other._ndarray + return other + + # ------------------------------------------------------------------ + # Additional array methods + # These are not part of the EA API, but we implement them because + # pandas assumes they're there. + + @ravel_compat + def map(self, mapper, na_action=None): + from pandas import Index + + result = map_array(self, mapper, na_action=na_action) + result = Index(result) + + if isinstance(result, ABCMultiIndex): + return result.to_numpy() + else: + return result.array + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + """ + Compute boolean array of whether each value is found in the + passed set of values. + + Parameters + ---------- + values : np.ndarray or ExtensionArray + + Returns + ------- + ndarray[bool] + """ + if values.dtype.kind in "fiuc": + # TODO: de-duplicate with equals, validate_comparison_value + return np.zeros(self.shape, dtype=bool) + + values = ensure_wrapped_if_datetimelike(values) + + if not isinstance(values, type(self)): + inferable = [ + "timedelta", + "timedelta64", + "datetime", + "datetime64", + "date", + "period", + ] + if values.dtype == object: + values = lib.maybe_convert_objects( + values, # type: ignore[arg-type] + convert_non_numeric=True, + dtype_if_all_nat=self.dtype, + ) + if values.dtype != object: + return self.isin(values) + + inferred = lib.infer_dtype(values, skipna=False) + if inferred not in inferable: + if inferred == "string": + pass + + elif "mixed" in inferred: + return isin(self.astype(object), values) + else: + return np.zeros(self.shape, dtype=bool) + + try: + values = type(self)._from_sequence(values) + except ValueError: + return isin(self.astype(object), values) + else: + warnings.warn( + # GH#53111 + f"The behavior of 'isin' with dtype={self.dtype} and " + "castable values (e.g. strings) is deprecated. In a " + "future version, these will not be considered matching " + "by isin. Explicitly cast to the appropriate dtype before " + "calling isin instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if self.dtype.kind in "mM": + self = cast("DatetimeArray | TimedeltaArray", self) + # error: Item "ExtensionArray" of "ExtensionArray | ndarray[Any, Any]" + # has no attribute "as_unit" + values = values.as_unit(self.unit) # type: ignore[union-attr] + + try: + # error: Argument 1 to "_check_compatible_with" of "DatetimeLikeArrayMixin" + # has incompatible type "ExtensionArray | ndarray[Any, Any]"; expected + # "Period | Timestamp | Timedelta | NaTType" + self._check_compatible_with(values) # type: ignore[arg-type] + except (TypeError, ValueError): + # Includes tzawareness mismatch and IncompatibleFrequencyError + return np.zeros(self.shape, dtype=bool) + + # error: Item "ExtensionArray" of "ExtensionArray | ndarray[Any, Any]" + # has no attribute "asi8" + return isin(self.asi8, values.asi8) # type: ignore[union-attr] + + # ------------------------------------------------------------------ + # Null Handling + + def isna(self) -> npt.NDArray[np.bool_]: + return self._isnan + + @property # NB: override with cache_readonly in immutable subclasses + def _isnan(self) -> npt.NDArray[np.bool_]: + """ + return if each value is nan + """ + return self.asi8 == iNaT + + @property # NB: override with cache_readonly in immutable subclasses + def _hasna(self) -> bool: + """ + return if I have any nans; enables various perf speedups + """ + return bool(self._isnan.any()) + + def _maybe_mask_results( + self, result: np.ndarray, fill_value=iNaT, convert=None + ) -> np.ndarray: + """ + Parameters + ---------- + result : np.ndarray + fill_value : object, default iNaT + convert : str, dtype or None + + Returns + ------- + result : ndarray with values replace by the fill_value + + mask the result if needed, convert to the provided dtype if its not + None + + This is an internal routine. + """ + if self._hasna: + if convert: + result = result.astype(convert) + if fill_value is None: + fill_value = np.nan + np.putmask(result, self._isnan, fill_value) + return result + + # ------------------------------------------------------------------ + # Frequency Properties/Methods + + @property + def freqstr(self) -> str | None: + """ + Return the frequency object as a string if it's set, otherwise None. + + Examples + -------- + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00"], freq="D") + >>> idx.freqstr + 'D' + + The frequency can be inferred if there are more than 2 points: + + >>> idx = pd.DatetimeIndex(["2018-01-01", "2018-01-03", "2018-01-05"], + ... freq="infer") + >>> idx.freqstr + '2D' + + For PeriodIndex: + + >>> idx = pd.PeriodIndex(["2023-1", "2023-2", "2023-3"], freq="M") + >>> idx.freqstr + 'M' + """ + if self.freq is None: + return None + return self.freq.freqstr + + @property # NB: override with cache_readonly in immutable subclasses + def inferred_freq(self) -> str | None: + """ + Tries to return a string representing a frequency generated by infer_freq. + + Returns None if it can't autodetect the frequency. + + Examples + -------- + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["2018-01-01", "2018-01-03", "2018-01-05"]) + >>> idx.inferred_freq + '2D' + + For TimedeltaIndex: + + >>> tdelta_idx = pd.to_timedelta(["0 days", "10 days", "20 days"]) + >>> tdelta_idx + TimedeltaIndex(['0 days', '10 days', '20 days'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.inferred_freq + '10D' + """ + if self.ndim != 1: + return None + try: + return frequencies.infer_freq(self) + except ValueError: + return None + + @property # NB: override with cache_readonly in immutable subclasses + def _resolution_obj(self) -> Resolution | None: + freqstr = self.freqstr + if freqstr is None: + return None + try: + return Resolution.get_reso_from_freqstr(freqstr) + except KeyError: + return None + + @property # NB: override with cache_readonly in immutable subclasses + def resolution(self) -> str: + """ + Returns day, hour, minute, second, millisecond or microsecond + """ + # error: Item "None" of "Optional[Any]" has no attribute "attrname" + return self._resolution_obj.attrname # type: ignore[union-attr] + + # monotonicity/uniqueness properties are called via frequencies.infer_freq, + # see GH#23789 + + @property + def _is_monotonic_increasing(self) -> bool: + return algos.is_monotonic(self.asi8, timelike=True)[0] + + @property + def _is_monotonic_decreasing(self) -> bool: + return algos.is_monotonic(self.asi8, timelike=True)[1] + + @property + def _is_unique(self) -> bool: + return len(unique1d(self.asi8.ravel("K"))) == self.size + + # ------------------------------------------------------------------ + # Arithmetic Methods + + def _cmp_method(self, other, op): + if self.ndim > 1 and getattr(other, "shape", None) == self.shape: + # TODO: handle 2D-like listlikes + return op(self.ravel(), other.ravel()).reshape(self.shape) + + try: + other = self._validate_comparison_value(other) + except InvalidComparison: + return invalid_comparison(self, other, op) + + dtype = getattr(other, "dtype", None) + if is_object_dtype(dtype): + # We have to use comp_method_OBJECT_ARRAY instead of numpy + # comparison otherwise it would raise when comparing to None + result = ops.comp_method_OBJECT_ARRAY( + op, np.asarray(self.astype(object)), other + ) + return result + if other is NaT: + if op is operator.ne: + result = np.ones(self.shape, dtype=bool) + else: + result = np.zeros(self.shape, dtype=bool) + return result + + if not isinstance(self.dtype, PeriodDtype): + self = cast(TimelikeOps, self) + if self._creso != other._creso: + if not isinstance(other, type(self)): + # i.e. Timedelta/Timestamp, cast to ndarray and let + # compare_mismatched_resolutions handle broadcasting + try: + # GH#52080 see if we can losslessly cast to shared unit + other = other.as_unit(self.unit, round_ok=False) + except ValueError: + other_arr = np.array(other.asm8) + return compare_mismatched_resolutions( + self._ndarray, other_arr, op + ) + else: + other_arr = other._ndarray + return compare_mismatched_resolutions(self._ndarray, other_arr, op) + + other_vals = self._unbox(other) + # GH#37462 comparison on i8 values is almost 2x faster than M8/m8 + result = op(self._ndarray.view("i8"), other_vals.view("i8")) + + o_mask = isna(other) + mask = self._isnan | o_mask + if mask.any(): + nat_result = op is operator.ne + np.putmask(result, mask, nat_result) + + return result + + # pow is invalid for all three subclasses; TimedeltaArray will override + # the multiplication and division ops + __pow__ = _make_unpacked_invalid_op("__pow__") + __rpow__ = _make_unpacked_invalid_op("__rpow__") + __mul__ = _make_unpacked_invalid_op("__mul__") + __rmul__ = _make_unpacked_invalid_op("__rmul__") + __truediv__ = _make_unpacked_invalid_op("__truediv__") + __rtruediv__ = _make_unpacked_invalid_op("__rtruediv__") + __floordiv__ = _make_unpacked_invalid_op("__floordiv__") + __rfloordiv__ = _make_unpacked_invalid_op("__rfloordiv__") + __mod__ = _make_unpacked_invalid_op("__mod__") + __rmod__ = _make_unpacked_invalid_op("__rmod__") + __divmod__ = _make_unpacked_invalid_op("__divmod__") + __rdivmod__ = _make_unpacked_invalid_op("__rdivmod__") + + @final + def _get_i8_values_and_mask( + self, other + ) -> tuple[int | npt.NDArray[np.int64], None | npt.NDArray[np.bool_]]: + """ + Get the int64 values and b_mask to pass to add_overflowsafe. + """ + if isinstance(other, Period): + i8values = other.ordinal + mask = None + elif isinstance(other, (Timestamp, Timedelta)): + i8values = other._value + mask = None + else: + # PeriodArray, DatetimeArray, TimedeltaArray + mask = other._isnan + i8values = other.asi8 + return i8values, mask + + @final + def _get_arithmetic_result_freq(self, other) -> BaseOffset | None: + """ + Check if we can preserve self.freq in addition or subtraction. + """ + # Adding or subtracting a Timedelta/Timestamp scalar is freq-preserving + # whenever self.freq is a Tick + if isinstance(self.dtype, PeriodDtype): + return self.freq + elif not lib.is_scalar(other): + return None + elif isinstance(self.freq, Tick): + # In these cases + return self.freq + return None + + @final + def _add_datetimelike_scalar(self, other) -> DatetimeArray: + if not lib.is_np_dtype(self.dtype, "m"): + raise TypeError( + f"cannot add {type(self).__name__} and {type(other).__name__}" + ) + + self = cast("TimedeltaArray", self) + + from pandas.core.arrays import DatetimeArray + from pandas.core.arrays.datetimes import tz_to_dtype + + assert other is not NaT + if isna(other): + # i.e. np.datetime64("NaT") + # In this case we specifically interpret NaT as a datetime, not + # the timedelta interpretation we would get by returning self + NaT + result = self._ndarray + NaT.to_datetime64().astype(f"M8[{self.unit}]") + # Preserve our resolution + return DatetimeArray._simple_new(result, dtype=result.dtype) + + other = Timestamp(other) + self, other = self._ensure_matching_resos(other) + self = cast("TimedeltaArray", self) + + other_i8, o_mask = self._get_i8_values_and_mask(other) + result = add_overflowsafe(self.asi8, np.asarray(other_i8, dtype="i8")) + res_values = result.view(f"M8[{self.unit}]") + + dtype = tz_to_dtype(tz=other.tz, unit=self.unit) + res_values = result.view(f"M8[{self.unit}]") + new_freq = self._get_arithmetic_result_freq(other) + return DatetimeArray._simple_new(res_values, dtype=dtype, freq=new_freq) + + @final + def _add_datetime_arraylike(self, other: DatetimeArray) -> DatetimeArray: + if not lib.is_np_dtype(self.dtype, "m"): + raise TypeError( + f"cannot add {type(self).__name__} and {type(other).__name__}" + ) + + # defer to DatetimeArray.__add__ + return other + self + + @final + def _sub_datetimelike_scalar( + self, other: datetime | np.datetime64 + ) -> TimedeltaArray: + if self.dtype.kind != "M": + raise TypeError(f"cannot subtract a datelike from a {type(self).__name__}") + + self = cast("DatetimeArray", self) + # subtract a datetime from myself, yielding a ndarray[timedelta64[ns]] + + if isna(other): + # i.e. np.datetime64("NaT") + return self - NaT + + ts = Timestamp(other) + + self, ts = self._ensure_matching_resos(ts) + return self._sub_datetimelike(ts) + + @final + def _sub_datetime_arraylike(self, other: DatetimeArray) -> TimedeltaArray: + if self.dtype.kind != "M": + raise TypeError(f"cannot subtract a datelike from a {type(self).__name__}") + + if len(self) != len(other): + raise ValueError("cannot add indices of unequal length") + + self = cast("DatetimeArray", self) + + self, other = self._ensure_matching_resos(other) + return self._sub_datetimelike(other) + + @final + def _sub_datetimelike(self, other: Timestamp | DatetimeArray) -> TimedeltaArray: + self = cast("DatetimeArray", self) + + from pandas.core.arrays import TimedeltaArray + + try: + self._assert_tzawareness_compat(other) + except TypeError as err: + new_message = str(err).replace("compare", "subtract") + raise type(err)(new_message) from err + + other_i8, o_mask = self._get_i8_values_and_mask(other) + res_values = add_overflowsafe(self.asi8, np.asarray(-other_i8, dtype="i8")) + res_m8 = res_values.view(f"timedelta64[{self.unit}]") + + new_freq = self._get_arithmetic_result_freq(other) + new_freq = cast("Tick | None", new_freq) + return TimedeltaArray._simple_new(res_m8, dtype=res_m8.dtype, freq=new_freq) + + @final + def _add_period(self, other: Period) -> PeriodArray: + if not lib.is_np_dtype(self.dtype, "m"): + raise TypeError(f"cannot add Period to a {type(self).__name__}") + + # We will wrap in a PeriodArray and defer to the reversed operation + from pandas.core.arrays.period import PeriodArray + + i8vals = np.broadcast_to(other.ordinal, self.shape) + dtype = PeriodDtype(other.freq) + parr = PeriodArray(i8vals, dtype=dtype) + return parr + self + + def _add_offset(self, offset): + raise AbstractMethodError(self) + + def _add_timedeltalike_scalar(self, other): + """ + Add a delta of a timedeltalike + + Returns + ------- + Same type as self + """ + if isna(other): + # i.e np.timedelta64("NaT") + new_values = np.empty(self.shape, dtype="i8").view(self._ndarray.dtype) + new_values.fill(iNaT) + return type(self)._simple_new(new_values, dtype=self.dtype) + + # PeriodArray overrides, so we only get here with DTA/TDA + self = cast("DatetimeArray | TimedeltaArray", self) + other = Timedelta(other) + self, other = self._ensure_matching_resos(other) + return self._add_timedeltalike(other) + + def _add_timedelta_arraylike(self, other: TimedeltaArray): + """ + Add a delta of a TimedeltaIndex + + Returns + ------- + Same type as self + """ + # overridden by PeriodArray + + if len(self) != len(other): + raise ValueError("cannot add indices of unequal length") + + self = cast("DatetimeArray | TimedeltaArray", self) + + self, other = self._ensure_matching_resos(other) + return self._add_timedeltalike(other) + + @final + def _add_timedeltalike(self, other: Timedelta | TimedeltaArray): + self = cast("DatetimeArray | TimedeltaArray", self) + + other_i8, o_mask = self._get_i8_values_and_mask(other) + new_values = add_overflowsafe(self.asi8, np.asarray(other_i8, dtype="i8")) + res_values = new_values.view(self._ndarray.dtype) + + new_freq = self._get_arithmetic_result_freq(other) + + # error: Argument "dtype" to "_simple_new" of "DatetimeArray" has + # incompatible type "Union[dtype[datetime64], DatetimeTZDtype, + # dtype[timedelta64]]"; expected "Union[dtype[datetime64], DatetimeTZDtype]" + return type(self)._simple_new( + res_values, dtype=self.dtype, freq=new_freq # type: ignore[arg-type] + ) + + @final + def _add_nat(self): + """ + Add pd.NaT to self + """ + if isinstance(self.dtype, PeriodDtype): + raise TypeError( + f"Cannot add {type(self).__name__} and {type(NaT).__name__}" + ) + self = cast("TimedeltaArray | DatetimeArray", self) + + # GH#19124 pd.NaT is treated like a timedelta for both timedelta + # and datetime dtypes + result = np.empty(self.shape, dtype=np.int64) + result.fill(iNaT) + result = result.view(self._ndarray.dtype) # preserve reso + # error: Argument "dtype" to "_simple_new" of "DatetimeArray" has + # incompatible type "Union[dtype[timedelta64], dtype[datetime64], + # DatetimeTZDtype]"; expected "Union[dtype[datetime64], DatetimeTZDtype]" + return type(self)._simple_new( + result, dtype=self.dtype, freq=None # type: ignore[arg-type] + ) + + @final + def _sub_nat(self): + """ + Subtract pd.NaT from self + """ + # GH#19124 Timedelta - datetime is not in general well-defined. + # We make an exception for pd.NaT, which in this case quacks + # like a timedelta. + # For datetime64 dtypes by convention we treat NaT as a datetime, so + # this subtraction returns a timedelta64 dtype. + # For period dtype, timedelta64 is a close-enough return dtype. + result = np.empty(self.shape, dtype=np.int64) + result.fill(iNaT) + if self.dtype.kind in "mM": + # We can retain unit in dtype + self = cast("DatetimeArray| TimedeltaArray", self) + return result.view(f"timedelta64[{self.unit}]") + else: + return result.view("timedelta64[ns]") + + @final + def _sub_periodlike(self, other: Period | PeriodArray) -> npt.NDArray[np.object_]: + # If the operation is well-defined, we return an object-dtype ndarray + # of DateOffsets. Null entries are filled with pd.NaT + if not isinstance(self.dtype, PeriodDtype): + raise TypeError( + f"cannot subtract {type(other).__name__} from {type(self).__name__}" + ) + + self = cast("PeriodArray", self) + self._check_compatible_with(other) + + other_i8, o_mask = self._get_i8_values_and_mask(other) + new_i8_data = add_overflowsafe(self.asi8, np.asarray(-other_i8, dtype="i8")) + new_data = np.array([self.freq.base * x for x in new_i8_data]) + + if o_mask is None: + # i.e. Period scalar + mask = self._isnan + else: + # i.e. PeriodArray + mask = self._isnan | o_mask + new_data[mask] = NaT + return new_data + + @final + def _addsub_object_array(self, other: npt.NDArray[np.object_], op): + """ + Add or subtract array-like of DateOffset objects + + Parameters + ---------- + other : np.ndarray[object] + op : {operator.add, operator.sub} + + Returns + ------- + np.ndarray[object] + Except in fastpath case with length 1 where we operate on the + contained scalar. + """ + assert op in [operator.add, operator.sub] + if len(other) == 1 and self.ndim == 1: + # Note: without this special case, we could annotate return type + # as ndarray[object] + # If both 1D then broadcasting is unambiguous + return op(self, other[0]) + + warnings.warn( + "Adding/subtracting object-dtype array to " + f"{type(self).__name__} not vectorized.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + + # Caller is responsible for broadcasting if necessary + assert self.shape == other.shape, (self.shape, other.shape) + + res_values = op(self.astype("O"), np.asarray(other)) + return res_values + + def _accumulate(self, name: str, *, skipna: bool = True, **kwargs) -> Self: + if name not in {"cummin", "cummax"}: + raise TypeError(f"Accumulation {name} not supported for {type(self)}") + + op = getattr(datetimelike_accumulations, name) + result = op(self.copy(), skipna=skipna, **kwargs) + + return type(self)._simple_new(result, dtype=self.dtype) + + @unpack_zerodim_and_defer("__add__") + def __add__(self, other): + other_dtype = getattr(other, "dtype", None) + other = ensure_wrapped_if_datetimelike(other) + + # scalar others + if other is NaT: + result = self._add_nat() + elif isinstance(other, (Tick, timedelta, np.timedelta64)): + result = self._add_timedeltalike_scalar(other) + elif isinstance(other, BaseOffset): + # specifically _not_ a Tick + result = self._add_offset(other) + elif isinstance(other, (datetime, np.datetime64)): + result = self._add_datetimelike_scalar(other) + elif isinstance(other, Period) and lib.is_np_dtype(self.dtype, "m"): + result = self._add_period(other) + elif lib.is_integer(other): + # This check must come after the check for np.timedelta64 + # as is_integer returns True for these + if not isinstance(self.dtype, PeriodDtype): + raise integer_op_not_supported(self) + obj = cast("PeriodArray", self) + result = obj._addsub_int_array_or_scalar(other * obj.dtype._n, operator.add) + + # array-like others + elif lib.is_np_dtype(other_dtype, "m"): + # TimedeltaIndex, ndarray[timedelta64] + result = self._add_timedelta_arraylike(other) + elif is_object_dtype(other_dtype): + # e.g. Array/Index of DateOffset objects + result = self._addsub_object_array(other, operator.add) + elif lib.is_np_dtype(other_dtype, "M") or isinstance( + other_dtype, DatetimeTZDtype + ): + # DatetimeIndex, ndarray[datetime64] + return self._add_datetime_arraylike(other) + elif is_integer_dtype(other_dtype): + if not isinstance(self.dtype, PeriodDtype): + raise integer_op_not_supported(self) + obj = cast("PeriodArray", self) + result = obj._addsub_int_array_or_scalar(other * obj.dtype._n, operator.add) + else: + # Includes Categorical, other ExtensionArrays + # For PeriodDtype, if self is a TimedeltaArray and other is a + # PeriodArray with a timedelta-like (i.e. Tick) freq, this + # operation is valid. Defer to the PeriodArray implementation. + # In remaining cases, this will end up raising TypeError. + return NotImplemented + + if isinstance(result, np.ndarray) and lib.is_np_dtype(result.dtype, "m"): + from pandas.core.arrays import TimedeltaArray + + return TimedeltaArray._from_sequence(result) + return result + + def __radd__(self, other): + # alias for __add__ + return self.__add__(other) + + @unpack_zerodim_and_defer("__sub__") + def __sub__(self, other): + other_dtype = getattr(other, "dtype", None) + other = ensure_wrapped_if_datetimelike(other) + + # scalar others + if other is NaT: + result = self._sub_nat() + elif isinstance(other, (Tick, timedelta, np.timedelta64)): + result = self._add_timedeltalike_scalar(-other) + elif isinstance(other, BaseOffset): + # specifically _not_ a Tick + result = self._add_offset(-other) + elif isinstance(other, (datetime, np.datetime64)): + result = self._sub_datetimelike_scalar(other) + elif lib.is_integer(other): + # This check must come after the check for np.timedelta64 + # as is_integer returns True for these + if not isinstance(self.dtype, PeriodDtype): + raise integer_op_not_supported(self) + obj = cast("PeriodArray", self) + result = obj._addsub_int_array_or_scalar(other * obj.dtype._n, operator.sub) + + elif isinstance(other, Period): + result = self._sub_periodlike(other) + + # array-like others + elif lib.is_np_dtype(other_dtype, "m"): + # TimedeltaIndex, ndarray[timedelta64] + result = self._add_timedelta_arraylike(-other) + elif is_object_dtype(other_dtype): + # e.g. Array/Index of DateOffset objects + result = self._addsub_object_array(other, operator.sub) + elif lib.is_np_dtype(other_dtype, "M") or isinstance( + other_dtype, DatetimeTZDtype + ): + # DatetimeIndex, ndarray[datetime64] + result = self._sub_datetime_arraylike(other) + elif isinstance(other_dtype, PeriodDtype): + # PeriodIndex + result = self._sub_periodlike(other) + elif is_integer_dtype(other_dtype): + if not isinstance(self.dtype, PeriodDtype): + raise integer_op_not_supported(self) + obj = cast("PeriodArray", self) + result = obj._addsub_int_array_or_scalar(other * obj.dtype._n, operator.sub) + else: + # Includes ExtensionArrays, float_dtype + return NotImplemented + + if isinstance(result, np.ndarray) and lib.is_np_dtype(result.dtype, "m"): + from pandas.core.arrays import TimedeltaArray + + return TimedeltaArray._from_sequence(result) + return result + + def __rsub__(self, other): + other_dtype = getattr(other, "dtype", None) + other_is_dt64 = lib.is_np_dtype(other_dtype, "M") or isinstance( + other_dtype, DatetimeTZDtype + ) + + if other_is_dt64 and lib.is_np_dtype(self.dtype, "m"): + # ndarray[datetime64] cannot be subtracted from self, so + # we need to wrap in DatetimeArray/Index and flip the operation + if lib.is_scalar(other): + # i.e. np.datetime64 object + return Timestamp(other) - self + if not isinstance(other, DatetimeLikeArrayMixin): + # Avoid down-casting DatetimeIndex + from pandas.core.arrays import DatetimeArray + + other = DatetimeArray._from_sequence(other) + return other - self + elif self.dtype.kind == "M" and hasattr(other, "dtype") and not other_is_dt64: + # GH#19959 datetime - datetime is well-defined as timedelta, + # but any other type - datetime is not well-defined. + raise TypeError( + f"cannot subtract {type(self).__name__} from {type(other).__name__}" + ) + elif isinstance(self.dtype, PeriodDtype) and lib.is_np_dtype(other_dtype, "m"): + # TODO: Can we simplify/generalize these cases at all? + raise TypeError(f"cannot subtract {type(self).__name__} from {other.dtype}") + elif lib.is_np_dtype(self.dtype, "m"): + self = cast("TimedeltaArray", self) + return (-self) + other + + # We get here with e.g. datetime objects + return -(self - other) + + def __iadd__(self, other) -> Self: + result = self + other + self[:] = result[:] + + if not isinstance(self.dtype, PeriodDtype): + # restore freq, which is invalidated by setitem + self._freq = result.freq + return self + + def __isub__(self, other) -> Self: + result = self - other + self[:] = result[:] + + if not isinstance(self.dtype, PeriodDtype): + # restore freq, which is invalidated by setitem + self._freq = result.freq + return self + + # -------------------------------------------------------------- + # Reductions + + @_period_dispatch + def _quantile( + self, + qs: npt.NDArray[np.float64], + interpolation: str, + ) -> Self: + return super()._quantile(qs=qs, interpolation=interpolation) + + @_period_dispatch + def min(self, *, axis: AxisInt | None = None, skipna: bool = True, **kwargs): + """ + Return the minimum value of the Array or minimum along + an axis. + + See Also + -------- + numpy.ndarray.min + Index.min : Return the minimum value in an Index. + Series.min : Return the minimum value in a Series. + """ + nv.validate_min((), kwargs) + nv.validate_minmax_axis(axis, self.ndim) + + result = nanops.nanmin(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + @_period_dispatch + def max(self, *, axis: AxisInt | None = None, skipna: bool = True, **kwargs): + """ + Return the maximum value of the Array or maximum along + an axis. + + See Also + -------- + numpy.ndarray.max + Index.max : Return the maximum value in an Index. + Series.max : Return the maximum value in a Series. + """ + nv.validate_max((), kwargs) + nv.validate_minmax_axis(axis, self.ndim) + + result = nanops.nanmax(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def mean(self, *, skipna: bool = True, axis: AxisInt | None = 0): + """ + Return the mean value of the Array. + + Parameters + ---------- + skipna : bool, default True + Whether to ignore any NaT elements. + axis : int, optional, default 0 + + Returns + ------- + scalar + Timestamp or Timedelta. + + See Also + -------- + numpy.ndarray.mean : Returns the average of array elements along a given axis. + Series.mean : Return the mean value in a Series. + + Notes + ----- + mean is only defined for Datetime and Timedelta dtypes, not for Period. + + Examples + -------- + For :class:`pandas.DatetimeIndex`: + + >>> idx = pd.date_range('2001-01-01 00:00', periods=3) + >>> idx + DatetimeIndex(['2001-01-01', '2001-01-02', '2001-01-03'], + dtype='datetime64[ns]', freq='D') + >>> idx.mean() + Timestamp('2001-01-02 00:00:00') + + For :class:`pandas.TimedeltaIndex`: + + >>> tdelta_idx = pd.to_timedelta([1, 2, 3], unit='D') + >>> tdelta_idx + TimedeltaIndex(['1 days', '2 days', '3 days'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.mean() + Timedelta('2 days 00:00:00') + """ + if isinstance(self.dtype, PeriodDtype): + # See discussion in GH#24757 + raise TypeError( + f"mean is not implemented for {type(self).__name__} since the " + "meaning is ambiguous. An alternative is " + "obj.to_timestamp(how='start').mean()" + ) + + result = nanops.nanmean( + self._ndarray, axis=axis, skipna=skipna, mask=self.isna() + ) + return self._wrap_reduction_result(axis, result) + + @_period_dispatch + def median(self, *, axis: AxisInt | None = None, skipna: bool = True, **kwargs): + nv.validate_median((), kwargs) + + if axis is not None and abs(axis) >= self.ndim: + raise ValueError("abs(axis) must be less than ndim") + + result = nanops.nanmedian(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def _mode(self, dropna: bool = True): + mask = None + if dropna: + mask = self.isna() + + i8modes = algorithms.mode(self.view("i8"), mask=mask) + npmodes = i8modes.view(self._ndarray.dtype) + npmodes = cast(np.ndarray, npmodes) + return self._from_backing_data(npmodes) + + # ------------------------------------------------------------------ + # GroupBy Methods + + def _groupby_op( + self, + *, + how: str, + has_dropped_na: bool, + min_count: int, + ngroups: int, + ids: npt.NDArray[np.intp], + **kwargs, + ): + dtype = self.dtype + if dtype.kind == "M": + # Adding/multiplying datetimes is not valid + if how in ["sum", "prod", "cumsum", "cumprod", "var", "skew"]: + raise TypeError(f"datetime64 type does not support {how} operations") + if how in ["any", "all"]: + # GH#34479 + warnings.warn( + f"'{how}' with datetime64 dtypes is deprecated and will raise in a " + f"future version. Use (obj != pd.Timestamp(0)).{how}() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + elif isinstance(dtype, PeriodDtype): + # Adding/multiplying Periods is not valid + if how in ["sum", "prod", "cumsum", "cumprod", "var", "skew"]: + raise TypeError(f"Period type does not support {how} operations") + if how in ["any", "all"]: + # GH#34479 + warnings.warn( + f"'{how}' with PeriodDtype is deprecated and will raise in a " + f"future version. Use (obj != pd.Period(0, freq)).{how}() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + # timedeltas we can add but not multiply + if how in ["prod", "cumprod", "skew", "var"]: + raise TypeError(f"timedelta64 type does not support {how} operations") + + # All of the functions implemented here are ordinal, so we can + # operate on the tz-naive equivalents + npvalues = self._ndarray.view("M8[ns]") + + from pandas.core.groupby.ops import WrappedCythonOp + + kind = WrappedCythonOp.get_kind_from_how(how) + op = WrappedCythonOp(how=how, kind=kind, has_dropped_na=has_dropped_na) + + res_values = op._cython_op_ndim_compat( + npvalues, + min_count=min_count, + ngroups=ngroups, + comp_ids=ids, + mask=None, + **kwargs, + ) + + if op.how in op.cast_blocklist: + # i.e. how in ["rank"], since other cast_blocklist methods don't go + # through cython_operation + return res_values + + # We did a view to M8[ns] above, now we go the other direction + assert res_values.dtype == "M8[ns]" + if how in ["std", "sem"]: + from pandas.core.arrays import TimedeltaArray + + if isinstance(self.dtype, PeriodDtype): + raise TypeError("'std' and 'sem' are not valid for PeriodDtype") + self = cast("DatetimeArray | TimedeltaArray", self) + new_dtype = f"m8[{self.unit}]" + res_values = res_values.view(new_dtype) + return TimedeltaArray._simple_new(res_values, dtype=res_values.dtype) + + res_values = res_values.view(self._ndarray.dtype) + return self._from_backing_data(res_values) + + +class DatelikeOps(DatetimeLikeArrayMixin): + """ + Common ops for DatetimeIndex/PeriodIndex, but not TimedeltaIndex. + """ + + @Substitution( + URL="https://docs.python.org/3/library/datetime.html" + "#strftime-and-strptime-behavior" + ) + def strftime(self, date_format: str) -> npt.NDArray[np.object_]: + """ + Convert to Index using specified date_format. + + Return an Index of formatted strings specified by date_format, which + supports the same string format as the python standard library. Details + of the string format can be found in `python string format + doc <%(URL)s>`__. + + Formats supported by the C `strftime` API but not by the python string format + doc (such as `"%%R"`, `"%%r"`) are not officially supported and should be + preferably replaced with their supported equivalents (such as `"%%H:%%M"`, + `"%%I:%%M:%%S %%p"`). + + Note that `PeriodIndex` support additional directives, detailed in + `Period.strftime`. + + Parameters + ---------- + date_format : str + Date format string (e.g. "%%Y-%%m-%%d"). + + Returns + ------- + ndarray[object] + NumPy ndarray of formatted strings. + + See Also + -------- + to_datetime : Convert the given argument to datetime. + DatetimeIndex.normalize : Return DatetimeIndex with times to midnight. + DatetimeIndex.round : Round the DatetimeIndex to the specified freq. + DatetimeIndex.floor : Floor the DatetimeIndex to the specified freq. + Timestamp.strftime : Format a single Timestamp. + Period.strftime : Format a single Period. + + Examples + -------- + >>> rng = pd.date_range(pd.Timestamp("2018-03-10 09:00"), + ... periods=3, freq='s') + >>> rng.strftime('%%B %%d, %%Y, %%r') + Index(['March 10, 2018, 09:00:00 AM', 'March 10, 2018, 09:00:01 AM', + 'March 10, 2018, 09:00:02 AM'], + dtype='object') + """ + result = self._format_native_types(date_format=date_format, na_rep=np.nan) + if using_string_dtype(): + from pandas import StringDtype + + return pd_array(result, dtype=StringDtype(na_value=np.nan)) # type: ignore[return-value] + return result.astype(object, copy=False) + + +_round_doc = """ + Perform {op} operation on the data to the specified `freq`. + + Parameters + ---------- + freq : str or Offset + The frequency level to {op} the index to. Must be a fixed + frequency like 'S' (second) not 'ME' (month end). See + :ref:`frequency aliases ` for + a list of possible `freq` values. + ambiguous : 'infer', bool-ndarray, 'NaT', default 'raise' + Only relevant for DatetimeIndex: + + - 'infer' will attempt to infer fall dst-transition hours based on + order + - bool-ndarray where True signifies a DST time, False designates + a non-DST time (note that this flag is only applicable for + ambiguous times) + - 'NaT' will return NaT where there are ambiguous times + - 'raise' will raise an AmbiguousTimeError if there are ambiguous + times. + + nonexistent : 'shift_forward', 'shift_backward', 'NaT', timedelta, default 'raise' + A nonexistent time does not exist in a particular timezone + where clocks moved forward due to DST. + + - 'shift_forward' will shift the nonexistent time forward to the + closest existing time + - 'shift_backward' will shift the nonexistent time backward to the + closest existing time + - 'NaT' will return NaT where there are nonexistent times + - timedelta objects will shift nonexistent times by the timedelta + - 'raise' will raise an NonExistentTimeError if there are + nonexistent times. + + Returns + ------- + DatetimeIndex, TimedeltaIndex, or Series + Index of the same type for a DatetimeIndex or TimedeltaIndex, + or a Series with the same index for a Series. + + Raises + ------ + ValueError if the `freq` cannot be converted. + + Notes + ----- + If the timestamps have a timezone, {op}ing will take place relative to the + local ("wall") time and re-localized to the same timezone. When {op}ing + near daylight savings time, use ``nonexistent`` and ``ambiguous`` to + control the re-localization behavior. + + Examples + -------- + **DatetimeIndex** + + >>> rng = pd.date_range('1/1/2018 11:59:00', periods=3, freq='min') + >>> rng + DatetimeIndex(['2018-01-01 11:59:00', '2018-01-01 12:00:00', + '2018-01-01 12:01:00'], + dtype='datetime64[ns]', freq='min') + """ + +_round_example = """>>> rng.round('h') + DatetimeIndex(['2018-01-01 12:00:00', '2018-01-01 12:00:00', + '2018-01-01 12:00:00'], + dtype='datetime64[ns]', freq=None) + + **Series** + + >>> pd.Series(rng).dt.round("h") + 0 2018-01-01 12:00:00 + 1 2018-01-01 12:00:00 + 2 2018-01-01 12:00:00 + dtype: datetime64[ns] + + When rounding near a daylight savings time transition, use ``ambiguous`` or + ``nonexistent`` to control how the timestamp should be re-localized. + + >>> rng_tz = pd.DatetimeIndex(["2021-10-31 03:30:00"], tz="Europe/Amsterdam") + + >>> rng_tz.floor("2h", ambiguous=False) + DatetimeIndex(['2021-10-31 02:00:00+01:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + + >>> rng_tz.floor("2h", ambiguous=True) + DatetimeIndex(['2021-10-31 02:00:00+02:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + """ + +_floor_example = """>>> rng.floor('h') + DatetimeIndex(['2018-01-01 11:00:00', '2018-01-01 12:00:00', + '2018-01-01 12:00:00'], + dtype='datetime64[ns]', freq=None) + + **Series** + + >>> pd.Series(rng).dt.floor("h") + 0 2018-01-01 11:00:00 + 1 2018-01-01 12:00:00 + 2 2018-01-01 12:00:00 + dtype: datetime64[ns] + + When rounding near a daylight savings time transition, use ``ambiguous`` or + ``nonexistent`` to control how the timestamp should be re-localized. + + >>> rng_tz = pd.DatetimeIndex(["2021-10-31 03:30:00"], tz="Europe/Amsterdam") + + >>> rng_tz.floor("2h", ambiguous=False) + DatetimeIndex(['2021-10-31 02:00:00+01:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + + >>> rng_tz.floor("2h", ambiguous=True) + DatetimeIndex(['2021-10-31 02:00:00+02:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + """ + +_ceil_example = """>>> rng.ceil('h') + DatetimeIndex(['2018-01-01 12:00:00', '2018-01-01 12:00:00', + '2018-01-01 13:00:00'], + dtype='datetime64[ns]', freq=None) + + **Series** + + >>> pd.Series(rng).dt.ceil("h") + 0 2018-01-01 12:00:00 + 1 2018-01-01 12:00:00 + 2 2018-01-01 13:00:00 + dtype: datetime64[ns] + + When rounding near a daylight savings time transition, use ``ambiguous`` or + ``nonexistent`` to control how the timestamp should be re-localized. + + >>> rng_tz = pd.DatetimeIndex(["2021-10-31 01:30:00"], tz="Europe/Amsterdam") + + >>> rng_tz.ceil("h", ambiguous=False) + DatetimeIndex(['2021-10-31 02:00:00+01:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + + >>> rng_tz.ceil("h", ambiguous=True) + DatetimeIndex(['2021-10-31 02:00:00+02:00'], + dtype='datetime64[ns, Europe/Amsterdam]', freq=None) + """ + + +class TimelikeOps(DatetimeLikeArrayMixin): + """ + Common ops for TimedeltaIndex/DatetimeIndex, but not PeriodIndex. + """ + + _default_dtype: np.dtype + + def __init__( + self, values, dtype=None, freq=lib.no_default, copy: bool = False + ) -> None: + warnings.warn( + # GH#55623 + f"{type(self).__name__}.__init__ is deprecated and will be " + "removed in a future version. Use pd.array instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if dtype is not None: + dtype = pandas_dtype(dtype) + + values = extract_array(values, extract_numpy=True) + if isinstance(values, IntegerArray): + values = values.to_numpy("int64", na_value=iNaT) + + inferred_freq = getattr(values, "_freq", None) + explicit_none = freq is None + freq = freq if freq is not lib.no_default else None + + if isinstance(values, type(self)): + if explicit_none: + # don't inherit from values + pass + elif freq is None: + freq = values.freq + elif freq and values.freq: + freq = to_offset(freq) + freq = _validate_inferred_freq(freq, values.freq) + + if dtype is not None and dtype != values.dtype: + # TODO: we only have tests for this for DTA, not TDA (2022-07-01) + raise TypeError( + f"dtype={dtype} does not match data dtype {values.dtype}" + ) + + dtype = values.dtype + values = values._ndarray + + elif dtype is None: + if isinstance(values, np.ndarray) and values.dtype.kind in "Mm": + dtype = values.dtype + else: + dtype = self._default_dtype + if isinstance(values, np.ndarray) and values.dtype == "i8": + values = values.view(dtype) + + if not isinstance(values, np.ndarray): + raise ValueError( + f"Unexpected type '{type(values).__name__}'. 'values' must be a " + f"{type(self).__name__}, ndarray, or Series or Index " + "containing one of those." + ) + if values.ndim not in [1, 2]: + raise ValueError("Only 1-dimensional input arrays are supported.") + + if values.dtype == "i8": + # for compat with datetime/timedelta/period shared methods, + # we can sometimes get here with int64 values. These represent + # nanosecond UTC (or tz-naive) unix timestamps + if dtype is None: + dtype = self._default_dtype + values = values.view(self._default_dtype) + elif lib.is_np_dtype(dtype, "mM"): + values = values.view(dtype) + elif isinstance(dtype, DatetimeTZDtype): + kind = self._default_dtype.kind + new_dtype = f"{kind}8[{dtype.unit}]" + values = values.view(new_dtype) + + dtype = self._validate_dtype(values, dtype) + + if freq == "infer": + raise ValueError( + f"Frequency inference not allowed in {type(self).__name__}.__init__. " + "Use 'pd.array()' instead." + ) + + if copy: + values = values.copy() + if freq: + freq = to_offset(freq) + if values.dtype.kind == "m" and not isinstance(freq, Tick): + raise TypeError("TimedeltaArray/Index freq must be a Tick") + + NDArrayBacked.__init__(self, values=values, dtype=dtype) + self._freq = freq + + if inferred_freq is None and freq is not None: + type(self)._validate_frequency(self, freq) + + @classmethod + def _validate_dtype(cls, values, dtype): + raise AbstractMethodError(cls) + + @property + def freq(self): + """ + Return the frequency object if it is set, otherwise None. + """ + return self._freq + + @freq.setter + def freq(self, value) -> None: + if value is not None: + value = to_offset(value) + self._validate_frequency(self, value) + if self.dtype.kind == "m" and not isinstance(value, Tick): + raise TypeError("TimedeltaArray/Index freq must be a Tick") + + if self.ndim > 1: + raise ValueError("Cannot set freq with ndim > 1") + + self._freq = value + + @final + def _maybe_pin_freq(self, freq, validate_kwds: dict): + """ + Constructor helper to pin the appropriate `freq` attribute. Assumes + that self._freq is currently set to any freq inferred in + _from_sequence_not_strict. + """ + if freq is None: + # user explicitly passed None -> override any inferred_freq + self._freq = None + elif freq == "infer": + # if self._freq is *not* None then we already inferred a freq + # and there is nothing left to do + if self._freq is None: + # Set _freq directly to bypass duplicative _validate_frequency + # check. + self._freq = to_offset(self.inferred_freq) + elif freq is lib.no_default: + # user did not specify anything, keep inferred freq if the original + # data had one, otherwise do nothing + pass + elif self._freq is None: + # We cannot inherit a freq from the data, so we need to validate + # the user-passed freq + freq = to_offset(freq) + type(self)._validate_frequency(self, freq, **validate_kwds) + self._freq = freq + else: + # Otherwise we just need to check that the user-passed freq + # doesn't conflict with the one we already have. + freq = to_offset(freq) + _validate_inferred_freq(freq, self._freq) + + @final + @classmethod + def _validate_frequency(cls, index, freq: BaseOffset, **kwargs): + """ + Validate that a frequency is compatible with the values of a given + Datetime Array/Index or Timedelta Array/Index + + Parameters + ---------- + index : DatetimeIndex or TimedeltaIndex + The index on which to determine if the given frequency is valid + freq : DateOffset + The frequency to validate + """ + inferred = index.inferred_freq + if index.size == 0 or inferred == freq.freqstr: + return None + + try: + on_freq = cls._generate_range( + start=index[0], + end=None, + periods=len(index), + freq=freq, + unit=index.unit, + **kwargs, + ) + if not np.array_equal(index.asi8, on_freq.asi8): + raise ValueError + except ValueError as err: + if "non-fixed" in str(err): + # non-fixed frequencies are not meaningful for timedelta64; + # we retain that error message + raise err + # GH#11587 the main way this is reached is if the `np.array_equal` + # check above is False. This can also be reached if index[0] + # is `NaT`, in which case the call to `cls._generate_range` will + # raise a ValueError, which we re-raise with a more targeted + # message. + raise ValueError( + f"Inferred frequency {inferred} from passed values " + f"does not conform to passed frequency {freq.freqstr}" + ) from err + + @classmethod + def _generate_range( + cls, start, end, periods: int | None, freq, *args, **kwargs + ) -> Self: + raise AbstractMethodError(cls) + + # -------------------------------------------------------------- + + @cache_readonly + def _creso(self) -> int: + return get_unit_from_dtype(self._ndarray.dtype) + + @cache_readonly + def unit(self) -> str: + # e.g. "ns", "us", "ms" + # error: Argument 1 to "dtype_to_unit" has incompatible type + # "ExtensionDtype"; expected "Union[DatetimeTZDtype, dtype[Any]]" + return dtype_to_unit(self.dtype) # type: ignore[arg-type] + + def as_unit(self, unit: str, round_ok: bool = True) -> Self: + if unit not in ["s", "ms", "us", "ns"]: + raise ValueError("Supported units are 's', 'ms', 'us', 'ns'") + + dtype = np.dtype(f"{self.dtype.kind}8[{unit}]") + new_values = astype_overflowsafe(self._ndarray, dtype, round_ok=round_ok) + + if isinstance(self.dtype, np.dtype): + new_dtype = new_values.dtype + else: + tz = cast("DatetimeArray", self).tz + new_dtype = DatetimeTZDtype(tz=tz, unit=unit) + + # error: Unexpected keyword argument "freq" for "_simple_new" of + # "NDArrayBacked" [call-arg] + return type(self)._simple_new( + new_values, dtype=new_dtype, freq=self.freq # type: ignore[call-arg] + ) + + # TODO: annotate other as DatetimeArray | TimedeltaArray | Timestamp | Timedelta + # with the return type matching input type. TypeVar? + def _ensure_matching_resos(self, other): + if self._creso != other._creso: + # Just as with Timestamp/Timedelta, we cast to the higher resolution + if self._creso < other._creso: + self = self.as_unit(other.unit) + else: + other = other.as_unit(self.unit) + return self, other + + # -------------------------------------------------------------- + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + if ( + ufunc in [np.isnan, np.isinf, np.isfinite] + and len(inputs) == 1 + and inputs[0] is self + ): + # numpy 1.18 changed isinf and isnan to not raise on dt64/td64 + return getattr(ufunc, method)(self._ndarray, **kwargs) + + return super().__array_ufunc__(ufunc, method, *inputs, **kwargs) + + def _round(self, freq, mode, ambiguous, nonexistent): + # round the local times + if isinstance(self.dtype, DatetimeTZDtype): + # operate on naive timestamps, then convert back to aware + self = cast("DatetimeArray", self) + naive = self.tz_localize(None) + result = naive._round(freq, mode, ambiguous, nonexistent) + return result.tz_localize( + self.tz, ambiguous=ambiguous, nonexistent=nonexistent + ) + + values = self.view("i8") + values = cast(np.ndarray, values) + nanos = get_unit_for_round(freq, self._creso) + if nanos == 0: + # GH 52761 + return self.copy() + result_i8 = round_nsint64(values, mode, nanos) + result = self._maybe_mask_results(result_i8, fill_value=iNaT) + result = result.view(self._ndarray.dtype) + return self._simple_new(result, dtype=self.dtype) + + @Appender((_round_doc + _round_example).format(op="round")) + def round( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + return self._round(freq, RoundTo.NEAREST_HALF_EVEN, ambiguous, nonexistent) + + @Appender((_round_doc + _floor_example).format(op="floor")) + def floor( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + return self._round(freq, RoundTo.MINUS_INFTY, ambiguous, nonexistent) + + @Appender((_round_doc + _ceil_example).format(op="ceil")) + def ceil( + self, + freq, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + return self._round(freq, RoundTo.PLUS_INFTY, ambiguous, nonexistent) + + # -------------------------------------------------------------- + # Reductions + + def any(self, *, axis: AxisInt | None = None, skipna: bool = True) -> bool: + # GH#34479 the nanops call will issue a FutureWarning for non-td64 dtype + return nanops.nanany(self._ndarray, axis=axis, skipna=skipna, mask=self.isna()) + + def all(self, *, axis: AxisInt | None = None, skipna: bool = True) -> bool: + # GH#34479 the nanops call will issue a FutureWarning for non-td64 dtype + + return nanops.nanall(self._ndarray, axis=axis, skipna=skipna, mask=self.isna()) + + # -------------------------------------------------------------- + # Frequency Methods + + def _maybe_clear_freq(self) -> None: + self._freq = None + + def _with_freq(self, freq) -> Self: + """ + Helper to get a view on the same data, with a new freq. + + Parameters + ---------- + freq : DateOffset, None, or "infer" + + Returns + ------- + Same type as self + """ + # GH#29843 + if freq is None: + # Always valid + pass + elif len(self) == 0 and isinstance(freq, BaseOffset): + # Always valid. In the TimedeltaArray case, we require a Tick offset + if self.dtype.kind == "m" and not isinstance(freq, Tick): + raise TypeError("TimedeltaArray/Index freq must be a Tick") + else: + # As an internal method, we can ensure this assertion always holds + assert freq == "infer" + freq = to_offset(self.inferred_freq) + + arr = self.view() + arr._freq = freq + return arr + + # -------------------------------------------------------------- + # ExtensionArray Interface + + def _values_for_json(self) -> np.ndarray: + # Small performance bump vs the base class which calls np.asarray(self) + if isinstance(self.dtype, np.dtype): + return self._ndarray + return super()._values_for_json() + + def factorize( + self, + use_na_sentinel: bool = True, + sort: bool = False, + ): + if self.freq is not None: + # We must be unique, so can short-circuit (and retain freq) + codes = np.arange(len(self), dtype=np.intp) + uniques = self.copy() # TODO: copy or view? + if sort and self.freq.n < 0: + codes = codes[::-1] + uniques = uniques[::-1] + return codes, uniques + + if sort: + # algorithms.factorize only passes sort=True here when freq is + # not None, so this should not be reached. + raise NotImplementedError( + f"The 'sort' keyword in {type(self).__name__}.factorize is " + "ignored unless arr.freq is not None. To factorize with sort, " + "call pd.factorize(obj, sort=True) instead." + ) + return super().factorize(use_na_sentinel=use_na_sentinel) + + @classmethod + def _concat_same_type( + cls, + to_concat: Sequence[Self], + axis: AxisInt = 0, + ) -> Self: + new_obj = super()._concat_same_type(to_concat, axis) + + obj = to_concat[0] + + if axis == 0: + # GH 3232: If the concat result is evenly spaced, we can retain the + # original frequency + to_concat = [x for x in to_concat if len(x)] + + if obj.freq is not None and all(x.freq == obj.freq for x in to_concat): + pairs = zip(to_concat[:-1], to_concat[1:]) + if all(pair[0][-1] + obj.freq == pair[1][0] for pair in pairs): + new_freq = obj.freq + new_obj._freq = new_freq + return new_obj + + def copy(self, order: str = "C") -> Self: + new_obj = super().copy(order=order) + new_obj._freq = self.freq + return new_obj + + def interpolate( + self, + *, + method: InterpolateOptions, + axis: int, + index: Index, + limit, + limit_direction, + limit_area, + copy: bool, + **kwargs, + ) -> Self: + """ + See NDFrame.interpolate.__doc__. + """ + # NB: we return type(self) even if copy=False + if method != "linear": + raise NotImplementedError + + if not copy: + out_data = self._ndarray + else: + out_data = self._ndarray.copy() + + missing.interpolate_2d_inplace( + out_data, + method=method, + axis=axis, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + **kwargs, + ) + if not copy: + return self + return type(self)._simple_new(out_data, dtype=self.dtype) + + # -------------------------------------------------------------- + # Unsorted + + @property + def _is_dates_only(self) -> bool: + """ + Check if we are round times at midnight (and no timezone), which will + be given a more compact __repr__ than other cases. For TimedeltaArray + we are checking for multiples of 24H. + """ + if not lib.is_np_dtype(self.dtype): + # i.e. we have a timezone + return False + + values_int = self.asi8 + consider_values = values_int != iNaT + reso = get_unit_from_dtype(self.dtype) + ppd = periods_per_day(reso) + + # TODO: can we reuse is_date_array_normalized? would need a skipna kwd + # (first attempt at this was less performant than this implementation) + even_days = np.logical_and(consider_values, values_int % ppd != 0).sum() == 0 + return even_days + + +# ------------------------------------------------------------------- +# Shared Constructor Helpers + + +def ensure_arraylike_for_datetimelike( + data, copy: bool, cls_name: str +) -> tuple[ArrayLike, bool]: + if not hasattr(data, "dtype"): + # e.g. list, tuple + if not isinstance(data, (list, tuple)) and np.ndim(data) == 0: + # i.e. generator + data = list(data) + + data = construct_1d_object_array_from_listlike(data) + copy = False + elif isinstance(data, ABCMultiIndex): + raise TypeError(f"Cannot create a {cls_name} from a MultiIndex.") + else: + data = extract_array(data, extract_numpy=True) + + if isinstance(data, IntegerArray) or ( + isinstance(data, ArrowExtensionArray) and data.dtype.kind in "iu" + ): + data = data.to_numpy("int64", na_value=iNaT) + copy = False + elif isinstance(data, ArrowExtensionArray): + data = data._maybe_convert_datelike_array() + data = data.to_numpy() + copy = False + elif not isinstance(data, (np.ndarray, ExtensionArray)): + # GH#24539 e.g. xarray, dask object + data = np.asarray(data) + + elif isinstance(data, ABCCategorical): + # GH#18664 preserve tz in going DTI->Categorical->DTI + # TODO: cases where we need to do another pass through maybe_convert_dtype, + # e.g. the categories are timedelta64s + data = data.categories.take(data.codes, fill_value=NaT)._values + copy = False + + return data, copy + + +@overload +def validate_periods(periods: None) -> None: + ... + + +@overload +def validate_periods(periods: int | float) -> int: + ... + + +def validate_periods(periods: int | float | None) -> int | None: + """ + If a `periods` argument is passed to the Datetime/Timedelta Array/Index + constructor, cast it to an integer. + + Parameters + ---------- + periods : None, float, int + + Returns + ------- + periods : None or int + + Raises + ------ + TypeError + if periods is None, float, or int + """ + if periods is not None: + if lib.is_float(periods): + warnings.warn( + # GH#56036 + "Non-integer 'periods' in pd.date_range, pd.timedelta_range, " + "pd.period_range, and pd.interval_range are deprecated and " + "will raise in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + periods = int(periods) + elif not lib.is_integer(periods): + raise TypeError(f"periods must be a number, got {periods}") + return periods + + +def _validate_inferred_freq( + freq: BaseOffset | None, inferred_freq: BaseOffset | None +) -> BaseOffset | None: + """ + If the user passes a freq and another freq is inferred from passed data, + require that they match. + + Parameters + ---------- + freq : DateOffset or None + inferred_freq : DateOffset or None + + Returns + ------- + freq : DateOffset or None + """ + if inferred_freq is not None: + if freq is not None and freq != inferred_freq: + raise ValueError( + f"Inferred frequency {inferred_freq} from passed " + "values does not conform to passed frequency " + f"{freq.freqstr}" + ) + if freq is None: + freq = inferred_freq + + return freq + + +def dtype_to_unit(dtype: DatetimeTZDtype | np.dtype | ArrowDtype) -> str: + """ + Return the unit str corresponding to the dtype's resolution. + + Parameters + ---------- + dtype : DatetimeTZDtype or np.dtype + If np.dtype, we assume it is a datetime64 dtype. + + Returns + ------- + str + """ + if isinstance(dtype, DatetimeTZDtype): + return dtype.unit + elif isinstance(dtype, ArrowDtype): + if dtype.kind not in "mM": + raise ValueError(f"{dtype=} does not have a resolution.") + return dtype.pyarrow_dtype.unit + return np.datetime_data(dtype)[0] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimes.py new file mode 100644 index 0000000000000000000000000000000000000000..0db25db02e75ad201e11ab0f6a6d10205060ea9a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/datetimes.py @@ -0,0 +1,2837 @@ +from __future__ import annotations + +from datetime import ( + datetime, + timedelta, + tzinfo, +) +from typing import ( + TYPE_CHECKING, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas._libs import ( + lib, + tslib, +) +from pandas._libs.tslibs import ( + BaseOffset, + NaT, + NaTType, + Resolution, + Timestamp, + astype_overflowsafe, + fields, + get_resolution, + get_supported_dtype, + get_unit_from_dtype, + ints_to_pydatetime, + is_date_array_normalized, + is_supported_dtype, + is_unitless, + normalize_i8_timestamps, + timezones, + to_offset, + tz_convert_from_utc, + tzconversion, +) +from pandas._libs.tslibs.dtypes import abbrev_to_npy_unit +from pandas.errors import PerformanceWarning +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import validate_inclusive + +from pandas.core.dtypes.common import ( + DT64NS_DTYPE, + INT64_DTYPE, + is_bool_dtype, + is_float_dtype, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + ExtensionDtype, + PeriodDtype, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.arrays import datetimelike as dtl +from pandas.core.arrays._ranges import generate_regular_range +import pandas.core.common as com + +from pandas.tseries.frequencies import get_period_alias +from pandas.tseries.offsets import ( + Day, + Tick, +) + +if TYPE_CHECKING: + from collections.abc import Iterator + + from pandas._typing import ( + ArrayLike, + DateTimeErrorChoices, + DtypeObj, + IntervalClosedType, + Self, + TimeAmbiguous, + TimeNonexistent, + npt, + ) + + from pandas import DataFrame + from pandas.core.arrays import PeriodArray + + +_ITER_CHUNKSIZE = 10_000 + + +@overload +def tz_to_dtype(tz: tzinfo, unit: str = ...) -> DatetimeTZDtype: + ... + + +@overload +def tz_to_dtype(tz: None, unit: str = ...) -> np.dtype[np.datetime64]: + ... + + +def tz_to_dtype( + tz: tzinfo | None, unit: str = "ns" +) -> np.dtype[np.datetime64] | DatetimeTZDtype: + """ + Return a datetime64[ns] dtype appropriate for the given timezone. + + Parameters + ---------- + tz : tzinfo or None + unit : str, default "ns" + + Returns + ------- + np.dtype or Datetime64TZDType + """ + if tz is None: + return np.dtype(f"M8[{unit}]") + else: + return DatetimeTZDtype(tz=tz, unit=unit) + + +def _field_accessor(name: str, field: str, docstring: str | None = None): + def f(self): + values = self._local_timestamps() + + if field in self._bool_ops: + result: np.ndarray + + if field.endswith(("start", "end")): + freq = self.freq + month_kw = 12 + if freq: + kwds = freq.kwds + month_kw = kwds.get("startingMonth", kwds.get("month", 12)) + + result = fields.get_start_end_field( + values, field, self.freqstr, month_kw, reso=self._creso + ) + else: + result = fields.get_date_field(values, field, reso=self._creso) + + # these return a boolean by-definition + return result + + if field in self._object_ops: + result = fields.get_date_name_field(values, field, reso=self._creso) + result = self._maybe_mask_results(result, fill_value=None) + + else: + result = fields.get_date_field(values, field, reso=self._creso) + result = self._maybe_mask_results( + result, fill_value=None, convert="float64" + ) + + return result + + f.__name__ = name + f.__doc__ = docstring + return property(f) + + +# error: Definition of "_concat_same_type" in base class "NDArrayBacked" is +# incompatible with definition in base class "ExtensionArray" +class DatetimeArray(dtl.TimelikeOps, dtl.DatelikeOps): # type: ignore[misc] + """ + Pandas ExtensionArray for tz-naive or tz-aware datetime data. + + .. warning:: + + DatetimeArray is currently experimental, and its API may change + without warning. In particular, :attr:`DatetimeArray.dtype` is + expected to change to always be an instance of an ``ExtensionDtype`` + subclass. + + Parameters + ---------- + values : Series, Index, DatetimeArray, ndarray + The datetime data. + + For DatetimeArray `values` (or a Series or Index boxing one), + `dtype` and `freq` will be extracted from `values`. + + dtype : numpy.dtype or DatetimeTZDtype + Note that the only NumPy dtype allowed is 'datetime64[ns]'. + freq : str or Offset, optional + The frequency. + copy : bool, default False + Whether to copy the underlying array of values. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> pd.arrays.DatetimeArray._from_sequence( + ... pd.DatetimeIndex(['2023-01-01', '2023-01-02'], freq='D')) + + ['2023-01-01 00:00:00', '2023-01-02 00:00:00'] + Length: 2, dtype: datetime64[ns] + """ + + _typ = "datetimearray" + _internal_fill_value = np.datetime64("NaT", "ns") + _recognized_scalars = (datetime, np.datetime64) + _is_recognized_dtype = lambda x: lib.is_np_dtype(x, "M") or isinstance( + x, DatetimeTZDtype + ) + _infer_matches = ("datetime", "datetime64", "date") + + @property + def _scalar_type(self) -> type[Timestamp]: + return Timestamp + + # define my properties & methods for delegation + _bool_ops: list[str] = [ + "is_month_start", + "is_month_end", + "is_quarter_start", + "is_quarter_end", + "is_year_start", + "is_year_end", + "is_leap_year", + ] + _object_ops: list[str] = ["freq", "tz"] + _field_ops: list[str] = [ + "year", + "month", + "day", + "hour", + "minute", + "second", + "weekday", + "dayofweek", + "day_of_week", + "dayofyear", + "day_of_year", + "quarter", + "days_in_month", + "daysinmonth", + "microsecond", + "nanosecond", + ] + _other_ops: list[str] = ["date", "time", "timetz"] + _datetimelike_ops: list[str] = ( + _field_ops + _object_ops + _bool_ops + _other_ops + ["unit"] + ) + _datetimelike_methods: list[str] = [ + "to_period", + "tz_localize", + "tz_convert", + "normalize", + "strftime", + "round", + "floor", + "ceil", + "month_name", + "day_name", + "as_unit", + ] + + # ndim is inherited from ExtensionArray, must exist to ensure + # Timestamp.__richcmp__(DateTimeArray) operates pointwise + + # ensure that operations with numpy arrays defer to our implementation + __array_priority__ = 1000 + + # ----------------------------------------------------------------- + # Constructors + + _dtype: np.dtype[np.datetime64] | DatetimeTZDtype + _freq: BaseOffset | None = None + _default_dtype = DT64NS_DTYPE # used in TimeLikeOps.__init__ + + @classmethod + def _from_scalars(cls, scalars, *, dtype: DtypeObj) -> Self: + if lib.infer_dtype(scalars, skipna=True) not in ["datetime", "datetime64"]: + # TODO: require any NAs be valid-for-DTA + # TODO: if dtype is passed, check for tzawareness compat? + raise ValueError + return cls._from_sequence(scalars, dtype=dtype) + + @classmethod + def _validate_dtype(cls, values, dtype): + # used in TimeLikeOps.__init__ + dtype = _validate_dt64_dtype(dtype) + _validate_dt64_dtype(values.dtype) + if isinstance(dtype, np.dtype): + if values.dtype != dtype: + raise ValueError("Values resolution does not match dtype.") + else: + vunit = np.datetime_data(values.dtype)[0] + if vunit != dtype.unit: + raise ValueError("Values resolution does not match dtype.") + return dtype + + # error: Signature of "_simple_new" incompatible with supertype "NDArrayBacked" + @classmethod + def _simple_new( # type: ignore[override] + cls, + values: npt.NDArray[np.datetime64], + freq: BaseOffset | None = None, + dtype: np.dtype[np.datetime64] | DatetimeTZDtype = DT64NS_DTYPE, + ) -> Self: + assert isinstance(values, np.ndarray) + assert dtype.kind == "M" + if isinstance(dtype, np.dtype): + assert dtype == values.dtype + assert not is_unitless(dtype) + else: + # DatetimeTZDtype. If we have e.g. DatetimeTZDtype[us, UTC], + # then values.dtype should be M8[us]. + assert dtype._creso == get_unit_from_dtype(values.dtype) + + result = super()._simple_new(values, dtype) + result._freq = freq + return result + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy: bool = False): + return cls._from_sequence_not_strict(scalars, dtype=dtype, copy=copy) + + @classmethod + def _from_sequence_not_strict( + cls, + data, + *, + dtype=None, + copy: bool = False, + tz=lib.no_default, + freq: str | BaseOffset | lib.NoDefault | None = lib.no_default, + dayfirst: bool = False, + yearfirst: bool = False, + ambiguous: TimeAmbiguous = "raise", + ) -> Self: + """ + A non-strict version of _from_sequence, called from DatetimeIndex.__new__. + """ + + # if the user either explicitly passes tz=None or a tz-naive dtype, we + # disallows inferring a tz. + explicit_tz_none = tz is None + if tz is lib.no_default: + tz = None + else: + tz = timezones.maybe_get_tz(tz) + + dtype = _validate_dt64_dtype(dtype) + # if dtype has an embedded tz, capture it + tz = _validate_tz_from_dtype(dtype, tz, explicit_tz_none) + + unit = None + if dtype is not None: + unit = dtl.dtype_to_unit(dtype) + + data, copy = dtl.ensure_arraylike_for_datetimelike( + data, copy, cls_name="DatetimeArray" + ) + inferred_freq = None + if isinstance(data, DatetimeArray): + inferred_freq = data.freq + + subarr, tz = _sequence_to_dt64( + data, + copy=copy, + tz=tz, + dayfirst=dayfirst, + yearfirst=yearfirst, + ambiguous=ambiguous, + out_unit=unit, + ) + # We have to call this again after possibly inferring a tz above + _validate_tz_from_dtype(dtype, tz, explicit_tz_none) + if tz is not None and explicit_tz_none: + raise ValueError( + "Passed data is timezone-aware, incompatible with 'tz=None'. " + "Use obj.tz_localize(None) instead." + ) + + data_unit = np.datetime_data(subarr.dtype)[0] + data_dtype = tz_to_dtype(tz, data_unit) + result = cls._simple_new(subarr, freq=inferred_freq, dtype=data_dtype) + if unit is not None and unit != result.unit: + # If unit was specified in user-passed dtype, cast to it here + result = result.as_unit(unit) + + validate_kwds = {"ambiguous": ambiguous} + result._maybe_pin_freq(freq, validate_kwds) + return result + + @classmethod + def _generate_range( + cls, + start, + end, + periods: int | None, + freq, + tz=None, + normalize: bool = False, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + inclusive: IntervalClosedType = "both", + *, + unit: str | None = None, + ) -> Self: + periods = dtl.validate_periods(periods) + if freq is None and any(x is None for x in [periods, start, end]): + raise ValueError("Must provide freq argument if no data is supplied") + + if com.count_not_none(start, end, periods, freq) != 3: + raise ValueError( + "Of the four parameters: start, end, periods, " + "and freq, exactly three must be specified" + ) + freq = to_offset(freq) + + if start is not None: + start = Timestamp(start) + + if end is not None: + end = Timestamp(end) + + if start is NaT or end is NaT: + raise ValueError("Neither `start` nor `end` can be NaT") + + if unit is not None: + if unit not in ["s", "ms", "us", "ns"]: + raise ValueError("'unit' must be one of 's', 'ms', 'us', 'ns'") + else: + unit = "ns" + + if start is not None: + start = start.as_unit(unit, round_ok=False) + if end is not None: + end = end.as_unit(unit, round_ok=False) + + left_inclusive, right_inclusive = validate_inclusive(inclusive) + start, end = _maybe_normalize_endpoints(start, end, normalize) + tz = _infer_tz_from_endpoints(start, end, tz) + + if tz is not None: + # Localize the start and end arguments + start = _maybe_localize_point(start, freq, tz, ambiguous, nonexistent) + end = _maybe_localize_point(end, freq, tz, ambiguous, nonexistent) + + if freq is not None: + # We break Day arithmetic (fixed 24 hour) here and opt for + # Day to mean calendar day (23/24/25 hour). Therefore, strip + # tz info from start and day to avoid DST arithmetic + if isinstance(freq, Day): + if start is not None: + start = start.tz_localize(None) + if end is not None: + end = end.tz_localize(None) + + if isinstance(freq, Tick): + i8values = generate_regular_range(start, end, periods, freq, unit=unit) + else: + xdr = _generate_range( + start=start, end=end, periods=periods, offset=freq, unit=unit + ) + i8values = np.array([x._value for x in xdr], dtype=np.int64) + + endpoint_tz = start.tz if start is not None else end.tz + + if tz is not None and endpoint_tz is None: + if not timezones.is_utc(tz): + # short-circuit tz_localize_to_utc which would make + # an unnecessary copy with UTC but be a no-op. + creso = abbrev_to_npy_unit(unit) + i8values = tzconversion.tz_localize_to_utc( + i8values, + tz, + ambiguous=ambiguous, + nonexistent=nonexistent, + creso=creso, + ) + + # i8values is localized datetime64 array -> have to convert + # start/end as well to compare + if start is not None: + start = start.tz_localize(tz, ambiguous, nonexistent) + if end is not None: + end = end.tz_localize(tz, ambiguous, nonexistent) + else: + # Create a linearly spaced date_range in local time + # Nanosecond-granularity timestamps aren't always correctly + # representable with doubles, so we limit the range that we + # pass to np.linspace as much as possible + periods = cast(int, periods) + i8values = ( + np.linspace(0, end._value - start._value, periods, dtype="int64") + + start._value + ) + if i8values.dtype != "i8": + # 2022-01-09 I (brock) am not sure if it is possible for this + # to overflow and cast to e.g. f8, but if it does we need to cast + i8values = i8values.astype("i8") + + if start == end: + if not left_inclusive and not right_inclusive: + i8values = i8values[1:-1] + else: + start_i8 = Timestamp(start)._value + end_i8 = Timestamp(end)._value + if not left_inclusive or not right_inclusive: + if not left_inclusive and len(i8values) and i8values[0] == start_i8: + i8values = i8values[1:] + if not right_inclusive and len(i8values) and i8values[-1] == end_i8: + i8values = i8values[:-1] + + dt64_values = i8values.view(f"datetime64[{unit}]") + dtype = tz_to_dtype(tz, unit=unit) + return cls._simple_new(dt64_values, freq=freq, dtype=dtype) + + # ----------------------------------------------------------------- + # DatetimeLike Interface + + def _unbox_scalar(self, value) -> np.datetime64: + if not isinstance(value, self._scalar_type) and value is not NaT: + raise ValueError("'value' should be a Timestamp.") + self._check_compatible_with(value) + if value is NaT: + return np.datetime64(value._value, self.unit) + else: + return value.as_unit(self.unit).asm8 + + def _scalar_from_string(self, value) -> Timestamp | NaTType: + return Timestamp(value, tz=self.tz) + + def _check_compatible_with(self, other) -> None: + if other is NaT: + return + self._assert_tzawareness_compat(other) + + # ----------------------------------------------------------------- + # Descriptive Properties + + def _box_func(self, x: np.datetime64) -> Timestamp | NaTType: + # GH#42228 + value = x.view("i8") + ts = Timestamp._from_value_and_reso(value, reso=self._creso, tz=self.tz) + return ts + + @property + # error: Return type "Union[dtype, DatetimeTZDtype]" of "dtype" + # incompatible with return type "ExtensionDtype" in supertype + # "ExtensionArray" + def dtype(self) -> np.dtype[np.datetime64] | DatetimeTZDtype: # type: ignore[override] + """ + The dtype for the DatetimeArray. + + .. warning:: + + A future version of pandas will change dtype to never be a + ``numpy.dtype``. Instead, :attr:`DatetimeArray.dtype` will + always be an instance of an ``ExtensionDtype`` subclass. + + Returns + ------- + numpy.dtype or DatetimeTZDtype + If the values are tz-naive, then ``np.dtype('datetime64[ns]')`` + is returned. + + If the values are tz-aware, then the ``DatetimeTZDtype`` + is returned. + """ + return self._dtype + + @property + def tz(self) -> tzinfo | None: + """ + Return the timezone. + + Returns + ------- + datetime.tzinfo, pytz.tzinfo.BaseTZInfo, dateutil.tz.tz.tzfile, or None + Returns None when the array is tz-naive. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.tz + datetime.timezone.utc + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.tz + datetime.timezone.utc + """ + # GH 18595 + return getattr(self.dtype, "tz", None) + + @tz.setter + def tz(self, value): + # GH 3746: Prevent localizing or converting the index by setting tz + raise AttributeError( + "Cannot directly set timezone. Use tz_localize() " + "or tz_convert() as appropriate" + ) + + @property + def tzinfo(self) -> tzinfo | None: + """ + Alias for tz attribute + """ + return self.tz + + @property # NB: override with cache_readonly in immutable subclasses + def is_normalized(self) -> bool: + """ + Returns True if all of the dates are at midnight ("no time") + """ + return is_date_array_normalized(self.asi8, self.tz, reso=self._creso) + + @property # NB: override with cache_readonly in immutable subclasses + def _resolution_obj(self) -> Resolution: + return get_resolution(self.asi8, self.tz, reso=self._creso) + + # ---------------------------------------------------------------- + # Array-Like / EA-Interface Methods + + def __array__(self, dtype=None, copy=None) -> np.ndarray: + if dtype is None and self.tz: + # The default for tz-aware is object, to preserve tz info + dtype = object + + return super().__array__(dtype=dtype, copy=copy) + + def __iter__(self) -> Iterator: + """ + Return an iterator over the boxed values + + Yields + ------ + tstamp : Timestamp + """ + if self.ndim > 1: + for i in range(len(self)): + yield self[i] + else: + # convert in chunks of 10k for efficiency + data = self.asi8 + length = len(self) + chunksize = _ITER_CHUNKSIZE + chunks = (length // chunksize) + 1 + + for i in range(chunks): + start_i = i * chunksize + end_i = min((i + 1) * chunksize, length) + converted = ints_to_pydatetime( + data[start_i:end_i], + tz=self.tz, + box="timestamp", + reso=self._creso, + ) + yield from converted + + def astype(self, dtype, copy: bool = True): + # We handle + # --> datetime + # --> period + # DatetimeLikeArrayMixin Super handles the rest. + dtype = pandas_dtype(dtype) + + if dtype == self.dtype: + if copy: + return self.copy() + return self + + elif isinstance(dtype, ExtensionDtype): + if not isinstance(dtype, DatetimeTZDtype): + # e.g. Sparse[datetime64[ns]] + return super().astype(dtype, copy=copy) + elif self.tz is None: + # pre-2.0 this did self.tz_localize(dtype.tz), which did not match + # the Series behavior which did + # values.tz_localize("UTC").tz_convert(dtype.tz) + raise TypeError( + "Cannot use .astype to convert from timezone-naive dtype to " + "timezone-aware dtype. Use obj.tz_localize instead or " + "series.dt.tz_localize instead" + ) + else: + # tzaware unit conversion e.g. datetime64[s, UTC] + np_dtype = np.dtype(dtype.str) + res_values = astype_overflowsafe(self._ndarray, np_dtype, copy=copy) + return type(self)._simple_new(res_values, dtype=dtype, freq=self.freq) + + elif ( + self.tz is None + and lib.is_np_dtype(dtype, "M") + and not is_unitless(dtype) + and is_supported_dtype(dtype) + ): + # unit conversion e.g. datetime64[s] + res_values = astype_overflowsafe(self._ndarray, dtype, copy=True) + return type(self)._simple_new(res_values, dtype=res_values.dtype) + # TODO: preserve freq? + + elif self.tz is not None and lib.is_np_dtype(dtype, "M"): + # pre-2.0 behavior for DTA/DTI was + # values.tz_convert("UTC").tz_localize(None), which did not match + # the Series behavior + raise TypeError( + "Cannot use .astype to convert from timezone-aware dtype to " + "timezone-naive dtype. Use obj.tz_localize(None) or " + "obj.tz_convert('UTC').tz_localize(None) instead." + ) + + elif ( + self.tz is None + and lib.is_np_dtype(dtype, "M") + and dtype != self.dtype + and is_unitless(dtype) + ): + raise TypeError( + "Casting to unit-less dtype 'datetime64' is not supported. " + "Pass e.g. 'datetime64[ns]' instead." + ) + + elif isinstance(dtype, PeriodDtype): + return self.to_period(freq=dtype.freq) + return dtl.DatetimeLikeArrayMixin.astype(self, dtype, copy) + + # ----------------------------------------------------------------- + # Rendering Methods + + def _format_native_types( + self, *, na_rep: str | float = "NaT", date_format=None, **kwargs + ) -> npt.NDArray[np.object_]: + if date_format is None and self._is_dates_only: + # Only dates and no timezone: provide a default format + date_format = "%Y-%m-%d" + + return tslib.format_array_from_datetime( + self.asi8, tz=self.tz, format=date_format, na_rep=na_rep, reso=self._creso + ) + + # ----------------------------------------------------------------- + # Comparison Methods + + def _has_same_tz(self, other) -> bool: + # vzone shouldn't be None if value is non-datetime like + if isinstance(other, np.datetime64): + # convert to Timestamp as np.datetime64 doesn't have tz attr + other = Timestamp(other) + + if not hasattr(other, "tzinfo"): + return False + other_tz = other.tzinfo + return timezones.tz_compare(self.tzinfo, other_tz) + + def _assert_tzawareness_compat(self, other) -> None: + # adapted from _Timestamp._assert_tzawareness_compat + other_tz = getattr(other, "tzinfo", None) + other_dtype = getattr(other, "dtype", None) + + if isinstance(other_dtype, DatetimeTZDtype): + # Get tzinfo from Series dtype + other_tz = other.dtype.tz + if other is NaT: + # pd.NaT quacks both aware and naive + pass + elif self.tz is None: + if other_tz is not None: + raise TypeError( + "Cannot compare tz-naive and tz-aware datetime-like objects." + ) + elif other_tz is None: + raise TypeError( + "Cannot compare tz-naive and tz-aware datetime-like objects" + ) + + # ----------------------------------------------------------------- + # Arithmetic Methods + + def _add_offset(self, offset: BaseOffset) -> Self: + assert not isinstance(offset, Tick) + + if self.tz is not None: + values = self.tz_localize(None) + else: + values = self + + try: + res_values = offset._apply_array(values._ndarray) + if res_values.dtype.kind == "i": + # error: Argument 1 to "view" of "ndarray" has incompatible type + # "dtype[datetime64] | DatetimeTZDtype"; expected + # "dtype[Any] | type[Any] | _SupportsDType[dtype[Any]]" + res_values = res_values.view(values.dtype) # type: ignore[arg-type] + except NotImplementedError: + warnings.warn( + "Non-vectorized DateOffset being applied to Series or DatetimeIndex.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + res_values = self.astype("O") + offset + # TODO(GH#55564): as_unit will be unnecessary + result = type(self)._from_sequence(res_values).as_unit(self.unit) + if not len(self): + # GH#30336 _from_sequence won't be able to infer self.tz + return result.tz_localize(self.tz) + + else: + result = type(self)._simple_new(res_values, dtype=res_values.dtype) + if offset.normalize: + result = result.normalize() + result._freq = None + + if self.tz is not None: + result = result.tz_localize(self.tz) + + return result + + # ----------------------------------------------------------------- + # Timezone Conversion and Localization Methods + + def _local_timestamps(self) -> npt.NDArray[np.int64]: + """ + Convert to an i8 (unix-like nanosecond timestamp) representation + while keeping the local timezone and not using UTC. + This is used to calculate time-of-day information as if the timestamps + were timezone-naive. + """ + if self.tz is None or timezones.is_utc(self.tz): + # Avoid the copy that would be made in tzconversion + return self.asi8 + return tz_convert_from_utc(self.asi8, self.tz, reso=self._creso) + + def tz_convert(self, tz) -> Self: + """ + Convert tz-aware Datetime Array/Index from one time zone to another. + + Parameters + ---------- + tz : str, pytz.timezone, dateutil.tz.tzfile, datetime.tzinfo or None + Time zone for time. Corresponding timestamps would be converted + to this time zone of the Datetime Array/Index. A `tz` of None will + convert to UTC and remove the timezone information. + + Returns + ------- + Array or Index + + Raises + ------ + TypeError + If Datetime Array/Index is tz-naive. + + See Also + -------- + DatetimeIndex.tz : A timezone that has a variable offset from UTC. + DatetimeIndex.tz_localize : Localize tz-naive DatetimeIndex to a + given time zone, or remove timezone from a tz-aware DatetimeIndex. + + Examples + -------- + With the `tz` parameter, we can change the DatetimeIndex + to other time zones: + + >>> dti = pd.date_range(start='2014-08-01 09:00', + ... freq='h', periods=3, tz='Europe/Berlin') + + >>> dti + DatetimeIndex(['2014-08-01 09:00:00+02:00', + '2014-08-01 10:00:00+02:00', + '2014-08-01 11:00:00+02:00'], + dtype='datetime64[ns, Europe/Berlin]', freq='h') + + >>> dti.tz_convert('US/Central') + DatetimeIndex(['2014-08-01 02:00:00-05:00', + '2014-08-01 03:00:00-05:00', + '2014-08-01 04:00:00-05:00'], + dtype='datetime64[ns, US/Central]', freq='h') + + With the ``tz=None``, we can remove the timezone (after converting + to UTC if necessary): + + >>> dti = pd.date_range(start='2014-08-01 09:00', freq='h', + ... periods=3, tz='Europe/Berlin') + + >>> dti + DatetimeIndex(['2014-08-01 09:00:00+02:00', + '2014-08-01 10:00:00+02:00', + '2014-08-01 11:00:00+02:00'], + dtype='datetime64[ns, Europe/Berlin]', freq='h') + + >>> dti.tz_convert(None) + DatetimeIndex(['2014-08-01 07:00:00', + '2014-08-01 08:00:00', + '2014-08-01 09:00:00'], + dtype='datetime64[ns]', freq='h') + """ + tz = timezones.maybe_get_tz(tz) + + if self.tz is None: + # tz naive, use tz_localize + raise TypeError( + "Cannot convert tz-naive timestamps, use tz_localize to localize" + ) + + # No conversion since timestamps are all UTC to begin with + dtype = tz_to_dtype(tz, unit=self.unit) + return self._simple_new(self._ndarray, dtype=dtype, freq=self.freq) + + @dtl.ravel_compat + def tz_localize( + self, + tz, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + """ + Localize tz-naive Datetime Array/Index to tz-aware Datetime Array/Index. + + This method takes a time zone (tz) naive Datetime Array/Index object + and makes this time zone aware. It does not move the time to another + time zone. + + This method can also be used to do the inverse -- to create a time + zone unaware object from an aware object. To that end, pass `tz=None`. + + Parameters + ---------- + tz : str, pytz.timezone, dateutil.tz.tzfile, datetime.tzinfo or None + Time zone to convert timestamps to. Passing ``None`` will + remove the time zone information preserving local time. + ambiguous : 'infer', 'NaT', bool array, default 'raise' + When clocks moved backward due to DST, ambiguous times may arise. + For example in Central European Time (UTC+01), when going from + 03:00 DST to 02:00 non-DST, 02:30:00 local time occurs both at + 00:30:00 UTC and at 01:30:00 UTC. In such a situation, the + `ambiguous` parameter dictates how ambiguous times should be + handled. + + - 'infer' will attempt to infer fall dst-transition hours based on + order + - bool-ndarray where True signifies a DST time, False signifies a + non-DST time (note that this flag is only applicable for + ambiguous times) + - 'NaT' will return NaT where there are ambiguous times + - 'raise' will raise an AmbiguousTimeError if there are ambiguous + times. + + nonexistent : 'shift_forward', 'shift_backward, 'NaT', timedelta, \ +default 'raise' + A nonexistent time does not exist in a particular timezone + where clocks moved forward due to DST. + + - 'shift_forward' will shift the nonexistent time forward to the + closest existing time + - 'shift_backward' will shift the nonexistent time backward to the + closest existing time + - 'NaT' will return NaT where there are nonexistent times + - timedelta objects will shift nonexistent times by the timedelta + - 'raise' will raise an NonExistentTimeError if there are + nonexistent times. + + Returns + ------- + Same type as self + Array/Index converted to the specified time zone. + + Raises + ------ + TypeError + If the Datetime Array/Index is tz-aware and tz is not None. + + See Also + -------- + DatetimeIndex.tz_convert : Convert tz-aware DatetimeIndex from + one time zone to another. + + Examples + -------- + >>> tz_naive = pd.date_range('2018-03-01 09:00', periods=3) + >>> tz_naive + DatetimeIndex(['2018-03-01 09:00:00', '2018-03-02 09:00:00', + '2018-03-03 09:00:00'], + dtype='datetime64[ns]', freq='D') + + Localize DatetimeIndex in US/Eastern time zone: + + >>> tz_aware = tz_naive.tz_localize(tz='US/Eastern') + >>> tz_aware + DatetimeIndex(['2018-03-01 09:00:00-05:00', + '2018-03-02 09:00:00-05:00', + '2018-03-03 09:00:00-05:00'], + dtype='datetime64[ns, US/Eastern]', freq=None) + + With the ``tz=None``, we can remove the time zone information + while keeping the local time (not converted to UTC): + + >>> tz_aware.tz_localize(None) + DatetimeIndex(['2018-03-01 09:00:00', '2018-03-02 09:00:00', + '2018-03-03 09:00:00'], + dtype='datetime64[ns]', freq=None) + + Be careful with DST changes. When there is sequential data, pandas can + infer the DST time: + + >>> s = pd.to_datetime(pd.Series(['2018-10-28 01:30:00', + ... '2018-10-28 02:00:00', + ... '2018-10-28 02:30:00', + ... '2018-10-28 02:00:00', + ... '2018-10-28 02:30:00', + ... '2018-10-28 03:00:00', + ... '2018-10-28 03:30:00'])) + >>> s.dt.tz_localize('CET', ambiguous='infer') + 0 2018-10-28 01:30:00+02:00 + 1 2018-10-28 02:00:00+02:00 + 2 2018-10-28 02:30:00+02:00 + 3 2018-10-28 02:00:00+01:00 + 4 2018-10-28 02:30:00+01:00 + 5 2018-10-28 03:00:00+01:00 + 6 2018-10-28 03:30:00+01:00 + dtype: datetime64[ns, CET] + + In some cases, inferring the DST is impossible. In such cases, you can + pass an ndarray to the ambiguous parameter to set the DST explicitly + + >>> s = pd.to_datetime(pd.Series(['2018-10-28 01:20:00', + ... '2018-10-28 02:36:00', + ... '2018-10-28 03:46:00'])) + >>> s.dt.tz_localize('CET', ambiguous=np.array([True, True, False])) + 0 2018-10-28 01:20:00+02:00 + 1 2018-10-28 02:36:00+02:00 + 2 2018-10-28 03:46:00+01:00 + dtype: datetime64[ns, CET] + + If the DST transition causes nonexistent times, you can shift these + dates forward or backwards with a timedelta object or `'shift_forward'` + or `'shift_backwards'`. + + >>> s = pd.to_datetime(pd.Series(['2015-03-29 02:30:00', + ... '2015-03-29 03:30:00'])) + >>> s.dt.tz_localize('Europe/Warsaw', nonexistent='shift_forward') + 0 2015-03-29 03:00:00+02:00 + 1 2015-03-29 03:30:00+02:00 + dtype: datetime64[ns, Europe/Warsaw] + + >>> s.dt.tz_localize('Europe/Warsaw', nonexistent='shift_backward') + 0 2015-03-29 01:59:59.999999999+01:00 + 1 2015-03-29 03:30:00+02:00 + dtype: datetime64[ns, Europe/Warsaw] + + >>> s.dt.tz_localize('Europe/Warsaw', nonexistent=pd.Timedelta('1h')) + 0 2015-03-29 03:30:00+02:00 + 1 2015-03-29 03:30:00+02:00 + dtype: datetime64[ns, Europe/Warsaw] + """ + nonexistent_options = ("raise", "NaT", "shift_forward", "shift_backward") + if nonexistent not in nonexistent_options and not isinstance( + nonexistent, timedelta + ): + raise ValueError( + "The nonexistent argument must be one of 'raise', " + "'NaT', 'shift_forward', 'shift_backward' or " + "a timedelta object" + ) + + if self.tz is not None: + if tz is None: + new_dates = tz_convert_from_utc(self.asi8, self.tz, reso=self._creso) + else: + raise TypeError("Already tz-aware, use tz_convert to convert.") + else: + tz = timezones.maybe_get_tz(tz) + # Convert to UTC + + new_dates = tzconversion.tz_localize_to_utc( + self.asi8, + tz, + ambiguous=ambiguous, + nonexistent=nonexistent, + creso=self._creso, + ) + new_dates_dt64 = new_dates.view(f"M8[{self.unit}]") + dtype = tz_to_dtype(tz, unit=self.unit) + + freq = None + if timezones.is_utc(tz) or (len(self) == 1 and not isna(new_dates_dt64[0])): + # we can preserve freq + # TODO: Also for fixed-offsets + freq = self.freq + elif tz is None and self.tz is None: + # no-op + freq = self.freq + return self._simple_new(new_dates_dt64, dtype=dtype, freq=freq) + + # ---------------------------------------------------------------- + # Conversion Methods - Vectorized analogues of Timestamp methods + + def to_pydatetime(self) -> npt.NDArray[np.object_]: + """ + Return an ndarray of ``datetime.datetime`` objects. + + Returns + ------- + numpy.ndarray + + Examples + -------- + >>> idx = pd.date_range('2018-02-27', periods=3) + >>> idx.to_pydatetime() + array([datetime.datetime(2018, 2, 27, 0, 0), + datetime.datetime(2018, 2, 28, 0, 0), + datetime.datetime(2018, 3, 1, 0, 0)], dtype=object) + """ + return ints_to_pydatetime(self.asi8, tz=self.tz, reso=self._creso) + + def normalize(self) -> Self: + """ + Convert times to midnight. + + The time component of the date-time is converted to midnight i.e. + 00:00:00. This is useful in cases, when the time does not matter. + Length is unaltered. The timezones are unaffected. + + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on Datetime Array/Index. + + Returns + ------- + DatetimeArray, DatetimeIndex or Series + The same type as the original data. Series will have the same + name and index. DatetimeIndex will have the same name. + + See Also + -------- + floor : Floor the datetimes to the specified freq. + ceil : Ceil the datetimes to the specified freq. + round : Round the datetimes to the specified freq. + + Examples + -------- + >>> idx = pd.date_range(start='2014-08-01 10:00', freq='h', + ... periods=3, tz='Asia/Calcutta') + >>> idx + DatetimeIndex(['2014-08-01 10:00:00+05:30', + '2014-08-01 11:00:00+05:30', + '2014-08-01 12:00:00+05:30'], + dtype='datetime64[ns, Asia/Calcutta]', freq='h') + >>> idx.normalize() + DatetimeIndex(['2014-08-01 00:00:00+05:30', + '2014-08-01 00:00:00+05:30', + '2014-08-01 00:00:00+05:30'], + dtype='datetime64[ns, Asia/Calcutta]', freq=None) + """ + new_values = normalize_i8_timestamps(self.asi8, self.tz, reso=self._creso) + dt64_values = new_values.view(self._ndarray.dtype) + + dta = type(self)._simple_new(dt64_values, dtype=dt64_values.dtype) + dta = dta._with_freq("infer") + if self.tz is not None: + dta = dta.tz_localize(self.tz) + return dta + + def to_period(self, freq=None) -> PeriodArray: + """ + Cast to PeriodArray/PeriodIndex at a particular frequency. + + Converts DatetimeArray/Index to PeriodArray/PeriodIndex. + + Parameters + ---------- + freq : str or Period, optional + One of pandas' :ref:`period aliases ` + or an Period object. Will be inferred by default. + + Returns + ------- + PeriodArray/PeriodIndex + + Raises + ------ + ValueError + When converting a DatetimeArray/Index with non-regular values, + so that a frequency cannot be inferred. + + See Also + -------- + PeriodIndex: Immutable ndarray holding ordinal values. + DatetimeIndex.to_pydatetime: Return DatetimeIndex as object. + + Examples + -------- + >>> df = pd.DataFrame({"y": [1, 2, 3]}, + ... index=pd.to_datetime(["2000-03-31 00:00:00", + ... "2000-05-31 00:00:00", + ... "2000-08-31 00:00:00"])) + >>> df.index.to_period("M") + PeriodIndex(['2000-03', '2000-05', '2000-08'], + dtype='period[M]') + + Infer the daily frequency + + >>> idx = pd.date_range("2017-01-01", periods=2) + >>> idx.to_period() + PeriodIndex(['2017-01-01', '2017-01-02'], + dtype='period[D]') + """ + from pandas.core.arrays import PeriodArray + + if self.tz is not None: + warnings.warn( + "Converting to PeriodArray/Index representation " + "will drop timezone information.", + UserWarning, + stacklevel=find_stack_level(), + ) + + if freq is None: + freq = self.freqstr or self.inferred_freq + if isinstance(self.freq, BaseOffset) and hasattr( + self.freq, "_period_dtype_code" + ): + freq = PeriodDtype(self.freq)._freqstr + + if freq is None: + raise ValueError( + "You must pass a freq argument as current index has none." + ) + + res = get_period_alias(freq) + + # https://github.com/pandas-dev/pandas/issues/33358 + if res is None: + res = freq + + freq = res + return PeriodArray._from_datetime64(self._ndarray, freq, tz=self.tz) + + # ----------------------------------------------------------------- + # Properties - Vectorized Timestamp Properties/Methods + + def month_name(self, locale=None) -> npt.NDArray[np.object_]: + """ + Return the month names with specified locale. + + Parameters + ---------- + locale : str, optional + Locale determining the language in which to return the month name. + Default is English locale (``'en_US.utf8'``). Use the command + ``locale -a`` on your terminal on Unix systems to find your locale + language code. + + Returns + ------- + Series or Index + Series or Index of month names. + + Examples + -------- + >>> s = pd.Series(pd.date_range(start='2018-01', freq='ME', periods=3)) + >>> s + 0 2018-01-31 + 1 2018-02-28 + 2 2018-03-31 + dtype: datetime64[ns] + >>> s.dt.month_name() + 0 January + 1 February + 2 March + dtype: object + + >>> idx = pd.date_range(start='2018-01', freq='ME', periods=3) + >>> idx + DatetimeIndex(['2018-01-31', '2018-02-28', '2018-03-31'], + dtype='datetime64[ns]', freq='ME') + >>> idx.month_name() + Index(['January', 'February', 'March'], dtype='object') + + Using the ``locale`` parameter you can set a different locale language, + for example: ``idx.month_name(locale='pt_BR.utf8')`` will return month + names in Brazilian Portuguese language. + + >>> idx = pd.date_range(start='2018-01', freq='ME', periods=3) + >>> idx + DatetimeIndex(['2018-01-31', '2018-02-28', '2018-03-31'], + dtype='datetime64[ns]', freq='ME') + >>> idx.month_name(locale='pt_BR.utf8') # doctest: +SKIP + Index(['Janeiro', 'Fevereiro', 'Março'], dtype='object') + """ + values = self._local_timestamps() + + result = fields.get_date_name_field( + values, "month_name", locale=locale, reso=self._creso + ) + result = self._maybe_mask_results(result, fill_value=None) + if using_string_dtype(): + from pandas import ( + StringDtype, + array as pd_array, + ) + + return pd_array(result, dtype=StringDtype(na_value=np.nan)) # type: ignore[return-value] + return result + + def day_name(self, locale=None) -> npt.NDArray[np.object_]: + """ + Return the day names with specified locale. + + Parameters + ---------- + locale : str, optional + Locale determining the language in which to return the day name. + Default is English locale (``'en_US.utf8'``). Use the command + ``locale -a`` on your terminal on Unix systems to find your locale + language code. + + Returns + ------- + Series or Index + Series or Index of day names. + + Examples + -------- + >>> s = pd.Series(pd.date_range(start='2018-01-01', freq='D', periods=3)) + >>> s + 0 2018-01-01 + 1 2018-01-02 + 2 2018-01-03 + dtype: datetime64[ns] + >>> s.dt.day_name() + 0 Monday + 1 Tuesday + 2 Wednesday + dtype: object + + >>> idx = pd.date_range(start='2018-01-01', freq='D', periods=3) + >>> idx + DatetimeIndex(['2018-01-01', '2018-01-02', '2018-01-03'], + dtype='datetime64[ns]', freq='D') + >>> idx.day_name() + Index(['Monday', 'Tuesday', 'Wednesday'], dtype='object') + + Using the ``locale`` parameter you can set a different locale language, + for example: ``idx.day_name(locale='pt_BR.utf8')`` will return day + names in Brazilian Portuguese language. + + >>> idx = pd.date_range(start='2018-01-01', freq='D', periods=3) + >>> idx + DatetimeIndex(['2018-01-01', '2018-01-02', '2018-01-03'], + dtype='datetime64[ns]', freq='D') + >>> idx.day_name(locale='pt_BR.utf8') # doctest: +SKIP + Index(['Segunda', 'Terça', 'Quarta'], dtype='object') + """ + values = self._local_timestamps() + + result = fields.get_date_name_field( + values, "day_name", locale=locale, reso=self._creso + ) + result = self._maybe_mask_results(result, fill_value=None) + if using_string_dtype(): + # TODO: no tests that check for dtype of result as of 2024-08-15 + from pandas import ( + StringDtype, + array as pd_array, + ) + + return pd_array(result, dtype=StringDtype(na_value=np.nan)) # type: ignore[return-value] + return result + + @property + def time(self) -> npt.NDArray[np.object_]: + """ + Returns numpy array of :class:`datetime.time` objects. + + The time part of the Timestamps. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.time + 0 10:00:00 + 1 11:00:00 + dtype: object + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.time + array([datetime.time(10, 0), datetime.time(11, 0)], dtype=object) + """ + # If the Timestamps have a timezone that is not UTC, + # convert them into their i8 representation while + # keeping their timezone and not using UTC + timestamps = self._local_timestamps() + + return ints_to_pydatetime(timestamps, box="time", reso=self._creso) + + @property + def timetz(self) -> npt.NDArray[np.object_]: + """ + Returns numpy array of :class:`datetime.time` objects with timezones. + + The time part of the Timestamps. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.timetz + 0 10:00:00+00:00 + 1 11:00:00+00:00 + dtype: object + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.timetz + array([datetime.time(10, 0, tzinfo=datetime.timezone.utc), + datetime.time(11, 0, tzinfo=datetime.timezone.utc)], dtype=object) + """ + return ints_to_pydatetime(self.asi8, self.tz, box="time", reso=self._creso) + + @property + def date(self) -> npt.NDArray[np.object_]: + """ + Returns numpy array of python :class:`datetime.date` objects. + + Namely, the date part of Timestamps without time and + timezone information. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.date + 0 2020-01-01 + 1 2020-02-01 + dtype: object + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.date + array([datetime.date(2020, 1, 1), datetime.date(2020, 2, 1)], dtype=object) + """ + # If the Timestamps have a timezone that is not UTC, + # convert them into their i8 representation while + # keeping their timezone and not using UTC + timestamps = self._local_timestamps() + + return ints_to_pydatetime(timestamps, box="date", reso=self._creso) + + def isocalendar(self) -> DataFrame: + """ + Calculate year, week, and day according to the ISO 8601 standard. + + Returns + ------- + DataFrame + With columns year, week and day. + + See Also + -------- + Timestamp.isocalendar : Function return a 3-tuple containing ISO year, + week number, and weekday for the given Timestamp object. + datetime.date.isocalendar : Return a named tuple object with + three components: year, week and weekday. + + Examples + -------- + >>> idx = pd.date_range(start='2019-12-29', freq='D', periods=4) + >>> idx.isocalendar() + year week day + 2019-12-29 2019 52 7 + 2019-12-30 2020 1 1 + 2019-12-31 2020 1 2 + 2020-01-01 2020 1 3 + >>> idx.isocalendar().week + 2019-12-29 52 + 2019-12-30 1 + 2019-12-31 1 + 2020-01-01 1 + Freq: D, Name: week, dtype: UInt32 + """ + from pandas import DataFrame + + values = self._local_timestamps() + sarray = fields.build_isocalendar_sarray(values, reso=self._creso) + iso_calendar_df = DataFrame( + sarray, columns=["year", "week", "day"], dtype="UInt32" + ) + if self._hasna: + iso_calendar_df.iloc[self._isnan] = None + return iso_calendar_df + + year = _field_accessor( + "year", + "Y", + """ + The year of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="YE") + ... ) + >>> datetime_series + 0 2000-12-31 + 1 2001-12-31 + 2 2002-12-31 + dtype: datetime64[ns] + >>> datetime_series.dt.year + 0 2000 + 1 2001 + 2 2002 + dtype: int32 + """, + ) + month = _field_accessor( + "month", + "M", + """ + The month as January=1, December=12. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="ME") + ... ) + >>> datetime_series + 0 2000-01-31 + 1 2000-02-29 + 2 2000-03-31 + dtype: datetime64[ns] + >>> datetime_series.dt.month + 0 1 + 1 2 + 2 3 + dtype: int32 + """, + ) + day = _field_accessor( + "day", + "D", + """ + The day of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="D") + ... ) + >>> datetime_series + 0 2000-01-01 + 1 2000-01-02 + 2 2000-01-03 + dtype: datetime64[ns] + >>> datetime_series.dt.day + 0 1 + 1 2 + 2 3 + dtype: int32 + """, + ) + hour = _field_accessor( + "hour", + "h", + """ + The hours of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="h") + ... ) + >>> datetime_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 01:00:00 + 2 2000-01-01 02:00:00 + dtype: datetime64[ns] + >>> datetime_series.dt.hour + 0 0 + 1 1 + 2 2 + dtype: int32 + """, + ) + minute = _field_accessor( + "minute", + "m", + """ + The minutes of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="min") + ... ) + >>> datetime_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 00:01:00 + 2 2000-01-01 00:02:00 + dtype: datetime64[ns] + >>> datetime_series.dt.minute + 0 0 + 1 1 + 2 2 + dtype: int32 + """, + ) + second = _field_accessor( + "second", + "s", + """ + The seconds of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="s") + ... ) + >>> datetime_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 00:00:01 + 2 2000-01-01 00:00:02 + dtype: datetime64[ns] + >>> datetime_series.dt.second + 0 0 + 1 1 + 2 2 + dtype: int32 + """, + ) + microsecond = _field_accessor( + "microsecond", + "us", + """ + The microseconds of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="us") + ... ) + >>> datetime_series + 0 2000-01-01 00:00:00.000000 + 1 2000-01-01 00:00:00.000001 + 2 2000-01-01 00:00:00.000002 + dtype: datetime64[ns] + >>> datetime_series.dt.microsecond + 0 0 + 1 1 + 2 2 + dtype: int32 + """, + ) + nanosecond = _field_accessor( + "nanosecond", + "ns", + """ + The nanoseconds of the datetime. + + Examples + -------- + >>> datetime_series = pd.Series( + ... pd.date_range("2000-01-01", periods=3, freq="ns") + ... ) + >>> datetime_series + 0 2000-01-01 00:00:00.000000000 + 1 2000-01-01 00:00:00.000000001 + 2 2000-01-01 00:00:00.000000002 + dtype: datetime64[ns] + >>> datetime_series.dt.nanosecond + 0 0 + 1 1 + 2 2 + dtype: int32 + """, + ) + _dayofweek_doc = """ + The day of the week with Monday=0, Sunday=6. + + Return the day of the week. It is assumed the week starts on + Monday, which is denoted by 0 and ends on Sunday which is denoted + by 6. This method is available on both Series with datetime + values (using the `dt` accessor) or DatetimeIndex. + + Returns + ------- + Series or Index + Containing integers indicating the day number. + + See Also + -------- + Series.dt.dayofweek : Alias. + Series.dt.weekday : Alias. + Series.dt.day_name : Returns the name of the day of the week. + + Examples + -------- + >>> s = pd.date_range('2016-12-31', '2017-01-08', freq='D').to_series() + >>> s.dt.dayofweek + 2016-12-31 5 + 2017-01-01 6 + 2017-01-02 0 + 2017-01-03 1 + 2017-01-04 2 + 2017-01-05 3 + 2017-01-06 4 + 2017-01-07 5 + 2017-01-08 6 + Freq: D, dtype: int32 + """ + day_of_week = _field_accessor("day_of_week", "dow", _dayofweek_doc) + dayofweek = day_of_week + weekday = day_of_week + + day_of_year = _field_accessor( + "dayofyear", + "doy", + """ + The ordinal day of the year. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.dayofyear + 0 1 + 1 32 + dtype: int32 + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.dayofyear + Index([1, 32], dtype='int32') + """, + ) + dayofyear = day_of_year + quarter = _field_accessor( + "quarter", + "q", + """ + The quarter of the date. + + Examples + -------- + For Series: + + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "4/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-04-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.quarter + 0 1 + 1 2 + dtype: int32 + + For DatetimeIndex: + + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", + ... "2/1/2020 11:00:00+00:00"]) + >>> idx.quarter + Index([1, 1], dtype='int32') + """, + ) + days_in_month = _field_accessor( + "days_in_month", + "dim", + """ + The number of days in the month. + + Examples + -------- + >>> s = pd.Series(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> s = pd.to_datetime(s) + >>> s + 0 2020-01-01 10:00:00+00:00 + 1 2020-02-01 11:00:00+00:00 + dtype: datetime64[ns, UTC] + >>> s.dt.daysinmonth + 0 31 + 1 29 + dtype: int32 + """, + ) + daysinmonth = days_in_month + _is_month_doc = """ + Indicates whether the date is the {first_or_last} day of the month. + + Returns + ------- + Series or array + For Series, returns a Series with boolean values. + For DatetimeIndex, returns a boolean array. + + See Also + -------- + is_month_start : Return a boolean indicating whether the date + is the first day of the month. + is_month_end : Return a boolean indicating whether the date + is the last day of the month. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> s = pd.Series(pd.date_range("2018-02-27", periods=3)) + >>> s + 0 2018-02-27 + 1 2018-02-28 + 2 2018-03-01 + dtype: datetime64[ns] + >>> s.dt.is_month_start + 0 False + 1 False + 2 True + dtype: bool + >>> s.dt.is_month_end + 0 False + 1 True + 2 False + dtype: bool + + >>> idx = pd.date_range("2018-02-27", periods=3) + >>> idx.is_month_start + array([False, False, True]) + >>> idx.is_month_end + array([False, True, False]) + """ + is_month_start = _field_accessor( + "is_month_start", "is_month_start", _is_month_doc.format(first_or_last="first") + ) + + is_month_end = _field_accessor( + "is_month_end", "is_month_end", _is_month_doc.format(first_or_last="last") + ) + + is_quarter_start = _field_accessor( + "is_quarter_start", + "is_quarter_start", + """ + Indicator for whether the date is the first day of a quarter. + + Returns + ------- + is_quarter_start : Series or DatetimeIndex + The same type as the original data with boolean values. Series will + have the same name and index. DatetimeIndex will have the same + name. + + See Also + -------- + quarter : Return the quarter of the date. + is_quarter_end : Similar property for indicating the quarter end. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> df = pd.DataFrame({'dates': pd.date_range("2017-03-30", + ... periods=4)}) + >>> df.assign(quarter=df.dates.dt.quarter, + ... is_quarter_start=df.dates.dt.is_quarter_start) + dates quarter is_quarter_start + 0 2017-03-30 1 False + 1 2017-03-31 1 False + 2 2017-04-01 2 True + 3 2017-04-02 2 False + + >>> idx = pd.date_range('2017-03-30', periods=4) + >>> idx + DatetimeIndex(['2017-03-30', '2017-03-31', '2017-04-01', '2017-04-02'], + dtype='datetime64[ns]', freq='D') + + >>> idx.is_quarter_start + array([False, False, True, False]) + """, + ) + is_quarter_end = _field_accessor( + "is_quarter_end", + "is_quarter_end", + """ + Indicator for whether the date is the last day of a quarter. + + Returns + ------- + is_quarter_end : Series or DatetimeIndex + The same type as the original data with boolean values. Series will + have the same name and index. DatetimeIndex will have the same + name. + + See Also + -------- + quarter : Return the quarter of the date. + is_quarter_start : Similar property indicating the quarter start. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> df = pd.DataFrame({'dates': pd.date_range("2017-03-30", + ... periods=4)}) + >>> df.assign(quarter=df.dates.dt.quarter, + ... is_quarter_end=df.dates.dt.is_quarter_end) + dates quarter is_quarter_end + 0 2017-03-30 1 False + 1 2017-03-31 1 True + 2 2017-04-01 2 False + 3 2017-04-02 2 False + + >>> idx = pd.date_range('2017-03-30', periods=4) + >>> idx + DatetimeIndex(['2017-03-30', '2017-03-31', '2017-04-01', '2017-04-02'], + dtype='datetime64[ns]', freq='D') + + >>> idx.is_quarter_end + array([False, True, False, False]) + """, + ) + is_year_start = _field_accessor( + "is_year_start", + "is_year_start", + """ + Indicate whether the date is the first day of a year. + + Returns + ------- + Series or DatetimeIndex + The same type as the original data with boolean values. Series will + have the same name and index. DatetimeIndex will have the same + name. + + See Also + -------- + is_year_end : Similar property indicating the last day of the year. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> dates = pd.Series(pd.date_range("2017-12-30", periods=3)) + >>> dates + 0 2017-12-30 + 1 2017-12-31 + 2 2018-01-01 + dtype: datetime64[ns] + + >>> dates.dt.is_year_start + 0 False + 1 False + 2 True + dtype: bool + + >>> idx = pd.date_range("2017-12-30", periods=3) + >>> idx + DatetimeIndex(['2017-12-30', '2017-12-31', '2018-01-01'], + dtype='datetime64[ns]', freq='D') + + >>> idx.is_year_start + array([False, False, True]) + """, + ) + is_year_end = _field_accessor( + "is_year_end", + "is_year_end", + """ + Indicate whether the date is the last day of the year. + + Returns + ------- + Series or DatetimeIndex + The same type as the original data with boolean values. Series will + have the same name and index. DatetimeIndex will have the same + name. + + See Also + -------- + is_year_start : Similar property indicating the start of the year. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> dates = pd.Series(pd.date_range("2017-12-30", periods=3)) + >>> dates + 0 2017-12-30 + 1 2017-12-31 + 2 2018-01-01 + dtype: datetime64[ns] + + >>> dates.dt.is_year_end + 0 False + 1 True + 2 False + dtype: bool + + >>> idx = pd.date_range("2017-12-30", periods=3) + >>> idx + DatetimeIndex(['2017-12-30', '2017-12-31', '2018-01-01'], + dtype='datetime64[ns]', freq='D') + + >>> idx.is_year_end + array([False, True, False]) + """, + ) + is_leap_year = _field_accessor( + "is_leap_year", + "is_leap_year", + """ + Boolean indicator if the date belongs to a leap year. + + A leap year is a year, which has 366 days (instead of 365) including + 29th of February as an intercalary day. + Leap years are years which are multiples of four with the exception + of years divisible by 100 but not by 400. + + Returns + ------- + Series or ndarray + Booleans indicating if dates belong to a leap year. + + Examples + -------- + This method is available on Series with datetime values under + the ``.dt`` accessor, and directly on DatetimeIndex. + + >>> idx = pd.date_range("2012-01-01", "2015-01-01", freq="YE") + >>> idx + DatetimeIndex(['2012-12-31', '2013-12-31', '2014-12-31'], + dtype='datetime64[ns]', freq='YE-DEC') + >>> idx.is_leap_year + array([ True, False, False]) + + >>> dates_series = pd.Series(idx) + >>> dates_series + 0 2012-12-31 + 1 2013-12-31 + 2 2014-12-31 + dtype: datetime64[ns] + >>> dates_series.dt.is_leap_year + 0 True + 1 False + 2 False + dtype: bool + """, + ) + + def to_julian_date(self) -> npt.NDArray[np.float64]: + """ + Convert Datetime Array to float64 ndarray of Julian Dates. + 0 Julian date is noon January 1, 4713 BC. + https://en.wikipedia.org/wiki/Julian_day + """ + + # http://mysite.verizon.net/aesir_research/date/jdalg2.htm + year = np.asarray(self.year) + month = np.asarray(self.month) + day = np.asarray(self.day) + testarr = month < 3 + year[testarr] -= 1 + month[testarr] += 12 + return ( + day + + np.fix((153 * month - 457) / 5) + + 365 * year + + np.floor(year / 4) + - np.floor(year / 100) + + np.floor(year / 400) + + 1_721_118.5 + + ( + self.hour + + self.minute / 60 + + self.second / 3600 + + self.microsecond / 3600 / 10**6 + + self.nanosecond / 3600 / 10**9 + ) + / 24 + ) + + # ----------------------------------------------------------------- + # Reductions + + def std( + self, + axis=None, + dtype=None, + out=None, + ddof: int = 1, + keepdims: bool = False, + skipna: bool = True, + ): + """ + Return sample standard deviation over requested axis. + + Normalized by `N-1` by default. This can be changed using ``ddof``. + + Parameters + ---------- + axis : int, optional + Axis for the function to be applied on. For :class:`pandas.Series` + this parameter is unused and defaults to ``None``. + ddof : int, default 1 + Degrees of Freedom. The divisor used in calculations is `N - ddof`, + where `N` represents the number of elements. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is ``NA``, the result + will be ``NA``. + + Returns + ------- + Timedelta + + See Also + -------- + numpy.ndarray.std : Returns the standard deviation of the array elements + along given axis. + Series.std : Return sample standard deviation over requested axis. + + Examples + -------- + For :class:`pandas.DatetimeIndex`: + + >>> idx = pd.date_range('2001-01-01 00:00', periods=3) + >>> idx + DatetimeIndex(['2001-01-01', '2001-01-02', '2001-01-03'], + dtype='datetime64[ns]', freq='D') + >>> idx.std() + Timedelta('1 days 00:00:00') + """ + # Because std is translation-invariant, we can get self.std + # by calculating (self - Timestamp(0)).std, and we can do it + # without creating a copy by using a view on self._ndarray + from pandas.core.arrays import TimedeltaArray + + # Find the td64 dtype with the same resolution as our dt64 dtype + dtype_str = self._ndarray.dtype.name.replace("datetime64", "timedelta64") + dtype = np.dtype(dtype_str) + + tda = TimedeltaArray._simple_new(self._ndarray.view(dtype), dtype=dtype) + + return tda.std(axis=axis, out=out, ddof=ddof, keepdims=keepdims, skipna=skipna) + + +# ------------------------------------------------------------------- +# Constructor Helpers + + +def _sequence_to_dt64( + data: ArrayLike, + *, + copy: bool = False, + tz: tzinfo | None = None, + dayfirst: bool = False, + yearfirst: bool = False, + ambiguous: TimeAmbiguous = "raise", + out_unit: str | None = None, +): + """ + Parameters + ---------- + data : np.ndarray or ExtensionArray + dtl.ensure_arraylike_for_datetimelike has already been called. + copy : bool, default False + tz : tzinfo or None, default None + dayfirst : bool, default False + yearfirst : bool, default False + ambiguous : str, bool, or arraylike, default 'raise' + See pandas._libs.tslibs.tzconversion.tz_localize_to_utc. + out_unit : str or None, default None + Desired output resolution. + + Returns + ------- + result : numpy.ndarray + The sequence converted to a numpy array with dtype ``datetime64[unit]``. + Where `unit` is "ns" unless specified otherwise by `out_unit`. + tz : tzinfo or None + Either the user-provided tzinfo or one inferred from the data. + + Raises + ------ + TypeError : PeriodDType data is passed + """ + + # By this point we are assured to have either a numpy array or Index + data, copy = maybe_convert_dtype(data, copy, tz=tz) + data_dtype = getattr(data, "dtype", None) + + if out_unit is None: + out_unit = "ns" + out_dtype = np.dtype(f"M8[{out_unit}]") + + if data_dtype == object or is_string_dtype(data_dtype): + # TODO: We do not have tests specific to string-dtypes, + # also complex or categorical or other extension + data = cast(np.ndarray, data) + copy = False + if lib.infer_dtype(data, skipna=False) == "integer": + # Much more performant than going through array_to_datetime + data = data.astype(np.int64) + elif tz is not None and ambiguous == "raise": + obj_data = np.asarray(data, dtype=object) + result = tslib.array_to_datetime_with_tz( + obj_data, + tz=tz, + dayfirst=dayfirst, + yearfirst=yearfirst, + creso=abbrev_to_npy_unit(out_unit), + ) + return result, tz + else: + converted, inferred_tz = objects_to_datetime64( + data, + dayfirst=dayfirst, + yearfirst=yearfirst, + allow_object=False, + out_unit=out_unit or "ns", + ) + copy = False + if tz and inferred_tz: + # two timezones: convert to intended from base UTC repr + # GH#42505 by convention, these are _already_ UTC + result = converted + + elif inferred_tz: + tz = inferred_tz + result = converted + + else: + result, _ = _construct_from_dt64_naive( + converted, tz=tz, copy=copy, ambiguous=ambiguous + ) + return result, tz + + data_dtype = data.dtype + + # `data` may have originally been a Categorical[datetime64[ns, tz]], + # so we need to handle these types. + if isinstance(data_dtype, DatetimeTZDtype): + # DatetimeArray -> ndarray + data = cast(DatetimeArray, data) + tz = _maybe_infer_tz(tz, data.tz) + result = data._ndarray + + elif lib.is_np_dtype(data_dtype, "M"): + # tz-naive DatetimeArray or ndarray[datetime64] + if isinstance(data, DatetimeArray): + data = data._ndarray + + data = cast(np.ndarray, data) + result, copy = _construct_from_dt64_naive( + data, tz=tz, copy=copy, ambiguous=ambiguous + ) + + else: + # must be integer dtype otherwise + # assume this data are epoch timestamps + if data.dtype != INT64_DTYPE: + data = data.astype(np.int64, copy=False) + copy = False + data = cast(np.ndarray, data) + result = data.view(out_dtype) + + if copy: + result = result.copy() + + assert isinstance(result, np.ndarray), type(result) + assert result.dtype.kind == "M" + assert result.dtype != "M8" + assert is_supported_dtype(result.dtype) + return result, tz + + +def _construct_from_dt64_naive( + data: np.ndarray, *, tz: tzinfo | None, copy: bool, ambiguous: TimeAmbiguous +) -> tuple[np.ndarray, bool]: + """ + Convert datetime64 data to a supported dtype, localizing if necessary. + """ + # Caller is responsible for ensuring + # lib.is_np_dtype(data.dtype) + + new_dtype = data.dtype + if not is_supported_dtype(new_dtype): + # Cast to the nearest supported unit, generally "s" + new_dtype = get_supported_dtype(new_dtype) + data = astype_overflowsafe(data, dtype=new_dtype, copy=False) + copy = False + + if data.dtype.byteorder == ">": + # TODO: better way to handle this? non-copying alternative? + # without this, test_constructor_datetime64_bigendian fails + data = data.astype(data.dtype.newbyteorder("<")) + new_dtype = data.dtype + copy = False + + if tz is not None: + # Convert tz-naive to UTC + # TODO: if tz is UTC, are there situations where we *don't* want a + # copy? tz_localize_to_utc always makes one. + shape = data.shape + if data.ndim > 1: + data = data.ravel() + + data_unit = get_unit_from_dtype(new_dtype) + data = tzconversion.tz_localize_to_utc( + data.view("i8"), tz, ambiguous=ambiguous, creso=data_unit + ) + data = data.view(new_dtype) + data = data.reshape(shape) + + assert data.dtype == new_dtype, data.dtype + result = data + + return result, copy + + +def objects_to_datetime64( + data: np.ndarray, + dayfirst, + yearfirst, + utc: bool = False, + errors: DateTimeErrorChoices = "raise", + allow_object: bool = False, + out_unit: str = "ns", +): + """ + Convert data to array of timestamps. + + Parameters + ---------- + data : np.ndarray[object] + dayfirst : bool + yearfirst : bool + utc : bool, default False + Whether to convert/localize timestamps to UTC. + errors : {'raise', 'ignore', 'coerce'} + allow_object : bool + Whether to return an object-dtype ndarray instead of raising if the + data contains more than one timezone. + out_unit : str, default "ns" + + Returns + ------- + result : ndarray + np.datetime64[out_unit] if returned values represent wall times or UTC + timestamps. + object if mixed timezones + inferred_tz : tzinfo or None + If not None, then the datetime64 values in `result` denote UTC timestamps. + + Raises + ------ + ValueError : if data cannot be converted to datetimes + TypeError : When a type cannot be converted to datetime + """ + assert errors in ["raise", "ignore", "coerce"] + + # if str-dtype, convert + data = np.asarray(data, dtype=np.object_) + + result, tz_parsed = tslib.array_to_datetime( + data, + errors=errors, + utc=utc, + dayfirst=dayfirst, + yearfirst=yearfirst, + creso=abbrev_to_npy_unit(out_unit), + ) + + if tz_parsed is not None: + # We can take a shortcut since the datetime64 numpy array + # is in UTC + return result, tz_parsed + elif result.dtype.kind == "M": + return result, tz_parsed + elif result.dtype == object: + # GH#23675 when called via `pd.to_datetime`, returning an object-dtype + # array is allowed. When called via `pd.DatetimeIndex`, we can + # only accept datetime64 dtype, so raise TypeError if object-dtype + # is returned, as that indicates the values can be recognized as + # datetimes but they have conflicting timezones/awareness + if allow_object: + return result, tz_parsed + raise TypeError("DatetimeIndex has mixed timezones") + else: # pragma: no cover + # GH#23675 this TypeError should never be hit, whereas the TypeError + # in the object-dtype branch above is reachable. + raise TypeError(result) + + +def maybe_convert_dtype(data, copy: bool, tz: tzinfo | None = None): + """ + Convert data based on dtype conventions, issuing + errors where appropriate. + + Parameters + ---------- + data : np.ndarray or pd.Index + copy : bool + tz : tzinfo or None, default None + + Returns + ------- + data : np.ndarray or pd.Index + copy : bool + + Raises + ------ + TypeError : PeriodDType data is passed + """ + if not hasattr(data, "dtype"): + # e.g. collections.deque + return data, copy + + if is_float_dtype(data.dtype): + # pre-2.0 we treated these as wall-times, inconsistent with ints + # GH#23675, GH#45573 deprecated to treat symmetrically with integer dtypes. + # Note: data.astype(np.int64) fails ARM tests, see + # https://github.com/pandas-dev/pandas/issues/49468. + data = data.astype(DT64NS_DTYPE).view("i8") + copy = False + + elif lib.is_np_dtype(data.dtype, "m") or is_bool_dtype(data.dtype): + # GH#29794 enforcing deprecation introduced in GH#23539 + raise TypeError(f"dtype {data.dtype} cannot be converted to datetime64[ns]") + elif isinstance(data.dtype, PeriodDtype): + # Note: without explicitly raising here, PeriodIndex + # test_setops.test_join_does_not_recur fails + raise TypeError( + "Passing PeriodDtype data is invalid. Use `data.to_timestamp()` instead" + ) + + elif isinstance(data.dtype, ExtensionDtype) and not isinstance( + data.dtype, DatetimeTZDtype + ): + # TODO: We have no tests for these + data = np.array(data, dtype=np.object_) + copy = False + + return data, copy + + +# ------------------------------------------------------------------- +# Validation and Inference + + +def _maybe_infer_tz(tz: tzinfo | None, inferred_tz: tzinfo | None) -> tzinfo | None: + """ + If a timezone is inferred from data, check that it is compatible with + the user-provided timezone, if any. + + Parameters + ---------- + tz : tzinfo or None + inferred_tz : tzinfo or None + + Returns + ------- + tz : tzinfo or None + + Raises + ------ + TypeError : if both timezones are present but do not match + """ + if tz is None: + tz = inferred_tz + elif inferred_tz is None: + pass + elif not timezones.tz_compare(tz, inferred_tz): + raise TypeError( + f"data is already tz-aware {inferred_tz}, unable to " + f"set specified tz: {tz}" + ) + return tz + + +def _validate_dt64_dtype(dtype): + """ + Check that a dtype, if passed, represents either a numpy datetime64[ns] + dtype or a pandas DatetimeTZDtype. + + Parameters + ---------- + dtype : object + + Returns + ------- + dtype : None, numpy.dtype, or DatetimeTZDtype + + Raises + ------ + ValueError : invalid dtype + + Notes + ----- + Unlike _validate_tz_from_dtype, this does _not_ allow non-existent + tz errors to go through + """ + if dtype is not None: + dtype = pandas_dtype(dtype) + if dtype == np.dtype("M8"): + # no precision, disallowed GH#24806 + msg = ( + "Passing in 'datetime64' dtype with no precision is not allowed. " + "Please pass in 'datetime64[ns]' instead." + ) + raise ValueError(msg) + + if ( + isinstance(dtype, np.dtype) + and (dtype.kind != "M" or not is_supported_dtype(dtype)) + ) or not isinstance(dtype, (np.dtype, DatetimeTZDtype)): + raise ValueError( + f"Unexpected value for 'dtype': '{dtype}'. " + "Must be 'datetime64[s]', 'datetime64[ms]', 'datetime64[us]', " + "'datetime64[ns]' or DatetimeTZDtype'." + ) + + if getattr(dtype, "tz", None): + # https://github.com/pandas-dev/pandas/issues/18595 + # Ensure that we have a standard timezone for pytz objects. + # Without this, things like adding an array of timedeltas and + # a tz-aware Timestamp (with a tz specific to its datetime) will + # be incorrect(ish?) for the array as a whole + dtype = cast(DatetimeTZDtype, dtype) + dtype = DatetimeTZDtype( + unit=dtype.unit, tz=timezones.tz_standardize(dtype.tz) + ) + + return dtype + + +def _validate_tz_from_dtype( + dtype, tz: tzinfo | None, explicit_tz_none: bool = False +) -> tzinfo | None: + """ + If the given dtype is a DatetimeTZDtype, extract the implied + tzinfo object from it and check that it does not conflict with the given + tz. + + Parameters + ---------- + dtype : dtype, str + tz : None, tzinfo + explicit_tz_none : bool, default False + Whether tz=None was passed explicitly, as opposed to lib.no_default. + + Returns + ------- + tz : consensus tzinfo + + Raises + ------ + ValueError : on tzinfo mismatch + """ + if dtype is not None: + if isinstance(dtype, str): + try: + dtype = DatetimeTZDtype.construct_from_string(dtype) + except TypeError: + # Things like `datetime64[ns]`, which is OK for the + # constructors, but also nonsense, which should be validated + # but not by us. We *do* allow non-existent tz errors to + # go through + pass + dtz = getattr(dtype, "tz", None) + if dtz is not None: + if tz is not None and not timezones.tz_compare(tz, dtz): + raise ValueError("cannot supply both a tz and a dtype with a tz") + if explicit_tz_none: + raise ValueError("Cannot pass both a timezone-aware dtype and tz=None") + tz = dtz + + if tz is not None and lib.is_np_dtype(dtype, "M"): + # We also need to check for the case where the user passed a + # tz-naive dtype (i.e. datetime64[ns]) + if tz is not None and not timezones.tz_compare(tz, dtz): + raise ValueError( + "cannot supply both a tz and a " + "timezone-naive dtype (i.e. datetime64[ns])" + ) + + return tz + + +def _infer_tz_from_endpoints( + start: Timestamp, end: Timestamp, tz: tzinfo | None +) -> tzinfo | None: + """ + If a timezone is not explicitly given via `tz`, see if one can + be inferred from the `start` and `end` endpoints. If more than one + of these inputs provides a timezone, require that they all agree. + + Parameters + ---------- + start : Timestamp + end : Timestamp + tz : tzinfo or None + + Returns + ------- + tz : tzinfo or None + + Raises + ------ + TypeError : if start and end timezones do not agree + """ + try: + inferred_tz = timezones.infer_tzinfo(start, end) + except AssertionError as err: + # infer_tzinfo raises AssertionError if passed mismatched timezones + raise TypeError( + "Start and end cannot both be tz-aware with different timezones" + ) from err + + inferred_tz = timezones.maybe_get_tz(inferred_tz) + tz = timezones.maybe_get_tz(tz) + + if tz is not None and inferred_tz is not None: + if not timezones.tz_compare(inferred_tz, tz): + raise AssertionError("Inferred time zone not equal to passed time zone") + + elif inferred_tz is not None: + tz = inferred_tz + + return tz + + +def _maybe_normalize_endpoints( + start: Timestamp | None, end: Timestamp | None, normalize: bool +): + if normalize: + if start is not None: + start = start.normalize() + + if end is not None: + end = end.normalize() + + return start, end + + +def _maybe_localize_point( + ts: Timestamp | None, freq, tz, ambiguous, nonexistent +) -> Timestamp | None: + """ + Localize a start or end Timestamp to the timezone of the corresponding + start or end Timestamp + + Parameters + ---------- + ts : start or end Timestamp to potentially localize + freq : Tick, DateOffset, or None + tz : str, timezone object or None + ambiguous: str, localization behavior for ambiguous times + nonexistent: str, localization behavior for nonexistent times + + Returns + ------- + ts : Timestamp + """ + # Make sure start and end are timezone localized if: + # 1) freq = a Timedelta-like frequency (Tick) + # 2) freq = None i.e. generating a linspaced range + if ts is not None and ts.tzinfo is None: + # Note: We can't ambiguous='infer' a singular ambiguous time; however, + # we have historically defaulted ambiguous=False + ambiguous = ambiguous if ambiguous != "infer" else False + localize_args = {"ambiguous": ambiguous, "nonexistent": nonexistent, "tz": None} + if isinstance(freq, Tick) or freq is None: + localize_args["tz"] = tz + ts = ts.tz_localize(**localize_args) + return ts + + +def _generate_range( + start: Timestamp | None, + end: Timestamp | None, + periods: int | None, + offset: BaseOffset, + *, + unit: str, +): + """ + Generates a sequence of dates corresponding to the specified time + offset. Similar to dateutil.rrule except uses pandas DateOffset + objects to represent time increments. + + Parameters + ---------- + start : Timestamp or None + end : Timestamp or None + periods : int or None + offset : DateOffset + unit : str + + Notes + ----- + * This method is faster for generating weekdays than dateutil.rrule + * At least two of (start, end, periods) must be specified. + * If both start and end are specified, the returned dates will + satisfy start <= date <= end. + + Returns + ------- + dates : generator object + """ + offset = to_offset(offset) + + # Argument 1 to "Timestamp" has incompatible type "Optional[Timestamp]"; + # expected "Union[integer[Any], float, str, date, datetime64]" + start = Timestamp(start) # type: ignore[arg-type] + if start is not NaT: + start = start.as_unit(unit) + else: + start = None + + # Argument 1 to "Timestamp" has incompatible type "Optional[Timestamp]"; + # expected "Union[integer[Any], float, str, date, datetime64]" + end = Timestamp(end) # type: ignore[arg-type] + if end is not NaT: + end = end.as_unit(unit) + else: + end = None + + if start and not offset.is_on_offset(start): + # Incompatible types in assignment (expression has type "datetime", + # variable has type "Optional[Timestamp]") + start = offset.rollforward(start) # type: ignore[assignment] + + elif end and not offset.is_on_offset(end): + # Incompatible types in assignment (expression has type "datetime", + # variable has type "Optional[Timestamp]") + end = offset.rollback(end) # type: ignore[assignment] + + # Unsupported operand types for < ("Timestamp" and "None") + if periods is None and end < start and offset.n >= 0: # type: ignore[operator] + end = None + periods = 0 + + if end is None: + # error: No overload variant of "__radd__" of "BaseOffset" matches + # argument type "None" + end = start + (periods - 1) * offset # type: ignore[operator] + + if start is None: + # error: No overload variant of "__radd__" of "BaseOffset" matches + # argument type "None" + start = end - (periods - 1) * offset # type: ignore[operator] + + start = cast(Timestamp, start) + end = cast(Timestamp, end) + + cur = start + if offset.n >= 0: + while cur <= end: + yield cur + + if cur == end: + # GH#24252 avoid overflows by not performing the addition + # in offset.apply unless we have to + break + + # faster than cur + offset + next_date = offset._apply(cur) + next_date = next_date.as_unit(unit) + if next_date <= cur: + raise ValueError(f"Offset {offset} did not increment date") + cur = next_date + else: + while cur >= end: + yield cur + + if cur == end: + # GH#24252 avoid overflows by not performing the addition + # in offset.apply unless we have to + break + + # faster than cur + offset + next_date = offset._apply(cur) + next_date = next_date.as_unit(unit) + if next_date >= cur: + raise ValueError(f"Offset {offset} did not decrement date") + cur = next_date diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/floating.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/floating.py new file mode 100644 index 0000000000000000000000000000000000000000..74b8cfb65cbc7887b7d2a164121c90eda0833121 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/floating.py @@ -0,0 +1,173 @@ +from __future__ import annotations + +from typing import ClassVar + +import numpy as np + +from pandas.core.dtypes.base import register_extension_dtype +from pandas.core.dtypes.common import is_float_dtype + +from pandas.core.arrays.numeric import ( + NumericArray, + NumericDtype, +) + + +class FloatingDtype(NumericDtype): + """ + An ExtensionDtype to hold a single size of floating dtype. + + These specific implementations are subclasses of the non-public + FloatingDtype. For example we have Float32Dtype to represent float32. + + The attributes name & type are set when these subclasses are created. + """ + + _default_np_dtype = np.dtype(np.float64) + _checker = is_float_dtype + + @classmethod + def construct_array_type(cls) -> type[FloatingArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return FloatingArray + + @classmethod + def _get_dtype_mapping(cls) -> dict[np.dtype, FloatingDtype]: + return NUMPY_FLOAT_TO_DTYPE + + @classmethod + def _safe_cast(cls, values: np.ndarray, dtype: np.dtype, copy: bool) -> np.ndarray: + """ + Safely cast the values to the given dtype. + + "safe" in this context means the casting is lossless. + """ + # This is really only here for compatibility with IntegerDtype + # Here for compat with IntegerDtype + return values.astype(dtype, copy=copy) + + +class FloatingArray(NumericArray): + """ + Array of floating (optional missing) values. + + .. warning:: + + FloatingArray is currently experimental, and its API or internal + implementation may change without warning. Especially the behaviour + regarding NaN (distinct from NA missing values) is subject to change. + + We represent a FloatingArray with 2 numpy arrays: + + - data: contains a numpy float array of the appropriate dtype + - mask: a boolean array holding a mask on the data, True is missing + + To construct an FloatingArray from generic array-like input, use + :func:`pandas.array` with one of the float dtypes (see examples). + + See :ref:`integer_na` for more. + + Parameters + ---------- + values : numpy.ndarray + A 1-d float-dtype array. + mask : numpy.ndarray + A 1-d boolean-dtype array indicating missing values. + copy : bool, default False + Whether to copy the `values` and `mask`. + + Attributes + ---------- + None + + Methods + ------- + None + + Returns + ------- + FloatingArray + + Examples + -------- + Create an FloatingArray with :func:`pandas.array`: + + >>> pd.array([0.1, None, 0.3], dtype=pd.Float32Dtype()) + + [0.1, , 0.3] + Length: 3, dtype: Float32 + + String aliases for the dtypes are also available. They are capitalized. + + >>> pd.array([0.1, None, 0.3], dtype="Float32") + + [0.1, , 0.3] + Length: 3, dtype: Float32 + """ + + _dtype_cls = FloatingDtype + + # The value used to fill '_data' to avoid upcasting + _internal_fill_value = np.nan + # Fill values used for any/all + # Incompatible types in assignment (expression has type "float", base class + # "BaseMaskedArray" defined the type as "") + _truthy_value = 1.0 # type: ignore[assignment] + _falsey_value = 0.0 # type: ignore[assignment] + + +_dtype_docstring = """ +An ExtensionDtype for {dtype} data. + +This dtype uses ``pd.NA`` as missing value indicator. + +Attributes +---------- +None + +Methods +------- +None + +Examples +-------- +For Float32Dtype: + +>>> ser = pd.Series([2.25, pd.NA], dtype=pd.Float32Dtype()) +>>> ser.dtype +Float32Dtype() + +For Float64Dtype: + +>>> ser = pd.Series([2.25, pd.NA], dtype=pd.Float64Dtype()) +>>> ser.dtype +Float64Dtype() +""" + +# create the Dtype + + +@register_extension_dtype +class Float32Dtype(FloatingDtype): + type = np.float32 + name: ClassVar[str] = "Float32" + __doc__ = _dtype_docstring.format(dtype="float32") + + +@register_extension_dtype +class Float64Dtype(FloatingDtype): + type = np.float64 + name: ClassVar[str] = "Float64" + __doc__ = _dtype_docstring.format(dtype="float64") + + +NUMPY_FLOAT_TO_DTYPE: dict[np.dtype, FloatingDtype] = { + np.dtype(np.float32): Float32Dtype(), + np.dtype(np.float64): Float64Dtype(), +} diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/integer.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/integer.py new file mode 100644 index 0000000000000000000000000000000000000000..f9384e25ba9d9f32caf826efc01b4eb58a454d65 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/integer.py @@ -0,0 +1,272 @@ +from __future__ import annotations + +from typing import ClassVar + +import numpy as np + +from pandas.core.dtypes.base import register_extension_dtype +from pandas.core.dtypes.common import is_integer_dtype + +from pandas.core.arrays.numeric import ( + NumericArray, + NumericDtype, +) + + +class IntegerDtype(NumericDtype): + """ + An ExtensionDtype to hold a single size & kind of integer dtype. + + These specific implementations are subclasses of the non-public + IntegerDtype. For example, we have Int8Dtype to represent signed int 8s. + + The attributes name & type are set when these subclasses are created. + """ + + _default_np_dtype = np.dtype(np.int64) + _checker = is_integer_dtype + + @classmethod + def construct_array_type(cls) -> type[IntegerArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return IntegerArray + + @classmethod + def _get_dtype_mapping(cls) -> dict[np.dtype, IntegerDtype]: + return NUMPY_INT_TO_DTYPE + + @classmethod + def _safe_cast(cls, values: np.ndarray, dtype: np.dtype, copy: bool) -> np.ndarray: + """ + Safely cast the values to the given dtype. + + "safe" in this context means the casting is lossless. e.g. if 'values' + has a floating dtype, each value must be an integer. + """ + try: + return values.astype(dtype, casting="safe", copy=copy) + except TypeError as err: + casted = values.astype(dtype, copy=copy) + if (casted == values).all(): + return casted + + raise TypeError( + f"cannot safely cast non-equivalent {values.dtype} to {np.dtype(dtype)}" + ) from err + + +class IntegerArray(NumericArray): + """ + Array of integer (optional missing) values. + + Uses :attr:`pandas.NA` as the missing value. + + .. warning:: + + IntegerArray is currently experimental, and its API or internal + implementation may change without warning. + + We represent an IntegerArray with 2 numpy arrays: + + - data: contains a numpy integer array of the appropriate dtype + - mask: a boolean array holding a mask on the data, True is missing + + To construct an IntegerArray from generic array-like input, use + :func:`pandas.array` with one of the integer dtypes (see examples). + + See :ref:`integer_na` for more. + + Parameters + ---------- + values : numpy.ndarray + A 1-d integer-dtype array. + mask : numpy.ndarray + A 1-d boolean-dtype array indicating missing values. + copy : bool, default False + Whether to copy the `values` and `mask`. + + Attributes + ---------- + None + + Methods + ------- + None + + Returns + ------- + IntegerArray + + Examples + -------- + Create an IntegerArray with :func:`pandas.array`. + + >>> int_array = pd.array([1, None, 3], dtype=pd.Int32Dtype()) + >>> int_array + + [1, , 3] + Length: 3, dtype: Int32 + + String aliases for the dtypes are also available. They are capitalized. + + >>> pd.array([1, None, 3], dtype='Int32') + + [1, , 3] + Length: 3, dtype: Int32 + + >>> pd.array([1, None, 3], dtype='UInt16') + + [1, , 3] + Length: 3, dtype: UInt16 + """ + + _dtype_cls = IntegerDtype + + # The value used to fill '_data' to avoid upcasting + _internal_fill_value = 1 + # Fill values used for any/all + # Incompatible types in assignment (expression has type "int", base class + # "BaseMaskedArray" defined the type as "") + _truthy_value = 1 # type: ignore[assignment] + _falsey_value = 0 # type: ignore[assignment] + + +_dtype_docstring = """ +An ExtensionDtype for {dtype} integer data. + +Uses :attr:`pandas.NA` as its missing value, rather than :attr:`numpy.nan`. + +Attributes +---------- +None + +Methods +------- +None + +Examples +-------- +For Int8Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.Int8Dtype()) +>>> ser.dtype +Int8Dtype() + +For Int16Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.Int16Dtype()) +>>> ser.dtype +Int16Dtype() + +For Int32Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.Int32Dtype()) +>>> ser.dtype +Int32Dtype() + +For Int64Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.Int64Dtype()) +>>> ser.dtype +Int64Dtype() + +For UInt8Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.UInt8Dtype()) +>>> ser.dtype +UInt8Dtype() + +For UInt16Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.UInt16Dtype()) +>>> ser.dtype +UInt16Dtype() + +For UInt32Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.UInt32Dtype()) +>>> ser.dtype +UInt32Dtype() + +For UInt64Dtype: + +>>> ser = pd.Series([2, pd.NA], dtype=pd.UInt64Dtype()) +>>> ser.dtype +UInt64Dtype() +""" + +# create the Dtype + + +@register_extension_dtype +class Int8Dtype(IntegerDtype): + type = np.int8 + name: ClassVar[str] = "Int8" + __doc__ = _dtype_docstring.format(dtype="int8") + + +@register_extension_dtype +class Int16Dtype(IntegerDtype): + type = np.int16 + name: ClassVar[str] = "Int16" + __doc__ = _dtype_docstring.format(dtype="int16") + + +@register_extension_dtype +class Int32Dtype(IntegerDtype): + type = np.int32 + name: ClassVar[str] = "Int32" + __doc__ = _dtype_docstring.format(dtype="int32") + + +@register_extension_dtype +class Int64Dtype(IntegerDtype): + type = np.int64 + name: ClassVar[str] = "Int64" + __doc__ = _dtype_docstring.format(dtype="int64") + + +@register_extension_dtype +class UInt8Dtype(IntegerDtype): + type = np.uint8 + name: ClassVar[str] = "UInt8" + __doc__ = _dtype_docstring.format(dtype="uint8") + + +@register_extension_dtype +class UInt16Dtype(IntegerDtype): + type = np.uint16 + name: ClassVar[str] = "UInt16" + __doc__ = _dtype_docstring.format(dtype="uint16") + + +@register_extension_dtype +class UInt32Dtype(IntegerDtype): + type = np.uint32 + name: ClassVar[str] = "UInt32" + __doc__ = _dtype_docstring.format(dtype="uint32") + + +@register_extension_dtype +class UInt64Dtype(IntegerDtype): + type = np.uint64 + name: ClassVar[str] = "UInt64" + __doc__ = _dtype_docstring.format(dtype="uint64") + + +NUMPY_INT_TO_DTYPE: dict[np.dtype, IntegerDtype] = { + np.dtype(np.int8): Int8Dtype(), + np.dtype(np.int16): Int16Dtype(), + np.dtype(np.int32): Int32Dtype(), + np.dtype(np.int64): Int64Dtype(), + np.dtype(np.uint8): UInt8Dtype(), + np.dtype(np.uint16): UInt16Dtype(), + np.dtype(np.uint32): UInt32Dtype(), + np.dtype(np.uint64): UInt64Dtype(), +} diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/interval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/interval.py new file mode 100644 index 0000000000000000000000000000000000000000..da57e4ceed87e3a63e63e5ac7172c807a5e5b683 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/interval.py @@ -0,0 +1,1930 @@ +from __future__ import annotations + +import operator +from operator import ( + le, + lt, +) +import textwrap +from typing import ( + TYPE_CHECKING, + Literal, + Union, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.interval import ( + VALID_CLOSED, + Interval, + IntervalMixin, + intervals_to_interval_bounds, +) +from pandas._libs.missing import NA +from pandas._typing import ( + ArrayLike, + AxisInt, + Dtype, + FillnaOptions, + IntervalClosedType, + NpDtype, + PositionalIndexer, + ScalarIndexer, + Self, + SequenceIndexer, + SortKind, + TimeArrayLike, + npt, +) +from pandas.compat.numpy import function as nv +from pandas.errors import IntCastingNaNError +from pandas.util._decorators import Appender +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import ( + LossySetitemError, + maybe_upcast_numeric_to_64bit, +) +from pandas.core.dtypes.common import ( + is_float_dtype, + is_integer_dtype, + is_list_like, + is_object_dtype, + is_scalar, + is_string_dtype, + needs_i8_conversion, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + IntervalDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCDatetimeIndex, + ABCIntervalIndex, + ABCPeriodIndex, +) +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + notna, +) + +from pandas.core.algorithms import ( + isin, + take, + unique, + value_counts_internal as value_counts, +) +from pandas.core.arrays import ArrowExtensionArray +from pandas.core.arrays.base import ( + ExtensionArray, + _extension_array_shared_docs, +) +from pandas.core.arrays.datetimes import DatetimeArray +from pandas.core.arrays.timedeltas import TimedeltaArray +import pandas.core.common as com +from pandas.core.construction import ( + array as pd_array, + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.indexers import check_array_indexer +from pandas.core.ops import ( + invalid_comparison, + unpack_zerodim_and_defer, +) + +if TYPE_CHECKING: + from collections.abc import ( + Iterator, + Sequence, + ) + + from pandas import ( + Index, + Series, + ) + + +IntervalSide = Union[TimeArrayLike, np.ndarray] +IntervalOrNA = Union[Interval, float] + +_interval_shared_docs: dict[str, str] = {} + +_shared_docs_kwargs = { + "klass": "IntervalArray", + "qualname": "arrays.IntervalArray", + "name": "", +} + + +_interval_shared_docs[ + "class" +] = """ +%(summary)s + +Parameters +---------- +data : array-like (1-dimensional) + Array-like (ndarray, :class:`DateTimeArray`, :class:`TimeDeltaArray`) containing + Interval objects from which to build the %(klass)s. +closed : {'left', 'right', 'both', 'neither'}, default 'right' + Whether the intervals are closed on the left-side, right-side, both or + neither. +dtype : dtype or None, default None + If None, dtype will be inferred. +copy : bool, default False + Copy the input data. +%(name)s\ +verify_integrity : bool, default True + Verify that the %(klass)s is valid. + +Attributes +---------- +left +right +closed +mid +length +is_empty +is_non_overlapping_monotonic +%(extra_attributes)s\ + +Methods +------- +from_arrays +from_tuples +from_breaks +contains +overlaps +set_closed +to_tuples +%(extra_methods)s\ + +See Also +-------- +Index : The base pandas Index type. +Interval : A bounded slice-like interval; the elements of an %(klass)s. +interval_range : Function to create a fixed frequency IntervalIndex. +cut : Bin values into discrete Intervals. +qcut : Bin values into equal-sized Intervals based on rank or sample quantiles. + +Notes +----- +See the `user guide +`__ +for more. + +%(examples)s\ +""" + + +@Appender( + _interval_shared_docs["class"] + % { + "klass": "IntervalArray", + "summary": "Pandas array for interval data that are closed on the same side.", + "name": "", + "extra_attributes": "", + "extra_methods": "", + "examples": textwrap.dedent( + """\ + Examples + -------- + A new ``IntervalArray`` can be constructed directly from an array-like of + ``Interval`` objects: + + >>> pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(1, 5)]) + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + + It may also be constructed using one of the constructor + methods: :meth:`IntervalArray.from_arrays`, + :meth:`IntervalArray.from_breaks`, and :meth:`IntervalArray.from_tuples`. + """ + ), + } +) +class IntervalArray(IntervalMixin, ExtensionArray): + can_hold_na = True + _na_value = _fill_value = np.nan + + @property + def ndim(self) -> Literal[1]: + return 1 + + # To make mypy recognize the fields + _left: IntervalSide + _right: IntervalSide + _dtype: IntervalDtype + + # --------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data, + closed: IntervalClosedType | None = None, + dtype: Dtype | None = None, + copy: bool = False, + verify_integrity: bool = True, + ): + data = extract_array(data, extract_numpy=True) + + if isinstance(data, cls): + left: IntervalSide = data._left + right: IntervalSide = data._right + closed = closed or data.closed + dtype = IntervalDtype(left.dtype, closed=closed) + else: + # don't allow scalars + if is_scalar(data): + msg = ( + f"{cls.__name__}(...) must be called with a collection " + f"of some kind, {data} was passed" + ) + raise TypeError(msg) + + # might need to convert empty or purely na data + data = _maybe_convert_platform_interval(data) + left, right, infer_closed = intervals_to_interval_bounds( + data, validate_closed=closed is None + ) + if left.dtype == object: + left = lib.maybe_convert_objects(left) + right = lib.maybe_convert_objects(right) + closed = closed or infer_closed + + left, right, dtype = cls._ensure_simple_new_inputs( + left, + right, + closed=closed, + copy=copy, + dtype=dtype, + ) + + if verify_integrity: + cls._validate(left, right, dtype=dtype) + + return cls._simple_new( + left, + right, + dtype=dtype, + ) + + @classmethod + def _simple_new( + cls, + left: IntervalSide, + right: IntervalSide, + dtype: IntervalDtype, + ) -> Self: + result = IntervalMixin.__new__(cls) + result._left = left + result._right = right + result._dtype = dtype + + return result + + @classmethod + def _ensure_simple_new_inputs( + cls, + left, + right, + closed: IntervalClosedType | None = None, + copy: bool = False, + dtype: Dtype | None = None, + ) -> tuple[IntervalSide, IntervalSide, IntervalDtype]: + """Ensure correctness of input parameters for cls._simple_new.""" + from pandas.core.indexes.base import ensure_index + + left = ensure_index(left, copy=copy) + left = maybe_upcast_numeric_to_64bit(left) + + right = ensure_index(right, copy=copy) + right = maybe_upcast_numeric_to_64bit(right) + + if closed is None and isinstance(dtype, IntervalDtype): + closed = dtype.closed + + closed = closed or "right" + + if dtype is not None: + # GH 19262: dtype must be an IntervalDtype to override inferred + dtype = pandas_dtype(dtype) + if isinstance(dtype, IntervalDtype): + if dtype.subtype is not None: + left = left.astype(dtype.subtype) + right = right.astype(dtype.subtype) + else: + msg = f"dtype must be an IntervalDtype, got {dtype}" + raise TypeError(msg) + + if dtype.closed is None: + # possibly loading an old pickle + dtype = IntervalDtype(dtype.subtype, closed) + elif closed != dtype.closed: + raise ValueError("closed keyword does not match dtype.closed") + + # coerce dtypes to match if needed + if is_float_dtype(left.dtype) and is_integer_dtype(right.dtype): + right = right.astype(left.dtype) + elif is_float_dtype(right.dtype) and is_integer_dtype(left.dtype): + left = left.astype(right.dtype) + + if type(left) != type(right): + msg = ( + f"must not have differing left [{type(left).__name__}] and " + f"right [{type(right).__name__}] types" + ) + raise ValueError(msg) + if isinstance(left.dtype, CategoricalDtype) or is_string_dtype(left.dtype): + # GH 19016 + msg = ( + "category, object, and string subtypes are not supported " + "for IntervalArray" + ) + raise TypeError(msg) + if isinstance(left, ABCPeriodIndex): + msg = "Period dtypes are not supported, use a PeriodIndex instead" + raise ValueError(msg) + if isinstance(left, ABCDatetimeIndex) and str(left.tz) != str(right.tz): + msg = ( + "left and right must have the same time zone, got " + f"'{left.tz}' and '{right.tz}'" + ) + raise ValueError(msg) + elif needs_i8_conversion(left.dtype) and left.unit != right.unit: + # e.g. m8[s] vs m8[ms], try to cast to a common dtype GH#55714 + left_arr, right_arr = left._data._ensure_matching_resos(right._data) + left = ensure_index(left_arr) + right = ensure_index(right_arr) + + # For dt64/td64 we want DatetimeArray/TimedeltaArray instead of ndarray + left = ensure_wrapped_if_datetimelike(left) + left = extract_array(left, extract_numpy=True) + right = ensure_wrapped_if_datetimelike(right) + right = extract_array(right, extract_numpy=True) + + if isinstance(left, ArrowExtensionArray) or isinstance( + right, ArrowExtensionArray + ): + pass + else: + lbase = getattr(left, "_ndarray", left) + lbase = getattr(lbase, "_data", lbase).base + rbase = getattr(right, "_ndarray", right) + rbase = getattr(rbase, "_data", rbase).base + if lbase is not None and lbase is rbase: + # If these share data, then setitem could corrupt our IA + right = right.copy() + + dtype = IntervalDtype(left.dtype, closed=closed) + + return left, right, dtype + + @classmethod + def _from_sequence( + cls, + scalars, + *, + dtype: Dtype | None = None, + copy: bool = False, + ) -> Self: + return cls(scalars, dtype=dtype, copy=copy) + + @classmethod + def _from_factorized(cls, values: np.ndarray, original: IntervalArray) -> Self: + return cls._from_sequence(values, dtype=original.dtype) + + _interval_shared_docs["from_breaks"] = textwrap.dedent( + """ + Construct an %(klass)s from an array of splits. + + Parameters + ---------- + breaks : array-like (1-dimensional) + Left and right bounds for each interval. + closed : {'left', 'right', 'both', 'neither'}, default 'right' + Whether the intervals are closed on the left-side, right-side, both + or neither.\ + %(name)s + copy : bool, default False + Copy the data. + dtype : dtype or None, default None + If None, dtype will be inferred. + + Returns + ------- + %(klass)s + + See Also + -------- + interval_range : Function to create a fixed frequency IntervalIndex. + %(klass)s.from_arrays : Construct from a left and right array. + %(klass)s.from_tuples : Construct from a sequence of tuples. + + %(examples)s\ + """ + ) + + @classmethod + @Appender( + _interval_shared_docs["from_breaks"] + % { + "klass": "IntervalArray", + "name": "", + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.arrays.IntervalArray.from_breaks([0, 1, 2, 3]) + + [(0, 1], (1, 2], (2, 3]] + Length: 3, dtype: interval[int64, right] + """ + ), + } + ) + def from_breaks( + cls, + breaks, + closed: IntervalClosedType | None = "right", + copy: bool = False, + dtype: Dtype | None = None, + ) -> Self: + breaks = _maybe_convert_platform_interval(breaks) + + return cls.from_arrays(breaks[:-1], breaks[1:], closed, copy=copy, dtype=dtype) + + _interval_shared_docs["from_arrays"] = textwrap.dedent( + """ + Construct from two arrays defining the left and right bounds. + + Parameters + ---------- + left : array-like (1-dimensional) + Left bounds for each interval. + right : array-like (1-dimensional) + Right bounds for each interval. + closed : {'left', 'right', 'both', 'neither'}, default 'right' + Whether the intervals are closed on the left-side, right-side, both + or neither.\ + %(name)s + copy : bool, default False + Copy the data. + dtype : dtype, optional + If None, dtype will be inferred. + + Returns + ------- + %(klass)s + + Raises + ------ + ValueError + When a value is missing in only one of `left` or `right`. + When a value in `left` is greater than the corresponding value + in `right`. + + See Also + -------- + interval_range : Function to create a fixed frequency IntervalIndex. + %(klass)s.from_breaks : Construct an %(klass)s from an array of + splits. + %(klass)s.from_tuples : Construct an %(klass)s from an + array-like of tuples. + + Notes + ----- + Each element of `left` must be less than or equal to the `right` + element at the same position. If an element is missing, it must be + missing in both `left` and `right`. A TypeError is raised when + using an unsupported type for `left` or `right`. At the moment, + 'category', 'object', and 'string' subtypes are not supported. + + %(examples)s\ + """ + ) + + @classmethod + @Appender( + _interval_shared_docs["from_arrays"] + % { + "klass": "IntervalArray", + "name": "", + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.arrays.IntervalArray.from_arrays([0, 1, 2], [1, 2, 3]) + + [(0, 1], (1, 2], (2, 3]] + Length: 3, dtype: interval[int64, right] + """ + ), + } + ) + def from_arrays( + cls, + left, + right, + closed: IntervalClosedType | None = "right", + copy: bool = False, + dtype: Dtype | None = None, + ) -> Self: + left = _maybe_convert_platform_interval(left) + right = _maybe_convert_platform_interval(right) + + left, right, dtype = cls._ensure_simple_new_inputs( + left, + right, + closed=closed, + copy=copy, + dtype=dtype, + ) + cls._validate(left, right, dtype=dtype) + + return cls._simple_new(left, right, dtype=dtype) + + _interval_shared_docs["from_tuples"] = textwrap.dedent( + """ + Construct an %(klass)s from an array-like of tuples. + + Parameters + ---------- + data : array-like (1-dimensional) + Array of tuples. + closed : {'left', 'right', 'both', 'neither'}, default 'right' + Whether the intervals are closed on the left-side, right-side, both + or neither.\ + %(name)s + copy : bool, default False + By-default copy the data, this is compat only and ignored. + dtype : dtype or None, default None + If None, dtype will be inferred. + + Returns + ------- + %(klass)s + + See Also + -------- + interval_range : Function to create a fixed frequency IntervalIndex. + %(klass)s.from_arrays : Construct an %(klass)s from a left and + right array. + %(klass)s.from_breaks : Construct an %(klass)s from an array of + splits. + + %(examples)s\ + """ + ) + + @classmethod + @Appender( + _interval_shared_docs["from_tuples"] + % { + "klass": "IntervalArray", + "name": "", + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.arrays.IntervalArray.from_tuples([(0, 1), (1, 2)]) + + [(0, 1], (1, 2]] + Length: 2, dtype: interval[int64, right] + """ + ), + } + ) + def from_tuples( + cls, + data, + closed: IntervalClosedType | None = "right", + copy: bool = False, + dtype: Dtype | None = None, + ) -> Self: + if len(data): + left, right = [], [] + else: + # ensure that empty data keeps input dtype + left = right = data + + for d in data: + if not isinstance(d, tuple) and isna(d): + lhs = rhs = np.nan + else: + name = cls.__name__ + try: + # need list of length 2 tuples, e.g. [(0, 1), (1, 2), ...] + lhs, rhs = d + except ValueError as err: + msg = f"{name}.from_tuples requires tuples of length 2, got {d}" + raise ValueError(msg) from err + except TypeError as err: + msg = f"{name}.from_tuples received an invalid item, {d}" + raise TypeError(msg) from err + left.append(lhs) + right.append(rhs) + + return cls.from_arrays(left, right, closed, copy=False, dtype=dtype) + + @classmethod + def _validate(cls, left, right, dtype: IntervalDtype) -> None: + """ + Verify that the IntervalArray is valid. + + Checks that + + * dtype is correct + * left and right match lengths + * left and right have the same missing values + * left is always below right + """ + if not isinstance(dtype, IntervalDtype): + msg = f"invalid dtype: {dtype}" + raise ValueError(msg) + if len(left) != len(right): + msg = "left and right must have the same length" + raise ValueError(msg) + left_mask = notna(left) + right_mask = notna(right) + if not (left_mask == right_mask).all(): + msg = ( + "missing values must be missing in the same " + "location both left and right sides" + ) + raise ValueError(msg) + if not (left[left_mask] <= right[left_mask]).all(): + msg = "left side of interval must be <= right side" + raise ValueError(msg) + + def _shallow_copy(self, left, right) -> Self: + """ + Return a new IntervalArray with the replacement attributes + + Parameters + ---------- + left : Index + Values to be used for the left-side of the intervals. + right : Index + Values to be used for the right-side of the intervals. + """ + dtype = IntervalDtype(left.dtype, closed=self.closed) + left, right, dtype = self._ensure_simple_new_inputs(left, right, dtype=dtype) + + return self._simple_new(left, right, dtype=dtype) + + # --------------------------------------------------------------------- + # Descriptive + + @property + def dtype(self) -> IntervalDtype: + return self._dtype + + @property + def nbytes(self) -> int: + return self.left.nbytes + self.right.nbytes + + @property + def size(self) -> int: + # Avoid materializing self.values + return self.left.size + + # --------------------------------------------------------------------- + # EA Interface + + def __iter__(self) -> Iterator: + return iter(np.asarray(self)) + + def __len__(self) -> int: + return len(self._left) + + @overload + def __getitem__(self, key: ScalarIndexer) -> IntervalOrNA: + ... + + @overload + def __getitem__(self, key: SequenceIndexer) -> Self: + ... + + def __getitem__(self, key: PositionalIndexer) -> Self | IntervalOrNA: + key = check_array_indexer(self, key) + left = self._left[key] + right = self._right[key] + + if not isinstance(left, (np.ndarray, ExtensionArray)): + # scalar + if is_scalar(left) and isna(left): + return self._fill_value + return Interval(left, right, self.closed) + if np.ndim(left) > 1: + # GH#30588 multi-dimensional indexer disallowed + raise ValueError("multi-dimensional indexing not allowed") + # Argument 2 to "_simple_new" of "IntervalArray" has incompatible type + # "Union[Period, Timestamp, Timedelta, NaTType, DatetimeArray, TimedeltaArray, + # ndarray[Any, Any]]"; expected "Union[Union[DatetimeArray, TimedeltaArray], + # ndarray[Any, Any]]" + return self._simple_new(left, right, dtype=self.dtype) # type: ignore[arg-type] + + def __setitem__(self, key, value) -> None: + value_left, value_right = self._validate_setitem_value(value) + key = check_array_indexer(self, key) + + self._left[key] = value_left + self._right[key] = value_right + + def _cmp_method(self, other, op): + # ensure pandas array for list-like and eliminate non-interval scalars + if is_list_like(other): + if len(self) != len(other): + raise ValueError("Lengths must match to compare") + other = pd_array(other) + elif not isinstance(other, Interval): + # non-interval scalar -> no matches + if other is NA: + # GH#31882 + from pandas.core.arrays import BooleanArray + + arr = np.empty(self.shape, dtype=bool) + mask = np.ones(self.shape, dtype=bool) + return BooleanArray(arr, mask) + return invalid_comparison(self, other, op) + + # determine the dtype of the elements we want to compare + if isinstance(other, Interval): + other_dtype = pandas_dtype("interval") + elif not isinstance(other.dtype, CategoricalDtype): + other_dtype = other.dtype + else: + # for categorical defer to categories for dtype + other_dtype = other.categories.dtype + + # extract intervals if we have interval categories with matching closed + if isinstance(other_dtype, IntervalDtype): + if self.closed != other.categories.closed: + return invalid_comparison(self, other, op) + + other = other.categories._values.take( + other.codes, allow_fill=True, fill_value=other.categories._na_value + ) + + # interval-like -> need same closed and matching endpoints + if isinstance(other_dtype, IntervalDtype): + if self.closed != other.closed: + return invalid_comparison(self, other, op) + elif not isinstance(other, Interval): + other = type(self)(other) + + if op is operator.eq: + return (self._left == other.left) & (self._right == other.right) + elif op is operator.ne: + return (self._left != other.left) | (self._right != other.right) + elif op is operator.gt: + return (self._left > other.left) | ( + (self._left == other.left) & (self._right > other.right) + ) + elif op is operator.ge: + return (self == other) | (self > other) + elif op is operator.lt: + return (self._left < other.left) | ( + (self._left == other.left) & (self._right < other.right) + ) + else: + # operator.lt + return (self == other) | (self < other) + + # non-interval/non-object dtype -> no matches + if not is_object_dtype(other_dtype): + return invalid_comparison(self, other, op) + + # object dtype -> iteratively check for intervals + result = np.zeros(len(self), dtype=bool) + for i, obj in enumerate(other): + try: + result[i] = op(self[i], obj) + except TypeError: + if obj is NA: + # comparison with np.nan returns NA + # github.com/pandas-dev/pandas/pull/37124#discussion_r509095092 + result = result.astype(object) + result[i] = NA + else: + raise + return result + + @unpack_zerodim_and_defer("__eq__") + def __eq__(self, other): + return self._cmp_method(other, operator.eq) + + @unpack_zerodim_and_defer("__ne__") + def __ne__(self, other): + return self._cmp_method(other, operator.ne) + + @unpack_zerodim_and_defer("__gt__") + def __gt__(self, other): + return self._cmp_method(other, operator.gt) + + @unpack_zerodim_and_defer("__ge__") + def __ge__(self, other): + return self._cmp_method(other, operator.ge) + + @unpack_zerodim_and_defer("__lt__") + def __lt__(self, other): + return self._cmp_method(other, operator.lt) + + @unpack_zerodim_and_defer("__le__") + def __le__(self, other): + return self._cmp_method(other, operator.le) + + def argsort( + self, + *, + ascending: bool = True, + kind: SortKind = "quicksort", + na_position: str = "last", + **kwargs, + ) -> np.ndarray: + ascending = nv.validate_argsort_with_ascending(ascending, (), kwargs) + + if ascending and kind == "quicksort" and na_position == "last": + # TODO: in an IntervalIndex we can reuse the cached + # IntervalTree.left_sorter + return np.lexsort((self.right, self.left)) + + # TODO: other cases we can use lexsort for? much more performant. + return super().argsort( + ascending=ascending, kind=kind, na_position=na_position, **kwargs + ) + + def min(self, *, axis: AxisInt | None = None, skipna: bool = True) -> IntervalOrNA: + nv.validate_minmax_axis(axis, self.ndim) + + if not len(self): + return self._na_value + + mask = self.isna() + if mask.any(): + if not skipna: + return self._na_value + obj = self[~mask] + else: + obj = self + + indexer = obj.argsort()[0] + return obj[indexer] + + def max(self, *, axis: AxisInt | None = None, skipna: bool = True) -> IntervalOrNA: + nv.validate_minmax_axis(axis, self.ndim) + + if not len(self): + return self._na_value + + mask = self.isna() + if mask.any(): + if not skipna: + return self._na_value + obj = self[~mask] + else: + obj = self + + indexer = obj.argsort()[-1] + return obj[indexer] + + def _pad_or_backfill( # pylint: disable=useless-parent-delegation + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + # TODO(3.0): after EA.fillna 'method' deprecation is enforced, we can remove + # this method entirely. + return super()._pad_or_backfill( + method=method, limit=limit, limit_area=limit_area, copy=copy + ) + + def fillna( + self, value=None, method=None, limit: int | None = None, copy: bool = True + ) -> Self: + """ + Fill NA/NaN values using the specified method. + + Parameters + ---------- + value : scalar, dict, Series + If a scalar value is passed it is used to fill all missing values. + Alternatively, a Series or dict can be used to fill in different + values for each index. The value should not be a list. The + value(s) passed should be either Interval objects or NA/NaN. + method : {'backfill', 'bfill', 'pad', 'ffill', None}, default None + (Not implemented yet for IntervalArray) + Method to use for filling holes in reindexed Series + limit : int, default None + (Not implemented yet for IntervalArray) + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. + copy : bool, default True + Whether to make a copy of the data before filling. If False, then + the original should be modified and no new memory should be allocated. + For ExtensionArray subclasses that cannot do this, it is at the + author's discretion whether to ignore "copy=False" or to raise. + + Returns + ------- + filled : IntervalArray with NA/NaN filled + """ + if copy is False: + raise NotImplementedError + if method is not None: + return super().fillna(value=value, method=method, limit=limit) + + value_left, value_right = self._validate_scalar(value) + + left = self.left.fillna(value=value_left) + right = self.right.fillna(value=value_right) + return self._shallow_copy(left, right) + + def astype(self, dtype, copy: bool = True): + """ + Cast to an ExtensionArray or NumPy array with dtype 'dtype'. + + Parameters + ---------- + dtype : str or dtype + Typecode or data-type to which the array is cast. + + copy : bool, default True + Whether to copy the data, even if not necessary. If False, + a copy is made only if the old dtype does not match the + new dtype. + + Returns + ------- + array : ExtensionArray or ndarray + ExtensionArray or NumPy ndarray with 'dtype' for its dtype. + """ + from pandas import Index + + if dtype is not None: + dtype = pandas_dtype(dtype) + + if isinstance(dtype, IntervalDtype): + if dtype == self.dtype: + return self.copy() if copy else self + + if is_float_dtype(self.dtype.subtype) and needs_i8_conversion( + dtype.subtype + ): + # This is allowed on the Index.astype but we disallow it here + msg = ( + f"Cannot convert {self.dtype} to {dtype}; subtypes are incompatible" + ) + raise TypeError(msg) + + # need to cast to different subtype + try: + # We need to use Index rules for astype to prevent casting + # np.nan entries to int subtypes + new_left = Index(self._left, copy=False).astype(dtype.subtype) + new_right = Index(self._right, copy=False).astype(dtype.subtype) + except IntCastingNaNError: + # e.g test_subtype_integer + raise + except (TypeError, ValueError) as err: + # e.g. test_subtype_integer_errors f8->u8 can be lossy + # and raises ValueError + msg = ( + f"Cannot convert {self.dtype} to {dtype}; subtypes are incompatible" + ) + raise TypeError(msg) from err + return self._shallow_copy(new_left, new_right) + else: + try: + return super().astype(dtype, copy=copy) + except (TypeError, ValueError) as err: + msg = f"Cannot cast {type(self).__name__} to dtype {dtype}" + raise TypeError(msg) from err + + def equals(self, other) -> bool: + if type(self) != type(other): + return False + + return bool( + self.closed == other.closed + and self.left.equals(other.left) + and self.right.equals(other.right) + ) + + @classmethod + def _concat_same_type(cls, to_concat: Sequence[IntervalArray]) -> Self: + """ + Concatenate multiple IntervalArray + + Parameters + ---------- + to_concat : sequence of IntervalArray + + Returns + ------- + IntervalArray + """ + closed_set = {interval.closed for interval in to_concat} + if len(closed_set) != 1: + raise ValueError("Intervals must all be closed on the same side.") + closed = closed_set.pop() + + left: IntervalSide = np.concatenate([interval.left for interval in to_concat]) + right: IntervalSide = np.concatenate([interval.right for interval in to_concat]) + + left, right, dtype = cls._ensure_simple_new_inputs(left, right, closed=closed) + + return cls._simple_new(left, right, dtype=dtype) + + def copy(self) -> Self: + """ + Return a copy of the array. + + Returns + ------- + IntervalArray + """ + left = self._left.copy() + right = self._right.copy() + dtype = self.dtype + return self._simple_new(left, right, dtype=dtype) + + def isna(self) -> np.ndarray: + return isna(self._left) + + def shift(self, periods: int = 1, fill_value: object = None) -> IntervalArray: + if not len(self) or periods == 0: + return self.copy() + + self._validate_scalar(fill_value) + + # ExtensionArray.shift doesn't work for two reasons + # 1. IntervalArray.dtype.na_value may not be correct for the dtype. + # 2. IntervalArray._from_sequence only accepts NaN for missing values, + # not other values like NaT + + empty_len = min(abs(periods), len(self)) + if isna(fill_value): + from pandas import Index + + fill_value = Index(self._left, copy=False)._na_value + empty = IntervalArray.from_breaks([fill_value] * (empty_len + 1)) + else: + empty = self._from_sequence([fill_value] * empty_len, dtype=self.dtype) + + if periods > 0: + a = empty + b = self[:-periods] + else: + a = self[abs(periods) :] + b = empty + return self._concat_same_type([a, b]) + + def take( + self, + indices, + *, + allow_fill: bool = False, + fill_value=None, + axis=None, + **kwargs, + ) -> Self: + """ + Take elements from the IntervalArray. + + Parameters + ---------- + indices : sequence of integers + Indices to be taken. + + allow_fill : bool, default False + How to handle negative values in `indices`. + + * False: negative values in `indices` indicate positional indices + from the right (the default). This is similar to + :func:`numpy.take`. + + * True: negative values in `indices` indicate + missing values. These values are set to `fill_value`. Any other + other negative values raise a ``ValueError``. + + fill_value : Interval or NA, optional + Fill value to use for NA-indices when `allow_fill` is True. + This may be ``None``, in which case the default NA value for + the type, ``self.dtype.na_value``, is used. + + For many ExtensionArrays, there will be two representations of + `fill_value`: a user-facing "boxed" scalar, and a low-level + physical NA value. `fill_value` should be the user-facing version, + and the implementation should handle translating that to the + physical version for processing the take if necessary. + + axis : any, default None + Present for compat with IntervalIndex; does nothing. + + Returns + ------- + IntervalArray + + Raises + ------ + IndexError + When the indices are out of bounds for the array. + ValueError + When `indices` contains negative values other than ``-1`` + and `allow_fill` is True. + """ + nv.validate_take((), kwargs) + + fill_left = fill_right = fill_value + if allow_fill: + fill_left, fill_right = self._validate_scalar(fill_value) + + left_take = take( + self._left, indices, allow_fill=allow_fill, fill_value=fill_left + ) + right_take = take( + self._right, indices, allow_fill=allow_fill, fill_value=fill_right + ) + + return self._shallow_copy(left_take, right_take) + + def _validate_listlike(self, value): + # list-like of intervals + try: + array = IntervalArray(value) + self._check_closed_matches(array, name="value") + value_left, value_right = array.left, array.right + except TypeError as err: + # wrong type: not interval or NA + msg = f"'value' should be an interval type, got {type(value)} instead." + raise TypeError(msg) from err + + try: + self.left._validate_fill_value(value_left) + except (LossySetitemError, TypeError) as err: + msg = ( + "'value' should be a compatible interval type, " + f"got {type(value)} instead." + ) + raise TypeError(msg) from err + + return value_left, value_right + + def _validate_scalar(self, value): + if isinstance(value, Interval): + self._check_closed_matches(value, name="value") + left, right = value.left, value.right + # TODO: check subdtype match like _validate_setitem_value? + elif is_valid_na_for_dtype(value, self.left.dtype): + # GH#18295 + left = right = self.left._na_value + else: + raise TypeError( + "can only insert Interval objects and NA into an IntervalArray" + ) + return left, right + + def _validate_setitem_value(self, value): + if is_valid_na_for_dtype(value, self.left.dtype): + # na value: need special casing to set directly on numpy arrays + value = self.left._na_value + if is_integer_dtype(self.dtype.subtype): + # can't set NaN on a numpy integer array + # GH#45484 TypeError, not ValueError, matches what we get with + # non-NA un-holdable value. + raise TypeError("Cannot set float NaN to integer-backed IntervalArray") + value_left, value_right = value, value + + elif isinstance(value, Interval): + # scalar interval + self._check_closed_matches(value, name="value") + value_left, value_right = value.left, value.right + self.left._validate_fill_value(value_left) + self.left._validate_fill_value(value_right) + + else: + return self._validate_listlike(value) + + return value_left, value_right + + def value_counts(self, dropna: bool = True) -> Series: + """ + Returns a Series containing counts of each interval. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of NaN. + + Returns + ------- + counts : Series + + See Also + -------- + Series.value_counts + """ + # TODO: implement this is a non-naive way! + with warnings.catch_warnings(): + warnings.filterwarnings( + "ignore", + "The behavior of value_counts with object-dtype is deprecated", + category=FutureWarning, + ) + result = value_counts(np.asarray(self), dropna=dropna) + # Once the deprecation is enforced, we will need to do + # `result.index = result.index.astype(self.dtype)` + return result + + # --------------------------------------------------------------------- + # Rendering Methods + + def _formatter(self, boxed: bool = False): + # returning 'str' here causes us to render as e.g. "(0, 1]" instead of + # "Interval(0, 1, closed='right')" + return str + + # --------------------------------------------------------------------- + # Vectorized Interval Properties/Attributes + + @property + def left(self) -> Index: + """ + Return the left endpoints of each Interval in the IntervalArray as an Index. + + Examples + -------- + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(2, 5)]) + >>> interv_arr + + [(0, 1], (2, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.left + Index([0, 2], dtype='int64') + """ + from pandas import Index + + return Index(self._left, copy=False) + + @property + def right(self) -> Index: + """ + Return the right endpoints of each Interval in the IntervalArray as an Index. + + Examples + -------- + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(2, 5)]) + >>> interv_arr + + [(0, 1], (2, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.right + Index([1, 5], dtype='int64') + """ + from pandas import Index + + return Index(self._right, copy=False) + + @property + def length(self) -> Index: + """ + Return an Index with entries denoting the length of each Interval. + + Examples + -------- + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(1, 5)]) + >>> interv_arr + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.length + Index([1, 4], dtype='int64') + """ + return self.right - self.left + + @property + def mid(self) -> Index: + """ + Return the midpoint of each Interval in the IntervalArray as an Index. + + Examples + -------- + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(1, 5)]) + >>> interv_arr + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.mid + Index([0.5, 3.0], dtype='float64') + """ + try: + return 0.5 * (self.left + self.right) + except TypeError: + # datetime safe version + return self.left + 0.5 * self.length + + _interval_shared_docs["overlaps"] = textwrap.dedent( + """ + Check elementwise if an Interval overlaps the values in the %(klass)s. + + Two intervals overlap if they share a common point, including closed + endpoints. Intervals that only have an open endpoint in common do not + overlap. + + Parameters + ---------- + other : %(klass)s + Interval to check against for an overlap. + + Returns + ------- + ndarray + Boolean array positionally indicating where an overlap occurs. + + See Also + -------- + Interval.overlaps : Check whether two Interval objects overlap. + + Examples + -------- + %(examples)s + >>> intervals.overlaps(pd.Interval(0.5, 1.5)) + array([ True, True, False]) + + Intervals that share closed endpoints overlap: + + >>> intervals.overlaps(pd.Interval(1, 3, closed='left')) + array([ True, True, True]) + + Intervals that only have an open endpoint in common do not overlap: + + >>> intervals.overlaps(pd.Interval(1, 2, closed='right')) + array([False, True, False]) + """ + ) + + @Appender( + _interval_shared_docs["overlaps"] + % { + "klass": "IntervalArray", + "examples": textwrap.dedent( + """\ + >>> data = [(0, 1), (1, 3), (2, 4)] + >>> intervals = pd.arrays.IntervalArray.from_tuples(data) + >>> intervals + + [(0, 1], (1, 3], (2, 4]] + Length: 3, dtype: interval[int64, right] + """ + ), + } + ) + def overlaps(self, other): + if isinstance(other, (IntervalArray, ABCIntervalIndex)): + raise NotImplementedError + if not isinstance(other, Interval): + msg = f"`other` must be Interval-like, got {type(other).__name__}" + raise TypeError(msg) + + # equality is okay if both endpoints are closed (overlap at a point) + op1 = le if (self.closed_left and other.closed_right) else lt + op2 = le if (other.closed_left and self.closed_right) else lt + + # overlaps is equivalent negation of two interval being disjoint: + # disjoint = (A.left > B.right) or (B.left > A.right) + # (simplifying the negation allows this to be done in less operations) + return op1(self.left, other.right) & op2(other.left, self.right) + + # --------------------------------------------------------------------- + + @property + def closed(self) -> IntervalClosedType: + """ + String describing the inclusive side the intervals. + + Either ``left``, ``right``, ``both`` or ``neither``. + + Examples + -------- + + For arrays: + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(1, 5)]) + >>> interv_arr + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.closed + 'right' + + For Interval Index: + + >>> interv_idx = pd.interval_range(start=0, end=2) + >>> interv_idx + IntervalIndex([(0, 1], (1, 2]], dtype='interval[int64, right]') + >>> interv_idx.closed + 'right' + """ + return self.dtype.closed + + _interval_shared_docs["set_closed"] = textwrap.dedent( + """ + Return an identical %(klass)s closed on the specified side. + + Parameters + ---------- + closed : {'left', 'right', 'both', 'neither'} + Whether the intervals are closed on the left-side, right-side, both + or neither. + + Returns + ------- + %(klass)s + + %(examples)s\ + """ + ) + + @Appender( + _interval_shared_docs["set_closed"] + % { + "klass": "IntervalArray", + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> index = pd.arrays.IntervalArray.from_breaks(range(4)) + >>> index + + [(0, 1], (1, 2], (2, 3]] + Length: 3, dtype: interval[int64, right] + >>> index.set_closed('both') + + [[0, 1], [1, 2], [2, 3]] + Length: 3, dtype: interval[int64, both] + """ + ), + } + ) + def set_closed(self, closed: IntervalClosedType) -> Self: + if closed not in VALID_CLOSED: + msg = f"invalid option for 'closed': {closed}" + raise ValueError(msg) + + left, right = self._left, self._right + dtype = IntervalDtype(left.dtype, closed=closed) + return self._simple_new(left, right, dtype=dtype) + + _interval_shared_docs[ + "is_non_overlapping_monotonic" + ] = """ + Return a boolean whether the %(klass)s is non-overlapping and monotonic. + + Non-overlapping means (no Intervals share points), and monotonic means + either monotonic increasing or monotonic decreasing. + + Examples + -------- + For arrays: + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), pd.Interval(1, 5)]) + >>> interv_arr + + [(0, 1], (1, 5]] + Length: 2, dtype: interval[int64, right] + >>> interv_arr.is_non_overlapping_monotonic + True + + >>> interv_arr = pd.arrays.IntervalArray([pd.Interval(0, 1), + ... pd.Interval(-1, 0.1)]) + >>> interv_arr + + [(0.0, 1.0], (-1.0, 0.1]] + Length: 2, dtype: interval[float64, right] + >>> interv_arr.is_non_overlapping_monotonic + False + + For Interval Index: + + >>> interv_idx = pd.interval_range(start=0, end=2) + >>> interv_idx + IntervalIndex([(0, 1], (1, 2]], dtype='interval[int64, right]') + >>> interv_idx.is_non_overlapping_monotonic + True + + >>> interv_idx = pd.interval_range(start=0, end=2, closed='both') + >>> interv_idx + IntervalIndex([[0, 1], [1, 2]], dtype='interval[int64, both]') + >>> interv_idx.is_non_overlapping_monotonic + False + """ + + @property + @Appender( + _interval_shared_docs["is_non_overlapping_monotonic"] % _shared_docs_kwargs + ) + def is_non_overlapping_monotonic(self) -> bool: + # must be increasing (e.g., [0, 1), [1, 2), [2, 3), ... ) + # or decreasing (e.g., [-1, 0), [-2, -1), [-3, -2), ...) + # we already require left <= right + + # strict inequality for closed == 'both'; equality implies overlapping + # at a point when both sides of intervals are included + if self.closed == "both": + return bool( + (self._right[:-1] < self._left[1:]).all() + or (self._left[:-1] > self._right[1:]).all() + ) + + # non-strict inequality when closed != 'both'; at least one side is + # not included in the intervals, so equality does not imply overlapping + return bool( + (self._right[:-1] <= self._left[1:]).all() + or (self._left[:-1] >= self._right[1:]).all() + ) + + # --------------------------------------------------------------------- + # Conversion + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + """ + Return the IntervalArray's data as a numpy array of Interval + objects (with dtype='object') + """ + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + left = self._left + right = self._right + mask = self.isna() + closed = self.closed + + result = np.empty(len(left), dtype=object) + for i, left_value in enumerate(left): + if mask[i]: + result[i] = np.nan + else: + result[i] = Interval(left_value, right[i], closed) + return result + + def __arrow_array__(self, type=None): + """ + Convert myself into a pyarrow Array. + """ + import pyarrow + + from pandas.core.arrays.arrow.extension_types import ArrowIntervalType + + try: + subtype = pyarrow.from_numpy_dtype(self.dtype.subtype) + except TypeError as err: + raise TypeError( + f"Conversion to arrow with subtype '{self.dtype.subtype}' " + "is not supported" + ) from err + interval_type = ArrowIntervalType(subtype, self.closed) + storage_array = pyarrow.StructArray.from_arrays( + [ + pyarrow.array(self._left, type=subtype, from_pandas=True), + pyarrow.array(self._right, type=subtype, from_pandas=True), + ], + names=["left", "right"], + ) + mask = self.isna() + if mask.any(): + # if there are missing values, set validity bitmap also on the array level + null_bitmap = pyarrow.array(~mask).buffers()[1] + storage_array = pyarrow.StructArray.from_buffers( + storage_array.type, + len(storage_array), + [null_bitmap], + children=[storage_array.field(0), storage_array.field(1)], + ) + + if type is not None: + if type.equals(interval_type.storage_type): + return storage_array + elif isinstance(type, ArrowIntervalType): + # ensure we have the same subtype and closed attributes + if not type.equals(interval_type): + raise TypeError( + "Not supported to convert IntervalArray to type with " + f"different 'subtype' ({self.dtype.subtype} vs {type.subtype}) " + f"and 'closed' ({self.closed} vs {type.closed}) attributes" + ) + else: + raise TypeError( + f"Not supported to convert IntervalArray to '{type}' type" + ) + + return pyarrow.ExtensionArray.from_storage(interval_type, storage_array) + + _interval_shared_docs["to_tuples"] = textwrap.dedent( + """ + Return an %(return_type)s of tuples of the form (left, right). + + Parameters + ---------- + na_tuple : bool, default True + If ``True``, return ``NA`` as a tuple ``(nan, nan)``. If ``False``, + just return ``NA`` as ``nan``. + + Returns + ------- + tuples: %(return_type)s + %(examples)s\ + """ + ) + + @Appender( + _interval_shared_docs["to_tuples"] + % { + "return_type": ( + "ndarray (if self is IntervalArray) or Index (if self is IntervalIndex)" + ), + "examples": textwrap.dedent( + """\ + + Examples + -------- + For :class:`pandas.IntervalArray`: + + >>> idx = pd.arrays.IntervalArray.from_tuples([(0, 1), (1, 2)]) + >>> idx + + [(0, 1], (1, 2]] + Length: 2, dtype: interval[int64, right] + >>> idx.to_tuples() + array([(0, 1), (1, 2)], dtype=object) + + For :class:`pandas.IntervalIndex`: + + >>> idx = pd.interval_range(start=0, end=2) + >>> idx + IntervalIndex([(0, 1], (1, 2]], dtype='interval[int64, right]') + >>> idx.to_tuples() + Index([(0, 1), (1, 2)], dtype='object') + """ + ), + } + ) + def to_tuples(self, na_tuple: bool = True) -> np.ndarray: + tuples = com.asarray_tuplesafe(zip(self._left, self._right)) + if not na_tuple: + # GH 18756 + tuples = np.where(~self.isna(), tuples, np.nan) + return tuples + + # --------------------------------------------------------------------- + + def _putmask(self, mask: npt.NDArray[np.bool_], value) -> None: + value_left, value_right = self._validate_setitem_value(value) + + if isinstance(self._left, np.ndarray): + np.putmask(self._left, mask, value_left) + assert isinstance(self._right, np.ndarray) + np.putmask(self._right, mask, value_right) + else: + self._left._putmask(mask, value_left) + assert not isinstance(self._right, np.ndarray) + self._right._putmask(mask, value_right) + + def insert(self, loc: int, item: Interval) -> Self: + """ + Return a new IntervalArray inserting new item at location. Follows + Python numpy.insert semantics for negative values. Only Interval + objects and NA can be inserted into an IntervalIndex + + Parameters + ---------- + loc : int + item : Interval + + Returns + ------- + IntervalArray + """ + left_insert, right_insert = self._validate_scalar(item) + + new_left = self.left.insert(loc, left_insert) + new_right = self.right.insert(loc, right_insert) + + return self._shallow_copy(new_left, new_right) + + def delete(self, loc) -> Self: + if isinstance(self._left, np.ndarray): + new_left = np.delete(self._left, loc) + assert isinstance(self._right, np.ndarray) + new_right = np.delete(self._right, loc) + else: + new_left = self._left.delete(loc) + assert not isinstance(self._right, np.ndarray) + new_right = self._right.delete(loc) + return self._shallow_copy(left=new_left, right=new_right) + + @Appender(_extension_array_shared_docs["repeat"] % _shared_docs_kwargs) + def repeat( + self, + repeats: int | Sequence[int], + axis: AxisInt | None = None, + ) -> Self: + nv.validate_repeat((), {"axis": axis}) + left_repeat = self.left.repeat(repeats) + right_repeat = self.right.repeat(repeats) + return self._shallow_copy(left=left_repeat, right=right_repeat) + + _interval_shared_docs["contains"] = textwrap.dedent( + """ + Check elementwise if the Intervals contain the value. + + Return a boolean mask whether the value is contained in the Intervals + of the %(klass)s. + + Parameters + ---------- + other : scalar + The value to check whether it is contained in the Intervals. + + Returns + ------- + boolean array + + See Also + -------- + Interval.contains : Check whether Interval object contains value. + %(klass)s.overlaps : Check if an Interval overlaps the values in the + %(klass)s. + + Examples + -------- + %(examples)s + >>> intervals.contains(0.5) + array([ True, False, False]) + """ + ) + + @Appender( + _interval_shared_docs["contains"] + % { + "klass": "IntervalArray", + "examples": textwrap.dedent( + """\ + >>> intervals = pd.arrays.IntervalArray.from_tuples([(0, 1), (1, 3), (2, 4)]) + >>> intervals + + [(0, 1], (1, 3], (2, 4]] + Length: 3, dtype: interval[int64, right] + """ + ), + } + ) + def contains(self, other): + if isinstance(other, Interval): + raise NotImplementedError("contains not implemented for two intervals") + + return (self._left < other if self.open_left else self._left <= other) & ( + other < self._right if self.open_right else other <= self._right + ) + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + if isinstance(values, IntervalArray): + if self.closed != values.closed: + # not comparable -> no overlap + return np.zeros(self.shape, dtype=bool) + + if self.dtype == values.dtype: + # GH#38353 instead of casting to object, operating on a + # complex128 ndarray is much more performant. + left = self._combined.view("complex128") + right = values._combined.view("complex128") + # error: Argument 1 to "isin" has incompatible type + # "Union[ExtensionArray, ndarray[Any, Any], + # ndarray[Any, dtype[Any]]]"; expected + # "Union[_SupportsArray[dtype[Any]], + # _NestedSequence[_SupportsArray[dtype[Any]]], bool, + # int, float, complex, str, bytes, _NestedSequence[ + # Union[bool, int, float, complex, str, bytes]]]" + return np.isin(left, right).ravel() # type: ignore[arg-type] + + elif needs_i8_conversion(self.left.dtype) ^ needs_i8_conversion( + values.left.dtype + ): + # not comparable -> no overlap + return np.zeros(self.shape, dtype=bool) + + return isin(self.astype(object), values.astype(object)) + + @property + def _combined(self) -> IntervalSide: + # error: Item "ExtensionArray" of "ExtensionArray | ndarray[Any, Any]" + # has no attribute "reshape" [union-attr] + left = self.left._values.reshape(-1, 1) # type: ignore[union-attr] + right = self.right._values.reshape(-1, 1) # type: ignore[union-attr] + if needs_i8_conversion(left.dtype): + # error: Item "ndarray[Any, Any]" of "Any | ndarray[Any, Any]" has + # no attribute "_concat_same_type" + comb = left._concat_same_type( # type: ignore[union-attr] + [left, right], axis=1 + ) + else: + comb = np.concatenate([left, right], axis=1) + return comb + + def _from_combined(self, combined: np.ndarray) -> IntervalArray: + """ + Create a new IntervalArray with our dtype from a 1D complex128 ndarray. + """ + nc = combined.view("i8").reshape(-1, 2) + + dtype = self._left.dtype + if needs_i8_conversion(dtype): + assert isinstance(self._left, (DatetimeArray, TimedeltaArray)) + new_left = type(self._left)._from_sequence(nc[:, 0], dtype=dtype) + assert isinstance(self._right, (DatetimeArray, TimedeltaArray)) + new_right = type(self._right)._from_sequence(nc[:, 1], dtype=dtype) + else: + assert isinstance(dtype, np.dtype) + new_left = nc[:, 0].view(dtype) + new_right = nc[:, 1].view(dtype) + return self._shallow_copy(left=new_left, right=new_right) + + def unique(self) -> IntervalArray: + # No overload variant of "__getitem__" of "ExtensionArray" matches argument + # type "Tuple[slice, int]" + nc = unique( + self._combined.view("complex128")[:, 0] # type: ignore[call-overload] + ) + nc = nc[:, None] + return self._from_combined(nc) + + +def _maybe_convert_platform_interval(values) -> ArrayLike: + """ + Try to do platform conversion, with special casing for IntervalArray. + Wrapper around maybe_convert_platform that alters the default return + dtype in certain cases to be compatible with IntervalArray. For example, + empty lists return with integer dtype instead of object dtype, which is + prohibited for IntervalArray. + + Parameters + ---------- + values : array-like + + Returns + ------- + array + """ + if isinstance(values, (list, tuple)) and len(values) == 0: + # GH 19016 + # empty lists/tuples get object dtype by default, but this is + # prohibited for IntervalArray, so coerce to integer instead + return np.array([], dtype=np.int64) + elif not is_list_like(values) or isinstance(values, ABCDataFrame): + # This will raise later, but we avoid passing to maybe_convert_platform + return values + elif isinstance(getattr(values, "dtype", None), CategoricalDtype): + values = np.asarray(values) + elif not hasattr(values, "dtype") and not isinstance(values, (list, tuple, range)): + # TODO: should we just cast these to list? + return values + else: + values = extract_array(values, extract_numpy=True) + + if not hasattr(values, "dtype"): + values = np.asarray(values) + if values.dtype.kind in "iu" and values.dtype != np.int64: + values = values.astype(np.int64) + return values diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/masked.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/masked.py new file mode 100644 index 0000000000000000000000000000000000000000..da656a2768901b572abd8b43810f0f496a293e1c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/masked.py @@ -0,0 +1,1669 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas._libs.tslibs import is_supported_dtype +from pandas._typing import ( + ArrayLike, + AstypeArg, + AxisInt, + DtypeObj, + FillnaOptions, + InterpolateOptions, + NpDtype, + PositionalIndexer, + Scalar, + ScalarIndexer, + Self, + SequenceIndexer, + Shape, + npt, +) +from pandas.compat import ( + IS64, + is_platform_windows, +) +from pandas.errors import AbstractMethodError +from pandas.util._decorators import doc +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import validate_fillna_kwargs + +from pandas.core.dtypes.base import ExtensionDtype +from pandas.core.dtypes.common import ( + is_bool, + is_integer_dtype, + is_list_like, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import BaseMaskedDtype +from pandas.core.dtypes.missing import ( + array_equivalent, + is_valid_na_for_dtype, + isna, + notna, +) + +from pandas.core import ( + algorithms as algos, + arraylike, + missing, + nanops, + ops, +) +from pandas.core.algorithms import ( + factorize_array, + isin, + map_array, + mode, + take, +) +from pandas.core.array_algos import ( + masked_accumulations, + masked_reductions, +) +from pandas.core.array_algos.quantile import quantile_with_mask +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays._utils import to_numpy_dtype_inference +from pandas.core.arrays.base import ExtensionArray +from pandas.core.construction import ( + array as pd_array, + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.indexers import check_array_indexer +from pandas.core.ops import invalid_comparison +from pandas.core.util.hashing import hash_array + +if TYPE_CHECKING: + from collections.abc import ( + Iterator, + Sequence, + ) + from pandas import Series + from pandas.core.arrays import BooleanArray + from pandas._typing import ( + NumpySorter, + NumpyValueArrayLike, + ) + from pandas.core.arrays import FloatingArray + +from pandas.compat.numpy import function as nv + + +class BaseMaskedArray(OpsMixin, ExtensionArray): + """ + Base class for masked arrays (which use _data and _mask to store the data). + + numpy based + """ + + # The value used to fill '_data' to avoid upcasting + _internal_fill_value: Scalar + # our underlying data and mask are each ndarrays + _data: np.ndarray + _mask: npt.NDArray[np.bool_] + + # Fill values used for any/all + _truthy_value = Scalar # bool(_truthy_value) = True + _falsey_value = Scalar # bool(_falsey_value) = False + + @classmethod + def _simple_new(cls, values: np.ndarray, mask: npt.NDArray[np.bool_]) -> Self: + result = BaseMaskedArray.__new__(cls) + result._data = values + result._mask = mask + return result + + def __init__( + self, values: np.ndarray, mask: npt.NDArray[np.bool_], copy: bool = False + ) -> None: + # values is supposed to already be validated in the subclass + if not (isinstance(mask, np.ndarray) and mask.dtype == np.bool_): + raise TypeError( + "mask should be boolean numpy array. Use " + "the 'pd.array' function instead" + ) + if values.shape != mask.shape: + raise ValueError("values.shape must match mask.shape") + + if copy: + values = values.copy() + mask = mask.copy() + + self._data = values + self._mask = mask + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy: bool = False) -> Self: + values, mask = cls._coerce_to_array(scalars, dtype=dtype, copy=copy) + return cls(values, mask) + + @classmethod + @doc(ExtensionArray._empty) + def _empty(cls, shape: Shape, dtype: ExtensionDtype): + values = np.empty(shape, dtype=dtype.type) + values.fill(cls._internal_fill_value) + mask = np.ones(shape, dtype=bool) + result = cls(values, mask) + if not isinstance(result, cls) or dtype != result.dtype: + raise NotImplementedError( + f"Default 'empty' implementation is invalid for dtype='{dtype}'" + ) + return result + + def _formatter(self, boxed: bool = False) -> Callable[[Any], str | None]: + # NEP 51: https://github.com/numpy/numpy/pull/22449 + return str + + @property + def dtype(self) -> BaseMaskedDtype: + raise AbstractMethodError(self) + + @overload + def __getitem__(self, item: ScalarIndexer) -> Any: + ... + + @overload + def __getitem__(self, item: SequenceIndexer) -> Self: + ... + + def __getitem__(self, item: PositionalIndexer) -> Self | Any: + item = check_array_indexer(self, item) + + newmask = self._mask[item] + if is_bool(newmask): + # This is a scalar indexing + if newmask: + return self.dtype.na_value + return self._data[item] + + return self._simple_new(self._data[item], newmask) + + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + mask = self._mask + + if mask.any(): + func = missing.get_fill_func(method, ndim=self.ndim) + + npvalues = self._data.T + new_mask = mask.T + if copy: + npvalues = npvalues.copy() + new_mask = new_mask.copy() + elif limit_area is not None: + mask = mask.copy() + func(npvalues, limit=limit, mask=new_mask) + + if limit_area is not None and not mask.all(): + mask = mask.T + neg_mask = ~mask + first = neg_mask.argmax() + last = len(neg_mask) - neg_mask[::-1].argmax() - 1 + if limit_area == "inside": + new_mask[:first] |= mask[:first] + new_mask[last + 1 :] |= mask[last + 1 :] + elif limit_area == "outside": + new_mask[first + 1 : last] |= mask[first + 1 : last] + + if copy: + return self._simple_new(npvalues.T, new_mask.T) + else: + return self + else: + if copy: + new_values = self.copy() + else: + new_values = self + return new_values + + @doc(ExtensionArray.fillna) + def fillna( + self, value=None, method=None, limit: int | None = None, copy: bool = True + ) -> Self: + value, method = validate_fillna_kwargs(value, method) + + mask = self._mask + + value = missing.check_value_size(value, mask, len(self)) + + if mask.any(): + if method is not None: + func = missing.get_fill_func(method, ndim=self.ndim) + npvalues = self._data.T + new_mask = mask.T + if copy: + npvalues = npvalues.copy() + new_mask = new_mask.copy() + func(npvalues, limit=limit, mask=new_mask) + return self._simple_new(npvalues.T, new_mask.T) + else: + # fill with value + if copy: + new_values = self.copy() + else: + new_values = self[:] + new_values[mask] = value + else: + if copy: + new_values = self.copy() + else: + new_values = self[:] + return new_values + + @classmethod + def _coerce_to_array( + cls, values, *, dtype: DtypeObj, copy: bool = False + ) -> tuple[np.ndarray, np.ndarray]: + raise AbstractMethodError(cls) + + def _validate_setitem_value(self, value): + """ + Check if we have a scalar that we can cast losslessly. + + Raises + ------ + TypeError + """ + kind = self.dtype.kind + # TODO: get this all from np_can_hold_element? + if kind == "b": + if lib.is_bool(value): + return value + + elif kind == "f": + if lib.is_integer(value) or lib.is_float(value): + return value + + else: + if lib.is_integer(value) or (lib.is_float(value) and value.is_integer()): + return value + # TODO: unsigned checks + + # Note: without the "str" here, the f-string rendering raises in + # py38 builds. + raise TypeError(f"Invalid value '{value!s}' for dtype '{self.dtype}'") + + def __setitem__(self, key, value) -> None: + key = check_array_indexer(self, key) + + if is_scalar(value): + if is_valid_na_for_dtype(value, self.dtype): + self._mask[key] = True + else: + value = self._validate_setitem_value(value) + self._data[key] = value + self._mask[key] = False + return + + value, mask = self._coerce_to_array(value, dtype=self.dtype) + + self._data[key] = value + self._mask[key] = mask + + def __contains__(self, key) -> bool: + if isna(key) and key is not self.dtype.na_value: + # GH#52840 + if self._data.dtype.kind == "f" and lib.is_float(key): + return bool((np.isnan(self._data) & ~self._mask).any()) + + return bool(super().__contains__(key)) + + def __iter__(self) -> Iterator: + if self.ndim == 1: + if not self._hasna: + for val in self._data: + yield val + else: + na_value = self.dtype.na_value + for isna_, val in zip(self._mask, self._data): + if isna_: + yield na_value + else: + yield val + else: + for i in range(len(self)): + yield self[i] + + def __len__(self) -> int: + return len(self._data) + + @property + def shape(self) -> Shape: + return self._data.shape + + @property + def ndim(self) -> int: + return self._data.ndim + + def swapaxes(self, axis1, axis2) -> Self: + data = self._data.swapaxes(axis1, axis2) + mask = self._mask.swapaxes(axis1, axis2) + return self._simple_new(data, mask) + + def delete(self, loc, axis: AxisInt = 0) -> Self: + data = np.delete(self._data, loc, axis=axis) + mask = np.delete(self._mask, loc, axis=axis) + return self._simple_new(data, mask) + + def reshape(self, *args, **kwargs) -> Self: + data = self._data.reshape(*args, **kwargs) + mask = self._mask.reshape(*args, **kwargs) + return self._simple_new(data, mask) + + def ravel(self, *args, **kwargs) -> Self: + # TODO: need to make sure we have the same order for data/mask + data = self._data.ravel(*args, **kwargs) + mask = self._mask.ravel(*args, **kwargs) + return type(self)(data, mask) + + @property + def T(self) -> Self: + return self._simple_new(self._data.T, self._mask.T) + + def round(self, decimals: int = 0, *args, **kwargs): + """ + Round each value in the array a to the given number of decimals. + + Parameters + ---------- + decimals : int, default 0 + Number of decimal places to round to. If decimals is negative, + it specifies the number of positions to the left of the decimal point. + *args, **kwargs + Additional arguments and keywords have no effect but might be + accepted for compatibility with NumPy. + + Returns + ------- + NumericArray + Rounded values of the NumericArray. + + See Also + -------- + numpy.around : Round values of an np.array. + DataFrame.round : Round values of a DataFrame. + Series.round : Round values of a Series. + """ + if self.dtype.kind == "b": + return self + nv.validate_round(args, kwargs) + values = np.round(self._data, decimals=decimals, **kwargs) + + # Usually we'll get same type as self, but ndarray[bool] casts to float + return self._maybe_mask_result(values, self._mask.copy()) + + # ------------------------------------------------------------------ + # Unary Methods + + def __invert__(self) -> Self: + return self._simple_new(~self._data, self._mask.copy()) + + def __neg__(self) -> Self: + return self._simple_new(-self._data, self._mask.copy()) + + def __pos__(self) -> Self: + return self.copy() + + def __abs__(self) -> Self: + return self._simple_new(abs(self._data), self._mask.copy()) + + # ------------------------------------------------------------------ + + def _values_for_json(self) -> np.ndarray: + return np.asarray(self, dtype=object) + + def to_numpy( + self, + dtype: npt.DTypeLike | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Convert to a NumPy Array. + + By default converts to an object-dtype NumPy array. Specify the `dtype` and + `na_value` keywords to customize the conversion. + + Parameters + ---------- + dtype : dtype, default object + The numpy dtype to convert to. + copy : bool, default False + Whether to ensure that the returned value is a not a view on + the array. Note that ``copy=False`` does not *ensure* that + ``to_numpy()`` is no-copy. Rather, ``copy=True`` ensure that + a copy is made, even if not strictly necessary. This is typically + only possible when no missing values are present and `dtype` + is the equivalent numpy dtype. + na_value : scalar, optional + Scalar missing value indicator to use in numpy array. Defaults + to the native missing value indicator of this array (pd.NA). + + Returns + ------- + numpy.ndarray + + Examples + -------- + An object-dtype is the default result + + >>> a = pd.array([True, False, pd.NA], dtype="boolean") + >>> a.to_numpy() + array([True, False, ], dtype=object) + + When no missing values are present, an equivalent dtype can be used. + + >>> pd.array([True, False], dtype="boolean").to_numpy(dtype="bool") + array([ True, False]) + >>> pd.array([1, 2], dtype="Int64").to_numpy("int64") + array([1, 2]) + + However, requesting such dtype will raise a ValueError if + missing values are present and the default missing value :attr:`NA` + is used. + + >>> a = pd.array([True, False, pd.NA], dtype="boolean") + >>> a + + [True, False, ] + Length: 3, dtype: boolean + + >>> a.to_numpy(dtype="bool") + Traceback (most recent call last): + ... + ValueError: cannot convert to bool numpy array in presence of missing values + + Specify a valid `na_value` instead + + >>> a.to_numpy(dtype="bool", na_value=False) + array([ True, False, False]) + """ + hasna = self._hasna + dtype, na_value = to_numpy_dtype_inference(self, dtype, na_value, hasna) + if dtype is None: + dtype = object + + if hasna: + if ( + dtype != object + and not is_string_dtype(dtype) + and na_value is libmissing.NA + ): + raise ValueError( + f"cannot convert to '{dtype}'-dtype NumPy array " + "with missing values. Specify an appropriate 'na_value' " + "for this dtype." + ) + # don't pass copy to astype -> always need a copy since we are mutating + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + data = self._data.astype(dtype) + data[self._mask] = na_value + else: + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + data = self._data.astype(dtype, copy=copy) + return data + + @doc(ExtensionArray.tolist) + def tolist(self): + if self.ndim > 1: + return [x.tolist() for x in self] + dtype = None if self._hasna else self._data.dtype + return self.to_numpy(dtype=dtype, na_value=libmissing.NA).tolist() + + @overload + def astype(self, dtype: npt.DTypeLike, copy: bool = ...) -> np.ndarray: + ... + + @overload + def astype(self, dtype: ExtensionDtype, copy: bool = ...) -> ExtensionArray: + ... + + @overload + def astype(self, dtype: AstypeArg, copy: bool = ...) -> ArrayLike: + ... + + def astype(self, dtype: AstypeArg, copy: bool = True) -> ArrayLike: + dtype = pandas_dtype(dtype) + + if dtype == self.dtype: + if copy: + return self.copy() + return self + + # if we are astyping to another nullable masked dtype, we can fastpath + if isinstance(dtype, BaseMaskedDtype): + # TODO deal with NaNs for FloatingArray case + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + # TODO: Is rounding what we want long term? + data = self._data.astype(dtype.numpy_dtype, copy=copy) + # mask is copied depending on whether the data was copied, and + # not directly depending on the `copy` keyword + mask = self._mask if data is self._data else self._mask.copy() + cls = dtype.construct_array_type() + return cls(data, mask, copy=False) + + if isinstance(dtype, ExtensionDtype): + eacls = dtype.construct_array_type() + return eacls._from_sequence(self, dtype=dtype, copy=copy) + + na_value: float | np.datetime64 | lib.NoDefault + + # coerce + if dtype.kind == "f": + # In astype, we consider dtype=float to also mean na_value=np.nan + na_value = np.nan + elif dtype.kind == "M": + na_value = np.datetime64("NaT") + else: + na_value = lib.no_default + + # to_numpy will also raise, but we get somewhat nicer exception messages here + if dtype.kind in "iu" and self._hasna: + raise ValueError("cannot convert NA to integer") + if dtype.kind == "b" and self._hasna: + # careful: astype_nansafe converts np.nan to True + raise ValueError("cannot convert float NaN to bool") + + data = self.to_numpy(dtype=dtype, na_value=na_value, copy=copy) + return data + + __array_priority__ = 1000 # higher than ndarray so ops dispatch to us + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + """ + the array interface, return my values + We return an object array here to preserve our scalar values + """ + if copy is False: + if not self._hasna: + # special case, here we can simply return the underlying data + return np.array(self._data, dtype=dtype, copy=copy) + + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if copy is None: + copy = False # The NumPy copy=False meaning is different here. + return self.to_numpy(dtype=dtype, copy=copy) + + _HANDLED_TYPES: tuple[type, ...] + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + # For MaskedArray inputs, we apply the ufunc to ._data + # and mask the result. + + out = kwargs.get("out", ()) + + for x in inputs + out: + if not isinstance(x, self._HANDLED_TYPES + (BaseMaskedArray,)): + return NotImplemented + + # for binary ops, use our custom dunder methods + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + # e.g. test_ufunc_with_out + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + mask = np.zeros(len(self), dtype=bool) + inputs2 = [] + for x in inputs: + if isinstance(x, BaseMaskedArray): + mask |= x._mask + inputs2.append(x._data) + else: + inputs2.append(x) + + def reconstruct(x: np.ndarray): + # we don't worry about scalar `x` here, since we + # raise for reduce up above. + from pandas.core.arrays import ( + BooleanArray, + FloatingArray, + IntegerArray, + ) + + if x.dtype.kind == "b": + m = mask.copy() + return BooleanArray(x, m) + elif x.dtype.kind in "iu": + m = mask.copy() + return IntegerArray(x, m) + elif x.dtype.kind == "f": + m = mask.copy() + if x.dtype == np.float16: + # reached in e.g. np.sqrt on BooleanArray + # we don't support float16 + x = x.astype(np.float32) + return FloatingArray(x, m) + else: + x[mask] = np.nan + return x + + result = getattr(ufunc, method)(*inputs2, **kwargs) + if ufunc.nout > 1: + # e.g. np.divmod + return tuple(reconstruct(x) for x in result) + elif method == "reduce": + # e.g. np.add.reduce; test_ufunc_reduce_raises + if self._mask.any(): + return self._na_value + return result + else: + return reconstruct(result) + + def __arrow_array__(self, type=None): + """ + Convert myself into a pyarrow Array. + """ + import pyarrow as pa + + return pa.array(self._data, mask=self._mask, type=type) + + @property + def _hasna(self) -> bool: + # Note: this is expensive right now! The hope is that we can + # make this faster by having an optional mask, but not have to change + # source code using it.. + + # error: Incompatible return value type (got "bool_", expected "bool") + return self._mask.any() # type: ignore[return-value] + + def _propagate_mask( + self, mask: npt.NDArray[np.bool_] | None, other + ) -> npt.NDArray[np.bool_]: + if mask is None: + mask = self._mask.copy() # TODO: need test for BooleanArray needing a copy + if other is libmissing.NA: + # GH#45421 don't alter inplace + mask = mask | True + elif is_list_like(other) and len(other) == len(mask): + mask = mask | isna(other) + else: + mask = self._mask | mask + # Incompatible return value type (got "Optional[ndarray[Any, dtype[bool_]]]", + # expected "ndarray[Any, dtype[bool_]]") + return mask # type: ignore[return-value] + + def _arith_method(self, other, op): + op_name = op.__name__ + omask = None + + if ( + not hasattr(other, "dtype") + and is_list_like(other) + and len(other) == len(self) + ): + # Try inferring masked dtype instead of casting to object + other = pd_array(other) + other = extract_array(other, extract_numpy=True) + + if isinstance(other, BaseMaskedArray): + other, omask = other._data, other._mask + + elif is_list_like(other): + if not isinstance(other, ExtensionArray): + other = np.asarray(other) + if other.ndim > 1: + raise NotImplementedError("can only perform ops with 1-d structures") + + # We wrap the non-masked arithmetic logic used for numpy dtypes + # in Series/Index arithmetic ops. + other = ops.maybe_prepare_scalar_for_op(other, (len(self),)) + pd_op = ops.get_array_op(op) + other = ensure_wrapped_if_datetimelike(other) + + if op_name in {"pow", "rpow"} and isinstance(other, np.bool_): + # Avoid DeprecationWarning: In future, it will be an error + # for 'np.bool_' scalars to be interpreted as an index + # e.g. test_array_scalar_like_equivalence + other = bool(other) + + mask = self._propagate_mask(omask, other) + + if other is libmissing.NA: + result = np.ones_like(self._data) + if self.dtype.kind == "b": + if op_name in { + "floordiv", + "rfloordiv", + "pow", + "rpow", + "truediv", + "rtruediv", + }: + # GH#41165 Try to match non-masked Series behavior + # This is still imperfect GH#46043 + raise NotImplementedError( + f"operator '{op_name}' not implemented for bool dtypes" + ) + if op_name in {"mod", "rmod"}: + dtype = "int8" + else: + dtype = "bool" + result = result.astype(dtype) + elif "truediv" in op_name and self.dtype.kind != "f": + # The actual data here doesn't matter since the mask + # will be all-True, but since this is division, we want + # to end up with floating dtype. + result = result.astype(np.float64) + else: + # Make sure we do this before the "pow" mask checks + # to get an expected exception message on shape mismatch. + if self.dtype.kind in "iu" and op_name in ["floordiv", "mod"]: + # TODO(GH#30188) ATM we don't match the behavior of non-masked + # types with respect to floordiv-by-zero + pd_op = op + + with np.errstate(all="ignore"): + result = pd_op(self._data, other) + + if op_name == "pow": + # 1 ** x is 1. + mask = np.where((self._data == 1) & ~self._mask, False, mask) + # x ** 0 is 1. + if omask is not None: + mask = np.where((other == 0) & ~omask, False, mask) + elif other is not libmissing.NA: + mask = np.where(other == 0, False, mask) + + elif op_name == "rpow": + # 1 ** x is 1. + if omask is not None: + mask = np.where((other == 1) & ~omask, False, mask) + elif other is not libmissing.NA: + mask = np.where(other == 1, False, mask) + # x ** 0 is 1. + mask = np.where((self._data == 0) & ~self._mask, False, mask) + + return self._maybe_mask_result(result, mask) + + _logical_method = _arith_method + + def _cmp_method(self, other, op) -> BooleanArray: + from pandas.core.arrays import BooleanArray + + mask = None + + if isinstance(other, BaseMaskedArray): + other, mask = other._data, other._mask + + elif is_list_like(other): + other = np.asarray(other) + if other.ndim > 1: + raise NotImplementedError("can only perform ops with 1-d structures") + if len(self) != len(other): + raise ValueError("Lengths must match to compare") + + if other is libmissing.NA: + # numpy does not handle pd.NA well as "other" scalar (it returns + # a scalar False instead of an array) + # This may be fixed by NA.__array_ufunc__. Revisit this check + # once that's implemented. + result = np.zeros(self._data.shape, dtype="bool") + mask = np.ones(self._data.shape, dtype="bool") + else: + with warnings.catch_warnings(): + # numpy may show a FutureWarning or DeprecationWarning: + # elementwise comparison failed; returning scalar instead, + # but in the future will perform elementwise comparison + # before returning NotImplemented. We fall back to the correct + # behavior today, so that should be fine to ignore. + warnings.filterwarnings("ignore", "elementwise", FutureWarning) + warnings.filterwarnings("ignore", "elementwise", DeprecationWarning) + method = getattr(self._data, f"__{op.__name__}__") + result = method(other) + + if result is NotImplemented: + result = invalid_comparison(self._data, other, op) + + mask = self._propagate_mask(mask, other) + return BooleanArray(result, mask, copy=False) + + def _maybe_mask_result( + self, result: np.ndarray | tuple[np.ndarray, np.ndarray], mask: np.ndarray + ): + """ + Parameters + ---------- + result : array-like or tuple[array-like] + mask : array-like bool + """ + if isinstance(result, tuple): + # i.e. divmod + div, mod = result + return ( + self._maybe_mask_result(div, mask), + self._maybe_mask_result(mod, mask), + ) + + if result.dtype.kind == "f": + from pandas.core.arrays import FloatingArray + + return FloatingArray(result, mask, copy=False) + + elif result.dtype.kind == "b": + from pandas.core.arrays import BooleanArray + + return BooleanArray(result, mask, copy=False) + + elif lib.is_np_dtype(result.dtype, "m") and is_supported_dtype(result.dtype): + # e.g. test_numeric_arr_mul_tdscalar_numexpr_path + from pandas.core.arrays import TimedeltaArray + + result[mask] = result.dtype.type("NaT") + + if not isinstance(result, TimedeltaArray): + return TimedeltaArray._simple_new(result, dtype=result.dtype) + + return result + + elif result.dtype.kind in "iu": + from pandas.core.arrays import IntegerArray + + return IntegerArray(result, mask, copy=False) + + else: + result[mask] = np.nan + return result + + def isna(self) -> np.ndarray: + return self._mask.copy() + + @property + def _na_value(self): + return self.dtype.na_value + + @property + def nbytes(self) -> int: + return self._data.nbytes + self._mask.nbytes + + @classmethod + def _concat_same_type( + cls, + to_concat: Sequence[Self], + axis: AxisInt = 0, + ) -> Self: + data = np.concatenate([x._data for x in to_concat], axis=axis) + mask = np.concatenate([x._mask for x in to_concat], axis=axis) + return cls(data, mask) + + def _hash_pandas_object( + self, *, encoding: str, hash_key: str, categorize: bool + ) -> npt.NDArray[np.uint64]: + hashed_array = hash_array( + self._data, encoding=encoding, hash_key=hash_key, categorize=categorize + ) + hashed_array[self.isna()] = hash(self.dtype.na_value) + return hashed_array + + def take( + self, + indexer, + *, + allow_fill: bool = False, + fill_value: Scalar | None = None, + axis: AxisInt = 0, + ) -> Self: + # we always fill with 1 internally + # to avoid upcasting + data_fill_value = self._internal_fill_value if isna(fill_value) else fill_value + result = take( + self._data, + indexer, + fill_value=data_fill_value, + allow_fill=allow_fill, + axis=axis, + ) + + mask = take( + self._mask, indexer, fill_value=True, allow_fill=allow_fill, axis=axis + ) + + # if we are filling + # we only fill where the indexer is null + # not existing missing values + # TODO(jreback) what if we have a non-na float as a fill value? + if allow_fill and notna(fill_value): + fill_mask = np.asarray(indexer) == -1 + result[fill_mask] = fill_value + mask = mask ^ fill_mask + + return self._simple_new(result, mask) + + # error: Return type "BooleanArray" of "isin" incompatible with return type + # "ndarray" in supertype "ExtensionArray" + def isin(self, values: ArrayLike) -> BooleanArray: # type: ignore[override] + from pandas.core.arrays import BooleanArray + + # algorithms.isin will eventually convert values to an ndarray, so no extra + # cost to doing it here first + values_arr = np.asarray(values) + result = isin(self._data, values_arr) + + if self._hasna: + values_have_NA = values_arr.dtype == object and any( + val is self.dtype.na_value for val in values_arr + ) + + # For now, NA does not propagate so set result according to presence of NA, + # see https://github.com/pandas-dev/pandas/pull/38379 for some discussion + result[self._mask] = values_have_NA + + mask = np.zeros(self._data.shape, dtype=bool) + return BooleanArray(result, mask, copy=False) + + def copy(self) -> Self: + data = self._data.copy() + mask = self._mask.copy() + return self._simple_new(data, mask) + + @doc(ExtensionArray.duplicated) + def duplicated( + self, keep: Literal["first", "last", False] = "first" + ) -> npt.NDArray[np.bool_]: + values = self._data + mask = self._mask + return algos.duplicated(values, keep=keep, mask=mask) + + def unique(self) -> Self: + """ + Compute the BaseMaskedArray of unique values. + + Returns + ------- + uniques : BaseMaskedArray + """ + uniques, mask = algos.unique_with_mask(self._data, self._mask) + return self._simple_new(uniques, mask) + + @doc(ExtensionArray.searchsorted) + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + if self._hasna: + raise ValueError( + "searchsorted requires array to be sorted, which is impossible " + "with NAs present." + ) + if isinstance(value, ExtensionArray): + value = value.astype(object) + # Base class searchsorted would cast to object, which is *much* slower. + return self._data.searchsorted(value, side=side, sorter=sorter) + + @doc(ExtensionArray.factorize) + def factorize( + self, + use_na_sentinel: bool = True, + ) -> tuple[np.ndarray, ExtensionArray]: + arr = self._data + mask = self._mask + + # Use a sentinel for na; recode and add NA to uniques if necessary below + codes, uniques = factorize_array(arr, use_na_sentinel=True, mask=mask) + + # check that factorize_array correctly preserves dtype. + assert uniques.dtype == self.dtype.numpy_dtype, (uniques.dtype, self.dtype) + + has_na = mask.any() + if use_na_sentinel or not has_na: + size = len(uniques) + else: + # Make room for an NA value + size = len(uniques) + 1 + uniques_mask = np.zeros(size, dtype=bool) + if not use_na_sentinel and has_na: + na_index = mask.argmax() + # Insert na with the proper code + if na_index == 0: + na_code = np.intp(0) + else: + na_code = codes[:na_index].max() + 1 + codes[codes >= na_code] += 1 + codes[codes == -1] = na_code + # dummy value for uniques; not used since uniques_mask will be True + uniques = np.insert(uniques, na_code, 0) + uniques_mask[na_code] = True + uniques_ea = self._simple_new(uniques, uniques_mask) + + return codes, uniques_ea + + @doc(ExtensionArray._values_for_argsort) + def _values_for_argsort(self) -> np.ndarray: + return self._data + + def value_counts(self, dropna: bool = True) -> Series: + """ + Returns a Series containing counts of each unique value. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of missing values. + + Returns + ------- + counts : Series + + See Also + -------- + Series.value_counts + """ + from pandas import ( + Index, + Series, + ) + from pandas.arrays import IntegerArray + + keys, value_counts, na_counter = algos.value_counts_arraylike( + self._data, dropna=dropna, mask=self._mask + ) + mask_index = np.zeros((len(value_counts),), dtype=np.bool_) + mask = mask_index.copy() + + if na_counter > 0: + mask_index[-1] = True + + arr = IntegerArray(value_counts, mask) + index = Index( + self.dtype.construct_array_type()( + keys, mask_index # type: ignore[arg-type] + ) + ) + return Series(arr, index=index, name="count", copy=False) + + def _mode(self, dropna: bool = True) -> Self: + if dropna: + result = mode(self._data, dropna=dropna, mask=self._mask) + res_mask = np.zeros(result.shape, dtype=np.bool_) + else: + result, res_mask = mode(self._data, dropna=dropna, mask=self._mask) + result = type(self)(result, res_mask) # type: ignore[arg-type] + return result[result.argsort()] + + @doc(ExtensionArray.equals) + def equals(self, other) -> bool: + if type(self) != type(other): + return False + if other.dtype != self.dtype: + return False + + # GH#44382 if e.g. self[1] is np.nan and other[1] is pd.NA, we are NOT + # equal. + if not np.array_equal(self._mask, other._mask): + return False + + left = self._data[~self._mask] + right = other._data[~other._mask] + return array_equivalent(left, right, strict_nan=True, dtype_equal=True) + + def _quantile( + self, qs: npt.NDArray[np.float64], interpolation: str + ) -> BaseMaskedArray: + """ + Dispatch to quantile_with_mask, needed because we do not have + _from_factorized. + + Notes + ----- + We assume that all impacted cases are 1D-only. + """ + res = quantile_with_mask( + self._data, + mask=self._mask, + # TODO(GH#40932): na_value_for_dtype(self.dtype.numpy_dtype) + # instead of np.nan + fill_value=np.nan, + qs=qs, + interpolation=interpolation, + ) + + if self._hasna: + # Our result mask is all-False unless we are all-NA, in which + # case it is all-True. + if self.ndim == 2: + # I think this should be out_mask=self.isna().all(axis=1) + # but am holding off until we have tests + raise NotImplementedError + if self.isna().all(): + out_mask = np.ones(res.shape, dtype=bool) + + if is_integer_dtype(self.dtype): + # We try to maintain int dtype if possible for not all-na case + # as well + res = np.zeros(res.shape, dtype=self.dtype.numpy_dtype) + else: + out_mask = np.zeros(res.shape, dtype=bool) + else: + out_mask = np.zeros(res.shape, dtype=bool) + return self._maybe_mask_result(res, mask=out_mask) + + # ------------------------------------------------------------------ + # Reductions + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + if name in {"any", "all", "min", "max", "sum", "prod", "mean", "var", "std"}: + result = getattr(self, name)(skipna=skipna, **kwargs) + else: + # median, skew, kurt, sem + data = self._data + mask = self._mask + op = getattr(nanops, f"nan{name}") + axis = kwargs.pop("axis", None) + result = op(data, axis=axis, skipna=skipna, mask=mask, **kwargs) + + if keepdims: + if isna(result): + return self._wrap_na_result(name=name, axis=0, mask_size=(1,)) + else: + result = result.reshape(1) + mask = np.zeros(1, dtype=bool) + return self._maybe_mask_result(result, mask) + + if isna(result): + return libmissing.NA + else: + return result + + def _wrap_reduction_result(self, name: str, result, *, skipna, axis): + if isinstance(result, np.ndarray): + if skipna: + # we only retain mask for all-NA rows/columns + mask = self._mask.all(axis=axis) + else: + mask = self._mask.any(axis=axis) + + return self._maybe_mask_result(result, mask) + return result + + def _wrap_na_result(self, *, name, axis, mask_size): + mask = np.ones(mask_size, dtype=bool) + + float_dtyp = "float32" if self.dtype == "Float32" else "float64" + if name in ["mean", "median", "var", "std", "skew", "kurt"]: + np_dtype = float_dtyp + elif name in ["min", "max"] or self.dtype.itemsize == 8: + np_dtype = self.dtype.numpy_dtype.name + else: + is_windows_or_32bit = is_platform_windows() or not IS64 + int_dtyp = "int32" if is_windows_or_32bit else "int64" + uint_dtyp = "uint32" if is_windows_or_32bit else "uint64" + np_dtype = {"b": int_dtyp, "i": int_dtyp, "u": uint_dtyp, "f": float_dtyp}[ + self.dtype.kind + ] + + value = np.array([1], dtype=np_dtype) + return self._maybe_mask_result(value, mask=mask) + + def _wrap_min_count_reduction_result( + self, name: str, result, *, skipna, min_count, axis + ): + if min_count == 0 and isinstance(result, np.ndarray): + return self._maybe_mask_result(result, np.zeros(result.shape, dtype=bool)) + return self._wrap_reduction_result(name, result, skipna=skipna, axis=axis) + + def sum( + self, + *, + skipna: bool = True, + min_count: int = 0, + axis: AxisInt | None = 0, + **kwargs, + ): + nv.validate_sum((), kwargs) + + result = masked_reductions.sum( + self._data, + self._mask, + skipna=skipna, + min_count=min_count, + axis=axis, + ) + return self._wrap_min_count_reduction_result( + "sum", result, skipna=skipna, min_count=min_count, axis=axis + ) + + def prod( + self, + *, + skipna: bool = True, + min_count: int = 0, + axis: AxisInt | None = 0, + **kwargs, + ): + nv.validate_prod((), kwargs) + + result = masked_reductions.prod( + self._data, + self._mask, + skipna=skipna, + min_count=min_count, + axis=axis, + ) + return self._wrap_min_count_reduction_result( + "prod", result, skipna=skipna, min_count=min_count, axis=axis + ) + + def mean(self, *, skipna: bool = True, axis: AxisInt | None = 0, **kwargs): + nv.validate_mean((), kwargs) + result = masked_reductions.mean( + self._data, + self._mask, + skipna=skipna, + axis=axis, + ) + return self._wrap_reduction_result("mean", result, skipna=skipna, axis=axis) + + def var( + self, *, skipna: bool = True, axis: AxisInt | None = 0, ddof: int = 1, **kwargs + ): + nv.validate_stat_ddof_func((), kwargs, fname="var") + result = masked_reductions.var( + self._data, + self._mask, + skipna=skipna, + axis=axis, + ddof=ddof, + ) + return self._wrap_reduction_result("var", result, skipna=skipna, axis=axis) + + def std( + self, *, skipna: bool = True, axis: AxisInt | None = 0, ddof: int = 1, **kwargs + ): + nv.validate_stat_ddof_func((), kwargs, fname="std") + result = masked_reductions.std( + self._data, + self._mask, + skipna=skipna, + axis=axis, + ddof=ddof, + ) + return self._wrap_reduction_result("std", result, skipna=skipna, axis=axis) + + def min(self, *, skipna: bool = True, axis: AxisInt | None = 0, **kwargs): + nv.validate_min((), kwargs) + result = masked_reductions.min( + self._data, + self._mask, + skipna=skipna, + axis=axis, + ) + return self._wrap_reduction_result("min", result, skipna=skipna, axis=axis) + + def max(self, *, skipna: bool = True, axis: AxisInt | None = 0, **kwargs): + nv.validate_max((), kwargs) + result = masked_reductions.max( + self._data, + self._mask, + skipna=skipna, + axis=axis, + ) + return self._wrap_reduction_result("max", result, skipna=skipna, axis=axis) + + def map(self, mapper, na_action=None): + return map_array(self.to_numpy(), mapper, na_action=na_action) + + def any(self, *, skipna: bool = True, axis: AxisInt | None = 0, **kwargs): + """ + Return whether any element is truthy. + + Returns False unless there is at least one element that is truthy. + By default, NAs are skipped. If ``skipna=False`` is specified and + missing values are present, similar :ref:`Kleene logic ` + is used as for logical operations. + + .. versionchanged:: 1.4.0 + + Parameters + ---------- + skipna : bool, default True + Exclude NA values. If the entire array is NA and `skipna` is + True, then the result will be False, as for an empty array. + If `skipna` is False, the result will still be True if there is + at least one element that is truthy, otherwise NA will be returned + if there are NA's present. + axis : int, optional, default 0 + **kwargs : any, default None + Additional keywords have no effect but might be accepted for + compatibility with NumPy. + + Returns + ------- + bool or :attr:`pandas.NA` + + See Also + -------- + numpy.any : Numpy version of this method. + BaseMaskedArray.all : Return whether all elements are truthy. + + Examples + -------- + The result indicates whether any element is truthy (and by default + skips NAs): + + >>> pd.array([True, False, True]).any() + True + >>> pd.array([True, False, pd.NA]).any() + True + >>> pd.array([False, False, pd.NA]).any() + False + >>> pd.array([], dtype="boolean").any() + False + >>> pd.array([pd.NA], dtype="boolean").any() + False + >>> pd.array([pd.NA], dtype="Float64").any() + False + + With ``skipna=False``, the result can be NA if this is logically + required (whether ``pd.NA`` is True or False influences the result): + + >>> pd.array([True, False, pd.NA]).any(skipna=False) + True + >>> pd.array([1, 0, pd.NA]).any(skipna=False) + True + >>> pd.array([False, False, pd.NA]).any(skipna=False) + + >>> pd.array([0, 0, pd.NA]).any(skipna=False) + + """ + nv.validate_any((), kwargs) + + values = self._data.copy() + # error: Argument 3 to "putmask" has incompatible type "object"; + # expected "Union[_SupportsArray[dtype[Any]], + # _NestedSequence[_SupportsArray[dtype[Any]]], + # bool, int, float, complex, str, bytes, + # _NestedSequence[Union[bool, int, float, complex, str, bytes]]]" + np.putmask(values, self._mask, self._falsey_value) # type: ignore[arg-type] + result = values.any() + if skipna: + return result + else: + if result or len(self) == 0 or not self._mask.any(): + return result + else: + return self.dtype.na_value + + def all(self, *, skipna: bool = True, axis: AxisInt | None = 0, **kwargs): + """ + Return whether all elements are truthy. + + Returns True unless there is at least one element that is falsey. + By default, NAs are skipped. If ``skipna=False`` is specified and + missing values are present, similar :ref:`Kleene logic ` + is used as for logical operations. + + .. versionchanged:: 1.4.0 + + Parameters + ---------- + skipna : bool, default True + Exclude NA values. If the entire array is NA and `skipna` is + True, then the result will be True, as for an empty array. + If `skipna` is False, the result will still be False if there is + at least one element that is falsey, otherwise NA will be returned + if there are NA's present. + axis : int, optional, default 0 + **kwargs : any, default None + Additional keywords have no effect but might be accepted for + compatibility with NumPy. + + Returns + ------- + bool or :attr:`pandas.NA` + + See Also + -------- + numpy.all : Numpy version of this method. + BooleanArray.any : Return whether any element is truthy. + + Examples + -------- + The result indicates whether all elements are truthy (and by default + skips NAs): + + >>> pd.array([True, True, pd.NA]).all() + True + >>> pd.array([1, 1, pd.NA]).all() + True + >>> pd.array([True, False, pd.NA]).all() + False + >>> pd.array([], dtype="boolean").all() + True + >>> pd.array([pd.NA], dtype="boolean").all() + True + >>> pd.array([pd.NA], dtype="Float64").all() + True + + With ``skipna=False``, the result can be NA if this is logically + required (whether ``pd.NA`` is True or False influences the result): + + >>> pd.array([True, True, pd.NA]).all(skipna=False) + + >>> pd.array([1, 1, pd.NA]).all(skipna=False) + + >>> pd.array([True, False, pd.NA]).all(skipna=False) + False + >>> pd.array([1, 0, pd.NA]).all(skipna=False) + False + """ + nv.validate_all((), kwargs) + + values = self._data.copy() + # error: Argument 3 to "putmask" has incompatible type "object"; + # expected "Union[_SupportsArray[dtype[Any]], + # _NestedSequence[_SupportsArray[dtype[Any]]], + # bool, int, float, complex, str, bytes, + # _NestedSequence[Union[bool, int, float, complex, str, bytes]]]" + np.putmask(values, self._mask, self._truthy_value) # type: ignore[arg-type] + result = values.all(axis=axis) + + if skipna: + return result + else: + if not result or len(self) == 0 or not self._mask.any(): + return result + else: + return self.dtype.na_value + + def interpolate( + self, + *, + method: InterpolateOptions, + axis: int, + index, + limit, + limit_direction, + limit_area, + copy: bool, + **kwargs, + ) -> FloatingArray: + """ + See NDFrame.interpolate.__doc__. + """ + # NB: we return type(self) even if copy=False + if self.dtype.kind == "f": + if copy: + data = self._data.copy() + mask = self._mask.copy() + else: + data = self._data + mask = self._mask + elif self.dtype.kind in "iu": + copy = True + data = self._data.astype("f8") + mask = self._mask.copy() + else: + raise NotImplementedError( + f"interpolate is not implemented for dtype={self.dtype}" + ) + + missing.interpolate_2d_inplace( + data, + method=method, + axis=0, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + mask=mask, + **kwargs, + ) + if not copy: + return self # type: ignore[return-value] + if self.dtype.kind == "f": + return type(self)._simple_new(data, mask) # type: ignore[return-value] + else: + from pandas.core.arrays import FloatingArray + + return FloatingArray._simple_new(data, mask) + + def _accumulate( + self, name: str, *, skipna: bool = True, **kwargs + ) -> BaseMaskedArray: + data = self._data + mask = self._mask + + op = getattr(masked_accumulations, name) + data, mask = op(data, mask, skipna=skipna, **kwargs) + + return self._simple_new(data, mask) + + # ------------------------------------------------------------------ + # GroupBy Methods + + def _groupby_op( + self, + *, + how: str, + has_dropped_na: bool, + min_count: int, + ngroups: int, + ids: npt.NDArray[np.intp], + **kwargs, + ): + from pandas.core.groupby.ops import WrappedCythonOp + + kind = WrappedCythonOp.get_kind_from_how(how) + op = WrappedCythonOp(how=how, kind=kind, has_dropped_na=has_dropped_na) + + # libgroupby functions are responsible for NOT altering mask + mask = self._mask + if op.kind != "aggregate": + result_mask = mask.copy() + else: + result_mask = np.zeros(ngroups, dtype=bool) + + if how == "rank" and kwargs.get("na_option") in ["top", "bottom"]: + result_mask[:] = False + + res_values = op._cython_op_ndim_compat( + self._data, + min_count=min_count, + ngroups=ngroups, + comp_ids=ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + + if op.how == "ohlc": + arity = op._cython_arity.get(op.how, 1) + result_mask = np.tile(result_mask, (arity, 1)).T + + if op.how in ["idxmin", "idxmax"]: + # Result values are indexes to take, keep as ndarray + return res_values + else: + # res_values should already have the correct dtype, we just need to + # wrap in a MaskedArray + return self._maybe_mask_result(res_values, result_mask) + + +def transpose_homogeneous_masked_arrays( + masked_arrays: Sequence[BaseMaskedArray], +) -> list[BaseMaskedArray]: + """Transpose masked arrays in a list, but faster. + + Input should be a list of 1-dim masked arrays of equal length and all have the + same dtype. The caller is responsible for ensuring validity of input data. + """ + masked_arrays = list(masked_arrays) + dtype = masked_arrays[0].dtype + + values = [arr._data.reshape(1, -1) for arr in masked_arrays] + transposed_values = np.concatenate( + values, + axis=0, + out=np.empty( + (len(masked_arrays), len(masked_arrays[0])), + order="F", + dtype=dtype.numpy_dtype, + ), + ) + + masks = [arr._mask.reshape(1, -1) for arr in masked_arrays] + transposed_masks = np.concatenate( + masks, axis=0, out=np.empty_like(transposed_values, dtype=bool) + ) + + arr_type = dtype.construct_array_type() + transposed_arrays: list[BaseMaskedArray] = [] + for i in range(transposed_values.shape[1]): + transposed_arr = arr_type(transposed_values[:, i], mask=transposed_masks[:, i]) + transposed_arrays.append(transposed_arr) + + return transposed_arrays diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numeric.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numeric.py new file mode 100644 index 0000000000000000000000000000000000000000..68fa7fcb6573c6b5ec754ca65263f8ddd6a6ba74 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numeric.py @@ -0,0 +1,286 @@ +from __future__ import annotations + +import numbers +from typing import ( + TYPE_CHECKING, + Any, + Callable, +) + +import numpy as np + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas.errors import AbstractMethodError +from pandas.util._decorators import cache_readonly + +from pandas.core.dtypes.common import ( + is_integer_dtype, + is_string_dtype, + pandas_dtype, +) + +from pandas.core.arrays.masked import ( + BaseMaskedArray, + BaseMaskedDtype, +) + +if TYPE_CHECKING: + from collections.abc import Mapping + + import pyarrow + + from pandas._typing import ( + Dtype, + DtypeObj, + Self, + npt, + ) + + +class NumericDtype(BaseMaskedDtype): + _default_np_dtype: np.dtype + _checker: Callable[[Any], bool] # is_foo_dtype + + def __repr__(self) -> str: + return f"{self.name}Dtype()" + + @cache_readonly + def is_signed_integer(self) -> bool: + return self.kind == "i" + + @cache_readonly + def is_unsigned_integer(self) -> bool: + return self.kind == "u" + + @property + def _is_numeric(self) -> bool: + return True + + def __from_arrow__( + self, array: pyarrow.Array | pyarrow.ChunkedArray + ) -> BaseMaskedArray: + """ + Construct IntegerArray/FloatingArray from pyarrow Array/ChunkedArray. + """ + import pyarrow + + from pandas.core.arrays.arrow._arrow_utils import ( + pyarrow_array_to_numpy_and_mask, + ) + + array_class = self.construct_array_type() + + pyarrow_type = pyarrow.from_numpy_dtype(self.type) + if not array.type.equals(pyarrow_type) and not pyarrow.types.is_null( + array.type + ): + # test_from_arrow_type_error raise for string, but allow + # through itemsize conversion GH#31896 + rt_dtype = pandas_dtype(array.type.to_pandas_dtype()) + if rt_dtype.kind not in "iuf": + # Could allow "c" or potentially disallow float<->int conversion, + # but at the moment we specifically test that uint<->int works + raise TypeError( + f"Expected array of {self} type, got {array.type} instead" + ) + + array = array.cast(pyarrow_type) + + if isinstance(array, pyarrow.ChunkedArray): + # TODO this "if" can be removed when requiring pyarrow >= 10.0, which fixed + # combine_chunks for empty arrays https://github.com/apache/arrow/pull/13757 + if array.num_chunks == 0: + array = pyarrow.array([], type=array.type) + else: + array = array.combine_chunks() + + data, mask = pyarrow_array_to_numpy_and_mask(array, dtype=self.numpy_dtype) + return array_class(data.copy(), ~mask, copy=False) + + @classmethod + def _get_dtype_mapping(cls) -> Mapping[np.dtype, NumericDtype]: + raise AbstractMethodError(cls) + + @classmethod + def _standardize_dtype(cls, dtype: NumericDtype | str | np.dtype) -> NumericDtype: + """ + Convert a string representation or a numpy dtype to NumericDtype. + """ + if isinstance(dtype, str) and (dtype.startswith(("Int", "UInt", "Float"))): + # Avoid DeprecationWarning from NumPy about np.dtype("Int64") + # https://github.com/numpy/numpy/pull/7476 + dtype = dtype.lower() + + if not isinstance(dtype, NumericDtype): + mapping = cls._get_dtype_mapping() + try: + dtype = mapping[np.dtype(dtype)] + except KeyError as err: + raise ValueError(f"invalid dtype specified {dtype}") from err + return dtype + + @classmethod + def _safe_cast(cls, values: np.ndarray, dtype: np.dtype, copy: bool) -> np.ndarray: + """ + Safely cast the values to the given dtype. + + "safe" in this context means the casting is lossless. + """ + raise AbstractMethodError(cls) + + +def _coerce_to_data_and_mask( + values, dtype, copy: bool, dtype_cls: type[NumericDtype], default_dtype: np.dtype +): + checker = dtype_cls._checker + + mask = None + inferred_type = None + + if dtype is None and hasattr(values, "dtype"): + if checker(values.dtype): + dtype = values.dtype + + if dtype is not None: + dtype = dtype_cls._standardize_dtype(dtype) + + cls = dtype_cls.construct_array_type() + if isinstance(values, cls): + values, mask = values._data, values._mask + if dtype is not None: + values = values.astype(dtype.numpy_dtype, copy=False) + + if copy: + values = values.copy() + mask = mask.copy() + return values, mask, dtype, inferred_type + + original = values + if not copy: + values = np.asarray(values) + else: + values = np.array(values, copy=copy) + inferred_type = None + if values.dtype == object or is_string_dtype(values.dtype): + inferred_type = lib.infer_dtype(values, skipna=True) + if inferred_type == "boolean" and dtype is None: + name = dtype_cls.__name__.strip("_") + raise TypeError(f"{values.dtype} cannot be converted to {name}") + + elif values.dtype.kind == "b" and checker(dtype): + if not copy: + values = np.asarray(values, dtype=default_dtype) + else: + values = np.array(values, dtype=default_dtype, copy=copy) + + elif values.dtype.kind not in "iuf": + name = dtype_cls.__name__.strip("_") + raise TypeError(f"{values.dtype} cannot be converted to {name}") + + if values.ndim != 1: + raise TypeError("values must be a 1D list-like") + + if mask is None: + if values.dtype.kind in "iu": + # fastpath + mask = np.zeros(len(values), dtype=np.bool_) + else: + mask = libmissing.is_numeric_na(values) + else: + assert len(mask) == len(values) + + if mask.ndim != 1: + raise TypeError("mask must be a 1D list-like") + + # infer dtype if needed + if dtype is None: + dtype = default_dtype + else: + dtype = dtype.numpy_dtype + + if is_integer_dtype(dtype) and values.dtype.kind == "f" and len(values) > 0: + if mask.all(): + values = np.ones(values.shape, dtype=dtype) + else: + idx = np.nanargmax(values) + if int(values[idx]) != original[idx]: + # We have ints that lost precision during the cast. + inferred_type = lib.infer_dtype(original, skipna=True) + if ( + inferred_type not in ["floating", "mixed-integer-float"] + and not mask.any() + ): + values = np.asarray(original, dtype=dtype) + else: + values = np.asarray(original, dtype="object") + + # we copy as need to coerce here + if mask.any(): + values = values.copy() + values[mask] = cls._internal_fill_value + if inferred_type in ("string", "unicode"): + # casts from str are always safe since they raise + # a ValueError if the str cannot be parsed into a float + values = values.astype(dtype, copy=copy) + else: + values = dtype_cls._safe_cast(values, dtype, copy=False) + + return values, mask, dtype, inferred_type + + +class NumericArray(BaseMaskedArray): + """ + Base class for IntegerArray and FloatingArray. + """ + + _dtype_cls: type[NumericDtype] + + def __init__( + self, values: np.ndarray, mask: npt.NDArray[np.bool_], copy: bool = False + ) -> None: + checker = self._dtype_cls._checker + if not (isinstance(values, np.ndarray) and checker(values.dtype)): + descr = ( + "floating" + if self._dtype_cls.kind == "f" # type: ignore[comparison-overlap] + else "integer" + ) + raise TypeError( + f"values should be {descr} numpy array. Use " + "the 'pd.array' function instead" + ) + if values.dtype == np.float16: + # If we don't raise here, then accessing self.dtype would raise + raise TypeError("FloatingArray does not support np.float16 dtype.") + + super().__init__(values, mask, copy=copy) + + @cache_readonly + def dtype(self) -> NumericDtype: + mapping = self._dtype_cls._get_dtype_mapping() + return mapping[self._data.dtype] + + @classmethod + def _coerce_to_array( + cls, value, *, dtype: DtypeObj, copy: bool = False + ) -> tuple[np.ndarray, np.ndarray]: + dtype_cls = cls._dtype_cls + default_dtype = dtype_cls._default_np_dtype + values, mask, _, _ = _coerce_to_data_and_mask( + value, dtype, copy, dtype_cls, default_dtype + ) + return values, mask + + @classmethod + def _from_sequence_of_strings( + cls, strings, *, dtype: Dtype | None = None, copy: bool = False + ) -> Self: + from pandas.core.tools.numeric import to_numeric + + scalars = to_numeric(strings, errors="raise", dtype_backend="numpy_nullable") + return cls._from_sequence(scalars, dtype=dtype, copy=copy) + + _HANDLED_TYPES = (np.ndarray, numbers.Number) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numpy_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numpy_.py new file mode 100644 index 0000000000000000000000000000000000000000..e0031d3db6ca7377d14a5194eb3c54e81107ce96 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/numpy_.py @@ -0,0 +1,574 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Literal, +) + +import numpy as np + +from pandas._libs import lib +from pandas._libs.tslibs import is_supported_dtype +from pandas.compat.numpy import function as nv + +from pandas.core.dtypes.astype import astype_array +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike +from pandas.core.dtypes.common import pandas_dtype +from pandas.core.dtypes.dtypes import NumpyEADtype +from pandas.core.dtypes.missing import isna + +from pandas.core import ( + arraylike, + missing, + nanops, + ops, +) +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays._mixins import NDArrayBackedExtensionArray +from pandas.core.construction import ensure_wrapped_if_datetimelike +from pandas.core.strings.object_array import ObjectStringArrayMixin + +if TYPE_CHECKING: + from collections.abc import Callable + + from pandas._typing import ( + AxisInt, + Dtype, + FillnaOptions, + InterpolateOptions, + NpDtype, + Scalar, + Self, + npt, + ) + + from pandas import Index + + +# error: Definition of "_concat_same_type" in base class "NDArrayBacked" is +# incompatible with definition in base class "ExtensionArray" +class NumpyExtensionArray( # type: ignore[misc] + OpsMixin, + NDArrayBackedExtensionArray, + ObjectStringArrayMixin, +): + """ + A pandas ExtensionArray for NumPy data. + + This is mostly for internal compatibility, and is not especially + useful on its own. + + Parameters + ---------- + values : ndarray + The NumPy ndarray to wrap. Must be 1-dimensional. + copy : bool, default False + Whether to copy `values`. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> pd.arrays.NumpyExtensionArray(np.array([0, 1, 2, 3])) + + [0, 1, 2, 3] + Length: 4, dtype: int64 + """ + + # If you're wondering why pd.Series(cls) doesn't put the array in an + # ExtensionBlock, search for `ABCNumpyExtensionArray`. We check for + # that _typ to ensure that users don't unnecessarily use EAs inside + # pandas internals, which turns off things like block consolidation. + _typ = "npy_extension" + __array_priority__ = 1000 + _ndarray: np.ndarray + _dtype: NumpyEADtype + _internal_fill_value = np.nan + + # ------------------------------------------------------------------------ + # Constructors + + def __init__( + self, values: np.ndarray | NumpyExtensionArray, copy: bool = False + ) -> None: + if isinstance(values, type(self)): + values = values._ndarray + if not isinstance(values, np.ndarray): + raise ValueError( + f"'values' must be a NumPy array, not {type(values).__name__}" + ) + + if values.ndim == 0: + # Technically we support 2, but do not advertise that fact. + raise ValueError("NumpyExtensionArray must be 1-dimensional.") + + if copy: + values = values.copy() + + dtype = NumpyEADtype(values.dtype) + super().__init__(values, dtype) + + @classmethod + def _from_sequence( + cls, scalars, *, dtype: Dtype | None = None, copy: bool = False + ) -> NumpyExtensionArray: + if isinstance(dtype, NumpyEADtype): + dtype = dtype._dtype + + # error: Argument "dtype" to "asarray" has incompatible type + # "Union[ExtensionDtype, str, dtype[Any], dtype[floating[_64Bit]], Type[object], + # None]"; expected "Union[dtype[Any], None, type, _SupportsDType, str, + # Union[Tuple[Any, int], Tuple[Any, Union[int, Sequence[int]]], List[Any], + # _DTypeDict, Tuple[Any, Any]]]" + result = np.asarray(scalars, dtype=dtype) # type: ignore[arg-type] + if ( + result.ndim > 1 + and not hasattr(scalars, "dtype") + and (dtype is None or dtype == object) + ): + # e.g. list-of-tuples + result = construct_1d_object_array_from_listlike(scalars) + + if copy and result is scalars: + result = result.copy() + return cls(result) + + # ------------------------------------------------------------------------ + # Data + + @property + def dtype(self) -> NumpyEADtype: + return self._dtype + + # ------------------------------------------------------------------------ + # NumPy Array Interface + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + if copy is not None: + # Note: branch avoids `copy=None` for NumPy 1.x support + return np.array(self._ndarray, dtype=dtype, copy=copy) + return np.asarray(self._ndarray, dtype=dtype) + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + # Lightly modified version of + # https://numpy.org/doc/stable/reference/generated/numpy.lib.mixins.NDArrayOperatorsMixin.html + # The primary modification is not boxing scalar return values + # in NumpyExtensionArray, since pandas' ExtensionArrays are 1-d. + out = kwargs.get("out", ()) + + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + # e.g. test_ufunc_unary + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + # e.g. tests.series.test_ufunc.TestNumpyReductions + return result + + # Defer to the implementation of the ufunc on unwrapped values. + inputs = tuple( + x._ndarray if isinstance(x, NumpyExtensionArray) else x for x in inputs + ) + if out: + kwargs["out"] = tuple( + x._ndarray if isinstance(x, NumpyExtensionArray) else x for x in out + ) + result = getattr(ufunc, method)(*inputs, **kwargs) + + if ufunc.nout > 1: + # multiple return values; re-box array-like results + return tuple(type(self)(x) for x in result) + elif method == "at": + # no return value + return None + elif method == "reduce": + if isinstance(result, np.ndarray): + # e.g. test_np_reduce_2d + return type(self)(result) + + # e.g. test_np_max_nested_tuples + return result + else: + # one return value; re-box array-like results + return type(self)(result) + + # ------------------------------------------------------------------------ + # Pandas ExtensionArray Interface + + def astype(self, dtype, copy: bool = True): + dtype = pandas_dtype(dtype) + + if dtype == self.dtype: + if copy: + return self.copy() + return self + + result = astype_array(self._ndarray, dtype=dtype, copy=copy) + return result + + def isna(self) -> np.ndarray: + return isna(self._ndarray) + + def _validate_scalar(self, fill_value): + if fill_value is None: + # Primarily for subclasses + fill_value = self.dtype.na_value + return fill_value + + def _values_for_factorize(self) -> tuple[np.ndarray, float | None]: + if self.dtype.kind in "iub": + fv = None + else: + fv = np.nan + return self._ndarray, fv + + # Base EA class (and all other EA classes) don't have limit_area keyword + # This can be removed here as well when the interpolate ffill/bfill method + # deprecation is enforced + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + """ + ffill or bfill along axis=0. + """ + if copy: + out_data = self._ndarray.copy() + else: + out_data = self._ndarray + + meth = missing.clean_fill_method(method) + missing.pad_or_backfill_inplace( + out_data.T, + method=meth, + axis=0, + limit=limit, + limit_area=limit_area, + ) + + if not copy: + return self + return type(self)._simple_new(out_data, dtype=self.dtype) + + def interpolate( + self, + *, + method: InterpolateOptions, + axis: int, + index: Index, + limit, + limit_direction, + limit_area, + copy: bool, + **kwargs, + ) -> Self: + """ + See NDFrame.interpolate.__doc__. + """ + # NB: we return type(self) even if copy=False + if not self.dtype._is_numeric: + raise TypeError(f"Cannot interpolate with {self.dtype} dtype") + + if not copy: + out_data = self._ndarray + else: + out_data = self._ndarray.copy() + + # TODO: assert we have floating dtype? + missing.interpolate_2d_inplace( + out_data, + method=method, + axis=axis, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + **kwargs, + ) + if not copy: + return self + return type(self)._simple_new(out_data, dtype=self.dtype) + + # ------------------------------------------------------------------------ + # Reductions + + def any( + self, + *, + axis: AxisInt | None = None, + out=None, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_any((), {"out": out, "keepdims": keepdims}) + result = nanops.nanany(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def all( + self, + *, + axis: AxisInt | None = None, + out=None, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_all((), {"out": out, "keepdims": keepdims}) + result = nanops.nanall(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def min( + self, *, axis: AxisInt | None = None, skipna: bool = True, **kwargs + ) -> Scalar: + nv.validate_min((), kwargs) + result = nanops.nanmin( + values=self._ndarray, axis=axis, mask=self.isna(), skipna=skipna + ) + return self._wrap_reduction_result(axis, result) + + def max( + self, *, axis: AxisInt | None = None, skipna: bool = True, **kwargs + ) -> Scalar: + nv.validate_max((), kwargs) + result = nanops.nanmax( + values=self._ndarray, axis=axis, mask=self.isna(), skipna=skipna + ) + return self._wrap_reduction_result(axis, result) + + def sum( + self, + *, + axis: AxisInt | None = None, + skipna: bool = True, + min_count: int = 0, + **kwargs, + ) -> Scalar: + nv.validate_sum((), kwargs) + result = nanops.nansum( + self._ndarray, axis=axis, skipna=skipna, min_count=min_count + ) + return self._wrap_reduction_result(axis, result) + + def prod( + self, + *, + axis: AxisInt | None = None, + skipna: bool = True, + min_count: int = 0, + **kwargs, + ) -> Scalar: + nv.validate_prod((), kwargs) + result = nanops.nanprod( + self._ndarray, axis=axis, skipna=skipna, min_count=min_count + ) + return self._wrap_reduction_result(axis, result) + + def mean( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_mean((), {"dtype": dtype, "out": out, "keepdims": keepdims}) + result = nanops.nanmean(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def median( + self, + *, + axis: AxisInt | None = None, + out=None, + overwrite_input: bool = False, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_median( + (), {"out": out, "overwrite_input": overwrite_input, "keepdims": keepdims} + ) + result = nanops.nanmedian(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def std( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + ddof: int = 1, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="std" + ) + result = nanops.nanstd(self._ndarray, axis=axis, skipna=skipna, ddof=ddof) + return self._wrap_reduction_result(axis, result) + + def var( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + ddof: int = 1, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="var" + ) + result = nanops.nanvar(self._ndarray, axis=axis, skipna=skipna, ddof=ddof) + return self._wrap_reduction_result(axis, result) + + def sem( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + ddof: int = 1, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="sem" + ) + result = nanops.nansem(self._ndarray, axis=axis, skipna=skipna, ddof=ddof) + return self._wrap_reduction_result(axis, result) + + def kurt( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="kurt" + ) + result = nanops.nankurt(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + def skew( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="skew" + ) + result = nanops.nanskew(self._ndarray, axis=axis, skipna=skipna) + return self._wrap_reduction_result(axis, result) + + # ------------------------------------------------------------------------ + # Additional Methods + + def to_numpy( + self, + dtype: npt.DTypeLike | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + mask = self.isna() + if na_value is not lib.no_default and mask.any(): + result = self._ndarray.copy() + result[mask] = na_value + else: + result = self._ndarray + + result = np.asarray(result, dtype=dtype) + + if copy and result is self._ndarray: + result = result.copy() + + return result + + # ------------------------------------------------------------------------ + # Ops + + def __invert__(self) -> NumpyExtensionArray: + return type(self)(~self._ndarray) + + def __neg__(self) -> NumpyExtensionArray: + return type(self)(-self._ndarray) + + def __pos__(self) -> NumpyExtensionArray: + return type(self)(+self._ndarray) + + def __abs__(self) -> NumpyExtensionArray: + return type(self)(abs(self._ndarray)) + + def _cmp_method(self, other, op): + if isinstance(other, NumpyExtensionArray): + other = other._ndarray + + other = ops.maybe_prepare_scalar_for_op(other, (len(self),)) + pd_op = ops.get_array_op(op) + other = ensure_wrapped_if_datetimelike(other) + result = pd_op(self._ndarray, other) + + if op is divmod or op is ops.rdivmod: + a, b = result + if isinstance(a, np.ndarray): + # for e.g. op vs TimedeltaArray, we may already + # have an ExtensionArray, in which case we do not wrap + return self._wrap_ndarray_result(a), self._wrap_ndarray_result(b) + return a, b + + if isinstance(result, np.ndarray): + # for e.g. multiplication vs TimedeltaArray, we may already + # have an ExtensionArray, in which case we do not wrap + return self._wrap_ndarray_result(result) + return result + + _arith_method = _cmp_method + + def _wrap_ndarray_result(self, result: np.ndarray): + # If we have timedelta64[ns] result, return a TimedeltaArray instead + # of a NumpyExtensionArray + if result.dtype.kind == "m" and is_supported_dtype(result.dtype): + from pandas.core.arrays import TimedeltaArray + + return TimedeltaArray._simple_new(result, dtype=result.dtype) + return type(self)(result) + + def _formatter(self, boxed: bool = False) -> Callable[[Any], str | None]: + # NEP 51: https://github.com/numpy/numpy/pull/22449 + if self.dtype.kind in "SU": + return "'{}'".format + elif self.dtype == "object": + return repr + else: + return str diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/period.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/period.py new file mode 100644 index 0000000000000000000000000000000000000000..2947ba7b8c72ac09497f796aaaec8edfb133a948 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/period.py @@ -0,0 +1,1331 @@ +from __future__ import annotations + +from datetime import timedelta +import operator +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + TypeVar, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import ( + algos as libalgos, + lib, +) +from pandas._libs.arrays import NDArrayBacked +from pandas._libs.tslibs import ( + BaseOffset, + NaT, + NaTType, + Timedelta, + add_overflowsafe, + astype_overflowsafe, + dt64arr_to_periodarr as c_dt64arr_to_periodarr, + get_unit_from_dtype, + iNaT, + parsing, + period as libperiod, + to_offset, +) +from pandas._libs.tslibs.dtypes import ( + FreqGroup, + PeriodDtypeBase, + freq_to_period_freqstr, +) +from pandas._libs.tslibs.fields import isleapyear_arr +from pandas._libs.tslibs.offsets import ( + Tick, + delta_to_tick, +) +from pandas._libs.tslibs.period import ( + DIFFERENT_FREQ, + IncompatibleFrequency, + Period, + get_period_field_arr, + period_asfreq_arr, +) +from pandas.util._decorators import ( + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + ensure_object, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCPeriodIndex, + ABCSeries, + ABCTimedeltaArray, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.arrays import datetimelike as dtl +import pandas.core.common as com + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + AnyArrayLike, + Dtype, + FillnaOptions, + NpDtype, + NumpySorter, + NumpyValueArrayLike, + Self, + npt, + ) + + from pandas.core.arrays import ( + DatetimeArray, + TimedeltaArray, + ) + from pandas.core.arrays.base import ExtensionArray + + +BaseOffsetT = TypeVar("BaseOffsetT", bound=BaseOffset) + + +_shared_doc_kwargs = { + "klass": "PeriodArray", +} + + +def _field_accessor(name: str, docstring: str | None = None): + def f(self): + base = self.dtype._dtype_code + result = get_period_field_arr(name, self.asi8, base) + return result + + f.__name__ = name + f.__doc__ = docstring + return property(f) + + +# error: Definition of "_concat_same_type" in base class "NDArrayBacked" is +# incompatible with definition in base class "ExtensionArray" +class PeriodArray(dtl.DatelikeOps, libperiod.PeriodMixin): # type: ignore[misc] + """ + Pandas ExtensionArray for storing Period data. + + Users should use :func:`~pandas.array` to create new instances. + + Parameters + ---------- + values : Union[PeriodArray, Series[period], ndarray[int], PeriodIndex] + The data to store. These should be arrays that can be directly + converted to ordinals without inference or copy (PeriodArray, + ndarray[int64]), or a box around such an array (Series[period], + PeriodIndex). + dtype : PeriodDtype, optional + A PeriodDtype instance from which to extract a `freq`. If both + `freq` and `dtype` are specified, then the frequencies must match. + freq : str or DateOffset + The `freq` to use for the array. Mostly applicable when `values` + is an ndarray of integers, when `freq` is required. When `values` + is a PeriodArray (or box around), it's checked that ``values.freq`` + matches `freq`. + copy : bool, default False + Whether to copy the ordinals before storing. + + Attributes + ---------- + None + + Methods + ------- + None + + See Also + -------- + Period: Represents a period of time. + PeriodIndex : Immutable Index for period data. + period_range: Create a fixed-frequency PeriodArray. + array: Construct a pandas array. + + Notes + ----- + There are two components to a PeriodArray + + - ordinals : integer ndarray + - freq : pd.tseries.offsets.Offset + + The values are physically stored as a 1-D ndarray of integers. These are + called "ordinals" and represent some kind of offset from a base. + + The `freq` indicates the span covered by each element of the array. + All elements in the PeriodArray have the same `freq`. + + Examples + -------- + >>> pd.arrays.PeriodArray(pd.PeriodIndex(['2023-01-01', + ... '2023-01-02'], freq='D')) + + ['2023-01-01', '2023-01-02'] + Length: 2, dtype: period[D] + """ + + # array priority higher than numpy scalars + __array_priority__ = 1000 + _typ = "periodarray" # ABCPeriodArray + _internal_fill_value = np.int64(iNaT) + _recognized_scalars = (Period,) + _is_recognized_dtype = lambda x: isinstance( + x, PeriodDtype + ) # check_compatible_with checks freq match + _infer_matches = ("period",) + + @property + def _scalar_type(self) -> type[Period]: + return Period + + # Names others delegate to us + _other_ops: list[str] = [] + _bool_ops: list[str] = ["is_leap_year"] + _object_ops: list[str] = ["start_time", "end_time", "freq"] + _field_ops: list[str] = [ + "year", + "month", + "day", + "hour", + "minute", + "second", + "weekofyear", + "weekday", + "week", + "dayofweek", + "day_of_week", + "dayofyear", + "day_of_year", + "quarter", + "qyear", + "days_in_month", + "daysinmonth", + ] + _datetimelike_ops: list[str] = _field_ops + _object_ops + _bool_ops + _datetimelike_methods: list[str] = ["strftime", "to_timestamp", "asfreq"] + + _dtype: PeriodDtype + + # -------------------------------------------------------------------- + # Constructors + + def __init__( + self, values, dtype: Dtype | None = None, freq=None, copy: bool = False + ) -> None: + if freq is not None: + # GH#52462 + warnings.warn( + "The 'freq' keyword in the PeriodArray constructor is deprecated " + "and will be removed in a future version. Pass 'dtype' instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + freq = validate_dtype_freq(dtype, freq) + dtype = PeriodDtype(freq) + + if dtype is not None: + dtype = pandas_dtype(dtype) + if not isinstance(dtype, PeriodDtype): + raise ValueError(f"Invalid dtype {dtype} for PeriodArray") + + if isinstance(values, ABCSeries): + values = values._values + if not isinstance(values, type(self)): + raise TypeError("Incorrect dtype") + + elif isinstance(values, ABCPeriodIndex): + values = values._values + + if isinstance(values, type(self)): + if dtype is not None and dtype != values.dtype: + raise raise_on_incompatible(values, dtype.freq) + values, dtype = values._ndarray, values.dtype + + if not copy: + values = np.asarray(values, dtype="int64") + else: + values = np.array(values, dtype="int64", copy=copy) + if dtype is None: + raise ValueError("dtype is not specified and cannot be inferred") + dtype = cast(PeriodDtype, dtype) + NDArrayBacked.__init__(self, values, dtype) + + # error: Signature of "_simple_new" incompatible with supertype "NDArrayBacked" + @classmethod + def _simple_new( # type: ignore[override] + cls, + values: npt.NDArray[np.int64], + dtype: PeriodDtype, + ) -> Self: + # alias for PeriodArray.__init__ + assertion_msg = "Should be numpy array of type i8" + assert isinstance(values, np.ndarray) and values.dtype == "i8", assertion_msg + return cls(values, dtype=dtype) + + @classmethod + def _from_sequence( + cls, + scalars, + *, + dtype: Dtype | None = None, + copy: bool = False, + ) -> Self: + if dtype is not None: + dtype = pandas_dtype(dtype) + if dtype and isinstance(dtype, PeriodDtype): + freq = dtype.freq + else: + freq = None + + if isinstance(scalars, cls): + validate_dtype_freq(scalars.dtype, freq) + if copy: + scalars = scalars.copy() + return scalars + + periods = np.asarray(scalars, dtype=object) + + freq = freq or libperiod.extract_freq(periods) + ordinals = libperiod.extract_ordinals(periods, freq) + dtype = PeriodDtype(freq) + return cls(ordinals, dtype=dtype) + + @classmethod + def _from_sequence_of_strings( + cls, strings, *, dtype: Dtype | None = None, copy: bool = False + ) -> Self: + return cls._from_sequence(strings, dtype=dtype, copy=copy) + + @classmethod + def _from_datetime64(cls, data, freq, tz=None) -> Self: + """ + Construct a PeriodArray from a datetime64 array + + Parameters + ---------- + data : ndarray[datetime64[ns], datetime64[ns, tz]] + freq : str or Tick + tz : tzinfo, optional + + Returns + ------- + PeriodArray[freq] + """ + if isinstance(freq, BaseOffset): + freq = freq_to_period_freqstr(freq.n, freq.name) + data, freq = dt64arr_to_periodarr(data, freq, tz) + dtype = PeriodDtype(freq) + return cls(data, dtype=dtype) + + @classmethod + def _generate_range(cls, start, end, periods, freq): + periods = dtl.validate_periods(periods) + + if freq is not None: + freq = Period._maybe_convert_freq(freq) + + if start is not None or end is not None: + subarr, freq = _get_ordinal_range(start, end, periods, freq) + else: + raise ValueError("Not enough parameters to construct Period range") + + return subarr, freq + + @classmethod + def _from_fields(cls, *, fields: dict, freq) -> Self: + subarr, freq = _range_from_fields(freq=freq, **fields) + dtype = PeriodDtype(freq) + return cls._simple_new(subarr, dtype=dtype) + + # ----------------------------------------------------------------- + # DatetimeLike Interface + + # error: Argument 1 of "_unbox_scalar" is incompatible with supertype + # "DatetimeLikeArrayMixin"; supertype defines the argument type as + # "Union[Union[Period, Any, Timedelta], NaTType]" + def _unbox_scalar( # type: ignore[override] + self, + value: Period | NaTType, + ) -> np.int64: + if value is NaT: + # error: Item "Period" of "Union[Period, NaTType]" has no attribute "value" + return np.int64(value._value) # type: ignore[union-attr] + elif isinstance(value, self._scalar_type): + self._check_compatible_with(value) + return np.int64(value.ordinal) + else: + raise ValueError(f"'value' should be a Period. Got '{value}' instead.") + + def _scalar_from_string(self, value: str) -> Period: + return Period(value, freq=self.freq) + + # error: Argument 1 of "_check_compatible_with" is incompatible with + # supertype "DatetimeLikeArrayMixin"; supertype defines the argument type + # as "Period | Timestamp | Timedelta | NaTType" + def _check_compatible_with(self, other: Period | NaTType | PeriodArray) -> None: # type: ignore[override] + if other is NaT: + return + # error: Item "NaTType" of "Period | NaTType | PeriodArray" has no + # attribute "freq" + self._require_matching_freq(other.freq) # type: ignore[union-attr] + + # -------------------------------------------------------------------- + # Data / Attributes + + @cache_readonly + def dtype(self) -> PeriodDtype: + return self._dtype + + # error: Cannot override writeable attribute with read-only property + @property # type: ignore[override] + def freq(self) -> BaseOffset: + """ + Return the frequency object for this PeriodArray. + """ + return self.dtype.freq + + @property + def freqstr(self) -> str: + return freq_to_period_freqstr(self.freq.n, self.freq.name) + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + if dtype == "i8": + # For NumPy 1.x compatibility we cannot use copy=None. And + # `copy=False` has the meaning of `copy=None` here: + if not copy: + return np.asarray(self.asi8, dtype=dtype) + else: + return np.array(self.asi8, dtype=dtype) + + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if dtype == bool: + return ~self._isnan + + # This will raise TypeError for non-object dtypes + return np.array(list(self), dtype=object) + + def __arrow_array__(self, type=None): + """ + Convert myself into a pyarrow Array. + """ + import pyarrow + + from pandas.core.arrays.arrow.extension_types import ArrowPeriodType + + if type is not None: + if pyarrow.types.is_integer(type): + return pyarrow.array(self._ndarray, mask=self.isna(), type=type) + elif isinstance(type, ArrowPeriodType): + # ensure we have the same freq + if self.freqstr != type.freq: + raise TypeError( + "Not supported to convert PeriodArray to array with different " + f"'freq' ({self.freqstr} vs {type.freq})" + ) + else: + raise TypeError( + f"Not supported to convert PeriodArray to '{type}' type" + ) + + period_type = ArrowPeriodType(self.freqstr) + storage_array = pyarrow.array(self._ndarray, mask=self.isna(), type="int64") + return pyarrow.ExtensionArray.from_storage(period_type, storage_array) + + # -------------------------------------------------------------------- + # Vectorized analogues of Period properties + + year = _field_accessor( + "year", + """ + The year of the period. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023", "2024", "2025"], freq="Y") + >>> idx.year + Index([2023, 2024, 2025], dtype='int64') + """, + ) + month = _field_accessor( + "month", + """ + The month as January=1, December=12. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01", "2023-02", "2023-03"], freq="M") + >>> idx.month + Index([1, 2, 3], dtype='int64') + """, + ) + day = _field_accessor( + "day", + """ + The days of the period. + + Examples + -------- + >>> idx = pd.PeriodIndex(['2020-01-31', '2020-02-28'], freq='D') + >>> idx.day + Index([31, 28], dtype='int64') + """, + ) + hour = _field_accessor( + "hour", + """ + The hour of the period. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01-01 10:00", "2023-01-01 11:00"], freq='h') + >>> idx.hour + Index([10, 11], dtype='int64') + """, + ) + minute = _field_accessor( + "minute", + """ + The minute of the period. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01-01 10:30:00", + ... "2023-01-01 11:50:00"], freq='min') + >>> idx.minute + Index([30, 50], dtype='int64') + """, + ) + second = _field_accessor( + "second", + """ + The second of the period. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01-01 10:00:30", + ... "2023-01-01 10:00:31"], freq='s') + >>> idx.second + Index([30, 31], dtype='int64') + """, + ) + weekofyear = _field_accessor( + "week", + """ + The week ordinal of the year. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01", "2023-02", "2023-03"], freq="M") + >>> idx.week # It can be written `weekofyear` + Index([5, 9, 13], dtype='int64') + """, + ) + week = weekofyear + day_of_week = _field_accessor( + "day_of_week", + """ + The day of the week with Monday=0, Sunday=6. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01-01", "2023-01-02", "2023-01-03"], freq="D") + >>> idx.weekday + Index([6, 0, 1], dtype='int64') + """, + ) + dayofweek = day_of_week + weekday = dayofweek + dayofyear = day_of_year = _field_accessor( + "day_of_year", + """ + The ordinal day of the year. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01-10", "2023-02-01", "2023-03-01"], freq="D") + >>> idx.dayofyear + Index([10, 32, 60], dtype='int64') + + >>> idx = pd.PeriodIndex(["2023", "2024", "2025"], freq="Y") + >>> idx + PeriodIndex(['2023', '2024', '2025'], dtype='period[Y-DEC]') + >>> idx.dayofyear + Index([365, 366, 365], dtype='int64') + """, + ) + quarter = _field_accessor( + "quarter", + """ + The quarter of the date. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01", "2023-02", "2023-03"], freq="M") + >>> idx.quarter + Index([1, 1, 1], dtype='int64') + """, + ) + qyear = _field_accessor("qyear") + days_in_month = _field_accessor( + "days_in_month", + """ + The number of days in the month. + + Examples + -------- + For Series: + + >>> period = pd.period_range('2020-1-1 00:00', '2020-3-1 00:00', freq='M') + >>> s = pd.Series(period) + >>> s + 0 2020-01 + 1 2020-02 + 2 2020-03 + dtype: period[M] + >>> s.dt.days_in_month + 0 31 + 1 29 + 2 31 + dtype: int64 + + For PeriodIndex: + + >>> idx = pd.PeriodIndex(["2023-01", "2023-02", "2023-03"], freq="M") + >>> idx.days_in_month # It can be also entered as `daysinmonth` + Index([31, 28, 31], dtype='int64') + """, + ) + daysinmonth = days_in_month + + @property + def is_leap_year(self) -> npt.NDArray[np.bool_]: + """ + Logical indicating if the date belongs to a leap year. + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023", "2024", "2025"], freq="Y") + >>> idx.is_leap_year + array([False, True, False]) + """ + return isleapyear_arr(np.asarray(self.year)) + + def to_timestamp(self, freq=None, how: str = "start") -> DatetimeArray: + """ + Cast to DatetimeArray/Index. + + Parameters + ---------- + freq : str or DateOffset, optional + Target frequency. The default is 'D' for week or longer, + 's' otherwise. + how : {'s', 'e', 'start', 'end'} + Whether to use the start or end of the time period being converted. + + Returns + ------- + DatetimeArray/Index + + Examples + -------- + >>> idx = pd.PeriodIndex(["2023-01", "2023-02", "2023-03"], freq="M") + >>> idx.to_timestamp() + DatetimeIndex(['2023-01-01', '2023-02-01', '2023-03-01'], + dtype='datetime64[ns]', freq='MS') + """ + from pandas.core.arrays import DatetimeArray + + how = libperiod.validate_end_alias(how) + + end = how == "E" + if end: + if freq == "B" or self.freq == "B": + # roll forward to ensure we land on B date + adjust = Timedelta(1, "D") - Timedelta(1, "ns") + return self.to_timestamp(how="start") + adjust + else: + adjust = Timedelta(1, "ns") + return (self + self.freq).to_timestamp(how="start") - adjust + + if freq is None: + freq_code = self._dtype._get_to_timestamp_base() + dtype = PeriodDtypeBase(freq_code, 1) + freq = dtype._freqstr + base = freq_code + else: + freq = Period._maybe_convert_freq(freq) + base = freq._period_dtype_code + + new_parr = self.asfreq(freq, how=how) + + new_data = libperiod.periodarr_to_dt64arr(new_parr.asi8, base) + dta = DatetimeArray._from_sequence(new_data) + + if self.freq.name == "B": + # See if we can retain BDay instead of Day in cases where + # len(self) is too small for infer_freq to distinguish between them + diffs = libalgos.unique_deltas(self.asi8) + if len(diffs) == 1: + diff = diffs[0] + if diff == self.dtype._n: + dta._freq = self.freq + elif diff == 1: + dta._freq = self.freq.base + # TODO: other cases? + return dta + else: + return dta._with_freq("infer") + + # -------------------------------------------------------------------- + + def _box_func(self, x) -> Period | NaTType: + return Period._from_ordinal(ordinal=x, freq=self.freq) + + @doc(**_shared_doc_kwargs, other="PeriodIndex", other_name="PeriodIndex") + def asfreq(self, freq=None, how: str = "E") -> Self: + """ + Convert the {klass} to the specified frequency `freq`. + + Equivalent to applying :meth:`pandas.Period.asfreq` with the given arguments + to each :class:`~pandas.Period` in this {klass}. + + Parameters + ---------- + freq : str + A frequency. + how : str {{'E', 'S'}}, default 'E' + Whether the elements should be aligned to the end + or start within pa period. + + * 'E', 'END', or 'FINISH' for end, + * 'S', 'START', or 'BEGIN' for start. + + January 31st ('END') vs. January 1st ('START') for example. + + Returns + ------- + {klass} + The transformed {klass} with the new frequency. + + See Also + -------- + {other}.asfreq: Convert each Period in a {other_name} to the given frequency. + Period.asfreq : Convert a :class:`~pandas.Period` object to the given frequency. + + Examples + -------- + >>> pidx = pd.period_range('2010-01-01', '2015-01-01', freq='Y') + >>> pidx + PeriodIndex(['2010', '2011', '2012', '2013', '2014', '2015'], + dtype='period[Y-DEC]') + + >>> pidx.asfreq('M') + PeriodIndex(['2010-12', '2011-12', '2012-12', '2013-12', '2014-12', + '2015-12'], dtype='period[M]') + + >>> pidx.asfreq('M', how='S') + PeriodIndex(['2010-01', '2011-01', '2012-01', '2013-01', '2014-01', + '2015-01'], dtype='period[M]') + """ + how = libperiod.validate_end_alias(how) + if isinstance(freq, BaseOffset) and hasattr(freq, "_period_dtype_code"): + freq = PeriodDtype(freq)._freqstr + freq = Period._maybe_convert_freq(freq) + + base1 = self._dtype._dtype_code + base2 = freq._period_dtype_code + + asi8 = self.asi8 + # self.freq.n can't be negative or 0 + end = how == "E" + if end: + ordinal = asi8 + self.dtype._n - 1 + else: + ordinal = asi8 + + new_data = period_asfreq_arr(ordinal, base1, base2, end) + + if self._hasna: + new_data[self._isnan] = iNaT + + dtype = PeriodDtype(freq) + return type(self)(new_data, dtype=dtype) + + # ------------------------------------------------------------------ + # Rendering Methods + + def _formatter(self, boxed: bool = False): + if boxed: + return str + return "'{}'".format + + def _format_native_types( + self, *, na_rep: str | float = "NaT", date_format=None, **kwargs + ) -> npt.NDArray[np.object_]: + """ + actually format my specific types + """ + return libperiod.period_array_strftime( + self.asi8, self.dtype._dtype_code, na_rep, date_format + ) + + # ------------------------------------------------------------------ + + def astype(self, dtype, copy: bool = True): + # We handle Period[T] -> Period[U] + # Our parent handles everything else. + dtype = pandas_dtype(dtype) + if dtype == self._dtype: + if not copy: + return self + else: + return self.copy() + if isinstance(dtype, PeriodDtype): + return self.asfreq(dtype.freq) + + if lib.is_np_dtype(dtype, "M") or isinstance(dtype, DatetimeTZDtype): + # GH#45038 match PeriodIndex behavior. + tz = getattr(dtype, "tz", None) + unit = dtl.dtype_to_unit(dtype) + return self.to_timestamp().tz_localize(tz).as_unit(unit) + + return super().astype(dtype, copy=copy) + + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + npvalue = self._validate_setitem_value(value).view("M8[ns]") + + # Cast to M8 to get datetime-like NaT placement, + # similar to dtl._period_dispatch + m8arr = self._ndarray.view("M8[ns]") + return m8arr.searchsorted(npvalue, side=side, sorter=sorter) + + def _pad_or_backfill( + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + # view as dt64 so we get treated as timelike in core.missing, + # similar to dtl._period_dispatch + dta = self.view("M8[ns]") + result = dta._pad_or_backfill( + method=method, limit=limit, limit_area=limit_area, copy=copy + ) + if copy: + return cast("Self", result.view(self.dtype)) + else: + return self + + def fillna( + self, value=None, method=None, limit: int | None = None, copy: bool = True + ) -> Self: + if method is not None: + # view as dt64 so we get treated as timelike in core.missing, + # similar to dtl._period_dispatch + dta = self.view("M8[ns]") + result = dta.fillna(value=value, method=method, limit=limit, copy=copy) + # error: Incompatible return value type (got "Union[ExtensionArray, + # ndarray[Any, Any]]", expected "PeriodArray") + return result.view(self.dtype) # type: ignore[return-value] + return super().fillna(value=value, method=method, limit=limit, copy=copy) + + # ------------------------------------------------------------------ + # Arithmetic Methods + + def _addsub_int_array_or_scalar( + self, other: np.ndarray | int, op: Callable[[Any, Any], Any] + ) -> Self: + """ + Add or subtract array of integers. + + Parameters + ---------- + other : np.ndarray[int64] or int + op : {operator.add, operator.sub} + + Returns + ------- + result : PeriodArray + """ + assert op in [operator.add, operator.sub] + if op is operator.sub: + other = -other + res_values = add_overflowsafe(self.asi8, np.asarray(other, dtype="i8")) + return type(self)(res_values, dtype=self.dtype) + + def _add_offset(self, other: BaseOffset): + assert not isinstance(other, Tick) + + self._require_matching_freq(other, base=True) + return self._addsub_int_array_or_scalar(other.n, operator.add) + + # TODO: can we de-duplicate with Period._add_timedeltalike_scalar? + def _add_timedeltalike_scalar(self, other): + """ + Parameters + ---------- + other : timedelta, Tick, np.timedelta64 + + Returns + ------- + PeriodArray + """ + if not isinstance(self.freq, Tick): + # We cannot add timedelta-like to non-tick PeriodArray + raise raise_on_incompatible(self, other) + + if isna(other): + # i.e. np.timedelta64("NaT") + return super()._add_timedeltalike_scalar(other) + + td = np.asarray(Timedelta(other).asm8) + return self._add_timedelta_arraylike(td) + + def _add_timedelta_arraylike( + self, other: TimedeltaArray | npt.NDArray[np.timedelta64] + ) -> Self: + """ + Parameters + ---------- + other : TimedeltaArray or ndarray[timedelta64] + + Returns + ------- + PeriodArray + """ + if not self.dtype._is_tick_like(): + # We cannot add timedelta-like to non-tick PeriodArray + raise TypeError( + f"Cannot add or subtract timedelta64[ns] dtype from {self.dtype}" + ) + + dtype = np.dtype(f"m8[{self.dtype._td64_unit}]") + + # Similar to _check_timedeltalike_freq_compat, but we raise with a + # more specific exception message if necessary. + try: + delta = astype_overflowsafe( + np.asarray(other), dtype=dtype, copy=False, round_ok=False + ) + except ValueError as err: + # e.g. if we have minutes freq and try to add 30s + # "Cannot losslessly convert units" + raise IncompatibleFrequency( + "Cannot add/subtract timedelta-like from PeriodArray that is " + "not an integer multiple of the PeriodArray's freq." + ) from err + + res_values = add_overflowsafe(self.asi8, np.asarray(delta.view("i8"))) + return type(self)(res_values, dtype=self.dtype) + + def _check_timedeltalike_freq_compat(self, other): + """ + Arithmetic operations with timedelta-like scalars or array `other` + are only valid if `other` is an integer multiple of `self.freq`. + If the operation is valid, find that integer multiple. Otherwise, + raise because the operation is invalid. + + Parameters + ---------- + other : timedelta, np.timedelta64, Tick, + ndarray[timedelta64], TimedeltaArray, TimedeltaIndex + + Returns + ------- + multiple : int or ndarray[int64] + + Raises + ------ + IncompatibleFrequency + """ + assert self.dtype._is_tick_like() # checked by calling function + + dtype = np.dtype(f"m8[{self.dtype._td64_unit}]") + + if isinstance(other, (timedelta, np.timedelta64, Tick)): + td = np.asarray(Timedelta(other).asm8) + else: + td = np.asarray(other) + + try: + delta = astype_overflowsafe(td, dtype=dtype, copy=False, round_ok=False) + except ValueError as err: + raise raise_on_incompatible(self, other) from err + + delta = delta.view("i8") + return lib.item_from_zerodim(delta) + + +def raise_on_incompatible(left, right) -> IncompatibleFrequency: + """ + Helper function to render a consistent error message when raising + IncompatibleFrequency. + + Parameters + ---------- + left : PeriodArray + right : None, DateOffset, Period, ndarray, or timedelta-like + + Returns + ------- + IncompatibleFrequency + Exception to be raised by the caller. + """ + # GH#24283 error message format depends on whether right is scalar + if isinstance(right, (np.ndarray, ABCTimedeltaArray)) or right is None: + other_freq = None + elif isinstance(right, BaseOffset): + other_freq = freq_to_period_freqstr(right.n, right.name) + elif isinstance(right, (ABCPeriodIndex, PeriodArray, Period)): + other_freq = right.freqstr + else: + other_freq = delta_to_tick(Timedelta(right)).freqstr + + own_freq = freq_to_period_freqstr(left.freq.n, left.freq.name) + msg = DIFFERENT_FREQ.format( + cls=type(left).__name__, own_freq=own_freq, other_freq=other_freq + ) + return IncompatibleFrequency(msg) + + +# ------------------------------------------------------------------- +# Constructor Helpers + + +def period_array( + data: Sequence[Period | str | None] | AnyArrayLike, + freq: str | Tick | BaseOffset | None = None, + copy: bool = False, +) -> PeriodArray: + """ + Construct a new PeriodArray from a sequence of Period scalars. + + Parameters + ---------- + data : Sequence of Period objects + A sequence of Period objects. These are required to all have + the same ``freq.`` Missing values can be indicated by ``None`` + or ``pandas.NaT``. + freq : str, Tick, or Offset + The frequency of every element of the array. This can be specified + to avoid inferring the `freq` from `data`. + copy : bool, default False + Whether to ensure a copy of the data is made. + + Returns + ------- + PeriodArray + + See Also + -------- + PeriodArray + pandas.PeriodIndex + + Examples + -------- + >>> period_array([pd.Period('2017', freq='Y'), + ... pd.Period('2018', freq='Y')]) + + ['2017', '2018'] + Length: 2, dtype: period[Y-DEC] + + >>> period_array([pd.Period('2017', freq='Y'), + ... pd.Period('2018', freq='Y'), + ... pd.NaT]) + + ['2017', '2018', 'NaT'] + Length: 3, dtype: period[Y-DEC] + + Integers that look like years are handled + + >>> period_array([2000, 2001, 2002], freq='D') + + ['2000-01-01', '2001-01-01', '2002-01-01'] + Length: 3, dtype: period[D] + + Datetime-like strings may also be passed + + >>> period_array(['2000-Q1', '2000-Q2', '2000-Q3', '2000-Q4'], freq='Q') + + ['2000Q1', '2000Q2', '2000Q3', '2000Q4'] + Length: 4, dtype: period[Q-DEC] + """ + data_dtype = getattr(data, "dtype", None) + + if lib.is_np_dtype(data_dtype, "M"): + return PeriodArray._from_datetime64(data, freq) + if isinstance(data_dtype, PeriodDtype): + out = PeriodArray(data) + if freq is not None: + if freq == data_dtype.freq: + return out + return out.asfreq(freq) + return out + + # other iterable of some kind + if not isinstance(data, (np.ndarray, list, tuple, ABCSeries)): + data = list(data) + + arrdata = np.asarray(data) + + dtype: PeriodDtype | None + if freq: + dtype = PeriodDtype(freq) + else: + dtype = None + + if arrdata.dtype.kind == "f" and len(arrdata) > 0: + raise TypeError("PeriodIndex does not allow floating point in construction") + + if arrdata.dtype.kind in "iu": + arr = arrdata.astype(np.int64, copy=False) + # error: Argument 2 to "from_ordinals" has incompatible type "Union[str, + # Tick, None]"; expected "Union[timedelta, BaseOffset, str]" + ordinals = libperiod.from_ordinals(arr, freq) # type: ignore[arg-type] + return PeriodArray(ordinals, dtype=dtype) + + data = ensure_object(arrdata) + if freq is None: + freq = libperiod.extract_freq(data) + dtype = PeriodDtype(freq) + return PeriodArray._from_sequence(data, dtype=dtype) + + +@overload +def validate_dtype_freq(dtype, freq: BaseOffsetT) -> BaseOffsetT: + ... + + +@overload +def validate_dtype_freq(dtype, freq: timedelta | str | None) -> BaseOffset: + ... + + +def validate_dtype_freq( + dtype, freq: BaseOffsetT | BaseOffset | timedelta | str | None +) -> BaseOffsetT: + """ + If both a dtype and a freq are available, ensure they match. If only + dtype is available, extract the implied freq. + + Parameters + ---------- + dtype : dtype + freq : DateOffset or None + + Returns + ------- + freq : DateOffset + + Raises + ------ + ValueError : non-period dtype + IncompatibleFrequency : mismatch between dtype and freq + """ + if freq is not None: + freq = to_offset(freq, is_period=True) + + if dtype is not None: + dtype = pandas_dtype(dtype) + if not isinstance(dtype, PeriodDtype): + raise ValueError("dtype must be PeriodDtype") + if freq is None: + freq = dtype.freq + elif freq != dtype.freq: + raise IncompatibleFrequency("specified freq and dtype are different") + # error: Incompatible return value type (got "Union[BaseOffset, Any, None]", + # expected "BaseOffset") + return freq # type: ignore[return-value] + + +def dt64arr_to_periodarr( + data, freq, tz=None +) -> tuple[npt.NDArray[np.int64], BaseOffset]: + """ + Convert an datetime-like array to values Period ordinals. + + Parameters + ---------- + data : Union[Series[datetime64[ns]], DatetimeIndex, ndarray[datetime64ns]] + freq : Optional[Union[str, Tick]] + Must match the `freq` on the `data` if `data` is a DatetimeIndex + or Series. + tz : Optional[tzinfo] + + Returns + ------- + ordinals : ndarray[int64] + freq : Tick + The frequency extracted from the Series or DatetimeIndex if that's + used. + + """ + if not isinstance(data.dtype, np.dtype) or data.dtype.kind != "M": + raise ValueError(f"Wrong dtype: {data.dtype}") + + if freq is None: + if isinstance(data, ABCIndex): + data, freq = data._values, data.freq + elif isinstance(data, ABCSeries): + data, freq = data._values, data.dt.freq + + elif isinstance(data, (ABCIndex, ABCSeries)): + data = data._values + + reso = get_unit_from_dtype(data.dtype) + freq = Period._maybe_convert_freq(freq) + base = freq._period_dtype_code + return c_dt64arr_to_periodarr(data.view("i8"), base, tz, reso=reso), freq + + +def _get_ordinal_range(start, end, periods, freq, mult: int = 1): + if com.count_not_none(start, end, periods) != 2: + raise ValueError( + "Of the three parameters: start, end, and periods, " + "exactly two must be specified" + ) + + if freq is not None: + freq = to_offset(freq, is_period=True) + mult = freq.n + + if start is not None: + start = Period(start, freq) + if end is not None: + end = Period(end, freq) + + is_start_per = isinstance(start, Period) + is_end_per = isinstance(end, Period) + + if is_start_per and is_end_per and start.freq != end.freq: + raise ValueError("start and end must have same freq") + if start is NaT or end is NaT: + raise ValueError("start and end must not be NaT") + + if freq is None: + if is_start_per: + freq = start.freq + elif is_end_per: + freq = end.freq + else: # pragma: no cover + raise ValueError("Could not infer freq from start/end") + mult = freq.n + + if periods is not None: + periods = periods * mult + if start is None: + data = np.arange( + end.ordinal - periods + mult, end.ordinal + 1, mult, dtype=np.int64 + ) + else: + data = np.arange( + start.ordinal, start.ordinal + periods, mult, dtype=np.int64 + ) + else: + data = np.arange(start.ordinal, end.ordinal + 1, mult, dtype=np.int64) + + return data, freq + + +def _range_from_fields( + year=None, + month=None, + quarter=None, + day=None, + hour=None, + minute=None, + second=None, + freq=None, +) -> tuple[np.ndarray, BaseOffset]: + if hour is None: + hour = 0 + if minute is None: + minute = 0 + if second is None: + second = 0 + if day is None: + day = 1 + + ordinals = [] + + if quarter is not None: + if freq is None: + freq = to_offset("Q", is_period=True) + base = FreqGroup.FR_QTR.value + else: + freq = to_offset(freq, is_period=True) + base = libperiod.freq_to_dtype_code(freq) + if base != FreqGroup.FR_QTR.value: + raise AssertionError("base must equal FR_QTR") + + freqstr = freq.freqstr + year, quarter = _make_field_arrays(year, quarter) + for y, q in zip(year, quarter): + calendar_year, calendar_month = parsing.quarter_to_myear(y, q, freqstr) + val = libperiod.period_ordinal( + calendar_year, calendar_month, 1, 1, 1, 1, 0, 0, base + ) + ordinals.append(val) + else: + freq = to_offset(freq, is_period=True) + base = libperiod.freq_to_dtype_code(freq) + arrays = _make_field_arrays(year, month, day, hour, minute, second) + for y, mth, d, h, mn, s in zip(*arrays): + ordinals.append(libperiod.period_ordinal(y, mth, d, h, mn, s, 0, 0, base)) + + return np.array(ordinals, dtype=np.int64), freq + + +def _make_field_arrays(*fields) -> list[np.ndarray]: + length = None + for x in fields: + if isinstance(x, (list, np.ndarray, ABCSeries)): + if length is not None and len(x) != length: + raise ValueError("Mismatched Period array lengths") + if length is None: + length = len(x) + + # error: Argument 2 to "repeat" has incompatible type "Optional[int]"; expected + # "Union[Union[int, integer[Any]], Union[bool, bool_], ndarray, Sequence[Union[int, + # integer[Any]]], Sequence[Union[bool, bool_]], Sequence[Sequence[Any]]]" + return [ + np.asarray(x) + if isinstance(x, (np.ndarray, list, ABCSeries)) + else np.repeat(x, length) # type: ignore[arg-type] + for x in fields + ] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..adf83963aca39e7d2ec2da55d21fc69aaca48977 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/__init__.py @@ -0,0 +1,19 @@ +from pandas.core.arrays.sparse.accessor import ( + SparseAccessor, + SparseFrameAccessor, +) +from pandas.core.arrays.sparse.array import ( + BlockIndex, + IntIndex, + SparseArray, + make_sparse_index, +) + +__all__ = [ + "BlockIndex", + "IntIndex", + "make_sparse_index", + "SparseAccessor", + "SparseArray", + "SparseFrameAccessor", +] diff --git 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100644 index 0000000000000000000000000000000000000000..67bb41786547501c0cd7187e5ca6be8393b85ced --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/accessor.py @@ -0,0 +1,414 @@ +"""Sparse accessor""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.compat._optional import import_optional_dependency + +from pandas.core.dtypes.cast import find_common_type +from pandas.core.dtypes.dtypes import SparseDtype + +from pandas.core.accessor import ( + PandasDelegate, + delegate_names, +) +from pandas.core.arrays.sparse.array import SparseArray + +if TYPE_CHECKING: + from pandas import ( + DataFrame, + Series, + ) + + +class BaseAccessor: + _validation_msg = "Can only use the '.sparse' accessor with Sparse data." + + def __init__(self, data=None) -> None: + self._parent = data + self._validate(data) + + def _validate(self, data): + raise NotImplementedError + + +@delegate_names( + SparseArray, ["npoints", "density", "fill_value", "sp_values"], typ="property" +) +class SparseAccessor(BaseAccessor, PandasDelegate): + """ + Accessor for SparseSparse from other sparse matrix data types. + + Examples + -------- + >>> ser = pd.Series([0, 0, 2, 2, 2], dtype="Sparse[int]") + >>> ser.sparse.density + 0.6 + >>> ser.sparse.sp_values + array([2, 2, 2]) + """ + + def _validate(self, data): + if not isinstance(data.dtype, SparseDtype): + raise AttributeError(self._validation_msg) + + def _delegate_property_get(self, name: str, *args, **kwargs): + return getattr(self._parent.array, name) + + def _delegate_method(self, name: str, *args, **kwargs): + if name == "from_coo": + return self.from_coo(*args, **kwargs) + elif name == "to_coo": + return self.to_coo(*args, **kwargs) + else: + raise ValueError + + @classmethod + def from_coo(cls, A, dense_index: bool = False) -> Series: + """ + Create a Series with sparse values from a scipy.sparse.coo_matrix. + + Parameters + ---------- + A : scipy.sparse.coo_matrix + dense_index : bool, default False + If False (default), the index consists of only the + coords of the non-null entries of the original coo_matrix. + If True, the index consists of the full sorted + (row, col) coordinates of the coo_matrix. + + Returns + ------- + s : Series + A Series with sparse values. + + Examples + -------- + >>> from scipy import sparse + + >>> A = sparse.coo_matrix( + ... ([3.0, 1.0, 2.0], ([1, 0, 0], [0, 2, 3])), shape=(3, 4) + ... ) + >>> A + + + >>> A.todense() + matrix([[0., 0., 1., 2.], + [3., 0., 0., 0.], + [0., 0., 0., 0.]]) + + >>> ss = pd.Series.sparse.from_coo(A) + >>> ss + 0 2 1.0 + 3 2.0 + 1 0 3.0 + dtype: Sparse[float64, nan] + """ + from pandas import Series + from pandas.core.arrays.sparse.scipy_sparse import coo_to_sparse_series + + result = coo_to_sparse_series(A, dense_index=dense_index) + result = Series(result.array, index=result.index, copy=False) + + return result + + def to_coo(self, row_levels=(0,), column_levels=(1,), sort_labels: bool = False): + """ + Create a scipy.sparse.coo_matrix from a Series with MultiIndex. + + Use row_levels and column_levels to determine the row and column + coordinates respectively. row_levels and column_levels are the names + (labels) or numbers of the levels. {row_levels, column_levels} must be + a partition of the MultiIndex level names (or numbers). + + Parameters + ---------- + row_levels : tuple/list + column_levels : tuple/list + sort_labels : bool, default False + Sort the row and column labels before forming the sparse matrix. + When `row_levels` and/or `column_levels` refer to a single level, + set to `True` for a faster execution. + + Returns + ------- + y : scipy.sparse.coo_matrix + rows : list (row labels) + columns : list (column labels) + + Examples + -------- + >>> s = pd.Series([3.0, np.nan, 1.0, 3.0, np.nan, np.nan]) + >>> s.index = pd.MultiIndex.from_tuples( + ... [ + ... (1, 2, "a", 0), + ... (1, 2, "a", 1), + ... (1, 1, "b", 0), + ... (1, 1, "b", 1), + ... (2, 1, "b", 0), + ... (2, 1, "b", 1) + ... ], + ... names=["A", "B", "C", "D"], + ... ) + >>> s + A B C D + 1 2 a 0 3.0 + 1 NaN + 1 b 0 1.0 + 1 3.0 + 2 1 b 0 NaN + 1 NaN + dtype: float64 + + >>> ss = s.astype("Sparse") + >>> ss + A B C D + 1 2 a 0 3.0 + 1 NaN + 1 b 0 1.0 + 1 3.0 + 2 1 b 0 NaN + 1 NaN + dtype: Sparse[float64, nan] + + >>> A, rows, columns = ss.sparse.to_coo( + ... row_levels=["A", "B"], column_levels=["C", "D"], sort_labels=True + ... ) + >>> A + + >>> A.todense() + matrix([[0., 0., 1., 3.], + [3., 0., 0., 0.], + [0., 0., 0., 0.]]) + + >>> rows + [(1, 1), (1, 2), (2, 1)] + >>> columns + [('a', 0), ('a', 1), ('b', 0), ('b', 1)] + """ + from pandas.core.arrays.sparse.scipy_sparse import sparse_series_to_coo + + A, rows, columns = sparse_series_to_coo( + self._parent, row_levels, column_levels, sort_labels=sort_labels + ) + return A, rows, columns + + def to_dense(self) -> Series: + """ + Convert a Series from sparse values to dense. + + Returns + ------- + Series: + A Series with the same values, stored as a dense array. + + Examples + -------- + >>> series = pd.Series(pd.arrays.SparseArray([0, 1, 0])) + >>> series + 0 0 + 1 1 + 2 0 + dtype: Sparse[int64, 0] + + >>> series.sparse.to_dense() + 0 0 + 1 1 + 2 0 + dtype: int64 + """ + from pandas import Series + + return Series( + self._parent.array.to_dense(), + index=self._parent.index, + name=self._parent.name, + copy=False, + ) + + +class SparseFrameAccessor(BaseAccessor, PandasDelegate): + """ + DataFrame accessor for sparse data. + + Examples + -------- + >>> df = pd.DataFrame({"a": [1, 2, 0, 0], + ... "b": [3, 0, 0, 4]}, dtype="Sparse[int]") + >>> df.sparse.density + 0.5 + """ + + def _validate(self, data): + dtypes = data.dtypes + if not all(isinstance(t, SparseDtype) for t in dtypes): + raise AttributeError(self._validation_msg) + + @classmethod + def from_spmatrix(cls, data, index=None, columns=None) -> DataFrame: + """ + Create a new DataFrame from a scipy sparse matrix. + + Parameters + ---------- + data : scipy.sparse.spmatrix + Must be convertible to csc format. + index, columns : Index, optional + Row and column labels to use for the resulting DataFrame. + Defaults to a RangeIndex. + + Returns + ------- + DataFrame + Each column of the DataFrame is stored as a + :class:`arrays.SparseArray`. + + Examples + -------- + >>> import scipy.sparse + >>> mat = scipy.sparse.eye(3, dtype=float) + >>> pd.DataFrame.sparse.from_spmatrix(mat) + 0 1 2 + 0 1.0 0 0 + 1 0 1.0 0 + 2 0 0 1.0 + """ + from pandas._libs.sparse import IntIndex + + from pandas import DataFrame + + data = data.tocsc() + index, columns = cls._prep_index(data, index, columns) + n_rows, n_columns = data.shape + # We need to make sure indices are sorted, as we create + # IntIndex with no input validation (i.e. check_integrity=False ). + # Indices may already be sorted in scipy in which case this adds + # a small overhead. + data.sort_indices() + indices = data.indices + indptr = data.indptr + array_data = data.data + dtype = SparseDtype(array_data.dtype, 0) + arrays = [] + for i in range(n_columns): + sl = slice(indptr[i], indptr[i + 1]) + idx = IntIndex(n_rows, indices[sl], check_integrity=False) + arr = SparseArray._simple_new(array_data[sl], idx, dtype) + arrays.append(arr) + return DataFrame._from_arrays( + arrays, columns=columns, index=index, verify_integrity=False + ) + + def to_dense(self) -> DataFrame: + """ + Convert a DataFrame with sparse values to dense. + + Returns + ------- + DataFrame + A DataFrame with the same values stored as dense arrays. + + Examples + -------- + >>> df = pd.DataFrame({"A": pd.arrays.SparseArray([0, 1, 0])}) + >>> df.sparse.to_dense() + A + 0 0 + 1 1 + 2 0 + """ + from pandas import DataFrame + + data = {k: v.array.to_dense() for k, v in self._parent.items()} + return DataFrame(data, index=self._parent.index, columns=self._parent.columns) + + def to_coo(self): + """ + Return the contents of the frame as a sparse SciPy COO matrix. + + Returns + ------- + scipy.sparse.spmatrix + If the caller is heterogeneous and contains booleans or objects, + the result will be of dtype=object. See Notes. + + Notes + ----- + The dtype will be the lowest-common-denominator type (implicit + upcasting); that is to say if the dtypes (even of numeric types) + are mixed, the one that accommodates all will be chosen. + + e.g. If the dtypes are float16 and float32, dtype will be upcast to + float32. By numpy.find_common_type convention, mixing int64 and + and uint64 will result in a float64 dtype. + + Examples + -------- + >>> df = pd.DataFrame({"A": pd.arrays.SparseArray([0, 1, 0, 1])}) + >>> df.sparse.to_coo() + + """ + import_optional_dependency("scipy") + from scipy.sparse import coo_matrix + + dtype = find_common_type(self._parent.dtypes.to_list()) + if isinstance(dtype, SparseDtype): + dtype = dtype.subtype + + cols, rows, data = [], [], [] + for col, (_, ser) in enumerate(self._parent.items()): + sp_arr = ser.array + if sp_arr.fill_value != 0: + raise ValueError("fill value must be 0 when converting to COO matrix") + + row = sp_arr.sp_index.indices + cols.append(np.repeat(col, len(row))) + rows.append(row) + data.append(sp_arr.sp_values.astype(dtype, copy=False)) + + cols = np.concatenate(cols) + rows = np.concatenate(rows) + data = np.concatenate(data) + return coo_matrix((data, (rows, cols)), shape=self._parent.shape) + + @property + def density(self) -> float: + """ + Ratio of non-sparse points to total (dense) data points. + + Examples + -------- + >>> df = pd.DataFrame({"A": pd.arrays.SparseArray([0, 1, 0, 1])}) + >>> df.sparse.density + 0.5 + """ + tmp = np.mean([column.array.density for _, column in self._parent.items()]) + return tmp + + @staticmethod + def _prep_index(data, index, columns): + from pandas.core.indexes.api import ( + default_index, + ensure_index, + ) + + N, K = data.shape + if index is None: + index = default_index(N) + else: + index = ensure_index(index) + if columns is None: + columns = default_index(K) + else: + columns = ensure_index(columns) + + if len(columns) != K: + raise ValueError(f"Column length mismatch: {len(columns)} vs. {K}") + if len(index) != N: + raise ValueError(f"Index length mismatch: {len(index)} vs. {N}") + return index, columns diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/array.py new file mode 100644 index 0000000000000000000000000000000000000000..07ff592f491a82bebef7b158ec00aaee6c8df419 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/array.py @@ -0,0 +1,1945 @@ +""" +SparseArray data structure +""" +from __future__ import annotations + +from collections import abc +import numbers +import operator +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +import pandas._libs.sparse as splib +from pandas._libs.sparse import ( + BlockIndex, + IntIndex, + SparseIndex, +) +from pandas._libs.tslibs import NaT +from pandas.compat.numpy import function as nv +from pandas.errors import PerformanceWarning +from pandas.util._decorators import doc +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import ( + validate_bool_kwarg, + validate_insert_loc, +) + +from pandas.core.dtypes.astype import astype_array +from pandas.core.dtypes.cast import ( + construct_1d_arraylike_from_scalar, + find_common_type, + maybe_box_datetimelike, +) +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_integer, + is_list_like, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + SparseDtype, +) +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, + notna, +) + +from pandas.core import arraylike +import pandas.core.algorithms as algos +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays import ExtensionArray +from pandas.core.base import PandasObject +import pandas.core.common as com +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, + sanitize_array, +) +from pandas.core.indexers import ( + check_array_indexer, + unpack_tuple_and_ellipses, +) +from pandas.core.nanops import check_below_min_count + +from pandas.io.formats import printing + +# See https://github.com/python/typing/issues/684 +if TYPE_CHECKING: + from collections.abc import Sequence + from enum import Enum + + class ellipsis(Enum): + Ellipsis = "..." + + Ellipsis = ellipsis.Ellipsis + + from scipy.sparse import spmatrix + + from pandas._typing import ( + FillnaOptions, + NumpySorter, + ) + + SparseIndexKind = Literal["integer", "block"] + + from pandas._typing import ( + ArrayLike, + AstypeArg, + Axis, + AxisInt, + Dtype, + NpDtype, + PositionalIndexer, + Scalar, + ScalarIndexer, + Self, + SequenceIndexer, + npt, + ) + + from pandas import Series + +else: + ellipsis = type(Ellipsis) + + +# ---------------------------------------------------------------------------- +# Array + +_sparray_doc_kwargs = {"klass": "SparseArray"} + + +def _get_fill(arr: SparseArray) -> np.ndarray: + """ + Create a 0-dim ndarray containing the fill value + + Parameters + ---------- + arr : SparseArray + + Returns + ------- + fill_value : ndarray + 0-dim ndarray with just the fill value. + + Notes + ----- + coerce fill_value to arr dtype if possible + int64 SparseArray can have NaN as fill_value if there is no missing + """ + try: + return np.asarray(arr.fill_value, dtype=arr.dtype.subtype) + except ValueError: + return np.asarray(arr.fill_value) + + +def _sparse_array_op( + left: SparseArray, right: SparseArray, op: Callable, name: str +) -> SparseArray: + """ + Perform a binary operation between two arrays. + + Parameters + ---------- + left : Union[SparseArray, ndarray] + right : Union[SparseArray, ndarray] + op : Callable + The binary operation to perform + name str + Name of the callable. + + Returns + ------- + SparseArray + """ + if name.startswith("__"): + # For lookups in _libs.sparse we need non-dunder op name + name = name[2:-2] + + # dtype used to find corresponding sparse method + ltype = left.dtype.subtype + rtype = right.dtype.subtype + + if ltype != rtype: + subtype = find_common_type([ltype, rtype]) + ltype = SparseDtype(subtype, left.fill_value) + rtype = SparseDtype(subtype, right.fill_value) + + left = left.astype(ltype, copy=False) + right = right.astype(rtype, copy=False) + dtype = ltype.subtype + else: + dtype = ltype + + # dtype the result must have + result_dtype = None + + if left.sp_index.ngaps == 0 or right.sp_index.ngaps == 0: + with np.errstate(all="ignore"): + result = op(left.to_dense(), right.to_dense()) + fill = op(_get_fill(left), _get_fill(right)) + + if left.sp_index.ngaps == 0: + index = left.sp_index + else: + index = right.sp_index + elif left.sp_index.equals(right.sp_index): + with np.errstate(all="ignore"): + result = op(left.sp_values, right.sp_values) + fill = op(_get_fill(left), _get_fill(right)) + index = left.sp_index + else: + if name[0] == "r": + left, right = right, left + name = name[1:] + + if name in ("and", "or", "xor") and dtype == "bool": + opname = f"sparse_{name}_uint8" + # to make template simple, cast here + left_sp_values = left.sp_values.view(np.uint8) + right_sp_values = right.sp_values.view(np.uint8) + result_dtype = bool + else: + opname = f"sparse_{name}_{dtype}" + left_sp_values = left.sp_values + right_sp_values = right.sp_values + + if ( + name in ["floordiv", "mod"] + and (right == 0).any() + and left.dtype.kind in "iu" + ): + # Match the non-Sparse Series behavior + opname = f"sparse_{name}_float64" + left_sp_values = left_sp_values.astype("float64") + right_sp_values = right_sp_values.astype("float64") + + sparse_op = getattr(splib, opname) + + with np.errstate(all="ignore"): + result, index, fill = sparse_op( + left_sp_values, + left.sp_index, + left.fill_value, + right_sp_values, + right.sp_index, + right.fill_value, + ) + + if name == "divmod": + # result is a 2-tuple + # error: Incompatible return value type (got "Tuple[SparseArray, + # SparseArray]", expected "SparseArray") + return ( # type: ignore[return-value] + _wrap_result(name, result[0], index, fill[0], dtype=result_dtype), + _wrap_result(name, result[1], index, fill[1], dtype=result_dtype), + ) + + if result_dtype is None: + result_dtype = result.dtype + + return _wrap_result(name, result, index, fill, dtype=result_dtype) + + +def _wrap_result( + name: str, data, sparse_index, fill_value, dtype: Dtype | None = None +) -> SparseArray: + """ + wrap op result to have correct dtype + """ + if name.startswith("__"): + # e.g. __eq__ --> eq + name = name[2:-2] + + if name in ("eq", "ne", "lt", "gt", "le", "ge"): + dtype = bool + + fill_value = lib.item_from_zerodim(fill_value) + + if is_bool_dtype(dtype): + # fill_value may be np.bool_ + fill_value = bool(fill_value) + return SparseArray( + data, sparse_index=sparse_index, fill_value=fill_value, dtype=dtype + ) + + +class SparseArray(OpsMixin, PandasObject, ExtensionArray): + """ + An ExtensionArray for storing sparse data. + + Parameters + ---------- + data : array-like or scalar + A dense array of values to store in the SparseArray. This may contain + `fill_value`. + sparse_index : SparseIndex, optional + fill_value : scalar, optional + Elements in data that are ``fill_value`` are not stored in the + SparseArray. For memory savings, this should be the most common value + in `data`. By default, `fill_value` depends on the dtype of `data`: + + =========== ========== + data.dtype na_value + =========== ========== + float ``np.nan`` + int ``0`` + bool False + datetime64 ``pd.NaT`` + timedelta64 ``pd.NaT`` + =========== ========== + + The fill value is potentially specified in three ways. In order of + precedence, these are + + 1. The `fill_value` argument + 2. ``dtype.fill_value`` if `fill_value` is None and `dtype` is + a ``SparseDtype`` + 3. ``data.dtype.fill_value`` if `fill_value` is None and `dtype` + is not a ``SparseDtype`` and `data` is a ``SparseArray``. + + kind : str + Can be 'integer' or 'block', default is 'integer'. + The type of storage for sparse locations. + + * 'block': Stores a `block` and `block_length` for each + contiguous *span* of sparse values. This is best when + sparse data tends to be clumped together, with large + regions of ``fill-value`` values between sparse values. + * 'integer': uses an integer to store the location of + each sparse value. + + dtype : np.dtype or SparseDtype, optional + The dtype to use for the SparseArray. For numpy dtypes, this + determines the dtype of ``self.sp_values``. For SparseDtype, + this determines ``self.sp_values`` and ``self.fill_value``. + copy : bool, default False + Whether to explicitly copy the incoming `data` array. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> from pandas.arrays import SparseArray + >>> arr = SparseArray([0, 0, 1, 2]) + >>> arr + [0, 0, 1, 2] + Fill: 0 + IntIndex + Indices: array([2, 3], dtype=int32) + """ + + _subtyp = "sparse_array" # register ABCSparseArray + _hidden_attrs = PandasObject._hidden_attrs | frozenset([]) + _sparse_index: SparseIndex + _sparse_values: np.ndarray + _dtype: SparseDtype + + def __init__( + self, + data, + sparse_index=None, + fill_value=None, + kind: SparseIndexKind = "integer", + dtype: Dtype | None = None, + copy: bool = False, + ) -> None: + if fill_value is None and isinstance(dtype, SparseDtype): + fill_value = dtype.fill_value + + if isinstance(data, type(self)): + # disable normal inference on dtype, sparse_index, & fill_value + if sparse_index is None: + sparse_index = data.sp_index + if fill_value is None: + fill_value = data.fill_value + if dtype is None: + dtype = data.dtype + # TODO: make kind=None, and use data.kind? + data = data.sp_values + + # Handle use-provided dtype + if isinstance(dtype, str): + # Two options: dtype='int', regular numpy dtype + # or dtype='Sparse[int]', a sparse dtype + try: + dtype = SparseDtype.construct_from_string(dtype) + except TypeError: + dtype = pandas_dtype(dtype) + + if isinstance(dtype, SparseDtype): + if fill_value is None: + fill_value = dtype.fill_value + dtype = dtype.subtype + + if is_scalar(data): + warnings.warn( + f"Constructing {type(self).__name__} with scalar data is deprecated " + "and will raise in a future version. Pass a sequence instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if sparse_index is None: + npoints = 1 + else: + npoints = sparse_index.length + + data = construct_1d_arraylike_from_scalar(data, npoints, dtype=None) + dtype = data.dtype + + if dtype is not None: + dtype = pandas_dtype(dtype) + + # TODO: disentangle the fill_value dtype inference from + # dtype inference + if data is None: + # TODO: What should the empty dtype be? Object or float? + + # error: Argument "dtype" to "array" has incompatible type + # "Union[ExtensionDtype, dtype[Any], None]"; expected "Union[dtype[Any], + # None, type, _SupportsDType, str, Union[Tuple[Any, int], Tuple[Any, + # Union[int, Sequence[int]]], List[Any], _DTypeDict, Tuple[Any, Any]]]" + data = np.array([], dtype=dtype) # type: ignore[arg-type] + + try: + data = sanitize_array(data, index=None) + except ValueError: + # NumPy may raise a ValueError on data like [1, []] + # we retry with object dtype here. + if dtype is None: + dtype = np.dtype(object) + data = np.atleast_1d(np.asarray(data, dtype=dtype)) + else: + raise + + if copy: + # TODO: avoid double copy when dtype forces cast. + data = data.copy() + + if fill_value is None: + fill_value_dtype = data.dtype if dtype is None else dtype + if fill_value_dtype is None: + fill_value = np.nan + else: + fill_value = na_value_for_dtype(fill_value_dtype) + + if isinstance(data, type(self)) and sparse_index is None: + sparse_index = data._sparse_index + # error: Argument "dtype" to "asarray" has incompatible type + # "Union[ExtensionDtype, dtype[Any], None]"; expected "None" + sparse_values = np.asarray( + data.sp_values, dtype=dtype # type: ignore[arg-type] + ) + elif sparse_index is None: + data = extract_array(data, extract_numpy=True) + if not isinstance(data, np.ndarray): + # EA + if isinstance(data.dtype, DatetimeTZDtype): + warnings.warn( + f"Creating SparseArray from {data.dtype} data " + "loses timezone information. Cast to object before " + "sparse to retain timezone information.", + UserWarning, + stacklevel=find_stack_level(), + ) + data = np.asarray(data, dtype="datetime64[ns]") + if fill_value is NaT: + fill_value = np.datetime64("NaT", "ns") + data = np.asarray(data) + sparse_values, sparse_index, fill_value = _make_sparse( + # error: Argument "dtype" to "_make_sparse" has incompatible type + # "Union[ExtensionDtype, dtype[Any], None]"; expected + # "Optional[dtype[Any]]" + data, + kind=kind, + fill_value=fill_value, + dtype=dtype, # type: ignore[arg-type] + ) + else: + # error: Argument "dtype" to "asarray" has incompatible type + # "Union[ExtensionDtype, dtype[Any], None]"; expected "None" + sparse_values = np.asarray(data, dtype=dtype) # type: ignore[arg-type] + if len(sparse_values) != sparse_index.npoints: + raise AssertionError( + f"Non array-like type {type(sparse_values)} must " + "have the same length as the index" + ) + self._sparse_index = sparse_index + self._sparse_values = sparse_values + self._dtype = SparseDtype(sparse_values.dtype, fill_value) + + @classmethod + def _simple_new( + cls, + sparse_array: np.ndarray, + sparse_index: SparseIndex, + dtype: SparseDtype, + ) -> Self: + new = object.__new__(cls) + new._sparse_index = sparse_index + new._sparse_values = sparse_array + new._dtype = dtype + return new + + @classmethod + def from_spmatrix(cls, data: spmatrix) -> Self: + """ + Create a SparseArray from a scipy.sparse matrix. + + Parameters + ---------- + data : scipy.sparse.sp_matrix + This should be a SciPy sparse matrix where the size + of the second dimension is 1. In other words, a + sparse matrix with a single column. + + Returns + ------- + SparseArray + + Examples + -------- + >>> import scipy.sparse + >>> mat = scipy.sparse.coo_matrix((4, 1)) + >>> pd.arrays.SparseArray.from_spmatrix(mat) + [0.0, 0.0, 0.0, 0.0] + Fill: 0.0 + IntIndex + Indices: array([], dtype=int32) + """ + length, ncol = data.shape + + if ncol != 1: + raise ValueError(f"'data' must have a single column, not '{ncol}'") + + # our sparse index classes require that the positions be strictly + # increasing. So we need to sort loc, and arr accordingly. + data = data.tocsc() + data.sort_indices() + arr = data.data + idx = data.indices + + zero = np.array(0, dtype=arr.dtype).item() + dtype = SparseDtype(arr.dtype, zero) + index = IntIndex(length, idx) + + return cls._simple_new(arr, index, dtype) + + def __array__( + self, dtype: NpDtype | None = None, copy: bool | None = None + ) -> np.ndarray: + if self.sp_index.ngaps == 0: + # Compat for na dtype and int values. + if copy is True: + return np.array(self.sp_values) + else: + return self.sp_values + + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + fill_value = self.fill_value + + if dtype is None: + # Can NumPy represent this type? + # If not, `np.result_type` will raise. We catch that + # and return object. + if self.sp_values.dtype.kind == "M": + # However, we *do* special-case the common case of + # a datetime64 with pandas NaT. + if fill_value is NaT: + # Can't put pd.NaT in a datetime64[ns] + fill_value = np.datetime64("NaT") + try: + dtype = np.result_type(self.sp_values.dtype, type(fill_value)) + except TypeError: + dtype = object + + out = np.full(self.shape, fill_value, dtype=dtype) + out[self.sp_index.indices] = self.sp_values + return out + + def __setitem__(self, key, value) -> None: + # I suppose we could allow setting of non-fill_value elements. + # TODO(SparseArray.__setitem__): remove special cases in + # ExtensionBlock.where + msg = "SparseArray does not support item assignment via setitem" + raise TypeError(msg) + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy: bool = False): + return cls(scalars, dtype=dtype) + + @classmethod + def _from_factorized(cls, values, original): + return cls(values, dtype=original.dtype) + + # ------------------------------------------------------------------------ + # Data + # ------------------------------------------------------------------------ + @property + def sp_index(self) -> SparseIndex: + """ + The SparseIndex containing the location of non- ``fill_value`` points. + """ + return self._sparse_index + + @property + def sp_values(self) -> np.ndarray: + """ + An ndarray containing the non- ``fill_value`` values. + + Examples + -------- + >>> from pandas.arrays import SparseArray + >>> s = SparseArray([0, 0, 1, 0, 2], fill_value=0) + >>> s.sp_values + array([1, 2]) + """ + return self._sparse_values + + @property + def dtype(self) -> SparseDtype: + return self._dtype + + @property + def fill_value(self): + """ + Elements in `data` that are `fill_value` are not stored. + + For memory savings, this should be the most common value in the array. + + Examples + -------- + >>> ser = pd.Series([0, 0, 2, 2, 2], dtype="Sparse[int]") + >>> ser.sparse.fill_value + 0 + >>> spa_dtype = pd.SparseDtype(dtype=np.int32, fill_value=2) + >>> ser = pd.Series([0, 0, 2, 2, 2], dtype=spa_dtype) + >>> ser.sparse.fill_value + 2 + """ + return self.dtype.fill_value + + @fill_value.setter + def fill_value(self, value) -> None: + self._dtype = SparseDtype(self.dtype.subtype, value) + + @property + def kind(self) -> SparseIndexKind: + """ + The kind of sparse index for this array. One of {'integer', 'block'}. + """ + if isinstance(self.sp_index, IntIndex): + return "integer" + else: + return "block" + + @property + def _valid_sp_values(self) -> np.ndarray: + sp_vals = self.sp_values + mask = notna(sp_vals) + return sp_vals[mask] + + def __len__(self) -> int: + return self.sp_index.length + + @property + def _null_fill_value(self) -> bool: + return self._dtype._is_na_fill_value + + def _fill_value_matches(self, fill_value) -> bool: + if self._null_fill_value: + return isna(fill_value) + else: + return self.fill_value == fill_value + + @property + def nbytes(self) -> int: + return self.sp_values.nbytes + self.sp_index.nbytes + + @property + def density(self) -> float: + """ + The percent of non- ``fill_value`` points, as decimal. + + Examples + -------- + >>> from pandas.arrays import SparseArray + >>> s = SparseArray([0, 0, 1, 1, 1], fill_value=0) + >>> s.density + 0.6 + """ + return self.sp_index.npoints / self.sp_index.length + + @property + def npoints(self) -> int: + """ + The number of non- ``fill_value`` points. + + Examples + -------- + >>> from pandas.arrays import SparseArray + >>> s = SparseArray([0, 0, 1, 1, 1], fill_value=0) + >>> s.npoints + 3 + """ + return self.sp_index.npoints + + # error: Return type "SparseArray" of "isna" incompatible with return type + # "ndarray[Any, Any] | ExtensionArraySupportsAnyAll" in supertype "ExtensionArray" + def isna(self) -> Self: # type: ignore[override] + # If null fill value, we want SparseDtype[bool, true] + # to preserve the same memory usage. + dtype = SparseDtype(bool, self._null_fill_value) + if self._null_fill_value: + return type(self)._simple_new(isna(self.sp_values), self.sp_index, dtype) + mask = np.full(len(self), False, dtype=np.bool_) + mask[self.sp_index.indices] = isna(self.sp_values) + return type(self)(mask, fill_value=False, dtype=dtype) + + def _pad_or_backfill( # pylint: disable=useless-parent-delegation + self, + *, + method: FillnaOptions, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + copy: bool = True, + ) -> Self: + # TODO(3.0): We can remove this method once deprecation for fillna method + # keyword is enforced. + return super()._pad_or_backfill( + method=method, limit=limit, limit_area=limit_area, copy=copy + ) + + def fillna( + self, + value=None, + method: FillnaOptions | None = None, + limit: int | None = None, + copy: bool = True, + ) -> Self: + """ + Fill missing values with `value`. + + Parameters + ---------- + value : scalar, optional + method : str, optional + + .. warning:: + + Using 'method' will result in high memory use, + as all `fill_value` methods will be converted to + an in-memory ndarray + + limit : int, optional + + copy: bool, default True + Ignored for SparseArray. + + Returns + ------- + SparseArray + + Notes + ----- + When `value` is specified, the result's ``fill_value`` depends on + ``self.fill_value``. The goal is to maintain low-memory use. + + If ``self.fill_value`` is NA, the result dtype will be + ``SparseDtype(self.dtype, fill_value=value)``. This will preserve + amount of memory used before and after filling. + + When ``self.fill_value`` is not NA, the result dtype will be + ``self.dtype``. Again, this preserves the amount of memory used. + """ + if (method is None and value is None) or ( + method is not None and value is not None + ): + raise ValueError("Must specify one of 'method' or 'value'.") + + if method is not None: + return super().fillna(method=method, limit=limit) + + else: + new_values = np.where(isna(self.sp_values), value, self.sp_values) + + if self._null_fill_value: + # This is essentially just updating the dtype. + new_dtype = SparseDtype(self.dtype.subtype, fill_value=value) + else: + new_dtype = self.dtype + + return self._simple_new(new_values, self._sparse_index, new_dtype) + + def shift(self, periods: int = 1, fill_value=None) -> Self: + if not len(self) or periods == 0: + return self.copy() + + if isna(fill_value): + fill_value = self.dtype.na_value + + subtype = np.result_type(fill_value, self.dtype.subtype) + + if subtype != self.dtype.subtype: + # just coerce up front + arr = self.astype(SparseDtype(subtype, self.fill_value)) + else: + arr = self + + empty = self._from_sequence( + [fill_value] * min(abs(periods), len(self)), dtype=arr.dtype + ) + + if periods > 0: + a = empty + b = arr[:-periods] + else: + a = arr[abs(periods) :] + b = empty + return arr._concat_same_type([a, b]) + + def _first_fill_value_loc(self): + """ + Get the location of the first fill value. + + Returns + ------- + int + """ + if len(self) == 0 or self.sp_index.npoints == len(self): + return -1 + + indices = self.sp_index.indices + if not len(indices) or indices[0] > 0: + return 0 + + # a number larger than 1 should be appended to + # the last in case of fill value only appears + # in the tail of array + diff = np.r_[np.diff(indices), 2] + return indices[(diff > 1).argmax()] + 1 + + @doc(ExtensionArray.duplicated) + def duplicated( + self, keep: Literal["first", "last", False] = "first" + ) -> npt.NDArray[np.bool_]: + values = np.asarray(self) + mask = np.asarray(self.isna()) + return algos.duplicated(values, keep=keep, mask=mask) + + def unique(self) -> Self: + uniques = algos.unique(self.sp_values) + if len(self.sp_values) != len(self): + fill_loc = self._first_fill_value_loc() + # Inorder to align the behavior of pd.unique or + # pd.Series.unique, we should keep the original + # order, here we use unique again to find the + # insertion place. Since the length of sp_values + # is not large, maybe minor performance hurt + # is worthwhile to the correctness. + insert_loc = len(algos.unique(self.sp_values[:fill_loc])) + uniques = np.insert(uniques, insert_loc, self.fill_value) + return type(self)._from_sequence(uniques, dtype=self.dtype) + + def _values_for_factorize(self): + # Still override this for hash_pandas_object + return np.asarray(self), self.fill_value + + def factorize( + self, + use_na_sentinel: bool = True, + ) -> tuple[np.ndarray, SparseArray]: + # Currently, ExtensionArray.factorize -> Tuple[ndarray, EA] + # The sparsity on this is backwards from what Sparse would want. Want + # ExtensionArray.factorize -> Tuple[EA, EA] + # Given that we have to return a dense array of codes, why bother + # implementing an efficient factorize? + codes, uniques = algos.factorize( + np.asarray(self), use_na_sentinel=use_na_sentinel + ) + uniques_sp = SparseArray(uniques, dtype=self.dtype) + return codes, uniques_sp + + def value_counts(self, dropna: bool = True) -> Series: + """ + Returns a Series containing counts of unique values. + + Parameters + ---------- + dropna : bool, default True + Don't include counts of NaN, even if NaN is in sp_values. + + Returns + ------- + counts : Series + """ + from pandas import ( + Index, + Series, + ) + + keys, counts, _ = algos.value_counts_arraylike(self.sp_values, dropna=dropna) + fcounts = self.sp_index.ngaps + if fcounts > 0 and (not self._null_fill_value or not dropna): + mask = isna(keys) if self._null_fill_value else keys == self.fill_value + if mask.any(): + counts[mask] += fcounts + else: + # error: Argument 1 to "insert" has incompatible type "Union[ + # ExtensionArray,ndarray[Any, Any]]"; expected "Union[ + # _SupportsArray[dtype[Any]], Sequence[_SupportsArray[dtype + # [Any]]], Sequence[Sequence[_SupportsArray[dtype[Any]]]], + # Sequence[Sequence[Sequence[_SupportsArray[dtype[Any]]]]], Sequence + # [Sequence[Sequence[Sequence[_SupportsArray[dtype[Any]]]]]]]" + keys = np.insert(keys, 0, self.fill_value) # type: ignore[arg-type] + counts = np.insert(counts, 0, fcounts) + + if not isinstance(keys, ABCIndex): + index = Index(keys) + else: + index = keys + return Series(counts, index=index, copy=False) + + # -------- + # Indexing + # -------- + @overload + def __getitem__(self, key: ScalarIndexer) -> Any: + ... + + @overload + def __getitem__( + self, + key: SequenceIndexer | tuple[int | ellipsis, ...], + ) -> Self: + ... + + def __getitem__( + self, + key: PositionalIndexer | tuple[int | ellipsis, ...], + ) -> Self | Any: + if isinstance(key, tuple): + key = unpack_tuple_and_ellipses(key) + if key is Ellipsis: + raise ValueError("Cannot slice with Ellipsis") + + if is_integer(key): + return self._get_val_at(key) + elif isinstance(key, tuple): + # error: Invalid index type "Tuple[Union[int, ellipsis], ...]" + # for "ndarray[Any, Any]"; expected type + # "Union[SupportsIndex, _SupportsArray[dtype[Union[bool_, + # integer[Any]]]], _NestedSequence[_SupportsArray[dtype[ + # Union[bool_, integer[Any]]]]], _NestedSequence[Union[ + # bool, int]], Tuple[Union[SupportsIndex, _SupportsArray[ + # dtype[Union[bool_, integer[Any]]]], _NestedSequence[ + # _SupportsArray[dtype[Union[bool_, integer[Any]]]]], + # _NestedSequence[Union[bool, int]]], ...]]" + data_slice = self.to_dense()[key] # type: ignore[index] + elif isinstance(key, slice): + # Avoid densifying when handling contiguous slices + if key.step is None or key.step == 1: + start = 0 if key.start is None else key.start + if start < 0: + start += len(self) + + end = len(self) if key.stop is None else key.stop + if end < 0: + end += len(self) + + indices = self.sp_index.indices + keep_inds = np.flatnonzero((indices >= start) & (indices < end)) + sp_vals = self.sp_values[keep_inds] + + sp_index = indices[keep_inds].copy() + + # If we've sliced to not include the start of the array, all our indices + # should be shifted. NB: here we are careful to also not shift by a + # negative value for a case like [0, 1][-100:] where the start index + # should be treated like 0 + if start > 0: + sp_index -= start + + # Length of our result should match applying this slice to a range + # of the length of our original array + new_len = len(range(len(self))[key]) + new_sp_index = make_sparse_index(new_len, sp_index, self.kind) + return type(self)._simple_new(sp_vals, new_sp_index, self.dtype) + else: + indices = np.arange(len(self), dtype=np.int32)[key] + return self.take(indices) + + elif not is_list_like(key): + # e.g. "foo" or 2.5 + # exception message copied from numpy + raise IndexError( + r"only integers, slices (`:`), ellipsis (`...`), numpy.newaxis " + r"(`None`) and integer or boolean arrays are valid indices" + ) + + else: + if isinstance(key, SparseArray): + # NOTE: If we guarantee that SparseDType(bool) + # has only fill_value - true, false or nan + # (see GH PR 44955) + # we can apply mask very fast: + if is_bool_dtype(key): + if isna(key.fill_value): + return self.take(key.sp_index.indices[key.sp_values]) + if not key.fill_value: + return self.take(key.sp_index.indices) + n = len(self) + mask = np.full(n, True, dtype=np.bool_) + mask[key.sp_index.indices] = False + return self.take(np.arange(n)[mask]) + else: + key = np.asarray(key) + + key = check_array_indexer(self, key) + + if com.is_bool_indexer(key): + # mypy doesn't know we have an array here + key = cast(np.ndarray, key) + return self.take(np.arange(len(key), dtype=np.int32)[key]) + elif hasattr(key, "__len__"): + return self.take(key) + else: + raise ValueError(f"Cannot slice with '{key}'") + + return type(self)(data_slice, kind=self.kind) + + def _get_val_at(self, loc): + loc = validate_insert_loc(loc, len(self)) + + sp_loc = self.sp_index.lookup(loc) + if sp_loc == -1: + return self.fill_value + else: + val = self.sp_values[sp_loc] + val = maybe_box_datetimelike(val, self.sp_values.dtype) + return val + + def take(self, indices, *, allow_fill: bool = False, fill_value=None) -> Self: + if is_scalar(indices): + raise ValueError(f"'indices' must be an array, not a scalar '{indices}'.") + indices = np.asarray(indices, dtype=np.int32) + + dtype = None + if indices.size == 0: + result = np.array([], dtype="object") + dtype = self.dtype + elif allow_fill: + result = self._take_with_fill(indices, fill_value=fill_value) + else: + return self._take_without_fill(indices) + + return type(self)( + result, fill_value=self.fill_value, kind=self.kind, dtype=dtype + ) + + def _take_with_fill(self, indices, fill_value=None) -> np.ndarray: + if fill_value is None: + fill_value = self.dtype.na_value + + if indices.min() < -1: + raise ValueError( + "Invalid value in 'indices'. Must be between -1 " + "and the length of the array." + ) + + if indices.max() >= len(self): + raise IndexError("out of bounds value in 'indices'.") + + if len(self) == 0: + # Empty... Allow taking only if all empty + if (indices == -1).all(): + dtype = np.result_type(self.sp_values, type(fill_value)) + taken = np.empty_like(indices, dtype=dtype) + taken.fill(fill_value) + return taken + else: + raise IndexError("cannot do a non-empty take from an empty axes.") + + # sp_indexer may be -1 for two reasons + # 1.) we took for an index of -1 (new) + # 2.) we took a value that was self.fill_value (old) + sp_indexer = self.sp_index.lookup_array(indices) + new_fill_indices = indices == -1 + old_fill_indices = (sp_indexer == -1) & ~new_fill_indices + + if self.sp_index.npoints == 0 and old_fill_indices.all(): + # We've looked up all valid points on an all-sparse array. + taken = np.full( + sp_indexer.shape, fill_value=self.fill_value, dtype=self.dtype.subtype + ) + + elif self.sp_index.npoints == 0: + # Use the old fill_value unless we took for an index of -1 + _dtype = np.result_type(self.dtype.subtype, type(fill_value)) + taken = np.full(sp_indexer.shape, fill_value=fill_value, dtype=_dtype) + taken[old_fill_indices] = self.fill_value + else: + taken = self.sp_values.take(sp_indexer) + + # Fill in two steps. + # Old fill values + # New fill values + # potentially coercing to a new dtype at each stage. + + m0 = sp_indexer[old_fill_indices] < 0 + m1 = sp_indexer[new_fill_indices] < 0 + + result_type = taken.dtype + + if m0.any(): + result_type = np.result_type(result_type, type(self.fill_value)) + taken = taken.astype(result_type) + taken[old_fill_indices] = self.fill_value + + if m1.any(): + result_type = np.result_type(result_type, type(fill_value)) + taken = taken.astype(result_type) + taken[new_fill_indices] = fill_value + + return taken + + def _take_without_fill(self, indices) -> Self: + to_shift = indices < 0 + + n = len(self) + + if (indices.max() >= n) or (indices.min() < -n): + if n == 0: + raise IndexError("cannot do a non-empty take from an empty axes.") + raise IndexError("out of bounds value in 'indices'.") + + if to_shift.any(): + indices = indices.copy() + indices[to_shift] += n + + sp_indexer = self.sp_index.lookup_array(indices) + value_mask = sp_indexer != -1 + new_sp_values = self.sp_values[sp_indexer[value_mask]] + + value_indices = np.flatnonzero(value_mask).astype(np.int32, copy=False) + + new_sp_index = make_sparse_index(len(indices), value_indices, kind=self.kind) + return type(self)._simple_new(new_sp_values, new_sp_index, dtype=self.dtype) + + def searchsorted( + self, + v: ArrayLike | object, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + msg = "searchsorted requires high memory usage." + warnings.warn(msg, PerformanceWarning, stacklevel=find_stack_level()) + v = np.asarray(v) + return np.asarray(self, dtype=self.dtype.subtype).searchsorted(v, side, sorter) + + def copy(self) -> Self: + values = self.sp_values.copy() + return self._simple_new(values, self.sp_index, self.dtype) + + @classmethod + def _concat_same_type(cls, to_concat: Sequence[Self]) -> Self: + fill_value = to_concat[0].fill_value + + values = [] + length = 0 + + if to_concat: + sp_kind = to_concat[0].kind + else: + sp_kind = "integer" + + sp_index: SparseIndex + if sp_kind == "integer": + indices = [] + + for arr in to_concat: + int_idx = arr.sp_index.indices.copy() + int_idx += length # TODO: wraparound + length += arr.sp_index.length + + values.append(arr.sp_values) + indices.append(int_idx) + + data = np.concatenate(values) + indices_arr = np.concatenate(indices) + # error: Argument 2 to "IntIndex" has incompatible type + # "ndarray[Any, dtype[signedinteger[_32Bit]]]"; + # expected "Sequence[int]" + sp_index = IntIndex(length, indices_arr) # type: ignore[arg-type] + + else: + # when concatenating block indices, we don't claim that you'll + # get an identical index as concatenating the values and then + # creating a new index. We don't want to spend the time trying + # to merge blocks across arrays in `to_concat`, so the resulting + # BlockIndex may have more blocks. + blengths = [] + blocs = [] + + for arr in to_concat: + block_idx = arr.sp_index.to_block_index() + + values.append(arr.sp_values) + blocs.append(block_idx.blocs.copy() + length) + blengths.append(block_idx.blengths) + length += arr.sp_index.length + + data = np.concatenate(values) + blocs_arr = np.concatenate(blocs) + blengths_arr = np.concatenate(blengths) + + sp_index = BlockIndex(length, blocs_arr, blengths_arr) + + return cls(data, sparse_index=sp_index, fill_value=fill_value) + + def astype(self, dtype: AstypeArg | None = None, copy: bool = True): + """ + Change the dtype of a SparseArray. + + The output will always be a SparseArray. To convert to a dense + ndarray with a certain dtype, use :meth:`numpy.asarray`. + + Parameters + ---------- + dtype : np.dtype or ExtensionDtype + For SparseDtype, this changes the dtype of + ``self.sp_values`` and the ``self.fill_value``. + + For other dtypes, this only changes the dtype of + ``self.sp_values``. + + copy : bool, default True + Whether to ensure a copy is made, even if not necessary. + + Returns + ------- + SparseArray + + Examples + -------- + >>> arr = pd.arrays.SparseArray([0, 0, 1, 2]) + >>> arr + [0, 0, 1, 2] + Fill: 0 + IntIndex + Indices: array([2, 3], dtype=int32) + + >>> arr.astype(SparseDtype(np.dtype('int32'))) + [0, 0, 1, 2] + Fill: 0 + IntIndex + Indices: array([2, 3], dtype=int32) + + Using a NumPy dtype with a different kind (e.g. float) will coerce + just ``self.sp_values``. + + >>> arr.astype(SparseDtype(np.dtype('float64'))) + ... # doctest: +NORMALIZE_WHITESPACE + [nan, nan, 1.0, 2.0] + Fill: nan + IntIndex + Indices: array([2, 3], dtype=int32) + + Using a SparseDtype, you can also change the fill value as well. + + >>> arr.astype(SparseDtype("float64", fill_value=0.0)) + ... # doctest: +NORMALIZE_WHITESPACE + [0.0, 0.0, 1.0, 2.0] + Fill: 0.0 + IntIndex + Indices: array([2, 3], dtype=int32) + """ + if dtype == self._dtype: + if not copy: + return self + else: + return self.copy() + + future_dtype = pandas_dtype(dtype) + if not isinstance(future_dtype, SparseDtype): + # GH#34457 + values = np.asarray(self) + values = ensure_wrapped_if_datetimelike(values) + return astype_array(values, dtype=future_dtype, copy=False) + + dtype = self.dtype.update_dtype(dtype) + subtype = pandas_dtype(dtype._subtype_with_str) + subtype = cast(np.dtype, subtype) # ensured by update_dtype + values = ensure_wrapped_if_datetimelike(self.sp_values) + sp_values = astype_array(values, subtype, copy=copy) + sp_values = np.asarray(sp_values) + + return self._simple_new(sp_values, self.sp_index, dtype) + + def map(self, mapper, na_action=None) -> Self: + """ + Map categories using an input mapping or function. + + Parameters + ---------- + mapper : dict, Series, callable + The correspondence from old values to new. + na_action : {None, 'ignore'}, default None + If 'ignore', propagate NA values, without passing them to the + mapping correspondence. + + Returns + ------- + SparseArray + The output array will have the same density as the input. + The output fill value will be the result of applying the + mapping to ``self.fill_value`` + + Examples + -------- + >>> arr = pd.arrays.SparseArray([0, 1, 2]) + >>> arr.map(lambda x: x + 10) + [10, 11, 12] + Fill: 10 + IntIndex + Indices: array([1, 2], dtype=int32) + + >>> arr.map({0: 10, 1: 11, 2: 12}) + [10, 11, 12] + Fill: 10 + IntIndex + Indices: array([1, 2], dtype=int32) + + >>> arr.map(pd.Series([10, 11, 12], index=[0, 1, 2])) + [10, 11, 12] + Fill: 10 + IntIndex + Indices: array([1, 2], dtype=int32) + """ + is_map = isinstance(mapper, (abc.Mapping, ABCSeries)) + + fill_val = self.fill_value + + if na_action is None or notna(fill_val): + fill_val = mapper.get(fill_val, fill_val) if is_map else mapper(fill_val) + + def func(sp_val): + new_sp_val = mapper.get(sp_val, None) if is_map else mapper(sp_val) + # check identity and equality because nans are not equal to each other + if new_sp_val is fill_val or new_sp_val == fill_val: + msg = "fill value in the sparse values not supported" + raise ValueError(msg) + return new_sp_val + + sp_values = [func(x) for x in self.sp_values] + + return type(self)(sp_values, sparse_index=self.sp_index, fill_value=fill_val) + + def to_dense(self) -> np.ndarray: + """ + Convert SparseArray to a NumPy array. + + Returns + ------- + arr : NumPy array + """ + return np.asarray(self, dtype=self.sp_values.dtype) + + def _where(self, mask, value): + # NB: may not preserve dtype, e.g. result may be Sparse[float64] + # while self is Sparse[int64] + naive_implementation = np.where(mask, self, value) + dtype = SparseDtype(naive_implementation.dtype, fill_value=self.fill_value) + result = type(self)._from_sequence(naive_implementation, dtype=dtype) + return result + + # ------------------------------------------------------------------------ + # IO + # ------------------------------------------------------------------------ + def __setstate__(self, state) -> None: + """Necessary for making this object picklable""" + if isinstance(state, tuple): + # Compat for pandas < 0.24.0 + nd_state, (fill_value, sp_index) = state + sparse_values = np.array([]) + sparse_values.__setstate__(nd_state) + + self._sparse_values = sparse_values + self._sparse_index = sp_index + self._dtype = SparseDtype(sparse_values.dtype, fill_value) + else: + self.__dict__.update(state) + + def nonzero(self) -> tuple[npt.NDArray[np.int32]]: + if self.fill_value == 0: + return (self.sp_index.indices,) + else: + return (self.sp_index.indices[self.sp_values != 0],) + + # ------------------------------------------------------------------------ + # Reductions + # ------------------------------------------------------------------------ + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + method = getattr(self, name, None) + + if method is None: + raise TypeError(f"cannot perform {name} with type {self.dtype}") + + if skipna: + arr = self + else: + arr = self.dropna() + + result = getattr(arr, name)(**kwargs) + + if keepdims: + return type(self)([result], dtype=self.dtype) + else: + return result + + def all(self, axis=None, *args, **kwargs): + """ + Tests whether all elements evaluate True + + Returns + ------- + all : bool + + See Also + -------- + numpy.all + """ + nv.validate_all(args, kwargs) + + values = self.sp_values + + if len(values) != len(self) and not np.all(self.fill_value): + return False + + return values.all() + + def any(self, axis: AxisInt = 0, *args, **kwargs) -> bool: + """ + Tests whether at least one of elements evaluate True + + Returns + ------- + any : bool + + See Also + -------- + numpy.any + """ + nv.validate_any(args, kwargs) + + values = self.sp_values + + if len(values) != len(self) and np.any(self.fill_value): + return True + + return values.any().item() + + def sum( + self, + axis: AxisInt = 0, + min_count: int = 0, + skipna: bool = True, + *args, + **kwargs, + ) -> Scalar: + """ + Sum of non-NA/null values + + Parameters + ---------- + axis : int, default 0 + Not Used. NumPy compatibility. + min_count : int, default 0 + The required number of valid values to perform the summation. If fewer + than ``min_count`` valid values are present, the result will be the missing + value indicator for subarray type. + *args, **kwargs + Not Used. NumPy compatibility. + + Returns + ------- + scalar + """ + nv.validate_sum(args, kwargs) + valid_vals = self._valid_sp_values + sp_sum = valid_vals.sum() + has_na = self.sp_index.ngaps > 0 and not self._null_fill_value + + if has_na and not skipna: + return na_value_for_dtype(self.dtype.subtype, compat=False) + + if self._null_fill_value: + if check_below_min_count(valid_vals.shape, None, min_count): + return na_value_for_dtype(self.dtype.subtype, compat=False) + return sp_sum + else: + nsparse = self.sp_index.ngaps + if check_below_min_count(valid_vals.shape, None, min_count - nsparse): + return na_value_for_dtype(self.dtype.subtype, compat=False) + return sp_sum + self.fill_value * nsparse + + def cumsum(self, axis: AxisInt = 0, *args, **kwargs) -> SparseArray: + """ + Cumulative sum of non-NA/null values. + + When performing the cumulative summation, any non-NA/null values will + be skipped. The resulting SparseArray will preserve the locations of + NaN values, but the fill value will be `np.nan` regardless. + + Parameters + ---------- + axis : int or None + Axis over which to perform the cumulative summation. If None, + perform cumulative summation over flattened array. + + Returns + ------- + cumsum : SparseArray + """ + nv.validate_cumsum(args, kwargs) + + if axis is not None and axis >= self.ndim: # Mimic ndarray behaviour. + raise ValueError(f"axis(={axis}) out of bounds") + + if not self._null_fill_value: + return SparseArray(self.to_dense()).cumsum() + + return SparseArray( + self.sp_values.cumsum(), + sparse_index=self.sp_index, + fill_value=self.fill_value, + ) + + def mean(self, axis: Axis = 0, *args, **kwargs): + """ + Mean of non-NA/null values + + Returns + ------- + mean : float + """ + nv.validate_mean(args, kwargs) + valid_vals = self._valid_sp_values + sp_sum = valid_vals.sum() + ct = len(valid_vals) + + if self._null_fill_value: + return sp_sum / ct + else: + nsparse = self.sp_index.ngaps + return (sp_sum + self.fill_value * nsparse) / (ct + nsparse) + + def max(self, *, axis: AxisInt | None = None, skipna: bool = True): + """ + Max of array values, ignoring NA values if specified. + + Parameters + ---------- + axis : int, default 0 + Not Used. NumPy compatibility. + skipna : bool, default True + Whether to ignore NA values. + + Returns + ------- + scalar + """ + nv.validate_minmax_axis(axis, self.ndim) + return self._min_max("max", skipna=skipna) + + def min(self, *, axis: AxisInt | None = None, skipna: bool = True): + """ + Min of array values, ignoring NA values if specified. + + Parameters + ---------- + axis : int, default 0 + Not Used. NumPy compatibility. + skipna : bool, default True + Whether to ignore NA values. + + Returns + ------- + scalar + """ + nv.validate_minmax_axis(axis, self.ndim) + return self._min_max("min", skipna=skipna) + + def _min_max(self, kind: Literal["min", "max"], skipna: bool) -> Scalar: + """ + Min/max of non-NA/null values + + Parameters + ---------- + kind : {"min", "max"} + skipna : bool + + Returns + ------- + scalar + """ + valid_vals = self._valid_sp_values + has_nonnull_fill_vals = not self._null_fill_value and self.sp_index.ngaps > 0 + + if len(valid_vals) > 0: + sp_min_max = getattr(valid_vals, kind)() + + # If a non-null fill value is currently present, it might be the min/max + if has_nonnull_fill_vals: + func = max if kind == "max" else min + return func(sp_min_max, self.fill_value) + elif skipna: + return sp_min_max + elif self.sp_index.ngaps == 0: + # No NAs present + return sp_min_max + else: + return na_value_for_dtype(self.dtype.subtype, compat=False) + elif has_nonnull_fill_vals: + return self.fill_value + else: + return na_value_for_dtype(self.dtype.subtype, compat=False) + + def _argmin_argmax(self, kind: Literal["argmin", "argmax"]) -> int: + values = self._sparse_values + index = self._sparse_index.indices + mask = np.asarray(isna(values)) + func = np.argmax if kind == "argmax" else np.argmin + + idx = np.arange(values.shape[0]) + non_nans = values[~mask] + non_nan_idx = idx[~mask] + + _candidate = non_nan_idx[func(non_nans)] + candidate = index[_candidate] + + if isna(self.fill_value): + return candidate + if kind == "argmin" and self[candidate] < self.fill_value: + return candidate + if kind == "argmax" and self[candidate] > self.fill_value: + return candidate + _loc = self._first_fill_value_loc() + if _loc == -1: + # fill_value doesn't exist + return candidate + else: + return _loc + + def argmax(self, skipna: bool = True) -> int: + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return self._argmin_argmax("argmax") + + def argmin(self, skipna: bool = True) -> int: + validate_bool_kwarg(skipna, "skipna") + if not skipna and self._hasna: + raise NotImplementedError + return self._argmin_argmax("argmin") + + # ------------------------------------------------------------------------ + # Ufuncs + # ------------------------------------------------------------------------ + + _HANDLED_TYPES = (np.ndarray, numbers.Number) + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + out = kwargs.get("out", ()) + + for x in inputs + out: + if not isinstance(x, self._HANDLED_TYPES + (SparseArray,)): + return NotImplemented + + # for binary ops, use our custom dunder methods + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + # e.g. tests.arrays.sparse.test_arithmetics.test_ndarray_inplace + res = arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + return res + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + # e.g. tests.series.test_ufunc.TestNumpyReductions + return result + + if len(inputs) == 1: + # No alignment necessary. + sp_values = getattr(ufunc, method)(self.sp_values, **kwargs) + fill_value = getattr(ufunc, method)(self.fill_value, **kwargs) + + if ufunc.nout > 1: + # multiple outputs. e.g. modf + arrays = tuple( + self._simple_new( + sp_value, self.sp_index, SparseDtype(sp_value.dtype, fv) + ) + for sp_value, fv in zip(sp_values, fill_value) + ) + return arrays + elif method == "reduce": + # e.g. reductions + return sp_values + + return self._simple_new( + sp_values, self.sp_index, SparseDtype(sp_values.dtype, fill_value) + ) + + new_inputs = tuple(np.asarray(x) for x in inputs) + result = getattr(ufunc, method)(*new_inputs, **kwargs) + if out: + if len(out) == 1: + out = out[0] + return out + + if ufunc.nout > 1: + return tuple(type(self)(x) for x in result) + elif method == "at": + # no return value + return None + else: + return type(self)(result) + + # ------------------------------------------------------------------------ + # Ops + # ------------------------------------------------------------------------ + + def _arith_method(self, other, op): + op_name = op.__name__ + + if isinstance(other, SparseArray): + return _sparse_array_op(self, other, op, op_name) + + elif is_scalar(other): + with np.errstate(all="ignore"): + fill = op(_get_fill(self), np.asarray(other)) + result = op(self.sp_values, other) + + if op_name == "divmod": + left, right = result + lfill, rfill = fill + return ( + _wrap_result(op_name, left, self.sp_index, lfill), + _wrap_result(op_name, right, self.sp_index, rfill), + ) + + return _wrap_result(op_name, result, self.sp_index, fill) + + else: + other = np.asarray(other) + with np.errstate(all="ignore"): + if len(self) != len(other): + raise AssertionError( + f"length mismatch: {len(self)} vs. {len(other)}" + ) + if not isinstance(other, SparseArray): + dtype = getattr(other, "dtype", None) + other = SparseArray(other, fill_value=self.fill_value, dtype=dtype) + return _sparse_array_op(self, other, op, op_name) + + def _cmp_method(self, other, op) -> SparseArray: + if not is_scalar(other) and not isinstance(other, type(self)): + # convert list-like to ndarray + other = np.asarray(other) + + if isinstance(other, np.ndarray): + # TODO: make this more flexible than just ndarray... + other = SparseArray(other, fill_value=self.fill_value) + + if isinstance(other, SparseArray): + if len(self) != len(other): + raise ValueError( + f"operands have mismatched length {len(self)} and {len(other)}" + ) + + op_name = op.__name__.strip("_") + return _sparse_array_op(self, other, op, op_name) + else: + # scalar + fill_value = op(self.fill_value, other) + result = np.full(len(self), fill_value, dtype=np.bool_) + result[self.sp_index.indices] = op(self.sp_values, other) + + return type(self)( + result, + fill_value=fill_value, + dtype=np.bool_, + ) + + _logical_method = _cmp_method + + def _unary_method(self, op) -> SparseArray: + fill_value = op(np.array(self.fill_value)).item() + dtype = SparseDtype(self.dtype.subtype, fill_value) + # NOTE: if fill_value doesn't change + # we just have to apply op to sp_values + if isna(self.fill_value) or fill_value == self.fill_value: + values = op(self.sp_values) + return type(self)._simple_new(values, self.sp_index, self.dtype) + # In the other case we have to recalc indexes + return type(self)(op(self.to_dense()), dtype=dtype) + + def __pos__(self) -> SparseArray: + return self._unary_method(operator.pos) + + def __neg__(self) -> SparseArray: + return self._unary_method(operator.neg) + + def __invert__(self) -> SparseArray: + return self._unary_method(operator.invert) + + def __abs__(self) -> SparseArray: + return self._unary_method(operator.abs) + + # ---------- + # Formatting + # ----------- + def __repr__(self) -> str: + pp_str = printing.pprint_thing(self) + pp_fill = printing.pprint_thing(self.fill_value) + pp_index = printing.pprint_thing(self.sp_index) + return f"{pp_str}\nFill: {pp_fill}\n{pp_index}" + + def _formatter(self, boxed: bool = False): + # Defer to the formatter from the GenericArrayFormatter calling us. + # This will infer the correct formatter from the dtype of the values. + return None + + +def _make_sparse( + arr: np.ndarray, + kind: SparseIndexKind = "block", + fill_value=None, + dtype: np.dtype | None = None, +): + """ + Convert ndarray to sparse format + + Parameters + ---------- + arr : ndarray + kind : {'block', 'integer'} + fill_value : NaN or another value + dtype : np.dtype, optional + copy : bool, default False + + Returns + ------- + (sparse_values, index, fill_value) : (ndarray, SparseIndex, Scalar) + """ + assert isinstance(arr, np.ndarray) + + if arr.ndim > 1: + raise TypeError("expected dimension <= 1 data") + + if fill_value is None: + fill_value = na_value_for_dtype(arr.dtype) + + if isna(fill_value): + mask = notna(arr) + else: + # cast to object comparison to be safe + if is_string_dtype(arr.dtype): + arr = arr.astype(object) + + if is_object_dtype(arr.dtype): + # element-wise equality check method in numpy doesn't treat + # each element type, eg. 0, 0.0, and False are treated as + # same. So we have to check the both of its type and value. + mask = splib.make_mask_object_ndarray(arr, fill_value) + else: + mask = arr != fill_value + + length = len(arr) + if length != len(mask): + # the arr is a SparseArray + indices = mask.sp_index.indices + else: + indices = mask.nonzero()[0].astype(np.int32) + + index = make_sparse_index(length, indices, kind) + sparsified_values = arr[mask] + if dtype is not None: + sparsified_values = ensure_wrapped_if_datetimelike(sparsified_values) + sparsified_values = astype_array(sparsified_values, dtype=dtype) + sparsified_values = np.asarray(sparsified_values) + + # TODO: copy + return sparsified_values, index, fill_value + + +@overload +def make_sparse_index(length: int, indices, kind: Literal["block"]) -> BlockIndex: + ... + + +@overload +def make_sparse_index(length: int, indices, kind: Literal["integer"]) -> IntIndex: + ... + + +def make_sparse_index(length: int, indices, kind: SparseIndexKind) -> SparseIndex: + index: SparseIndex + if kind == "block": + locs, lens = splib.get_blocks(indices) + index = BlockIndex(length, locs, lens) + elif kind == "integer": + index = IntIndex(length, indices) + else: # pragma: no cover + raise ValueError("must be block or integer type") + return index diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/scipy_sparse.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/scipy_sparse.py new file mode 100644 index 0000000000000000000000000000000000000000..71b71a9779da5c1a584e0ef98bc8320d81bc2a35 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/sparse/scipy_sparse.py @@ -0,0 +1,207 @@ +""" +Interaction with scipy.sparse matrices. + +Currently only includes to_coo helpers. +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +from pandas._libs import lib + +from pandas.core.dtypes.missing import notna + +from pandas.core.algorithms import factorize +from pandas.core.indexes.api import MultiIndex +from pandas.core.series import Series + +if TYPE_CHECKING: + from collections.abc import Iterable + + import numpy as np + import scipy.sparse + + from pandas._typing import ( + IndexLabel, + npt, + ) + + +def _check_is_partition(parts: Iterable, whole: Iterable): + whole = set(whole) + parts = [set(x) for x in parts] + if set.intersection(*parts) != set(): + raise ValueError("Is not a partition because intersection is not null.") + if set.union(*parts) != whole: + raise ValueError("Is not a partition because union is not the whole.") + + +def _levels_to_axis( + ss, + levels: tuple[int] | list[int], + valid_ilocs: npt.NDArray[np.intp], + sort_labels: bool = False, +) -> tuple[npt.NDArray[np.intp], list[IndexLabel]]: + """ + For a MultiIndexed sparse Series `ss`, return `ax_coords` and `ax_labels`, + where `ax_coords` are the coordinates along one of the two axes of the + destination sparse matrix, and `ax_labels` are the labels from `ss`' Index + which correspond to these coordinates. + + Parameters + ---------- + ss : Series + levels : tuple/list + valid_ilocs : numpy.ndarray + Array of integer positions of valid values for the sparse matrix in ss. + sort_labels : bool, default False + Sort the axis labels before forming the sparse matrix. When `levels` + refers to a single level, set to True for a faster execution. + + Returns + ------- + ax_coords : numpy.ndarray (axis coordinates) + ax_labels : list (axis labels) + """ + # Since the labels are sorted in `Index.levels`, when we wish to sort and + # there is only one level of the MultiIndex for this axis, the desired + # output can be obtained in the following simpler, more efficient way. + if sort_labels and len(levels) == 1: + ax_coords = ss.index.codes[levels[0]][valid_ilocs] + ax_labels = ss.index.levels[levels[0]] + + else: + levels_values = lib.fast_zip( + [ss.index.get_level_values(lvl).to_numpy() for lvl in levels] + ) + codes, ax_labels = factorize(levels_values, sort=sort_labels) + ax_coords = codes[valid_ilocs] + + ax_labels = ax_labels.tolist() + return ax_coords, ax_labels + + +def _to_ijv( + ss, + row_levels: tuple[int] | list[int] = (0,), + column_levels: tuple[int] | list[int] = (1,), + sort_labels: bool = False, +) -> tuple[ + np.ndarray, + npt.NDArray[np.intp], + npt.NDArray[np.intp], + list[IndexLabel], + list[IndexLabel], +]: + """ + For an arbitrary MultiIndexed sparse Series return (v, i, j, ilabels, + jlabels) where (v, (i, j)) is suitable for passing to scipy.sparse.coo + constructor, and ilabels and jlabels are the row and column labels + respectively. + + Parameters + ---------- + ss : Series + row_levels : tuple/list + column_levels : tuple/list + sort_labels : bool, default False + Sort the row and column labels before forming the sparse matrix. + When `row_levels` and/or `column_levels` refer to a single level, + set to `True` for a faster execution. + + Returns + ------- + values : numpy.ndarray + Valid values to populate a sparse matrix, extracted from + ss. + i_coords : numpy.ndarray (row coordinates of the values) + j_coords : numpy.ndarray (column coordinates of the values) + i_labels : list (row labels) + j_labels : list (column labels) + """ + # index and column levels must be a partition of the index + _check_is_partition([row_levels, column_levels], range(ss.index.nlevels)) + # From the sparse Series, get the integer indices and data for valid sparse + # entries. + sp_vals = ss.array.sp_values + na_mask = notna(sp_vals) + values = sp_vals[na_mask] + valid_ilocs = ss.array.sp_index.indices[na_mask] + + i_coords, i_labels = _levels_to_axis( + ss, row_levels, valid_ilocs, sort_labels=sort_labels + ) + + j_coords, j_labels = _levels_to_axis( + ss, column_levels, valid_ilocs, sort_labels=sort_labels + ) + + return values, i_coords, j_coords, i_labels, j_labels + + +def sparse_series_to_coo( + ss: Series, + row_levels: Iterable[int] = (0,), + column_levels: Iterable[int] = (1,), + sort_labels: bool = False, +) -> tuple[scipy.sparse.coo_matrix, list[IndexLabel], list[IndexLabel]]: + """ + Convert a sparse Series to a scipy.sparse.coo_matrix using index + levels row_levels, column_levels as the row and column + labels respectively. Returns the sparse_matrix, row and column labels. + """ + import scipy.sparse + + if ss.index.nlevels < 2: + raise ValueError("to_coo requires MultiIndex with nlevels >= 2.") + if not ss.index.is_unique: + raise ValueError( + "Duplicate index entries are not allowed in to_coo transformation." + ) + + # to keep things simple, only rely on integer indexing (not labels) + row_levels = [ss.index._get_level_number(x) for x in row_levels] + column_levels = [ss.index._get_level_number(x) for x in column_levels] + + v, i, j, rows, columns = _to_ijv( + ss, row_levels=row_levels, column_levels=column_levels, sort_labels=sort_labels + ) + sparse_matrix = scipy.sparse.coo_matrix( + (v, (i, j)), shape=(len(rows), len(columns)) + ) + return sparse_matrix, rows, columns + + +def coo_to_sparse_series( + A: scipy.sparse.coo_matrix, dense_index: bool = False +) -> Series: + """ + Convert a scipy.sparse.coo_matrix to a Series with type sparse. + + Parameters + ---------- + A : scipy.sparse.coo_matrix + dense_index : bool, default False + + Returns + ------- + Series + + Raises + ------ + TypeError if A is not a coo_matrix + """ + from pandas import SparseDtype + + try: + ser = Series(A.data, MultiIndex.from_arrays((A.row, A.col)), copy=False) + except AttributeError as err: + raise TypeError( + f"Expected coo_matrix. Got {type(A).__name__} instead." + ) from err + ser = ser.sort_index() + ser = ser.astype(SparseDtype(ser.dtype)) + if dense_index: + ind = MultiIndex.from_product([A.row, A.col]) + ser = ser.reindex(ind) + return ser diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_.py new file mode 100644 index 0000000000000000000000000000000000000000..9c8dc2054106a749a4a7285196fa150cafd3edd9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_.py @@ -0,0 +1,1110 @@ +from __future__ import annotations + +from functools import partial +import operator +from typing import ( + TYPE_CHECKING, + Any, + Literal, + cast, +) +import warnings + +import numpy as np + +from pandas._config import ( + get_option, + using_string_dtype, +) + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas._libs.arrays import NDArrayBacked +from pandas._libs.lib import ensure_string_array +from pandas.compat import ( + HAS_PYARROW, + pa_version_under10p1, +) +from pandas.compat.numpy import function as nv +from pandas.util._decorators import doc +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.base import ( + ExtensionDtype, + StorageExtensionDtype, + register_extension_dtype, +) +from pandas.core.dtypes.common import ( + is_array_like, + is_bool_dtype, + is_integer_dtype, + is_object_dtype, + is_string_dtype, + pandas_dtype, +) + +from pandas.core import ( + missing, + nanops, + ops, +) +from pandas.core.algorithms import isin +from pandas.core.array_algos import masked_reductions +from pandas.core.arrays.base import ExtensionArray +from pandas.core.arrays.floating import ( + FloatingArray, + FloatingDtype, +) +from pandas.core.arrays.integer import ( + IntegerArray, + IntegerDtype, +) +from pandas.core.arrays.numpy_ import NumpyExtensionArray +from pandas.core.construction import extract_array +from pandas.core.indexers import check_array_indexer +from pandas.core.missing import isna + +from pandas.io.formats import printing + +if TYPE_CHECKING: + from collections.abc import MutableMapping + + import pyarrow + + from pandas._typing import ( + ArrayLike, + AxisInt, + Dtype, + DtypeObj, + NumpySorter, + NumpyValueArrayLike, + Scalar, + Self, + npt, + type_t, + ) + + from pandas import Series + + +@register_extension_dtype +class StringDtype(StorageExtensionDtype): + """ + Extension dtype for string data. + + .. warning:: + + StringDtype is considered experimental. The implementation and + parts of the API may change without warning. + + Parameters + ---------- + storage : {"python", "pyarrow"}, optional + If not given, the value of ``pd.options.mode.string_storage``. + na_value : {np.nan, pd.NA}, default pd.NA + Whether the dtype follows NaN or NA missing value semantics. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> pd.StringDtype() + string[python] + + >>> pd.StringDtype(storage="pyarrow") + string[pyarrow] + """ + + @property + def name(self) -> str: # type: ignore[override] + if self._na_value is libmissing.NA: + return "string" + else: + return "str" + + #: StringDtype().na_value uses pandas.NA except the implementation that + # follows NumPy semantics, which uses nan. + @property + def na_value(self) -> libmissing.NAType | float: # type: ignore[override] + return self._na_value + + _metadata = ("storage", "_na_value") # type: ignore[assignment] + + def __init__( + self, + storage: str | None = None, + na_value: libmissing.NAType | float = libmissing.NA, + ) -> None: + # infer defaults + if storage is None: + if na_value is not libmissing.NA: + storage = get_option("mode.string_storage") + if storage == "auto": + if HAS_PYARROW: + storage = "pyarrow" + else: + storage = "python" + else: + storage = get_option("mode.string_storage") + if storage == "auto": + storage = "python" + + if storage == "pyarrow_numpy": + warnings.warn( + "The 'pyarrow_numpy' storage option name is deprecated and will be " + 'removed in pandas 3.0. Use \'pd.StringDtype(storage="pyarrow", ' + "na_value-np.nan)' to construct the same dtype.\nOr enable the " + "'pd.options.future.infer_string = True' option globally and use " + 'the "str" alias as a shorthand notation to specify a dtype ' + '(instead of "string[pyarrow_numpy]").', + FutureWarning, + stacklevel=find_stack_level(), + ) + storage = "pyarrow" + na_value = np.nan + + # validate options + if storage not in {"python", "pyarrow"}: + raise ValueError( + f"Storage must be 'python' or 'pyarrow'. Got {storage} instead." + ) + if storage == "pyarrow" and pa_version_under10p1: + raise ImportError( + "pyarrow>=10.0.1 is required for PyArrow backed StringArray." + ) + + if isinstance(na_value, float) and np.isnan(na_value): + # when passed a NaN value, always set to np.nan to ensure we use + # a consistent NaN value (and we can use `dtype.na_value is np.nan`) + na_value = np.nan + elif na_value is not libmissing.NA: + raise ValueError(f"'na_value' must be np.nan or pd.NA, got {na_value}") + + self.storage = cast(str, storage) + self._na_value = na_value + + def __repr__(self) -> str: + if self._na_value is libmissing.NA: + return f"{self.name}[{self.storage}]" + else: + # TODO add more informative repr + return self.name + + def __eq__(self, other: object) -> bool: + # we need to override the base class __eq__ because na_value (NA or NaN) + # cannot be checked with normal `==` + if isinstance(other, str): + # TODO should dtype == "string" work for the NaN variant? + if other == "string" or other == self.name: # noqa: PLR1714 + return True + try: + other = self.construct_from_string(other) + except (TypeError, ImportError): + # TypeError if `other` is not a valid string for StringDtype + # ImportError if pyarrow is not installed for "string[pyarrow]" + return False + if isinstance(other, type(self)): + return self.storage == other.storage and self.na_value is other.na_value + return False + + def __setstate__(self, state: MutableMapping[str, Any]) -> None: + # back-compat for pandas < 2.3, where na_value did not yet exist + self.storage = state.pop("storage", "python") + self._na_value = state.pop("_na_value", libmissing.NA) + + def __hash__(self) -> int: + # need to override __hash__ as well because of overriding __eq__ + return super().__hash__() + + def __reduce__(self): + return StringDtype, (self.storage, self.na_value) + + @property + def type(self) -> type[str]: + return str + + @classmethod + def construct_from_string(cls, string) -> Self: + """ + Construct a StringDtype from a string. + + Parameters + ---------- + string : str + The type of the name. The storage type will be taking from `string`. + Valid options and their storage types are + + ========================== ============================================== + string result storage + ========================== ============================================== + ``'string'`` pd.options.mode.string_storage, default python + ``'string[python]'`` python + ``'string[pyarrow]'`` pyarrow + ========================== ============================================== + + Returns + ------- + StringDtype + + Raise + ----- + TypeError + If the string is not a valid option. + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + if string == "string": + return cls() + elif string == "str" and using_string_dtype(): + return cls(na_value=np.nan) + elif string == "string[python]": + return cls(storage="python") + elif string == "string[pyarrow]": + return cls(storage="pyarrow") + elif string == "string[pyarrow_numpy]": + # this is deprecated in the dtype __init__, remove this in pandas 3.0 + return cls(storage="pyarrow_numpy") + else: + raise TypeError(f"Cannot construct a '{cls.__name__}' from '{string}'") + + # https://github.com/pandas-dev/pandas/issues/36126 + # error: Signature of "construct_array_type" incompatible with supertype + # "ExtensionDtype" + def construct_array_type( # type: ignore[override] + self, + ) -> type_t[BaseStringArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays.string_arrow import ( + ArrowStringArray, + ArrowStringArrayNumpySemantics, + ) + + if self.storage == "python" and self._na_value is libmissing.NA: + return StringArray + elif self.storage == "pyarrow" and self._na_value is libmissing.NA: + return ArrowStringArray + elif self.storage == "python": + return StringArrayNumpySemantics + else: + return ArrowStringArrayNumpySemantics + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + storages = set() + na_values = set() + + for dtype in dtypes: + if isinstance(dtype, StringDtype): + storages.add(dtype.storage) + na_values.add(dtype.na_value) + elif isinstance(dtype, np.dtype) and dtype.kind in ("U", "T"): + continue + else: + return None + + if len(storages) == 2: + # if both python and pyarrow storage -> priority to pyarrow + storage = "pyarrow" + else: + storage = next(iter(storages)) # type: ignore[assignment] + + na_value: libmissing.NAType | float + if len(na_values) == 2: + # if both NaN and NA -> priority to NA + na_value = libmissing.NA + else: + na_value = next(iter(na_values)) + + return StringDtype(storage=storage, na_value=na_value) + + def __from_arrow__( + self, array: pyarrow.Array | pyarrow.ChunkedArray + ) -> BaseStringArray: + """ + Construct StringArray from pyarrow Array/ChunkedArray. + """ + if self.storage == "pyarrow": + if self._na_value is libmissing.NA: + from pandas.core.arrays.string_arrow import ArrowStringArray + + return ArrowStringArray(array) + else: + from pandas.core.arrays.string_arrow import ( + ArrowStringArrayNumpySemantics, + ) + + return ArrowStringArrayNumpySemantics(array) + + else: + import pyarrow + + if isinstance(array, pyarrow.Array): + chunks = [array] + else: + # pyarrow.ChunkedArray + chunks = array.chunks + + results = [] + for arr in chunks: + # convert chunk by chunk to numpy and concatenate then, to avoid + # overflow for large string data when concatenating the pyarrow arrays + arr = arr.to_numpy(zero_copy_only=False) + arr = ensure_string_array(arr, na_value=self.na_value) + results.append(arr) + + if len(chunks) == 0: + arr = np.array([], dtype=object) + else: + arr = np.concatenate(results) + + # Bypass validation inside StringArray constructor, see GH#47781 + new_string_array = StringArray.__new__(StringArray) + NDArrayBacked.__init__(new_string_array, arr, self) + return new_string_array + + +class BaseStringArray(ExtensionArray): + """ + Mixin class for StringArray, ArrowStringArray. + """ + + dtype: StringDtype + + @doc(ExtensionArray.tolist) + def tolist(self): + if self.ndim > 1: + return [x.tolist() for x in self] + return list(self.to_numpy()) + + @classmethod + def _from_scalars(cls, scalars, dtype: DtypeObj) -> Self: + if lib.infer_dtype(scalars, skipna=True) not in ["string", "empty"]: + # TODO: require any NAs be valid-for-string + raise ValueError + return cls._from_sequence(scalars, dtype=dtype) + + def _formatter(self, boxed: bool = False): + formatter = partial( + printing.pprint_thing, + escape_chars=("\t", "\r", "\n"), + quote_strings=not boxed, + ) + return formatter + + def _str_map( + self, + f, + na_value=lib.no_default, + dtype: Dtype | None = None, + convert: bool = True, + ): + if self.dtype.na_value is np.nan: + return self._str_map_nan_semantics( + f, na_value=na_value, dtype=dtype, convert=convert + ) + + from pandas.arrays import BooleanArray + + if dtype is None: + dtype = self.dtype + if na_value is lib.no_default: + na_value = self.dtype.na_value + + mask = isna(self) + arr = np.asarray(self) + + if is_integer_dtype(dtype) or is_bool_dtype(dtype): + constructor: type[IntegerArray | BooleanArray] + if is_integer_dtype(dtype): + constructor = IntegerArray + else: + constructor = BooleanArray + + na_value_is_na = isna(na_value) + if na_value_is_na: + na_value = 1 + elif dtype == np.dtype("bool"): + # GH#55736 + na_value = bool(na_value) + result = lib.map_infer_mask( + arr, + f, + mask.view("uint8"), + convert=False, + na_value=na_value, + # error: Argument 1 to "dtype" has incompatible type + # "Union[ExtensionDtype, str, dtype[Any], Type[object]]"; expected + # "Type[object]" + dtype=np.dtype(cast(type, dtype)), + ) + + if not na_value_is_na: + mask[:] = False + + return constructor(result, mask) + + else: + return self._str_map_str_or_object(dtype, na_value, arr, f, mask) + + def _str_map_str_or_object( + self, + dtype, + na_value, + arr: np.ndarray, + f, + mask: npt.NDArray[np.bool_], + ): + # _str_map helper for case where dtype is either string dtype or object + if is_string_dtype(dtype) and not is_object_dtype(dtype): + # i.e. StringDtype + result = lib.map_infer_mask( + arr, f, mask.view("uint8"), convert=False, na_value=na_value + ) + if self.dtype.storage == "pyarrow": + import pyarrow as pa + + result = pa.array( + result, mask=mask, type=pa.large_string(), from_pandas=True + ) + # error: Too many arguments for "BaseStringArray" + return type(self)(result) # type: ignore[call-arg] + + else: + # This is when the result type is object. We reach this when + # -> We know the result type is truly object (e.g. .encode returns bytes + # or .findall returns a list). + # -> We don't know the result type. E.g. `.get` can return anything. + return lib.map_infer_mask(arr, f, mask.view("uint8")) + + def _str_map_nan_semantics( + self, + f, + na_value=lib.no_default, + dtype: Dtype | None = None, + convert: bool = True, + ): + if dtype is None: + dtype = self.dtype + if na_value is lib.no_default: + if is_bool_dtype(dtype): + # NaN propagates as False + na_value = False + else: + na_value = self.dtype.na_value + + mask = isna(self) + arr = np.asarray(self) + + if is_integer_dtype(dtype) or is_bool_dtype(dtype): + na_value_is_na = isna(na_value) + if na_value_is_na: + if is_integer_dtype(dtype): + na_value = 0 + else: + # NaN propagates as False + na_value = False + + result = lib.map_infer_mask( + arr, + f, + mask.view("uint8"), + convert=False, + na_value=na_value, + dtype=np.dtype(cast(type, dtype)), + ) + if na_value_is_na and is_integer_dtype(dtype) and mask.any(): + # TODO: we could alternatively do this check before map_infer_mask + # and adjust the dtype/na_value we pass there. Which is more + # performant? + result = result.astype("float64") + result[mask] = np.nan + + return result + + else: + return self._str_map_str_or_object(dtype, na_value, arr, f, mask) + + def view(self, dtype: Dtype | None = None) -> ArrayLike: + if dtype is not None: + raise TypeError("Cannot change data-type for string array.") + return super().view(dtype=dtype) + + +# error: Definition of "_concat_same_type" in base class "NDArrayBacked" is +# incompatible with definition in base class "ExtensionArray" +class StringArray(BaseStringArray, NumpyExtensionArray): # type: ignore[misc] + """ + Extension array for string data. + + .. warning:: + + StringArray is considered experimental. The implementation and + parts of the API may change without warning. + + Parameters + ---------- + values : array-like + The array of data. + + .. warning:: + + Currently, this expects an object-dtype ndarray + where the elements are Python strings + or nan-likes (``None``, ``np.nan``, ``NA``). + This may change without warning in the future. Use + :meth:`pandas.array` with ``dtype="string"`` for a stable way of + creating a `StringArray` from any sequence. + + .. versionchanged:: 1.5.0 + + StringArray now accepts array-likes containing + nan-likes(``None``, ``np.nan``) for the ``values`` parameter + in addition to strings and :attr:`pandas.NA` + + copy : bool, default False + Whether to copy the array of data. + + Attributes + ---------- + None + + Methods + ------- + None + + See Also + -------- + :func:`pandas.array` + The recommended function for creating a StringArray. + Series.str + The string methods are available on Series backed by + a StringArray. + + Notes + ----- + StringArray returns a BooleanArray for comparison methods. + + Examples + -------- + >>> pd.array(['This is', 'some text', None, 'data.'], dtype="string") + + ['This is', 'some text', , 'data.'] + Length: 4, dtype: string + + Unlike arrays instantiated with ``dtype="object"``, ``StringArray`` + will convert the values to strings. + + >>> pd.array(['1', 1], dtype="object") + + ['1', 1] + Length: 2, dtype: object + >>> pd.array(['1', 1], dtype="string") + + ['1', '1'] + Length: 2, dtype: string + + However, instantiating StringArrays directly with non-strings will raise an error. + + For comparison methods, `StringArray` returns a :class:`pandas.BooleanArray`: + + >>> pd.array(["a", None, "c"], dtype="string") == "a" + + [True, , False] + Length: 3, dtype: boolean + """ + + # undo the NumpyExtensionArray hack + _typ = "extension" + _storage = "python" + _na_value: libmissing.NAType | float = libmissing.NA + + def __init__(self, values, copy: bool = False) -> None: + values = extract_array(values) + + super().__init__(values, copy=copy) + if not isinstance(values, type(self)): + self._validate() + NDArrayBacked.__init__( + self, + self._ndarray, + StringDtype(storage=self._storage, na_value=self._na_value), + ) + + def _validate(self): + """Validate that we only store NA or strings.""" + if len(self._ndarray) and not lib.is_string_array(self._ndarray, skipna=True): + raise ValueError("StringArray requires a sequence of strings or pandas.NA") + if self._ndarray.dtype != "object": + raise ValueError( + "StringArray requires a sequence of strings or pandas.NA. Got " + f"'{self._ndarray.dtype}' dtype instead." + ) + # Check to see if need to convert Na values to pd.NA + if self._ndarray.ndim > 2: + # Ravel if ndims > 2 b/c no cythonized version available + lib.convert_nans_to_NA(self._ndarray.ravel("K")) + else: + lib.convert_nans_to_NA(self._ndarray) + + def _validate_scalar(self, value): + # used by NDArrayBackedExtensionIndex.insert + if isna(value): + return self.dtype.na_value + elif not isinstance(value, str): + raise TypeError( + f"Invalid value '{value}' for dtype '{self.dtype}'. Value should be a " + f"string or missing value, got '{type(value).__name__}' instead." + ) + return value + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy: bool = False): + if dtype and not (isinstance(dtype, str) and dtype == "string"): + dtype = pandas_dtype(dtype) + assert isinstance(dtype, StringDtype) and dtype.storage == "python" + else: + if using_string_dtype(): + dtype = StringDtype(storage="python", na_value=np.nan) + else: + dtype = StringDtype(storage="python") + + from pandas.core.arrays.masked import BaseMaskedArray + + na_value = dtype.na_value + if isinstance(scalars, BaseMaskedArray): + # avoid costly conversion to object dtype + na_values = scalars._mask + result = scalars._data + result = lib.ensure_string_array(result, copy=copy, convert_na_value=False) + result[na_values] = na_value + + else: + if lib.is_pyarrow_array(scalars): + # pyarrow array; we cannot rely on the "to_numpy" check in + # ensure_string_array because calling scalars.to_numpy would set + # zero_copy_only to True which caused problems see GH#52076 + scalars = np.array(scalars) + # convert non-na-likes to str, and nan-likes to StringDtype().na_value + result = lib.ensure_string_array(scalars, na_value=na_value, copy=copy) + + # Manually creating new array avoids the validation step in the __init__, so is + # faster. Refactor need for validation? + new_string_array = cls.__new__(cls) + NDArrayBacked.__init__(new_string_array, result, dtype) + + return new_string_array + + @classmethod + def _from_sequence_of_strings( + cls, strings, *, dtype: Dtype | None = None, copy: bool = False + ): + return cls._from_sequence(strings, dtype=dtype, copy=copy) + + @classmethod + def _empty(cls, shape, dtype) -> StringArray: + values = np.empty(shape, dtype=object) + values[:] = libmissing.NA + return cls(values).astype(dtype, copy=False) + + def __arrow_array__(self, type=None): + """ + Convert myself into a pyarrow Array. + """ + import pyarrow as pa + + if type is None: + type = pa.string() + + values = self._ndarray.copy() + values[self.isna()] = None + return pa.array(values, type=type, from_pandas=True) + + def _values_for_factorize(self) -> tuple[np.ndarray, libmissing.NAType | float]: # type: ignore[override] + arr = self._ndarray.copy() + + return arr, self.dtype.na_value + + def _maybe_convert_setitem_value(self, value): + """Maybe convert value to be pyarrow compatible.""" + if lib.is_scalar(value): + if isna(value): + value = self.dtype.na_value + elif not isinstance(value, str): + raise TypeError( + f"Invalid value '{value}' for dtype '{self.dtype}'. Value should " + f"be a string or missing value, got '{type(value).__name__}' " + "instead." + ) + else: + value = extract_array(value, extract_numpy=True) + if not is_array_like(value): + value = np.asarray(value, dtype=object) + elif isinstance(value.dtype, type(self.dtype)): + return value + else: + # cast categories and friends to arrays to see if values are + # compatible, compatibility with arrow backed strings + value = np.asarray(value) + if len(value) and not lib.is_string_array(value, skipna=True): + raise TypeError( + "Invalid value for dtype 'str'. Value should be a " + "string or missing value (or array of those)." + ) + return value + + def __setitem__(self, key, value) -> None: + value = self._maybe_convert_setitem_value(value) + + key = check_array_indexer(self, key) + scalar_key = lib.is_scalar(key) + scalar_value = lib.is_scalar(value) + if scalar_key and not scalar_value: + raise ValueError("setting an array element with a sequence.") + + if not scalar_value: + if value.dtype == self.dtype: + value = value._ndarray + else: + value = np.asarray(value) + mask = isna(value) + if mask.any(): + value = value.copy() + value[isna(value)] = self.dtype.na_value + + super().__setitem__(key, value) + + def _putmask(self, mask: npt.NDArray[np.bool_], value) -> None: + # the super() method NDArrayBackedExtensionArray._putmask uses + # np.putmask which doesn't properly handle None/pd.NA, so using the + # base class implementation that uses __setitem__ + ExtensionArray._putmask(self, mask, value) + + def _where(self, mask: npt.NDArray[np.bool_], value) -> Self: + # the super() method NDArrayBackedExtensionArray._where uses + # np.putmask which doesn't properly handle None/pd.NA, so using the + # base class implementation that uses __setitem__ + return ExtensionArray._where(self, mask, value) + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + if isinstance(values, BaseStringArray) or ( + isinstance(values, ExtensionArray) and is_string_dtype(values.dtype) + ): + values = values.astype(self.dtype, copy=False) + else: + if not lib.is_string_array(np.asarray(values), skipna=True): + values = np.array( + [val for val in values if isinstance(val, str) or isna(val)], + dtype=object, + ) + if not len(values): + return np.zeros(self.shape, dtype=bool) + + values = self._from_sequence(values, dtype=self.dtype) + + return isin(np.asarray(self), np.asarray(values)) + + def astype(self, dtype, copy: bool = True): + dtype = pandas_dtype(dtype) + + if dtype == self.dtype: + if copy: + return self.copy() + return self + + elif isinstance(dtype, IntegerDtype): + arr = self._ndarray.copy() + mask = self.isna() + arr[mask] = 0 + values = arr.astype(dtype.numpy_dtype) + return IntegerArray(values, mask, copy=False) + elif isinstance(dtype, FloatingDtype): + arr = self.copy() + mask = self.isna() + arr[mask] = "0" + values = arr.astype(dtype.numpy_dtype) + return FloatingArray(values, mask, copy=False) + elif isinstance(dtype, ExtensionDtype): + # Skip the NumpyExtensionArray.astype method + return ExtensionArray.astype(self, dtype, copy) + elif np.issubdtype(dtype, np.floating): + arr = self._ndarray.copy() + mask = self.isna() + arr[mask] = 0 + values = arr.astype(dtype) + values[mask] = np.nan + return values + + return super().astype(dtype, copy) + + def _reduce( + self, + name: str, + *, + skipna: bool = True, + keepdims: bool = False, + axis: AxisInt | None = 0, + **kwargs, + ): + if self.dtype.na_value is np.nan and name in ["any", "all"]: + if name == "any": + return nanops.nanany(self._ndarray, skipna=skipna) + else: + return nanops.nanall(self._ndarray, skipna=skipna) + + if name in ["min", "max", "argmin", "argmax", "sum"]: + result = getattr(self, name)(skipna=skipna, axis=axis, **kwargs) + if keepdims: + return self._from_sequence([result], dtype=self.dtype) + return result + raise TypeError(f"Cannot perform reduction '{name}' with string dtype") + + def _accumulate(self, name: str, *, skipna: bool = True, **kwargs) -> StringArray: + """ + Return an ExtensionArray performing an accumulation operation. + + The underlying data type might change. + + Parameters + ---------- + name : str + Name of the function, supported values are: + - cummin + - cummax + - cumsum + - cumprod + skipna : bool, default True + If True, skip NA values. + **kwargs + Additional keyword arguments passed to the accumulation function. + Currently, there is no supported kwarg. + + Returns + ------- + array + + Raises + ------ + NotImplementedError : subclass does not define accumulations + """ + if name == "cumprod": + msg = f"operation '{name}' not supported for dtype '{self.dtype}'" + raise TypeError(msg) + + # We may need to strip out trailing NA values + tail: np.ndarray | None = None + na_mask: np.ndarray | None = None + ndarray = self._ndarray + np_func = { + "cumsum": np.cumsum, + "cummin": np.minimum.accumulate, + "cummax": np.maximum.accumulate, + }[name] + + if self._hasna: + na_mask = cast("npt.NDArray[np.bool_]", isna(ndarray)) + if np.all(na_mask): + return type(self)(ndarray) + if skipna: + if name == "cumsum": + ndarray = np.where(na_mask, "", ndarray) + else: + # We can retain the running min/max by forward/backward filling. + ndarray = ndarray.copy() + missing.pad_or_backfill_inplace( + ndarray, + method="pad", + axis=0, + ) + missing.pad_or_backfill_inplace( + ndarray, + method="backfill", + axis=0, + ) + else: + # When not skipping NA values, the result should be null from + # the first NA value onward. + idx = np.argmax(na_mask) + tail = np.empty(len(ndarray) - idx, dtype="object") + tail[:] = self.dtype.na_value + ndarray = ndarray[:idx] + + # mypy: Cannot call function of unknown type + np_result = np_func(ndarray) # type: ignore[operator] + + if tail is not None: + np_result = np.hstack((np_result, tail)) + elif na_mask is not None: + # Argument 2 to "where" has incompatible type "NAType | float" + np_result = np.where(na_mask, self.dtype.na_value, np_result) # type: ignore[arg-type] + + result = type(self)(np_result) + return result + + def _wrap_reduction_result(self, axis: AxisInt | None, result) -> Any: + if self.dtype.na_value is np.nan and result is libmissing.NA: + # the masked_reductions use pd.NA -> convert to np.nan + return np.nan + return super()._wrap_reduction_result(axis, result) + + def min(self, axis=None, skipna: bool = True, **kwargs) -> Scalar: + nv.validate_min((), kwargs) + result = masked_reductions.min( + values=self.to_numpy(), mask=self.isna(), skipna=skipna + ) + return self._wrap_reduction_result(axis, result) + + def max(self, axis=None, skipna: bool = True, **kwargs) -> Scalar: + nv.validate_max((), kwargs) + result = masked_reductions.max( + values=self.to_numpy(), mask=self.isna(), skipna=skipna + ) + return self._wrap_reduction_result(axis, result) + + def sum( + self, + *, + axis: AxisInt | None = None, + skipna: bool = True, + min_count: int = 0, + **kwargs, + ) -> Scalar: + nv.validate_sum((), kwargs) + result = masked_reductions.sum( + values=self._ndarray, mask=self.isna(), skipna=skipna + ) + return self._wrap_reduction_result(axis, result) + + def value_counts(self, dropna: bool = True) -> Series: + from pandas.core.algorithms import value_counts_internal as value_counts + + result = value_counts(self._ndarray, dropna=dropna).astype("Int64") + result = value_counts(self._ndarray, sort=False, dropna=dropna) + result.index = result.index.astype(self.dtype) + + if self.dtype.na_value is libmissing.NA: + result = result.astype("Int64") + return result + + def memory_usage(self, deep: bool = False) -> int: + result = self._ndarray.nbytes + if deep: + return result + lib.memory_usage_of_objects(self._ndarray) + return result + + @doc(ExtensionArray.searchsorted) + def searchsorted( + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + if self._hasna: + raise ValueError( + "searchsorted requires array to be sorted, which is impossible " + "with NAs present." + ) + return super().searchsorted(value=value, side=side, sorter=sorter) + + def _cmp_method(self, other, op): + from pandas.arrays import ( + ArrowExtensionArray, + BooleanArray, + ) + + if ( + isinstance(other, BaseStringArray) + and self.dtype.na_value is not libmissing.NA + and other.dtype.na_value is libmissing.NA + ): + # NA has priority of NaN semantics + return NotImplemented + + if isinstance(other, ArrowExtensionArray): + if isinstance(other, BaseStringArray): + # pyarrow storage has priority over python storage + # (except if we have NA semantics and other not) + if not ( + self.dtype.na_value is libmissing.NA + and other.dtype.na_value is not libmissing.NA + ): + return NotImplemented + else: + return NotImplemented + + if isinstance(other, StringArray): + other = other._ndarray + + mask = isna(self) | isna(other) + valid = ~mask + + if not lib.is_scalar(other): + if len(other) != len(self): + # prevent improper broadcasting when other is 2D + raise ValueError( + f"Lengths of operands do not match: {len(self)} != {len(other)}" + ) + + # for array-likes, first filter out NAs before converting to numpy + if not is_array_like(other): + other = np.asarray(other) + other = other[valid] + + if op.__name__ in ops.ARITHMETIC_BINOPS: + result = np.empty_like(self._ndarray, dtype="object") + result[mask] = self.dtype.na_value + result[valid] = op(self._ndarray[valid], other) + return self._from_backing_data(result) + else: + # logical + result = np.zeros(len(self._ndarray), dtype="bool") + result[valid] = op(self._ndarray[valid], other) + res_arr = BooleanArray(result, mask) + if self.dtype.na_value is np.nan: + if op == operator.ne: + return res_arr.to_numpy(np.bool_, na_value=True) + else: + return res_arr.to_numpy(np.bool_, na_value=False) + return res_arr + + _arith_method = _cmp_method + + +class StringArrayNumpySemantics(StringArray): + _storage = "python" + _na_value = np.nan + + def _validate(self) -> None: + """Validate that we only store NaN or strings.""" + if len(self._ndarray) and not lib.is_string_array(self._ndarray, skipna=True): + raise ValueError( + "StringArrayNumpySemantics requires a sequence of strings or NaN" + ) + if self._ndarray.dtype != "object": + raise ValueError( + "StringArrayNumpySemantics requires a sequence of strings or NaN. Got " + f"'{self._ndarray.dtype}' dtype instead." + ) + # TODO validate or force NA/None to NaN + + @classmethod + def _from_sequence( + cls, scalars, *, dtype: Dtype | None = None, copy: bool = False + ) -> Self: + if dtype is None: + dtype = StringDtype(storage="python", na_value=np.nan) + return super()._from_sequence(scalars, dtype=dtype, copy=copy) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_arrow.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_arrow.py new file mode 100644 index 0000000000000000000000000000000000000000..a57ada5a5b3b318d87e00099558a8600d8b3cd6e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/string_arrow.py @@ -0,0 +1,493 @@ +from __future__ import annotations + +import operator +import re +from typing import ( + TYPE_CHECKING, + Callable, + Union, +) +import warnings + +import numpy as np + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas.compat import ( + pa_version_under10p1, + pa_version_under13p0, + pa_version_under16p0, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_scalar, + pandas_dtype, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.arrays._arrow_string_mixins import ArrowStringArrayMixin +from pandas.core.arrays.arrow import ArrowExtensionArray +from pandas.core.arrays.boolean import BooleanDtype +from pandas.core.arrays.floating import Float64Dtype +from pandas.core.arrays.integer import Int64Dtype +from pandas.core.arrays.numeric import NumericDtype +from pandas.core.arrays.string_ import ( + BaseStringArray, + StringDtype, +) +from pandas.core.strings.object_array import ObjectStringArrayMixin + +if not pa_version_under10p1: + import pyarrow as pa + import pyarrow.compute as pc + + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + ArrayLike, + Dtype, + Self, + npt, + ) + + from pandas import Series + + +ArrowStringScalarOrNAT = Union[str, libmissing.NAType] + + +def _chk_pyarrow_available() -> None: + if pa_version_under10p1: + msg = "pyarrow>=10.0.1 is required for PyArrow backed ArrowExtensionArray." + raise ImportError(msg) + + +def _is_string_view(typ): + return not pa_version_under16p0 and pa.types.is_string_view(typ) + + +# TODO: Inherit directly from BaseStringArrayMethods. Currently we inherit from +# ObjectStringArrayMixin because we want to have the object-dtype based methods as +# fallback for the ones that pyarrow doesn't yet support + + +class ArrowStringArray(ObjectStringArrayMixin, ArrowExtensionArray, BaseStringArray): + """ + Extension array for string data in a ``pyarrow.ChunkedArray``. + + .. warning:: + + ArrowStringArray is considered experimental. The implementation and + parts of the API may change without warning. + + Parameters + ---------- + values : pyarrow.Array or pyarrow.ChunkedArray + The array of data. + + Attributes + ---------- + None + + Methods + ------- + None + + See Also + -------- + :func:`pandas.array` + The recommended function for creating a ArrowStringArray. + Series.str + The string methods are available on Series backed by + a ArrowStringArray. + + Notes + ----- + ArrowStringArray returns a BooleanArray for comparison methods. + + Examples + -------- + >>> pd.array(['This is', 'some text', None, 'data.'], dtype="string[pyarrow]") + + ['This is', 'some text', , 'data.'] + Length: 4, dtype: string + """ + + # error: Incompatible types in assignment (expression has type "StringDtype", + # base class "ArrowExtensionArray" defined the type as "ArrowDtype") + _dtype: StringDtype # type: ignore[assignment] + _storage = "pyarrow" + _na_value: libmissing.NAType | float = libmissing.NA + + def __init__(self, values) -> None: + _chk_pyarrow_available() + if isinstance(values, (pa.Array, pa.ChunkedArray)) and ( + pa.types.is_string(values.type) + or _is_string_view(values.type) + or ( + pa.types.is_dictionary(values.type) + and ( + pa.types.is_string(values.type.value_type) + or pa.types.is_large_string(values.type.value_type) + or _is_string_view(values.type.value_type) + ) + ) + ): + values = pc.cast(values, pa.large_string()) + + super().__init__(values) + self._dtype = StringDtype(storage=self._storage, na_value=self._na_value) + + if not pa.types.is_large_string(self._pa_array.type): + raise ValueError( + "ArrowStringArray requires a PyArrow (chunked) array of " + "large_string type" + ) + + @classmethod + def _box_pa_scalar(cls, value, pa_type: pa.DataType | None = None) -> pa.Scalar: + pa_scalar = super()._box_pa_scalar(value, pa_type) + if pa.types.is_string(pa_scalar.type) and pa_type is None: + pa_scalar = pc.cast(pa_scalar, pa.large_string()) + return pa_scalar + + @classmethod + def _box_pa_array( + cls, value, pa_type: pa.DataType | None = None, copy: bool = False + ) -> pa.Array | pa.ChunkedArray: + pa_array = super()._box_pa_array(value, pa_type) + if pa.types.is_string(pa_array.type) and pa_type is None: + pa_array = pc.cast(pa_array, pa.large_string()) + return pa_array + + def __len__(self) -> int: + """ + Length of this array. + + Returns + ------- + length : int + """ + return len(self._pa_array) + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy: bool = False): + from pandas.core.arrays.masked import BaseMaskedArray + + _chk_pyarrow_available() + + if dtype and not (isinstance(dtype, str) and dtype == "string"): + dtype = pandas_dtype(dtype) + assert isinstance(dtype, StringDtype) and dtype.storage == "pyarrow" + + if isinstance(scalars, BaseMaskedArray): + # avoid costly conversion to object dtype in ensure_string_array and + # numerical issues with Float32Dtype + na_values = scalars._mask + result = scalars._data + result = lib.ensure_string_array(result, copy=copy, convert_na_value=False) + return cls(pa.array(result, mask=na_values, type=pa.large_string())) + elif isinstance(scalars, (pa.Array, pa.ChunkedArray)): + return cls(pc.cast(scalars, pa.large_string())) + + # convert non-na-likes to str + result = lib.ensure_string_array(scalars, copy=copy) + return cls(pa.array(result, type=pa.large_string(), from_pandas=True)) + + @classmethod + def _from_sequence_of_strings( + cls, strings, dtype: Dtype | None = None, copy: bool = False + ): + return cls._from_sequence(strings, dtype=dtype, copy=copy) + + @property + def dtype(self) -> StringDtype: # type: ignore[override] + """ + An instance of 'string[pyarrow]'. + """ + return self._dtype + + def insert(self, loc: int, item) -> ArrowStringArray: + if self.dtype.na_value is np.nan and item is np.nan: + item = libmissing.NA + if not isinstance(item, str) and item is not libmissing.NA: + raise TypeError( + f"Invalid value '{item}' for dtype 'str'. Value should be a " + f"string or missing value, got '{type(item).__name__}' instead." + ) + return super().insert(loc, item) + + def _convert_bool_result(self, values, na=lib.no_default, method_name=None): + if na is not lib.no_default and not isna(na) and not isinstance(na, bool): + # GH#59561 + warnings.warn( + f"Allowing a non-bool 'na' in obj.str.{method_name} is deprecated " + "and will raise in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + na = bool(na) + + if self.dtype.na_value is np.nan: + if na is lib.no_default or isna(na): + # NaN propagates as False + values = values.fill_null(False) + else: + values = values.fill_null(na) + return values.to_numpy() + else: + if na is not lib.no_default and not isna( + na + ): # pyright: ignore [reportGeneralTypeIssues] + values = values.fill_null(na) + return BooleanDtype().__from_arrow__(values) + + def _maybe_convert_setitem_value(self, value): + """Maybe convert value to be pyarrow compatible.""" + if is_scalar(value): + if isna(value): + value = None + elif not isinstance(value, str): + raise TypeError( + f"Invalid value '{value}' for dtype 'str'. Value should be a " + f"string or missing value, got '{type(value).__name__}' instead." + ) + else: + value = np.array(value, dtype=object, copy=True) + value[isna(value)] = None + for v in value: + if not (v is None or isinstance(v, str)): + raise TypeError( + "Invalid value for dtype 'str'. Value should be a " + "string or missing value (or array of those)." + ) + return super()._maybe_convert_setitem_value(value) + + def isin(self, values: ArrayLike) -> npt.NDArray[np.bool_]: + value_set = [ + pa_scalar.as_py() + for pa_scalar in [pa.scalar(value, from_pandas=True) for value in values] + if pa_scalar.type in (pa.string(), pa.null(), pa.large_string()) + ] + + # short-circuit to return all False array. + if not len(value_set): + return np.zeros(len(self), dtype=bool) + + result = pc.is_in( + self._pa_array, value_set=pa.array(value_set, type=self._pa_array.type) + ) + # pyarrow 2.0.0 returned nulls, so we explicily specify dtype to convert nulls + # to False + return np.array(result, dtype=np.bool_) + + def astype(self, dtype, copy: bool = True): + dtype = pandas_dtype(dtype) + + if dtype == self.dtype: + if copy: + return self.copy() + return self + elif isinstance(dtype, NumericDtype): + data = self._pa_array.cast(pa.from_numpy_dtype(dtype.numpy_dtype)) + return dtype.__from_arrow__(data) + elif isinstance(dtype, np.dtype) and np.issubdtype(dtype, np.floating): + return self.to_numpy(dtype=dtype, na_value=np.nan) + + return super().astype(dtype, copy=copy) + + @property + def _data(self): + # dask accesses ._data directlys + warnings.warn( + f"{type(self).__name__}._data is a deprecated and will be removed " + "in a future version, use ._pa_array instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._pa_array + + # ------------------------------------------------------------------------ + # String methods interface + + _str_isalnum = ArrowStringArrayMixin._str_isalnum + _str_isalpha = ArrowStringArrayMixin._str_isalpha + _str_isdecimal = ArrowStringArrayMixin._str_isdecimal + _str_isdigit = ArrowStringArrayMixin._str_isdigit + _str_islower = ArrowStringArrayMixin._str_islower + _str_isnumeric = ArrowStringArrayMixin._str_isnumeric + _str_isspace = ArrowStringArrayMixin._str_isspace + _str_istitle = ArrowStringArrayMixin._str_istitle + _str_isupper = ArrowStringArrayMixin._str_isupper + + _str_map = BaseStringArray._str_map + _str_startswith = ArrowStringArrayMixin._str_startswith + _str_endswith = ArrowStringArrayMixin._str_endswith + _str_pad = ArrowStringArrayMixin._str_pad + _str_match = ArrowStringArrayMixin._str_match + _str_fullmatch = ArrowStringArrayMixin._str_fullmatch + _str_lower = ArrowStringArrayMixin._str_lower + _str_upper = ArrowStringArrayMixin._str_upper + _str_strip = ArrowStringArrayMixin._str_strip + _str_lstrip = ArrowStringArrayMixin._str_lstrip + _str_rstrip = ArrowStringArrayMixin._str_rstrip + _str_removesuffix = ArrowStringArrayMixin._str_removesuffix + _str_get = ArrowStringArrayMixin._str_get + _str_capitalize = ArrowStringArrayMixin._str_capitalize + _str_title = ArrowStringArrayMixin._str_title + _str_swapcase = ArrowStringArrayMixin._str_swapcase + _str_slice_replace = ArrowStringArrayMixin._str_slice_replace + _str_len = ArrowStringArrayMixin._str_len + _str_slice = ArrowStringArrayMixin._str_slice + + def _str_contains( + self, + pat, + case: bool = True, + flags: int = 0, + na=lib.no_default, + regex: bool = True, + ): + if flags: + return super()._str_contains(pat, case, flags, na, regex) + + return ArrowStringArrayMixin._str_contains(self, pat, case, flags, na, regex) + + def _str_replace( + self, + pat: str | re.Pattern, + repl: str | Callable, + n: int = -1, + case: bool = True, + flags: int = 0, + regex: bool = True, + ): + if isinstance(pat, re.Pattern) or callable(repl) or not case or flags: + return super()._str_replace(pat, repl, n, case, flags, regex) + + return ArrowStringArrayMixin._str_replace( + self, pat, repl, n, case, flags, regex + ) + + def _str_repeat(self, repeats: int | Sequence[int]): + if not isinstance(repeats, int): + return super()._str_repeat(repeats) + else: + return ArrowExtensionArray._str_repeat(self, repeats=repeats) + + def _str_removeprefix(self, prefix: str): + if not pa_version_under13p0: + return ArrowStringArrayMixin._str_removeprefix(self, prefix) + return super()._str_removeprefix(prefix) + + def _str_count(self, pat: str, flags: int = 0): + if flags: + return super()._str_count(pat, flags) + result = pc.count_substring_regex(self._pa_array, pat) + return self._convert_int_result(result) + + def _str_find(self, sub: str, start: int = 0, end: int | None = None): + if ( + pa_version_under13p0 + and not (start != 0 and end is not None) + and not (start == 0 and end is None) + ): + # GH#59562 + return super()._str_find(sub, start, end) + return ArrowStringArrayMixin._str_find(self, sub, start, end) + + def _str_get_dummies(self, sep: str = "|"): + dummies_pa, labels = ArrowExtensionArray(self._pa_array)._str_get_dummies(sep) + if len(labels) == 0: + return np.empty(shape=(0, 0), dtype=np.int64), labels + dummies = np.vstack(dummies_pa.to_numpy()) + return dummies.astype(np.int64, copy=False), labels + + def _convert_int_result(self, result): + if self.dtype.na_value is np.nan: + if isinstance(result, pa.Array): + result = result.to_numpy(zero_copy_only=False) + else: + result = result.to_numpy() + if result.dtype == np.int32: + result = result.astype(np.int64) + return result + + return Int64Dtype().__from_arrow__(result) + + def _convert_rank_result(self, result): + if self.dtype.na_value is np.nan: + if isinstance(result, pa.Array): + result = result.to_numpy(zero_copy_only=False) + else: + result = result.to_numpy() + return result.astype("float64", copy=False) + + return Float64Dtype().__from_arrow__(result) + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + if self.dtype.na_value is np.nan and name in ["any", "all"]: + if not skipna: + nas = pc.is_null(self._pa_array) + arr = pc.or_kleene(nas, pc.not_equal(self._pa_array, "")) + else: + arr = pc.not_equal(self._pa_array, "") + result = ArrowExtensionArray(arr)._reduce( + name, skipna=skipna, keepdims=keepdims, **kwargs + ) + if keepdims: + # ArrowExtensionArray will return a length-1 bool[pyarrow] array + return result.astype(np.bool_) + return result + + if name in ("min", "max", "sum", "argmin", "argmax"): + result = self._reduce_calc(name, skipna=skipna, keepdims=keepdims, **kwargs) + else: + raise TypeError(f"Cannot perform reduction '{name}' with string dtype") + + if name in ("argmin", "argmax") and isinstance(result, pa.Array): + return self._convert_int_result(result) + elif isinstance(result, pa.Array): + return type(self)(result) + else: + return result + + def value_counts(self, dropna: bool = True) -> Series: + result = super().value_counts(dropna=dropna) + if self.dtype.na_value is np.nan: + res_values = result._values.to_numpy() + return result._constructor( + res_values, index=result.index, name=result.name, copy=False + ) + return result + + def _cmp_method(self, other, op): + if ( + isinstance(other, (BaseStringArray, ArrowExtensionArray)) + and self.dtype.na_value is not libmissing.NA + and other.dtype.na_value is libmissing.NA + ): + # NA has priority of NaN semantics + return NotImplemented + + result = super()._cmp_method(other, op) + if self.dtype.na_value is np.nan: + if op == operator.ne: + return result.to_numpy(np.bool_, na_value=True) + else: + return result.to_numpy(np.bool_, na_value=False) + return result + + def __pos__(self) -> Self: + raise TypeError(f"bad operand type for unary +: '{self.dtype}'") + + +class ArrowStringArrayNumpySemantics(ArrowStringArray): + _na_value = np.nan diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/timedeltas.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/timedeltas.py new file mode 100644 index 0000000000000000000000000000000000000000..d4caec4bfd58a653c3d4af9e550dbda3dc50264a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/arrays/timedeltas.py @@ -0,0 +1,1185 @@ +from __future__ import annotations + +from datetime import timedelta +import operator +from typing import ( + TYPE_CHECKING, + cast, +) + +import numpy as np + +from pandas._libs import ( + lib, + tslibs, +) +from pandas._libs.tslibs import ( + NaT, + NaTType, + Tick, + Timedelta, + astype_overflowsafe, + get_supported_dtype, + iNaT, + is_supported_dtype, + periods_per_second, +) +from pandas._libs.tslibs.conversion import cast_from_unit_vectorized +from pandas._libs.tslibs.fields import ( + get_timedelta_days, + get_timedelta_field, +) +from pandas._libs.tslibs.timedeltas import ( + array_to_timedelta64, + floordiv_object_array, + ints_to_pytimedelta, + parse_timedelta_unit, + truediv_object_array, +) +from pandas.compat.numpy import function as nv +from pandas.util._validators import validate_endpoints + +from pandas.core.dtypes.common import ( + TD64NS_DTYPE, + is_float_dtype, + is_integer_dtype, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.missing import isna + +from pandas.core import ( + nanops, + roperator, +) +from pandas.core.array_algos import datetimelike_accumulations +from pandas.core.arrays import datetimelike as dtl +from pandas.core.arrays._ranges import generate_regular_range +import pandas.core.common as com +from pandas.core.ops.common import unpack_zerodim_and_defer + +if TYPE_CHECKING: + from collections.abc import Iterator + + from pandas._typing import ( + AxisInt, + DateTimeErrorChoices, + DtypeObj, + NpDtype, + Self, + npt, + ) + + from pandas import DataFrame + +import textwrap + + +def _field_accessor(name: str, alias: str, docstring: str): + def f(self) -> np.ndarray: + values = self.asi8 + if alias == "days": + result = get_timedelta_days(values, reso=self._creso) + else: + # error: Incompatible types in assignment ( + # expression has type "ndarray[Any, dtype[signedinteger[_32Bit]]]", + # variable has type "ndarray[Any, dtype[signedinteger[_64Bit]]] + result = get_timedelta_field(values, alias, reso=self._creso) # type: ignore[assignment] + if self._hasna: + result = self._maybe_mask_results( + result, fill_value=None, convert="float64" + ) + + return result + + f.__name__ = name + f.__doc__ = f"\n{docstring}\n" + return property(f) + + +class TimedeltaArray(dtl.TimelikeOps): + """ + Pandas ExtensionArray for timedelta data. + + .. warning:: + + TimedeltaArray is currently experimental, and its API may change + without warning. In particular, :attr:`TimedeltaArray.dtype` is + expected to change to be an instance of an ``ExtensionDtype`` + subclass. + + Parameters + ---------- + values : array-like + The timedelta data. + + dtype : numpy.dtype + Currently, only ``numpy.dtype("timedelta64[ns]")`` is accepted. + freq : Offset, optional + copy : bool, default False + Whether to copy the underlying array of data. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> pd.arrays.TimedeltaArray._from_sequence(pd.TimedeltaIndex(['1h', '2h'])) + + ['0 days 01:00:00', '0 days 02:00:00'] + Length: 2, dtype: timedelta64[ns] + """ + + _typ = "timedeltaarray" + _internal_fill_value = np.timedelta64("NaT", "ns") + _recognized_scalars = (timedelta, np.timedelta64, Tick) + _is_recognized_dtype = lambda x: lib.is_np_dtype(x, "m") + _infer_matches = ("timedelta", "timedelta64") + + @property + def _scalar_type(self) -> type[Timedelta]: + return Timedelta + + __array_priority__ = 1000 + # define my properties & methods for delegation + _other_ops: list[str] = [] + _bool_ops: list[str] = [] + _object_ops: list[str] = ["freq"] + _field_ops: list[str] = ["days", "seconds", "microseconds", "nanoseconds"] + _datetimelike_ops: list[str] = _field_ops + _object_ops + _bool_ops + ["unit"] + _datetimelike_methods: list[str] = [ + "to_pytimedelta", + "total_seconds", + "round", + "floor", + "ceil", + "as_unit", + ] + + # Note: ndim must be defined to ensure NaT.__richcmp__(TimedeltaArray) + # operates pointwise. + + def _box_func(self, x: np.timedelta64) -> Timedelta | NaTType: + y = x.view("i8") + if y == NaT._value: + return NaT + return Timedelta._from_value_and_reso(y, reso=self._creso) + + @property + # error: Return type "dtype" of "dtype" incompatible with return type + # "ExtensionDtype" in supertype "ExtensionArray" + def dtype(self) -> np.dtype[np.timedelta64]: # type: ignore[override] + """ + The dtype for the TimedeltaArray. + + .. warning:: + + A future version of pandas will change dtype to be an instance + of a :class:`pandas.api.extensions.ExtensionDtype` subclass, + not a ``numpy.dtype``. + + Returns + ------- + numpy.dtype + """ + return self._ndarray.dtype + + # ---------------------------------------------------------------- + # Constructors + + _freq = None + _default_dtype = TD64NS_DTYPE # used in TimeLikeOps.__init__ + + @classmethod + def _validate_dtype(cls, values, dtype): + # used in TimeLikeOps.__init__ + dtype = _validate_td64_dtype(dtype) + _validate_td64_dtype(values.dtype) + if dtype != values.dtype: + raise ValueError("Values resolution does not match dtype.") + return dtype + + # error: Signature of "_simple_new" incompatible with supertype "NDArrayBacked" + @classmethod + def _simple_new( # type: ignore[override] + cls, + values: npt.NDArray[np.timedelta64], + freq: Tick | None = None, + dtype: np.dtype[np.timedelta64] = TD64NS_DTYPE, + ) -> Self: + # Require td64 dtype, not unit-less, matching values.dtype + assert lib.is_np_dtype(dtype, "m") + assert not tslibs.is_unitless(dtype) + assert isinstance(values, np.ndarray), type(values) + assert dtype == values.dtype + assert freq is None or isinstance(freq, Tick) + + result = super()._simple_new(values=values, dtype=dtype) + result._freq = freq + return result + + @classmethod + def _from_sequence(cls, data, *, dtype=None, copy: bool = False) -> Self: + if dtype: + dtype = _validate_td64_dtype(dtype) + + data, freq = sequence_to_td64ns(data, copy=copy, unit=None) + + if dtype is not None: + data = astype_overflowsafe(data, dtype=dtype, copy=False) + + return cls._simple_new(data, dtype=data.dtype, freq=freq) + + @classmethod + def _from_sequence_not_strict( + cls, + data, + *, + dtype=None, + copy: bool = False, + freq=lib.no_default, + unit=None, + ) -> Self: + """ + _from_sequence_not_strict but without responsibility for finding the + result's `freq`. + """ + if dtype: + dtype = _validate_td64_dtype(dtype) + + assert unit not in ["Y", "y", "M"] # caller is responsible for checking + + data, inferred_freq = sequence_to_td64ns(data, copy=copy, unit=unit) + + if dtype is not None: + data = astype_overflowsafe(data, dtype=dtype, copy=False) + + result = cls._simple_new(data, dtype=data.dtype, freq=inferred_freq) + + result._maybe_pin_freq(freq, {}) + return result + + @classmethod + def _generate_range( + cls, start, end, periods, freq, closed=None, *, unit: str | None = None + ) -> Self: + periods = dtl.validate_periods(periods) + if freq is None and any(x is None for x in [periods, start, end]): + raise ValueError("Must provide freq argument if no data is supplied") + + if com.count_not_none(start, end, periods, freq) != 3: + raise ValueError( + "Of the four parameters: start, end, periods, " + "and freq, exactly three must be specified" + ) + + if start is not None: + start = Timedelta(start).as_unit("ns") + + if end is not None: + end = Timedelta(end).as_unit("ns") + + if unit is not None: + if unit not in ["s", "ms", "us", "ns"]: + raise ValueError("'unit' must be one of 's', 'ms', 'us', 'ns'") + else: + unit = "ns" + + if start is not None and unit is not None: + start = start.as_unit(unit, round_ok=False) + if end is not None and unit is not None: + end = end.as_unit(unit, round_ok=False) + + left_closed, right_closed = validate_endpoints(closed) + + if freq is not None: + index = generate_regular_range(start, end, periods, freq, unit=unit) + else: + index = np.linspace(start._value, end._value, periods).astype("i8") + + if not left_closed: + index = index[1:] + if not right_closed: + index = index[:-1] + + td64values = index.view(f"m8[{unit}]") + return cls._simple_new(td64values, dtype=td64values.dtype, freq=freq) + + # ---------------------------------------------------------------- + # DatetimeLike Interface + + def _unbox_scalar(self, value) -> np.timedelta64: + if not isinstance(value, self._scalar_type) and value is not NaT: + raise ValueError("'value' should be a Timedelta.") + self._check_compatible_with(value) + if value is NaT: + return np.timedelta64(value._value, self.unit) + else: + return value.as_unit(self.unit).asm8 + + def _scalar_from_string(self, value) -> Timedelta | NaTType: + return Timedelta(value) + + def _check_compatible_with(self, other) -> None: + # we don't have anything to validate. + pass + + # ---------------------------------------------------------------- + # Array-Like / EA-Interface Methods + + def astype(self, dtype, copy: bool = True): + # We handle + # --> timedelta64[ns] + # --> timedelta64 + # DatetimeLikeArrayMixin super call handles other cases + dtype = pandas_dtype(dtype) + + if lib.is_np_dtype(dtype, "m"): + if dtype == self.dtype: + if copy: + return self.copy() + return self + + if is_supported_dtype(dtype): + # unit conversion e.g. timedelta64[s] + res_values = astype_overflowsafe(self._ndarray, dtype, copy=False) + return type(self)._simple_new( + res_values, dtype=res_values.dtype, freq=self.freq + ) + else: + raise ValueError( + f"Cannot convert from {self.dtype} to {dtype}. " + "Supported resolutions are 's', 'ms', 'us', 'ns'" + ) + + return dtl.DatetimeLikeArrayMixin.astype(self, dtype, copy=copy) + + def __iter__(self) -> Iterator: + if self.ndim > 1: + for i in range(len(self)): + yield self[i] + else: + # convert in chunks of 10k for efficiency + data = self._ndarray + length = len(self) + chunksize = 10000 + chunks = (length // chunksize) + 1 + for i in range(chunks): + start_i = i * chunksize + end_i = min((i + 1) * chunksize, length) + converted = ints_to_pytimedelta(data[start_i:end_i], box=True) + yield from converted + + # ---------------------------------------------------------------- + # Reductions + + def sum( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + keepdims: bool = False, + initial=None, + skipna: bool = True, + min_count: int = 0, + ): + nv.validate_sum( + (), {"dtype": dtype, "out": out, "keepdims": keepdims, "initial": initial} + ) + + result = nanops.nansum( + self._ndarray, axis=axis, skipna=skipna, min_count=min_count + ) + return self._wrap_reduction_result(axis, result) + + def std( + self, + *, + axis: AxisInt | None = None, + dtype: NpDtype | None = None, + out=None, + ddof: int = 1, + keepdims: bool = False, + skipna: bool = True, + ): + nv.validate_stat_ddof_func( + (), {"dtype": dtype, "out": out, "keepdims": keepdims}, fname="std" + ) + + result = nanops.nanstd(self._ndarray, axis=axis, skipna=skipna, ddof=ddof) + if axis is None or self.ndim == 1: + return self._box_func(result) + return self._from_backing_data(result) + + # ---------------------------------------------------------------- + # Accumulations + + def _accumulate(self, name: str, *, skipna: bool = True, **kwargs): + if name == "cumsum": + op = getattr(datetimelike_accumulations, name) + result = op(self._ndarray.copy(), skipna=skipna, **kwargs) + + return type(self)._simple_new(result, freq=None, dtype=self.dtype) + elif name == "cumprod": + raise TypeError("cumprod not supported for Timedelta.") + + else: + return super()._accumulate(name, skipna=skipna, **kwargs) + + # ---------------------------------------------------------------- + # Rendering Methods + + def _formatter(self, boxed: bool = False): + from pandas.io.formats.format import get_format_timedelta64 + + return get_format_timedelta64(self, box=True) + + def _format_native_types( + self, *, na_rep: str | float = "NaT", date_format=None, **kwargs + ) -> npt.NDArray[np.object_]: + from pandas.io.formats.format import get_format_timedelta64 + + # Relies on TimeDelta._repr_base + formatter = get_format_timedelta64(self, na_rep) + # equiv: np.array([formatter(x) for x in self._ndarray]) + # but independent of dimension + return np.frompyfunc(formatter, 1, 1)(self._ndarray) + + # ---------------------------------------------------------------- + # Arithmetic Methods + + def _add_offset(self, other): + assert not isinstance(other, Tick) + raise TypeError( + f"cannot add the type {type(other).__name__} to a {type(self).__name__}" + ) + + @unpack_zerodim_and_defer("__mul__") + def __mul__(self, other) -> Self: + if is_scalar(other): + # numpy will accept float and int, raise TypeError for others + result = self._ndarray * other + if result.dtype.kind != "m": + # numpy >= 2.1 may not raise a TypeError + # and seems to dispatch to others.__rmul__? + raise TypeError(f"Cannot multiply with {type(other).__name__}") + freq = None + if self.freq is not None and not isna(other): + freq = self.freq * other + if freq.n == 0: + # GH#51575 Better to have no freq than an incorrect one + freq = None + return type(self)._simple_new(result, dtype=result.dtype, freq=freq) + + if not hasattr(other, "dtype"): + # list, tuple + other = np.array(other) + if len(other) != len(self) and not lib.is_np_dtype(other.dtype, "m"): + # Exclude timedelta64 here so we correctly raise TypeError + # for that instead of ValueError + raise ValueError("Cannot multiply with unequal lengths") + + if is_object_dtype(other.dtype): + # this multiplication will succeed only if all elements of other + # are int or float scalars, so we will end up with + # timedelta64[ns]-dtyped result + arr = self._ndarray + result = [arr[n] * other[n] for n in range(len(self))] + result = np.array(result) + return type(self)._simple_new(result, dtype=result.dtype) + + # numpy will accept float or int dtype, raise TypeError for others + result = self._ndarray * other + if result.dtype.kind != "m": + # numpy >= 2.1 may not raise a TypeError + # and seems to dispatch to others.__rmul__? + raise TypeError(f"Cannot multiply with {type(other).__name__}") + return type(self)._simple_new(result, dtype=result.dtype) + + __rmul__ = __mul__ + + def _scalar_divlike_op(self, other, op): + """ + Shared logic for __truediv__, __rtruediv__, __floordiv__, __rfloordiv__ + with scalar 'other'. + """ + if isinstance(other, self._recognized_scalars): + other = Timedelta(other) + # mypy assumes that __new__ returns an instance of the class + # github.com/python/mypy/issues/1020 + if cast("Timedelta | NaTType", other) is NaT: + # specifically timedelta64-NaT + res = np.empty(self.shape, dtype=np.float64) + res.fill(np.nan) + return res + + # otherwise, dispatch to Timedelta implementation + return op(self._ndarray, other) + + else: + # caller is responsible for checking lib.is_scalar(other) + # assume other is numeric, otherwise numpy will raise + + if op in [roperator.rtruediv, roperator.rfloordiv]: + raise TypeError( + f"Cannot divide {type(other).__name__} by {type(self).__name__}" + ) + + result = op(self._ndarray, other) + freq = None + + if self.freq is not None: + # Note: freq gets division, not floor-division, even if op + # is floordiv. + freq = self.freq / other + if freq.nanos == 0 and self.freq.nanos != 0: + # e.g. if self.freq is Nano(1) then dividing by 2 + # rounds down to zero + freq = None + + return type(self)._simple_new(result, dtype=result.dtype, freq=freq) + + def _cast_divlike_op(self, other): + if not hasattr(other, "dtype"): + # e.g. list, tuple + other = np.array(other) + + if len(other) != len(self): + raise ValueError("Cannot divide vectors with unequal lengths") + return other + + def _vector_divlike_op(self, other, op) -> np.ndarray | Self: + """ + Shared logic for __truediv__, __floordiv__, and their reversed versions + with timedelta64-dtype ndarray other. + """ + # Let numpy handle it + result = op(self._ndarray, np.asarray(other)) + + if (is_integer_dtype(other.dtype) or is_float_dtype(other.dtype)) and op in [ + operator.truediv, + operator.floordiv, + ]: + return type(self)._simple_new(result, dtype=result.dtype) + + if op in [operator.floordiv, roperator.rfloordiv]: + mask = self.isna() | isna(other) + if mask.any(): + result = result.astype(np.float64) + np.putmask(result, mask, np.nan) + + return result + + @unpack_zerodim_and_defer("__truediv__") + def __truediv__(self, other): + # timedelta / X is well-defined for timedelta-like or numeric X + op = operator.truediv + if is_scalar(other): + return self._scalar_divlike_op(other, op) + + other = self._cast_divlike_op(other) + if ( + lib.is_np_dtype(other.dtype, "m") + or is_integer_dtype(other.dtype) + or is_float_dtype(other.dtype) + ): + return self._vector_divlike_op(other, op) + + if is_object_dtype(other.dtype): + other = np.asarray(other) + if self.ndim > 1: + res_cols = [left / right for left, right in zip(self, other)] + res_cols2 = [x.reshape(1, -1) for x in res_cols] + result = np.concatenate(res_cols2, axis=0) + else: + result = truediv_object_array(self._ndarray, other) + + return result + + else: + return NotImplemented + + @unpack_zerodim_and_defer("__rtruediv__") + def __rtruediv__(self, other): + # X / timedelta is defined only for timedelta-like X + op = roperator.rtruediv + if is_scalar(other): + return self._scalar_divlike_op(other, op) + + other = self._cast_divlike_op(other) + if lib.is_np_dtype(other.dtype, "m"): + return self._vector_divlike_op(other, op) + + elif is_object_dtype(other.dtype): + # Note: unlike in __truediv__, we do not _need_ to do type + # inference on the result. It does not raise, a numeric array + # is returned. GH#23829 + result_list = [other[n] / self[n] for n in range(len(self))] + return np.array(result_list) + + else: + return NotImplemented + + @unpack_zerodim_and_defer("__floordiv__") + def __floordiv__(self, other): + op = operator.floordiv + if is_scalar(other): + return self._scalar_divlike_op(other, op) + + other = self._cast_divlike_op(other) + if ( + lib.is_np_dtype(other.dtype, "m") + or is_integer_dtype(other.dtype) + or is_float_dtype(other.dtype) + ): + return self._vector_divlike_op(other, op) + + elif is_object_dtype(other.dtype): + other = np.asarray(other) + if self.ndim > 1: + res_cols = [left // right for left, right in zip(self, other)] + res_cols2 = [x.reshape(1, -1) for x in res_cols] + result = np.concatenate(res_cols2, axis=0) + else: + result = floordiv_object_array(self._ndarray, other) + + assert result.dtype == object + return result + + else: + return NotImplemented + + @unpack_zerodim_and_defer("__rfloordiv__") + def __rfloordiv__(self, other): + op = roperator.rfloordiv + if is_scalar(other): + return self._scalar_divlike_op(other, op) + + other = self._cast_divlike_op(other) + if lib.is_np_dtype(other.dtype, "m"): + return self._vector_divlike_op(other, op) + + elif is_object_dtype(other.dtype): + result_list = [other[n] // self[n] for n in range(len(self))] + result = np.array(result_list) + return result + + else: + return NotImplemented + + @unpack_zerodim_and_defer("__mod__") + def __mod__(self, other): + # Note: This is a naive implementation, can likely be optimized + if isinstance(other, self._recognized_scalars): + other = Timedelta(other) + return self - (self // other) * other + + @unpack_zerodim_and_defer("__rmod__") + def __rmod__(self, other): + # Note: This is a naive implementation, can likely be optimized + if isinstance(other, self._recognized_scalars): + other = Timedelta(other) + return other - (other // self) * self + + @unpack_zerodim_and_defer("__divmod__") + def __divmod__(self, other): + # Note: This is a naive implementation, can likely be optimized + if isinstance(other, self._recognized_scalars): + other = Timedelta(other) + + res1 = self // other + res2 = self - res1 * other + return res1, res2 + + @unpack_zerodim_and_defer("__rdivmod__") + def __rdivmod__(self, other): + # Note: This is a naive implementation, can likely be optimized + if isinstance(other, self._recognized_scalars): + other = Timedelta(other) + + res1 = other // self + res2 = other - res1 * self + return res1, res2 + + def __neg__(self) -> TimedeltaArray: + freq = None + if self.freq is not None: + freq = -self.freq + return type(self)._simple_new(-self._ndarray, dtype=self.dtype, freq=freq) + + def __pos__(self) -> TimedeltaArray: + return type(self)._simple_new( + self._ndarray.copy(), dtype=self.dtype, freq=self.freq + ) + + def __abs__(self) -> TimedeltaArray: + # Note: freq is not preserved + return type(self)._simple_new(np.abs(self._ndarray), dtype=self.dtype) + + # ---------------------------------------------------------------- + # Conversion Methods - Vectorized analogues of Timedelta methods + + def total_seconds(self) -> npt.NDArray[np.float64]: + """ + Return total duration of each element expressed in seconds. + + This method is available directly on TimedeltaArray, TimedeltaIndex + and on Series containing timedelta values under the ``.dt`` namespace. + + Returns + ------- + ndarray, Index or Series + When the calling object is a TimedeltaArray, the return type + is ndarray. When the calling object is a TimedeltaIndex, + the return type is an Index with a float64 dtype. When the calling object + is a Series, the return type is Series of type `float64` whose + index is the same as the original. + + See Also + -------- + datetime.timedelta.total_seconds : Standard library version + of this method. + TimedeltaIndex.components : Return a DataFrame with components of + each Timedelta. + + Examples + -------- + **Series** + + >>> s = pd.Series(pd.to_timedelta(np.arange(5), unit='d')) + >>> s + 0 0 days + 1 1 days + 2 2 days + 3 3 days + 4 4 days + dtype: timedelta64[ns] + + >>> s.dt.total_seconds() + 0 0.0 + 1 86400.0 + 2 172800.0 + 3 259200.0 + 4 345600.0 + dtype: float64 + + **TimedeltaIndex** + + >>> idx = pd.to_timedelta(np.arange(5), unit='d') + >>> idx + TimedeltaIndex(['0 days', '1 days', '2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq=None) + + >>> idx.total_seconds() + Index([0.0, 86400.0, 172800.0, 259200.0, 345600.0], dtype='float64') + """ + pps = periods_per_second(self._creso) + return self._maybe_mask_results(self.asi8 / pps, fill_value=None) + + def to_pytimedelta(self) -> npt.NDArray[np.object_]: + """ + Return an ndarray of datetime.timedelta objects. + + Returns + ------- + numpy.ndarray + + Examples + -------- + >>> tdelta_idx = pd.to_timedelta([1, 2, 3], unit='D') + >>> tdelta_idx + TimedeltaIndex(['1 days', '2 days', '3 days'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.to_pytimedelta() + array([datetime.timedelta(days=1), datetime.timedelta(days=2), + datetime.timedelta(days=3)], dtype=object) + """ + return ints_to_pytimedelta(self._ndarray) + + days_docstring = textwrap.dedent( + """Number of days for each element. + + Examples + -------- + For Series: + + >>> ser = pd.Series(pd.to_timedelta([1, 2, 3], unit='d')) + >>> ser + 0 1 days + 1 2 days + 2 3 days + dtype: timedelta64[ns] + >>> ser.dt.days + 0 1 + 1 2 + 2 3 + dtype: int64 + + For TimedeltaIndex: + + >>> tdelta_idx = pd.to_timedelta(["0 days", "10 days", "20 days"]) + >>> tdelta_idx + TimedeltaIndex(['0 days', '10 days', '20 days'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.days + Index([0, 10, 20], dtype='int64')""" + ) + days = _field_accessor("days", "days", days_docstring) + + seconds_docstring = textwrap.dedent( + """Number of seconds (>= 0 and less than 1 day) for each element. + + Examples + -------- + For Series: + + >>> ser = pd.Series(pd.to_timedelta([1, 2, 3], unit='s')) + >>> ser + 0 0 days 00:00:01 + 1 0 days 00:00:02 + 2 0 days 00:00:03 + dtype: timedelta64[ns] + >>> ser.dt.seconds + 0 1 + 1 2 + 2 3 + dtype: int32 + + For TimedeltaIndex: + + >>> tdelta_idx = pd.to_timedelta([1, 2, 3], unit='s') + >>> tdelta_idx + TimedeltaIndex(['0 days 00:00:01', '0 days 00:00:02', '0 days 00:00:03'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.seconds + Index([1, 2, 3], dtype='int32')""" + ) + seconds = _field_accessor( + "seconds", + "seconds", + seconds_docstring, + ) + + microseconds_docstring = textwrap.dedent( + """Number of microseconds (>= 0 and less than 1 second) for each element. + + Examples + -------- + For Series: + + >>> ser = pd.Series(pd.to_timedelta([1, 2, 3], unit='us')) + >>> ser + 0 0 days 00:00:00.000001 + 1 0 days 00:00:00.000002 + 2 0 days 00:00:00.000003 + dtype: timedelta64[ns] + >>> ser.dt.microseconds + 0 1 + 1 2 + 2 3 + dtype: int32 + + For TimedeltaIndex: + + >>> tdelta_idx = pd.to_timedelta([1, 2, 3], unit='us') + >>> tdelta_idx + TimedeltaIndex(['0 days 00:00:00.000001', '0 days 00:00:00.000002', + '0 days 00:00:00.000003'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.microseconds + Index([1, 2, 3], dtype='int32')""" + ) + microseconds = _field_accessor( + "microseconds", + "microseconds", + microseconds_docstring, + ) + + nanoseconds_docstring = textwrap.dedent( + """Number of nanoseconds (>= 0 and less than 1 microsecond) for each element. + + Examples + -------- + For Series: + + >>> ser = pd.Series(pd.to_timedelta([1, 2, 3], unit='ns')) + >>> ser + 0 0 days 00:00:00.000000001 + 1 0 days 00:00:00.000000002 + 2 0 days 00:00:00.000000003 + dtype: timedelta64[ns] + >>> ser.dt.nanoseconds + 0 1 + 1 2 + 2 3 + dtype: int32 + + For TimedeltaIndex: + + >>> tdelta_idx = pd.to_timedelta([1, 2, 3], unit='ns') + >>> tdelta_idx + TimedeltaIndex(['0 days 00:00:00.000000001', '0 days 00:00:00.000000002', + '0 days 00:00:00.000000003'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.nanoseconds + Index([1, 2, 3], dtype='int32')""" + ) + nanoseconds = _field_accessor( + "nanoseconds", + "nanoseconds", + nanoseconds_docstring, + ) + + @property + def components(self) -> DataFrame: + """ + Return a DataFrame of the individual resolution components of the Timedeltas. + + The components (days, hours, minutes seconds, milliseconds, microseconds, + nanoseconds) are returned as columns in a DataFrame. + + Returns + ------- + DataFrame + + Examples + -------- + >>> tdelta_idx = pd.to_timedelta(['1 day 3 min 2 us 42 ns']) + >>> tdelta_idx + TimedeltaIndex(['1 days 00:03:00.000002042'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.components + days hours minutes seconds milliseconds microseconds nanoseconds + 0 1 0 3 0 0 2 42 + """ + from pandas import DataFrame + + columns = [ + "days", + "hours", + "minutes", + "seconds", + "milliseconds", + "microseconds", + "nanoseconds", + ] + hasnans = self._hasna + if hasnans: + + def f(x): + if isna(x): + return [np.nan] * len(columns) + return x.components + + else: + + def f(x): + return x.components + + result = DataFrame([f(x) for x in self], columns=columns) + if not hasnans: + result = result.astype("int64") + return result + + +# --------------------------------------------------------------------- +# Constructor Helpers + + +def sequence_to_td64ns( + data, + copy: bool = False, + unit=None, + errors: DateTimeErrorChoices = "raise", +) -> tuple[np.ndarray, Tick | None]: + """ + Parameters + ---------- + data : list-like + copy : bool, default False + unit : str, optional + The timedelta unit to treat integers as multiples of. For numeric + data this defaults to ``'ns'``. + Must be un-specified if the data contains a str and ``errors=="raise"``. + errors : {"raise", "coerce", "ignore"}, default "raise" + How to handle elements that cannot be converted to timedelta64[ns]. + See ``pandas.to_timedelta`` for details. + + Returns + ------- + converted : numpy.ndarray + The sequence converted to a numpy array with dtype ``timedelta64[ns]``. + inferred_freq : Tick or None + The inferred frequency of the sequence. + + Raises + ------ + ValueError : Data cannot be converted to timedelta64[ns]. + + Notes + ----- + Unlike `pandas.to_timedelta`, if setting ``errors=ignore`` will not cause + errors to be ignored; they are caught and subsequently ignored at a + higher level. + """ + assert unit not in ["Y", "y", "M"] # caller is responsible for checking + + inferred_freq = None + if unit is not None: + unit = parse_timedelta_unit(unit) + + data, copy = dtl.ensure_arraylike_for_datetimelike( + data, copy, cls_name="TimedeltaArray" + ) + + if isinstance(data, TimedeltaArray): + inferred_freq = data.freq + + # Convert whatever we have into timedelta64[ns] dtype + if data.dtype == object or is_string_dtype(data.dtype): + # no need to make a copy, need to convert if string-dtyped + data = _objects_to_td64ns(data, unit=unit, errors=errors) + copy = False + + elif is_integer_dtype(data.dtype): + # treat as multiples of the given unit + data, copy_made = _ints_to_td64ns(data, unit=unit) + copy = copy and not copy_made + + elif is_float_dtype(data.dtype): + # cast the unit, multiply base/frac separately + # to avoid precision issues from float -> int + if isinstance(data.dtype, ExtensionDtype): + mask = data._mask + data = data._data + else: + mask = np.isnan(data) + + data = cast_from_unit_vectorized(data, unit or "ns") + data[mask] = iNaT + data = data.view("m8[ns]") + copy = False + + elif lib.is_np_dtype(data.dtype, "m"): + if not is_supported_dtype(data.dtype): + # cast to closest supported unit, i.e. s or ns + new_dtype = get_supported_dtype(data.dtype) + data = astype_overflowsafe(data, dtype=new_dtype, copy=False) + copy = False + + else: + # This includes datetime64-dtype, see GH#23539, GH#29794 + raise TypeError(f"dtype {data.dtype} cannot be converted to timedelta64[ns]") + + if not copy: + data = np.asarray(data) + else: + data = np.array(data, copy=copy) + + assert data.dtype.kind == "m" + assert data.dtype != "m8" # i.e. not unit-less + + return data, inferred_freq + + +def _ints_to_td64ns(data, unit: str = "ns"): + """ + Convert an ndarray with integer-dtype to timedelta64[ns] dtype, treating + the integers as multiples of the given timedelta unit. + + Parameters + ---------- + data : numpy.ndarray with integer-dtype + unit : str, default "ns" + The timedelta unit to treat integers as multiples of. + + Returns + ------- + numpy.ndarray : timedelta64[ns] array converted from data + bool : whether a copy was made + """ + copy_made = False + unit = unit if unit is not None else "ns" + + if data.dtype != np.int64: + # converting to int64 makes a copy, so we can avoid + # re-copying later + data = data.astype(np.int64) + copy_made = True + + if unit != "ns": + dtype_str = f"timedelta64[{unit}]" + data = data.view(dtype_str) + + data = astype_overflowsafe(data, dtype=TD64NS_DTYPE) + + # the astype conversion makes a copy, so we can avoid re-copying later + copy_made = True + + else: + data = data.view("timedelta64[ns]") + + return data, copy_made + + +def _objects_to_td64ns(data, unit=None, errors: DateTimeErrorChoices = "raise"): + """ + Convert a object-dtyped or string-dtyped array into an + timedelta64[ns]-dtyped array. + + Parameters + ---------- + data : ndarray or Index + unit : str, default "ns" + The timedelta unit to treat integers as multiples of. + Must not be specified if the data contains a str. + errors : {"raise", "coerce", "ignore"}, default "raise" + How to handle elements that cannot be converted to timedelta64[ns]. + See ``pandas.to_timedelta`` for details. + + Returns + ------- + numpy.ndarray : timedelta64[ns] array converted from data + + Raises + ------ + ValueError : Data cannot be converted to timedelta64[ns]. + + Notes + ----- + Unlike `pandas.to_timedelta`, if setting `errors=ignore` will not cause + errors to be ignored; they are caught and subsequently ignored at a + higher level. + """ + # coerce Index to np.ndarray, converting string-dtype if necessary + values = np.asarray(data, dtype=np.object_) + + result = array_to_timedelta64(values, unit=unit, errors=errors) + return result.view("timedelta64[ns]") + + +def _validate_td64_dtype(dtype) -> DtypeObj: + dtype = pandas_dtype(dtype) + if dtype == np.dtype("m8"): + # no precision disallowed GH#24806 + msg = ( + "Passing in 'timedelta' dtype with no precision is not allowed. " + "Please pass in 'timedelta64[ns]' instead." + ) + raise ValueError(msg) + + if not lib.is_np_dtype(dtype, "m"): + raise ValueError(f"dtype '{dtype}' is invalid, should be np.timedelta64 dtype") + elif not is_supported_dtype(dtype): + raise ValueError("Supported timedelta64 resolutions are 's', 'ms', 'us', 'ns'") + + return dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/common.py new file mode 100644 index 0000000000000000000000000000000000000000..9f024498d66edfe9cab7b6fb2e0802da79163786 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/common.py @@ -0,0 +1,657 @@ +""" +Misc tools for implementing data structures + +Note: pandas.core.common is *not* part of the public API. +""" +from __future__ import annotations + +import builtins +from collections import ( + abc, + defaultdict, +) +from collections.abc import ( + Collection, + Generator, + Hashable, + Iterable, + Sequence, +) +import contextlib +from functools import partial +import inspect +from typing import ( + TYPE_CHECKING, + Any, + Callable, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas.compat.numpy import np_version_gte1p24 + +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_integer, +) +from pandas.core.dtypes.generic import ( + ABCExtensionArray, + ABCIndex, + ABCMultiIndex, + ABCSeries, +) +from pandas.core.dtypes.inference import iterable_not_string + +if TYPE_CHECKING: + from pandas._typing import ( + AnyArrayLike, + ArrayLike, + NpDtype, + RandomState, + T, + ) + + from pandas import Index + + +def flatten(line): + """ + Flatten an arbitrarily nested sequence. + + Parameters + ---------- + line : sequence + The non string sequence to flatten + + Notes + ----- + This doesn't consider strings sequences. + + Returns + ------- + flattened : generator + """ + for element in line: + if iterable_not_string(element): + yield from flatten(element) + else: + yield element + + +def consensus_name_attr(objs): + name = objs[0].name + for obj in objs[1:]: + try: + if obj.name != name: + name = None + except ValueError: + name = None + return name + + +def is_bool_indexer(key: Any) -> bool: + """ + Check whether `key` is a valid boolean indexer. + + Parameters + ---------- + key : Any + Only list-likes may be considered boolean indexers. + All other types are not considered a boolean indexer. + For array-like input, boolean ndarrays or ExtensionArrays + with ``_is_boolean`` set are considered boolean indexers. + + Returns + ------- + bool + Whether `key` is a valid boolean indexer. + + Raises + ------ + ValueError + When the array is an object-dtype ndarray or ExtensionArray + and contains missing values. + + See Also + -------- + check_array_indexer : Check that `key` is a valid array to index, + and convert to an ndarray. + """ + if isinstance( + key, (ABCSeries, np.ndarray, ABCIndex, ABCExtensionArray) + ) and not isinstance(key, ABCMultiIndex): + if key.dtype == np.object_: + key_array = np.asarray(key) + + if not lib.is_bool_array(key_array): + na_msg = "Cannot mask with non-boolean array containing NA / NaN values" + if lib.is_bool_array(key_array, skipna=True): + # Don't raise on e.g. ["A", "B", np.nan], see + # test_loc_getitem_list_of_labels_categoricalindex_with_na + raise ValueError(na_msg) + return False + return True + elif is_bool_dtype(key.dtype): + return True + elif isinstance(key, list): + # check if np.array(key).dtype would be bool + if len(key) > 0: + if type(key) is not list: # noqa: E721 + # GH#42461 cython will raise TypeError if we pass a subclass + key = list(key) + return lib.is_bool_list(key) + + return False + + +def cast_scalar_indexer(val): + """ + Disallow indexing with a float key, even if that key is a round number. + + Parameters + ---------- + val : scalar + + Returns + ------- + outval : scalar + """ + # assumes lib.is_scalar(val) + if lib.is_float(val) and val.is_integer(): + raise IndexError( + # GH#34193 + "Indexing with a float is no longer supported. Manually convert " + "to an integer key instead." + ) + return val + + +def not_none(*args): + """ + Returns a generator consisting of the arguments that are not None. + """ + return (arg for arg in args if arg is not None) + + +def any_none(*args) -> bool: + """ + Returns a boolean indicating if any argument is None. + """ + return any(arg is None for arg in args) + + +def all_none(*args) -> bool: + """ + Returns a boolean indicating if all arguments are None. + """ + return all(arg is None for arg in args) + + +def any_not_none(*args) -> bool: + """ + Returns a boolean indicating if any argument is not None. + """ + return any(arg is not None for arg in args) + + +def all_not_none(*args) -> bool: + """ + Returns a boolean indicating if all arguments are not None. + """ + return all(arg is not None for arg in args) + + +def count_not_none(*args) -> int: + """ + Returns the count of arguments that are not None. + """ + return sum(x is not None for x in args) + + +@overload +def asarray_tuplesafe( + values: ArrayLike | list | tuple | zip, dtype: NpDtype | None = ... +) -> np.ndarray: + # ExtensionArray can only be returned when values is an Index, all other iterables + # will return np.ndarray. Unfortunately "all other" cannot be encoded in a type + # signature, so instead we special-case some common types. + ... + + +@overload +def asarray_tuplesafe(values: Iterable, dtype: NpDtype | None = ...) -> ArrayLike: + ... + + +def asarray_tuplesafe(values: Iterable, dtype: NpDtype | None = None) -> ArrayLike: + if not (isinstance(values, (list, tuple)) or hasattr(values, "__array__")): + values = list(values) + elif isinstance(values, ABCIndex): + return values._values + elif isinstance(values, ABCSeries): + return values._values + + if isinstance(values, list) and dtype in [np.object_, object]: + return construct_1d_object_array_from_listlike(values) + + try: + with warnings.catch_warnings(): + # Can remove warning filter once NumPy 1.24 is min version + if not np_version_gte1p24: + warnings.simplefilter("ignore", np.VisibleDeprecationWarning) + result = np.asarray(values, dtype=dtype) + except ValueError: + # Using try/except since it's more performant than checking is_list_like + # over each element + # error: Argument 1 to "construct_1d_object_array_from_listlike" + # has incompatible type "Iterable[Any]"; expected "Sized" + return construct_1d_object_array_from_listlike(values) # type: ignore[arg-type] + + if issubclass(result.dtype.type, str): + result = np.asarray(values, dtype=object) + + if result.ndim == 2: + # Avoid building an array of arrays: + values = [tuple(x) for x in values] + result = construct_1d_object_array_from_listlike(values) + + return result + + +def index_labels_to_array( + labels: np.ndarray | Iterable, dtype: NpDtype | None = None +) -> np.ndarray: + """ + Transform label or iterable of labels to array, for use in Index. + + Parameters + ---------- + dtype : dtype + If specified, use as dtype of the resulting array, otherwise infer. + + Returns + ------- + array + """ + if isinstance(labels, (str, tuple)): + labels = [labels] + + if not isinstance(labels, (list, np.ndarray)): + try: + labels = list(labels) + except TypeError: # non-iterable + labels = [labels] + + labels = asarray_tuplesafe(labels, dtype=dtype) + + return labels + + +def maybe_make_list(obj): + if obj is not None and not isinstance(obj, (tuple, list)): + return [obj] + return obj + + +def maybe_iterable_to_list(obj: Iterable[T] | T) -> Collection[T] | T: + """ + If obj is Iterable but not list-like, consume into list. + """ + if isinstance(obj, abc.Iterable) and not isinstance(obj, abc.Sized): + return list(obj) + obj = cast(Collection, obj) + return obj + + +def is_null_slice(obj) -> bool: + """ + We have a null slice. + """ + return ( + isinstance(obj, slice) + and obj.start is None + and obj.stop is None + and obj.step is None + ) + + +def is_empty_slice(obj) -> bool: + """ + We have an empty slice, e.g. no values are selected. + """ + return ( + isinstance(obj, slice) + and obj.start is not None + and obj.stop is not None + and obj.start == obj.stop + ) + + +def is_true_slices(line) -> list[bool]: + """ + Find non-trivial slices in "line": return a list of booleans with same length. + """ + return [isinstance(k, slice) and not is_null_slice(k) for k in line] + + +# TODO: used only once in indexing; belongs elsewhere? +def is_full_slice(obj, line: int) -> bool: + """ + We have a full length slice. + """ + return ( + isinstance(obj, slice) + and obj.start == 0 + and obj.stop == line + and obj.step is None + ) + + +def get_callable_name(obj): + # typical case has name + if hasattr(obj, "__name__"): + return getattr(obj, "__name__") + # some objects don't; could recurse + if isinstance(obj, partial): + return get_callable_name(obj.func) + # fall back to class name + if callable(obj): + return type(obj).__name__ + # everything failed (probably because the argument + # wasn't actually callable); we return None + # instead of the empty string in this case to allow + # distinguishing between no name and a name of '' + return None + + +def apply_if_callable(maybe_callable, obj, **kwargs): + """ + Evaluate possibly callable input using obj and kwargs if it is callable, + otherwise return as it is. + + Parameters + ---------- + maybe_callable : possibly a callable + obj : NDFrame + **kwargs + """ + if callable(maybe_callable): + return maybe_callable(obj, **kwargs) + + return maybe_callable + + +def standardize_mapping(into): + """ + Helper function to standardize a supplied mapping. + + Parameters + ---------- + into : instance or subclass of collections.abc.Mapping + Must be a class, an initialized collections.defaultdict, + or an instance of a collections.abc.Mapping subclass. + + Returns + ------- + mapping : a collections.abc.Mapping subclass or other constructor + a callable object that can accept an iterator to create + the desired Mapping. + + See Also + -------- + DataFrame.to_dict + Series.to_dict + """ + if not inspect.isclass(into): + if isinstance(into, defaultdict): + return partial(defaultdict, into.default_factory) + into = type(into) + if not issubclass(into, abc.Mapping): + raise TypeError(f"unsupported type: {into}") + if into == defaultdict: + raise TypeError("to_dict() only accepts initialized defaultdicts") + return into + + +@overload +def random_state(state: np.random.Generator) -> np.random.Generator: + ... + + +@overload +def random_state( + state: int | np.ndarray | np.random.BitGenerator | np.random.RandomState | None, +) -> np.random.RandomState: + ... + + +def random_state(state: RandomState | None = None): + """ + Helper function for processing random_state arguments. + + Parameters + ---------- + state : int, array-like, BitGenerator, Generator, np.random.RandomState, None. + If receives an int, array-like, or BitGenerator, passes to + np.random.RandomState() as seed. + If receives an np.random RandomState or Generator, just returns that unchanged. + If receives `None`, returns np.random. + If receives anything else, raises an informative ValueError. + + Default None. + + Returns + ------- + np.random.RandomState or np.random.Generator. If state is None, returns np.random + + """ + if is_integer(state) or isinstance(state, (np.ndarray, np.random.BitGenerator)): + return np.random.RandomState(state) + elif isinstance(state, np.random.RandomState): + return state + elif isinstance(state, np.random.Generator): + return state + elif state is None: + return np.random + else: + raise ValueError( + "random_state must be an integer, array-like, a BitGenerator, Generator, " + "a numpy RandomState, or None" + ) + + +def pipe( + obj, func: Callable[..., T] | tuple[Callable[..., T], str], *args, **kwargs +) -> T: + """ + Apply a function ``func`` to object ``obj`` either by passing obj as the + first argument to the function or, in the case that the func is a tuple, + interpret the first element of the tuple as a function and pass the obj to + that function as a keyword argument whose key is the value of the second + element of the tuple. + + Parameters + ---------- + func : callable or tuple of (callable, str) + Function to apply to this object or, alternatively, a + ``(callable, data_keyword)`` tuple where ``data_keyword`` is a + string indicating the keyword of ``callable`` that expects the + object. + *args : iterable, optional + Positional arguments passed into ``func``. + **kwargs : dict, optional + A dictionary of keyword arguments passed into ``func``. + + Returns + ------- + object : the return type of ``func``. + """ + if isinstance(func, tuple): + func, target = func + if target in kwargs: + msg = f"{target} is both the pipe target and a keyword argument" + raise ValueError(msg) + kwargs[target] = obj + return func(*args, **kwargs) + else: + return func(obj, *args, **kwargs) + + +def get_rename_function(mapper): + """ + Returns a function that will map names/labels, dependent if mapper + is a dict, Series or just a function. + """ + + def f(x): + if x in mapper: + return mapper[x] + else: + return x + + return f if isinstance(mapper, (abc.Mapping, ABCSeries)) else mapper + + +def convert_to_list_like( + values: Hashable | Iterable | AnyArrayLike, +) -> list | AnyArrayLike: + """ + Convert list-like or scalar input to list-like. List, numpy and pandas array-like + inputs are returned unmodified whereas others are converted to list. + """ + if isinstance(values, (list, np.ndarray, ABCIndex, ABCSeries, ABCExtensionArray)): + return values + elif isinstance(values, abc.Iterable) and not isinstance(values, str): + return list(values) + + return [values] + + +@contextlib.contextmanager +def temp_setattr( + obj, attr: str, value, condition: bool = True +) -> Generator[None, None, None]: + """ + Temporarily set attribute on an object. + + Parameters + ---------- + obj : object + Object whose attribute will be modified. + attr : str + Attribute to modify. + value : Any + Value to temporarily set attribute to. + condition : bool, default True + Whether to set the attribute. Provided in order to not have to + conditionally use this context manager. + + Yields + ------ + object : obj with modified attribute. + """ + if condition: + old_value = getattr(obj, attr) + setattr(obj, attr, value) + try: + yield obj + finally: + if condition: + setattr(obj, attr, old_value) + + +def require_length_match(data, index: Index) -> None: + """ + Check the length of data matches the length of the index. + """ + if len(data) != len(index): + raise ValueError( + "Length of values " + f"({len(data)}) " + "does not match length of index " + f"({len(index)})" + ) + + +# the ufuncs np.maximum.reduce and np.minimum.reduce default to axis=0, +# whereas np.min and np.max (which directly call obj.min and obj.max) +# default to axis=None. +_builtin_table = { + builtins.sum: np.sum, + builtins.max: np.maximum.reduce, + builtins.min: np.minimum.reduce, +} + +# GH#53425: Only for deprecation +_builtin_table_alias = { + builtins.sum: "np.sum", + builtins.max: "np.maximum.reduce", + builtins.min: "np.minimum.reduce", +} + +_cython_table = { + builtins.sum: "sum", + builtins.max: "max", + builtins.min: "min", + np.all: "all", + np.any: "any", + np.sum: "sum", + np.nansum: "sum", + np.mean: "mean", + np.nanmean: "mean", + np.prod: "prod", + np.nanprod: "prod", + np.std: "std", + np.nanstd: "std", + np.var: "var", + np.nanvar: "var", + np.median: "median", + np.nanmedian: "median", + np.max: "max", + np.nanmax: "max", + np.min: "min", + np.nanmin: "min", + np.cumprod: "cumprod", + np.nancumprod: "cumprod", + np.cumsum: "cumsum", + np.nancumsum: "cumsum", +} + + +def get_cython_func(arg: Callable) -> str | None: + """ + if we define an internal function for this argument, return it + """ + return _cython_table.get(arg) + + +def is_builtin_func(arg): + """ + if we define a builtin function for this argument, return it, + otherwise return the arg + """ + return _builtin_table.get(arg, arg) + + +def fill_missing_names(names: Sequence[Hashable | None]) -> list[Hashable]: + """ + If a name is missing then replace it by level_n, where n is the count + + .. versionadded:: 1.4.0 + + Parameters + ---------- + names : list-like + list of column names or None values. + + Returns + ------- + list + list of column names with the None values replaced. + """ + return [f"level_{i}" if name is None else name for i, name in enumerate(names)] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..4e404f408f8f6ef8db5d6bb5e4a8ce3a1298b65f Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/__pycache__/__init__.cpython-310.pyc differ diff --git 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b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/__pycache__/scope.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/check.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/check.py new file mode 100644 index 0000000000000000000000000000000000000000..caccf34f811112abbe04d965d6f6be1e21527e8b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/check.py @@ -0,0 +1,8 @@ +from __future__ import annotations + +from pandas.compat._optional import import_optional_dependency + +ne = import_optional_dependency("numexpr", errors="warn") +NUMEXPR_INSTALLED = ne is not None + +__all__ = ["NUMEXPR_INSTALLED"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/engines.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/engines.py new file mode 100644 index 0000000000000000000000000000000000000000..a3a05a9d75c6ed6b80564a69ff5b6cf5a648c1b3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/engines.py @@ -0,0 +1,143 @@ +""" +Engine classes for :func:`~pandas.eval` +""" +from __future__ import annotations + +import abc +from typing import TYPE_CHECKING + +from pandas.errors import NumExprClobberingError + +from pandas.core.computation.align import ( + align_terms, + reconstruct_object, +) +from pandas.core.computation.ops import ( + MATHOPS, + REDUCTIONS, +) + +from pandas.io.formats import printing + +if TYPE_CHECKING: + from pandas.core.computation.expr import Expr + +_ne_builtins = frozenset(MATHOPS + REDUCTIONS) + + +def _check_ne_builtin_clash(expr: Expr) -> None: + """ + Attempt to prevent foot-shooting in a helpful way. + + Parameters + ---------- + expr : Expr + Terms can contain + """ + names = expr.names + overlap = names & _ne_builtins + + if overlap: + s = ", ".join([repr(x) for x in overlap]) + raise NumExprClobberingError( + f'Variables in expression "{expr}" overlap with builtins: ({s})' + ) + + +class AbstractEngine(metaclass=abc.ABCMeta): + """Object serving as a base class for all engines.""" + + has_neg_frac = False + + def __init__(self, expr) -> None: + self.expr = expr + self.aligned_axes = None + self.result_type = None + + def convert(self) -> str: + """ + Convert an expression for evaluation. + + Defaults to return the expression as a string. + """ + return printing.pprint_thing(self.expr) + + def evaluate(self) -> object: + """ + Run the engine on the expression. + + This method performs alignment which is necessary no matter what engine + is being used, thus its implementation is in the base class. + + Returns + ------- + object + The result of the passed expression. + """ + if not self._is_aligned: + self.result_type, self.aligned_axes = align_terms(self.expr.terms) + + # make sure no names in resolvers and locals/globals clash + res = self._evaluate() + return reconstruct_object( + self.result_type, res, self.aligned_axes, self.expr.terms.return_type + ) + + @property + def _is_aligned(self) -> bool: + return self.aligned_axes is not None and self.result_type is not None + + @abc.abstractmethod + def _evaluate(self): + """ + Return an evaluated expression. + + Parameters + ---------- + env : Scope + The local and global environment in which to evaluate an + expression. + + Notes + ----- + Must be implemented by subclasses. + """ + + +class NumExprEngine(AbstractEngine): + """NumExpr engine class""" + + has_neg_frac = True + + def _evaluate(self): + import numexpr as ne + + # convert the expression to a valid numexpr expression + s = self.convert() + + env = self.expr.env + scope = env.full_scope + _check_ne_builtin_clash(self.expr) + return ne.evaluate(s, local_dict=scope) + + +class PythonEngine(AbstractEngine): + """ + Evaluate an expression in Python space. + + Mostly for testing purposes. + """ + + has_neg_frac = False + + def evaluate(self): + return self.expr() + + def _evaluate(self) -> None: + pass + + +ENGINES: dict[str, type[AbstractEngine]] = { + "numexpr": NumExprEngine, + "python": PythonEngine, +} diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expr.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expr.py new file mode 100644 index 0000000000000000000000000000000000000000..34055d2177626dad7415c2109dedbe6a205b626b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expr.py @@ -0,0 +1,840 @@ +""" +:func:`~pandas.eval` parsers. +""" +from __future__ import annotations + +import ast +from functools import ( + partial, + reduce, +) +from keyword import iskeyword +import tokenize +from typing import ( + Callable, + ClassVar, + TypeVar, +) + +import numpy as np + +from pandas.errors import UndefinedVariableError + +from pandas.core.dtypes.common import is_string_dtype + +import pandas.core.common as com +from pandas.core.computation.ops import ( + ARITH_OPS_SYMS, + BOOL_OPS_SYMS, + CMP_OPS_SYMS, + LOCAL_TAG, + MATHOPS, + REDUCTIONS, + UNARY_OPS_SYMS, + BinOp, + Constant, + FuncNode, + Op, + Term, + UnaryOp, + is_term, +) +from pandas.core.computation.parsing import ( + clean_backtick_quoted_toks, + tokenize_string, +) +from pandas.core.computation.scope import Scope + +from pandas.io.formats import printing + + +def _rewrite_assign(tok: tuple[int, str]) -> tuple[int, str]: + """ + Rewrite the assignment operator for PyTables expressions that use ``=`` + as a substitute for ``==``. + + Parameters + ---------- + tok : tuple of int, str + ints correspond to the all caps constants in the tokenize module + + Returns + ------- + tuple of int, str + Either the input or token or the replacement values + """ + toknum, tokval = tok + return toknum, "==" if tokval == "=" else tokval + + +def _replace_booleans(tok: tuple[int, str]) -> tuple[int, str]: + """ + Replace ``&`` with ``and`` and ``|`` with ``or`` so that bitwise + precedence is changed to boolean precedence. + + Parameters + ---------- + tok : tuple of int, str + ints correspond to the all caps constants in the tokenize module + + Returns + ------- + tuple of int, str + Either the input or token or the replacement values + """ + toknum, tokval = tok + if toknum == tokenize.OP: + if tokval == "&": + return tokenize.NAME, "and" + elif tokval == "|": + return tokenize.NAME, "or" + return toknum, tokval + return toknum, tokval + + +def _replace_locals(tok: tuple[int, str]) -> tuple[int, str]: + """ + Replace local variables with a syntactically valid name. + + Parameters + ---------- + tok : tuple of int, str + ints correspond to the all caps constants in the tokenize module + + Returns + ------- + tuple of int, str + Either the input or token or the replacement values + + Notes + ----- + This is somewhat of a hack in that we rewrite a string such as ``'@a'`` as + ``'__pd_eval_local_a'`` by telling the tokenizer that ``__pd_eval_local_`` + is a ``tokenize.OP`` and to replace the ``'@'`` symbol with it. + """ + toknum, tokval = tok + if toknum == tokenize.OP and tokval == "@": + return tokenize.OP, LOCAL_TAG + return toknum, tokval + + +def _compose2(f, g): + """ + Compose 2 callables. + """ + return lambda *args, **kwargs: f(g(*args, **kwargs)) + + +def _compose(*funcs): + """ + Compose 2 or more callables. + """ + assert len(funcs) > 1, "At least 2 callables must be passed to compose" + return reduce(_compose2, funcs) + + +def _preparse( + source: str, + f=_compose( + _replace_locals, _replace_booleans, _rewrite_assign, clean_backtick_quoted_toks + ), +) -> str: + """ + Compose a collection of tokenization functions. + + Parameters + ---------- + source : str + A Python source code string + f : callable + This takes a tuple of (toknum, tokval) as its argument and returns a + tuple with the same structure but possibly different elements. Defaults + to the composition of ``_rewrite_assign``, ``_replace_booleans``, and + ``_replace_locals``. + + Returns + ------- + str + Valid Python source code + + Notes + ----- + The `f` parameter can be any callable that takes *and* returns input of the + form ``(toknum, tokval)``, where ``toknum`` is one of the constants from + the ``tokenize`` module and ``tokval`` is a string. + """ + assert callable(f), "f must be callable" + return tokenize.untokenize(f(x) for x in tokenize_string(source)) + + +def _is_type(t): + """ + Factory for a type checking function of type ``t`` or tuple of types. + """ + return lambda x: isinstance(x.value, t) + + +_is_list = _is_type(list) +_is_str = _is_type(str) + + +# partition all AST nodes +_all_nodes = frozenset( + node + for node in (getattr(ast, name) for name in dir(ast)) + if isinstance(node, type) and issubclass(node, ast.AST) +) + + +def _filter_nodes(superclass, all_nodes=_all_nodes): + """ + Filter out AST nodes that are subclasses of ``superclass``. + """ + node_names = (node.__name__ for node in all_nodes if issubclass(node, superclass)) + return frozenset(node_names) + + +_all_node_names = frozenset(x.__name__ for x in _all_nodes) +_mod_nodes = _filter_nodes(ast.mod) +_stmt_nodes = _filter_nodes(ast.stmt) +_expr_nodes = _filter_nodes(ast.expr) +_expr_context_nodes = _filter_nodes(ast.expr_context) +_boolop_nodes = _filter_nodes(ast.boolop) +_operator_nodes = _filter_nodes(ast.operator) +_unary_op_nodes = _filter_nodes(ast.unaryop) +_cmp_op_nodes = _filter_nodes(ast.cmpop) +_comprehension_nodes = _filter_nodes(ast.comprehension) +_handler_nodes = _filter_nodes(ast.excepthandler) +_arguments_nodes = _filter_nodes(ast.arguments) +_keyword_nodes = _filter_nodes(ast.keyword) +_alias_nodes = _filter_nodes(ast.alias) + + +# nodes that we don't support directly but are needed for parsing +_hacked_nodes = frozenset(["Assign", "Module", "Expr"]) + + +_unsupported_expr_nodes = frozenset( + [ + "Yield", + "GeneratorExp", + "IfExp", + "DictComp", + "SetComp", + "Repr", + "Lambda", + "Set", + "AST", + "Is", + "IsNot", + ] +) + +# these nodes are low priority or won't ever be supported (e.g., AST) +_unsupported_nodes = ( + _stmt_nodes + | _mod_nodes + | _handler_nodes + | _arguments_nodes + | _keyword_nodes + | _alias_nodes + | _expr_context_nodes + | _unsupported_expr_nodes +) - _hacked_nodes + +# we're adding a different assignment in some cases to be equality comparison +# and we don't want `stmt` and friends in their so get only the class whose +# names are capitalized +_base_supported_nodes = (_all_node_names - _unsupported_nodes) | _hacked_nodes +intersection = _unsupported_nodes & _base_supported_nodes +_msg = f"cannot both support and not support {intersection}" +assert not intersection, _msg + + +def _node_not_implemented(node_name: str) -> Callable[..., None]: + """ + Return a function that raises a NotImplementedError with a passed node name. + """ + + def f(self, *args, **kwargs): + raise NotImplementedError(f"'{node_name}' nodes are not implemented") + + return f + + +# should be bound by BaseExprVisitor but that creates a circular dependency: +# _T is used in disallow, but disallow is used to define BaseExprVisitor +# https://github.com/microsoft/pyright/issues/2315 +_T = TypeVar("_T") + + +def disallow(nodes: set[str]) -> Callable[[type[_T]], type[_T]]: + """ + Decorator to disallow certain nodes from parsing. Raises a + NotImplementedError instead. + + Returns + ------- + callable + """ + + def disallowed(cls: type[_T]) -> type[_T]: + # error: "Type[_T]" has no attribute "unsupported_nodes" + cls.unsupported_nodes = () # type: ignore[attr-defined] + for node in nodes: + new_method = _node_not_implemented(node) + name = f"visit_{node}" + # error: "Type[_T]" has no attribute "unsupported_nodes" + cls.unsupported_nodes += (name,) # type: ignore[attr-defined] + setattr(cls, name, new_method) + return cls + + return disallowed + + +def _op_maker(op_class, op_symbol): + """ + Return a function to create an op class with its symbol already passed. + + Returns + ------- + callable + """ + + def f(self, node, *args, **kwargs): + """ + Return a partial function with an Op subclass with an operator already passed. + + Returns + ------- + callable + """ + return partial(op_class, op_symbol, *args, **kwargs) + + return f + + +_op_classes = {"binary": BinOp, "unary": UnaryOp} + + +def add_ops(op_classes): + """ + Decorator to add default implementation of ops. + """ + + def f(cls): + for op_attr_name, op_class in op_classes.items(): + ops = getattr(cls, f"{op_attr_name}_ops") + ops_map = getattr(cls, f"{op_attr_name}_op_nodes_map") + for op in ops: + op_node = ops_map[op] + if op_node is not None: + made_op = _op_maker(op_class, op) + setattr(cls, f"visit_{op_node}", made_op) + return cls + + return f + + +@disallow(_unsupported_nodes) +@add_ops(_op_classes) +class BaseExprVisitor(ast.NodeVisitor): + """ + Custom ast walker. Parsers of other engines should subclass this class + if necessary. + + Parameters + ---------- + env : Scope + engine : str + parser : str + preparser : callable + """ + + const_type: ClassVar[type[Term]] = Constant + term_type: ClassVar[type[Term]] = Term + + binary_ops = CMP_OPS_SYMS + BOOL_OPS_SYMS + ARITH_OPS_SYMS + binary_op_nodes = ( + "Gt", + "Lt", + "GtE", + "LtE", + "Eq", + "NotEq", + "In", + "NotIn", + "BitAnd", + "BitOr", + "And", + "Or", + "Add", + "Sub", + "Mult", + "Div", + "Pow", + "FloorDiv", + "Mod", + ) + binary_op_nodes_map = dict(zip(binary_ops, binary_op_nodes)) + + unary_ops = UNARY_OPS_SYMS + unary_op_nodes = "UAdd", "USub", "Invert", "Not" + unary_op_nodes_map = dict(zip(unary_ops, unary_op_nodes)) + + rewrite_map = { + ast.Eq: ast.In, + ast.NotEq: ast.NotIn, + ast.In: ast.In, + ast.NotIn: ast.NotIn, + } + + unsupported_nodes: tuple[str, ...] + + def __init__(self, env, engine, parser, preparser=_preparse) -> None: + self.env = env + self.engine = engine + self.parser = parser + self.preparser = preparser + self.assigner = None + + def visit(self, node, **kwargs): + if isinstance(node, str): + clean = self.preparser(node) + try: + node = ast.fix_missing_locations(ast.parse(clean)) + except SyntaxError as e: + if any(iskeyword(x) for x in clean.split()): + e.msg = "Python keyword not valid identifier in numexpr query" + raise e + + method = f"visit_{type(node).__name__}" + visitor = getattr(self, method) + return visitor(node, **kwargs) + + def visit_Module(self, node, **kwargs): + if len(node.body) != 1: + raise SyntaxError("only a single expression is allowed") + expr = node.body[0] + return self.visit(expr, **kwargs) + + def visit_Expr(self, node, **kwargs): + return self.visit(node.value, **kwargs) + + def _rewrite_membership_op(self, node, left, right): + # the kind of the operator (is actually an instance) + op_instance = node.op + op_type = type(op_instance) + + # must be two terms and the comparison operator must be ==/!=/in/not in + if is_term(left) and is_term(right) and op_type in self.rewrite_map: + left_list, right_list = map(_is_list, (left, right)) + left_str, right_str = map(_is_str, (left, right)) + + # if there are any strings or lists in the expression + if left_list or right_list or left_str or right_str: + op_instance = self.rewrite_map[op_type]() + + # pop the string variable out of locals and replace it with a list + # of one string, kind of a hack + if right_str: + name = self.env.add_tmp([right.value]) + right = self.term_type(name, self.env) + + if left_str: + name = self.env.add_tmp([left.value]) + left = self.term_type(name, self.env) + + op = self.visit(op_instance) + return op, op_instance, left, right + + def _maybe_transform_eq_ne(self, node, left=None, right=None): + if left is None: + left = self.visit(node.left, side="left") + if right is None: + right = self.visit(node.right, side="right") + op, op_class, left, right = self._rewrite_membership_op(node, left, right) + return op, op_class, left, right + + def _maybe_downcast_constants(self, left, right): + f32 = np.dtype(np.float32) + if ( + left.is_scalar + and hasattr(left, "value") + and not right.is_scalar + and right.return_type == f32 + ): + # right is a float32 array, left is a scalar + name = self.env.add_tmp(np.float32(left.value)) + left = self.term_type(name, self.env) + if ( + right.is_scalar + and hasattr(right, "value") + and not left.is_scalar + and left.return_type == f32 + ): + # left is a float32 array, right is a scalar + name = self.env.add_tmp(np.float32(right.value)) + right = self.term_type(name, self.env) + + return left, right + + def _maybe_eval(self, binop, eval_in_python): + # eval `in` and `not in` (for now) in "partial" python space + # things that can be evaluated in "eval" space will be turned into + # temporary variables. for example, + # [1,2] in a + 2 * b + # in that case a + 2 * b will be evaluated using numexpr, and the "in" + # call will be evaluated using isin (in python space) + return binop.evaluate( + self.env, self.engine, self.parser, self.term_type, eval_in_python + ) + + def _maybe_evaluate_binop( + self, + op, + op_class, + lhs, + rhs, + eval_in_python=("in", "not in"), + maybe_eval_in_python=("==", "!=", "<", ">", "<=", ">="), + ): + res = op(lhs, rhs) + + if res.has_invalid_return_type: + raise TypeError( + f"unsupported operand type(s) for {res.op}: " + f"'{lhs.type}' and '{rhs.type}'" + ) + + if self.engine != "pytables" and ( + res.op in CMP_OPS_SYMS + and getattr(lhs, "is_datetime", False) + or getattr(rhs, "is_datetime", False) + ): + # all date ops must be done in python bc numexpr doesn't work + # well with NaT + return self._maybe_eval(res, self.binary_ops) + + if res.op in eval_in_python: + # "in"/"not in" ops are always evaluated in python + return self._maybe_eval(res, eval_in_python) + elif self.engine != "pytables": + if ( + getattr(lhs, "return_type", None) == object + or is_string_dtype(getattr(lhs, "return_type", None)) + or getattr(rhs, "return_type", None) == object + or is_string_dtype(getattr(rhs, "return_type", None)) + ): + # evaluate "==" and "!=" in python if either of our operands + # has an object or string return type + return self._maybe_eval(res, eval_in_python + maybe_eval_in_python) + return res + + def visit_BinOp(self, node, **kwargs): + op, op_class, left, right = self._maybe_transform_eq_ne(node) + left, right = self._maybe_downcast_constants(left, right) + return self._maybe_evaluate_binop(op, op_class, left, right) + + def visit_UnaryOp(self, node, **kwargs): + op = self.visit(node.op) + operand = self.visit(node.operand) + return op(operand) + + def visit_Name(self, node, **kwargs) -> Term: + return self.term_type(node.id, self.env, **kwargs) + + # TODO(py314): deprecated since Python 3.8. Remove after Python 3.14 is min + def visit_NameConstant(self, node, **kwargs) -> Term: + return self.const_type(node.value, self.env) + + # TODO(py314): deprecated since Python 3.8. Remove after Python 3.14 is min + def visit_Num(self, node, **kwargs) -> Term: + return self.const_type(node.value, self.env) + + def visit_Constant(self, node, **kwargs) -> Term: + return self.const_type(node.value, self.env) + + # TODO(py314): deprecated since Python 3.8. Remove after Python 3.14 is min + def visit_Str(self, node, **kwargs) -> Term: + name = self.env.add_tmp(node.s) + return self.term_type(name, self.env) + + def visit_List(self, node, **kwargs) -> Term: + name = self.env.add_tmp([self.visit(e)(self.env) for e in node.elts]) + return self.term_type(name, self.env) + + visit_Tuple = visit_List + + def visit_Index(self, node, **kwargs): + """df.index[4]""" + return self.visit(node.value) + + def visit_Subscript(self, node, **kwargs) -> Term: + from pandas import eval as pd_eval + + value = self.visit(node.value) + slobj = self.visit(node.slice) + result = pd_eval( + slobj, local_dict=self.env, engine=self.engine, parser=self.parser + ) + try: + # a Term instance + v = value.value[result] + except AttributeError: + # an Op instance + lhs = pd_eval( + value, local_dict=self.env, engine=self.engine, parser=self.parser + ) + v = lhs[result] + name = self.env.add_tmp(v) + return self.term_type(name, env=self.env) + + def visit_Slice(self, node, **kwargs) -> slice: + """df.index[slice(4,6)]""" + lower = node.lower + if lower is not None: + lower = self.visit(lower).value + upper = node.upper + if upper is not None: + upper = self.visit(upper).value + step = node.step + if step is not None: + step = self.visit(step).value + + return slice(lower, upper, step) + + def visit_Assign(self, node, **kwargs): + """ + support a single assignment node, like + + c = a + b + + set the assigner at the top level, must be a Name node which + might or might not exist in the resolvers + + """ + if len(node.targets) != 1: + raise SyntaxError("can only assign a single expression") + if not isinstance(node.targets[0], ast.Name): + raise SyntaxError("left hand side of an assignment must be a single name") + if self.env.target is None: + raise ValueError("cannot assign without a target object") + + try: + assigner = self.visit(node.targets[0], **kwargs) + except UndefinedVariableError: + assigner = node.targets[0].id + + self.assigner = getattr(assigner, "name", assigner) + if self.assigner is None: + raise SyntaxError( + "left hand side of an assignment must be a single resolvable name" + ) + + return self.visit(node.value, **kwargs) + + def visit_Attribute(self, node, **kwargs): + attr = node.attr + value = node.value + + ctx = node.ctx + if isinstance(ctx, ast.Load): + # resolve the value + resolved = self.visit(value).value + try: + v = getattr(resolved, attr) + name = self.env.add_tmp(v) + return self.term_type(name, self.env) + except AttributeError: + # something like datetime.datetime where scope is overridden + if isinstance(value, ast.Name) and value.id == attr: + return resolved + raise + + raise ValueError(f"Invalid Attribute context {type(ctx).__name__}") + + def visit_Call(self, node, side=None, **kwargs): + if isinstance(node.func, ast.Attribute) and node.func.attr != "__call__": + res = self.visit_Attribute(node.func) + elif not isinstance(node.func, ast.Name): + raise TypeError("Only named functions are supported") + else: + try: + res = self.visit(node.func) + except UndefinedVariableError: + # Check if this is a supported function name + try: + res = FuncNode(node.func.id) + except ValueError: + # Raise original error + raise + + if res is None: + # error: "expr" has no attribute "id" + raise ValueError( + f"Invalid function call {node.func.id}" # type: ignore[attr-defined] + ) + if hasattr(res, "value"): + res = res.value + + if isinstance(res, FuncNode): + new_args = [self.visit(arg) for arg in node.args] + + if node.keywords: + raise TypeError( + f'Function "{res.name}" does not support keyword arguments' + ) + + return res(*new_args) + + else: + new_args = [self.visit(arg)(self.env) for arg in node.args] + + for key in node.keywords: + if not isinstance(key, ast.keyword): + # error: "expr" has no attribute "id" + raise ValueError( + "keyword error in function call " + f"'{node.func.id}'" # type: ignore[attr-defined] + ) + + if key.arg: + kwargs[key.arg] = self.visit(key.value)(self.env) + + name = self.env.add_tmp(res(*new_args, **kwargs)) + return self.term_type(name=name, env=self.env) + + def translate_In(self, op): + return op + + def visit_Compare(self, node, **kwargs): + ops = node.ops + comps = node.comparators + + # base case: we have something like a CMP b + if len(comps) == 1: + op = self.translate_In(ops[0]) + binop = ast.BinOp(op=op, left=node.left, right=comps[0]) + return self.visit(binop) + + # recursive case: we have a chained comparison, a CMP b CMP c, etc. + left = node.left + values = [] + for op, comp in zip(ops, comps): + new_node = self.visit( + ast.Compare(comparators=[comp], left=left, ops=[self.translate_In(op)]) + ) + left = comp + values.append(new_node) + return self.visit(ast.BoolOp(op=ast.And(), values=values)) + + def _try_visit_binop(self, bop): + if isinstance(bop, (Op, Term)): + return bop + return self.visit(bop) + + def visit_BoolOp(self, node, **kwargs): + def visitor(x, y): + lhs = self._try_visit_binop(x) + rhs = self._try_visit_binop(y) + + op, op_class, lhs, rhs = self._maybe_transform_eq_ne(node, lhs, rhs) + return self._maybe_evaluate_binop(op, node.op, lhs, rhs) + + operands = node.values + return reduce(visitor, operands) + + +_python_not_supported = frozenset(["Dict", "BoolOp", "In", "NotIn"]) +_numexpr_supported_calls = frozenset(REDUCTIONS + MATHOPS) + + +@disallow( + (_unsupported_nodes | _python_not_supported) + - (_boolop_nodes | frozenset(["BoolOp", "Attribute", "In", "NotIn", "Tuple"])) +) +class PandasExprVisitor(BaseExprVisitor): + def __init__( + self, + env, + engine, + parser, + preparser=partial( + _preparse, + f=_compose(_replace_locals, _replace_booleans, clean_backtick_quoted_toks), + ), + ) -> None: + super().__init__(env, engine, parser, preparser) + + +@disallow(_unsupported_nodes | _python_not_supported | frozenset(["Not"])) +class PythonExprVisitor(BaseExprVisitor): + def __init__( + self, env, engine, parser, preparser=lambda source, f=None: source + ) -> None: + super().__init__(env, engine, parser, preparser=preparser) + + +class Expr: + """ + Object encapsulating an expression. + + Parameters + ---------- + expr : str + engine : str, optional, default 'numexpr' + parser : str, optional, default 'pandas' + env : Scope, optional, default None + level : int, optional, default 2 + """ + + env: Scope + engine: str + parser: str + + def __init__( + self, + expr, + engine: str = "numexpr", + parser: str = "pandas", + env: Scope | None = None, + level: int = 0, + ) -> None: + self.expr = expr + self.env = env or Scope(level=level + 1) + self.engine = engine + self.parser = parser + self._visitor = PARSERS[parser](self.env, self.engine, self.parser) + self.terms = self.parse() + + @property + def assigner(self): + return getattr(self._visitor, "assigner", None) + + def __call__(self): + return self.terms(self.env) + + def __repr__(self) -> str: + return printing.pprint_thing(self.terms) + + def __len__(self) -> int: + return len(self.expr) + + def parse(self): + """ + Parse an expression. + """ + return self._visitor.visit(self.expr) + + @property + def names(self): + """ + Get the names in an expression. + """ + if is_term(self.terms): + return frozenset([self.terms.name]) + return frozenset(term.name for term in com.flatten(self.terms)) + + +PARSERS = {"python": PythonExprVisitor, "pandas": PandasExprVisitor} diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expressions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expressions.py new file mode 100644 index 0000000000000000000000000000000000000000..6219cac4aeb16ee019551f95a03af59da44c9d06 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/expressions.py @@ -0,0 +1,286 @@ +""" +Expressions +----------- + +Offer fast expression evaluation through numexpr + +""" +from __future__ import annotations + +import operator +from typing import TYPE_CHECKING +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas.util._exceptions import find_stack_level + +from pandas.core import roperator +from pandas.core.computation.check import NUMEXPR_INSTALLED + +if NUMEXPR_INSTALLED: + import numexpr as ne + +if TYPE_CHECKING: + from pandas._typing import FuncType + +_TEST_MODE: bool | None = None +_TEST_RESULT: list[bool] = [] +USE_NUMEXPR = NUMEXPR_INSTALLED +_evaluate: FuncType | None = None +_where: FuncType | None = None + +# the set of dtypes that we will allow pass to numexpr +_ALLOWED_DTYPES = { + "evaluate": {"int64", "int32", "float64", "float32", "bool"}, + "where": {"int64", "float64", "bool"}, +} + +# the minimum prod shape that we will use numexpr +_MIN_ELEMENTS = 1_000_000 + + +def set_use_numexpr(v: bool = True) -> None: + # set/unset to use numexpr + global USE_NUMEXPR + if NUMEXPR_INSTALLED: + USE_NUMEXPR = v + + # choose what we are going to do + global _evaluate, _where + + _evaluate = _evaluate_numexpr if USE_NUMEXPR else _evaluate_standard + _where = _where_numexpr if USE_NUMEXPR else _where_standard + + +def set_numexpr_threads(n=None) -> None: + # if we are using numexpr, set the threads to n + # otherwise reset + if NUMEXPR_INSTALLED and USE_NUMEXPR: + if n is None: + n = ne.detect_number_of_cores() + ne.set_num_threads(n) + + +def _evaluate_standard(op, op_str, a, b): + """ + Standard evaluation. + """ + if _TEST_MODE: + _store_test_result(False) + return op(a, b) + + +def _can_use_numexpr(op, op_str, a, b, dtype_check) -> bool: + """return a boolean if we WILL be using numexpr""" + if op_str is not None: + # required min elements (otherwise we are adding overhead) + if a.size > _MIN_ELEMENTS: + # check for dtype compatibility + dtypes: set[str] = set() + for o in [a, b]: + # ndarray and Series Case + if hasattr(o, "dtype"): + dtypes |= {o.dtype.name} + + # allowed are a superset + if not len(dtypes) or _ALLOWED_DTYPES[dtype_check] >= dtypes: + return True + + return False + + +def _evaluate_numexpr(op, op_str, a, b): + result = None + + if _can_use_numexpr(op, op_str, a, b, "evaluate"): + is_reversed = op.__name__.strip("_").startswith("r") + if is_reversed: + # we were originally called by a reversed op method + a, b = b, a + + a_value = a + b_value = b + + try: + result = ne.evaluate( + f"a_value {op_str} b_value", + local_dict={"a_value": a_value, "b_value": b_value}, + casting="safe", + ) + except TypeError: + # numexpr raises eg for array ** array with integers + # (https://github.com/pydata/numexpr/issues/379) + pass + except NotImplementedError: + if _bool_arith_fallback(op_str, a, b): + pass + else: + raise + + if is_reversed: + # reverse order to original for fallback + a, b = b, a + + if _TEST_MODE: + _store_test_result(result is not None) + + if result is None: + result = _evaluate_standard(op, op_str, a, b) + + return result + + +_op_str_mapping = { + operator.add: "+", + roperator.radd: "+", + operator.mul: "*", + roperator.rmul: "*", + operator.sub: "-", + roperator.rsub: "-", + operator.truediv: "/", + roperator.rtruediv: "/", + # floordiv not supported by numexpr 2.x + operator.floordiv: None, + roperator.rfloordiv: None, + # we require Python semantics for mod of negative for backwards compatibility + # see https://github.com/pydata/numexpr/issues/365 + # so sticking with unaccelerated for now GH#36552 + operator.mod: None, + roperator.rmod: None, + operator.pow: "**", + roperator.rpow: "**", + operator.eq: "==", + operator.ne: "!=", + operator.le: "<=", + operator.lt: "<", + operator.ge: ">=", + operator.gt: ">", + operator.and_: "&", + roperator.rand_: "&", + operator.or_: "|", + roperator.ror_: "|", + operator.xor: "^", + roperator.rxor: "^", + divmod: None, + roperator.rdivmod: None, +} + + +def _where_standard(cond, a, b): + # Caller is responsible for extracting ndarray if necessary + return np.where(cond, a, b) + + +def _where_numexpr(cond, a, b): + # Caller is responsible for extracting ndarray if necessary + result = None + + if _can_use_numexpr(None, "where", a, b, "where"): + result = ne.evaluate( + "where(cond_value, a_value, b_value)", + local_dict={"cond_value": cond, "a_value": a, "b_value": b}, + casting="safe", + ) + + if result is None: + result = _where_standard(cond, a, b) + + return result + + +# turn myself on +set_use_numexpr(get_option("compute.use_numexpr")) + + +def _has_bool_dtype(x): + try: + return x.dtype == bool + except AttributeError: + return isinstance(x, (bool, np.bool_)) + + +_BOOL_OP_UNSUPPORTED = {"+": "|", "*": "&", "-": "^"} + + +def _bool_arith_fallback(op_str, a, b) -> bool: + """ + Check if we should fallback to the python `_evaluate_standard` in case + of an unsupported operation by numexpr, which is the case for some + boolean ops. + """ + if _has_bool_dtype(a) and _has_bool_dtype(b): + if op_str in _BOOL_OP_UNSUPPORTED: + warnings.warn( + f"evaluating in Python space because the {repr(op_str)} " + "operator is not supported by numexpr for the bool dtype, " + f"use {repr(_BOOL_OP_UNSUPPORTED[op_str])} instead.", + stacklevel=find_stack_level(), + ) + return True + return False + + +def evaluate(op, a, b, use_numexpr: bool = True): + """ + Evaluate and return the expression of the op on a and b. + + Parameters + ---------- + op : the actual operand + a : left operand + b : right operand + use_numexpr : bool, default True + Whether to try to use numexpr. + """ + op_str = _op_str_mapping[op] + if op_str is not None: + if use_numexpr: + # error: "None" not callable + return _evaluate(op, op_str, a, b) # type: ignore[misc] + return _evaluate_standard(op, op_str, a, b) + + +def where(cond, a, b, use_numexpr: bool = True): + """ + Evaluate the where condition cond on a and b. + + Parameters + ---------- + cond : np.ndarray[bool] + a : return if cond is True + b : return if cond is False + use_numexpr : bool, default True + Whether to try to use numexpr. + """ + assert _where is not None + return _where(cond, a, b) if use_numexpr else _where_standard(cond, a, b) + + +def set_test_mode(v: bool = True) -> None: + """ + Keeps track of whether numexpr was used. + + Stores an additional ``True`` for every successful use of evaluate with + numexpr since the last ``get_test_result``. + """ + global _TEST_MODE, _TEST_RESULT + _TEST_MODE = v + _TEST_RESULT = [] + + +def _store_test_result(used_numexpr: bool) -> None: + if used_numexpr: + _TEST_RESULT.append(used_numexpr) + + +def get_test_result() -> list[bool]: + """ + Get test result and reset test_results. + """ + global _TEST_RESULT + res = _TEST_RESULT + _TEST_RESULT = [] + return res diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/ops.py new file mode 100644 index 0000000000000000000000000000000000000000..d8265456dfcedb5eb398cbf0517d78a1d976cd2a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/ops.py @@ -0,0 +1,572 @@ +""" +Operator classes for eval. +""" + +from __future__ import annotations + +from datetime import datetime +from functools import partial +import operator +from typing import ( + TYPE_CHECKING, + Callable, + Literal, +) + +import numpy as np + +from pandas._libs.tslibs import Timestamp + +from pandas.core.dtypes.common import ( + is_list_like, + is_scalar, +) + +import pandas.core.common as com +from pandas.core.computation.common import ( + ensure_decoded, + result_type_many, +) +from pandas.core.computation.scope import DEFAULT_GLOBALS + +from pandas.io.formats.printing import ( + pprint_thing, + pprint_thing_encoded, +) + +if TYPE_CHECKING: + from collections.abc import ( + Iterable, + Iterator, + ) + +REDUCTIONS = ("sum", "prod", "min", "max") + +_unary_math_ops = ( + "sin", + "cos", + "exp", + "log", + "expm1", + "log1p", + "sqrt", + "sinh", + "cosh", + "tanh", + "arcsin", + "arccos", + "arctan", + "arccosh", + "arcsinh", + "arctanh", + "abs", + "log10", + "floor", + "ceil", +) +_binary_math_ops = ("arctan2",) + +MATHOPS = _unary_math_ops + _binary_math_ops + + +LOCAL_TAG = "__pd_eval_local_" + + +class Term: + def __new__(cls, name, env, side=None, encoding=None): + klass = Constant if not isinstance(name, str) else cls + # error: Argument 2 for "super" not an instance of argument 1 + supr_new = super(Term, klass).__new__ # type: ignore[misc] + return supr_new(klass) + + is_local: bool + + def __init__(self, name, env, side=None, encoding=None) -> None: + # name is a str for Term, but may be something else for subclasses + self._name = name + self.env = env + self.side = side + tname = str(name) + self.is_local = tname.startswith(LOCAL_TAG) or tname in DEFAULT_GLOBALS + self._value = self._resolve_name() + self.encoding = encoding + + @property + def local_name(self) -> str: + return self.name.replace(LOCAL_TAG, "") + + def __repr__(self) -> str: + return pprint_thing(self.name) + + def __call__(self, *args, **kwargs): + return self.value + + def evaluate(self, *args, **kwargs) -> Term: + return self + + def _resolve_name(self): + local_name = str(self.local_name) + is_local = self.is_local + if local_name in self.env.scope and isinstance( + self.env.scope[local_name], type + ): + is_local = False + + res = self.env.resolve(local_name, is_local=is_local) + self.update(res) + + if hasattr(res, "ndim") and res.ndim > 2: + raise NotImplementedError( + "N-dimensional objects, where N > 2, are not supported with eval" + ) + return res + + def update(self, value) -> None: + """ + search order for local (i.e., @variable) variables: + + scope, key_variable + [('locals', 'local_name'), + ('globals', 'local_name'), + ('locals', 'key'), + ('globals', 'key')] + """ + key = self.name + + # if it's a variable name (otherwise a constant) + if isinstance(key, str): + self.env.swapkey(self.local_name, key, new_value=value) + + self.value = value + + @property + def is_scalar(self) -> bool: + return is_scalar(self._value) + + @property + def type(self): + try: + # potentially very slow for large, mixed dtype frames + return self._value.values.dtype + except AttributeError: + try: + # ndarray + return self._value.dtype + except AttributeError: + # scalar + return type(self._value) + + return_type = type + + @property + def raw(self) -> str: + return f"{type(self).__name__}(name={repr(self.name)}, type={self.type})" + + @property + def is_datetime(self) -> bool: + try: + t = self.type.type + except AttributeError: + t = self.type + + return issubclass(t, (datetime, np.datetime64)) + + @property + def value(self): + return self._value + + @value.setter + def value(self, new_value) -> None: + self._value = new_value + + @property + def name(self): + return self._name + + @property + def ndim(self) -> int: + return self._value.ndim + + +class Constant(Term): + def _resolve_name(self): + return self._name + + @property + def name(self): + return self.value + + def __repr__(self) -> str: + # in python 2 str() of float + # can truncate shorter than repr() + return repr(self.name) + + +_bool_op_map = {"not": "~", "and": "&", "or": "|"} + + +class Op: + """ + Hold an operator of arbitrary arity. + """ + + op: str + + def __init__(self, op: str, operands: Iterable[Term | Op], encoding=None) -> None: + self.op = _bool_op_map.get(op, op) + self.operands = operands + self.encoding = encoding + + def __iter__(self) -> Iterator: + return iter(self.operands) + + def __repr__(self) -> str: + """ + Print a generic n-ary operator and its operands using infix notation. + """ + # recurse over the operands + parened = (f"({pprint_thing(opr)})" for opr in self.operands) + return pprint_thing(f" {self.op} ".join(parened)) + + @property + def return_type(self): + # clobber types to bool if the op is a boolean operator + if self.op in (CMP_OPS_SYMS + BOOL_OPS_SYMS): + return np.bool_ + return result_type_many(*(term.type for term in com.flatten(self))) + + @property + def has_invalid_return_type(self) -> bool: + types = self.operand_types + obj_dtype_set = frozenset([np.dtype("object")]) + return self.return_type == object and types - obj_dtype_set + + @property + def operand_types(self): + return frozenset(term.type for term in com.flatten(self)) + + @property + def is_scalar(self) -> bool: + return all(operand.is_scalar for operand in self.operands) + + @property + def is_datetime(self) -> bool: + try: + t = self.return_type.type + except AttributeError: + t = self.return_type + + return issubclass(t, (datetime, np.datetime64)) + + +def _in(x, y): + """ + Compute the vectorized membership of ``x in y`` if possible, otherwise + use Python. + """ + try: + return x.isin(y) + except AttributeError: + if is_list_like(x): + try: + return y.isin(x) + except AttributeError: + pass + return x in y + + +def _not_in(x, y): + """ + Compute the vectorized membership of ``x not in y`` if possible, + otherwise use Python. + """ + try: + return ~x.isin(y) + except AttributeError: + if is_list_like(x): + try: + return ~y.isin(x) + except AttributeError: + pass + return x not in y + + +CMP_OPS_SYMS = (">", "<", ">=", "<=", "==", "!=", "in", "not in") +_cmp_ops_funcs = ( + operator.gt, + operator.lt, + operator.ge, + operator.le, + operator.eq, + operator.ne, + _in, + _not_in, +) +_cmp_ops_dict = dict(zip(CMP_OPS_SYMS, _cmp_ops_funcs)) + +BOOL_OPS_SYMS = ("&", "|", "and", "or") +_bool_ops_funcs = (operator.and_, operator.or_, operator.and_, operator.or_) +_bool_ops_dict = dict(zip(BOOL_OPS_SYMS, _bool_ops_funcs)) + +ARITH_OPS_SYMS = ("+", "-", "*", "/", "**", "//", "%") +_arith_ops_funcs = ( + operator.add, + operator.sub, + operator.mul, + operator.truediv, + operator.pow, + operator.floordiv, + operator.mod, +) +_arith_ops_dict = dict(zip(ARITH_OPS_SYMS, _arith_ops_funcs)) + +SPECIAL_CASE_ARITH_OPS_SYMS = ("**", "//", "%") +_special_case_arith_ops_funcs = (operator.pow, operator.floordiv, operator.mod) +_special_case_arith_ops_dict = dict( + zip(SPECIAL_CASE_ARITH_OPS_SYMS, _special_case_arith_ops_funcs) +) + +_binary_ops_dict = {} + +for d in (_cmp_ops_dict, _bool_ops_dict, _arith_ops_dict): + _binary_ops_dict.update(d) + + +def is_term(obj) -> bool: + return isinstance(obj, Term) + + +class BinOp(Op): + """ + Hold a binary operator and its operands. + + Parameters + ---------- + op : str + lhs : Term or Op + rhs : Term or Op + """ + + def __init__(self, op: str, lhs, rhs) -> None: + super().__init__(op, (lhs, rhs)) + self.lhs = lhs + self.rhs = rhs + + self._disallow_scalar_only_bool_ops() + + self.convert_values() + + try: + self.func = _binary_ops_dict[op] + except KeyError as err: + # has to be made a list for python3 + keys = list(_binary_ops_dict.keys()) + raise ValueError( + f"Invalid binary operator {repr(op)}, valid operators are {keys}" + ) from err + + def __call__(self, env): + """ + Recursively evaluate an expression in Python space. + + Parameters + ---------- + env : Scope + + Returns + ------- + object + The result of an evaluated expression. + """ + # recurse over the left/right nodes + left = self.lhs(env) + right = self.rhs(env) + + return self.func(left, right) + + def evaluate(self, env, engine: str, parser, term_type, eval_in_python): + """ + Evaluate a binary operation *before* being passed to the engine. + + Parameters + ---------- + env : Scope + engine : str + parser : str + term_type : type + eval_in_python : list + + Returns + ------- + term_type + The "pre-evaluated" expression as an instance of ``term_type`` + """ + if engine == "python": + res = self(env) + else: + # recurse over the left/right nodes + + left = self.lhs.evaluate( + env, + engine=engine, + parser=parser, + term_type=term_type, + eval_in_python=eval_in_python, + ) + + right = self.rhs.evaluate( + env, + engine=engine, + parser=parser, + term_type=term_type, + eval_in_python=eval_in_python, + ) + + # base cases + if self.op in eval_in_python: + res = self.func(left.value, right.value) + else: + from pandas.core.computation.eval import eval + + res = eval(self, local_dict=env, engine=engine, parser=parser) + + name = env.add_tmp(res) + return term_type(name, env=env) + + def convert_values(self) -> None: + """ + Convert datetimes to a comparable value in an expression. + """ + + def stringify(value): + encoder: Callable + if self.encoding is not None: + encoder = partial(pprint_thing_encoded, encoding=self.encoding) + else: + encoder = pprint_thing + return encoder(value) + + lhs, rhs = self.lhs, self.rhs + + if is_term(lhs) and lhs.is_datetime and is_term(rhs) and rhs.is_scalar: + v = rhs.value + if isinstance(v, (int, float)): + v = stringify(v) + v = Timestamp(ensure_decoded(v)) + if v.tz is not None: + v = v.tz_convert("UTC") + self.rhs.update(v) + + if is_term(rhs) and rhs.is_datetime and is_term(lhs) and lhs.is_scalar: + v = lhs.value + if isinstance(v, (int, float)): + v = stringify(v) + v = Timestamp(ensure_decoded(v)) + if v.tz is not None: + v = v.tz_convert("UTC") + self.lhs.update(v) + + def _disallow_scalar_only_bool_ops(self): + rhs = self.rhs + lhs = self.lhs + + # GH#24883 unwrap dtype if necessary to ensure we have a type object + rhs_rt = rhs.return_type + rhs_rt = getattr(rhs_rt, "type", rhs_rt) + lhs_rt = lhs.return_type + lhs_rt = getattr(lhs_rt, "type", lhs_rt) + if ( + (lhs.is_scalar or rhs.is_scalar) + and self.op in _bool_ops_dict + and ( + not ( + issubclass(rhs_rt, (bool, np.bool_)) + and issubclass(lhs_rt, (bool, np.bool_)) + ) + ) + ): + raise NotImplementedError("cannot evaluate scalar only bool ops") + + +def isnumeric(dtype) -> bool: + return issubclass(np.dtype(dtype).type, np.number) + + +UNARY_OPS_SYMS = ("+", "-", "~", "not") +_unary_ops_funcs = (operator.pos, operator.neg, operator.invert, operator.invert) +_unary_ops_dict = dict(zip(UNARY_OPS_SYMS, _unary_ops_funcs)) + + +class UnaryOp(Op): + """ + Hold a unary operator and its operands. + + Parameters + ---------- + op : str + The token used to represent the operator. + operand : Term or Op + The Term or Op operand to the operator. + + Raises + ------ + ValueError + * If no function associated with the passed operator token is found. + """ + + def __init__(self, op: Literal["+", "-", "~", "not"], operand) -> None: + super().__init__(op, (operand,)) + self.operand = operand + + try: + self.func = _unary_ops_dict[op] + except KeyError as err: + raise ValueError( + f"Invalid unary operator {repr(op)}, " + f"valid operators are {UNARY_OPS_SYMS}" + ) from err + + def __call__(self, env) -> MathCall: + operand = self.operand(env) + # error: Cannot call function of unknown type + return self.func(operand) # type: ignore[operator] + + def __repr__(self) -> str: + return pprint_thing(f"{self.op}({self.operand})") + + @property + def return_type(self) -> np.dtype: + operand = self.operand + if operand.return_type == np.dtype("bool"): + return np.dtype("bool") + if isinstance(operand, Op) and ( + operand.op in _cmp_ops_dict or operand.op in _bool_ops_dict + ): + return np.dtype("bool") + return np.dtype("int") + + +class MathCall(Op): + def __init__(self, func, args) -> None: + super().__init__(func.name, args) + self.func = func + + def __call__(self, env): + # error: "Op" not callable + operands = [op(env) for op in self.operands] # type: ignore[operator] + return self.func.func(*operands) + + def __repr__(self) -> str: + operands = map(str, self.operands) + return pprint_thing(f"{self.op}({','.join(operands)})") + + +class FuncNode: + def __init__(self, name: str) -> None: + if name not in MATHOPS: + raise ValueError(f'"{name}" is not a supported function') + self.name = name + self.func = getattr(np, name) + + def __call__(self, *args) -> MathCall: + return MathCall(self, args) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/parsing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/parsing.py new file mode 100644 index 0000000000000000000000000000000000000000..4cfa0f2baffd5ed45db19242c2afd00b6e5e23dc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/parsing.py @@ -0,0 +1,198 @@ +""" +:func:`~pandas.eval` source string parsing functions +""" +from __future__ import annotations + +from io import StringIO +from keyword import iskeyword +import token +import tokenize +from typing import TYPE_CHECKING + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + ) + +# A token value Python's tokenizer probably will never use. +BACKTICK_QUOTED_STRING = 100 + + +def create_valid_python_identifier(name: str) -> str: + """ + Create valid Python identifiers from any string. + + Check if name contains any special characters. If it contains any + special characters, the special characters will be replaced by + a special string and a prefix is added. + + Raises + ------ + SyntaxError + If the returned name is not a Python valid identifier, raise an exception. + This can happen if there is a hashtag in the name, as the tokenizer will + than terminate and not find the backtick. + But also for characters that fall out of the range of (U+0001..U+007F). + """ + if name.isidentifier() and not iskeyword(name): + return name + + # Create a dict with the special characters and their replacement string. + # EXACT_TOKEN_TYPES contains these special characters + # token.tok_name contains a readable description of the replacement string. + special_characters_replacements = { + char: f"_{token.tok_name[tokval]}_" + for char, tokval in (tokenize.EXACT_TOKEN_TYPES.items()) + } + special_characters_replacements.update( + { + " ": "_", + "?": "_QUESTIONMARK_", + "!": "_EXCLAMATIONMARK_", + "$": "_DOLLARSIGN_", + "€": "_EUROSIGN_", + "°": "_DEGREESIGN_", + # Including quotes works, but there are exceptions. + "'": "_SINGLEQUOTE_", + '"': "_DOUBLEQUOTE_", + # Currently not possible. Terminates parser and won't find backtick. + # "#": "_HASH_", + } + ) + + name = "".join([special_characters_replacements.get(char, char) for char in name]) + name = f"BACKTICK_QUOTED_STRING_{name}" + + if not name.isidentifier(): + raise SyntaxError(f"Could not convert '{name}' to a valid Python identifier.") + + return name + + +def clean_backtick_quoted_toks(tok: tuple[int, str]) -> tuple[int, str]: + """ + Clean up a column name if surrounded by backticks. + + Backtick quoted string are indicated by a certain tokval value. If a string + is a backtick quoted token it will processed by + :func:`_create_valid_python_identifier` so that the parser can find this + string when the query is executed. + In this case the tok will get the NAME tokval. + + Parameters + ---------- + tok : tuple of int, str + ints correspond to the all caps constants in the tokenize module + + Returns + ------- + tok : Tuple[int, str] + Either the input or token or the replacement values + """ + toknum, tokval = tok + if toknum == BACKTICK_QUOTED_STRING: + return tokenize.NAME, create_valid_python_identifier(tokval) + return toknum, tokval + + +def clean_column_name(name: Hashable) -> Hashable: + """ + Function to emulate the cleaning of a backtick quoted name. + + The purpose for this function is to see what happens to the name of + identifier if it goes to the process of being parsed a Python code + inside a backtick quoted string and than being cleaned + (removed of any special characters). + + Parameters + ---------- + name : hashable + Name to be cleaned. + + Returns + ------- + name : hashable + Returns the name after tokenizing and cleaning. + + Notes + ----- + For some cases, a name cannot be converted to a valid Python identifier. + In that case :func:`tokenize_string` raises a SyntaxError. + In that case, we just return the name unmodified. + + If this name was used in the query string (this makes the query call impossible) + an error will be raised by :func:`tokenize_backtick_quoted_string` instead, + which is not caught and propagates to the user level. + """ + try: + tokenized = tokenize_string(f"`{name}`") + tokval = next(tokenized)[1] + return create_valid_python_identifier(tokval) + except SyntaxError: + return name + + +def tokenize_backtick_quoted_string( + token_generator: Iterator[tokenize.TokenInfo], source: str, string_start: int +) -> tuple[int, str]: + """ + Creates a token from a backtick quoted string. + + Moves the token_generator forwards till right after the next backtick. + + Parameters + ---------- + token_generator : Iterator[tokenize.TokenInfo] + The generator that yields the tokens of the source string (Tuple[int, str]). + The generator is at the first token after the backtick (`) + + source : str + The Python source code string. + + string_start : int + This is the start of backtick quoted string inside the source string. + + Returns + ------- + tok: Tuple[int, str] + The token that represents the backtick quoted string. + The integer is equal to BACKTICK_QUOTED_STRING (100). + """ + for _, tokval, start, _, _ in token_generator: + if tokval == "`": + string_end = start[1] + break + + return BACKTICK_QUOTED_STRING, source[string_start:string_end] + + +def tokenize_string(source: str) -> Iterator[tuple[int, str]]: + """ + Tokenize a Python source code string. + + Parameters + ---------- + source : str + The Python source code string. + + Returns + ------- + tok_generator : Iterator[Tuple[int, str]] + An iterator yielding all tokens with only toknum and tokval (Tuple[ing, str]). + """ + line_reader = StringIO(source).readline + token_generator = tokenize.generate_tokens(line_reader) + + # Loop over all tokens till a backtick (`) is found. + # Then, take all tokens till the next backtick to form a backtick quoted string + for toknum, tokval, start, _, _ in token_generator: + if tokval == "`": + try: + yield tokenize_backtick_quoted_string( + token_generator, source, string_start=start[1] + 1 + ) + except Exception as err: + raise SyntaxError(f"Failed to parse backticks in '{source}'.") from err + else: + yield toknum, tokval diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/pytables.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/pytables.py new file mode 100644 index 0000000000000000000000000000000000000000..04a8ad7ef0be6b044baf65b80cbf4161d45f8cac --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/pytables.py @@ -0,0 +1,666 @@ +""" manage PyTables query interface via Expressions """ +from __future__ import annotations + +import ast +from decimal import ( + Decimal, + InvalidOperation, +) +from functools import partial +from typing import ( + TYPE_CHECKING, + Any, + ClassVar, +) + +import numpy as np + +from pandas._libs.tslibs import ( + Timedelta, + Timestamp, +) +from pandas.errors import UndefinedVariableError + +from pandas.core.dtypes.common import is_list_like + +import pandas.core.common as com +from pandas.core.computation import ( + expr, + ops, + scope as _scope, +) +from pandas.core.computation.common import ensure_decoded +from pandas.core.computation.expr import BaseExprVisitor +from pandas.core.computation.ops import is_term +from pandas.core.construction import extract_array +from pandas.core.indexes.base import Index + +from pandas.io.formats.printing import ( + pprint_thing, + pprint_thing_encoded, +) + +if TYPE_CHECKING: + from pandas._typing import ( + Self, + npt, + ) + + +class PyTablesScope(_scope.Scope): + __slots__ = ("queryables",) + + queryables: dict[str, Any] + + def __init__( + self, + level: int, + global_dict=None, + local_dict=None, + queryables: dict[str, Any] | None = None, + ) -> None: + super().__init__(level + 1, global_dict=global_dict, local_dict=local_dict) + self.queryables = queryables or {} + + +class Term(ops.Term): + env: PyTablesScope + + def __new__(cls, name, env, side=None, encoding=None): + if isinstance(name, str): + klass = cls + else: + klass = Constant + return object.__new__(klass) + + def __init__(self, name, env: PyTablesScope, side=None, encoding=None) -> None: + super().__init__(name, env, side=side, encoding=encoding) + + def _resolve_name(self): + # must be a queryables + if self.side == "left": + # Note: The behavior of __new__ ensures that self.name is a str here + if self.name not in self.env.queryables: + raise NameError(f"name {repr(self.name)} is not defined") + return self.name + + # resolve the rhs (and allow it to be None) + try: + return self.env.resolve(self.name, is_local=False) + except UndefinedVariableError: + return self.name + + # read-only property overwriting read/write property + @property # type: ignore[misc] + def value(self): + return self._value + + +class Constant(Term): + def __init__(self, name, env: PyTablesScope, side=None, encoding=None) -> None: + assert isinstance(env, PyTablesScope), type(env) + super().__init__(name, env, side=side, encoding=encoding) + + def _resolve_name(self): + return self._name + + +class BinOp(ops.BinOp): + _max_selectors = 31 + + op: str + queryables: dict[str, Any] + condition: str | None + + def __init__(self, op: str, lhs, rhs, queryables: dict[str, Any], encoding) -> None: + super().__init__(op, lhs, rhs) + self.queryables = queryables + self.encoding = encoding + self.condition = None + + def _disallow_scalar_only_bool_ops(self) -> None: + pass + + def prune(self, klass): + def pr(left, right): + """create and return a new specialized BinOp from myself""" + if left is None: + return right + elif right is None: + return left + + k = klass + if isinstance(left, ConditionBinOp): + if isinstance(right, ConditionBinOp): + k = JointConditionBinOp + elif isinstance(left, k): + return left + elif isinstance(right, k): + return right + + elif isinstance(left, FilterBinOp): + if isinstance(right, FilterBinOp): + k = JointFilterBinOp + elif isinstance(left, k): + return left + elif isinstance(right, k): + return right + + return k( + self.op, left, right, queryables=self.queryables, encoding=self.encoding + ).evaluate() + + left, right = self.lhs, self.rhs + + if is_term(left) and is_term(right): + res = pr(left.value, right.value) + elif not is_term(left) and is_term(right): + res = pr(left.prune(klass), right.value) + elif is_term(left) and not is_term(right): + res = pr(left.value, right.prune(klass)) + elif not (is_term(left) or is_term(right)): + res = pr(left.prune(klass), right.prune(klass)) + + return res + + def conform(self, rhs): + """inplace conform rhs""" + if not is_list_like(rhs): + rhs = [rhs] + if isinstance(rhs, np.ndarray): + rhs = rhs.ravel() + return rhs + + @property + def is_valid(self) -> bool: + """return True if this is a valid field""" + return self.lhs in self.queryables + + @property + def is_in_table(self) -> bool: + """ + return True if this is a valid column name for generation (e.g. an + actual column in the table) + """ + return self.queryables.get(self.lhs) is not None + + @property + def kind(self): + """the kind of my field""" + return getattr(self.queryables.get(self.lhs), "kind", None) + + @property + def meta(self): + """the meta of my field""" + return getattr(self.queryables.get(self.lhs), "meta", None) + + @property + def metadata(self): + """the metadata of my field""" + return getattr(self.queryables.get(self.lhs), "metadata", None) + + def generate(self, v) -> str: + """create and return the op string for this TermValue""" + val = v.tostring(self.encoding) + return f"({self.lhs} {self.op} {val})" + + def convert_value(self, v) -> TermValue: + """ + convert the expression that is in the term to something that is + accepted by pytables + """ + + def stringify(value): + if self.encoding is not None: + return pprint_thing_encoded(value, encoding=self.encoding) + return pprint_thing(value) + + kind = ensure_decoded(self.kind) + meta = ensure_decoded(self.meta) + if kind == "datetime" or (kind and kind.startswith("datetime64")): + if isinstance(v, (int, float)): + v = stringify(v) + v = ensure_decoded(v) + v = Timestamp(v).as_unit("ns") + if v.tz is not None: + v = v.tz_convert("UTC") + return TermValue(v, v._value, kind) + elif kind in ("timedelta64", "timedelta"): + if isinstance(v, str): + v = Timedelta(v) + else: + v = Timedelta(v, unit="s") + v = v.as_unit("ns")._value + return TermValue(int(v), v, kind) + elif meta == "category": + metadata = extract_array(self.metadata, extract_numpy=True) + result: npt.NDArray[np.intp] | np.intp | int + if v not in metadata: + result = -1 + else: + result = metadata.searchsorted(v, side="left") + return TermValue(result, result, "integer") + elif kind == "integer": + try: + v_dec = Decimal(v) + except InvalidOperation: + # GH 54186 + # convert v to float to raise float's ValueError + float(v) + else: + v = int(v_dec.to_integral_exact(rounding="ROUND_HALF_EVEN")) + return TermValue(v, v, kind) + elif kind == "float": + v = float(v) + return TermValue(v, v, kind) + elif kind == "bool": + if isinstance(v, str): + v = v.strip().lower() not in [ + "false", + "f", + "no", + "n", + "none", + "0", + "[]", + "{}", + "", + ] + else: + v = bool(v) + return TermValue(v, v, kind) + elif isinstance(v, str): + # string quoting + return TermValue(v, stringify(v), "string") + else: + raise TypeError(f"Cannot compare {v} of type {type(v)} to {kind} column") + + def convert_values(self) -> None: + pass + + +class FilterBinOp(BinOp): + filter: tuple[Any, Any, Index] | None = None + + def __repr__(self) -> str: + if self.filter is None: + return "Filter: Not Initialized" + return pprint_thing(f"[Filter : [{self.filter[0]}] -> [{self.filter[1]}]") + + def invert(self) -> Self: + """invert the filter""" + if self.filter is not None: + self.filter = ( + self.filter[0], + self.generate_filter_op(invert=True), + self.filter[2], + ) + return self + + def format(self): + """return the actual filter format""" + return [self.filter] + + # error: Signature of "evaluate" incompatible with supertype "BinOp" + def evaluate(self) -> Self | None: # type: ignore[override] + if not self.is_valid: + raise ValueError(f"query term is not valid [{self}]") + + rhs = self.conform(self.rhs) + values = list(rhs) + + if self.is_in_table: + # if too many values to create the expression, use a filter instead + if self.op in ["==", "!="] and len(values) > self._max_selectors: + filter_op = self.generate_filter_op() + self.filter = (self.lhs, filter_op, Index(values)) + + return self + return None + + # equality conditions + if self.op in ["==", "!="]: + filter_op = self.generate_filter_op() + self.filter = (self.lhs, filter_op, Index(values)) + + else: + raise TypeError( + f"passing a filterable condition to a non-table indexer [{self}]" + ) + + return self + + def generate_filter_op(self, invert: bool = False): + if (self.op == "!=" and not invert) or (self.op == "==" and invert): + return lambda axis, vals: ~axis.isin(vals) + else: + return lambda axis, vals: axis.isin(vals) + + +class JointFilterBinOp(FilterBinOp): + def format(self): + raise NotImplementedError("unable to collapse Joint Filters") + + # error: Signature of "evaluate" incompatible with supertype "BinOp" + def evaluate(self) -> Self: # type: ignore[override] + return self + + +class ConditionBinOp(BinOp): + def __repr__(self) -> str: + return pprint_thing(f"[Condition : [{self.condition}]]") + + def invert(self): + """invert the condition""" + # if self.condition is not None: + # self.condition = "~(%s)" % self.condition + # return self + raise NotImplementedError( + "cannot use an invert condition when passing to numexpr" + ) + + def format(self): + """return the actual ne format""" + return self.condition + + # error: Signature of "evaluate" incompatible with supertype "BinOp" + def evaluate(self) -> Self | None: # type: ignore[override] + if not self.is_valid: + raise ValueError(f"query term is not valid [{self}]") + + # convert values if we are in the table + if not self.is_in_table: + return None + + rhs = self.conform(self.rhs) + values = [self.convert_value(v) for v in rhs] + + # equality conditions + if self.op in ["==", "!="]: + # too many values to create the expression? + if len(values) <= self._max_selectors: + vs = [self.generate(v) for v in values] + self.condition = f"({' | '.join(vs)})" + + # use a filter after reading + else: + return None + else: + self.condition = self.generate(values[0]) + + return self + + +class JointConditionBinOp(ConditionBinOp): + # error: Signature of "evaluate" incompatible with supertype "BinOp" + def evaluate(self) -> Self: # type: ignore[override] + self.condition = f"({self.lhs.condition} {self.op} {self.rhs.condition})" + return self + + +class UnaryOp(ops.UnaryOp): + def prune(self, klass): + if self.op != "~": + raise NotImplementedError("UnaryOp only support invert type ops") + + operand = self.operand + operand = operand.prune(klass) + + if operand is not None and ( + issubclass(klass, ConditionBinOp) + and operand.condition is not None + or not issubclass(klass, ConditionBinOp) + and issubclass(klass, FilterBinOp) + and operand.filter is not None + ): + return operand.invert() + return None + + +class PyTablesExprVisitor(BaseExprVisitor): + const_type: ClassVar[type[ops.Term]] = Constant + term_type: ClassVar[type[Term]] = Term + + def __init__(self, env, engine, parser, **kwargs) -> None: + super().__init__(env, engine, parser) + for bin_op in self.binary_ops: + bin_node = self.binary_op_nodes_map[bin_op] + setattr( + self, + f"visit_{bin_node}", + lambda node, bin_op=bin_op: partial(BinOp, bin_op, **kwargs), + ) + + def visit_UnaryOp(self, node, **kwargs) -> ops.Term | UnaryOp | None: + if isinstance(node.op, (ast.Not, ast.Invert)): + return UnaryOp("~", self.visit(node.operand)) + elif isinstance(node.op, ast.USub): + return self.const_type(-self.visit(node.operand).value, self.env) + elif isinstance(node.op, ast.UAdd): + raise NotImplementedError("Unary addition not supported") + # TODO: return None might never be reached + return None + + def visit_Index(self, node, **kwargs): + return self.visit(node.value).value + + def visit_Assign(self, node, **kwargs): + cmpr = ast.Compare( + ops=[ast.Eq()], left=node.targets[0], comparators=[node.value] + ) + return self.visit(cmpr) + + def visit_Subscript(self, node, **kwargs) -> ops.Term: + # only allow simple subscripts + + value = self.visit(node.value) + slobj = self.visit(node.slice) + try: + value = value.value + except AttributeError: + pass + + if isinstance(slobj, Term): + # In py39 np.ndarray lookups with Term containing int raise + slobj = slobj.value + + try: + return self.const_type(value[slobj], self.env) + except TypeError as err: + raise ValueError( + f"cannot subscript {repr(value)} with {repr(slobj)}" + ) from err + + def visit_Attribute(self, node, **kwargs): + attr = node.attr + value = node.value + + ctx = type(node.ctx) + if ctx == ast.Load: + # resolve the value + resolved = self.visit(value) + + # try to get the value to see if we are another expression + try: + resolved = resolved.value + except AttributeError: + pass + + try: + return self.term_type(getattr(resolved, attr), self.env) + except AttributeError: + # something like datetime.datetime where scope is overridden + if isinstance(value, ast.Name) and value.id == attr: + return resolved + + raise ValueError(f"Invalid Attribute context {ctx.__name__}") + + def translate_In(self, op): + return ast.Eq() if isinstance(op, ast.In) else op + + def _rewrite_membership_op(self, node, left, right): + return self.visit(node.op), node.op, left, right + + +def _validate_where(w): + """ + Validate that the where statement is of the right type. + + The type may either be String, Expr, or list-like of Exprs. + + Parameters + ---------- + w : String term expression, Expr, or list-like of Exprs. + + Returns + ------- + where : The original where clause if the check was successful. + + Raises + ------ + TypeError : An invalid data type was passed in for w (e.g. dict). + """ + if not (isinstance(w, (PyTablesExpr, str)) or is_list_like(w)): + raise TypeError( + "where must be passed as a string, PyTablesExpr, " + "or list-like of PyTablesExpr" + ) + + return w + + +class PyTablesExpr(expr.Expr): + """ + Hold a pytables-like expression, comprised of possibly multiple 'terms'. + + Parameters + ---------- + where : string term expression, PyTablesExpr, or list-like of PyTablesExprs + queryables : a "kinds" map (dict of column name -> kind), or None if column + is non-indexable + encoding : an encoding that will encode the query terms + + Returns + ------- + a PyTablesExpr object + + Examples + -------- + 'index>=date' + "columns=['A', 'D']" + 'columns=A' + 'columns==A' + "~(columns=['A','B'])" + 'index>df.index[3] & string="bar"' + '(index>df.index[3] & index<=df.index[6]) | string="bar"' + "ts>=Timestamp('2012-02-01')" + "major_axis>=20130101" + """ + + _visitor: PyTablesExprVisitor | None + env: PyTablesScope + expr: str + + def __init__( + self, + where, + queryables: dict[str, Any] | None = None, + encoding=None, + scope_level: int = 0, + ) -> None: + where = _validate_where(where) + + self.encoding = encoding + self.condition = None + self.filter = None + self.terms = None + self._visitor = None + + # capture the environment if needed + local_dict: _scope.DeepChainMap[Any, Any] | None = None + + if isinstance(where, PyTablesExpr): + local_dict = where.env.scope + _where = where.expr + + elif is_list_like(where): + where = list(where) + for idx, w in enumerate(where): + if isinstance(w, PyTablesExpr): + local_dict = w.env.scope + else: + where[idx] = _validate_where(w) + _where = " & ".join([f"({w})" for w in com.flatten(where)]) + else: + # _validate_where ensures we otherwise have a string + _where = where + + self.expr = _where + self.env = PyTablesScope(scope_level + 1, local_dict=local_dict) + + if queryables is not None and isinstance(self.expr, str): + self.env.queryables.update(queryables) + self._visitor = PyTablesExprVisitor( + self.env, + queryables=queryables, + parser="pytables", + engine="pytables", + encoding=encoding, + ) + self.terms = self.parse() + + def __repr__(self) -> str: + if self.terms is not None: + return pprint_thing(self.terms) + return pprint_thing(self.expr) + + def evaluate(self): + """create and return the numexpr condition and filter""" + try: + self.condition = self.terms.prune(ConditionBinOp) + except AttributeError as err: + raise ValueError( + f"cannot process expression [{self.expr}], [{self}] " + "is not a valid condition" + ) from err + try: + self.filter = self.terms.prune(FilterBinOp) + except AttributeError as err: + raise ValueError( + f"cannot process expression [{self.expr}], [{self}] " + "is not a valid filter" + ) from err + + return self.condition, self.filter + + +class TermValue: + """hold a term value the we use to construct a condition/filter""" + + def __init__(self, value, converted, kind: str) -> None: + assert isinstance(kind, str), kind + self.value = value + self.converted = converted + self.kind = kind + + def tostring(self, encoding) -> str: + """quote the string if not encoded else encode and return""" + if self.kind == "string": + if encoding is not None: + return str(self.converted) + return f'"{self.converted}"' + elif self.kind == "float": + # python 2 str(float) is not always + # round-trippable so use repr() + return repr(self.converted) + return str(self.converted) + + +def maybe_expression(s) -> bool: + """loose checking if s is a pytables-acceptable expression""" + if not isinstance(s, str): + return False + operations = PyTablesExprVisitor.binary_ops + PyTablesExprVisitor.unary_ops + ("=",) + + # make sure we have an op at least + return any(op in s for op in operations) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/scope.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/scope.py new file mode 100644 index 0000000000000000000000000000000000000000..7e553ca448218435eafe1fd7ca97dce6f739e2a3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/computation/scope.py @@ -0,0 +1,355 @@ +""" +Module for scope operations +""" +from __future__ import annotations + +from collections import ChainMap +import datetime +import inspect +from io import StringIO +import itertools +import pprint +import struct +import sys +from typing import TypeVar + +import numpy as np + +from pandas._libs.tslibs import Timestamp +from pandas.errors import UndefinedVariableError + +_KT = TypeVar("_KT") +_VT = TypeVar("_VT") + + +# https://docs.python.org/3/library/collections.html#chainmap-examples-and-recipes +class DeepChainMap(ChainMap[_KT, _VT]): + """ + Variant of ChainMap that allows direct updates to inner scopes. + + Only works when all passed mapping are mutable. + """ + + def __setitem__(self, key: _KT, value: _VT) -> None: + for mapping in self.maps: + if key in mapping: + mapping[key] = value + return + self.maps[0][key] = value + + def __delitem__(self, key: _KT) -> None: + """ + Raises + ------ + KeyError + If `key` doesn't exist. + """ + for mapping in self.maps: + if key in mapping: + del mapping[key] + return + raise KeyError(key) + + +def ensure_scope( + level: int, global_dict=None, local_dict=None, resolvers=(), target=None +) -> Scope: + """Ensure that we are grabbing the correct scope.""" + return Scope( + level + 1, + global_dict=global_dict, + local_dict=local_dict, + resolvers=resolvers, + target=target, + ) + + +def _replacer(x) -> str: + """ + Replace a number with its hexadecimal representation. Used to tag + temporary variables with their calling scope's id. + """ + # get the hex repr of the binary char and remove 0x and pad by pad_size + # zeros + try: + hexin = ord(x) + except TypeError: + # bytes literals masquerade as ints when iterating in py3 + hexin = x + + return hex(hexin) + + +def _raw_hex_id(obj) -> str: + """Return the padded hexadecimal id of ``obj``.""" + # interpret as a pointer since that's what really what id returns + packed = struct.pack("@P", id(obj)) + return "".join([_replacer(x) for x in packed]) + + +DEFAULT_GLOBALS = { + "Timestamp": Timestamp, + "datetime": datetime.datetime, + "True": True, + "False": False, + "list": list, + "tuple": tuple, + "inf": np.inf, + "Inf": np.inf, +} + + +def _get_pretty_string(obj) -> str: + """ + Return a prettier version of obj. + + Parameters + ---------- + obj : object + Object to pretty print + + Returns + ------- + str + Pretty print object repr + """ + sio = StringIO() + pprint.pprint(obj, stream=sio) + return sio.getvalue() + + +class Scope: + """ + Object to hold scope, with a few bells to deal with some custom syntax + and contexts added by pandas. + + Parameters + ---------- + level : int + global_dict : dict or None, optional, default None + local_dict : dict or Scope or None, optional, default None + resolvers : list-like or None, optional, default None + target : object + + Attributes + ---------- + level : int + scope : DeepChainMap + target : object + temps : dict + """ + + __slots__ = ["level", "scope", "target", "resolvers", "temps"] + level: int + scope: DeepChainMap + resolvers: DeepChainMap + temps: dict + + def __init__( + self, level: int, global_dict=None, local_dict=None, resolvers=(), target=None + ) -> None: + self.level = level + 1 + + # shallow copy because we don't want to keep filling this up with what + # was there before if there are multiple calls to Scope/_ensure_scope + self.scope = DeepChainMap(DEFAULT_GLOBALS.copy()) + self.target = target + + if isinstance(local_dict, Scope): + self.scope.update(local_dict.scope) + if local_dict.target is not None: + self.target = local_dict.target + self._update(local_dict.level) + + frame = sys._getframe(self.level) + + try: + # shallow copy here because we don't want to replace what's in + # scope when we align terms (alignment accesses the underlying + # numpy array of pandas objects) + scope_global = self.scope.new_child( + (global_dict if global_dict is not None else frame.f_globals).copy() + ) + self.scope = DeepChainMap(scope_global) + if not isinstance(local_dict, Scope): + scope_local = self.scope.new_child( + (local_dict if local_dict is not None else frame.f_locals).copy() + ) + self.scope = DeepChainMap(scope_local) + finally: + del frame + + # assumes that resolvers are going from outermost scope to inner + if isinstance(local_dict, Scope): + resolvers += tuple(local_dict.resolvers.maps) + self.resolvers = DeepChainMap(*resolvers) + self.temps = {} + + def __repr__(self) -> str: + scope_keys = _get_pretty_string(list(self.scope.keys())) + res_keys = _get_pretty_string(list(self.resolvers.keys())) + return f"{type(self).__name__}(scope={scope_keys}, resolvers={res_keys})" + + @property + def has_resolvers(self) -> bool: + """ + Return whether we have any extra scope. + + For example, DataFrames pass Their columns as resolvers during calls to + ``DataFrame.eval()`` and ``DataFrame.query()``. + + Returns + ------- + hr : bool + """ + return bool(len(self.resolvers)) + + def resolve(self, key: str, is_local: bool): + """ + Resolve a variable name in a possibly local context. + + Parameters + ---------- + key : str + A variable name + is_local : bool + Flag indicating whether the variable is local or not (prefixed with + the '@' symbol) + + Returns + ------- + value : object + The value of a particular variable + """ + try: + # only look for locals in outer scope + if is_local: + return self.scope[key] + + # not a local variable so check in resolvers if we have them + if self.has_resolvers: + return self.resolvers[key] + + # if we're here that means that we have no locals and we also have + # no resolvers + assert not is_local and not self.has_resolvers + return self.scope[key] + except KeyError: + try: + # last ditch effort we look in temporaries + # these are created when parsing indexing expressions + # e.g., df[df > 0] + return self.temps[key] + except KeyError as err: + raise UndefinedVariableError(key, is_local) from err + + def swapkey(self, old_key: str, new_key: str, new_value=None) -> None: + """ + Replace a variable name, with a potentially new value. + + Parameters + ---------- + old_key : str + Current variable name to replace + new_key : str + New variable name to replace `old_key` with + new_value : object + Value to be replaced along with the possible renaming + """ + if self.has_resolvers: + maps = self.resolvers.maps + self.scope.maps + else: + maps = self.scope.maps + + maps.append(self.temps) + + for mapping in maps: + if old_key in mapping: + mapping[new_key] = new_value + return + + def _get_vars(self, stack, scopes: list[str]) -> None: + """ + Get specifically scoped variables from a list of stack frames. + + Parameters + ---------- + stack : list + A list of stack frames as returned by ``inspect.stack()`` + scopes : sequence of strings + A sequence containing valid stack frame attribute names that + evaluate to a dictionary. For example, ('locals', 'globals') + """ + variables = itertools.product(scopes, stack) + for scope, (frame, _, _, _, _, _) in variables: + try: + d = getattr(frame, f"f_{scope}") + self.scope = DeepChainMap(self.scope.new_child(d)) + finally: + # won't remove it, but DECREF it + # in Py3 this probably isn't necessary since frame won't be + # scope after the loop + del frame + + def _update(self, level: int) -> None: + """ + Update the current scope by going back `level` levels. + + Parameters + ---------- + level : int + """ + sl = level + 1 + + # add sl frames to the scope starting with the + # most distant and overwriting with more current + # makes sure that we can capture variable scope + stack = inspect.stack() + + try: + self._get_vars(stack[:sl], scopes=["locals"]) + finally: + del stack[:], stack + + def add_tmp(self, value) -> str: + """ + Add a temporary variable to the scope. + + Parameters + ---------- + value : object + An arbitrary object to be assigned to a temporary variable. + + Returns + ------- + str + The name of the temporary variable created. + """ + name = f"{type(value).__name__}_{self.ntemps}_{_raw_hex_id(self)}" + + # add to inner most scope + assert name not in self.temps + self.temps[name] = value + assert name in self.temps + + # only increment if the variable gets put in the scope + return name + + @property + def ntemps(self) -> int: + """The number of temporary variables in this scope""" + return len(self.temps) + + @property + def full_scope(self) -> DeepChainMap: + """ + Return the full scope for use with passing to engines transparently + as a mapping. + + Returns + ------- + vars : DeepChainMap + All variables in this scope. + """ + maps = [self.temps] + self.resolvers.maps + self.scope.maps + return DeepChainMap(*maps) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/construction.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/construction.py new file mode 100644 index 0000000000000000000000000000000000000000..59e87f28a3dce82395abc16d3bb3ef63d155c820 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/construction.py @@ -0,0 +1,821 @@ +""" +Constructor functions intended to be shared by pd.array, Series.__init__, +and Index.__new__. + +These should not depend on core.internals. +""" +from __future__ import annotations + +from collections.abc import Sequence +from typing import ( + TYPE_CHECKING, + Optional, + Union, + cast, + overload, +) +import warnings + +import numpy as np +from numpy import ma + +from pandas._config import using_string_dtype + +from pandas._libs import lib +from pandas._libs.tslibs import ( + Period, + get_supported_dtype, + is_supported_dtype, +) +from pandas._typing import ( + AnyArrayLike, + ArrayLike, + Dtype, + DtypeObj, + T, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.base import ExtensionDtype +from pandas.core.dtypes.cast import ( + construct_1d_arraylike_from_scalar, + construct_1d_object_array_from_listlike, + maybe_cast_to_datetime, + maybe_cast_to_integer_array, + maybe_convert_platform, + maybe_infer_to_datetimelike, + maybe_promote, +) +from pandas.core.dtypes.common import ( + is_list_like, + is_object_dtype, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import NumpyEADtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCExtensionArray, + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import isna + +import pandas.core.common as com + +if TYPE_CHECKING: + from pandas import ( + Index, + Series, + ) + from pandas.core.arrays.base import ExtensionArray + + +def array( + data: Sequence[object] | AnyArrayLike, + dtype: Dtype | None = None, + copy: bool = True, +) -> ExtensionArray: + """ + Create an array. + + Parameters + ---------- + data : Sequence of objects + The scalars inside `data` should be instances of the + scalar type for `dtype`. It's expected that `data` + represents a 1-dimensional array of data. + + When `data` is an Index or Series, the underlying array + will be extracted from `data`. + + dtype : str, np.dtype, or ExtensionDtype, optional + The dtype to use for the array. This may be a NumPy + dtype or an extension type registered with pandas using + :meth:`pandas.api.extensions.register_extension_dtype`. + + If not specified, there are two possibilities: + + 1. When `data` is a :class:`Series`, :class:`Index`, or + :class:`ExtensionArray`, the `dtype` will be taken + from the data. + 2. Otherwise, pandas will attempt to infer the `dtype` + from the data. + + Note that when `data` is a NumPy array, ``data.dtype`` is + *not* used for inferring the array type. This is because + NumPy cannot represent all the types of data that can be + held in extension arrays. + + Currently, pandas will infer an extension dtype for sequences of + + ============================== ======================================= + Scalar Type Array Type + ============================== ======================================= + :class:`pandas.Interval` :class:`pandas.arrays.IntervalArray` + :class:`pandas.Period` :class:`pandas.arrays.PeriodArray` + :class:`datetime.datetime` :class:`pandas.arrays.DatetimeArray` + :class:`datetime.timedelta` :class:`pandas.arrays.TimedeltaArray` + :class:`int` :class:`pandas.arrays.IntegerArray` + :class:`float` :class:`pandas.arrays.FloatingArray` + :class:`str` :class:`pandas.arrays.StringArray` or + :class:`pandas.arrays.ArrowStringArray` + :class:`bool` :class:`pandas.arrays.BooleanArray` + ============================== ======================================= + + The ExtensionArray created when the scalar type is :class:`str` is determined by + ``pd.options.mode.string_storage`` if the dtype is not explicitly given. + + For all other cases, NumPy's usual inference rules will be used. + copy : bool, default True + Whether to copy the data, even if not necessary. Depending + on the type of `data`, creating the new array may require + copying data, even if ``copy=False``. + + Returns + ------- + ExtensionArray + The newly created array. + + Raises + ------ + ValueError + When `data` is not 1-dimensional. + + See Also + -------- + numpy.array : Construct a NumPy array. + Series : Construct a pandas Series. + Index : Construct a pandas Index. + arrays.NumpyExtensionArray : ExtensionArray wrapping a NumPy array. + Series.array : Extract the array stored within a Series. + + Notes + ----- + Omitting the `dtype` argument means pandas will attempt to infer the + best array type from the values in the data. As new array types are + added by pandas and 3rd party libraries, the "best" array type may + change. We recommend specifying `dtype` to ensure that + + 1. the correct array type for the data is returned + 2. the returned array type doesn't change as new extension types + are added by pandas and third-party libraries + + Additionally, if the underlying memory representation of the returned + array matters, we recommend specifying the `dtype` as a concrete object + rather than a string alias or allowing it to be inferred. For example, + a future version of pandas or a 3rd-party library may include a + dedicated ExtensionArray for string data. In this event, the following + would no longer return a :class:`arrays.NumpyExtensionArray` backed by a + NumPy array. + + >>> pd.array(['a', 'b'], dtype=str) + + ['a', 'b'] + Length: 2, dtype: str32 + + This would instead return the new ExtensionArray dedicated for string + data. If you really need the new array to be backed by a NumPy array, + specify that in the dtype. + + >>> pd.array(['a', 'b'], dtype=np.dtype(" + ['a', 'b'] + Length: 2, dtype: str32 + + Finally, Pandas has arrays that mostly overlap with NumPy + + * :class:`arrays.DatetimeArray` + * :class:`arrays.TimedeltaArray` + + When data with a ``datetime64[ns]`` or ``timedelta64[ns]`` dtype is + passed, pandas will always return a ``DatetimeArray`` or ``TimedeltaArray`` + rather than a ``NumpyExtensionArray``. This is for symmetry with the case of + timezone-aware data, which NumPy does not natively support. + + >>> pd.array(['2015', '2016'], dtype='datetime64[ns]') + + ['2015-01-01 00:00:00', '2016-01-01 00:00:00'] + Length: 2, dtype: datetime64[ns] + + >>> pd.array(["1h", "2h"], dtype='timedelta64[ns]') + + ['0 days 01:00:00', '0 days 02:00:00'] + Length: 2, dtype: timedelta64[ns] + + Examples + -------- + If a dtype is not specified, pandas will infer the best dtype from the values. + See the description of `dtype` for the types pandas infers for. + + >>> pd.array([1, 2]) + + [1, 2] + Length: 2, dtype: Int64 + + >>> pd.array([1, 2, np.nan]) + + [1, 2, ] + Length: 3, dtype: Int64 + + >>> pd.array([1.1, 2.2]) + + [1.1, 2.2] + Length: 2, dtype: Float64 + + >>> pd.array(["a", None, "c"]) + + ['a', , 'c'] + Length: 3, dtype: string + + >>> with pd.option_context("string_storage", "pyarrow"): + ... arr = pd.array(["a", None, "c"]) + ... + >>> arr + + ['a', , 'c'] + Length: 3, dtype: string + + >>> pd.array([pd.Period('2000', freq="D"), pd.Period("2000", freq="D")]) + + ['2000-01-01', '2000-01-01'] + Length: 2, dtype: period[D] + + You can use the string alias for `dtype` + + >>> pd.array(['a', 'b', 'a'], dtype='category') + ['a', 'b', 'a'] + Categories (2, object): ['a', 'b'] + + Or specify the actual dtype + + >>> pd.array(['a', 'b', 'a'], + ... dtype=pd.CategoricalDtype(['a', 'b', 'c'], ordered=True)) + ['a', 'b', 'a'] + Categories (3, object): ['a' < 'b' < 'c'] + + If pandas does not infer a dedicated extension type a + :class:`arrays.NumpyExtensionArray` is returned. + + >>> pd.array([1 + 1j, 3 + 2j]) + + [(1+1j), (3+2j)] + Length: 2, dtype: complex128 + + As mentioned in the "Notes" section, new extension types may be added + in the future (by pandas or 3rd party libraries), causing the return + value to no longer be a :class:`arrays.NumpyExtensionArray`. Specify the + `dtype` as a NumPy dtype if you need to ensure there's no future change in + behavior. + + >>> pd.array([1, 2], dtype=np.dtype("int32")) + + [1, 2] + Length: 2, dtype: int32 + + `data` must be 1-dimensional. A ValueError is raised when the input + has the wrong dimensionality. + + >>> pd.array(1) + Traceback (most recent call last): + ... + ValueError: Cannot pass scalar '1' to 'pandas.array'. + """ + from pandas.core.arrays import ( + BooleanArray, + DatetimeArray, + ExtensionArray, + FloatingArray, + IntegerArray, + IntervalArray, + NumpyExtensionArray, + PeriodArray, + TimedeltaArray, + ) + from pandas.core.arrays.string_ import StringDtype + + if lib.is_scalar(data): + msg = f"Cannot pass scalar '{data}' to 'pandas.array'." + raise ValueError(msg) + elif isinstance(data, ABCDataFrame): + raise TypeError("Cannot pass DataFrame to 'pandas.array'") + + if dtype is None and isinstance(data, (ABCSeries, ABCIndex, ExtensionArray)): + # Note: we exclude np.ndarray here, will do type inference on it + dtype = data.dtype + + data = extract_array(data, extract_numpy=True) + + # this returns None for not-found dtypes. + if dtype is not None: + dtype = pandas_dtype(dtype) + + if isinstance(data, ExtensionArray) and (dtype is None or data.dtype == dtype): + # e.g. TimedeltaArray[s], avoid casting to NumpyExtensionArray + if copy: + return data.copy() + return data + + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + return cls._from_sequence(data, dtype=dtype, copy=copy) + + if dtype is None: + inferred_dtype = lib.infer_dtype(data, skipna=True) + if inferred_dtype == "period": + period_data = cast(Union[Sequence[Optional[Period]], AnyArrayLike], data) + return PeriodArray._from_sequence(period_data, copy=copy) + + elif inferred_dtype == "interval": + return IntervalArray(data, copy=copy) + + elif inferred_dtype.startswith("datetime"): + # datetime, datetime64 + try: + return DatetimeArray._from_sequence(data, copy=copy) + except ValueError: + # Mixture of timezones, fall back to NumpyExtensionArray + pass + + elif inferred_dtype.startswith("timedelta"): + # timedelta, timedelta64 + return TimedeltaArray._from_sequence(data, copy=copy) + + elif inferred_dtype == "string": + # StringArray/ArrowStringArray depending on pd.options.mode.string_storage + dtype = StringDtype() + cls = dtype.construct_array_type() + return cls._from_sequence(data, dtype=dtype, copy=copy) + + elif inferred_dtype == "integer": + return IntegerArray._from_sequence(data, copy=copy) + elif inferred_dtype == "empty" and not hasattr(data, "dtype") and not len(data): + return FloatingArray._from_sequence(data, copy=copy) + elif ( + inferred_dtype in ("floating", "mixed-integer-float") + and getattr(data, "dtype", None) != np.float16 + ): + # GH#44715 Exclude np.float16 bc FloatingArray does not support it; + # we will fall back to NumpyExtensionArray. + return FloatingArray._from_sequence(data, copy=copy) + + elif inferred_dtype == "boolean": + return BooleanArray._from_sequence(data, dtype="boolean", copy=copy) + + # Pandas overrides NumPy for + # 1. datetime64[ns,us,ms,s] + # 2. timedelta64[ns,us,ms,s] + # so that a DatetimeArray is returned. + if lib.is_np_dtype(dtype, "M") and is_supported_dtype(dtype): + return DatetimeArray._from_sequence(data, dtype=dtype, copy=copy) + if lib.is_np_dtype(dtype, "m") and is_supported_dtype(dtype): + return TimedeltaArray._from_sequence(data, dtype=dtype, copy=copy) + + elif lib.is_np_dtype(dtype, "mM"): + warnings.warn( + r"datetime64 and timedelta64 dtype resolutions other than " + r"'s', 'ms', 'us', and 'ns' are deprecated. " + r"In future releases passing unsupported resolutions will " + r"raise an exception.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + return NumpyExtensionArray._from_sequence(data, dtype=dtype, copy=copy) + + +_typs = frozenset( + { + "index", + "rangeindex", + "multiindex", + "datetimeindex", + "timedeltaindex", + "periodindex", + "categoricalindex", + "intervalindex", + "series", + } +) + + +@overload +def extract_array( + obj: Series | Index, extract_numpy: bool = ..., extract_range: bool = ... +) -> ArrayLike: + ... + + +@overload +def extract_array( + obj: T, extract_numpy: bool = ..., extract_range: bool = ... +) -> T | ArrayLike: + ... + + +def extract_array( + obj: T, extract_numpy: bool = False, extract_range: bool = False +) -> T | ArrayLike: + """ + Extract the ndarray or ExtensionArray from a Series or Index. + + For all other types, `obj` is just returned as is. + + Parameters + ---------- + obj : object + For Series / Index, the underlying ExtensionArray is unboxed. + + extract_numpy : bool, default False + Whether to extract the ndarray from a NumpyExtensionArray. + + extract_range : bool, default False + If we have a RangeIndex, return range._values if True + (which is a materialized integer ndarray), otherwise return unchanged. + + Returns + ------- + arr : object + + Examples + -------- + >>> extract_array(pd.Series(['a', 'b', 'c'], dtype='category')) + ['a', 'b', 'c'] + Categories (3, object): ['a', 'b', 'c'] + + Other objects like lists, arrays, and DataFrames are just passed through. + + >>> extract_array([1, 2, 3]) + [1, 2, 3] + + For an ndarray-backed Series / Index the ndarray is returned. + + >>> extract_array(pd.Series([1, 2, 3])) + array([1, 2, 3]) + + To extract all the way down to the ndarray, pass ``extract_numpy=True``. + + >>> extract_array(pd.Series([1, 2, 3]), extract_numpy=True) + array([1, 2, 3]) + """ + typ = getattr(obj, "_typ", None) + if typ in _typs: + # i.e. isinstance(obj, (ABCIndex, ABCSeries)) + if typ == "rangeindex": + if extract_range: + # error: "T" has no attribute "_values" + return obj._values # type: ignore[attr-defined] + return obj + + # error: "T" has no attribute "_values" + return obj._values # type: ignore[attr-defined] + + elif extract_numpy and typ == "npy_extension": + # i.e. isinstance(obj, ABCNumpyExtensionArray) + # error: "T" has no attribute "to_numpy" + return obj.to_numpy() # type: ignore[attr-defined] + + return obj + + +def ensure_wrapped_if_datetimelike(arr): + """ + Wrap datetime64 and timedelta64 ndarrays in DatetimeArray/TimedeltaArray. + """ + if isinstance(arr, np.ndarray): + if arr.dtype.kind == "M": + from pandas.core.arrays import DatetimeArray + + dtype = get_supported_dtype(arr.dtype) + return DatetimeArray._from_sequence(arr, dtype=dtype) + + elif arr.dtype.kind == "m": + from pandas.core.arrays import TimedeltaArray + + dtype = get_supported_dtype(arr.dtype) + return TimedeltaArray._from_sequence(arr, dtype=dtype) + + return arr + + +def sanitize_masked_array(data: ma.MaskedArray) -> np.ndarray: + """ + Convert numpy MaskedArray to ensure mask is softened. + """ + mask = ma.getmaskarray(data) + if mask.any(): + dtype, fill_value = maybe_promote(data.dtype, np.nan) + dtype = cast(np.dtype, dtype) + data = ma.asarray(data.astype(dtype, copy=True)) + data.soften_mask() # set hardmask False if it was True + data[mask] = fill_value + else: + data = data.copy() + return data + + +def sanitize_array( + data, + index: Index | None, + dtype: DtypeObj | None = None, + copy: bool = False, + *, + allow_2d: bool = False, +) -> ArrayLike: + """ + Sanitize input data to an ndarray or ExtensionArray, copy if specified, + coerce to the dtype if specified. + + Parameters + ---------- + data : Any + index : Index or None, default None + dtype : np.dtype, ExtensionDtype, or None, default None + copy : bool, default False + allow_2d : bool, default False + If False, raise if we have a 2D Arraylike. + + Returns + ------- + np.ndarray or ExtensionArray + """ + original_dtype = dtype + if isinstance(data, ma.MaskedArray): + data = sanitize_masked_array(data) + + if isinstance(dtype, NumpyEADtype): + # Avoid ending up with a NumpyExtensionArray + dtype = dtype.numpy_dtype + + object_index = False + if isinstance(data, ABCIndex) and data.dtype == object and dtype is None: + object_index = True + + # extract ndarray or ExtensionArray, ensure we have no NumpyExtensionArray + data = extract_array(data, extract_numpy=True, extract_range=True) + + if isinstance(data, np.ndarray) and data.ndim == 0: + if dtype is None: + dtype = data.dtype + data = lib.item_from_zerodim(data) + elif isinstance(data, range): + # GH#16804 + data = range_to_ndarray(data) + copy = False + + if not is_list_like(data): + if index is None: + raise ValueError("index must be specified when data is not list-like") + if isinstance(data, str) and using_string_dtype() and original_dtype is None: + from pandas.core.arrays.string_ import StringDtype + + dtype = StringDtype(na_value=np.nan) + data = construct_1d_arraylike_from_scalar(data, len(index), dtype) + + return data + + elif isinstance(data, ABCExtensionArray): + # it is already ensured above this is not a NumpyExtensionArray + # Until GH#49309 is fixed this check needs to come before the + # ExtensionDtype check + if dtype is not None: + subarr = data.astype(dtype, copy=copy) + elif copy: + subarr = data.copy() + else: + subarr = data + + elif isinstance(dtype, ExtensionDtype): + # create an extension array from its dtype + _sanitize_non_ordered(data) + cls = dtype.construct_array_type() + if not hasattr(data, "__array__"): + data = list(data) + subarr = cls._from_sequence(data, dtype=dtype, copy=copy) + + # GH#846 + elif isinstance(data, np.ndarray): + if isinstance(data, np.matrix): + data = data.A + + if dtype is None: + subarr = data + if data.dtype == object: + subarr = maybe_infer_to_datetimelike(data) + if object_index and using_string_dtype() and is_string_dtype(subarr): + # Avoid inference when string option is set + subarr = data + elif data.dtype.kind == "U" and using_string_dtype(): + from pandas.core.arrays.string_ import StringDtype + + dtype = StringDtype(na_value=np.nan) + subarr = dtype.construct_array_type()._from_sequence(data, dtype=dtype) + + if ( + subarr is data + or (subarr.dtype == "str" and subarr.dtype.storage == "python") # type: ignore[union-attr] + ) and copy: + subarr = subarr.copy() + + else: + # we will try to copy by-definition here + subarr = _try_cast(data, dtype, copy) + + elif hasattr(data, "__array__"): + # e.g. dask array GH#38645 + if not copy: + data = np.asarray(data) + else: + data = np.array(data, copy=copy) + return sanitize_array( + data, + index=index, + dtype=dtype, + copy=False, + allow_2d=allow_2d, + ) + + else: + _sanitize_non_ordered(data) + # materialize e.g. generators, convert e.g. tuples, abc.ValueView + data = list(data) + + if len(data) == 0 and dtype is None: + # We default to float64, matching numpy + subarr = np.array([], dtype=np.float64) + + elif dtype is not None: + subarr = _try_cast(data, dtype, copy) + + else: + subarr = maybe_convert_platform(data) + if subarr.dtype == object: + subarr = cast(np.ndarray, subarr) + subarr = maybe_infer_to_datetimelike(subarr) + + subarr = _sanitize_ndim(subarr, data, dtype, index, allow_2d=allow_2d) + + if isinstance(subarr, np.ndarray): + # at this point we should have dtype be None or subarr.dtype == dtype + dtype = cast(np.dtype, dtype) + subarr = _sanitize_str_dtypes(subarr, data, dtype, copy) + + return subarr + + +def range_to_ndarray(rng: range) -> np.ndarray: + """ + Cast a range object to ndarray. + """ + # GH#30171 perf avoid realizing range as a list in np.array + try: + arr = np.arange(rng.start, rng.stop, rng.step, dtype="int64") + except OverflowError: + # GH#30173 handling for ranges that overflow int64 + if (rng.start >= 0 and rng.step > 0) or (rng.step < 0 <= rng.stop): + try: + arr = np.arange(rng.start, rng.stop, rng.step, dtype="uint64") + except OverflowError: + arr = construct_1d_object_array_from_listlike(list(rng)) + else: + arr = construct_1d_object_array_from_listlike(list(rng)) + return arr + + +def _sanitize_non_ordered(data) -> None: + """ + Raise only for unordered sets, e.g., not for dict_keys + """ + if isinstance(data, (set, frozenset)): + raise TypeError(f"'{type(data).__name__}' type is unordered") + + +def _sanitize_ndim( + result: ArrayLike, + data, + dtype: DtypeObj | None, + index: Index | None, + *, + allow_2d: bool = False, +) -> ArrayLike: + """ + Ensure we have a 1-dimensional result array. + """ + if getattr(result, "ndim", 0) == 0: + raise ValueError("result should be arraylike with ndim > 0") + + if result.ndim == 1: + # the result that we want + result = _maybe_repeat(result, index) + + elif result.ndim > 1: + if isinstance(data, np.ndarray): + if allow_2d: + return result + raise ValueError( + f"Data must be 1-dimensional, got ndarray of shape {data.shape} instead" + ) + if is_object_dtype(dtype) and isinstance(dtype, ExtensionDtype): + # i.e. NumpyEADtype("O") + + result = com.asarray_tuplesafe(data, dtype=np.dtype("object")) + cls = dtype.construct_array_type() + result = cls._from_sequence(result, dtype=dtype) + else: + # error: Argument "dtype" to "asarray_tuplesafe" has incompatible type + # "Union[dtype[Any], ExtensionDtype, None]"; expected "Union[str, + # dtype[Any], None]" + result = com.asarray_tuplesafe(data, dtype=dtype) # type: ignore[arg-type] + return result + + +def _sanitize_str_dtypes( + result: np.ndarray, data, dtype: np.dtype | None, copy: bool +) -> np.ndarray: + """ + Ensure we have a dtype that is supported by pandas. + """ + + # This is to prevent mixed-type Series getting all casted to + # NumPy string type, e.g. NaN --> '-1#IND'. + if issubclass(result.dtype.type, str): + # GH#16605 + # If not empty convert the data to dtype + # GH#19853: If data is a scalar, result has already the result + if not lib.is_scalar(data): + if not np.all(isna(data)): + data = np.asarray(data, dtype=dtype) + if not copy: + result = np.asarray(data, dtype=object) + else: + result = np.array(data, dtype=object, copy=copy) + return result + + +def _maybe_repeat(arr: ArrayLike, index: Index | None) -> ArrayLike: + """ + If we have a length-1 array and an index describing how long we expect + the result to be, repeat the array. + """ + if index is not None: + if 1 == len(arr) != len(index): + arr = arr.repeat(len(index)) + return arr + + +def _try_cast( + arr: list | np.ndarray, + dtype: np.dtype, + copy: bool, +) -> ArrayLike: + """ + Convert input to numpy ndarray and optionally cast to a given dtype. + + Parameters + ---------- + arr : ndarray or list + Excludes: ExtensionArray, Series, Index. + dtype : np.dtype + copy : bool + If False, don't copy the data if not needed. + + Returns + ------- + np.ndarray or ExtensionArray + """ + is_ndarray = isinstance(arr, np.ndarray) + + if dtype == object: + if not is_ndarray: + subarr = construct_1d_object_array_from_listlike(arr) + return subarr + return ensure_wrapped_if_datetimelike(arr).astype(dtype, copy=copy) + + elif dtype.kind == "U": + # TODO: test cases with arr.dtype.kind in "mM" + if is_ndarray: + arr = cast(np.ndarray, arr) + shape = arr.shape + if arr.ndim > 1: + arr = arr.ravel() + else: + shape = (len(arr),) + return lib.ensure_string_array(arr, convert_na_value=False, copy=copy).reshape( + shape + ) + + elif dtype.kind in "mM": + return maybe_cast_to_datetime(arr, dtype) + + # GH#15832: Check if we are requesting a numeric dtype and + # that we can convert the data to the requested dtype. + elif dtype.kind in "iu": + # this will raise if we have e.g. floats + + subarr = maybe_cast_to_integer_array(arr, dtype) + elif not copy: + subarr = np.asarray(arr, dtype=dtype) + else: + subarr = np.array(arr, dtype=dtype, copy=copy) + + return subarr diff --git 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0000000000000000000000000000000000000000..254abe330b8e7229d0c2a27519e82efbe902c537 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/api.py @@ -0,0 +1,85 @@ +from pandas.core.dtypes.common import ( + is_any_real_numeric_dtype, + is_array_like, + is_bool, + is_bool_dtype, + is_categorical_dtype, + is_complex, + is_complex_dtype, + is_datetime64_any_dtype, + is_datetime64_dtype, + is_datetime64_ns_dtype, + is_datetime64tz_dtype, + is_dict_like, + is_dtype_equal, + is_extension_array_dtype, + is_file_like, + is_float, + is_float_dtype, + is_hashable, + is_int64_dtype, + is_integer, + is_integer_dtype, + is_interval, + is_interval_dtype, + is_iterator, + is_list_like, + is_named_tuple, + is_number, + is_numeric_dtype, + is_object_dtype, + is_period_dtype, + is_re, + is_re_compilable, + is_scalar, + is_signed_integer_dtype, + is_sparse, + is_string_dtype, + is_timedelta64_dtype, + is_timedelta64_ns_dtype, + is_unsigned_integer_dtype, + pandas_dtype, +) + +__all__ = [ + "is_any_real_numeric_dtype", + "is_array_like", + "is_bool", + "is_bool_dtype", + "is_categorical_dtype", + "is_complex", + "is_complex_dtype", + "is_datetime64_any_dtype", + "is_datetime64_dtype", + "is_datetime64_ns_dtype", + "is_datetime64tz_dtype", + "is_dict_like", + "is_dtype_equal", + "is_extension_array_dtype", + "is_file_like", + "is_float", + "is_float_dtype", + "is_hashable", + "is_int64_dtype", + "is_integer", + "is_integer_dtype", + "is_interval", + "is_interval_dtype", + "is_iterator", + "is_list_like", + "is_named_tuple", + "is_number", + "is_numeric_dtype", + "is_object_dtype", + "is_period_dtype", + "is_re", + "is_re_compilable", + "is_scalar", + "is_signed_integer_dtype", + "is_sparse", + "is_string_dtype", + "is_timedelta64_dtype", + "is_timedelta64_ns_dtype", + "is_unsigned_integer_dtype", + "pandas_dtype", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/astype.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/astype.py new file mode 100644 index 0000000000000000000000000000000000000000..f5579082c679bf131c056f3f2029b2485e88bd0d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/astype.py @@ -0,0 +1,301 @@ +""" +Functions for implementing 'astype' methods according to pandas conventions, +particularly ones that differ from numpy. +""" +from __future__ import annotations + +import inspect +from typing import ( + TYPE_CHECKING, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.tslibs.timedeltas import array_to_timedelta64 +from pandas.errors import IntCastingNaNError + +from pandas.core.dtypes.common import ( + is_object_dtype, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + ExtensionDtype, + NumpyEADtype, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + DtypeObj, + IgnoreRaise, + ) + + from pandas.core.arrays import ExtensionArray + +_dtype_obj = np.dtype(object) + + +@overload +def _astype_nansafe( + arr: np.ndarray, dtype: np.dtype, copy: bool = ..., skipna: bool = ... +) -> np.ndarray: + ... + + +@overload +def _astype_nansafe( + arr: np.ndarray, dtype: ExtensionDtype, copy: bool = ..., skipna: bool = ... +) -> ExtensionArray: + ... + + +def _astype_nansafe( + arr: np.ndarray, dtype: DtypeObj, copy: bool = True, skipna: bool = False +) -> ArrayLike: + """ + Cast the elements of an array to a given dtype a nan-safe manner. + + Parameters + ---------- + arr : ndarray + dtype : np.dtype or ExtensionDtype + copy : bool, default True + If False, a view will be attempted but may fail, if + e.g. the item sizes don't align. + skipna: bool, default False + Whether or not we should skip NaN when casting as a string-type. + + Raises + ------ + ValueError + The dtype was a datetime64/timedelta64 dtype, but it had no unit. + """ + + # dispatch on extension dtype if needed + if isinstance(dtype, ExtensionDtype): + return dtype.construct_array_type()._from_sequence(arr, dtype=dtype, copy=copy) + + elif not isinstance(dtype, np.dtype): # pragma: no cover + raise ValueError("dtype must be np.dtype or ExtensionDtype") + + if arr.dtype.kind in "mM": + from pandas.core.construction import ensure_wrapped_if_datetimelike + + arr = ensure_wrapped_if_datetimelike(arr) + res = arr.astype(dtype, copy=copy) + return np.asarray(res) + + if issubclass(dtype.type, str): + shape = arr.shape + if arr.ndim > 1: + arr = arr.ravel() + return lib.ensure_string_array( + arr, skipna=skipna, convert_na_value=False + ).reshape(shape) + + elif np.issubdtype(arr.dtype, np.floating) and dtype.kind in "iu": + return _astype_float_to_int_nansafe(arr, dtype, copy) + + elif arr.dtype == object: + # if we have a datetime/timedelta array of objects + # then coerce to datetime64[ns] and use DatetimeArray.astype + + if lib.is_np_dtype(dtype, "M"): + from pandas.core.arrays import DatetimeArray + + dta = DatetimeArray._from_sequence(arr, dtype=dtype) + return dta._ndarray + + elif lib.is_np_dtype(dtype, "m"): + from pandas.core.construction import ensure_wrapped_if_datetimelike + + # bc we know arr.dtype == object, this is equivalent to + # `np.asarray(to_timedelta(arr))`, but using a lower-level API that + # does not require a circular import. + tdvals = array_to_timedelta64(arr).view("m8[ns]") + + tda = ensure_wrapped_if_datetimelike(tdvals) + return tda.astype(dtype, copy=False)._ndarray + + if dtype.name in ("datetime64", "timedelta64"): + msg = ( + f"The '{dtype.name}' dtype has no unit. Please pass in " + f"'{dtype.name}[ns]' instead." + ) + raise ValueError(msg) + + if copy or arr.dtype == object or dtype == object: + # Explicit copy, or required since NumPy can't view from / to object. + return arr.astype(dtype, copy=True) + + return arr.astype(dtype, copy=copy) + + +def _astype_float_to_int_nansafe( + values: np.ndarray, dtype: np.dtype, copy: bool +) -> np.ndarray: + """ + astype with a check preventing converting NaN to an meaningless integer value. + """ + if not np.isfinite(values).all(): + raise IntCastingNaNError( + "Cannot convert non-finite values (NA or inf) to integer" + ) + if dtype.kind == "u": + # GH#45151 + if not (values >= 0).all(): + raise ValueError(f"Cannot losslessly cast from {values.dtype} to {dtype}") + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + return values.astype(dtype, copy=copy) + + +def astype_array(values: ArrayLike, dtype: DtypeObj, copy: bool = False) -> ArrayLike: + """ + Cast array (ndarray or ExtensionArray) to the new dtype. + + Parameters + ---------- + values : ndarray or ExtensionArray + dtype : dtype object + copy : bool, default False + copy if indicated + + Returns + ------- + ndarray or ExtensionArray + """ + if values.dtype == dtype: + if copy: + return values.copy() + return values + + if not isinstance(values, np.ndarray): + # i.e. ExtensionArray + values = values.astype(dtype, copy=copy) + + else: + values = _astype_nansafe(values, dtype, copy=copy) + + # in pandas we don't store numpy str dtypes, so convert to object + if isinstance(dtype, np.dtype) and issubclass(values.dtype.type, str): + values = np.array(values, dtype=object) + + return values + + +def astype_array_safe( + values: ArrayLike, dtype, copy: bool = False, errors: IgnoreRaise = "raise" +) -> ArrayLike: + """ + Cast array (ndarray or ExtensionArray) to the new dtype. + + This basically is the implementation for DataFrame/Series.astype and + includes all custom logic for pandas (NaN-safety, converting str to object, + not allowing ) + + Parameters + ---------- + values : ndarray or ExtensionArray + dtype : str, dtype convertible + copy : bool, default False + copy if indicated + errors : str, {'raise', 'ignore'}, default 'raise' + - ``raise`` : allow exceptions to be raised + - ``ignore`` : suppress exceptions. On error return original object + + Returns + ------- + ndarray or ExtensionArray + """ + errors_legal_values = ("raise", "ignore") + + if errors not in errors_legal_values: + invalid_arg = ( + "Expected value of kwarg 'errors' to be one of " + f"{list(errors_legal_values)}. Supplied value is '{errors}'" + ) + raise ValueError(invalid_arg) + + if inspect.isclass(dtype) and issubclass(dtype, ExtensionDtype): + msg = ( + f"Expected an instance of {dtype.__name__}, " + "but got the class instead. Try instantiating 'dtype'." + ) + raise TypeError(msg) + + dtype = pandas_dtype(dtype) + if isinstance(dtype, NumpyEADtype): + # Ensure we don't end up with a NumpyExtensionArray + dtype = dtype.numpy_dtype + + try: + new_values = astype_array(values, dtype, copy=copy) + except (ValueError, TypeError): + # e.g. _astype_nansafe can fail on object-dtype of strings + # trying to convert to float + if errors == "ignore": + new_values = values + else: + raise + + return new_values + + +def astype_is_view(dtype: DtypeObj, new_dtype: DtypeObj) -> bool: + """Checks if astype avoided copying the data. + + Parameters + ---------- + dtype : Original dtype + new_dtype : target dtype + + Returns + ------- + True if new data is a view or not guaranteed to be a copy, False otherwise + """ + if isinstance(dtype, np.dtype) and not isinstance(new_dtype, np.dtype): + new_dtype, dtype = dtype, new_dtype + + if dtype == new_dtype: + return True + + elif isinstance(dtype, np.dtype) and isinstance(new_dtype, np.dtype): + # Only equal numpy dtypes avoid a copy + return False + + elif is_string_dtype(dtype) and is_string_dtype(new_dtype): + # Potentially! a view when converting from object to string + return True + + elif is_object_dtype(dtype) and new_dtype.kind == "O": + # When the underlying array has dtype object, we don't have to make a copy + return True + + elif dtype.kind in "mM" and new_dtype.kind in "mM": + dtype = getattr(dtype, "numpy_dtype", dtype) + new_dtype = getattr(new_dtype, "numpy_dtype", new_dtype) + return getattr(dtype, "unit", None) == getattr(new_dtype, "unit", None) + + numpy_dtype = getattr(dtype, "numpy_dtype", None) + new_numpy_dtype = getattr(new_dtype, "numpy_dtype", None) + + if numpy_dtype is None and isinstance(dtype, np.dtype): + numpy_dtype = dtype + + if new_numpy_dtype is None and isinstance(new_dtype, np.dtype): + new_numpy_dtype = new_dtype + + if numpy_dtype is not None and new_numpy_dtype is not None: + # if both have NumPy dtype or one of them is a numpy dtype + # they are only a view when the numpy dtypes are equal, e.g. + # int64 -> Int64 or int64[pyarrow] + # int64 -> Int32 copies + return numpy_dtype == new_numpy_dtype + + # Assume this is a view since we don't know for sure if a copy was made + return True diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/base.py new file mode 100644 index 0000000000000000000000000000000000000000..6b00a5284ec5b18809e233e9ef89e31771ac651e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/base.py @@ -0,0 +1,583 @@ +""" +Extend pandas with custom array types. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + TypeVar, + cast, + overload, +) + +import numpy as np + +from pandas._libs import missing as libmissing +from pandas._libs.hashtable import object_hash +from pandas._libs.properties import cache_readonly +from pandas.errors import AbstractMethodError + +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCIndex, + ABCSeries, +) + +if TYPE_CHECKING: + from pandas._typing import ( + DtypeObj, + Self, + Shape, + npt, + type_t, + ) + + from pandas import Index + from pandas.core.arrays import ExtensionArray + + # To parameterize on same ExtensionDtype + ExtensionDtypeT = TypeVar("ExtensionDtypeT", bound="ExtensionDtype") + + +class ExtensionDtype: + """ + A custom data type, to be paired with an ExtensionArray. + + See Also + -------- + extensions.register_extension_dtype: Register an ExtensionType + with pandas as class decorator. + extensions.ExtensionArray: Abstract base class for custom 1-D array types. + + Notes + ----- + The interface includes the following abstract methods that must + be implemented by subclasses: + + * type + * name + * construct_array_type + + The following attributes and methods influence the behavior of the dtype in + pandas operations + + * _is_numeric + * _is_boolean + * _get_common_dtype + + The `na_value` class attribute can be used to set the default NA value + for this type. :attr:`numpy.nan` is used by default. + + ExtensionDtypes are required to be hashable. The base class provides + a default implementation, which relies on the ``_metadata`` class + attribute. ``_metadata`` should be a tuple containing the strings + that define your data type. For example, with ``PeriodDtype`` that's + the ``freq`` attribute. + + **If you have a parametrized dtype you should set the ``_metadata`` + class property**. + + Ideally, the attributes in ``_metadata`` will match the + parameters to your ``ExtensionDtype.__init__`` (if any). If any of + the attributes in ``_metadata`` don't implement the standard + ``__eq__`` or ``__hash__``, the default implementations here will not + work. + + Examples + -------- + + For interaction with Apache Arrow (pyarrow), a ``__from_arrow__`` method + can be implemented: this method receives a pyarrow Array or ChunkedArray + as only argument and is expected to return the appropriate pandas + ExtensionArray for this dtype and the passed values: + + >>> import pyarrow + >>> from pandas.api.extensions import ExtensionArray + >>> class ExtensionDtype: + ... def __from_arrow__( + ... self, + ... array: pyarrow.Array | pyarrow.ChunkedArray + ... ) -> ExtensionArray: + ... ... + + This class does not inherit from 'abc.ABCMeta' for performance reasons. + Methods and properties required by the interface raise + ``pandas.errors.AbstractMethodError`` and no ``register`` method is + provided for registering virtual subclasses. + """ + + _metadata: tuple[str, ...] = () + + def __str__(self) -> str: + return self.name + + def __eq__(self, other: object) -> bool: + """ + Check whether 'other' is equal to self. + + By default, 'other' is considered equal if either + + * it's a string matching 'self.name'. + * it's an instance of this type and all of the attributes + in ``self._metadata`` are equal between `self` and `other`. + + Parameters + ---------- + other : Any + + Returns + ------- + bool + """ + if isinstance(other, str): + try: + other = self.construct_from_string(other) + except TypeError: + return False + if isinstance(other, type(self)): + return all( + getattr(self, attr) == getattr(other, attr) for attr in self._metadata + ) + return False + + def __hash__(self) -> int: + # for python>=3.10, different nan objects have different hashes + # we need to avoid that and thus use hash function with old behavior + return object_hash(tuple(getattr(self, attr) for attr in self._metadata)) + + def __ne__(self, other: object) -> bool: + return not self.__eq__(other) + + @property + def na_value(self) -> object: + """ + Default NA value to use for this type. + + This is used in e.g. ExtensionArray.take. This should be the + user-facing "boxed" version of the NA value, not the physical NA value + for storage. e.g. for JSONArray, this is an empty dictionary. + """ + return np.nan + + @property + def type(self) -> type_t[Any]: + """ + The scalar type for the array, e.g. ``int`` + + It's expected ``ExtensionArray[item]`` returns an instance + of ``ExtensionDtype.type`` for scalar ``item``, assuming + that value is valid (not NA). NA values do not need to be + instances of `type`. + """ + raise AbstractMethodError(self) + + @property + def kind(self) -> str: + """ + A character code (one of 'biufcmMOSUV'), default 'O' + + This should match the NumPy dtype used when the array is + converted to an ndarray, which is probably 'O' for object if + the extension type cannot be represented as a built-in NumPy + type. + + See Also + -------- + numpy.dtype.kind + """ + return "O" + + @property + def name(self) -> str: + """ + A string identifying the data type. + + Will be used for display in, e.g. ``Series.dtype`` + """ + raise AbstractMethodError(self) + + @property + def names(self) -> list[str] | None: + """ + Ordered list of field names, or None if there are no fields. + + This is for compatibility with NumPy arrays, and may be removed in the + future. + """ + return None + + @classmethod + def construct_array_type(cls) -> type_t[ExtensionArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + raise AbstractMethodError(cls) + + def empty(self, shape: Shape) -> ExtensionArray: + """ + Construct an ExtensionArray of this dtype with the given shape. + + Analogous to numpy.empty. + + Parameters + ---------- + shape : int or tuple[int] + + Returns + ------- + ExtensionArray + """ + cls = self.construct_array_type() + return cls._empty(shape, dtype=self) + + @classmethod + def construct_from_string(cls, string: str) -> Self: + r""" + Construct this type from a string. + + This is useful mainly for data types that accept parameters. + For example, a period dtype accepts a frequency parameter that + can be set as ``period[h]`` (where H means hourly frequency). + + By default, in the abstract class, just the name of the type is + expected. But subclasses can overwrite this method to accept + parameters. + + Parameters + ---------- + string : str + The name of the type, for example ``category``. + + Returns + ------- + ExtensionDtype + Instance of the dtype. + + Raises + ------ + TypeError + If a class cannot be constructed from this 'string'. + + Examples + -------- + For extension dtypes with arguments the following may be an + adequate implementation. + + >>> import re + >>> @classmethod + ... def construct_from_string(cls, string): + ... pattern = re.compile(r"^my_type\[(?P.+)\]$") + ... match = pattern.match(string) + ... if match: + ... return cls(**match.groupdict()) + ... else: + ... raise TypeError( + ... f"Cannot construct a '{cls.__name__}' from '{string}'" + ... ) + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + # error: Non-overlapping equality check (left operand type: "str", right + # operand type: "Callable[[ExtensionDtype], str]") [comparison-overlap] + assert isinstance(cls.name, str), (cls, type(cls.name)) + if string != cls.name: + raise TypeError(f"Cannot construct a '{cls.__name__}' from '{string}'") + return cls() + + @classmethod + def is_dtype(cls, dtype: object) -> bool: + """ + Check if we match 'dtype'. + + Parameters + ---------- + dtype : object + The object to check. + + Returns + ------- + bool + + Notes + ----- + The default implementation is True if + + 1. ``cls.construct_from_string(dtype)`` is an instance + of ``cls``. + 2. ``dtype`` is an object and is an instance of ``cls`` + 3. ``dtype`` has a ``dtype`` attribute, and any of the above + conditions is true for ``dtype.dtype``. + """ + dtype = getattr(dtype, "dtype", dtype) + + if isinstance(dtype, (ABCSeries, ABCIndex, ABCDataFrame, np.dtype)): + # https://github.com/pandas-dev/pandas/issues/22960 + # avoid passing data to `construct_from_string`. This could + # cause a FutureWarning from numpy about failing elementwise + # comparison from, e.g., comparing DataFrame == 'category'. + return False + elif dtype is None: + return False + elif isinstance(dtype, cls): + return True + if isinstance(dtype, str): + try: + return cls.construct_from_string(dtype) is not None + except TypeError: + return False + return False + + @property + def _is_numeric(self) -> bool: + """ + Whether columns with this dtype should be considered numeric. + + By default ExtensionDtypes are assumed to be non-numeric. + They'll be excluded from operations that exclude non-numeric + columns, like (groupby) reductions, plotting, etc. + """ + return False + + @property + def _is_boolean(self) -> bool: + """ + Whether this dtype should be considered boolean. + + By default, ExtensionDtypes are assumed to be non-numeric. + Setting this to True will affect the behavior of several places, + e.g. + + * is_bool + * boolean indexing + + Returns + ------- + bool + """ + return False + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + """ + Return the common dtype, if one exists. + + Used in `find_common_type` implementation. This is for example used + to determine the resulting dtype in a concat operation. + + If no common dtype exists, return None (which gives the other dtypes + the chance to determine a common dtype). If all dtypes in the list + return None, then the common dtype will be "object" dtype (this means + it is never needed to return "object" dtype from this method itself). + + Parameters + ---------- + dtypes : list of dtypes + The dtypes for which to determine a common dtype. This is a list + of np.dtype or ExtensionDtype instances. + + Returns + ------- + Common dtype (np.dtype or ExtensionDtype) or None + """ + if len(set(dtypes)) == 1: + # only itself + return self + else: + return None + + @property + def _can_hold_na(self) -> bool: + """ + Can arrays of this dtype hold NA values? + """ + return True + + @property + def _is_immutable(self) -> bool: + """ + Can arrays with this dtype be modified with __setitem__? If not, return + True. + + Immutable arrays are expected to raise TypeError on __setitem__ calls. + """ + return False + + @cache_readonly + def index_class(self) -> type_t[Index]: + """ + The Index subclass to return from Index.__new__ when this dtype is + encountered. + """ + from pandas import Index + + return Index + + @property + def _supports_2d(self) -> bool: + """ + Do ExtensionArrays with this dtype support 2D arrays? + + Historically ExtensionArrays were limited to 1D. By returning True here, + authors can indicate that their arrays support 2D instances. This can + improve performance in some cases, particularly operations with `axis=1`. + + Arrays that support 2D values should: + + - implement Array.reshape + - subclass the Dim2CompatTests in tests.extension.base + - _concat_same_type should support `axis` keyword + - _reduce and reductions should support `axis` keyword + """ + return False + + @property + def _can_fast_transpose(self) -> bool: + """ + Is transposing an array with this dtype zero-copy? + + Only relevant for cases where _supports_2d is True. + """ + return False + + +class StorageExtensionDtype(ExtensionDtype): + """ExtensionDtype that may be backed by more than one implementation.""" + + name: str + _metadata = ("storage",) + + def __init__(self, storage: str | None = None) -> None: + self.storage = storage + + def __repr__(self) -> str: + return f"{self.name}[{self.storage}]" + + def __str__(self) -> str: + return self.name + + def __eq__(self, other: object) -> bool: + if isinstance(other, str) and other == self.name: + return True + return super().__eq__(other) + + def __hash__(self) -> int: + # custom __eq__ so have to override __hash__ + return super().__hash__() + + @property + def na_value(self) -> libmissing.NAType: + return libmissing.NA + + +def register_extension_dtype(cls: type_t[ExtensionDtypeT]) -> type_t[ExtensionDtypeT]: + """ + Register an ExtensionType with pandas as class decorator. + + This enables operations like ``.astype(name)`` for the name + of the ExtensionDtype. + + Returns + ------- + callable + A class decorator. + + Examples + -------- + >>> from pandas.api.extensions import register_extension_dtype, ExtensionDtype + >>> @register_extension_dtype + ... class MyExtensionDtype(ExtensionDtype): + ... name = "myextension" + """ + _registry.register(cls) + return cls + + +class Registry: + """ + Registry for dtype inference. + + The registry allows one to map a string repr of a extension + dtype to an extension dtype. The string alias can be used in several + places, including + + * Series and Index constructors + * :meth:`pandas.array` + * :meth:`pandas.Series.astype` + + Multiple extension types can be registered. + These are tried in order. + """ + + def __init__(self) -> None: + self.dtypes: list[type_t[ExtensionDtype]] = [] + + def register(self, dtype: type_t[ExtensionDtype]) -> None: + """ + Parameters + ---------- + dtype : ExtensionDtype class + """ + if not issubclass(dtype, ExtensionDtype): + raise ValueError("can only register pandas extension dtypes") + + self.dtypes.append(dtype) + + @overload + def find(self, dtype: type_t[ExtensionDtypeT]) -> type_t[ExtensionDtypeT]: + ... + + @overload + def find(self, dtype: ExtensionDtypeT) -> ExtensionDtypeT: + ... + + @overload + def find(self, dtype: str) -> ExtensionDtype | None: + ... + + @overload + def find( + self, dtype: npt.DTypeLike + ) -> type_t[ExtensionDtype] | ExtensionDtype | None: + ... + + def find( + self, dtype: type_t[ExtensionDtype] | ExtensionDtype | npt.DTypeLike + ) -> type_t[ExtensionDtype] | ExtensionDtype | None: + """ + Parameters + ---------- + dtype : ExtensionDtype class or instance or str or numpy dtype or python type + + Returns + ------- + return the first matching dtype, otherwise return None + """ + if not isinstance(dtype, str): + dtype_type: type_t + if not isinstance(dtype, type): + dtype_type = type(dtype) + else: + dtype_type = dtype + if issubclass(dtype_type, ExtensionDtype): + # cast needed here as mypy doesn't know we have figured + # out it is an ExtensionDtype or type_t[ExtensionDtype] + return cast("ExtensionDtype | type_t[ExtensionDtype]", dtype) + + return None + + for dtype_type in self.dtypes: + try: + return dtype_type.construct_from_string(dtype) + except TypeError: + pass + + return None + + +_registry = Registry() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/cast.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/cast.py new file mode 100644 index 0000000000000000000000000000000000000000..d4263f7488a1410b19bc15d317abab384e6ea8ff --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/cast.py @@ -0,0 +1,1988 @@ +""" +Routines for casting. +""" + +from __future__ import annotations + +import datetime as dt +import functools +from typing import ( + TYPE_CHECKING, + Any, + Literal, + TypeVar, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas._libs import ( + Interval, + Period, + lib, +) +from pandas._libs.missing import ( + NA, + NAType, + checknull, +) +from pandas._libs.tslibs import ( + NaT, + OutOfBoundsDatetime, + OutOfBoundsTimedelta, + Timedelta, + Timestamp, + is_supported_dtype, +) +from pandas._libs.tslibs.timedeltas import array_to_timedelta64 +from pandas.errors import ( + IntCastingNaNError, + LossySetitemError, +) + +from pandas.core.dtypes.common import ( + ensure_int8, + ensure_int16, + ensure_int32, + ensure_int64, + ensure_object, + ensure_str, + is_bool, + is_complex, + is_float, + is_integer, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype as pandas_dtype_func, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + BaseMaskedDtype, + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + PandasExtensionDtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ( + ABCExtensionArray, + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.inference import is_list_like +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + na_value_for_dtype, + notna, +) + +from pandas.io._util import _arrow_dtype_mapping + +if TYPE_CHECKING: + from collections.abc import ( + Collection, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + Dtype, + DtypeObj, + NumpyIndexT, + Scalar, + npt, + ) + + from pandas import Index + from pandas.core.arrays import ( + Categorical, + DatetimeArray, + ExtensionArray, + IntervalArray, + PeriodArray, + TimedeltaArray, + ) + + +_int8_max = np.iinfo(np.int8).max +_int16_max = np.iinfo(np.int16).max +_int32_max = np.iinfo(np.int32).max + +_dtype_obj = np.dtype(object) + +NumpyArrayT = TypeVar("NumpyArrayT", bound=np.ndarray) + + +def maybe_convert_platform( + values: list | tuple | range | np.ndarray | ExtensionArray, +) -> ArrayLike: + """try to do platform conversion, allow ndarray or list here""" + arr: ArrayLike + + if isinstance(values, (list, tuple, range)): + arr = construct_1d_object_array_from_listlike(values) + else: + # The caller is responsible for ensuring that we have np.ndarray + # or ExtensionArray here. + arr = values + + if arr.dtype == _dtype_obj: + arr = cast(np.ndarray, arr) + arr = lib.maybe_convert_objects(arr) + + return arr + + +def is_nested_object(obj) -> bool: + """ + return a boolean if we have a nested object, e.g. a Series with 1 or + more Series elements + + This may not be necessarily be performant. + + """ + return bool( + isinstance(obj, ABCSeries) + and is_object_dtype(obj.dtype) + and any(isinstance(v, ABCSeries) for v in obj._values) + ) + + +def maybe_box_datetimelike(value: Scalar, dtype: Dtype | None = None) -> Scalar: + """ + Cast scalar to Timestamp or Timedelta if scalar is datetime-like + and dtype is not object. + + Parameters + ---------- + value : scalar + dtype : Dtype, optional + + Returns + ------- + scalar + """ + if dtype == _dtype_obj: + pass + elif isinstance(value, (np.datetime64, dt.datetime)): + value = Timestamp(value) + elif isinstance(value, (np.timedelta64, dt.timedelta)): + value = Timedelta(value) + + return value + + +def maybe_box_native(value: Scalar | None | NAType) -> Scalar | None | NAType: + """ + If passed a scalar cast the scalar to a python native type. + + Parameters + ---------- + value : scalar or Series + + Returns + ------- + scalar or Series + """ + if is_float(value): + value = float(value) + elif is_integer(value): + value = int(value) + elif is_bool(value): + value = bool(value) + elif isinstance(value, (np.datetime64, np.timedelta64)): + value = maybe_box_datetimelike(value) + elif value is NA: + value = None + return value + + +def _maybe_unbox_datetimelike(value: Scalar, dtype: DtypeObj) -> Scalar: + """ + Convert a Timedelta or Timestamp to timedelta64 or datetime64 for setting + into a numpy array. Failing to unbox would risk dropping nanoseconds. + + Notes + ----- + Caller is responsible for checking dtype.kind in "mM" + """ + if is_valid_na_for_dtype(value, dtype): + # GH#36541: can't fill array directly with pd.NaT + # > np.empty(10, dtype="datetime64[ns]").fill(pd.NaT) + # ValueError: cannot convert float NaN to integer + value = dtype.type("NaT", "ns") + elif isinstance(value, Timestamp): + if value.tz is None: + value = value.to_datetime64() + elif not isinstance(dtype, DatetimeTZDtype): + raise TypeError("Cannot unbox tzaware Timestamp to tznaive dtype") + elif isinstance(value, Timedelta): + value = value.to_timedelta64() + + _disallow_mismatched_datetimelike(value, dtype) + return value + + +def _disallow_mismatched_datetimelike(value, dtype: DtypeObj): + """ + numpy allows np.array(dt64values, dtype="timedelta64[ns]") and + vice-versa, but we do not want to allow this, so we need to + check explicitly + """ + vdtype = getattr(value, "dtype", None) + if vdtype is None: + return + elif (vdtype.kind == "m" and dtype.kind == "M") or ( + vdtype.kind == "M" and dtype.kind == "m" + ): + raise TypeError(f"Cannot cast {repr(value)} to {dtype}") + + +@overload +def maybe_downcast_to_dtype(result: np.ndarray, dtype: str | np.dtype) -> np.ndarray: + ... + + +@overload +def maybe_downcast_to_dtype(result: ExtensionArray, dtype: str | np.dtype) -> ArrayLike: + ... + + +def maybe_downcast_to_dtype(result: ArrayLike, dtype: str | np.dtype) -> ArrayLike: + """ + try to cast to the specified dtype (e.g. convert back to bool/int + or could be an astype of float64->float32 + """ + if isinstance(result, ABCSeries): + result = result._values + do_round = False + + if isinstance(dtype, str): + if dtype == "infer": + inferred_type = lib.infer_dtype(result, skipna=False) + if inferred_type == "boolean": + dtype = "bool" + elif inferred_type == "integer": + dtype = "int64" + elif inferred_type == "datetime64": + dtype = "datetime64[ns]" + elif inferred_type in ["timedelta", "timedelta64"]: + dtype = "timedelta64[ns]" + + # try to upcast here + elif inferred_type == "floating": + dtype = "int64" + if issubclass(result.dtype.type, np.number): + do_round = True + + else: + # TODO: complex? what if result is already non-object? + dtype = "object" + + dtype = np.dtype(dtype) + + if not isinstance(dtype, np.dtype): + # enforce our signature annotation + raise TypeError(dtype) # pragma: no cover + + converted = maybe_downcast_numeric(result, dtype, do_round) + if converted is not result: + return converted + + # a datetimelike + # GH12821, iNaT is cast to float + if dtype.kind in "mM" and result.dtype.kind in "if": + result = result.astype(dtype) + + elif dtype.kind == "m" and result.dtype == _dtype_obj: + # test_where_downcast_to_td64 + result = cast(np.ndarray, result) + result = array_to_timedelta64(result) + + elif dtype == np.dtype("M8[ns]") and result.dtype == _dtype_obj: + result = cast(np.ndarray, result) + return np.asarray(maybe_cast_to_datetime(result, dtype=dtype)) + + return result + + +@overload +def maybe_downcast_numeric( + result: np.ndarray, dtype: np.dtype, do_round: bool = False +) -> np.ndarray: + ... + + +@overload +def maybe_downcast_numeric( + result: ExtensionArray, dtype: DtypeObj, do_round: bool = False +) -> ArrayLike: + ... + + +def maybe_downcast_numeric( + result: ArrayLike, dtype: DtypeObj, do_round: bool = False +) -> ArrayLike: + """ + Subset of maybe_downcast_to_dtype restricted to numeric dtypes. + + Parameters + ---------- + result : ndarray or ExtensionArray + dtype : np.dtype or ExtensionDtype + do_round : bool + + Returns + ------- + ndarray or ExtensionArray + """ + if not isinstance(dtype, np.dtype) or not isinstance(result.dtype, np.dtype): + # e.g. SparseDtype has no itemsize attr + return result + + def trans(x): + if do_round: + return x.round() + return x + + if dtype.kind == result.dtype.kind: + # don't allow upcasts here (except if empty) + if result.dtype.itemsize <= dtype.itemsize and result.size: + return result + + if dtype.kind in "biu": + if not result.size: + # if we don't have any elements, just astype it + return trans(result).astype(dtype) + + if isinstance(result, np.ndarray): + element = result.item(0) + else: + element = result.iloc[0] + if not isinstance(element, (np.integer, np.floating, int, float, bool)): + # a comparable, e.g. a Decimal may slip in here + return result + + if ( + issubclass(result.dtype.type, (np.object_, np.number)) + and notna(result).all() + ): + new_result = trans(result).astype(dtype) + if new_result.dtype.kind == "O" or result.dtype.kind == "O": + # np.allclose may raise TypeError on object-dtype + if (new_result == result).all(): + return new_result + else: + if np.allclose(new_result, result, rtol=0): + return new_result + + elif ( + issubclass(dtype.type, np.floating) + and result.dtype.kind != "b" + and not is_string_dtype(result.dtype) + ): + with warnings.catch_warnings(): + warnings.filterwarnings( + "ignore", "overflow encountered in cast", RuntimeWarning + ) + new_result = result.astype(dtype) + + # Adjust tolerances based on floating point size + size_tols = {4: 5e-4, 8: 5e-8, 16: 5e-16} + + atol = size_tols.get(new_result.dtype.itemsize, 0.0) + + # Check downcast float values are still equal within 7 digits when + # converting from float64 to float32 + if np.allclose(new_result, result, equal_nan=True, rtol=0.0, atol=atol): + return new_result + + elif dtype.kind == result.dtype.kind == "c": + new_result = result.astype(dtype) + + if np.array_equal(new_result, result, equal_nan=True): + # TODO: use tolerance like we do for float? + return new_result + + return result + + +def maybe_upcast_numeric_to_64bit(arr: NumpyIndexT) -> NumpyIndexT: + """ + If array is a int/uint/float bit size lower than 64 bit, upcast it to 64 bit. + + Parameters + ---------- + arr : ndarray or ExtensionArray + + Returns + ------- + ndarray or ExtensionArray + """ + dtype = arr.dtype + if dtype.kind == "i" and dtype != np.int64: + return arr.astype(np.int64) + elif dtype.kind == "u" and dtype != np.uint64: + return arr.astype(np.uint64) + elif dtype.kind == "f" and dtype != np.float64: + return arr.astype(np.float64) + else: + return arr + + +def maybe_cast_pointwise_result( + result: ArrayLike, + dtype: DtypeObj, + numeric_only: bool = False, + same_dtype: bool = True, +) -> ArrayLike: + """ + Try casting result of a pointwise operation back to the original dtype if + appropriate. + + Parameters + ---------- + result : array-like + Result to cast. + dtype : np.dtype or ExtensionDtype + Input Series from which result was calculated. + numeric_only : bool, default False + Whether to cast only numerics or datetimes as well. + same_dtype : bool, default True + Specify dtype when calling _from_sequence + + Returns + ------- + result : array-like + result maybe casted to the dtype. + """ + + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + if same_dtype: + result = _maybe_cast_to_extension_array(cls, result, dtype=dtype) + else: + result = _maybe_cast_to_extension_array(cls, result) + + elif (numeric_only and dtype.kind in "iufcb") or not numeric_only: + result = maybe_downcast_to_dtype(result, dtype) + + return result + + +def _maybe_cast_to_extension_array( + cls: type[ExtensionArray], obj: ArrayLike, dtype: ExtensionDtype | None = None +) -> ArrayLike: + """ + Call to `_from_sequence` that returns the object unchanged on Exception. + + Parameters + ---------- + cls : class, subclass of ExtensionArray + obj : arraylike + Values to pass to cls._from_sequence + dtype : ExtensionDtype, optional + + Returns + ------- + ExtensionArray or obj + """ + result: ArrayLike + + if dtype is not None: + try: + result = cls._from_scalars(obj, dtype=dtype) + except (TypeError, ValueError): + return obj + return result + + try: + result = cls._from_sequence(obj, dtype=dtype) + except Exception: + # We can't predict what downstream EA constructors may raise + result = obj + return result + + +@overload +def ensure_dtype_can_hold_na(dtype: np.dtype) -> np.dtype: + ... + + +@overload +def ensure_dtype_can_hold_na(dtype: ExtensionDtype) -> ExtensionDtype: + ... + + +def ensure_dtype_can_hold_na(dtype: DtypeObj) -> DtypeObj: + """ + If we have a dtype that cannot hold NA values, find the best match that can. + """ + if isinstance(dtype, ExtensionDtype): + if dtype._can_hold_na: + return dtype + elif isinstance(dtype, IntervalDtype): + # TODO(GH#45349): don't special-case IntervalDtype, allow + # overriding instead of returning object below. + return IntervalDtype(np.float64, closed=dtype.closed) + return _dtype_obj + elif dtype.kind == "b": + return _dtype_obj + elif dtype.kind in "iu": + return np.dtype(np.float64) + return dtype + + +_canonical_nans = { + np.datetime64: np.datetime64("NaT", "ns"), + np.timedelta64: np.timedelta64("NaT", "ns"), + type(np.nan): np.nan, +} + + +def maybe_promote(dtype: np.dtype, fill_value=np.nan): + """ + Find the minimal dtype that can hold both the given dtype and fill_value. + + Parameters + ---------- + dtype : np.dtype + fill_value : scalar, default np.nan + + Returns + ------- + dtype + Upcasted from dtype argument if necessary. + fill_value + Upcasted from fill_value argument if necessary. + + Raises + ------ + ValueError + If fill_value is a non-scalar and dtype is not object. + """ + orig = fill_value + orig_is_nat = False + if checknull(fill_value): + # https://github.com/pandas-dev/pandas/pull/39692#issuecomment-1441051740 + # avoid cache misses with NaN/NaT values that are not singletons + if fill_value is not NA: + try: + orig_is_nat = np.isnat(fill_value) + except TypeError: + pass + + fill_value = _canonical_nans.get(type(fill_value), fill_value) + + # for performance, we are using a cached version of the actual implementation + # of the function in _maybe_promote. However, this doesn't always work (in case + # of non-hashable arguments), so we fallback to the actual implementation if needed + try: + # error: Argument 3 to "__call__" of "_lru_cache_wrapper" has incompatible type + # "Type[Any]"; expected "Hashable" [arg-type] + dtype, fill_value = _maybe_promote_cached( + dtype, fill_value, type(fill_value) # type: ignore[arg-type] + ) + except TypeError: + # if fill_value is not hashable (required for caching) + dtype, fill_value = _maybe_promote(dtype, fill_value) + + if (dtype == _dtype_obj and orig is not None) or ( + orig_is_nat and np.datetime_data(orig)[0] != "ns" + ): + # GH#51592,53497 restore our potentially non-canonical fill_value + fill_value = orig + return dtype, fill_value + + +@functools.lru_cache +def _maybe_promote_cached(dtype, fill_value, fill_value_type): + # The cached version of _maybe_promote below + # This also use fill_value_type as (unused) argument to use this in the + # cache lookup -> to differentiate 1 and True + return _maybe_promote(dtype, fill_value) + + +def _maybe_promote(dtype: np.dtype, fill_value=np.nan): + # The actual implementation of the function, use `maybe_promote` above for + # a cached version. + if not is_scalar(fill_value): + # with object dtype there is nothing to promote, and the user can + # pass pretty much any weird fill_value they like + if dtype != object: + # with object dtype there is nothing to promote, and the user can + # pass pretty much any weird fill_value they like + raise ValueError("fill_value must be a scalar") + dtype = _dtype_obj + return dtype, fill_value + + if is_valid_na_for_dtype(fill_value, dtype) and dtype.kind in "iufcmM": + dtype = ensure_dtype_can_hold_na(dtype) + fv = na_value_for_dtype(dtype) + return dtype, fv + + elif isinstance(dtype, CategoricalDtype): + if fill_value in dtype.categories or isna(fill_value): + return dtype, fill_value + else: + return object, ensure_object(fill_value) + + elif isna(fill_value): + dtype = _dtype_obj + if fill_value is None: + # but we retain e.g. pd.NA + fill_value = np.nan + return dtype, fill_value + + # returns tuple of (dtype, fill_value) + if issubclass(dtype.type, np.datetime64): + inferred, fv = infer_dtype_from_scalar(fill_value) + if inferred == dtype: + return dtype, fv + + from pandas.core.arrays import DatetimeArray + + dta = DatetimeArray._from_sequence([], dtype="M8[ns]") + try: + fv = dta._validate_setitem_value(fill_value) + return dta.dtype, fv + except (ValueError, TypeError): + return _dtype_obj, fill_value + + elif issubclass(dtype.type, np.timedelta64): + inferred, fv = infer_dtype_from_scalar(fill_value) + if inferred == dtype: + return dtype, fv + + elif inferred.kind == "m": + # different unit, e.g. passed np.timedelta64(24, "h") with dtype=m8[ns] + # see if we can losslessly cast it to our dtype + unit = np.datetime_data(dtype)[0] + try: + td = Timedelta(fill_value).as_unit(unit, round_ok=False) + except OutOfBoundsTimedelta: + return _dtype_obj, fill_value + else: + return dtype, td.asm8 + + return _dtype_obj, fill_value + + elif is_float(fill_value): + if issubclass(dtype.type, np.bool_): + dtype = np.dtype(np.object_) + + elif issubclass(dtype.type, np.integer): + dtype = np.dtype(np.float64) + + elif dtype.kind == "f": + mst = np.min_scalar_type(fill_value) + if mst > dtype: + # e.g. mst is np.float64 and dtype is np.float32 + dtype = mst + + elif dtype.kind == "c": + mst = np.min_scalar_type(fill_value) + dtype = np.promote_types(dtype, mst) + + elif is_bool(fill_value): + if not issubclass(dtype.type, np.bool_): + dtype = np.dtype(np.object_) + + elif is_integer(fill_value): + if issubclass(dtype.type, np.bool_): + dtype = np.dtype(np.object_) + + elif issubclass(dtype.type, np.integer): + if not np_can_cast_scalar(fill_value, dtype): # type: ignore[arg-type] + # upcast to prevent overflow + mst = np.min_scalar_type(fill_value) + dtype = np.promote_types(dtype, mst) + if dtype.kind == "f": + # Case where we disagree with numpy + dtype = np.dtype(np.object_) + + elif is_complex(fill_value): + if issubclass(dtype.type, np.bool_): + dtype = np.dtype(np.object_) + + elif issubclass(dtype.type, (np.integer, np.floating)): + mst = np.min_scalar_type(fill_value) + dtype = np.promote_types(dtype, mst) + + elif dtype.kind == "c": + mst = np.min_scalar_type(fill_value) + if mst > dtype: + # e.g. mst is np.complex128 and dtype is np.complex64 + dtype = mst + + else: + dtype = np.dtype(np.object_) + + # in case we have a string that looked like a number + if issubclass(dtype.type, (bytes, str)): + dtype = np.dtype(np.object_) + + fill_value = _ensure_dtype_type(fill_value, dtype) + return dtype, fill_value + + +def _ensure_dtype_type(value, dtype: np.dtype): + """ + Ensure that the given value is an instance of the given dtype. + + e.g. if out dtype is np.complex64_, we should have an instance of that + as opposed to a python complex object. + + Parameters + ---------- + value : object + dtype : np.dtype + + Returns + ------- + object + """ + # Start with exceptions in which we do _not_ cast to numpy types + + if dtype == _dtype_obj: + return value + + # Note: before we get here we have already excluded isna(value) + return dtype.type(value) + + +def infer_dtype_from(val) -> tuple[DtypeObj, Any]: + """ + Interpret the dtype from a scalar or array. + + Parameters + ---------- + val : object + """ + if not is_list_like(val): + return infer_dtype_from_scalar(val) + return infer_dtype_from_array(val) + + +def infer_dtype_from_scalar(val) -> tuple[DtypeObj, Any]: + """ + Interpret the dtype from a scalar. + + Parameters + ---------- + val : object + """ + dtype: DtypeObj = _dtype_obj + + # a 1-element ndarray + if isinstance(val, np.ndarray): + if val.ndim != 0: + msg = "invalid ndarray passed to infer_dtype_from_scalar" + raise ValueError(msg) + + dtype = val.dtype + val = lib.item_from_zerodim(val) + + elif isinstance(val, str): + # If we create an empty array using a string to infer + # the dtype, NumPy will only allocate one character per entry + # so this is kind of bad. Alternately we could use np.repeat + # instead of np.empty (but then you still don't want things + # coming out as np.str_! + + dtype = _dtype_obj + if using_string_dtype(): + from pandas.core.arrays.string_ import StringDtype + + dtype = StringDtype(na_value=np.nan) + + elif isinstance(val, (np.datetime64, dt.datetime)): + try: + val = Timestamp(val) + except OutOfBoundsDatetime: + return _dtype_obj, val + + if val is NaT or val.tz is None: + val = val.to_datetime64() + dtype = val.dtype + # TODO: test with datetime(2920, 10, 1) based on test_replace_dtypes + else: + dtype = DatetimeTZDtype(unit=val.unit, tz=val.tz) + + elif isinstance(val, (np.timedelta64, dt.timedelta)): + try: + val = Timedelta(val) + except (OutOfBoundsTimedelta, OverflowError): + dtype = _dtype_obj + else: + if val is NaT: + val = np.timedelta64("NaT", "ns") + else: + val = val.asm8 + dtype = val.dtype + + elif is_bool(val): + dtype = np.dtype(np.bool_) + + elif is_integer(val): + if isinstance(val, np.integer): + dtype = np.dtype(type(val)) + else: + dtype = np.dtype(np.int64) + + try: + np.array(val, dtype=dtype) + except OverflowError: + dtype = np.array(val).dtype + + elif is_float(val): + if isinstance(val, np.floating): + dtype = np.dtype(type(val)) + else: + dtype = np.dtype(np.float64) + + elif is_complex(val): + dtype = np.dtype(np.complex128) + + if isinstance(val, Period): + dtype = PeriodDtype(freq=val.freq) + elif isinstance(val, Interval): + subtype = infer_dtype_from_scalar(val.left)[0] + dtype = IntervalDtype(subtype=subtype, closed=val.closed) + + return dtype, val + + +def dict_compat(d: dict[Scalar, Scalar]) -> dict[Scalar, Scalar]: + """ + Convert datetimelike-keyed dicts to a Timestamp-keyed dict. + + Parameters + ---------- + d: dict-like object + + Returns + ------- + dict + """ + return {maybe_box_datetimelike(key): value for key, value in d.items()} + + +def infer_dtype_from_array(arr) -> tuple[DtypeObj, ArrayLike]: + """ + Infer the dtype from an array. + + Parameters + ---------- + arr : array + + Returns + ------- + tuple (pandas-compat dtype, array) + + + Examples + -------- + >>> np.asarray([1, '1']) + array(['1', '1'], dtype='>> infer_dtype_from_array([1, '1']) + (dtype('O'), [1, '1']) + """ + if isinstance(arr, np.ndarray): + return arr.dtype, arr + + if not is_list_like(arr): + raise TypeError("'arr' must be list-like") + + arr_dtype = getattr(arr, "dtype", None) + if isinstance(arr_dtype, ExtensionDtype): + return arr.dtype, arr + + elif isinstance(arr, ABCSeries): + return arr.dtype, np.asarray(arr) + + # don't force numpy coerce with nan's + inferred = lib.infer_dtype(arr, skipna=False) + if inferred in ["string", "bytes", "mixed", "mixed-integer"]: + return (np.dtype(np.object_), arr) + + arr = np.asarray(arr) + return arr.dtype, arr + + +def _maybe_infer_dtype_type(element): + """ + Try to infer an object's dtype, for use in arithmetic ops. + + Uses `element.dtype` if that's available. + Objects implementing the iterator protocol are cast to a NumPy array, + and from there the array's type is used. + + Parameters + ---------- + element : object + Possibly has a `.dtype` attribute, and possibly the iterator + protocol. + + Returns + ------- + tipo : type + + Examples + -------- + >>> from collections import namedtuple + >>> Foo = namedtuple("Foo", "dtype") + >>> _maybe_infer_dtype_type(Foo(np.dtype("i8"))) + dtype('int64') + """ + tipo = None + if hasattr(element, "dtype"): + tipo = element.dtype + elif is_list_like(element): + element = np.asarray(element) + tipo = element.dtype + return tipo + + +def invalidate_string_dtypes(dtype_set: set[DtypeObj]) -> None: + """ + Change string like dtypes to object for + ``DataFrame.select_dtypes()``. + """ + # error: Argument 1 to has incompatible type "Type[generic]"; expected + # "Union[dtype[Any], ExtensionDtype, None]" + # error: Argument 2 to has incompatible type "Type[generic]"; expected + # "Union[dtype[Any], ExtensionDtype, None]" + non_string_dtypes = dtype_set - { + np.dtype("S").type, # type: ignore[arg-type] + np.dtype(" np.ndarray: + """coerce the indexer input array to the smallest dtype possible""" + length = len(categories) + if length < _int8_max: + return ensure_int8(indexer) + elif length < _int16_max: + return ensure_int16(indexer) + elif length < _int32_max: + return ensure_int32(indexer) + return ensure_int64(indexer) + + +def convert_dtypes( + input_array: ArrayLike, + convert_string: bool = True, + convert_integer: bool = True, + convert_boolean: bool = True, + convert_floating: bool = True, + infer_objects: bool = False, + dtype_backend: Literal["numpy_nullable", "pyarrow"] = "numpy_nullable", +) -> DtypeObj: + """ + Convert objects to best possible type, and optionally, + to types supporting ``pd.NA``. + + Parameters + ---------- + input_array : ExtensionArray or np.ndarray + convert_string : bool, default True + Whether object dtypes should be converted to ``StringDtype()``. + convert_integer : bool, default True + Whether, if possible, conversion can be done to integer extension types. + convert_boolean : bool, defaults True + Whether object dtypes should be converted to ``BooleanDtypes()``. + convert_floating : bool, defaults True + Whether, if possible, conversion can be done to floating extension types. + If `convert_integer` is also True, preference will be give to integer + dtypes if the floats can be faithfully casted to integers. + infer_objects : bool, defaults False + Whether to also infer objects to float/int if possible. Is only hit if the + object array contains pd.NA. + dtype_backend : {'numpy_nullable', 'pyarrow'}, default 'numpy_nullable' + Back-end data type applied to the resultant :class:`DataFrame` + (still experimental). Behaviour is as follows: + + * ``"numpy_nullable"``: returns nullable-dtype-backed :class:`DataFrame` + (default). + * ``"pyarrow"``: returns pyarrow-backed nullable :class:`ArrowDtype` + DataFrame. + + .. versionadded:: 2.0 + + Returns + ------- + np.dtype, or ExtensionDtype + """ + from pandas.core.arrays.string_ import StringDtype + + inferred_dtype: str | DtypeObj + + if ( + convert_string or convert_integer or convert_boolean or convert_floating + ) and isinstance(input_array, np.ndarray): + if input_array.dtype == object: + inferred_dtype = lib.infer_dtype(input_array) + else: + inferred_dtype = input_array.dtype + + if is_string_dtype(inferred_dtype): + if not convert_string or inferred_dtype == "bytes": + inferred_dtype = input_array.dtype + else: + inferred_dtype = pandas_dtype_func("string") + + if convert_integer: + target_int_dtype = pandas_dtype_func("Int64") + + if input_array.dtype.kind in "iu": + from pandas.core.arrays.integer import NUMPY_INT_TO_DTYPE + + inferred_dtype = NUMPY_INT_TO_DTYPE.get( + input_array.dtype, target_int_dtype + ) + elif input_array.dtype.kind in "fcb": + # TODO: de-dup with maybe_cast_to_integer_array? + arr = input_array[notna(input_array)] + if (arr.astype(int) == arr).all(): + inferred_dtype = target_int_dtype + else: + inferred_dtype = input_array.dtype + elif ( + infer_objects + and input_array.dtype == object + and (isinstance(inferred_dtype, str) and inferred_dtype == "integer") + ): + inferred_dtype = target_int_dtype + + if convert_floating: + if input_array.dtype.kind in "fcb": + # i.e. numeric but not integer + from pandas.core.arrays.floating import NUMPY_FLOAT_TO_DTYPE + + inferred_float_dtype: DtypeObj = NUMPY_FLOAT_TO_DTYPE.get( + input_array.dtype, pandas_dtype_func("Float64") + ) + # if we could also convert to integer, check if all floats + # are actually integers + if convert_integer: + # TODO: de-dup with maybe_cast_to_integer_array? + arr = input_array[notna(input_array)] + if (arr.astype(int) == arr).all(): + inferred_dtype = pandas_dtype_func("Int64") + else: + inferred_dtype = inferred_float_dtype + else: + inferred_dtype = inferred_float_dtype + elif ( + infer_objects + and input_array.dtype == object + and ( + isinstance(inferred_dtype, str) + and inferred_dtype == "mixed-integer-float" + ) + ): + inferred_dtype = pandas_dtype_func("Float64") + + if convert_boolean: + if input_array.dtype.kind == "b": + inferred_dtype = pandas_dtype_func("boolean") + elif isinstance(inferred_dtype, str) and inferred_dtype == "boolean": + inferred_dtype = pandas_dtype_func("boolean") + + if isinstance(inferred_dtype, str): + # If we couldn't do anything else, then we retain the dtype + inferred_dtype = input_array.dtype + + elif ( + convert_string + and isinstance(input_array.dtype, StringDtype) + and input_array.dtype.na_value is np.nan + ): + inferred_dtype = pandas_dtype_func("string") + + else: + inferred_dtype = input_array.dtype + + if dtype_backend == "pyarrow": + from pandas.core.arrays.arrow.array import to_pyarrow_type + + assert not isinstance(inferred_dtype, str) + + if ( + (convert_integer and inferred_dtype.kind in "iu") + or (convert_floating and inferred_dtype.kind in "fc") + or (convert_boolean and inferred_dtype.kind == "b") + or (convert_string and isinstance(inferred_dtype, StringDtype)) + or ( + inferred_dtype.kind not in "iufcb" + and not isinstance(inferred_dtype, StringDtype) + ) + ): + if isinstance(inferred_dtype, PandasExtensionDtype) and not isinstance( + inferred_dtype, DatetimeTZDtype + ): + base_dtype = inferred_dtype.base + elif isinstance(inferred_dtype, (BaseMaskedDtype, ArrowDtype)): + base_dtype = inferred_dtype.numpy_dtype + elif isinstance(inferred_dtype, StringDtype): + base_dtype = np.dtype(str) + else: + base_dtype = inferred_dtype + if ( + base_dtype.kind == "O" # type: ignore[union-attr] + and input_array.size > 0 + and isna(input_array).all() + ): + import pyarrow as pa + + pa_type = pa.null() + else: + pa_type = to_pyarrow_type(base_dtype) + if pa_type is not None: + inferred_dtype = ArrowDtype(pa_type) + elif dtype_backend == "numpy_nullable" and isinstance(inferred_dtype, ArrowDtype): + # GH 53648 + inferred_dtype = _arrow_dtype_mapping()[inferred_dtype.pyarrow_dtype] + + # error: Incompatible return value type (got "Union[str, Union[dtype[Any], + # ExtensionDtype]]", expected "Union[dtype[Any], ExtensionDtype]") + return inferred_dtype # type: ignore[return-value] + + +def maybe_infer_to_datetimelike( + value: npt.NDArray[np.object_], + convert_to_nullable_dtype: bool = False, +) -> np.ndarray | DatetimeArray | TimedeltaArray | PeriodArray | IntervalArray: + """ + we might have a array (or single object) that is datetime like, + and no dtype is passed don't change the value unless we find a + datetime/timedelta set + + this is pretty strict in that a datetime/timedelta is REQUIRED + in addition to possible nulls/string likes + + Parameters + ---------- + value : np.ndarray[object] + + Returns + ------- + np.ndarray, DatetimeArray, TimedeltaArray, PeriodArray, or IntervalArray + + """ + if not isinstance(value, np.ndarray) or value.dtype != object: + # Caller is responsible for passing only ndarray[object] + raise TypeError(type(value)) # pragma: no cover + if value.ndim != 1: + # Caller is responsible + raise ValueError(value.ndim) # pragma: no cover + + if not len(value): + return value + + # error: Incompatible return value type (got "Union[ExtensionArray, + # ndarray[Any, Any]]", expected "Union[ndarray[Any, Any], DatetimeArray, + # TimedeltaArray, PeriodArray, IntervalArray]") + return lib.maybe_convert_objects( # type: ignore[return-value] + value, + # Here we do not convert numeric dtypes, as if we wanted that, + # numpy would have done it for us. + convert_numeric=False, + convert_non_numeric=True, + convert_to_nullable_dtype=convert_to_nullable_dtype, + dtype_if_all_nat=np.dtype("M8[ns]"), + ) + + +def maybe_cast_to_datetime( + value: np.ndarray | list, dtype: np.dtype +) -> ExtensionArray | np.ndarray: + """ + try to cast the array/value to a datetimelike dtype, converting float + nan to iNaT + + Caller is responsible for handling ExtensionDtype cases and non dt64/td64 + cases. + """ + from pandas.core.arrays.datetimes import DatetimeArray + from pandas.core.arrays.timedeltas import TimedeltaArray + + assert dtype.kind in "mM" + if not is_list_like(value): + raise TypeError("value must be listlike") + + # TODO: _from_sequence would raise ValueError in cases where + # _ensure_nanosecond_dtype raises TypeError + _ensure_nanosecond_dtype(dtype) + + if lib.is_np_dtype(dtype, "m"): + res = TimedeltaArray._from_sequence(value, dtype=dtype) + return res + else: + try: + dta = DatetimeArray._from_sequence(value, dtype=dtype) + except ValueError as err: + # We can give a Series-specific exception message. + if "cannot supply both a tz and a timezone-naive dtype" in str(err): + raise ValueError( + "Cannot convert timezone-aware data to " + "timezone-naive dtype. Use " + "pd.Series(values).dt.tz_localize(None) instead." + ) from err + raise + + return dta + + +def _ensure_nanosecond_dtype(dtype: DtypeObj) -> None: + """ + Convert dtypes with granularity less than nanosecond to nanosecond + + >>> _ensure_nanosecond_dtype(np.dtype("M8[us]")) + + >>> _ensure_nanosecond_dtype(np.dtype("M8[D]")) + Traceback (most recent call last): + ... + TypeError: dtype=datetime64[D] is not supported. Supported resolutions are 's', 'ms', 'us', and 'ns' + + >>> _ensure_nanosecond_dtype(np.dtype("m8[ps]")) + Traceback (most recent call last): + ... + TypeError: dtype=timedelta64[ps] is not supported. Supported resolutions are 's', 'ms', 'us', and 'ns' + """ # noqa: E501 + msg = ( + f"The '{dtype.name}' dtype has no unit. " + f"Please pass in '{dtype.name}[ns]' instead." + ) + + # unpack e.g. SparseDtype + dtype = getattr(dtype, "subtype", dtype) + + if not isinstance(dtype, np.dtype): + # i.e. datetime64tz + pass + + elif dtype.kind in "mM": + if not is_supported_dtype(dtype): + # pre-2.0 we would silently swap in nanos for lower-resolutions, + # raise for above-nano resolutions + if dtype.name in ["datetime64", "timedelta64"]: + raise ValueError(msg) + # TODO: ValueError or TypeError? existing test + # test_constructor_generic_timestamp_bad_frequency expects TypeError + raise TypeError( + f"dtype={dtype} is not supported. Supported resolutions are 's', " + "'ms', 'us', and 'ns'" + ) + + +# TODO: other value-dependent functions to standardize here include +# Index._find_common_type_compat +def find_result_type(left_dtype: DtypeObj, right: Any) -> DtypeObj: + """ + Find the type/dtype for the result of an operation between objects. + + This is similar to find_common_type, but looks at the right object instead + of just its dtype. This can be useful in particular when the right + object does not have a `dtype`. + + Parameters + ---------- + left_dtype : np.dtype or ExtensionDtype + right : Any + + Returns + ------- + np.dtype or ExtensionDtype + + See also + -------- + find_common_type + numpy.result_type + """ + new_dtype: DtypeObj + + if ( + isinstance(left_dtype, np.dtype) + and left_dtype.kind in "iuc" + and (lib.is_integer(right) or lib.is_float(right)) + ): + # e.g. with int8 dtype and right=512, we want to end up with + # np.int16, whereas infer_dtype_from(512) gives np.int64, + # which will make us upcast too far. + if lib.is_float(right) and right.is_integer() and left_dtype.kind != "f": + right = int(right) + # After NEP 50, numpy won't inspect Python scalars + # TODO: do we need to recreate numpy's inspection logic for floats too + # (this breaks some tests) + if isinstance(right, int) and not isinstance(right, np.integer): + # This gives an unsigned type by default + # (if our number is positive) + + # If our left dtype is signed, we might not want this since + # this might give us 1 dtype too big + # We should check if the corresponding int dtype (e.g. int64 for uint64) + # can hold the number + right_dtype = np.min_scalar_type(right) + if right == 0: + # Special case 0 + right = left_dtype + elif ( + not np.issubdtype(left_dtype, np.unsignedinteger) + and 0 < right <= np.iinfo(right_dtype).max + ): + # If left dtype isn't unsigned, check if it fits in the signed dtype + right = np.dtype(f"i{right_dtype.itemsize}") + else: + right = right_dtype + + new_dtype = np.result_type(left_dtype, right) + + elif is_valid_na_for_dtype(right, left_dtype): + # e.g. IntervalDtype[int] and None/np.nan + new_dtype = ensure_dtype_can_hold_na(left_dtype) + + else: + dtype, _ = infer_dtype_from(right) + new_dtype = find_common_type([left_dtype, dtype]) + + return new_dtype + + +def common_dtype_categorical_compat( + objs: Sequence[Index | ArrayLike], dtype: DtypeObj +) -> DtypeObj: + """ + Update the result of find_common_type to account for NAs in a Categorical. + + Parameters + ---------- + objs : list[np.ndarray | ExtensionArray | Index] + dtype : np.dtype or ExtensionDtype + + Returns + ------- + np.dtype or ExtensionDtype + """ + # GH#38240 + + # TODO: more generally, could do `not can_hold_na(dtype)` + if lib.is_np_dtype(dtype, "iu"): + for obj in objs: + # We don't want to accientally allow e.g. "categorical" str here + obj_dtype = getattr(obj, "dtype", None) + if isinstance(obj_dtype, CategoricalDtype): + if isinstance(obj, ABCIndex): + # This check may already be cached + hasnas = obj.hasnans + else: + # Categorical + hasnas = cast("Categorical", obj)._hasna + + if hasnas: + # see test_union_int_categorical_with_nan + dtype = np.dtype(np.float64) + break + return dtype + + +def np_find_common_type(*dtypes: np.dtype) -> np.dtype: + """ + np.find_common_type implementation pre-1.25 deprecation using np.result_type + https://github.com/pandas-dev/pandas/pull/49569#issuecomment-1308300065 + + Parameters + ---------- + dtypes : np.dtypes + + Returns + ------- + np.dtype + """ + try: + common_dtype = np.result_type(*dtypes) + if common_dtype.kind in "mMSU": + # NumPy promotion currently (1.25) misbehaves for for times and strings, + # so fall back to object (find_common_dtype did unless there + # was only one dtype) + common_dtype = np.dtype("O") + + except TypeError: + common_dtype = np.dtype("O") + return common_dtype + + +@overload +def find_common_type(types: list[np.dtype]) -> np.dtype: + ... + + +@overload +def find_common_type(types: list[ExtensionDtype]) -> DtypeObj: + ... + + +@overload +def find_common_type(types: list[DtypeObj]) -> DtypeObj: + ... + + +def find_common_type(types): + """ + Find a common data type among the given dtypes. + + Parameters + ---------- + types : list of dtypes + + Returns + ------- + pandas extension or numpy dtype + + See Also + -------- + numpy.find_common_type + + """ + if not types: + raise ValueError("no types given") + + first = types[0] + + # workaround for find_common_type([np.dtype('datetime64[ns]')] * 2) + # => object + if lib.dtypes_all_equal(list(types)): + return first + + # get unique types (dict.fromkeys is used as order-preserving set()) + types = list(dict.fromkeys(types).keys()) + + if any(isinstance(t, ExtensionDtype) for t in types): + for t in types: + if isinstance(t, ExtensionDtype): + res = t._get_common_dtype(types) + if res is not None: + return res + return np.dtype("object") + + # take lowest unit + if all(lib.is_np_dtype(t, "M") for t in types): + return np.dtype(max(types)) + if all(lib.is_np_dtype(t, "m") for t in types): + return np.dtype(max(types)) + + # don't mix bool / int or float or complex + # this is different from numpy, which casts bool with float/int as int + has_bools = any(t.kind == "b" for t in types) + if has_bools: + for t in types: + if t.kind in "iufc": + return np.dtype("object") + + return np_find_common_type(*types) + + +def construct_2d_arraylike_from_scalar( + value: Scalar, length: int, width: int, dtype: np.dtype, copy: bool +) -> np.ndarray: + shape = (length, width) + + if dtype.kind in "mM": + value = _maybe_box_and_unbox_datetimelike(value, dtype) + elif dtype == _dtype_obj: + if isinstance(value, (np.timedelta64, np.datetime64)): + # calling np.array below would cast to pytimedelta/pydatetime + out = np.empty(shape, dtype=object) + out.fill(value) + return out + + # Attempt to coerce to a numpy array + try: + if not copy: + arr = np.asarray(value, dtype=dtype) + else: + arr = np.array(value, dtype=dtype, copy=copy) + except (ValueError, TypeError) as err: + raise TypeError( + f"DataFrame constructor called with incompatible data and dtype: {err}" + ) from err + + if arr.ndim != 0: + raise ValueError("DataFrame constructor not properly called!") + + return np.full(shape, arr) + + +def construct_1d_arraylike_from_scalar( + value: Scalar, length: int, dtype: DtypeObj | None +) -> ArrayLike: + """ + create a np.ndarray / pandas type of specified shape and dtype + filled with values + + Parameters + ---------- + value : scalar value + length : int + dtype : pandas_dtype or np.dtype + + Returns + ------- + np.ndarray / pandas type of length, filled with value + + """ + + if dtype is None: + try: + dtype, value = infer_dtype_from_scalar(value) + except OutOfBoundsDatetime: + dtype = _dtype_obj + + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + seq = [] if length == 0 else [value] + subarr = cls._from_sequence(seq, dtype=dtype).repeat(length) + + else: + if length and dtype.kind in "iu" and isna(value): + # coerce if we have nan for an integer dtype + dtype = np.dtype("float64") + elif lib.is_np_dtype(dtype, "US"): + # we need to coerce to object dtype to avoid + # to allow numpy to take our string as a scalar value + dtype = np.dtype("object") + if not isna(value): + value = ensure_str(value) + elif dtype.kind in "mM": + value = _maybe_box_and_unbox_datetimelike(value, dtype) + + subarr = np.empty(length, dtype=dtype) + if length: + # GH 47391: numpy > 1.24 will raise filling np.nan into int dtypes + subarr.fill(value) + + return subarr + + +def _maybe_box_and_unbox_datetimelike(value: Scalar, dtype: DtypeObj): + # Caller is responsible for checking dtype.kind in "mM" + + if isinstance(value, dt.datetime): + # we dont want to box dt64, in particular datetime64("NaT") + value = maybe_box_datetimelike(value, dtype) + + return _maybe_unbox_datetimelike(value, dtype) + + +def construct_1d_object_array_from_listlike(values: Collection) -> np.ndarray: + """ + Transform any list-like object in a 1-dimensional numpy array of object + dtype. + + Parameters + ---------- + values : any iterable which has a len() + + Raises + ------ + TypeError + * If `values` does not have a len() + + Returns + ------- + 1-dimensional numpy array of dtype object + """ + # numpy will try to interpret nested lists as further dimensions in np.array(), + # hence explicitly making a 1D array using np.fromiter + result = np.empty(len(values), dtype="object") + for i, obj in enumerate(values): + result[i] = obj + return result + + +def maybe_cast_to_integer_array(arr: list | np.ndarray, dtype: np.dtype) -> np.ndarray: + """ + Takes any dtype and returns the casted version, raising for when data is + incompatible with integer/unsigned integer dtypes. + + Parameters + ---------- + arr : np.ndarray or list + The array to cast. + dtype : np.dtype + The integer dtype to cast the array to. + + Returns + ------- + ndarray + Array of integer or unsigned integer dtype. + + Raises + ------ + OverflowError : the dtype is incompatible with the data + ValueError : loss of precision has occurred during casting + + Examples + -------- + If you try to coerce negative values to unsigned integers, it raises: + + >>> pd.Series([-1], dtype="uint64") + Traceback (most recent call last): + ... + OverflowError: Trying to coerce negative values to unsigned integers + + Also, if you try to coerce float values to integers, it raises: + + >>> maybe_cast_to_integer_array([1, 2, 3.5], dtype=np.dtype("int64")) + Traceback (most recent call last): + ... + ValueError: Trying to coerce float values to integers + """ + assert dtype.kind in "iu" + + try: + if not isinstance(arr, np.ndarray): + with warnings.catch_warnings(): + # We already disallow dtype=uint w/ negative numbers + # (test_constructor_coercion_signed_to_unsigned) so safe to ignore. + warnings.filterwarnings( + "ignore", + "NumPy will stop allowing conversion of out-of-bound Python int", + DeprecationWarning, + ) + casted = np.asarray(arr, dtype=dtype) + else: + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + casted = arr.astype(dtype, copy=False) + except OverflowError as err: + raise OverflowError( + "The elements provided in the data cannot all be " + f"casted to the dtype {dtype}" + ) from err + + if isinstance(arr, np.ndarray) and arr.dtype == dtype: + # avoid expensive array_equal check + return casted + + with warnings.catch_warnings(): + warnings.filterwarnings("ignore", category=RuntimeWarning) + warnings.filterwarnings( + "ignore", "elementwise comparison failed", FutureWarning + ) + if np.array_equal(arr, casted): + return casted + + # We do this casting to allow for proper + # data and dtype checking. + # + # We didn't do this earlier because NumPy + # doesn't handle `uint64` correctly. + arr = np.asarray(arr) + + if np.issubdtype(arr.dtype, str): + # TODO(numpy-2.0 min): This case will raise an OverflowError above + if (casted.astype(str) == arr).all(): + return casted + raise ValueError(f"string values cannot be losslessly cast to {dtype}") + + if dtype.kind == "u" and (arr < 0).any(): + # TODO: can this be hit anymore after numpy 2.0? + raise OverflowError("Trying to coerce negative values to unsigned integers") + + if arr.dtype.kind == "f": + if not np.isfinite(arr).all(): + raise IntCastingNaNError( + "Cannot convert non-finite values (NA or inf) to integer" + ) + raise ValueError("Trying to coerce float values to integers") + if arr.dtype == object: + raise ValueError("Trying to coerce float values to integers") + + if casted.dtype < arr.dtype: + # TODO: Can this path be hit anymore with numpy > 2 + # GH#41734 e.g. [1, 200, 923442] and dtype="int8" -> overflows + raise ValueError( + f"Values are too large to be losslessly converted to {dtype}. " + f"To cast anyway, use pd.Series(values).astype({dtype})" + ) + + if arr.dtype.kind in "mM": + # test_constructor_maskedarray_nonfloat + raise TypeError( + f"Constructing a Series or DataFrame from {arr.dtype} values and " + f"dtype={dtype} is not supported. Use values.view({dtype}) instead." + ) + + # No known cases that get here, but raising explicitly to cover our bases. + raise ValueError(f"values cannot be losslessly cast to {dtype}") + + +def can_hold_element(arr: ArrayLike, element: Any) -> bool: + """ + Can we do an inplace setitem with this element in an array with this dtype? + + Parameters + ---------- + arr : np.ndarray or ExtensionArray + element : Any + + Returns + ------- + bool + """ + dtype = arr.dtype + if not isinstance(dtype, np.dtype) or dtype.kind in "mM": + if isinstance(dtype, (PeriodDtype, IntervalDtype, DatetimeTZDtype, np.dtype)): + # np.dtype here catches datetime64ns and timedelta64ns; we assume + # in this case that we have DatetimeArray/TimedeltaArray + arr = cast( + "PeriodArray | DatetimeArray | TimedeltaArray | IntervalArray", arr + ) + try: + arr._validate_setitem_value(element) + return True + except (ValueError, TypeError): + return False + + if dtype == "string": + try: + arr._maybe_convert_setitem_value(element) # type: ignore[union-attr] + return True + except (ValueError, TypeError): + return False + + # This is technically incorrect, but maintains the behavior of + # ExtensionBlock._can_hold_element + return True + + try: + np_can_hold_element(dtype, element) + return True + except (TypeError, LossySetitemError): + return False + + +def np_can_hold_element(dtype: np.dtype, element: Any) -> Any: + """ + Raise if we cannot losslessly set this element into an ndarray with this dtype. + + Specifically about places where we disagree with numpy. i.e. there are + cases where numpy will raise in doing the setitem that we do not check + for here, e.g. setting str "X" into a numeric ndarray. + + Returns + ------- + Any + The element, potentially cast to the dtype. + + Raises + ------ + ValueError : If we cannot losslessly store this element with this dtype. + """ + if dtype == _dtype_obj: + return element + + tipo = _maybe_infer_dtype_type(element) + + if dtype.kind in "iu": + if isinstance(element, range): + if _dtype_can_hold_range(element, dtype): + return element + raise LossySetitemError + + if is_integer(element) or (is_float(element) and element.is_integer()): + # e.g. test_setitem_series_int8 if we have a python int 1 + # tipo may be np.int32, despite the fact that it will fit + # in smaller int dtypes. + info = np.iinfo(dtype) + if info.min <= element <= info.max: + return dtype.type(element) + raise LossySetitemError + + if tipo is not None: + if tipo.kind not in "iu": + if isinstance(element, np.ndarray) and element.dtype.kind == "f": + # If all can be losslessly cast to integers, then we can hold them + with np.errstate(invalid="ignore"): + # We check afterwards if cast was losslessly, so no need to show + # the warning + casted = element.astype(dtype) + comp = casted == element + if comp.all(): + # Return the casted values bc they can be passed to + # np.putmask, whereas the raw values cannot. + # see TestSetitemFloatNDarrayIntoIntegerSeries + return casted + raise LossySetitemError + + elif isinstance(element, ABCExtensionArray) and isinstance( + element.dtype, CategoricalDtype + ): + # GH#52927 setting Categorical value into non-EA frame + # TODO: general-case for EAs? + try: + casted = element.astype(dtype) + except (ValueError, TypeError): + raise LossySetitemError + # Check for cases of either + # a) lossy overflow/rounding or + # b) semantic changes like dt64->int64 + comp = casted == element + if not comp.all(): + raise LossySetitemError + return casted + + # Anything other than integer we cannot hold + raise LossySetitemError + if ( + dtype.kind == "u" + and isinstance(element, np.ndarray) + and element.dtype.kind == "i" + ): + # see test_where_uint64 + casted = element.astype(dtype) + if (casted == element).all(): + # TODO: faster to check (element >=0).all()? potential + # itemsize issues there? + return casted + raise LossySetitemError + if dtype.itemsize < tipo.itemsize: + raise LossySetitemError + if not isinstance(tipo, np.dtype): + # i.e. nullable IntegerDtype; we can put this into an ndarray + # losslessly iff it has no NAs + arr = element._values if isinstance(element, ABCSeries) else element + if arr._hasna: + raise LossySetitemError + return element + + return element + + raise LossySetitemError + + if dtype.kind == "f": + if lib.is_integer(element) or lib.is_float(element): + casted = dtype.type(element) + if np.isnan(casted) or casted == element: + return casted + # otherwise e.g. overflow see TestCoercionFloat32 + raise LossySetitemError + + if tipo is not None: + # TODO: itemsize check? + if tipo.kind not in "iuf": + # Anything other than float/integer we cannot hold + raise LossySetitemError + if not isinstance(tipo, np.dtype): + # i.e. nullable IntegerDtype or FloatingDtype; + # we can put this into an ndarray losslessly iff it has no NAs + if element._hasna: + raise LossySetitemError + return element + elif tipo.itemsize > dtype.itemsize or tipo.kind != dtype.kind: + if isinstance(element, np.ndarray): + # e.g. TestDataFrameIndexingWhere::test_where_alignment + casted = element.astype(dtype) + if np.array_equal(casted, element, equal_nan=True): + return casted + raise LossySetitemError + + return element + + raise LossySetitemError + + if dtype.kind == "c": + if lib.is_integer(element) or lib.is_complex(element) or lib.is_float(element): + if np.isnan(element): + # see test_where_complex GH#6345 + return dtype.type(element) + + with warnings.catch_warnings(): + warnings.filterwarnings("ignore") + casted = dtype.type(element) + if casted == element: + return casted + # otherwise e.g. overflow see test_32878_complex_itemsize + raise LossySetitemError + + if tipo is not None: + if tipo.kind in "iufc": + return element + raise LossySetitemError + raise LossySetitemError + + if dtype.kind == "b": + if tipo is not None: + if tipo.kind == "b": + if not isinstance(tipo, np.dtype): + # i.e. we have a BooleanArray + if element._hasna: + # i.e. there are pd.NA elements + raise LossySetitemError + return element + raise LossySetitemError + if lib.is_bool(element): + return element + raise LossySetitemError + + if dtype.kind == "S": + # TODO: test tests.frame.methods.test_replace tests get here, + # need more targeted tests. xref phofl has a PR about this + if tipo is not None: + if tipo.kind == "S" and tipo.itemsize <= dtype.itemsize: + return element + raise LossySetitemError + if isinstance(element, bytes) and len(element) <= dtype.itemsize: + return element + raise LossySetitemError + + if dtype.kind == "V": + # i.e. np.void, which cannot hold _anything_ + raise LossySetitemError + + raise NotImplementedError(dtype) + + +def _dtype_can_hold_range(rng: range, dtype: np.dtype) -> bool: + """ + _maybe_infer_dtype_type infers to int64 (and float64 for very large endpoints), + but in many cases a range can be held by a smaller integer dtype. + Check if this is one of those cases. + """ + if not len(rng): + return True + return np_can_cast_scalar(rng.start, dtype) and np_can_cast_scalar(rng.stop, dtype) + + +def np_can_cast_scalar(element: Scalar, dtype: np.dtype) -> bool: + """ + np.can_cast pandas-equivalent for pre 2-0 behavior that allowed scalar + inference + + Parameters + ---------- + element : Scalar + dtype : np.dtype + + Returns + ------- + bool + """ + try: + np_can_hold_element(dtype, element) + return True + except (LossySetitemError, NotImplementedError): + return False diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/common.py new file mode 100644 index 0000000000000000000000000000000000000000..6dea15ac0bc2474b222762505b50efc0dbe680e5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/common.py @@ -0,0 +1,1766 @@ +""" +Common type operations. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Callable, +) +import warnings + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas._libs import ( + Interval, + Period, + algos, + lib, +) +from pandas._libs.tslibs import conversion +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.base import _registry as registry +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + PeriodDtype, + SparseDtype, +) +from pandas.core.dtypes.generic import ABCIndex +from pandas.core.dtypes.inference import ( + is_array_like, + is_bool, + is_complex, + is_dataclass, + is_decimal, + is_dict_like, + is_file_like, + is_float, + is_hashable, + is_integer, + is_interval, + is_iterator, + is_list_like, + is_named_tuple, + is_nested_list_like, + is_number, + is_re, + is_re_compilable, + is_scalar, + is_sequence, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + DtypeObj, + ) + +DT64NS_DTYPE = conversion.DT64NS_DTYPE +TD64NS_DTYPE = conversion.TD64NS_DTYPE +INT64_DTYPE = np.dtype(np.int64) + +# oh the troubles to reduce import time +_is_scipy_sparse = None + +ensure_float64 = algos.ensure_float64 +ensure_int64 = algos.ensure_int64 +ensure_int32 = algos.ensure_int32 +ensure_int16 = algos.ensure_int16 +ensure_int8 = algos.ensure_int8 +ensure_platform_int = algos.ensure_platform_int +ensure_object = algos.ensure_object +ensure_uint64 = algos.ensure_uint64 + + +def ensure_str(value: bytes | Any) -> str: + """ + Ensure that bytes and non-strings get converted into ``str`` objects. + """ + if isinstance(value, bytes): + value = value.decode("utf-8") + elif not isinstance(value, str): + value = str(value) + return value + + +def ensure_python_int(value: int | np.integer) -> int: + """ + Ensure that a value is a python int. + + Parameters + ---------- + value: int or numpy.integer + + Returns + ------- + int + + Raises + ------ + TypeError: if the value isn't an int or can't be converted to one. + """ + if not (is_integer(value) or is_float(value)): + if not is_scalar(value): + raise TypeError( + f"Value needs to be a scalar value, was type {type(value).__name__}" + ) + raise TypeError(f"Wrong type {type(value)} for value {value}") + try: + new_value = int(value) + assert new_value == value + except (TypeError, ValueError, AssertionError) as err: + raise TypeError(f"Wrong type {type(value)} for value {value}") from err + return new_value + + +def classes(*klasses) -> Callable: + """Evaluate if the tipo is a subclass of the klasses.""" + return lambda tipo: issubclass(tipo, klasses) + + +def _classes_and_not_datetimelike(*klasses) -> Callable: + """ + Evaluate if the tipo is a subclass of the klasses + and not a datetimelike. + """ + return lambda tipo: ( + issubclass(tipo, klasses) + and not issubclass(tipo, (np.datetime64, np.timedelta64)) + ) + + +def is_object_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the object dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the object dtype. + + Examples + -------- + >>> from pandas.api.types import is_object_dtype + >>> is_object_dtype(object) + True + >>> is_object_dtype(int) + False + >>> is_object_dtype(np.array([], dtype=object)) + True + >>> is_object_dtype(np.array([], dtype=int)) + False + >>> is_object_dtype([1, 2, 3]) + False + """ + return _is_dtype_type(arr_or_dtype, classes(np.object_)) + + +def is_sparse(arr) -> bool: + """ + Check whether an array-like is a 1-D pandas sparse array. + + .. deprecated:: 2.1.0 + Use isinstance(dtype, pd.SparseDtype) instead. + + Check that the one-dimensional array-like is a pandas sparse array. + Returns True if it is a pandas sparse array, not another type of + sparse array. + + Parameters + ---------- + arr : array-like + Array-like to check. + + Returns + ------- + bool + Whether or not the array-like is a pandas sparse array. + + Examples + -------- + Returns `True` if the parameter is a 1-D pandas sparse array. + + >>> from pandas.api.types import is_sparse + >>> is_sparse(pd.arrays.SparseArray([0, 0, 1, 0])) + True + >>> is_sparse(pd.Series(pd.arrays.SparseArray([0, 0, 1, 0]))) + True + + Returns `False` if the parameter is not sparse. + + >>> is_sparse(np.array([0, 0, 1, 0])) + False + >>> is_sparse(pd.Series([0, 1, 0, 0])) + False + + Returns `False` if the parameter is not a pandas sparse array. + + >>> from scipy.sparse import bsr_matrix + >>> is_sparse(bsr_matrix([0, 1, 0, 0])) + False + + Returns `False` if the parameter has more than one dimension. + """ + warnings.warn( + "is_sparse is deprecated and will be removed in a future " + "version. Check `isinstance(dtype, pd.SparseDtype)` instead.", + DeprecationWarning, + stacklevel=2, + ) + + dtype = getattr(arr, "dtype", arr) + return isinstance(dtype, SparseDtype) + + +def is_scipy_sparse(arr) -> bool: + """ + Check whether an array-like is a scipy.sparse.spmatrix instance. + + Parameters + ---------- + arr : array-like + The array-like to check. + + Returns + ------- + boolean + Whether or not the array-like is a scipy.sparse.spmatrix instance. + + Notes + ----- + If scipy is not installed, this function will always return False. + + Examples + -------- + >>> from scipy.sparse import bsr_matrix + >>> is_scipy_sparse(bsr_matrix([1, 2, 3])) + True + >>> is_scipy_sparse(pd.arrays.SparseArray([1, 2, 3])) + False + """ + global _is_scipy_sparse + + if _is_scipy_sparse is None: # pylint: disable=used-before-assignment + try: + from scipy.sparse import issparse as _is_scipy_sparse + except ImportError: + _is_scipy_sparse = lambda _: False + + assert _is_scipy_sparse is not None + return _is_scipy_sparse(arr) + + +def is_datetime64_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the datetime64 dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the datetime64 dtype. + + Examples + -------- + >>> from pandas.api.types import is_datetime64_dtype + >>> is_datetime64_dtype(object) + False + >>> is_datetime64_dtype(np.datetime64) + True + >>> is_datetime64_dtype(np.array([], dtype=int)) + False + >>> is_datetime64_dtype(np.array([], dtype=np.datetime64)) + True + >>> is_datetime64_dtype([1, 2, 3]) + False + """ + if isinstance(arr_or_dtype, np.dtype): + # GH#33400 fastpath for dtype object + return arr_or_dtype.kind == "M" + return _is_dtype_type(arr_or_dtype, classes(np.datetime64)) + + +def is_datetime64tz_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of a DatetimeTZDtype dtype. + + .. deprecated:: 2.1.0 + Use isinstance(dtype, pd.DatetimeTZDtype) instead. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of a DatetimeTZDtype dtype. + + Examples + -------- + >>> from pandas.api.types import is_datetime64tz_dtype + >>> is_datetime64tz_dtype(object) + False + >>> is_datetime64tz_dtype([1, 2, 3]) + False + >>> is_datetime64tz_dtype(pd.DatetimeIndex([1, 2, 3])) # tz-naive + False + >>> is_datetime64tz_dtype(pd.DatetimeIndex([1, 2, 3], tz="US/Eastern")) + True + + >>> from pandas.core.dtypes.dtypes import DatetimeTZDtype + >>> dtype = DatetimeTZDtype("ns", tz="US/Eastern") + >>> s = pd.Series([], dtype=dtype) + >>> is_datetime64tz_dtype(dtype) + True + >>> is_datetime64tz_dtype(s) + True + """ + # GH#52607 + warnings.warn( + "is_datetime64tz_dtype is deprecated and will be removed in a future " + "version. Check `isinstance(dtype, pd.DatetimeTZDtype)` instead.", + DeprecationWarning, + stacklevel=2, + ) + if isinstance(arr_or_dtype, DatetimeTZDtype): + # GH#33400 fastpath for dtype object + # GH 34986 + return True + + if arr_or_dtype is None: + return False + return DatetimeTZDtype.is_dtype(arr_or_dtype) + + +def is_timedelta64_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the timedelta64 dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the timedelta64 dtype. + + Examples + -------- + >>> from pandas.core.dtypes.common import is_timedelta64_dtype + >>> is_timedelta64_dtype(object) + False + >>> is_timedelta64_dtype(np.timedelta64) + True + >>> is_timedelta64_dtype([1, 2, 3]) + False + >>> is_timedelta64_dtype(pd.Series([], dtype="timedelta64[ns]")) + True + >>> is_timedelta64_dtype('0 days') + False + """ + if isinstance(arr_or_dtype, np.dtype): + # GH#33400 fastpath for dtype object + return arr_or_dtype.kind == "m" + + return _is_dtype_type(arr_or_dtype, classes(np.timedelta64)) + + +def is_period_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the Period dtype. + + .. deprecated:: 2.2.0 + Use isinstance(dtype, pd.Period) instead. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the Period dtype. + + Examples + -------- + >>> from pandas.core.dtypes.common import is_period_dtype + >>> is_period_dtype(object) + False + >>> is_period_dtype(pd.PeriodDtype(freq="D")) + True + >>> is_period_dtype([1, 2, 3]) + False + >>> is_period_dtype(pd.Period("2017-01-01")) + False + >>> is_period_dtype(pd.PeriodIndex([], freq="Y")) + True + """ + warnings.warn( + "is_period_dtype is deprecated and will be removed in a future version. " + "Use `isinstance(dtype, pd.PeriodDtype)` instead", + DeprecationWarning, + stacklevel=2, + ) + if isinstance(arr_or_dtype, ExtensionDtype): + # GH#33400 fastpath for dtype object + return arr_or_dtype.type is Period + + if arr_or_dtype is None: + return False + return PeriodDtype.is_dtype(arr_or_dtype) + + +def is_interval_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the Interval dtype. + + .. deprecated:: 2.2.0 + Use isinstance(dtype, pd.IntervalDtype) instead. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the Interval dtype. + + Examples + -------- + >>> from pandas.core.dtypes.common import is_interval_dtype + >>> is_interval_dtype(object) + False + >>> is_interval_dtype(pd.IntervalDtype()) + True + >>> is_interval_dtype([1, 2, 3]) + False + >>> + >>> interval = pd.Interval(1, 2, closed="right") + >>> is_interval_dtype(interval) + False + >>> is_interval_dtype(pd.IntervalIndex([interval])) + True + """ + # GH#52607 + warnings.warn( + "is_interval_dtype is deprecated and will be removed in a future version. " + "Use `isinstance(dtype, pd.IntervalDtype)` instead", + DeprecationWarning, + stacklevel=2, + ) + if isinstance(arr_or_dtype, ExtensionDtype): + # GH#33400 fastpath for dtype object + return arr_or_dtype.type is Interval + + if arr_or_dtype is None: + return False + return IntervalDtype.is_dtype(arr_or_dtype) + + +def is_categorical_dtype(arr_or_dtype) -> bool: + """ + Check whether an array-like or dtype is of the Categorical dtype. + + .. deprecated:: 2.2.0 + Use isinstance(dtype, pd.CategoricalDtype) instead. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype to check. + + Returns + ------- + boolean + Whether or not the array-like or dtype is of the Categorical dtype. + + Examples + -------- + >>> from pandas.api.types import is_categorical_dtype + >>> from pandas import CategoricalDtype + >>> is_categorical_dtype(object) + False + >>> is_categorical_dtype(CategoricalDtype()) + True + >>> is_categorical_dtype([1, 2, 3]) + False + >>> is_categorical_dtype(pd.Categorical([1, 2, 3])) + True + >>> is_categorical_dtype(pd.CategoricalIndex([1, 2, 3])) + True + """ + # GH#52527 + warnings.warn( + "is_categorical_dtype is deprecated and will be removed in a future " + "version. Use isinstance(dtype, pd.CategoricalDtype) instead", + DeprecationWarning, + stacklevel=2, + ) + if isinstance(arr_or_dtype, ExtensionDtype): + # GH#33400 fastpath for dtype object + return arr_or_dtype.name == "category" + + if arr_or_dtype is None: + return False + return CategoricalDtype.is_dtype(arr_or_dtype) + + +def is_string_or_object_np_dtype(dtype: np.dtype) -> bool: + """ + Faster alternative to is_string_dtype, assumes we have a np.dtype object. + """ + return dtype == object or dtype.kind in "SU" + + +def is_string_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of the string dtype. + + If an array is passed with an object dtype, the elements must be + inferred as strings. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of the string dtype. + + Examples + -------- + >>> from pandas.api.types import is_string_dtype + >>> is_string_dtype(str) + True + >>> is_string_dtype(object) + True + >>> is_string_dtype(int) + False + >>> is_string_dtype(np.array(['a', 'b'])) + True + >>> is_string_dtype(pd.Series([1, 2])) + False + >>> is_string_dtype(pd.Series([1, 2], dtype=object)) + False + """ + if hasattr(arr_or_dtype, "dtype") and _get_dtype(arr_or_dtype).kind == "O": + return is_all_strings(arr_or_dtype) + + def condition(dtype) -> bool: + if is_string_or_object_np_dtype(dtype): + return True + try: + return dtype == "string" + except TypeError: + return False + + return _is_dtype(arr_or_dtype, condition) + + +def is_dtype_equal(source, target) -> bool: + """ + Check if two dtypes are equal. + + Parameters + ---------- + source : The first dtype to compare + target : The second dtype to compare + + Returns + ------- + boolean + Whether or not the two dtypes are equal. + + Examples + -------- + >>> is_dtype_equal(int, float) + False + >>> is_dtype_equal("int", int) + True + >>> is_dtype_equal(object, "category") + False + >>> is_dtype_equal(CategoricalDtype(), "category") + True + >>> is_dtype_equal(DatetimeTZDtype(tz="UTC"), "datetime64") + False + """ + if isinstance(target, str): + if not isinstance(source, str): + # GH#38516 ensure we get the same behavior from + # is_dtype_equal(CDT, "category") and CDT == "category" + try: + src = _get_dtype(source) + if isinstance(src, ExtensionDtype): + return src == target + except (TypeError, AttributeError, ImportError): + return False + elif isinstance(source, str): + return is_dtype_equal(target, source) + + try: + source = _get_dtype(source) + target = _get_dtype(target) + return source == target + except (TypeError, AttributeError, ImportError): + # invalid comparison + # object == category will hit this + return False + + +def is_integer_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of an integer dtype. + + Unlike in `is_any_int_dtype`, timedelta64 instances will return False. + + The nullable Integer dtypes (e.g. pandas.Int64Dtype) are also considered + as integer by this function. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of an integer dtype and + not an instance of timedelta64. + + Examples + -------- + >>> from pandas.api.types import is_integer_dtype + >>> is_integer_dtype(str) + False + >>> is_integer_dtype(int) + True + >>> is_integer_dtype(float) + False + >>> is_integer_dtype(np.uint64) + True + >>> is_integer_dtype('int8') + True + >>> is_integer_dtype('Int8') + True + >>> is_integer_dtype(pd.Int8Dtype) + True + >>> is_integer_dtype(np.datetime64) + False + >>> is_integer_dtype(np.timedelta64) + False + >>> is_integer_dtype(np.array(['a', 'b'])) + False + >>> is_integer_dtype(pd.Series([1, 2])) + True + >>> is_integer_dtype(np.array([], dtype=np.timedelta64)) + False + >>> is_integer_dtype(pd.Index([1, 2.])) # float + False + """ + return _is_dtype_type( + arr_or_dtype, _classes_and_not_datetimelike(np.integer) + ) or _is_dtype( + arr_or_dtype, lambda typ: isinstance(typ, ExtensionDtype) and typ.kind in "iu" + ) + + +def is_signed_integer_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a signed integer dtype. + + Unlike in `is_any_int_dtype`, timedelta64 instances will return False. + + The nullable Integer dtypes (e.g. pandas.Int64Dtype) are also considered + as integer by this function. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a signed integer dtype + and not an instance of timedelta64. + + Examples + -------- + >>> from pandas.core.dtypes.common import is_signed_integer_dtype + >>> is_signed_integer_dtype(str) + False + >>> is_signed_integer_dtype(int) + True + >>> is_signed_integer_dtype(float) + False + >>> is_signed_integer_dtype(np.uint64) # unsigned + False + >>> is_signed_integer_dtype('int8') + True + >>> is_signed_integer_dtype('Int8') + True + >>> is_signed_integer_dtype(pd.Int8Dtype) + True + >>> is_signed_integer_dtype(np.datetime64) + False + >>> is_signed_integer_dtype(np.timedelta64) + False + >>> is_signed_integer_dtype(np.array(['a', 'b'])) + False + >>> is_signed_integer_dtype(pd.Series([1, 2])) + True + >>> is_signed_integer_dtype(np.array([], dtype=np.timedelta64)) + False + >>> is_signed_integer_dtype(pd.Index([1, 2.])) # float + False + >>> is_signed_integer_dtype(np.array([1, 2], dtype=np.uint32)) # unsigned + False + """ + return _is_dtype_type( + arr_or_dtype, _classes_and_not_datetimelike(np.signedinteger) + ) or _is_dtype( + arr_or_dtype, lambda typ: isinstance(typ, ExtensionDtype) and typ.kind == "i" + ) + + +def is_unsigned_integer_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of an unsigned integer dtype. + + The nullable Integer dtypes (e.g. pandas.UInt64Dtype) are also + considered as integer by this function. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of an unsigned integer dtype. + + Examples + -------- + >>> from pandas.api.types import is_unsigned_integer_dtype + >>> is_unsigned_integer_dtype(str) + False + >>> is_unsigned_integer_dtype(int) # signed + False + >>> is_unsigned_integer_dtype(float) + False + >>> is_unsigned_integer_dtype(np.uint64) + True + >>> is_unsigned_integer_dtype('uint8') + True + >>> is_unsigned_integer_dtype('UInt8') + True + >>> is_unsigned_integer_dtype(pd.UInt8Dtype) + True + >>> is_unsigned_integer_dtype(np.array(['a', 'b'])) + False + >>> is_unsigned_integer_dtype(pd.Series([1, 2])) # signed + False + >>> is_unsigned_integer_dtype(pd.Index([1, 2.])) # float + False + >>> is_unsigned_integer_dtype(np.array([1, 2], dtype=np.uint32)) + True + """ + return _is_dtype_type( + arr_or_dtype, _classes_and_not_datetimelike(np.unsignedinteger) + ) or _is_dtype( + arr_or_dtype, lambda typ: isinstance(typ, ExtensionDtype) and typ.kind == "u" + ) + + +def is_int64_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of the int64 dtype. + + .. deprecated:: 2.1.0 + + is_int64_dtype is deprecated and will be removed in a future + version. Use dtype == np.int64 instead. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of the int64 dtype. + + Notes + ----- + Depending on system architecture, the return value of `is_int64_dtype( + int)` will be True if the OS uses 64-bit integers and False if the OS + uses 32-bit integers. + + Examples + -------- + >>> from pandas.api.types import is_int64_dtype + >>> is_int64_dtype(str) # doctest: +SKIP + False + >>> is_int64_dtype(np.int32) # doctest: +SKIP + False + >>> is_int64_dtype(np.int64) # doctest: +SKIP + True + >>> is_int64_dtype('int8') # doctest: +SKIP + False + >>> is_int64_dtype('Int8') # doctest: +SKIP + False + >>> is_int64_dtype(pd.Int64Dtype) # doctest: +SKIP + True + >>> is_int64_dtype(float) # doctest: +SKIP + False + >>> is_int64_dtype(np.uint64) # unsigned # doctest: +SKIP + False + >>> is_int64_dtype(np.array(['a', 'b'])) # doctest: +SKIP + False + >>> is_int64_dtype(np.array([1, 2], dtype=np.int64)) # doctest: +SKIP + True + >>> is_int64_dtype(pd.Index([1, 2.])) # float # doctest: +SKIP + False + >>> is_int64_dtype(np.array([1, 2], dtype=np.uint32)) # unsigned # doctest: +SKIP + False + """ + # GH#52564 + warnings.warn( + "is_int64_dtype is deprecated and will be removed in a future " + "version. Use dtype == np.int64 instead.", + DeprecationWarning, + stacklevel=2, + ) + return _is_dtype_type(arr_or_dtype, classes(np.int64)) + + +def is_datetime64_any_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of the datetime64 dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + bool + Whether or not the array or dtype is of the datetime64 dtype. + + Examples + -------- + >>> from pandas.api.types import is_datetime64_any_dtype + >>> from pandas.core.dtypes.dtypes import DatetimeTZDtype + >>> is_datetime64_any_dtype(str) + False + >>> is_datetime64_any_dtype(int) + False + >>> is_datetime64_any_dtype(np.datetime64) # can be tz-naive + True + >>> is_datetime64_any_dtype(DatetimeTZDtype("ns", "US/Eastern")) + True + >>> is_datetime64_any_dtype(np.array(['a', 'b'])) + False + >>> is_datetime64_any_dtype(np.array([1, 2])) + False + >>> is_datetime64_any_dtype(np.array([], dtype="datetime64[ns]")) + True + >>> is_datetime64_any_dtype(pd.DatetimeIndex([1, 2, 3], dtype="datetime64[ns]")) + True + """ + if isinstance(arr_or_dtype, (np.dtype, ExtensionDtype)): + # GH#33400 fastpath for dtype object + return arr_or_dtype.kind == "M" + + if arr_or_dtype is None: + return False + + try: + tipo = _get_dtype(arr_or_dtype) + except TypeError: + return False + return lib.is_np_dtype(tipo, "M") or isinstance(tipo, DatetimeTZDtype) + + +def is_datetime64_ns_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of the datetime64[ns] dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + bool + Whether or not the array or dtype is of the datetime64[ns] dtype. + + Examples + -------- + >>> from pandas.api.types import is_datetime64_ns_dtype + >>> from pandas.core.dtypes.dtypes import DatetimeTZDtype + >>> is_datetime64_ns_dtype(str) + False + >>> is_datetime64_ns_dtype(int) + False + >>> is_datetime64_ns_dtype(np.datetime64) # no unit + False + >>> is_datetime64_ns_dtype(DatetimeTZDtype("ns", "US/Eastern")) + True + >>> is_datetime64_ns_dtype(np.array(['a', 'b'])) + False + >>> is_datetime64_ns_dtype(np.array([1, 2])) + False + >>> is_datetime64_ns_dtype(np.array([], dtype="datetime64")) # no unit + False + >>> is_datetime64_ns_dtype(np.array([], dtype="datetime64[ps]")) # wrong unit + False + >>> is_datetime64_ns_dtype(pd.DatetimeIndex([1, 2, 3], dtype="datetime64[ns]")) + True + """ + if arr_or_dtype is None: + return False + try: + tipo = _get_dtype(arr_or_dtype) + except TypeError: + return False + return tipo == DT64NS_DTYPE or ( + isinstance(tipo, DatetimeTZDtype) and tipo.unit == "ns" + ) + + +def is_timedelta64_ns_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of the timedelta64[ns] dtype. + + This is a very specific dtype, so generic ones like `np.timedelta64` + will return False if passed into this function. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of the timedelta64[ns] dtype. + + Examples + -------- + >>> from pandas.core.dtypes.common import is_timedelta64_ns_dtype + >>> is_timedelta64_ns_dtype(np.dtype('m8[ns]')) + True + >>> is_timedelta64_ns_dtype(np.dtype('m8[ps]')) # Wrong frequency + False + >>> is_timedelta64_ns_dtype(np.array([1, 2], dtype='m8[ns]')) + True + >>> is_timedelta64_ns_dtype(np.array([1, 2], dtype=np.timedelta64)) + False + """ + return _is_dtype(arr_or_dtype, lambda dtype: dtype == TD64NS_DTYPE) + + +# This exists to silence numpy deprecation warnings, see GH#29553 +def is_numeric_v_string_like(a: ArrayLike, b) -> bool: + """ + Check if we are comparing a string-like object to a numeric ndarray. + NumPy doesn't like to compare such objects, especially numeric arrays + and scalar string-likes. + + Parameters + ---------- + a : array-like, scalar + The first object to check. + b : array-like, scalar + The second object to check. + + Returns + ------- + boolean + Whether we return a comparing a string-like object to a numeric array. + + Examples + -------- + >>> is_numeric_v_string_like(np.array([1]), "foo") + True + >>> is_numeric_v_string_like(np.array([1, 2]), np.array(["foo"])) + True + >>> is_numeric_v_string_like(np.array(["foo"]), np.array([1, 2])) + True + >>> is_numeric_v_string_like(np.array([1]), np.array([2])) + False + >>> is_numeric_v_string_like(np.array(["foo"]), np.array(["foo"])) + False + """ + is_a_array = isinstance(a, np.ndarray) + is_b_array = isinstance(b, np.ndarray) + + is_a_numeric_array = is_a_array and a.dtype.kind in ("u", "i", "f", "c", "b") + is_b_numeric_array = is_b_array and b.dtype.kind in ("u", "i", "f", "c", "b") + is_a_string_array = is_a_array and a.dtype.kind in ("S", "U") + is_b_string_array = is_b_array and b.dtype.kind in ("S", "U") + + is_b_scalar_string_like = not is_b_array and isinstance(b, str) + + return ( + (is_a_numeric_array and is_b_scalar_string_like) + or (is_a_numeric_array and is_b_string_array) + or (is_b_numeric_array and is_a_string_array) + ) + + +def needs_i8_conversion(dtype: DtypeObj | None) -> bool: + """ + Check whether the dtype should be converted to int64. + + Dtype "needs" such a conversion if the dtype is of a datetime-like dtype + + Parameters + ---------- + dtype : np.dtype, ExtensionDtype, or None + + Returns + ------- + boolean + Whether or not the dtype should be converted to int64. + + Examples + -------- + >>> needs_i8_conversion(str) + False + >>> needs_i8_conversion(np.int64) + False + >>> needs_i8_conversion(np.datetime64) + False + >>> needs_i8_conversion(np.dtype(np.datetime64)) + True + >>> needs_i8_conversion(np.array(['a', 'b'])) + False + >>> needs_i8_conversion(pd.Series([1, 2])) + False + >>> needs_i8_conversion(pd.Series([], dtype="timedelta64[ns]")) + False + >>> needs_i8_conversion(pd.DatetimeIndex([1, 2, 3], tz="US/Eastern")) + False + >>> needs_i8_conversion(pd.DatetimeIndex([1, 2, 3], tz="US/Eastern").dtype) + True + """ + if isinstance(dtype, np.dtype): + return dtype.kind in "mM" + return isinstance(dtype, (PeriodDtype, DatetimeTZDtype)) + + +def is_numeric_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a numeric dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a numeric dtype. + + Examples + -------- + >>> from pandas.api.types import is_numeric_dtype + >>> is_numeric_dtype(str) + False + >>> is_numeric_dtype(int) + True + >>> is_numeric_dtype(float) + True + >>> is_numeric_dtype(np.uint64) + True + >>> is_numeric_dtype(np.datetime64) + False + >>> is_numeric_dtype(np.timedelta64) + False + >>> is_numeric_dtype(np.array(['a', 'b'])) + False + >>> is_numeric_dtype(pd.Series([1, 2])) + True + >>> is_numeric_dtype(pd.Index([1, 2.])) + True + >>> is_numeric_dtype(np.array([], dtype=np.timedelta64)) + False + """ + return _is_dtype_type( + arr_or_dtype, _classes_and_not_datetimelike(np.number, np.bool_) + ) or _is_dtype( + arr_or_dtype, lambda typ: isinstance(typ, ExtensionDtype) and typ._is_numeric + ) + + +def is_any_real_numeric_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a real number dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a real number dtype. + + Examples + -------- + >>> from pandas.api.types import is_any_real_numeric_dtype + >>> is_any_real_numeric_dtype(int) + True + >>> is_any_real_numeric_dtype(float) + True + >>> is_any_real_numeric_dtype(object) + False + >>> is_any_real_numeric_dtype(str) + False + >>> is_any_real_numeric_dtype(complex(1, 2)) + False + >>> is_any_real_numeric_dtype(bool) + False + """ + return ( + is_numeric_dtype(arr_or_dtype) + and not is_complex_dtype(arr_or_dtype) + and not is_bool_dtype(arr_or_dtype) + ) + + +def is_float_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a float dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a float dtype. + + Examples + -------- + >>> from pandas.api.types import is_float_dtype + >>> is_float_dtype(str) + False + >>> is_float_dtype(int) + False + >>> is_float_dtype(float) + True + >>> is_float_dtype(np.array(['a', 'b'])) + False + >>> is_float_dtype(pd.Series([1, 2])) + False + >>> is_float_dtype(pd.Index([1, 2.])) + True + """ + return _is_dtype_type(arr_or_dtype, classes(np.floating)) or _is_dtype( + arr_or_dtype, lambda typ: isinstance(typ, ExtensionDtype) and typ.kind in "f" + ) + + +def is_bool_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a boolean dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a boolean dtype. + + Notes + ----- + An ExtensionArray is considered boolean when the ``_is_boolean`` + attribute is set to True. + + Examples + -------- + >>> from pandas.api.types import is_bool_dtype + >>> is_bool_dtype(str) + False + >>> is_bool_dtype(int) + False + >>> is_bool_dtype(bool) + True + >>> is_bool_dtype(np.bool_) + True + >>> is_bool_dtype(np.array(['a', 'b'])) + False + >>> is_bool_dtype(pd.Series([1, 2])) + False + >>> is_bool_dtype(np.array([True, False])) + True + >>> is_bool_dtype(pd.Categorical([True, False])) + True + >>> is_bool_dtype(pd.arrays.SparseArray([True, False])) + True + """ + if arr_or_dtype is None: + return False + try: + dtype = _get_dtype(arr_or_dtype) + except (TypeError, ValueError): + return False + + if isinstance(dtype, CategoricalDtype): + arr_or_dtype = dtype.categories + # now we use the special definition for Index + + if isinstance(arr_or_dtype, ABCIndex): + # Allow Index[object] that is all-bools or Index["boolean"] + if arr_or_dtype.inferred_type == "boolean": + if not is_bool_dtype(arr_or_dtype.dtype): + # GH#52680 + warnings.warn( + "The behavior of is_bool_dtype with an object-dtype Index " + "of bool objects is deprecated. In a future version, " + "this will return False. Cast the Index to a bool dtype instead.", + DeprecationWarning, + stacklevel=2, + ) + return True + return False + elif isinstance(dtype, ExtensionDtype): + return getattr(dtype, "_is_boolean", False) + + return issubclass(dtype.type, np.bool_) + + +def is_1d_only_ea_dtype(dtype: DtypeObj | None) -> bool: + """ + Analogue to is_extension_array_dtype but excluding DatetimeTZDtype. + """ + return isinstance(dtype, ExtensionDtype) and not dtype._supports_2d + + +def is_extension_array_dtype(arr_or_dtype) -> bool: + """ + Check if an object is a pandas extension array type. + + See the :ref:`Use Guide ` for more. + + Parameters + ---------- + arr_or_dtype : object + For array-like input, the ``.dtype`` attribute will + be extracted. + + Returns + ------- + bool + Whether the `arr_or_dtype` is an extension array type. + + Notes + ----- + This checks whether an object implements the pandas extension + array interface. In pandas, this includes: + + * Categorical + * Sparse + * Interval + * Period + * DatetimeArray + * TimedeltaArray + + Third-party libraries may implement arrays or types satisfying + this interface as well. + + Examples + -------- + >>> from pandas.api.types import is_extension_array_dtype + >>> arr = pd.Categorical(['a', 'b']) + >>> is_extension_array_dtype(arr) + True + >>> is_extension_array_dtype(arr.dtype) + True + + >>> arr = np.array(['a', 'b']) + >>> is_extension_array_dtype(arr.dtype) + False + """ + dtype = getattr(arr_or_dtype, "dtype", arr_or_dtype) + if isinstance(dtype, ExtensionDtype): + return True + elif isinstance(dtype, np.dtype): + return False + else: + try: + with warnings.catch_warnings(): + # pandas_dtype(..) can raise UserWarning for class input + warnings.simplefilter("ignore", UserWarning) + dtype = pandas_dtype(dtype) + except (TypeError, ValueError): + # np.dtype(..) can raise ValueError + return False + return isinstance(dtype, ExtensionDtype) + + +def is_ea_or_datetimelike_dtype(dtype: DtypeObj | None) -> bool: + """ + Check for ExtensionDtype, datetime64 dtype, or timedelta64 dtype. + + Notes + ----- + Checks only for dtype objects, not dtype-castable strings or types. + """ + return isinstance(dtype, ExtensionDtype) or (lib.is_np_dtype(dtype, "mM")) + + +def is_complex_dtype(arr_or_dtype) -> bool: + """ + Check whether the provided array or dtype is of a complex dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array or dtype to check. + + Returns + ------- + boolean + Whether or not the array or dtype is of a complex dtype. + + Examples + -------- + >>> from pandas.api.types import is_complex_dtype + >>> is_complex_dtype(str) + False + >>> is_complex_dtype(int) + False + >>> is_complex_dtype(np.complex128) + True + >>> is_complex_dtype(np.array(['a', 'b'])) + False + >>> is_complex_dtype(pd.Series([1, 2])) + False + >>> is_complex_dtype(np.array([1 + 1j, 5])) + True + """ + return _is_dtype_type(arr_or_dtype, classes(np.complexfloating)) + + +def _is_dtype(arr_or_dtype, condition) -> bool: + """ + Return true if the condition is satisfied for the arr_or_dtype. + + Parameters + ---------- + arr_or_dtype : array-like, str, np.dtype, or ExtensionArrayType + The array-like or dtype object whose dtype we want to extract. + condition : callable[Union[np.dtype, ExtensionDtype]] + + Returns + ------- + bool + + """ + if arr_or_dtype is None: + return False + try: + dtype = _get_dtype(arr_or_dtype) + except (TypeError, ValueError): + return False + return condition(dtype) + + +def _get_dtype(arr_or_dtype) -> DtypeObj: + """ + Get the dtype instance associated with an array + or dtype object. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype object whose dtype we want to extract. + + Returns + ------- + obj_dtype : The extract dtype instance from the + passed in array or dtype object. + + Raises + ------ + TypeError : The passed in object is None. + """ + if arr_or_dtype is None: + raise TypeError("Cannot deduce dtype from null object") + + # fastpath + if isinstance(arr_or_dtype, np.dtype): + return arr_or_dtype + elif isinstance(arr_or_dtype, type): + return np.dtype(arr_or_dtype) + + # if we have an array-like + elif hasattr(arr_or_dtype, "dtype"): + arr_or_dtype = arr_or_dtype.dtype + + return pandas_dtype(arr_or_dtype) + + +def _is_dtype_type(arr_or_dtype, condition) -> bool: + """ + Return true if the condition is satisfied for the arr_or_dtype. + + Parameters + ---------- + arr_or_dtype : array-like or dtype + The array-like or dtype object whose dtype we want to extract. + condition : callable[Union[np.dtype, ExtensionDtypeType]] + + Returns + ------- + bool : if the condition is satisfied for the arr_or_dtype + """ + if arr_or_dtype is None: + return condition(type(None)) + + # fastpath + if isinstance(arr_or_dtype, np.dtype): + return condition(arr_or_dtype.type) + elif isinstance(arr_or_dtype, type): + if issubclass(arr_or_dtype, ExtensionDtype): + arr_or_dtype = arr_or_dtype.type + return condition(np.dtype(arr_or_dtype).type) + + # if we have an array-like + if hasattr(arr_or_dtype, "dtype"): + arr_or_dtype = arr_or_dtype.dtype + + # we are not possibly a dtype + elif is_list_like(arr_or_dtype): + return condition(type(None)) + + try: + tipo = pandas_dtype(arr_or_dtype).type + except (TypeError, ValueError): + if is_scalar(arr_or_dtype): + return condition(type(None)) + + return False + + return condition(tipo) + + +def infer_dtype_from_object(dtype) -> type: + """ + Get a numpy dtype.type-style object for a dtype object. + + This methods also includes handling of the datetime64[ns] and + datetime64[ns, TZ] objects. + + If no dtype can be found, we return ``object``. + + Parameters + ---------- + dtype : dtype, type + The dtype object whose numpy dtype.type-style + object we want to extract. + + Returns + ------- + type + """ + if isinstance(dtype, type) and issubclass(dtype, np.generic): + # Type object from a dtype + + return dtype + elif isinstance(dtype, (np.dtype, ExtensionDtype)): + # dtype object + try: + _validate_date_like_dtype(dtype) + except TypeError: + # Should still pass if we don't have a date-like + pass + if hasattr(dtype, "numpy_dtype"): + # TODO: Implement this properly + # https://github.com/pandas-dev/pandas/issues/52576 + return dtype.numpy_dtype.type + return dtype.type + + try: + dtype = pandas_dtype(dtype) + except TypeError: + pass + + if isinstance(dtype, ExtensionDtype): + return dtype.type + elif isinstance(dtype, str): + # TODO(jreback) + # should deprecate these + if dtype in ["datetimetz", "datetime64tz"]: + return DatetimeTZDtype.type + elif dtype in ["period"]: + raise NotImplementedError + + if dtype in ["datetime", "timedelta"]: + dtype += "64" + try: + return infer_dtype_from_object(getattr(np, dtype)) + except (AttributeError, TypeError): + # Handles cases like _get_dtype(int) i.e., + # Python objects that are valid dtypes + # (unlike user-defined types, in general) + # + # TypeError handles the float16 type code of 'e' + # further handle internal types + pass + + return infer_dtype_from_object(np.dtype(dtype)) + + +def _validate_date_like_dtype(dtype) -> None: + """ + Check whether the dtype is a date-like dtype. Raises an error if invalid. + + Parameters + ---------- + dtype : dtype, type + The dtype to check. + + Raises + ------ + TypeError : The dtype could not be casted to a date-like dtype. + ValueError : The dtype is an illegal date-like dtype (e.g. the + frequency provided is too specific) + """ + try: + typ = np.datetime_data(dtype)[0] + except ValueError as e: + raise TypeError(e) from e + if typ not in ["generic", "ns"]: + raise ValueError( + f"{repr(dtype.name)} is too specific of a frequency, " + f"try passing {repr(dtype.type.__name__)}" + ) + + +def validate_all_hashable(*args, error_name: str | None = None) -> None: + """ + Return None if all args are hashable, else raise a TypeError. + + Parameters + ---------- + *args + Arguments to validate. + error_name : str, optional + The name to use if error + + Raises + ------ + TypeError : If an argument is not hashable + + Returns + ------- + None + """ + if not all(is_hashable(arg) for arg in args): + if error_name: + raise TypeError(f"{error_name} must be a hashable type") + raise TypeError("All elements must be hashable") + + +def pandas_dtype(dtype) -> DtypeObj: + """ + Convert input into a pandas only dtype object or a numpy dtype object. + + Parameters + ---------- + dtype : object to be converted + + Returns + ------- + np.dtype or a pandas dtype + + Raises + ------ + TypeError if not a dtype + + Examples + -------- + >>> pd.api.types.pandas_dtype(int) + dtype('int64') + """ + # short-circuit + if isinstance(dtype, np.ndarray): + return dtype.dtype + elif isinstance(dtype, (np.dtype, ExtensionDtype)): + return dtype + + # builtin aliases + if dtype is str and using_string_dtype(): + from pandas.core.arrays.string_ import StringDtype + + return StringDtype(na_value=np.nan) + + # registered extension types + result = registry.find(dtype) + if result is not None: + if isinstance(result, type): + # GH 31356, GH 54592 + warnings.warn( + f"Instantiating {result.__name__} without any arguments." + f"Pass a {result.__name__} instance to silence this warning.", + UserWarning, + stacklevel=find_stack_level(), + ) + result = result() + return result + + # try a numpy dtype + # raise a consistent TypeError if failed + try: + with warnings.catch_warnings(): + # TODO: warnings.catch_warnings can be removed when numpy>2.3.0 + # is the minimum version + # GH#51523 - Series.astype(np.integer) doesn't show + # numpy deprecation warning of np.integer + # Hence enabling DeprecationWarning + warnings.simplefilter("always", DeprecationWarning) + npdtype = np.dtype(dtype) + except SyntaxError as err: + # np.dtype uses `eval` which can raise SyntaxError + raise TypeError(f"data type '{dtype}' not understood") from err + + # Any invalid dtype (such as pd.Timestamp) should raise an error. + # np.dtype(invalid_type).kind = 0 for such objects. However, this will + # also catch some valid dtypes such as object, np.object_ and 'object' + # which we safeguard against by catching them earlier and returning + # np.dtype(valid_dtype) before this condition is evaluated. + if is_hashable(dtype) and dtype in [ + object, + np.object_, + "object", + "O", + "object_", + ]: + # check hashability to avoid errors/DeprecationWarning when we get + # here and `dtype` is an array + return npdtype + elif npdtype.kind == "O": + raise TypeError(f"dtype '{dtype}' not understood") + + return npdtype + + +def is_all_strings(value: ArrayLike) -> bool: + """ + Check if this is an array of strings that we should try parsing. + + Includes object-dtype ndarray containing all-strings, StringArray, + and Categorical with all-string categories. + Does not include numpy string dtypes. + """ + dtype = value.dtype + + if isinstance(dtype, np.dtype): + if len(value) == 0: + return dtype == np.dtype("object") + else: + return dtype == np.dtype("object") and lib.is_string_array( + np.asarray(value), skipna=False + ) + elif isinstance(dtype, CategoricalDtype): + return dtype.categories.inferred_type == "string" + return dtype == "string" + + +__all__ = [ + "classes", + "DT64NS_DTYPE", + "ensure_float64", + "ensure_python_int", + "ensure_str", + "infer_dtype_from_object", + "INT64_DTYPE", + "is_1d_only_ea_dtype", + "is_all_strings", + "is_any_real_numeric_dtype", + "is_array_like", + "is_bool", + "is_bool_dtype", + "is_categorical_dtype", + "is_complex", + "is_complex_dtype", + "is_dataclass", + "is_datetime64_any_dtype", + "is_datetime64_dtype", + "is_datetime64_ns_dtype", + "is_datetime64tz_dtype", + "is_decimal", + "is_dict_like", + "is_dtype_equal", + "is_ea_or_datetimelike_dtype", + "is_extension_array_dtype", + "is_file_like", + "is_float_dtype", + "is_int64_dtype", + "is_integer_dtype", + "is_interval", + "is_interval_dtype", + "is_iterator", + "is_named_tuple", + "is_nested_list_like", + "is_number", + "is_numeric_dtype", + "is_object_dtype", + "is_period_dtype", + "is_re", + "is_re_compilable", + "is_scipy_sparse", + "is_sequence", + "is_signed_integer_dtype", + "is_sparse", + "is_string_dtype", + "is_string_or_object_np_dtype", + "is_timedelta64_dtype", + "is_timedelta64_ns_dtype", + "is_unsigned_integer_dtype", + "needs_i8_conversion", + "pandas_dtype", + "TD64NS_DTYPE", + "validate_all_hashable", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/concat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/concat.py new file mode 100644 index 0000000000000000000000000000000000000000..9ec662a6cd3520aaa49fdc96142ad1b02bb518d8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/concat.py @@ -0,0 +1,348 @@ +""" +Utility functions related to concat. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + cast, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.astype import astype_array +from pandas.core.dtypes.cast import ( + common_dtype_categorical_compat, + find_common_type, + np_find_common_type, +) +from pandas.core.dtypes.dtypes import CategoricalDtype +from pandas.core.dtypes.generic import ( + ABCCategoricalIndex, + ABCSeries, +) + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeObj, + ) + + from pandas.core.arrays import ( + Categorical, + ExtensionArray, + ) + + +def _is_nonempty(x, axis) -> bool: + # filter empty arrays + # 1-d dtypes always are included here + if x.ndim <= axis: + return True + return x.shape[axis] > 0 + + +def concat_compat( + to_concat: Sequence[ArrayLike], axis: AxisInt = 0, ea_compat_axis: bool = False +) -> ArrayLike: + """ + provide concatenation of an array of arrays each of which is a single + 'normalized' dtypes (in that for example, if it's object, then it is a + non-datetimelike and provide a combined dtype for the resulting array that + preserves the overall dtype if possible) + + Parameters + ---------- + to_concat : sequence of arrays + axis : axis to provide concatenation + ea_compat_axis : bool, default False + For ExtensionArray compat, behave as if axis == 1 when determining + whether to drop empty arrays. + + Returns + ------- + a single array, preserving the combined dtypes + """ + if len(to_concat) and lib.dtypes_all_equal([obj.dtype for obj in to_concat]): + # fastpath! + obj = to_concat[0] + if isinstance(obj, np.ndarray): + to_concat_arrs = cast("Sequence[np.ndarray]", to_concat) + return np.concatenate(to_concat_arrs, axis=axis) + + to_concat_eas = cast("Sequence[ExtensionArray]", to_concat) + if ea_compat_axis: + # We have 1D objects, that don't support axis keyword + return obj._concat_same_type(to_concat_eas) + elif axis == 0: + return obj._concat_same_type(to_concat_eas) + else: + # e.g. DatetimeArray + # NB: We are assuming here that ensure_wrapped_if_arraylike has + # been called where relevant. + return obj._concat_same_type( + # error: Unexpected keyword argument "axis" for "_concat_same_type" + # of "ExtensionArray" + to_concat_eas, + axis=axis, # type: ignore[call-arg] + ) + + # If all arrays are empty, there's nothing to convert, just short-cut to + # the concatenation, #3121. + # + # Creating an empty array directly is tempting, but the winnings would be + # marginal given that it would still require shape & dtype calculation and + # np.concatenate which has them both implemented is compiled. + orig = to_concat + non_empties = [x for x in to_concat if _is_nonempty(x, axis)] + if non_empties and axis == 0 and not ea_compat_axis: + # ea_compat_axis see GH#39574 + to_concat = non_empties + + any_ea, kinds, target_dtype = _get_result_dtype(to_concat, non_empties) + + if len(to_concat) < len(orig): + _, _, alt_dtype = _get_result_dtype(orig, non_empties) + if alt_dtype != target_dtype: + # GH#39122 + warnings.warn( + "The behavior of array concatenation with empty entries is " + "deprecated. In a future version, this will no longer exclude " + "empty items when determining the result dtype. " + "To retain the old behavior, exclude the empty entries before " + "the concat operation.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if target_dtype is not None: + to_concat = [astype_array(arr, target_dtype, copy=False) for arr in to_concat] + + if not isinstance(to_concat[0], np.ndarray): + # i.e. isinstance(to_concat[0], ExtensionArray) + to_concat_eas = cast("Sequence[ExtensionArray]", to_concat) + cls = type(to_concat[0]) + # GH#53640: eg. for datetime array, axis=1 but 0 is default + # However, class method `_concat_same_type()` for some classes + # may not support the `axis` keyword + if ea_compat_axis or axis == 0: + return cls._concat_same_type(to_concat_eas) + else: + return cls._concat_same_type( + to_concat_eas, + axis=axis, # type: ignore[call-arg] + ) + else: + to_concat_arrs = cast("Sequence[np.ndarray]", to_concat) + result = np.concatenate(to_concat_arrs, axis=axis) + + if not any_ea and "b" in kinds and result.dtype.kind in "iuf": + # GH#39817 cast to object instead of casting bools to numeric + result = result.astype(object, copy=False) + return result + + +def _get_result_dtype( + to_concat: Sequence[ArrayLike], non_empties: Sequence[ArrayLike] +) -> tuple[bool, set[str], DtypeObj | None]: + target_dtype = None + + dtypes = {obj.dtype for obj in to_concat} + kinds = {obj.dtype.kind for obj in to_concat} + + any_ea = any(not isinstance(x, np.ndarray) for x in to_concat) + if any_ea: + # i.e. any ExtensionArrays + + # we ignore axis here, as internally concatting with EAs is always + # for axis=0 + if len(dtypes) != 1: + target_dtype = find_common_type([x.dtype for x in to_concat]) + target_dtype = common_dtype_categorical_compat(to_concat, target_dtype) + + elif not len(non_empties): + # we have all empties, but may need to coerce the result dtype to + # object if we have non-numeric type operands (numpy would otherwise + # cast this to float) + if len(kinds) != 1: + if not len(kinds - {"i", "u", "f"}) or not len(kinds - {"b", "i", "u"}): + # let numpy coerce + pass + else: + # coerce to object + target_dtype = np.dtype(object) + kinds = {"o"} + else: + # error: Argument 1 to "np_find_common_type" has incompatible type + # "*Set[Union[ExtensionDtype, Any]]"; expected "dtype[Any]" + target_dtype = np_find_common_type(*dtypes) # type: ignore[arg-type] + + return any_ea, kinds, target_dtype + + +def union_categoricals( + to_union, sort_categories: bool = False, ignore_order: bool = False +) -> Categorical: + """ + Combine list-like of Categorical-like, unioning categories. + + All categories must have the same dtype. + + Parameters + ---------- + to_union : list-like + Categorical, CategoricalIndex, or Series with dtype='category'. + sort_categories : bool, default False + If true, resulting categories will be lexsorted, otherwise + they will be ordered as they appear in the data. + ignore_order : bool, default False + If true, the ordered attribute of the Categoricals will be ignored. + Results in an unordered categorical. + + Returns + ------- + Categorical + + Raises + ------ + TypeError + - all inputs do not have the same dtype + - all inputs do not have the same ordered property + - all inputs are ordered and their categories are not identical + - sort_categories=True and Categoricals are ordered + ValueError + Empty list of categoricals passed + + Notes + ----- + To learn more about categories, see `link + `__ + + Examples + -------- + If you want to combine categoricals that do not necessarily have + the same categories, `union_categoricals` will combine a list-like + of categoricals. The new categories will be the union of the + categories being combined. + + >>> a = pd.Categorical(["b", "c"]) + >>> b = pd.Categorical(["a", "b"]) + >>> pd.api.types.union_categoricals([a, b]) + ['b', 'c', 'a', 'b'] + Categories (3, object): ['b', 'c', 'a'] + + By default, the resulting categories will be ordered as they appear + in the `categories` of the data. If you want the categories to be + lexsorted, use `sort_categories=True` argument. + + >>> pd.api.types.union_categoricals([a, b], sort_categories=True) + ['b', 'c', 'a', 'b'] + Categories (3, object): ['a', 'b', 'c'] + + `union_categoricals` also works with the case of combining two + categoricals of the same categories and order information (e.g. what + you could also `append` for). + + >>> a = pd.Categorical(["a", "b"], ordered=True) + >>> b = pd.Categorical(["a", "b", "a"], ordered=True) + >>> pd.api.types.union_categoricals([a, b]) + ['a', 'b', 'a', 'b', 'a'] + Categories (2, object): ['a' < 'b'] + + Raises `TypeError` because the categories are ordered and not identical. + + >>> a = pd.Categorical(["a", "b"], ordered=True) + >>> b = pd.Categorical(["a", "b", "c"], ordered=True) + >>> pd.api.types.union_categoricals([a, b]) + Traceback (most recent call last): + ... + TypeError: to union ordered Categoricals, all categories must be the same + + Ordered categoricals with different categories or orderings can be + combined by using the `ignore_ordered=True` argument. + + >>> a = pd.Categorical(["a", "b", "c"], ordered=True) + >>> b = pd.Categorical(["c", "b", "a"], ordered=True) + >>> pd.api.types.union_categoricals([a, b], ignore_order=True) + ['a', 'b', 'c', 'c', 'b', 'a'] + Categories (3, object): ['a', 'b', 'c'] + + `union_categoricals` also works with a `CategoricalIndex`, or `Series` + containing categorical data, but note that the resulting array will + always be a plain `Categorical` + + >>> a = pd.Series(["b", "c"], dtype='category') + >>> b = pd.Series(["a", "b"], dtype='category') + >>> pd.api.types.union_categoricals([a, b]) + ['b', 'c', 'a', 'b'] + Categories (3, object): ['b', 'c', 'a'] + """ + from pandas import Categorical + from pandas.core.arrays.categorical import recode_for_categories + + if len(to_union) == 0: + raise ValueError("No Categoricals to union") + + def _maybe_unwrap(x): + if isinstance(x, (ABCCategoricalIndex, ABCSeries)): + return x._values + elif isinstance(x, Categorical): + return x + else: + raise TypeError("all components to combine must be Categorical") + + to_union = [_maybe_unwrap(x) for x in to_union] + first = to_union[0] + + if not lib.dtypes_all_equal([obj.categories.dtype for obj in to_union]): + raise TypeError("dtype of categories must be the same") + + ordered = False + if all(first._categories_match_up_to_permutation(other) for other in to_union[1:]): + # identical categories - fastpath + categories = first.categories + ordered = first.ordered + + all_codes = [first._encode_with_my_categories(x)._codes for x in to_union] + new_codes = np.concatenate(all_codes) + + if sort_categories and not ignore_order and ordered: + raise TypeError("Cannot use sort_categories=True with ordered Categoricals") + + if sort_categories and not categories.is_monotonic_increasing: + categories = categories.sort_values() + indexer = categories.get_indexer(first.categories) + + from pandas.core.algorithms import take_nd + + new_codes = take_nd(indexer, new_codes, fill_value=-1) + elif ignore_order or all(not c.ordered for c in to_union): + # different categories - union and recode + cats = first.categories.append([c.categories for c in to_union[1:]]) + categories = cats.unique() + if sort_categories: + categories = categories.sort_values() + + new_codes = [ + recode_for_categories(c.codes, c.categories, categories) for c in to_union + ] + new_codes = np.concatenate(new_codes) + else: + # ordered - to show a proper error message + if all(c.ordered for c in to_union): + msg = "to union ordered Categoricals, all categories must be the same" + raise TypeError(msg) + raise TypeError("Categorical.ordered must be the same") + + if ignore_order: + ordered = False + + dtype = CategoricalDtype(categories=categories, ordered=ordered) + return Categorical._simple_new(new_codes, dtype=dtype) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/dtypes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/dtypes.py new file mode 100644 index 0000000000000000000000000000000000000000..542bc85110cadfc777f82a6859899c129ef1d47f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/dtypes.py @@ -0,0 +1,2348 @@ +""" +Define extension dtypes. +""" +from __future__ import annotations + +from datetime import ( + date, + datetime, + time, + timedelta, +) +from decimal import Decimal +import re +from typing import ( + TYPE_CHECKING, + Any, + cast, +) +import warnings + +import numpy as np +import pytz + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas._libs.interval import Interval +from pandas._libs.properties import cache_readonly +from pandas._libs.tslibs import ( + BaseOffset, + NaT, + NaTType, + Period, + Timedelta, + Timestamp, + timezones, + to_offset, + tz_compare, +) +from pandas._libs.tslibs.dtypes import ( + PeriodDtypeBase, + abbrev_to_npy_unit, +) +from pandas._libs.tslibs.offsets import BDay +from pandas.compat import pa_version_under10p1 +from pandas.errors import PerformanceWarning +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.base import ( + ExtensionDtype, + StorageExtensionDtype, + register_extension_dtype, +) +from pandas.core.dtypes.generic import ( + ABCCategoricalIndex, + ABCIndex, + ABCRangeIndex, +) +from pandas.core.dtypes.inference import ( + is_bool, + is_list_like, +) + +from pandas.util import capitalize_first_letter + +if not pa_version_under10p1: + import pyarrow as pa + +if TYPE_CHECKING: + from collections.abc import MutableMapping + from datetime import tzinfo + + import pyarrow as pa # noqa: TCH004 + + from pandas._typing import ( + Dtype, + DtypeObj, + IntervalClosedType, + Ordered, + Self, + npt, + type_t, + ) + + from pandas import ( + Categorical, + CategoricalIndex, + DatetimeIndex, + Index, + IntervalIndex, + PeriodIndex, + ) + from pandas.core.arrays import ( + BaseMaskedArray, + DatetimeArray, + IntervalArray, + NumpyExtensionArray, + PeriodArray, + SparseArray, + ) + from pandas.core.arrays.arrow import ArrowExtensionArray + +str_type = str + + +class PandasExtensionDtype(ExtensionDtype): + """ + A np.dtype duck-typed class, suitable for holding a custom dtype. + + THIS IS NOT A REAL NUMPY DTYPE + """ + + type: Any + kind: Any + # The Any type annotations above are here only because mypy seems to have a + # problem dealing with multiple inheritance from PandasExtensionDtype + # and ExtensionDtype's @properties in the subclasses below. The kind and + # type variables in those subclasses are explicitly typed below. + subdtype = None + str: str_type + num = 100 + shape: tuple[int, ...] = () + itemsize = 8 + base: DtypeObj | None = None + isbuiltin = 0 + isnative = 0 + _cache_dtypes: dict[str_type, PandasExtensionDtype] = {} + + def __repr__(self) -> str_type: + """ + Return a string representation for a particular object. + """ + return str(self) + + def __hash__(self) -> int: + raise NotImplementedError("sub-classes should implement an __hash__ method") + + def __getstate__(self) -> dict[str_type, Any]: + # pickle support; we don't want to pickle the cache + return {k: getattr(self, k, None) for k in self._metadata} + + @classmethod + def reset_cache(cls) -> None: + """clear the cache""" + cls._cache_dtypes = {} + + +class CategoricalDtypeType(type): + """ + the type of CategoricalDtype, this metaclass determines subclass ability + """ + + +@register_extension_dtype +class CategoricalDtype(PandasExtensionDtype, ExtensionDtype): + """ + Type for categorical data with the categories and orderedness. + + Parameters + ---------- + categories : sequence, optional + Must be unique, and must not contain any nulls. + The categories are stored in an Index, + and if an index is provided the dtype of that index will be used. + ordered : bool or None, default False + Whether or not this categorical is treated as a ordered categorical. + None can be used to maintain the ordered value of existing categoricals when + used in operations that combine categoricals, e.g. astype, and will resolve to + False if there is no existing ordered to maintain. + + Attributes + ---------- + categories + ordered + + Methods + ------- + None + + See Also + -------- + Categorical : Represent a categorical variable in classic R / S-plus fashion. + + Notes + ----- + This class is useful for specifying the type of a ``Categorical`` + independent of the values. See :ref:`categorical.categoricaldtype` + for more. + + Examples + -------- + >>> t = pd.CategoricalDtype(categories=['b', 'a'], ordered=True) + >>> pd.Series(['a', 'b', 'a', 'c'], dtype=t) + 0 a + 1 b + 2 a + 3 NaN + dtype: category + Categories (2, object): ['b' < 'a'] + + An empty CategoricalDtype with a specific dtype can be created + by providing an empty index. As follows, + + >>> pd.CategoricalDtype(pd.DatetimeIndex([])).categories.dtype + dtype(' None: + self._finalize(categories, ordered, fastpath=False) + + @classmethod + def _from_fastpath( + cls, categories=None, ordered: bool | None = None + ) -> CategoricalDtype: + self = cls.__new__(cls) + self._finalize(categories, ordered, fastpath=True) + return self + + @classmethod + def _from_categorical_dtype( + cls, dtype: CategoricalDtype, categories=None, ordered: Ordered | None = None + ) -> CategoricalDtype: + if categories is ordered is None: + return dtype + if categories is None: + categories = dtype.categories + if ordered is None: + ordered = dtype.ordered + return cls(categories, ordered) + + @classmethod + def _from_values_or_dtype( + cls, + values=None, + categories=None, + ordered: bool | None = None, + dtype: Dtype | None = None, + ) -> CategoricalDtype: + """ + Construct dtype from the input parameters used in :class:`Categorical`. + + This constructor method specifically does not do the factorization + step, if that is needed to find the categories. This constructor may + therefore return ``CategoricalDtype(categories=None, ordered=None)``, + which may not be useful. Additional steps may therefore have to be + taken to create the final dtype. + + The return dtype is specified from the inputs in this prioritized + order: + 1. if dtype is a CategoricalDtype, return dtype + 2. if dtype is the string 'category', create a CategoricalDtype from + the supplied categories and ordered parameters, and return that. + 3. if values is a categorical, use value.dtype, but override it with + categories and ordered if either/both of those are not None. + 4. if dtype is None and values is not a categorical, construct the + dtype from categories and ordered, even if either of those is None. + + Parameters + ---------- + values : list-like, optional + The list-like must be 1-dimensional. + categories : list-like, optional + Categories for the CategoricalDtype. + ordered : bool, optional + Designating if the categories are ordered. + dtype : CategoricalDtype or the string "category", optional + If ``CategoricalDtype``, cannot be used together with + `categories` or `ordered`. + + Returns + ------- + CategoricalDtype + + Examples + -------- + >>> pd.CategoricalDtype._from_values_or_dtype() + CategoricalDtype(categories=None, ordered=None, categories_dtype=None) + >>> pd.CategoricalDtype._from_values_or_dtype( + ... categories=['a', 'b'], ordered=True + ... ) + CategoricalDtype(categories=['a', 'b'], ordered=True, categories_dtype=object) + >>> dtype1 = pd.CategoricalDtype(['a', 'b'], ordered=True) + >>> dtype2 = pd.CategoricalDtype(['x', 'y'], ordered=False) + >>> c = pd.Categorical([0, 1], dtype=dtype1) + >>> pd.CategoricalDtype._from_values_or_dtype( + ... c, ['x', 'y'], ordered=True, dtype=dtype2 + ... ) + Traceback (most recent call last): + ... + ValueError: Cannot specify `categories` or `ordered` together with + `dtype`. + + The supplied dtype takes precedence over values' dtype: + + >>> pd.CategoricalDtype._from_values_or_dtype(c, dtype=dtype2) + CategoricalDtype(categories=['x', 'y'], ordered=False, categories_dtype=object) + """ + + if dtype is not None: + # The dtype argument takes precedence over values.dtype (if any) + if isinstance(dtype, str): + if dtype == "category": + if ordered is None and cls.is_dtype(values): + # GH#49309 preserve orderedness + ordered = values.dtype.ordered + + dtype = CategoricalDtype(categories, ordered) + else: + raise ValueError(f"Unknown dtype {repr(dtype)}") + elif categories is not None or ordered is not None: + raise ValueError( + "Cannot specify `categories` or `ordered` together with `dtype`." + ) + elif not isinstance(dtype, CategoricalDtype): + raise ValueError(f"Cannot not construct CategoricalDtype from {dtype}") + elif cls.is_dtype(values): + # If no "dtype" was passed, use the one from "values", but honor + # the "ordered" and "categories" arguments + dtype = values.dtype._from_categorical_dtype( + values.dtype, categories, ordered + ) + else: + # If dtype=None and values is not categorical, create a new dtype. + # Note: This could potentially have categories=None and + # ordered=None. + dtype = CategoricalDtype(categories, ordered) + + return cast(CategoricalDtype, dtype) + + @classmethod + def construct_from_string(cls, string: str_type) -> CategoricalDtype: + """ + Construct a CategoricalDtype from a string. + + Parameters + ---------- + string : str + Must be the string "category" in order to be successfully constructed. + + Returns + ------- + CategoricalDtype + Instance of the dtype. + + Raises + ------ + TypeError + If a CategoricalDtype cannot be constructed from the input. + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + if string != cls.name: + raise TypeError(f"Cannot construct a 'CategoricalDtype' from '{string}'") + + # need ordered=None to ensure that operations specifying dtype="category" don't + # override the ordered value for existing categoricals + return cls(ordered=None) + + def _finalize(self, categories, ordered: Ordered, fastpath: bool = False) -> None: + if ordered is not None: + self.validate_ordered(ordered) + + if categories is not None: + categories = self.validate_categories(categories, fastpath=fastpath) + + self._categories = categories + self._ordered = ordered + + def __setstate__(self, state: MutableMapping[str_type, Any]) -> None: + # for pickle compat. __get_state__ is defined in the + # PandasExtensionDtype superclass and uses the public properties to + # pickle -> need to set the settable private ones here (see GH26067) + self._categories = state.pop("categories", None) + self._ordered = state.pop("ordered", False) + + def __hash__(self) -> int: + # _hash_categories returns a uint64, so use the negative + # space for when we have unknown categories to avoid a conflict + if self.categories is None: + if self.ordered: + return -1 + else: + return -2 + # We *do* want to include the real self.ordered here + return int(self._hash_categories) + + def __eq__(self, other: object) -> bool: + """ + Rules for CDT equality: + 1) Any CDT is equal to the string 'category' + 2) Any CDT is equal to itself + 3) Any CDT is equal to a CDT with categories=None regardless of ordered + 4) A CDT with ordered=True is only equal to another CDT with + ordered=True and identical categories in the same order + 5) A CDT with ordered={False, None} is only equal to another CDT with + ordered={False, None} and identical categories, but same order is + not required. There is no distinction between False/None. + 6) Any other comparison returns False + """ + if isinstance(other, str): + return other == self.name + elif other is self: + return True + elif not (hasattr(other, "ordered") and hasattr(other, "categories")): + return False + elif self.categories is None or other.categories is None: + # For non-fully-initialized dtypes, these are only equal to + # - the string "category" (handled above) + # - other CategoricalDtype with categories=None + return self.categories is other.categories + elif self.ordered or other.ordered: + # At least one has ordered=True; equal if both have ordered=True + # and the same values for categories in the same order. + return (self.ordered == other.ordered) and self.categories.equals( + other.categories + ) + else: + # Neither has ordered=True; equal if both have the same categories, + # but same order is not necessary. There is no distinction between + # ordered=False and ordered=None: CDT(., False) and CDT(., None) + # will be equal if they have the same categories. + left = self.categories + right = other.categories + + # GH#36280 the ordering of checks here is for performance + if not left.dtype == right.dtype: + return False + + if len(left) != len(right): + return False + + if self.categories.equals(other.categories): + # Check and see if they happen to be identical categories + return True + + if left.dtype != object: + # Faster than calculating hash + indexer = left.get_indexer(right) + # Because left and right have the same length and are unique, + # `indexer` not having any -1s implies that there is a + # bijection between `left` and `right`. + return bool((indexer != -1).all()) + + # With object-dtype we need a comparison that identifies + # e.g. int(2) as distinct from float(2) + return set(left) == set(right) + + def __repr__(self) -> str_type: + if self.categories is None: + data = "None" + dtype = "None" + else: + data = self.categories._format_data(name=type(self).__name__) + if isinstance(self.categories, ABCRangeIndex): + data = str(self.categories._range) + data = data.rstrip(", ") + dtype = self.categories.dtype + + return ( + f"CategoricalDtype(categories={data}, ordered={self.ordered}, " + f"categories_dtype={dtype})" + ) + + @cache_readonly + def _hash_categories(self) -> int: + from pandas.core.util.hashing import ( + combine_hash_arrays, + hash_array, + hash_tuples, + ) + + categories = self.categories + ordered = self.ordered + + if len(categories) and isinstance(categories[0], tuple): + # assumes if any individual category is a tuple, then all our. ATM + # I don't really want to support just some of the categories being + # tuples. + cat_list = list(categories) # breaks if a np.array of categories + cat_array = hash_tuples(cat_list) + else: + if categories.dtype == "O" and len({type(x) for x in categories}) != 1: + # TODO: hash_array doesn't handle mixed types. It casts + # everything to a str first, which means we treat + # {'1', '2'} the same as {'1', 2} + # find a better solution + hashed = hash((tuple(categories), ordered)) + return hashed + + if DatetimeTZDtype.is_dtype(categories.dtype): + # Avoid future warning. + categories = categories.view("datetime64[ns]") + + cat_array = hash_array(np.asarray(categories), categorize=False) + if ordered: + cat_array = np.vstack( + [cat_array, np.arange(len(cat_array), dtype=cat_array.dtype)] + ) + else: + cat_array = np.array([cat_array]) + combined_hashed = combine_hash_arrays(iter(cat_array), num_items=len(cat_array)) + return np.bitwise_xor.reduce(combined_hashed) + + @classmethod + def construct_array_type(cls) -> type_t[Categorical]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas import Categorical + + return Categorical + + @staticmethod + def validate_ordered(ordered: Ordered) -> None: + """ + Validates that we have a valid ordered parameter. If + it is not a boolean, a TypeError will be raised. + + Parameters + ---------- + ordered : object + The parameter to be verified. + + Raises + ------ + TypeError + If 'ordered' is not a boolean. + """ + if not is_bool(ordered): + raise TypeError("'ordered' must either be 'True' or 'False'") + + @staticmethod + def validate_categories(categories, fastpath: bool = False) -> Index: + """ + Validates that we have good categories + + Parameters + ---------- + categories : array-like + fastpath : bool + Whether to skip nan and uniqueness checks + + Returns + ------- + categories : Index + """ + from pandas.core.indexes.base import Index + + if not fastpath and not is_list_like(categories): + raise TypeError( + f"Parameter 'categories' must be list-like, was {repr(categories)}" + ) + if not isinstance(categories, ABCIndex): + categories = Index._with_infer(categories, tupleize_cols=False) + + if not fastpath: + if categories.hasnans: + raise ValueError("Categorical categories cannot be null") + + if not categories.is_unique: + raise ValueError("Categorical categories must be unique") + + if isinstance(categories, ABCCategoricalIndex): + categories = categories.categories + + return categories + + def update_dtype(self, dtype: str_type | CategoricalDtype) -> CategoricalDtype: + """ + Returns a CategoricalDtype with categories and ordered taken from dtype + if specified, otherwise falling back to self if unspecified + + Parameters + ---------- + dtype : CategoricalDtype + + Returns + ------- + new_dtype : CategoricalDtype + """ + if isinstance(dtype, str) and dtype == "category": + # dtype='category' should not change anything + return self + elif not self.is_dtype(dtype): + raise ValueError( + f"a CategoricalDtype must be passed to perform an update, " + f"got {repr(dtype)}" + ) + else: + # from here on, dtype is a CategoricalDtype + dtype = cast(CategoricalDtype, dtype) + + # update categories/ordered unless they've been explicitly passed as None + new_categories = ( + dtype.categories if dtype.categories is not None else self.categories + ) + new_ordered = dtype.ordered if dtype.ordered is not None else self.ordered + + return CategoricalDtype(new_categories, new_ordered) + + @property + def categories(self) -> Index: + """ + An ``Index`` containing the unique categories allowed. + + Examples + -------- + >>> cat_type = pd.CategoricalDtype(categories=['a', 'b'], ordered=True) + >>> cat_type.categories + Index(['a', 'b'], dtype='object') + """ + return self._categories + + @property + def ordered(self) -> Ordered: + """ + Whether the categories have an ordered relationship. + + Examples + -------- + >>> cat_type = pd.CategoricalDtype(categories=['a', 'b'], ordered=True) + >>> cat_type.ordered + True + + >>> cat_type = pd.CategoricalDtype(categories=['a', 'b'], ordered=False) + >>> cat_type.ordered + False + """ + return self._ordered + + @property + def _is_boolean(self) -> bool: + from pandas.core.dtypes.common import is_bool_dtype + + return is_bool_dtype(self.categories) + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + # check if we have all categorical dtype with identical categories + if all(isinstance(x, CategoricalDtype) for x in dtypes): + first = dtypes[0] + if all(first == other for other in dtypes[1:]): + return first + + # special case non-initialized categorical + # TODO we should figure out the expected return value in general + non_init_cats = [ + isinstance(x, CategoricalDtype) and x.categories is None for x in dtypes + ] + if all(non_init_cats): + return self + elif any(non_init_cats): + return None + + # categorical is aware of Sparse -> extract sparse subdtypes + dtypes = [x.subtype if isinstance(x, SparseDtype) else x for x in dtypes] + # extract the categories' dtype + non_cat_dtypes = [ + x.categories.dtype if isinstance(x, CategoricalDtype) else x for x in dtypes + ] + # TODO should categorical always give an answer? + from pandas.core.dtypes.cast import find_common_type + + return find_common_type(non_cat_dtypes) + + @cache_readonly + def index_class(self) -> type_t[CategoricalIndex]: + from pandas import CategoricalIndex + + return CategoricalIndex + + +@register_extension_dtype +class DatetimeTZDtype(PandasExtensionDtype): + """ + An ExtensionDtype for timezone-aware datetime data. + + **This is not an actual numpy dtype**, but a duck type. + + Parameters + ---------- + unit : str, default "ns" + The precision of the datetime data. Currently limited + to ``"ns"``. + tz : str, int, or datetime.tzinfo + The timezone. + + Attributes + ---------- + unit + tz + + Methods + ------- + None + + Raises + ------ + ZoneInfoNotFoundError + When the requested timezone cannot be found. + + Examples + -------- + >>> from zoneinfo import ZoneInfo + >>> pd.DatetimeTZDtype(tz=ZoneInfo('UTC')) + datetime64[ns, UTC] + + >>> pd.DatetimeTZDtype(tz=ZoneInfo('Europe/Paris')) + datetime64[ns, Europe/Paris] + """ + + type: type[Timestamp] = Timestamp + kind: str_type = "M" + num = 101 + _metadata = ("unit", "tz") + _match = re.compile(r"(datetime64|M8)\[(?P.+), (?P.+)\]") + _cache_dtypes: dict[str_type, PandasExtensionDtype] = {} + _supports_2d = True + _can_fast_transpose = True + + @property + def na_value(self) -> NaTType: + return NaT + + @cache_readonly + def base(self) -> DtypeObj: # type: ignore[override] + return np.dtype(f"M8[{self.unit}]") + + # error: Signature of "str" incompatible with supertype "PandasExtensionDtype" + @cache_readonly + def str(self) -> str: # type: ignore[override] + return f"|M8[{self.unit}]" + + def __init__(self, unit: str_type | DatetimeTZDtype = "ns", tz=None) -> None: + if isinstance(unit, DatetimeTZDtype): + # error: "str" has no attribute "tz" + unit, tz = unit.unit, unit.tz # type: ignore[attr-defined] + + if unit != "ns": + if isinstance(unit, str) and tz is None: + # maybe a string like datetime64[ns, tz], which we support for + # now. + result = type(self).construct_from_string(unit) + unit = result.unit + tz = result.tz + msg = ( + f"Passing a dtype alias like 'datetime64[ns, {tz}]' " + "to DatetimeTZDtype is no longer supported. Use " + "'DatetimeTZDtype.construct_from_string()' instead." + ) + raise ValueError(msg) + if unit not in ["s", "ms", "us", "ns"]: + raise ValueError("DatetimeTZDtype only supports s, ms, us, ns units") + + if tz: + tz = timezones.maybe_get_tz(tz) + tz = timezones.tz_standardize(tz) + elif tz is not None: + raise pytz.UnknownTimeZoneError(tz) + if tz is None: + raise TypeError("A 'tz' is required.") + + self._unit = unit + self._tz = tz + + @cache_readonly + def _creso(self) -> int: + """ + The NPY_DATETIMEUNIT corresponding to this dtype's resolution. + """ + return abbrev_to_npy_unit(self.unit) + + @property + def unit(self) -> str_type: + """ + The precision of the datetime data. + + Examples + -------- + >>> from zoneinfo import ZoneInfo + >>> dtype = pd.DatetimeTZDtype(tz=ZoneInfo('America/Los_Angeles')) + >>> dtype.unit + 'ns' + """ + return self._unit + + @property + def tz(self) -> tzinfo: + """ + The timezone. + + Examples + -------- + >>> from zoneinfo import ZoneInfo + >>> dtype = pd.DatetimeTZDtype(tz=ZoneInfo('America/Los_Angeles')) + >>> dtype.tz + zoneinfo.ZoneInfo(key='America/Los_Angeles') + """ + return self._tz + + @classmethod + def construct_array_type(cls) -> type_t[DatetimeArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays import DatetimeArray + + return DatetimeArray + + @classmethod + def construct_from_string(cls, string: str_type) -> DatetimeTZDtype: + """ + Construct a DatetimeTZDtype from a string. + + Parameters + ---------- + string : str + The string alias for this DatetimeTZDtype. + Should be formatted like ``datetime64[ns, ]``, + where ```` is the timezone name. + + Examples + -------- + >>> DatetimeTZDtype.construct_from_string('datetime64[ns, UTC]') + datetime64[ns, UTC] + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + + msg = f"Cannot construct a 'DatetimeTZDtype' from '{string}'" + match = cls._match.match(string) + if match: + d = match.groupdict() + try: + return cls(unit=d["unit"], tz=d["tz"]) + except (KeyError, TypeError, ValueError) as err: + # KeyError if maybe_get_tz tries and fails to get a + # pytz timezone (actually pytz.UnknownTimeZoneError). + # TypeError if we pass a nonsense tz; + # ValueError if we pass a unit other than "ns" + raise TypeError(msg) from err + raise TypeError(msg) + + def __str__(self) -> str_type: + return f"datetime64[{self.unit}, {self.tz}]" + + @property + def name(self) -> str_type: + """A string representation of the dtype.""" + return str(self) + + def __hash__(self) -> int: + # make myself hashable + # TODO: update this. + return hash(str(self)) + + def __eq__(self, other: object) -> bool: + if isinstance(other, str): + if other.startswith("M8["): + other = f"datetime64[{other[3:]}" + return other == self.name + + return ( + isinstance(other, DatetimeTZDtype) + and self.unit == other.unit + and tz_compare(self.tz, other.tz) + ) + + def __from_arrow__(self, array: pa.Array | pa.ChunkedArray) -> DatetimeArray: + """ + Construct DatetimeArray from pyarrow Array/ChunkedArray. + + Note: If the units in the pyarrow Array are the same as this + DatetimeDtype, then values corresponding to the integer representation + of ``NaT`` (e.g. one nanosecond before :attr:`pandas.Timestamp.min`) + are converted to ``NaT``, regardless of the null indicator in the + pyarrow array. + + Parameters + ---------- + array : pyarrow.Array or pyarrow.ChunkedArray + The Arrow array to convert to DatetimeArray. + + Returns + ------- + extension array : DatetimeArray + """ + import pyarrow + + from pandas.core.arrays import DatetimeArray + + array = array.cast(pyarrow.timestamp(unit=self._unit), safe=True) + + if isinstance(array, pyarrow.Array): + np_arr = array.to_numpy(zero_copy_only=False) + else: + np_arr = array.to_numpy() + + return DatetimeArray._simple_new(np_arr, dtype=self) + + def __setstate__(self, state) -> None: + # for pickle compat. __get_state__ is defined in the + # PandasExtensionDtype superclass and uses the public properties to + # pickle -> need to set the settable private ones here (see GH26067) + self._tz = state["tz"] + self._unit = state["unit"] + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + if all(isinstance(t, DatetimeTZDtype) and t.tz == self.tz for t in dtypes): + np_dtype = np.max([cast(DatetimeTZDtype, t).base for t in [self, *dtypes]]) + unit = np.datetime_data(np_dtype)[0] + return type(self)(unit=unit, tz=self.tz) + return super()._get_common_dtype(dtypes) + + @cache_readonly + def index_class(self) -> type_t[DatetimeIndex]: + from pandas import DatetimeIndex + + return DatetimeIndex + + +@register_extension_dtype +class PeriodDtype(PeriodDtypeBase, PandasExtensionDtype): + """ + An ExtensionDtype for Period data. + + **This is not an actual numpy dtype**, but a duck type. + + Parameters + ---------- + freq : str or DateOffset + The frequency of this PeriodDtype. + + Attributes + ---------- + freq + + Methods + ------- + None + + Examples + -------- + >>> pd.PeriodDtype(freq='D') + period[D] + + >>> pd.PeriodDtype(freq=pd.offsets.MonthEnd()) + period[M] + """ + + type: type[Period] = Period + kind: str_type = "O" + str = "|O08" + base = np.dtype("O") + num = 102 + _metadata = ("freq",) + _match = re.compile(r"(P|p)eriod\[(?P.+)\]") + # error: Incompatible types in assignment (expression has type + # "Dict[int, PandasExtensionDtype]", base class "PandasExtensionDtype" + # defined the type as "Dict[str, PandasExtensionDtype]") [assignment] + _cache_dtypes: dict[BaseOffset, int] = {} # type: ignore[assignment] + __hash__ = PeriodDtypeBase.__hash__ + _freq: BaseOffset + _supports_2d = True + _can_fast_transpose = True + + def __new__(cls, freq) -> PeriodDtype: # noqa: PYI034 + """ + Parameters + ---------- + freq : PeriodDtype, BaseOffset, or string + """ + if isinstance(freq, PeriodDtype): + return freq + + if not isinstance(freq, BaseOffset): + freq = cls._parse_dtype_strict(freq) + + if isinstance(freq, BDay): + # GH#53446 + # TODO(3.0): enforcing this will close GH#10575 + warnings.warn( + "PeriodDtype[B] is deprecated and will be removed in a future " + "version. Use a DatetimeIndex with freq='B' instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + try: + dtype_code = cls._cache_dtypes[freq] + except KeyError: + dtype_code = freq._period_dtype_code + cls._cache_dtypes[freq] = dtype_code + u = PeriodDtypeBase.__new__(cls, dtype_code, freq.n) + u._freq = freq + return u + + def __reduce__(self) -> tuple[type_t[Self], tuple[str_type]]: + return type(self), (self.name,) + + @property + def freq(self) -> BaseOffset: + """ + The frequency object of this PeriodDtype. + + Examples + -------- + >>> dtype = pd.PeriodDtype(freq='D') + >>> dtype.freq + + """ + return self._freq + + @classmethod + def _parse_dtype_strict(cls, freq: str_type) -> BaseOffset: + if isinstance(freq, str): # note: freq is already of type str! + if freq.startswith(("Period[", "period[")): + m = cls._match.search(freq) + if m is not None: + freq = m.group("freq") + + freq_offset = to_offset(freq, is_period=True) + if freq_offset is not None: + return freq_offset + + raise TypeError( + "PeriodDtype argument should be string or BaseOffset, " + f"got {type(freq).__name__}" + ) + + @classmethod + def construct_from_string(cls, string: str_type) -> PeriodDtype: + """ + Strict construction from a string, raise a TypeError if not + possible + """ + if ( + isinstance(string, str) + and (string.startswith(("period[", "Period["))) + or isinstance(string, BaseOffset) + ): + # do not parse string like U as period[U] + # avoid tuple to be regarded as freq + try: + return cls(freq=string) + except ValueError: + pass + if isinstance(string, str): + msg = f"Cannot construct a 'PeriodDtype' from '{string}'" + else: + msg = f"'construct_from_string' expects a string, got {type(string)}" + raise TypeError(msg) + + def __str__(self) -> str_type: + return self.name + + @property + def name(self) -> str_type: + return f"period[{self._freqstr}]" + + @property + def na_value(self) -> NaTType: + return NaT + + def __eq__(self, other: object) -> bool: + if isinstance(other, str): + return other in [self.name, capitalize_first_letter(self.name)] + + return super().__eq__(other) + + def __ne__(self, other: object) -> bool: + return not self.__eq__(other) + + @classmethod + def is_dtype(cls, dtype: object) -> bool: + """ + Return a boolean if we if the passed type is an actual dtype that we + can match (via string or type) + """ + if isinstance(dtype, str): + # PeriodDtype can be instantiated from freq string like "U", + # but doesn't regard freq str like "U" as dtype. + if dtype.startswith(("period[", "Period[")): + try: + return cls._parse_dtype_strict(dtype) is not None + except ValueError: + return False + else: + return False + return super().is_dtype(dtype) + + @classmethod + def construct_array_type(cls) -> type_t[PeriodArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays import PeriodArray + + return PeriodArray + + def __from_arrow__(self, array: pa.Array | pa.ChunkedArray) -> PeriodArray: + """ + Construct PeriodArray from pyarrow Array/ChunkedArray. + """ + import pyarrow + + from pandas.core.arrays import PeriodArray + from pandas.core.arrays.arrow._arrow_utils import ( + pyarrow_array_to_numpy_and_mask, + ) + + if isinstance(array, pyarrow.Array): + chunks = [array] + else: + chunks = array.chunks + + results = [] + for arr in chunks: + data, mask = pyarrow_array_to_numpy_and_mask(arr, dtype=np.dtype(np.int64)) + parr = PeriodArray(data.copy(), dtype=self, copy=False) + # error: Invalid index type "ndarray[Any, dtype[bool_]]" for "PeriodArray"; + # expected type "Union[int, Sequence[int], Sequence[bool], slice]" + parr[~mask] = NaT # type: ignore[index] + results.append(parr) + + if not results: + return PeriodArray(np.array([], dtype="int64"), dtype=self, copy=False) + return PeriodArray._concat_same_type(results) + + @cache_readonly + def index_class(self) -> type_t[PeriodIndex]: + from pandas import PeriodIndex + + return PeriodIndex + + +@register_extension_dtype +class IntervalDtype(PandasExtensionDtype): + """ + An ExtensionDtype for Interval data. + + **This is not an actual numpy dtype**, but a duck type. + + Parameters + ---------- + subtype : str, np.dtype + The dtype of the Interval bounds. + + Attributes + ---------- + subtype + + Methods + ------- + None + + Examples + -------- + >>> pd.IntervalDtype(subtype='int64', closed='both') + interval[int64, both] + """ + + name = "interval" + kind: str_type = "O" + str = "|O08" + base = np.dtype("O") + num = 103 + _metadata = ( + "subtype", + "closed", + ) + + _match = re.compile( + r"(I|i)nterval\[(?P[^,]+(\[.+\])?)" + r"(, (?P(right|left|both|neither)))?\]" + ) + + _cache_dtypes: dict[str_type, PandasExtensionDtype] = {} + _subtype: None | np.dtype + _closed: IntervalClosedType | None + + def __init__(self, subtype=None, closed: IntervalClosedType | None = None) -> None: + from pandas.core.dtypes.common import ( + is_string_dtype, + pandas_dtype, + ) + + if closed is not None and closed not in {"right", "left", "both", "neither"}: + raise ValueError("closed must be one of 'right', 'left', 'both', 'neither'") + + if isinstance(subtype, IntervalDtype): + if closed is not None and closed != subtype.closed: + raise ValueError( + "dtype.closed and 'closed' do not match. " + "Try IntervalDtype(dtype.subtype, closed) instead." + ) + self._subtype = subtype._subtype + self._closed = subtype._closed + elif subtype is None: + # we are called as an empty constructor + # generally for pickle compat + self._subtype = None + self._closed = closed + elif isinstance(subtype, str) and subtype.lower() == "interval": + self._subtype = None + self._closed = closed + else: + if isinstance(subtype, str): + m = IntervalDtype._match.search(subtype) + if m is not None: + gd = m.groupdict() + subtype = gd["subtype"] + if gd.get("closed", None) is not None: + if closed is not None: + if closed != gd["closed"]: + raise ValueError( + "'closed' keyword does not match value " + "specified in dtype string" + ) + closed = gd["closed"] # type: ignore[assignment] + + try: + subtype = pandas_dtype(subtype) + except TypeError as err: + raise TypeError("could not construct IntervalDtype") from err + if CategoricalDtype.is_dtype(subtype) or is_string_dtype(subtype): + # GH 19016 + msg = ( + "category, object, and string subtypes are not supported " + "for IntervalDtype" + ) + raise TypeError(msg) + self._subtype = subtype + self._closed = closed + + @cache_readonly + def _can_hold_na(self) -> bool: + subtype = self._subtype + if subtype is None: + # partially-initialized + raise NotImplementedError( + "_can_hold_na is not defined for partially-initialized IntervalDtype" + ) + if subtype.kind in "iu": + return False + return True + + @property + def closed(self) -> IntervalClosedType: + return self._closed # type: ignore[return-value] + + @property + def subtype(self): + """ + The dtype of the Interval bounds. + + Examples + -------- + >>> dtype = pd.IntervalDtype(subtype='int64', closed='both') + >>> dtype.subtype + dtype('int64') + """ + return self._subtype + + @classmethod + def construct_array_type(cls) -> type[IntervalArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays import IntervalArray + + return IntervalArray + + @classmethod + def construct_from_string(cls, string: str_type) -> IntervalDtype: + """ + attempt to construct this type from a string, raise a TypeError + if its not possible + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + + if string.lower() == "interval" or cls._match.search(string) is not None: + return cls(string) + + msg = ( + f"Cannot construct a 'IntervalDtype' from '{string}'.\n\n" + "Incorrectly formatted string passed to constructor. " + "Valid formats include Interval or Interval[dtype] " + "where dtype is numeric, datetime, or timedelta" + ) + raise TypeError(msg) + + @property + def type(self) -> type[Interval]: + return Interval + + def __str__(self) -> str_type: + if self.subtype is None: + return "interval" + if self.closed is None: + # Only partially initialized GH#38394 + return f"interval[{self.subtype}]" + return f"interval[{self.subtype}, {self.closed}]" + + def __hash__(self) -> int: + # make myself hashable + return hash(str(self)) + + def __eq__(self, other: object) -> bool: + if isinstance(other, str): + return other.lower() in (self.name.lower(), str(self).lower()) + elif not isinstance(other, IntervalDtype): + return False + elif self.subtype is None or other.subtype is None: + # None should match any subtype + return True + elif self.closed != other.closed: + return False + else: + return self.subtype == other.subtype + + def __setstate__(self, state) -> None: + # for pickle compat. __get_state__ is defined in the + # PandasExtensionDtype superclass and uses the public properties to + # pickle -> need to set the settable private ones here (see GH26067) + self._subtype = state["subtype"] + + # backward-compat older pickles won't have "closed" key + self._closed = state.pop("closed", None) + + @classmethod + def is_dtype(cls, dtype: object) -> bool: + """ + Return a boolean if we if the passed type is an actual dtype that we + can match (via string or type) + """ + if isinstance(dtype, str): + if dtype.lower().startswith("interval"): + try: + return cls.construct_from_string(dtype) is not None + except (ValueError, TypeError): + return False + else: + return False + return super().is_dtype(dtype) + + def __from_arrow__(self, array: pa.Array | pa.ChunkedArray) -> IntervalArray: + """ + Construct IntervalArray from pyarrow Array/ChunkedArray. + """ + import pyarrow + + from pandas.core.arrays import IntervalArray + + if isinstance(array, pyarrow.Array): + chunks = [array] + else: + chunks = array.chunks + + results = [] + for arr in chunks: + if isinstance(arr, pyarrow.ExtensionArray): + arr = arr.storage + left = np.asarray(arr.field("left"), dtype=self.subtype) + right = np.asarray(arr.field("right"), dtype=self.subtype) + iarr = IntervalArray.from_arrays(left, right, closed=self.closed) + results.append(iarr) + + if not results: + return IntervalArray.from_arrays( + np.array([], dtype=self.subtype), + np.array([], dtype=self.subtype), + closed=self.closed, + ) + return IntervalArray._concat_same_type(results) + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + if not all(isinstance(x, IntervalDtype) for x in dtypes): + return None + + closed = cast("IntervalDtype", dtypes[0]).closed + if not all(cast("IntervalDtype", x).closed == closed for x in dtypes): + return np.dtype(object) + + from pandas.core.dtypes.cast import find_common_type + + common = find_common_type([cast("IntervalDtype", x).subtype for x in dtypes]) + if common == object: + return np.dtype(object) + return IntervalDtype(common, closed=closed) + + @cache_readonly + def index_class(self) -> type_t[IntervalIndex]: + from pandas import IntervalIndex + + return IntervalIndex + + +class NumpyEADtype(ExtensionDtype): + """ + A Pandas ExtensionDtype for NumPy dtypes. + + This is mostly for internal compatibility, and is not especially + useful on its own. + + Parameters + ---------- + dtype : object + Object to be converted to a NumPy data type object. + + See Also + -------- + numpy.dtype + """ + + _metadata = ("_dtype",) + _supports_2d = False + _can_fast_transpose = False + + def __init__(self, dtype: npt.DTypeLike | NumpyEADtype | None) -> None: + if isinstance(dtype, NumpyEADtype): + # make constructor idempotent + dtype = dtype.numpy_dtype + self._dtype = np.dtype(dtype) + + def __repr__(self) -> str: + return f"NumpyEADtype({repr(self.name)})" + + @property + def numpy_dtype(self) -> np.dtype: + """ + The NumPy dtype this NumpyEADtype wraps. + """ + return self._dtype + + @property + def name(self) -> str: + """ + A bit-width name for this data-type. + """ + return self._dtype.name + + @property + def type(self) -> type[np.generic]: + """ + The type object used to instantiate a scalar of this NumPy data-type. + """ + return self._dtype.type + + @property + def _is_numeric(self) -> bool: + # exclude object, str, unicode, void. + return self.kind in set("biufc") + + @property + def _is_boolean(self) -> bool: + return self.kind == "b" + + @classmethod + def construct_from_string(cls, string: str) -> NumpyEADtype: + try: + dtype = np.dtype(string) + except TypeError as err: + if not isinstance(string, str): + msg = f"'construct_from_string' expects a string, got {type(string)}" + else: + msg = f"Cannot construct a 'NumpyEADtype' from '{string}'" + raise TypeError(msg) from err + return cls(dtype) + + @classmethod + def construct_array_type(cls) -> type_t[NumpyExtensionArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays import NumpyExtensionArray + + return NumpyExtensionArray + + @property + def kind(self) -> str: + """ + A character code (one of 'biufcmMOSUV') identifying the general kind of data. + """ + return self._dtype.kind + + @property + def itemsize(self) -> int: + """ + The element size of this data-type object. + """ + return self._dtype.itemsize + + +class BaseMaskedDtype(ExtensionDtype): + """ + Base class for dtypes for BaseMaskedArray subclasses. + """ + + base = None + type: type + + @property + def na_value(self) -> libmissing.NAType: + return libmissing.NA + + @cache_readonly + def numpy_dtype(self) -> np.dtype: + """Return an instance of our numpy dtype""" + return np.dtype(self.type) + + @cache_readonly + def kind(self) -> str: + return self.numpy_dtype.kind + + @cache_readonly + def itemsize(self) -> int: + """Return the number of bytes in this dtype""" + return self.numpy_dtype.itemsize + + @classmethod + def construct_array_type(cls) -> type_t[BaseMaskedArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + raise NotImplementedError + + @classmethod + def from_numpy_dtype(cls, dtype: np.dtype) -> BaseMaskedDtype: + """ + Construct the MaskedDtype corresponding to the given numpy dtype. + """ + if dtype.kind == "b": + from pandas.core.arrays.boolean import BooleanDtype + + return BooleanDtype() + elif dtype.kind in "iu": + from pandas.core.arrays.integer import NUMPY_INT_TO_DTYPE + + return NUMPY_INT_TO_DTYPE[dtype] + elif dtype.kind == "f": + from pandas.core.arrays.floating import NUMPY_FLOAT_TO_DTYPE + + return NUMPY_FLOAT_TO_DTYPE[dtype] + else: + raise NotImplementedError(dtype) + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + # We unwrap any masked dtypes, find the common dtype we would use + # for that, then re-mask the result. + from pandas.core.dtypes.cast import find_common_type + + new_dtype = find_common_type( + [ + dtype.numpy_dtype if isinstance(dtype, BaseMaskedDtype) else dtype + for dtype in dtypes + ] + ) + if not isinstance(new_dtype, np.dtype): + # If we ever support e.g. Masked[DatetimeArray] then this will change + return None + try: + return type(self).from_numpy_dtype(new_dtype) + except (KeyError, NotImplementedError): + return None + + +@register_extension_dtype +class SparseDtype(ExtensionDtype): + """ + Dtype for data stored in :class:`SparseArray`. + + This dtype implements the pandas ExtensionDtype interface. + + Parameters + ---------- + dtype : str, ExtensionDtype, numpy.dtype, type, default numpy.float64 + The dtype of the underlying array storing the non-fill value values. + fill_value : scalar, optional + The scalar value not stored in the SparseArray. By default, this + depends on `dtype`. + + =========== ========== + dtype na_value + =========== ========== + float ``np.nan`` + int ``0`` + bool ``False`` + datetime64 ``pd.NaT`` + timedelta64 ``pd.NaT`` + =========== ========== + + The default value may be overridden by specifying a `fill_value`. + + Attributes + ---------- + None + + Methods + ------- + None + + Examples + -------- + >>> ser = pd.Series([1, 0, 0], dtype=pd.SparseDtype(dtype=int, fill_value=0)) + >>> ser + 0 1 + 1 0 + 2 0 + dtype: Sparse[int64, 0] + >>> ser.sparse.density + 0.3333333333333333 + """ + + _is_immutable = True + + # We include `_is_na_fill_value` in the metadata to avoid hash collisions + # between SparseDtype(float, 0.0) and SparseDtype(float, nan). + # Without is_na_fill_value in the comparison, those would be equal since + # hash(nan) is (sometimes?) 0. + _metadata = ("_dtype", "_fill_value", "_is_na_fill_value") + + def __init__(self, dtype: Dtype = np.float64, fill_value: Any = None) -> None: + if isinstance(dtype, type(self)): + if fill_value is None: + fill_value = dtype.fill_value + dtype = dtype.subtype + + from pandas.core.dtypes.common import ( + is_string_dtype, + pandas_dtype, + ) + from pandas.core.dtypes.missing import na_value_for_dtype + + dtype = pandas_dtype(dtype) + if is_string_dtype(dtype): + dtype = np.dtype("object") + if not isinstance(dtype, np.dtype): + # GH#53160 + raise TypeError("SparseDtype subtype must be a numpy dtype") + + if fill_value is None: + fill_value = na_value_for_dtype(dtype) + + self._dtype = dtype + self._fill_value = fill_value + self._check_fill_value() + + def __hash__(self) -> int: + # Python3 doesn't inherit __hash__ when a base class overrides + # __eq__, so we explicitly do it here. + return super().__hash__() + + def __eq__(self, other: object) -> bool: + # We have to override __eq__ to handle NA values in _metadata. + # The base class does simple == checks, which fail for NA. + if isinstance(other, str): + try: + other = self.construct_from_string(other) + except TypeError: + return False + + if isinstance(other, type(self)): + subtype = self.subtype == other.subtype + if self._is_na_fill_value: + # this case is complicated by two things: + # SparseDtype(float, float(nan)) == SparseDtype(float, np.nan) + # SparseDtype(float, np.nan) != SparseDtype(float, pd.NaT) + # i.e. we want to treat any floating-point NaN as equal, but + # not a floating-point NaN and a datetime NaT. + fill_value = ( + other._is_na_fill_value + and isinstance(self.fill_value, type(other.fill_value)) + or isinstance(other.fill_value, type(self.fill_value)) + ) + else: + with warnings.catch_warnings(): + # Ignore spurious numpy warning + warnings.filterwarnings( + "ignore", + "elementwise comparison failed", + category=DeprecationWarning, + ) + + fill_value = self.fill_value == other.fill_value + + return subtype and fill_value + return False + + @property + def fill_value(self): + """ + The fill value of the array. + + Converting the SparseArray to a dense ndarray will fill the + array with this value. + + .. warning:: + + It's possible to end up with a SparseArray that has ``fill_value`` + values in ``sp_values``. This can occur, for example, when setting + ``SparseArray.fill_value`` directly. + """ + return self._fill_value + + def _check_fill_value(self) -> None: + if not lib.is_scalar(self._fill_value): + raise ValueError( + f"fill_value must be a scalar. Got {self._fill_value} instead" + ) + + from pandas.core.dtypes.cast import can_hold_element + from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + ) + + from pandas.core.construction import ensure_wrapped_if_datetimelike + + # GH#23124 require fill_value and subtype to match + val = self._fill_value + if isna(val): + if not is_valid_na_for_dtype(val, self.subtype): + warnings.warn( + "Allowing arbitrary scalar fill_value in SparseDtype is " + "deprecated. In a future version, the fill_value must be " + "a valid value for the SparseDtype.subtype.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + dummy = np.empty(0, dtype=self.subtype) + dummy = ensure_wrapped_if_datetimelike(dummy) + + if not can_hold_element(dummy, val): + warnings.warn( + "Allowing arbitrary scalar fill_value in SparseDtype is " + "deprecated. In a future version, the fill_value must be " + "a valid value for the SparseDtype.subtype.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + @property + def _is_na_fill_value(self) -> bool: + from pandas import isna + + return isna(self.fill_value) + + @property + def _is_numeric(self) -> bool: + return self.subtype != object + + @property + def _is_boolean(self) -> bool: + return self.subtype.kind == "b" + + @property + def kind(self) -> str: + """ + The sparse kind. Either 'integer', or 'block'. + """ + return self.subtype.kind + + @property + def type(self): + return self.subtype.type + + @property + def subtype(self): + return self._dtype + + @property + def name(self) -> str: + return f"Sparse[{self.subtype.name}, {repr(self.fill_value)}]" + + def __repr__(self) -> str: + return self.name + + @classmethod + def construct_array_type(cls) -> type_t[SparseArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays.sparse.array import SparseArray + + return SparseArray + + @classmethod + def construct_from_string(cls, string: str) -> SparseDtype: + """ + Construct a SparseDtype from a string form. + + Parameters + ---------- + string : str + Can take the following forms. + + string dtype + ================ ============================ + 'int' SparseDtype[np.int64, 0] + 'Sparse' SparseDtype[np.float64, nan] + 'Sparse[int]' SparseDtype[np.int64, 0] + 'Sparse[int, 0]' SparseDtype[np.int64, 0] + ================ ============================ + + It is not possible to specify non-default fill values + with a string. An argument like ``'Sparse[int, 1]'`` + will raise a ``TypeError`` because the default fill value + for integers is 0. + + Returns + ------- + SparseDtype + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + msg = f"Cannot construct a 'SparseDtype' from '{string}'" + if string.startswith("Sparse"): + try: + sub_type, has_fill_value = cls._parse_subtype(string) + except ValueError as err: + raise TypeError(msg) from err + else: + result = SparseDtype(sub_type) + msg = ( + f"Cannot construct a 'SparseDtype' from '{string}'.\n\nIt " + "looks like the fill_value in the string is not " + "the default for the dtype. Non-default fill_values " + "are not supported. Use the 'SparseDtype()' " + "constructor instead." + ) + if has_fill_value and str(result) != string: + raise TypeError(msg) + return result + else: + raise TypeError(msg) + + @staticmethod + def _parse_subtype(dtype: str) -> tuple[str, bool]: + """ + Parse a string to get the subtype + + Parameters + ---------- + dtype : str + A string like + + * Sparse[subtype] + * Sparse[subtype, fill_value] + + Returns + ------- + subtype : str + + Raises + ------ + ValueError + When the subtype cannot be extracted. + """ + xpr = re.compile(r"Sparse\[(?P[^,]*)(, )?(?P.*?)?\]$") + m = xpr.match(dtype) + has_fill_value = False + if m: + subtype = m.groupdict()["subtype"] + has_fill_value = bool(m.groupdict()["fill_value"]) + elif dtype == "Sparse": + subtype = "float64" + else: + raise ValueError(f"Cannot parse {dtype}") + return subtype, has_fill_value + + @classmethod + def is_dtype(cls, dtype: object) -> bool: + dtype = getattr(dtype, "dtype", dtype) + if isinstance(dtype, str) and dtype.startswith("Sparse"): + sub_type, _ = cls._parse_subtype(dtype) + dtype = np.dtype(sub_type) + elif isinstance(dtype, cls): + return True + return isinstance(dtype, np.dtype) or dtype == "Sparse" + + def update_dtype(self, dtype) -> SparseDtype: + """ + Convert the SparseDtype to a new dtype. + + This takes care of converting the ``fill_value``. + + Parameters + ---------- + dtype : Union[str, numpy.dtype, SparseDtype] + The new dtype to use. + + * For a SparseDtype, it is simply returned + * For a NumPy dtype (or str), the current fill value + is converted to the new dtype, and a SparseDtype + with `dtype` and the new fill value is returned. + + Returns + ------- + SparseDtype + A new SparseDtype with the correct `dtype` and fill value + for that `dtype`. + + Raises + ------ + ValueError + When the current fill value cannot be converted to the + new `dtype` (e.g. trying to convert ``np.nan`` to an + integer dtype). + + + Examples + -------- + >>> SparseDtype(int, 0).update_dtype(float) + Sparse[float64, 0.0] + + >>> SparseDtype(int, 1).update_dtype(SparseDtype(float, np.nan)) + Sparse[float64, nan] + """ + from pandas.core.dtypes.astype import astype_array + from pandas.core.dtypes.common import pandas_dtype + + cls = type(self) + dtype = pandas_dtype(dtype) + + if not isinstance(dtype, cls): + if not isinstance(dtype, np.dtype): + raise TypeError("sparse arrays of extension dtypes not supported") + + fv_asarray = np.atleast_1d(np.array(self.fill_value)) + fvarr = astype_array(fv_asarray, dtype) + # NB: not fv_0d.item(), as that casts dt64->int + fill_value = fvarr[0] + dtype = cls(dtype, fill_value=fill_value) + + return dtype + + @property + def _subtype_with_str(self): + """ + Whether the SparseDtype's subtype should be considered ``str``. + + Typically, pandas will store string data in an object-dtype array. + When converting values to a dtype, e.g. in ``.astype``, we need to + be more specific, we need the actual underlying type. + + Returns + ------- + >>> SparseDtype(int, 1)._subtype_with_str + dtype('int64') + + >>> SparseDtype(object, 1)._subtype_with_str + dtype('O') + + >>> dtype = SparseDtype(str, '') + >>> dtype.subtype + dtype('O') + + >>> dtype._subtype_with_str + + """ + if isinstance(self.fill_value, str): + return type(self.fill_value) + return self.subtype + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + # TODO for now only handle SparseDtypes and numpy dtypes => extend + # with other compatible extension dtypes + from pandas.core.dtypes.cast import np_find_common_type + + if any( + isinstance(x, ExtensionDtype) and not isinstance(x, SparseDtype) + for x in dtypes + ): + return None + + fill_values = [x.fill_value for x in dtypes if isinstance(x, SparseDtype)] + fill_value = fill_values[0] + + from pandas import isna + + # np.nan isn't a singleton, so we may end up with multiple + # NaNs here, so we ignore the all NA case too. + if not (len(set(fill_values)) == 1 or isna(fill_values).all()): + warnings.warn( + "Concatenating sparse arrays with multiple fill " + f"values: '{fill_values}'. Picking the first and " + "converting the rest.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + + np_dtypes = (x.subtype if isinstance(x, SparseDtype) else x for x in dtypes) + return SparseDtype(np_find_common_type(*np_dtypes), fill_value=fill_value) + + +@register_extension_dtype +class ArrowDtype(StorageExtensionDtype): + """ + An ExtensionDtype for PyArrow data types. + + .. warning:: + + ArrowDtype is considered experimental. The implementation and + parts of the API may change without warning. + + While most ``dtype`` arguments can accept the "string" + constructor, e.g. ``"int64[pyarrow]"``, ArrowDtype is useful + if the data type contains parameters like ``pyarrow.timestamp``. + + Parameters + ---------- + pyarrow_dtype : pa.DataType + An instance of a `pyarrow.DataType `__. + + Attributes + ---------- + pyarrow_dtype + + Methods + ------- + None + + Returns + ------- + ArrowDtype + + Examples + -------- + >>> import pyarrow as pa + >>> pd.ArrowDtype(pa.int64()) + int64[pyarrow] + + Types with parameters must be constructed with ArrowDtype. + + >>> pd.ArrowDtype(pa.timestamp("s", tz="America/New_York")) + timestamp[s, tz=America/New_York][pyarrow] + >>> pd.ArrowDtype(pa.list_(pa.int64())) + list[pyarrow] + """ + + _metadata = ("storage", "pyarrow_dtype") # type: ignore[assignment] + + def __init__(self, pyarrow_dtype: pa.DataType) -> None: + super().__init__("pyarrow") + if pa_version_under10p1: + raise ImportError("pyarrow>=10.0.1 is required for ArrowDtype") + if not isinstance(pyarrow_dtype, pa.DataType): + raise ValueError( + f"pyarrow_dtype ({pyarrow_dtype}) must be an instance " + f"of a pyarrow.DataType. Got {type(pyarrow_dtype)} instead." + ) + self.pyarrow_dtype = pyarrow_dtype + + def __repr__(self) -> str: + return self.name + + def __hash__(self) -> int: + # make myself hashable + return hash(str(self)) + + def __eq__(self, other: object) -> bool: + if not isinstance(other, type(self)): + return super().__eq__(other) + return self.pyarrow_dtype == other.pyarrow_dtype + + @property + def type(self): + """ + Returns associated scalar type. + """ + pa_type = self.pyarrow_dtype + if pa.types.is_integer(pa_type): + return int + elif pa.types.is_floating(pa_type): + return float + elif pa.types.is_string(pa_type) or pa.types.is_large_string(pa_type): + return str + elif ( + pa.types.is_binary(pa_type) + or pa.types.is_fixed_size_binary(pa_type) + or pa.types.is_large_binary(pa_type) + ): + return bytes + elif pa.types.is_boolean(pa_type): + return bool + elif pa.types.is_duration(pa_type): + if pa_type.unit == "ns": + return Timedelta + else: + return timedelta + elif pa.types.is_timestamp(pa_type): + if pa_type.unit == "ns": + return Timestamp + else: + return datetime + elif pa.types.is_date(pa_type): + return date + elif pa.types.is_time(pa_type): + return time + elif pa.types.is_decimal(pa_type): + return Decimal + elif pa.types.is_dictionary(pa_type): + # TODO: Potentially change this & CategoricalDtype.type to + # something more representative of the scalar + return CategoricalDtypeType + elif pa.types.is_list(pa_type) or pa.types.is_large_list(pa_type): + return list + elif pa.types.is_fixed_size_list(pa_type): + return list + elif pa.types.is_map(pa_type): + return list + elif pa.types.is_struct(pa_type): + return dict + elif pa.types.is_null(pa_type): + # TODO: None? pd.NA? pa.null? + return type(pa_type) + elif isinstance(pa_type, pa.ExtensionType): + return type(self)(pa_type.storage_type).type + raise NotImplementedError(pa_type) + + @property + def name(self) -> str: # type: ignore[override] + """ + A string identifying the data type. + """ + return f"{str(self.pyarrow_dtype)}[{self.storage}]" + + @cache_readonly + def numpy_dtype(self) -> np.dtype: + """Return an instance of the related numpy dtype""" + if pa.types.is_timestamp(self.pyarrow_dtype): + # pa.timestamp(unit).to_pandas_dtype() returns ns units + # regardless of the pyarrow timestamp units. + # This can be removed if/when pyarrow addresses it: + # https://github.com/apache/arrow/issues/34462 + return np.dtype(f"datetime64[{self.pyarrow_dtype.unit}]") + if pa.types.is_duration(self.pyarrow_dtype): + # pa.duration(unit).to_pandas_dtype() returns ns units + # regardless of the pyarrow duration units + # This can be removed if/when pyarrow addresses it: + # https://github.com/apache/arrow/issues/34462 + return np.dtype(f"timedelta64[{self.pyarrow_dtype.unit}]") + if pa.types.is_string(self.pyarrow_dtype) or pa.types.is_large_string( + self.pyarrow_dtype + ): + # pa.string().to_pandas_dtype() = object which we don't want + return np.dtype(str) + try: + return np.dtype(self.pyarrow_dtype.to_pandas_dtype()) + except (NotImplementedError, TypeError): + return np.dtype(object) + + @cache_readonly + def kind(self) -> str: + if pa.types.is_timestamp(self.pyarrow_dtype): + # To mirror DatetimeTZDtype + return "M" + return self.numpy_dtype.kind + + @cache_readonly + def itemsize(self) -> int: + """Return the number of bytes in this dtype""" + return self.numpy_dtype.itemsize + + @classmethod + def construct_array_type(cls) -> type_t[ArrowExtensionArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + from pandas.core.arrays.arrow import ArrowExtensionArray + + return ArrowExtensionArray + + @classmethod + def construct_from_string(cls, string: str) -> ArrowDtype: + """ + Construct this type from a string. + + Parameters + ---------- + string : str + string should follow the format f"{pyarrow_type}[pyarrow]" + e.g. int64[pyarrow] + """ + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + if not string.endswith("[pyarrow]"): + raise TypeError(f"'{string}' must end with '[pyarrow]'") + if string in ("string[pyarrow]", "str[pyarrow]"): + # Ensure Registry.find skips ArrowDtype to use StringDtype instead + raise TypeError("string[pyarrow] should be constructed by StringDtype") + + base_type = string[:-9] # get rid of "[pyarrow]" + try: + pa_dtype = pa.type_for_alias(base_type) + except ValueError as err: + has_parameters = re.search(r"[\[\(].*[\]\)]", base_type) + if has_parameters: + # Fallback to try common temporal types + try: + return cls._parse_temporal_dtype_string(base_type) + except (NotImplementedError, ValueError): + # Fall through to raise with nice exception message below + pass + + raise NotImplementedError( + "Passing pyarrow type specific parameters " + f"({has_parameters.group()}) in the string is not supported. " + "Please construct an ArrowDtype object with a pyarrow_dtype " + "instance with specific parameters." + ) from err + raise TypeError(f"'{base_type}' is not a valid pyarrow data type.") from err + return cls(pa_dtype) + + # TODO(arrow#33642): This can be removed once supported by pyarrow + @classmethod + def _parse_temporal_dtype_string(cls, string: str) -> ArrowDtype: + """ + Construct a temporal ArrowDtype from string. + """ + # we assume + # 1) "[pyarrow]" has already been stripped from the end of our string. + # 2) we know "[" is present + head, tail = string.split("[", 1) + + if not tail.endswith("]"): + raise ValueError + tail = tail[:-1] + + if head == "timestamp": + assert "," in tail # otherwise type_for_alias should work + unit, tz = tail.split(",", 1) + unit = unit.strip() + tz = tz.strip() + if tz.startswith("tz="): + tz = tz[3:] + + pa_type = pa.timestamp(unit, tz=tz) + dtype = cls(pa_type) + return dtype + + raise NotImplementedError(string) + + @property + def _is_numeric(self) -> bool: + """ + Whether columns with this dtype should be considered numeric. + """ + # TODO: pa.types.is_boolean? + return ( + pa.types.is_integer(self.pyarrow_dtype) + or pa.types.is_floating(self.pyarrow_dtype) + or pa.types.is_decimal(self.pyarrow_dtype) + ) + + @property + def _is_boolean(self) -> bool: + """ + Whether this dtype should be considered boolean. + """ + return pa.types.is_boolean(self.pyarrow_dtype) + + def _get_common_dtype(self, dtypes: list[DtypeObj]) -> DtypeObj | None: + # We unwrap any masked dtypes, find the common dtype we would use + # for that, then re-mask the result. + # Mirrors BaseMaskedDtype + from pandas.core.dtypes.cast import find_common_type + + null_dtype = type(self)(pa.null()) + + new_dtype = find_common_type( + [ + dtype.numpy_dtype if isinstance(dtype, ArrowDtype) else dtype + for dtype in dtypes + if dtype != null_dtype + ] + ) + if not isinstance(new_dtype, np.dtype): + return None + try: + pa_dtype = pa.from_numpy_dtype(new_dtype) + return type(self)(pa_dtype) + except NotImplementedError: + return None + + def __from_arrow__(self, array: pa.Array | pa.ChunkedArray): + """ + Construct IntegerArray/FloatingArray from pyarrow Array/ChunkedArray. + """ + array_class = self.construct_array_type() + arr = array.cast(self.pyarrow_dtype, safe=True) + return array_class(arr) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/generic.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/generic.py new file mode 100644 index 0000000000000000000000000000000000000000..9718ad600cb80b6e38f069a83aaf35ddb376fb00 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/generic.py @@ -0,0 +1,147 @@ +""" define generic base classes for pandas objects """ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Type, + cast, +) + +if TYPE_CHECKING: + from pandas import ( + Categorical, + CategoricalIndex, + DataFrame, + DatetimeIndex, + Index, + IntervalIndex, + MultiIndex, + PeriodIndex, + RangeIndex, + Series, + TimedeltaIndex, + ) + from pandas.core.arrays import ( + DatetimeArray, + ExtensionArray, + NumpyExtensionArray, + PeriodArray, + TimedeltaArray, + ) + from pandas.core.generic import NDFrame + + +# define abstract base classes to enable isinstance type checking on our +# objects +def create_pandas_abc_type(name, attr, comp): + def _check(inst) -> bool: + return getattr(inst, attr, "_typ") in comp + + # https://github.com/python/mypy/issues/1006 + # error: 'classmethod' used with a non-method + @classmethod # type: ignore[misc] + def _instancecheck(cls, inst) -> bool: + return _check(inst) and not isinstance(inst, type) + + @classmethod # type: ignore[misc] + def _subclasscheck(cls, inst) -> bool: + # Raise instead of returning False + # This is consistent with default __subclasscheck__ behavior + if not isinstance(inst, type): + raise TypeError("issubclass() arg 1 must be a class") + + return _check(inst) + + dct = {"__instancecheck__": _instancecheck, "__subclasscheck__": _subclasscheck} + meta = type("ABCBase", (type,), dct) + return meta(name, (), dct) + + +ABCRangeIndex = cast( + "Type[RangeIndex]", + create_pandas_abc_type("ABCRangeIndex", "_typ", ("rangeindex",)), +) +ABCMultiIndex = cast( + "Type[MultiIndex]", + create_pandas_abc_type("ABCMultiIndex", "_typ", ("multiindex",)), +) +ABCDatetimeIndex = cast( + "Type[DatetimeIndex]", + create_pandas_abc_type("ABCDatetimeIndex", "_typ", ("datetimeindex",)), +) +ABCTimedeltaIndex = cast( + "Type[TimedeltaIndex]", + create_pandas_abc_type("ABCTimedeltaIndex", "_typ", ("timedeltaindex",)), +) +ABCPeriodIndex = cast( + "Type[PeriodIndex]", + create_pandas_abc_type("ABCPeriodIndex", "_typ", ("periodindex",)), +) +ABCCategoricalIndex = cast( + "Type[CategoricalIndex]", + create_pandas_abc_type("ABCCategoricalIndex", "_typ", ("categoricalindex",)), +) +ABCIntervalIndex = cast( + "Type[IntervalIndex]", + create_pandas_abc_type("ABCIntervalIndex", "_typ", ("intervalindex",)), +) +ABCIndex = cast( + "Type[Index]", + create_pandas_abc_type( + "ABCIndex", + "_typ", + { + "index", + "rangeindex", + "multiindex", + "datetimeindex", + "timedeltaindex", + "periodindex", + "categoricalindex", + "intervalindex", + }, + ), +) + + +ABCNDFrame = cast( + "Type[NDFrame]", + create_pandas_abc_type("ABCNDFrame", "_typ", ("series", "dataframe")), +) +ABCSeries = cast( + "Type[Series]", + create_pandas_abc_type("ABCSeries", "_typ", ("series",)), +) +ABCDataFrame = cast( + "Type[DataFrame]", create_pandas_abc_type("ABCDataFrame", "_typ", ("dataframe",)) +) + +ABCCategorical = cast( + "Type[Categorical]", + create_pandas_abc_type("ABCCategorical", "_typ", ("categorical")), +) +ABCDatetimeArray = cast( + "Type[DatetimeArray]", + create_pandas_abc_type("ABCDatetimeArray", "_typ", ("datetimearray")), +) +ABCTimedeltaArray = cast( + "Type[TimedeltaArray]", + create_pandas_abc_type("ABCTimedeltaArray", "_typ", ("timedeltaarray")), +) +ABCPeriodArray = cast( + "Type[PeriodArray]", + create_pandas_abc_type("ABCPeriodArray", "_typ", ("periodarray",)), +) +ABCExtensionArray = cast( + "Type[ExtensionArray]", + create_pandas_abc_type( + "ABCExtensionArray", + "_typ", + # Note: IntervalArray and SparseArray are included bc they have _typ="extension" + {"extension", "categorical", "periodarray", "datetimearray", "timedeltaarray"}, + ), +) +ABCNumpyExtensionArray = cast( + "Type[NumpyExtensionArray]", + create_pandas_abc_type("ABCNumpyExtensionArray", "_typ", ("npy_extension",)), +) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/inference.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/inference.py new file mode 100644 index 0000000000000000000000000000000000000000..f551716772f61455a330bdb308cee830bd54fb03 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/inference.py @@ -0,0 +1,437 @@ +""" basic inference routines """ + +from __future__ import annotations + +from collections import abc +from numbers import Number +import re +from re import Pattern +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs import lib + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import TypeGuard + +is_bool = lib.is_bool + +is_integer = lib.is_integer + +is_float = lib.is_float + +is_complex = lib.is_complex + +is_scalar = lib.is_scalar + +is_decimal = lib.is_decimal + +is_interval = lib.is_interval + +is_list_like = lib.is_list_like + +is_iterator = lib.is_iterator + + +def is_number(obj) -> TypeGuard[Number | np.number]: + """ + Check if the object is a number. + + Returns True when the object is a number, and False if is not. + + Parameters + ---------- + obj : any type + The object to check if is a number. + + Returns + ------- + bool + Whether `obj` is a number or not. + + See Also + -------- + api.types.is_integer: Checks a subgroup of numbers. + + Examples + -------- + >>> from pandas.api.types import is_number + >>> is_number(1) + True + >>> is_number(7.15) + True + + Booleans are valid because they are int subclass. + + >>> is_number(False) + True + + >>> is_number("foo") + False + >>> is_number("5") + False + """ + return isinstance(obj, (Number, np.number)) + + +def iterable_not_string(obj) -> bool: + """ + Check if the object is an iterable but not a string. + + Parameters + ---------- + obj : The object to check. + + Returns + ------- + is_iter_not_string : bool + Whether `obj` is a non-string iterable. + + Examples + -------- + >>> iterable_not_string([1, 2, 3]) + True + >>> iterable_not_string("foo") + False + >>> iterable_not_string(1) + False + """ + return isinstance(obj, abc.Iterable) and not isinstance(obj, str) + + +def is_file_like(obj) -> bool: + """ + Check if the object is a file-like object. + + For objects to be considered file-like, they must + be an iterator AND have either a `read` and/or `write` + method as an attribute. + + Note: file-like objects must be iterable, but + iterable objects need not be file-like. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + bool + Whether `obj` has file-like properties. + + Examples + -------- + >>> import io + >>> from pandas.api.types import is_file_like + >>> buffer = io.StringIO("data") + >>> is_file_like(buffer) + True + >>> is_file_like([1, 2, 3]) + False + """ + if not (hasattr(obj, "read") or hasattr(obj, "write")): + return False + + return bool(hasattr(obj, "__iter__")) + + +def is_re(obj) -> TypeGuard[Pattern]: + """ + Check if the object is a regex pattern instance. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + bool + Whether `obj` is a regex pattern. + + Examples + -------- + >>> from pandas.api.types import is_re + >>> import re + >>> is_re(re.compile(".*")) + True + >>> is_re("foo") + False + """ + return isinstance(obj, Pattern) + + +def is_re_compilable(obj) -> bool: + """ + Check if the object can be compiled into a regex pattern instance. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + bool + Whether `obj` can be compiled as a regex pattern. + + Examples + -------- + >>> from pandas.api.types import is_re_compilable + >>> is_re_compilable(".*") + True + >>> is_re_compilable(1) + False + """ + try: + re.compile(obj) + except TypeError: + return False + else: + return True + + +def is_array_like(obj) -> bool: + """ + Check if the object is array-like. + + For an object to be considered array-like, it must be list-like and + have a `dtype` attribute. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + is_array_like : bool + Whether `obj` has array-like properties. + + Examples + -------- + >>> is_array_like(np.array([1, 2, 3])) + True + >>> is_array_like(pd.Series(["a", "b"])) + True + >>> is_array_like(pd.Index(["2016-01-01"])) + True + >>> is_array_like([1, 2, 3]) + False + >>> is_array_like(("a", "b")) + False + """ + return is_list_like(obj) and hasattr(obj, "dtype") + + +def is_nested_list_like(obj) -> bool: + """ + Check if the object is list-like, and that all of its elements + are also list-like. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + is_list_like : bool + Whether `obj` has list-like properties. + + Examples + -------- + >>> is_nested_list_like([[1, 2, 3]]) + True + >>> is_nested_list_like([{1, 2, 3}, {1, 2, 3}]) + True + >>> is_nested_list_like(["foo"]) + False + >>> is_nested_list_like([]) + False + >>> is_nested_list_like([[1, 2, 3], 1]) + False + + Notes + ----- + This won't reliably detect whether a consumable iterator (e. g. + a generator) is a nested-list-like without consuming the iterator. + To avoid consuming it, we always return False if the outer container + doesn't define `__len__`. + + See Also + -------- + is_list_like + """ + return ( + is_list_like(obj) + and hasattr(obj, "__len__") + and len(obj) > 0 + and all(is_list_like(item) for item in obj) + ) + + +def is_dict_like(obj) -> bool: + """ + Check if the object is dict-like. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + bool + Whether `obj` has dict-like properties. + + Examples + -------- + >>> from pandas.api.types import is_dict_like + >>> is_dict_like({1: 2}) + True + >>> is_dict_like([1, 2, 3]) + False + >>> is_dict_like(dict) + False + >>> is_dict_like(dict()) + True + """ + dict_like_attrs = ("__getitem__", "keys", "__contains__") + return ( + all(hasattr(obj, attr) for attr in dict_like_attrs) + # [GH 25196] exclude classes + and not isinstance(obj, type) + ) + + +def is_named_tuple(obj) -> bool: + """ + Check if the object is a named tuple. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + bool + Whether `obj` is a named tuple. + + Examples + -------- + >>> from collections import namedtuple + >>> from pandas.api.types import is_named_tuple + >>> Point = namedtuple("Point", ["x", "y"]) + >>> p = Point(1, 2) + >>> + >>> is_named_tuple(p) + True + >>> is_named_tuple((1, 2)) + False + """ + return isinstance(obj, abc.Sequence) and hasattr(obj, "_fields") + + +def is_hashable(obj) -> TypeGuard[Hashable]: + """ + Return True if hash(obj) will succeed, False otherwise. + + Some types will pass a test against collections.abc.Hashable but fail when + they are actually hashed with hash(). + + Distinguish between these and other types by trying the call to hash() and + seeing if they raise TypeError. + + Returns + ------- + bool + + Examples + -------- + >>> import collections + >>> from pandas.api.types import is_hashable + >>> a = ([],) + >>> isinstance(a, collections.abc.Hashable) + True + >>> is_hashable(a) + False + """ + # Unfortunately, we can't use isinstance(obj, collections.abc.Hashable), + # which can be faster than calling hash. That is because numpy scalars + # fail this test. + + # Reconsider this decision once this numpy bug is fixed: + # https://github.com/numpy/numpy/issues/5562 + + try: + hash(obj) + except TypeError: + return False + else: + return True + + +def is_sequence(obj) -> bool: + """ + Check if the object is a sequence of objects. + String types are not included as sequences here. + + Parameters + ---------- + obj : The object to check + + Returns + ------- + is_sequence : bool + Whether `obj` is a sequence of objects. + + Examples + -------- + >>> l = [1, 2, 3] + >>> + >>> is_sequence(l) + True + >>> is_sequence(iter(l)) + False + """ + try: + iter(obj) # Can iterate over it. + len(obj) # Has a length associated with it. + return not isinstance(obj, (str, bytes)) + except (TypeError, AttributeError): + return False + + +def is_dataclass(item) -> bool: + """ + Checks if the object is a data-class instance + + Parameters + ---------- + item : object + + Returns + -------- + is_dataclass : bool + True if the item is an instance of a data-class, + will return false if you pass the data class itself + + Examples + -------- + >>> from dataclasses import dataclass + >>> @dataclass + ... class Point: + ... x: int + ... y: int + + >>> is_dataclass(Point) + False + >>> is_dataclass(Point(0,2)) + True + + """ + try: + import dataclasses + + return dataclasses.is_dataclass(item) and not isinstance(item, type) + except ImportError: + return False diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/missing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/missing.py new file mode 100644 index 0000000000000000000000000000000000000000..c341ff9dff7e613d8db2209efb5c10f170a9cd47 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/dtypes/missing.py @@ -0,0 +1,810 @@ +""" +missing types & inference +""" +from __future__ import annotations + +from decimal import Decimal +from functools import partial +from typing import ( + TYPE_CHECKING, + overload, +) +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas._libs import lib +import pandas._libs.missing as libmissing +from pandas._libs.tslibs import ( + NaT, + iNaT, +) + +from pandas.core.dtypes.common import ( + DT64NS_DTYPE, + TD64NS_DTYPE, + ensure_object, + is_scalar, + is_string_or_object_np_dtype, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCExtensionArray, + ABCIndex, + ABCMultiIndex, + ABCSeries, +) +from pandas.core.dtypes.inference import is_list_like + +if TYPE_CHECKING: + from re import Pattern + + from pandas._typing import ( + ArrayLike, + DtypeObj, + NDFrame, + NDFrameT, + Scalar, + npt, + ) + + from pandas import Series + from pandas.core.indexes.base import Index + + +isposinf_scalar = libmissing.isposinf_scalar +isneginf_scalar = libmissing.isneginf_scalar + +nan_checker = np.isnan +INF_AS_NA = False +_dtype_object = np.dtype("object") +_dtype_str = np.dtype(str) + + +@overload +def isna(obj: Scalar | Pattern) -> bool: + ... + + +@overload +def isna( + obj: ArrayLike | Index | list, +) -> npt.NDArray[np.bool_]: + ... + + +@overload +def isna(obj: NDFrameT) -> NDFrameT: + ... + + +# handle unions +@overload +def isna(obj: NDFrameT | ArrayLike | Index | list) -> NDFrameT | npt.NDArray[np.bool_]: + ... + + +@overload +def isna(obj: object) -> bool | npt.NDArray[np.bool_] | NDFrame: + ... + + +def isna(obj: object) -> bool | npt.NDArray[np.bool_] | NDFrame: + """ + Detect missing values for an array-like object. + + This function takes a scalar or array-like object and indicates + whether values are missing (``NaN`` in numeric arrays, ``None`` or ``NaN`` + in object arrays, ``NaT`` in datetimelike). + + Parameters + ---------- + obj : scalar or array-like + Object to check for null or missing values. + + Returns + ------- + bool or array-like of bool + For scalar input, returns a scalar boolean. + For array input, returns an array of boolean indicating whether each + corresponding element is missing. + + See Also + -------- + notna : Boolean inverse of pandas.isna. + Series.isna : Detect missing values in a Series. + DataFrame.isna : Detect missing values in a DataFrame. + Index.isna : Detect missing values in an Index. + + Examples + -------- + Scalar arguments (including strings) result in a scalar boolean. + + >>> pd.isna('dog') + False + + >>> pd.isna(pd.NA) + True + + >>> pd.isna(np.nan) + True + + ndarrays result in an ndarray of booleans. + + >>> array = np.array([[1, np.nan, 3], [4, 5, np.nan]]) + >>> array + array([[ 1., nan, 3.], + [ 4., 5., nan]]) + >>> pd.isna(array) + array([[False, True, False], + [False, False, True]]) + + For indexes, an ndarray of booleans is returned. + + >>> index = pd.DatetimeIndex(["2017-07-05", "2017-07-06", None, + ... "2017-07-08"]) + >>> index + DatetimeIndex(['2017-07-05', '2017-07-06', 'NaT', '2017-07-08'], + dtype='datetime64[ns]', freq=None) + >>> pd.isna(index) + array([False, False, True, False]) + + For Series and DataFrame, the same type is returned, containing booleans. + + >>> df = pd.DataFrame([['ant', 'bee', 'cat'], ['dog', None, 'fly']]) + >>> df + 0 1 2 + 0 ant bee cat + 1 dog None fly + >>> pd.isna(df) + 0 1 2 + 0 False False False + 1 False True False + + >>> pd.isna(df[1]) + 0 False + 1 True + Name: 1, dtype: bool + """ + return _isna(obj) + + +isnull = isna + + +def _isna(obj, inf_as_na: bool = False): + """ + Detect missing values, treating None, NaN or NA as null. Infinite + values will also be treated as null if inf_as_na is True. + + Parameters + ---------- + obj: ndarray or object value + Input array or scalar value. + inf_as_na: bool + Whether to treat infinity as null. + + Returns + ------- + boolean ndarray or boolean + """ + if is_scalar(obj): + return libmissing.checknull(obj, inf_as_na=inf_as_na) + elif isinstance(obj, ABCMultiIndex): + raise NotImplementedError("isna is not defined for MultiIndex") + elif isinstance(obj, type): + return False + elif isinstance(obj, (np.ndarray, ABCExtensionArray)): + return _isna_array(obj, inf_as_na=inf_as_na) + elif isinstance(obj, ABCIndex): + # Try to use cached isna, which also short-circuits for integer dtypes + # and avoids materializing RangeIndex._values + if not obj._can_hold_na: + return obj.isna() + return _isna_array(obj._values, inf_as_na=inf_as_na) + + elif isinstance(obj, ABCSeries): + result = _isna_array(obj._values, inf_as_na=inf_as_na) + # box + result = obj._constructor(result, index=obj.index, name=obj.name, copy=False) + return result + elif isinstance(obj, ABCDataFrame): + return obj.isna() + elif isinstance(obj, list): + return _isna_array(np.asarray(obj, dtype=object), inf_as_na=inf_as_na) + elif hasattr(obj, "__array__"): + return _isna_array(np.asarray(obj), inf_as_na=inf_as_na) + else: + return False + + +def _use_inf_as_na(key) -> None: + """ + Option change callback for na/inf behaviour. + + Choose which replacement for numpy.isnan / -numpy.isfinite is used. + + Parameters + ---------- + flag: bool + True means treat None, NaN, INF, -INF as null (old way), + False means None and NaN are null, but INF, -INF are not null + (new way). + + Notes + ----- + This approach to setting global module values is discussed and + approved here: + + * https://stackoverflow.com/questions/4859217/ + programmatically-creating-variables-in-python/4859312#4859312 + """ + inf_as_na = get_option(key) + globals()["_isna"] = partial(_isna, inf_as_na=inf_as_na) + if inf_as_na: + globals()["nan_checker"] = lambda x: ~np.isfinite(x) + globals()["INF_AS_NA"] = True + else: + globals()["nan_checker"] = np.isnan + globals()["INF_AS_NA"] = False + + +def _isna_array(values: ArrayLike, inf_as_na: bool = False): + """ + Return an array indicating which values of the input array are NaN / NA. + + Parameters + ---------- + obj: ndarray or ExtensionArray + The input array whose elements are to be checked. + inf_as_na: bool + Whether or not to treat infinite values as NA. + + Returns + ------- + array-like + Array of boolean values denoting the NA status of each element. + """ + dtype = values.dtype + + if not isinstance(values, np.ndarray): + # i.e. ExtensionArray + if inf_as_na and isinstance(dtype, CategoricalDtype): + result = libmissing.isnaobj(values.to_numpy(), inf_as_na=inf_as_na) + else: + # error: Incompatible types in assignment (expression has type + # "Union[ndarray[Any, Any], ExtensionArraySupportsAnyAll]", variable has + # type "ndarray[Any, dtype[bool_]]") + result = values.isna() # type: ignore[assignment] + elif isinstance(values, np.rec.recarray): + # GH 48526 + result = _isna_recarray_dtype(values, inf_as_na=inf_as_na) + elif is_string_or_object_np_dtype(values.dtype): + result = _isna_string_dtype(values, inf_as_na=inf_as_na) + elif dtype.kind in "mM": + # this is the NaT pattern + result = values.view("i8") == iNaT + else: + if inf_as_na: + result = ~np.isfinite(values) + else: + result = np.isnan(values) + + return result + + +def _isna_string_dtype(values: np.ndarray, inf_as_na: bool) -> npt.NDArray[np.bool_]: + # Working around NumPy ticket 1542 + dtype = values.dtype + + if dtype.kind in ("S", "U"): + result = np.zeros(values.shape, dtype=bool) + else: + if values.ndim in {1, 2}: + result = libmissing.isnaobj(values, inf_as_na=inf_as_na) + else: + # 0-D, reached via e.g. mask_missing + result = libmissing.isnaobj(values.ravel(), inf_as_na=inf_as_na) + result = result.reshape(values.shape) + + return result + + +def _has_record_inf_value(record_as_array: np.ndarray) -> np.bool_: + is_inf_in_record = np.zeros(len(record_as_array), dtype=bool) + for i, value in enumerate(record_as_array): + is_element_inf = False + try: + is_element_inf = np.isinf(value) + except TypeError: + is_element_inf = False + is_inf_in_record[i] = is_element_inf + + return np.any(is_inf_in_record) + + +def _isna_recarray_dtype( + values: np.rec.recarray, inf_as_na: bool +) -> npt.NDArray[np.bool_]: + result = np.zeros(values.shape, dtype=bool) + for i, record in enumerate(values): + record_as_array = np.array(record.tolist()) + does_record_contain_nan = isna_all(record_as_array) + does_record_contain_inf = False + if inf_as_na: + does_record_contain_inf = bool(_has_record_inf_value(record_as_array)) + result[i] = np.any( + np.logical_or(does_record_contain_nan, does_record_contain_inf) + ) + + return result + + +@overload +def notna(obj: Scalar) -> bool: + ... + + +@overload +def notna( + obj: ArrayLike | Index | list, +) -> npt.NDArray[np.bool_]: + ... + + +@overload +def notna(obj: NDFrameT) -> NDFrameT: + ... + + +# handle unions +@overload +def notna(obj: NDFrameT | ArrayLike | Index | list) -> NDFrameT | npt.NDArray[np.bool_]: + ... + + +@overload +def notna(obj: object) -> bool | npt.NDArray[np.bool_] | NDFrame: + ... + + +def notna(obj: object) -> bool | npt.NDArray[np.bool_] | NDFrame: + """ + Detect non-missing values for an array-like object. + + This function takes a scalar or array-like object and indicates + whether values are valid (not missing, which is ``NaN`` in numeric + arrays, ``None`` or ``NaN`` in object arrays, ``NaT`` in datetimelike). + + Parameters + ---------- + obj : array-like or object value + Object to check for *not* null or *non*-missing values. + + Returns + ------- + bool or array-like of bool + For scalar input, returns a scalar boolean. + For array input, returns an array of boolean indicating whether each + corresponding element is valid. + + See Also + -------- + isna : Boolean inverse of pandas.notna. + Series.notna : Detect valid values in a Series. + DataFrame.notna : Detect valid values in a DataFrame. + Index.notna : Detect valid values in an Index. + + Examples + -------- + Scalar arguments (including strings) result in a scalar boolean. + + >>> pd.notna('dog') + True + + >>> pd.notna(pd.NA) + False + + >>> pd.notna(np.nan) + False + + ndarrays result in an ndarray of booleans. + + >>> array = np.array([[1, np.nan, 3], [4, 5, np.nan]]) + >>> array + array([[ 1., nan, 3.], + [ 4., 5., nan]]) + >>> pd.notna(array) + array([[ True, False, True], + [ True, True, False]]) + + For indexes, an ndarray of booleans is returned. + + >>> index = pd.DatetimeIndex(["2017-07-05", "2017-07-06", None, + ... "2017-07-08"]) + >>> index + DatetimeIndex(['2017-07-05', '2017-07-06', 'NaT', '2017-07-08'], + dtype='datetime64[ns]', freq=None) + >>> pd.notna(index) + array([ True, True, False, True]) + + For Series and DataFrame, the same type is returned, containing booleans. + + >>> df = pd.DataFrame([['ant', 'bee', 'cat'], ['dog', None, 'fly']]) + >>> df + 0 1 2 + 0 ant bee cat + 1 dog None fly + >>> pd.notna(df) + 0 1 2 + 0 True True True + 1 True False True + + >>> pd.notna(df[1]) + 0 True + 1 False + Name: 1, dtype: bool + """ + res = isna(obj) + if isinstance(res, bool): + return not res + return ~res + + +notnull = notna + + +def array_equivalent( + left, + right, + strict_nan: bool = False, + dtype_equal: bool = False, +) -> bool: + """ + True if two arrays, left and right, have equal non-NaN elements, and NaNs + in corresponding locations. False otherwise. It is assumed that left and + right are NumPy arrays of the same dtype. The behavior of this function + (particularly with respect to NaNs) is not defined if the dtypes are + different. + + Parameters + ---------- + left, right : ndarrays + strict_nan : bool, default False + If True, consider NaN and None to be different. + dtype_equal : bool, default False + Whether `left` and `right` are known to have the same dtype + according to `is_dtype_equal`. Some methods like `BlockManager.equals`. + require that the dtypes match. Setting this to ``True`` can improve + performance, but will give different results for arrays that are + equal but different dtypes. + + Returns + ------- + b : bool + Returns True if the arrays are equivalent. + + Examples + -------- + >>> array_equivalent( + ... np.array([1, 2, np.nan]), + ... np.array([1, 2, np.nan])) + True + >>> array_equivalent( + ... np.array([1, np.nan, 2]), + ... np.array([1, 2, np.nan])) + False + """ + left, right = np.asarray(left), np.asarray(right) + + # shape compat + if left.shape != right.shape: + return False + + if dtype_equal: + # fastpath when we require that the dtypes match (Block.equals) + if left.dtype.kind in "fc": + return _array_equivalent_float(left, right) + elif left.dtype.kind in "mM": + return _array_equivalent_datetimelike(left, right) + elif is_string_or_object_np_dtype(left.dtype): + # TODO: fastpath for pandas' StringDtype + return _array_equivalent_object(left, right, strict_nan) + else: + return np.array_equal(left, right) + + # Slow path when we allow comparing different dtypes. + # Object arrays can contain None, NaN and NaT. + # string dtypes must be come to this path for NumPy 1.7.1 compat + if left.dtype.kind in "OSU" or right.dtype.kind in "OSU": + # Note: `in "OSU"` is non-trivially faster than `in ["O", "S", "U"]` + # or `in ("O", "S", "U")` + return _array_equivalent_object(left, right, strict_nan) + + # NaNs can occur in float and complex arrays. + if left.dtype.kind in "fc": + if not (left.size and right.size): + return True + return ((left == right) | (isna(left) & isna(right))).all() + + elif left.dtype.kind in "mM" or right.dtype.kind in "mM": + # datetime64, timedelta64, Period + if left.dtype != right.dtype: + return False + + left = left.view("i8") + right = right.view("i8") + + # if we have structured dtypes, compare first + if ( + left.dtype.type is np.void or right.dtype.type is np.void + ) and left.dtype != right.dtype: + return False + + return np.array_equal(left, right) + + +def _array_equivalent_float(left: np.ndarray, right: np.ndarray) -> bool: + return bool(((left == right) | (np.isnan(left) & np.isnan(right))).all()) + + +def _array_equivalent_datetimelike(left: np.ndarray, right: np.ndarray): + return np.array_equal(left.view("i8"), right.view("i8")) + + +def _array_equivalent_object(left: np.ndarray, right: np.ndarray, strict_nan: bool): + left = ensure_object(left) + right = ensure_object(right) + + mask: npt.NDArray[np.bool_] | None = None + if strict_nan: + mask = isna(left) & isna(right) + if not mask.any(): + mask = None + + try: + if mask is None: + return lib.array_equivalent_object(left, right) + if not lib.array_equivalent_object(left[~mask], right[~mask]): + return False + left_remaining = left[mask] + right_remaining = right[mask] + except ValueError: + # can raise a ValueError if left and right cannot be + # compared (e.g. nested arrays) + left_remaining = left + right_remaining = right + + for left_value, right_value in zip(left_remaining, right_remaining): + if left_value is NaT and right_value is not NaT: + return False + + elif left_value is libmissing.NA and right_value is not libmissing.NA: + return False + + elif isinstance(left_value, float) and np.isnan(left_value): + if not isinstance(right_value, float) or not np.isnan(right_value): + return False + else: + with warnings.catch_warnings(): + # suppress numpy's "elementwise comparison failed" + warnings.simplefilter("ignore", DeprecationWarning) + try: + if np.any(np.asarray(left_value != right_value)): + return False + except TypeError as err: + if "boolean value of NA is ambiguous" in str(err): + return False + raise + except ValueError: + # numpy can raise a ValueError if left and right cannot be + # compared (e.g. nested arrays) + return False + return True + + +def array_equals(left: ArrayLike, right: ArrayLike) -> bool: + """ + ExtensionArray-compatible implementation of array_equivalent. + """ + if left.dtype != right.dtype: + return False + elif isinstance(left, ABCExtensionArray): + return left.equals(right) + else: + return array_equivalent(left, right, dtype_equal=True) + + +def infer_fill_value(val): + """ + infer the fill value for the nan/NaT from the provided + scalar/ndarray/list-like if we are a NaT, return the correct dtyped + element to provide proper block construction + """ + if not is_list_like(val): + val = [val] + val = np.asarray(val) + if val.dtype.kind in "mM": + return np.array("NaT", dtype=val.dtype) + elif val.dtype == object: + dtype = lib.infer_dtype(ensure_object(val), skipna=False) + if dtype in ["datetime", "datetime64"]: + return np.array("NaT", dtype=DT64NS_DTYPE) + elif dtype in ["timedelta", "timedelta64"]: + return np.array("NaT", dtype=TD64NS_DTYPE) + return np.array(np.nan, dtype=object) + elif val.dtype.kind == "U": + return np.array(np.nan, dtype=val.dtype) + return np.nan + + +def construct_1d_array_from_inferred_fill_value( + value: object, length: int +) -> ArrayLike: + # Find our empty_value dtype by constructing an array + # from our value and doing a .take on it + from pandas.core.algorithms import take_nd + from pandas.core.construction import sanitize_array + from pandas.core.indexes.base import Index + + arr = sanitize_array(value, Index(range(1)), copy=False) + taker = -1 * np.ones(length, dtype=np.intp) + return take_nd(arr, taker) + + +def maybe_fill(arr: np.ndarray) -> np.ndarray: + """ + Fill numpy.ndarray with NaN, unless we have a integer or boolean dtype. + """ + if arr.dtype.kind not in "iub": + arr.fill(np.nan) + return arr + + +def na_value_for_dtype(dtype: DtypeObj, compat: bool = True): + """ + Return a dtype compat na value + + Parameters + ---------- + dtype : string / dtype + compat : bool, default True + + Returns + ------- + np.dtype or a pandas dtype + + Examples + -------- + >>> na_value_for_dtype(np.dtype('int64')) + 0 + >>> na_value_for_dtype(np.dtype('int64'), compat=False) + nan + >>> na_value_for_dtype(np.dtype('float64')) + nan + >>> na_value_for_dtype(np.dtype('bool')) + False + >>> na_value_for_dtype(np.dtype('datetime64[ns]')) + numpy.datetime64('NaT') + """ + + if isinstance(dtype, ExtensionDtype): + return dtype.na_value + elif dtype.kind in "mM": + unit = np.datetime_data(dtype)[0] + return dtype.type("NaT", unit) + elif dtype.kind == "f": + return np.nan + elif dtype.kind in "iu": + if compat: + return 0 + return np.nan + elif dtype.kind == "b": + if compat: + return False + return np.nan + return np.nan + + +def remove_na_arraylike(arr: Series | Index | np.ndarray): + """ + Return array-like containing only true/non-NaN values, possibly empty. + """ + if isinstance(arr.dtype, ExtensionDtype): + return arr[notna(arr)] + else: + return arr[notna(np.asarray(arr))] + + +def is_valid_na_for_dtype(obj, dtype: DtypeObj) -> bool: + """ + isna check that excludes incompatible dtypes + + Parameters + ---------- + obj : object + dtype : np.datetime64, np.timedelta64, DatetimeTZDtype, or PeriodDtype + + Returns + ------- + bool + """ + if not lib.is_scalar(obj) or not isna(obj): + return False + elif dtype.kind == "M": + if isinstance(dtype, np.dtype): + # i.e. not tzaware + return not isinstance(obj, (np.timedelta64, Decimal)) + # we have to rule out tznaive dt64("NaT") + return not isinstance(obj, (np.timedelta64, np.datetime64, Decimal)) + elif dtype.kind == "m": + return not isinstance(obj, (np.datetime64, Decimal)) + elif dtype.kind in "iufc": + # Numeric + return obj is not NaT and not isinstance(obj, (np.datetime64, np.timedelta64)) + elif dtype.kind == "b": + # We allow pd.NA, None, np.nan in BooleanArray (same as IntervalDtype) + return lib.is_float(obj) or obj is None or obj is libmissing.NA + + elif dtype == _dtype_str: + # numpy string dtypes to avoid float np.nan + return not isinstance(obj, (np.datetime64, np.timedelta64, Decimal, float)) + + elif dtype == _dtype_object: + # This is needed for Categorical, but is kind of weird + return True + + elif isinstance(dtype, PeriodDtype): + return not isinstance(obj, (np.datetime64, np.timedelta64, Decimal)) + + elif isinstance(dtype, IntervalDtype): + return lib.is_float(obj) or obj is None or obj is libmissing.NA + + elif isinstance(dtype, CategoricalDtype): + return is_valid_na_for_dtype(obj, dtype.categories.dtype) + + # fallback, default to allowing NaN, None, NA, NaT + return not isinstance(obj, (np.datetime64, np.timedelta64, Decimal)) + + +def isna_all(arr: ArrayLike) -> bool: + """ + Optimized equivalent to isna(arr).all() + """ + total_len = len(arr) + + # Usually it's enough to check but a small fraction of values to see if + # a block is NOT null, chunks should help in such cases. + # parameters 1000 and 40 were chosen arbitrarily + chunk_len = max(total_len // 40, 1000) + + dtype = arr.dtype + if lib.is_np_dtype(dtype, "f"): + checker = nan_checker + + elif (lib.is_np_dtype(dtype, "mM")) or isinstance( + dtype, (DatetimeTZDtype, PeriodDtype) + ): + # error: Incompatible types in assignment (expression has type + # "Callable[[Any], Any]", variable has type "ufunc") + checker = lambda x: np.asarray(x.view("i8")) == iNaT # type: ignore[assignment] + + else: + # error: Incompatible types in assignment (expression has type "Callable[[Any], + # Any]", variable has type "ufunc") + checker = lambda x: _isna_array( # type: ignore[assignment] + x, inf_as_na=INF_AS_NA + ) + + return all( + checker(arr[i : i + chunk_len]).all() for i in range(0, total_len, chunk_len) + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/frame.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/frame.py new file mode 100644 index 0000000000000000000000000000000000000000..ef48090f02c3f89ed273365fe28419d0446b58d2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/frame.py @@ -0,0 +1,12704 @@ +""" +DataFrame +--------- +An efficient 2D container for potentially mixed-type time series or other +labeled data series. + +Similar to its R counterpart, data.frame, except providing automatic data +alignment and a host of useful data manipulation methods having to do with the +labeling information +""" +from __future__ import annotations + +import collections +from collections import abc +from collections.abc import ( + Hashable, + Iterable, + Iterator, + Mapping, + Sequence, +) +import functools +from inspect import signature +from io import StringIO +import itertools +import operator +import sys +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, + overload, +) +import warnings + +import numpy as np +from numpy import ma + +from pandas._config import ( + get_option, + using_copy_on_write, + warn_copy_on_write, +) +from pandas._config.config import _get_option + +from pandas._libs import ( + algos as libalgos, + lib, + properties, +) +from pandas._libs.hashtable import duplicated +from pandas._libs.lib import is_range_indexer +from pandas.compat import PYPY +from pandas.compat._constants import REF_COUNT +from pandas.compat._optional import import_optional_dependency +from pandas.compat.numpy import function as nv +from pandas.errors import ( + ChainedAssignmentError, + InvalidIndexError, + _chained_assignment_method_msg, + _chained_assignment_msg, + _chained_assignment_warning_method_msg, + _chained_assignment_warning_msg, +) +from pandas.util._decorators import ( + Appender, + Substitution, + deprecate_nonkeyword_arguments, + doc, +) +from pandas.util._exceptions import ( + find_stack_level, + rewrite_warning, +) +from pandas.util._validators import ( + validate_ascending, + validate_bool_kwarg, + validate_percentile, +) + +from pandas.core.dtypes.cast import ( + LossySetitemError, + can_hold_element, + construct_1d_arraylike_from_scalar, + construct_2d_arraylike_from_scalar, + find_common_type, + infer_dtype_from_scalar, + invalidate_string_dtypes, + maybe_box_native, + maybe_downcast_to_dtype, +) +from pandas.core.dtypes.common import ( + infer_dtype_from_object, + is_1d_only_ea_dtype, + is_array_like, + is_bool_dtype, + is_dataclass, + is_dict_like, + is_float, + is_float_dtype, + is_hashable, + is_integer, + is_integer_dtype, + is_iterator, + is_list_like, + is_scalar, + is_sequence, + needs_i8_conversion, + pandas_dtype, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + BaseMaskedDtype, + ExtensionDtype, +) +from pandas.core.dtypes.missing import ( + isna, + notna, +) + +from pandas.core import ( + algorithms, + common as com, + nanops, + ops, + roperator, +) +from pandas.core.accessor import CachedAccessor +from pandas.core.apply import reconstruct_and_relabel_result +from pandas.core.array_algos.take import take_2d_multi +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays import ( + BaseMaskedArray, + DatetimeArray, + ExtensionArray, + PeriodArray, + TimedeltaArray, +) +from pandas.core.arrays.sparse import SparseFrameAccessor +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + sanitize_array, + sanitize_masked_array, +) +from pandas.core.generic import ( + NDFrame, + make_doc, +) +from pandas.core.indexers import check_key_length +from pandas.core.indexes.api import ( + DatetimeIndex, + Index, + PeriodIndex, + default_index, + ensure_index, + ensure_index_from_sequences, +) +from pandas.core.indexes.multi import ( + MultiIndex, + maybe_droplevels, +) +from pandas.core.indexing import ( + check_bool_indexer, + check_dict_or_set_indexers, +) +from pandas.core.internals import ( + ArrayManager, + BlockManager, +) +from pandas.core.internals.construction import ( + arrays_to_mgr, + dataclasses_to_dicts, + dict_to_mgr, + mgr_to_mgr, + ndarray_to_mgr, + nested_data_to_arrays, + rec_array_to_mgr, + reorder_arrays, + to_arrays, + treat_as_nested, +) +from pandas.core.methods import selectn +from pandas.core.reshape.melt import melt +from pandas.core.series import Series +from pandas.core.shared_docs import _shared_docs +from pandas.core.sorting import ( + get_group_index, + lexsort_indexer, + nargsort, +) + +from pandas.io.common import get_handle +from pandas.io.formats import ( + console, + format as fmt, +) +from pandas.io.formats.info import ( + INFO_DOCSTRING, + DataFrameInfo, + frame_sub_kwargs, +) +import pandas.plotting + +if TYPE_CHECKING: + import datetime + + from pandas._libs.internals import BlockValuesRefs + from pandas._typing import ( + AggFuncType, + AnyAll, + AnyArrayLike, + ArrayLike, + Axes, + Axis, + AxisInt, + ColspaceArgType, + CompressionOptions, + CorrelationMethod, + DropKeep, + Dtype, + DtypeObj, + FilePath, + FloatFormatType, + FormattersType, + Frequency, + FromDictOrient, + IgnoreRaise, + IndexKeyFunc, + IndexLabel, + JoinValidate, + Level, + MergeHow, + MergeValidate, + MutableMappingT, + NaAction, + NaPosition, + NsmallestNlargestKeep, + PythonFuncType, + QuantileInterpolation, + ReadBuffer, + ReindexMethod, + Renamer, + Scalar, + Self, + SequenceNotStr, + SortKind, + StorageOptions, + Suffixes, + ToGbqIfexist, + ToStataByteorder, + ToTimestampHow, + UpdateJoin, + ValueKeyFunc, + WriteBuffer, + XMLParsers, + npt, + ) + + from pandas.core.groupby.generic import DataFrameGroupBy + from pandas.core.interchange.dataframe_protocol import DataFrame as DataFrameXchg + from pandas.core.internals import SingleDataManager + + from pandas.io.formats.style import Styler + +# --------------------------------------------------------------------- +# Docstring templates + +_shared_doc_kwargs = { + "axes": "index, columns", + "klass": "DataFrame", + "axes_single_arg": "{0 or 'index', 1 or 'columns'}", + "axis": """axis : {0 or 'index', 1 or 'columns'}, default 0 + If 0 or 'index': apply function to each column. + If 1 or 'columns': apply function to each row.""", + "inplace": """ + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one.""", + "optional_by": """ +by : str or list of str + Name or list of names to sort by. + + - if `axis` is 0 or `'index'` then `by` may contain index + levels and/or column labels. + - if `axis` is 1 or `'columns'` then `by` may contain column + levels and/or index labels.""", + "optional_reindex": """ +labels : array-like, optional + New labels / index to conform the axis specified by 'axis' to. +index : array-like, optional + New labels for the index. Preferably an Index object to avoid + duplicating data. +columns : array-like, optional + New labels for the columns. Preferably an Index object to avoid + duplicating data. +axis : int or str, optional + Axis to target. Can be either the axis name ('index', 'columns') + or number (0, 1).""", +} + +_merge_doc = """ +Merge DataFrame or named Series objects with a database-style join. + +A named Series object is treated as a DataFrame with a single named column. + +The join is done on columns or indexes. If joining columns on +columns, the DataFrame indexes *will be ignored*. Otherwise if joining indexes +on indexes or indexes on a column or columns, the index will be passed on. +When performing a cross merge, no column specifications to merge on are +allowed. + +.. warning:: + + If both key columns contain rows where the key is a null value, those + rows will be matched against each other. This is different from usual SQL + join behaviour and can lead to unexpected results. + +Parameters +----------%s +right : DataFrame or named Series + Object to merge with. +how : {'left', 'right', 'outer', 'inner', 'cross'}, default 'inner' + Type of merge to be performed. + + * left: use only keys from left frame, similar to a SQL left outer join; + preserve key order. + * right: use only keys from right frame, similar to a SQL right outer join; + preserve key order. + * outer: use union of keys from both frames, similar to a SQL full outer + join; sort keys lexicographically. + * inner: use intersection of keys from both frames, similar to a SQL inner + join; preserve the order of the left keys. + * cross: creates the cartesian product from both frames, preserves the order + of the left keys. +on : label or list + Column or index level names to join on. These must be found in both + DataFrames. If `on` is None and not merging on indexes then this defaults + to the intersection of the columns in both DataFrames. +left_on : label or list, or array-like + Column or index level names to join on in the left DataFrame. Can also + be an array or list of arrays of the length of the left DataFrame. + These arrays are treated as if they are columns. +right_on : label or list, or array-like + Column or index level names to join on in the right DataFrame. Can also + be an array or list of arrays of the length of the right DataFrame. + These arrays are treated as if they are columns. +left_index : bool, default False + Use the index from the left DataFrame as the join key(s). If it is a + MultiIndex, the number of keys in the other DataFrame (either the index + or a number of columns) must match the number of levels. +right_index : bool, default False + Use the index from the right DataFrame as the join key. Same caveats as + left_index. +sort : bool, default False + Sort the join keys lexicographically in the result DataFrame. If False, + the order of the join keys depends on the join type (how keyword). +suffixes : list-like, default is ("_x", "_y") + A length-2 sequence where each element is optionally a string + indicating the suffix to add to overlapping column names in + `left` and `right` respectively. Pass a value of `None` instead + of a string to indicate that the column name from `left` or + `right` should be left as-is, with no suffix. At least one of the + values must not be None. +copy : bool, default True + If False, avoid copy if possible. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` +indicator : bool or str, default False + If True, adds a column to the output DataFrame called "_merge" with + information on the source of each row. The column can be given a different + name by providing a string argument. The column will have a Categorical + type with the value of "left_only" for observations whose merge key only + appears in the left DataFrame, "right_only" for observations + whose merge key only appears in the right DataFrame, and "both" + if the observation's merge key is found in both DataFrames. + +validate : str, optional + If specified, checks if merge is of specified type. + + * "one_to_one" or "1:1": check if merge keys are unique in both + left and right datasets. + * "one_to_many" or "1:m": check if merge keys are unique in left + dataset. + * "many_to_one" or "m:1": check if merge keys are unique in right + dataset. + * "many_to_many" or "m:m": allowed, but does not result in checks. + +Returns +------- +DataFrame + A DataFrame of the two merged objects. + +See Also +-------- +merge_ordered : Merge with optional filling/interpolation. +merge_asof : Merge on nearest keys. +DataFrame.join : Similar method using indices. + +Examples +-------- +>>> df1 = pd.DataFrame({'lkey': ['foo', 'bar', 'baz', 'foo'], +... 'value': [1, 2, 3, 5]}) +>>> df2 = pd.DataFrame({'rkey': ['foo', 'bar', 'baz', 'foo'], +... 'value': [5, 6, 7, 8]}) +>>> df1 + lkey value +0 foo 1 +1 bar 2 +2 baz 3 +3 foo 5 +>>> df2 + rkey value +0 foo 5 +1 bar 6 +2 baz 7 +3 foo 8 + +Merge df1 and df2 on the lkey and rkey columns. The value columns have +the default suffixes, _x and _y, appended. + +>>> df1.merge(df2, left_on='lkey', right_on='rkey') + lkey value_x rkey value_y +0 foo 1 foo 5 +1 foo 1 foo 8 +2 bar 2 bar 6 +3 baz 3 baz 7 +4 foo 5 foo 5 +5 foo 5 foo 8 + +Merge DataFrames df1 and df2 with specified left and right suffixes +appended to any overlapping columns. + +>>> df1.merge(df2, left_on='lkey', right_on='rkey', +... suffixes=('_left', '_right')) + lkey value_left rkey value_right +0 foo 1 foo 5 +1 foo 1 foo 8 +2 bar 2 bar 6 +3 baz 3 baz 7 +4 foo 5 foo 5 +5 foo 5 foo 8 + +Merge DataFrames df1 and df2, but raise an exception if the DataFrames have +any overlapping columns. + +>>> df1.merge(df2, left_on='lkey', right_on='rkey', suffixes=(False, False)) +Traceback (most recent call last): +... +ValueError: columns overlap but no suffix specified: + Index(['value'], dtype='object') + +>>> df1 = pd.DataFrame({'a': ['foo', 'bar'], 'b': [1, 2]}) +>>> df2 = pd.DataFrame({'a': ['foo', 'baz'], 'c': [3, 4]}) +>>> df1 + a b +0 foo 1 +1 bar 2 +>>> df2 + a c +0 foo 3 +1 baz 4 + +>>> df1.merge(df2, how='inner', on='a') + a b c +0 foo 1 3 + +>>> df1.merge(df2, how='left', on='a') + a b c +0 foo 1 3.0 +1 bar 2 NaN + +>>> df1 = pd.DataFrame({'left': ['foo', 'bar']}) +>>> df2 = pd.DataFrame({'right': [7, 8]}) +>>> df1 + left +0 foo +1 bar +>>> df2 + right +0 7 +1 8 + +>>> df1.merge(df2, how='cross') + left right +0 foo 7 +1 foo 8 +2 bar 7 +3 bar 8 +""" + + +# ----------------------------------------------------------------------- +# DataFrame class + + +class DataFrame(NDFrame, OpsMixin): + """ + Two-dimensional, size-mutable, potentially heterogeneous tabular data. + + Data structure also contains labeled axes (rows and columns). + Arithmetic operations align on both row and column labels. Can be + thought of as a dict-like container for Series objects. The primary + pandas data structure. + + Parameters + ---------- + data : ndarray (structured or homogeneous), Iterable, dict, or DataFrame + Dict can contain Series, arrays, constants, dataclass or list-like objects. If + data is a dict, column order follows insertion-order. If a dict contains Series + which have an index defined, it is aligned by its index. This alignment also + occurs if data is a Series or a DataFrame itself. Alignment is done on + Series/DataFrame inputs. + + If data is a list of dicts, column order follows insertion-order. + + index : Index or array-like + Index to use for resulting frame. Will default to RangeIndex if + no indexing information part of input data and no index provided. + columns : Index or array-like + Column labels to use for resulting frame when data does not have them, + defaulting to RangeIndex(0, 1, 2, ..., n). If data contains column labels, + will perform column selection instead. + dtype : dtype, default None + Data type to force. Only a single dtype is allowed. If None, infer. + copy : bool or None, default None + Copy data from inputs. + For dict data, the default of None behaves like ``copy=True``. For DataFrame + or 2d ndarray input, the default of None behaves like ``copy=False``. + If data is a dict containing one or more Series (possibly of different dtypes), + ``copy=False`` will ensure that these inputs are not copied. + + .. versionchanged:: 1.3.0 + + See Also + -------- + DataFrame.from_records : Constructor from tuples, also record arrays. + DataFrame.from_dict : From dicts of Series, arrays, or dicts. + read_csv : Read a comma-separated values (csv) file into DataFrame. + read_table : Read general delimited file into DataFrame. + read_clipboard : Read text from clipboard into DataFrame. + + Notes + ----- + Please reference the :ref:`User Guide ` for more information. + + Examples + -------- + Constructing DataFrame from a dictionary. + + >>> d = {'col1': [1, 2], 'col2': [3, 4]} + >>> df = pd.DataFrame(data=d) + >>> df + col1 col2 + 0 1 3 + 1 2 4 + + Notice that the inferred dtype is int64. + + >>> df.dtypes + col1 int64 + col2 int64 + dtype: object + + To enforce a single dtype: + + >>> df = pd.DataFrame(data=d, dtype=np.int8) + >>> df.dtypes + col1 int8 + col2 int8 + dtype: object + + Constructing DataFrame from a dictionary including Series: + + >>> d = {'col1': [0, 1, 2, 3], 'col2': pd.Series([2, 3], index=[2, 3])} + >>> pd.DataFrame(data=d, index=[0, 1, 2, 3]) + col1 col2 + 0 0 NaN + 1 1 NaN + 2 2 2.0 + 3 3 3.0 + + Constructing DataFrame from numpy ndarray: + + >>> df2 = pd.DataFrame(np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]]), + ... columns=['a', 'b', 'c']) + >>> df2 + a b c + 0 1 2 3 + 1 4 5 6 + 2 7 8 9 + + Constructing DataFrame from a numpy ndarray that has labeled columns: + + >>> data = np.array([(1, 2, 3), (4, 5, 6), (7, 8, 9)], + ... dtype=[("a", "i4"), ("b", "i4"), ("c", "i4")]) + >>> df3 = pd.DataFrame(data, columns=['c', 'a']) + ... + >>> df3 + c a + 0 3 1 + 1 6 4 + 2 9 7 + + Constructing DataFrame from dataclass: + + >>> from dataclasses import make_dataclass + >>> Point = make_dataclass("Point", [("x", int), ("y", int)]) + >>> pd.DataFrame([Point(0, 0), Point(0, 3), Point(2, 3)]) + x y + 0 0 0 + 1 0 3 + 2 2 3 + + Constructing DataFrame from Series/DataFrame: + + >>> ser = pd.Series([1, 2, 3], index=["a", "b", "c"]) + >>> df = pd.DataFrame(data=ser, index=["a", "c"]) + >>> df + 0 + a 1 + c 3 + + >>> df1 = pd.DataFrame([1, 2, 3], index=["a", "b", "c"], columns=["x"]) + >>> df2 = pd.DataFrame(data=df1, index=["a", "c"]) + >>> df2 + x + a 1 + c 3 + """ + + _internal_names_set = {"columns", "index"} | NDFrame._internal_names_set + _typ = "dataframe" + _HANDLED_TYPES = (Series, Index, ExtensionArray, np.ndarray) + _accessors: set[str] = {"sparse"} + _hidden_attrs: frozenset[str] = NDFrame._hidden_attrs | frozenset([]) + _mgr: BlockManager | ArrayManager + + # similar to __array_priority__, positions DataFrame before Series, Index, + # and ExtensionArray. Should NOT be overridden by subclasses. + __pandas_priority__ = 4000 + + @property + def _constructor(self) -> Callable[..., DataFrame]: + return DataFrame + + def _constructor_from_mgr(self, mgr, axes) -> DataFrame: + df = DataFrame._from_mgr(mgr, axes=axes) + + if type(self) is DataFrame: + # This would also work `if self._constructor is DataFrame`, but + # this check is slightly faster, benefiting the most-common case. + return df + + elif type(self).__name__ == "GeoDataFrame": + # Shim until geopandas can override their _constructor_from_mgr + # bc they have different behavior for Managers than for DataFrames + return self._constructor(mgr) + + # We assume that the subclass __init__ knows how to handle a + # pd.DataFrame object. + return self._constructor(df) + + _constructor_sliced: Callable[..., Series] = Series + + def _constructor_sliced_from_mgr(self, mgr, axes) -> Series: + ser = Series._from_mgr(mgr, axes) + ser._name = None # caller is responsible for setting real name + + if type(self) is DataFrame: + # This would also work `if self._constructor_sliced is Series`, but + # this check is slightly faster, benefiting the most-common case. + return ser + + # We assume that the subclass __init__ knows how to handle a + # pd.Series object. + return self._constructor_sliced(ser) + + # ---------------------------------------------------------------------- + # Constructors + + def __init__( + self, + data=None, + index: Axes | None = None, + columns: Axes | None = None, + dtype: Dtype | None = None, + copy: bool | None = None, + ) -> None: + allow_mgr = False + if dtype is not None: + dtype = self._validate_dtype(dtype) + + if isinstance(data, DataFrame): + data = data._mgr + allow_mgr = True + if not copy: + # if not copying data, ensure to still return a shallow copy + # to avoid the result sharing the same Manager + data = data.copy(deep=False) + + if isinstance(data, (BlockManager, ArrayManager)): + if not allow_mgr: + # GH#52419 + warnings.warn( + f"Passing a {type(data).__name__} to {type(self).__name__} " + "is deprecated and will raise in a future version. " + "Use public APIs instead.", + DeprecationWarning, + stacklevel=1, # bump to 2 once pyarrow 15.0 is released with fix + ) + + if using_copy_on_write(): + data = data.copy(deep=False) + # first check if a Manager is passed without any other arguments + # -> use fastpath (without checking Manager type) + if index is None and columns is None and dtype is None and not copy: + # GH#33357 fastpath + NDFrame.__init__(self, data) + return + + manager = _get_option("mode.data_manager", silent=True) + + is_pandas_object = isinstance(data, (Series, Index, ExtensionArray)) + data_dtype = getattr(data, "dtype", None) + original_dtype = dtype + + # GH47215 + if isinstance(index, set): + raise ValueError("index cannot be a set") + if isinstance(columns, set): + raise ValueError("columns cannot be a set") + + if copy is None: + if isinstance(data, dict): + # retain pre-GH#38939 default behavior + copy = True + elif ( + manager == "array" + and isinstance(data, (np.ndarray, ExtensionArray)) + and data.ndim == 2 + ): + # INFO(ArrayManager) by default copy the 2D input array to get + # contiguous 1D arrays + copy = True + elif using_copy_on_write() and not isinstance( + data, (Index, DataFrame, Series) + ): + copy = True + else: + copy = False + + if data is None: + index = index if index is not None else default_index(0) + columns = columns if columns is not None else default_index(0) + dtype = dtype if dtype is not None else pandas_dtype(object) + data = [] + + if isinstance(data, (BlockManager, ArrayManager)): + mgr = self._init_mgr( + data, axes={"index": index, "columns": columns}, dtype=dtype, copy=copy + ) + + elif isinstance(data, dict): + # GH#38939 de facto copy defaults to False only in non-dict cases + mgr = dict_to_mgr(data, index, columns, dtype=dtype, copy=copy, typ=manager) + elif isinstance(data, ma.MaskedArray): + from numpy.ma import mrecords + + # masked recarray + if isinstance(data, mrecords.MaskedRecords): + raise TypeError( + "MaskedRecords are not supported. Pass " + "{name: data[name] for name in data.dtype.names} " + "instead" + ) + + # a masked array + data = sanitize_masked_array(data) + mgr = ndarray_to_mgr( + data, + index, + columns, + dtype=dtype, + copy=copy, + typ=manager, + ) + + elif isinstance(data, (np.ndarray, Series, Index, ExtensionArray)): + if data.dtype.names: + # i.e. numpy structured array + data = cast(np.ndarray, data) + mgr = rec_array_to_mgr( + data, + index, + columns, + dtype, + copy, + typ=manager, + ) + elif getattr(data, "name", None) is not None: + # i.e. Series/Index with non-None name + _copy = copy if using_copy_on_write() else True + mgr = dict_to_mgr( + # error: Item "ndarray" of "Union[ndarray, Series, Index]" has no + # attribute "name" + {data.name: data}, # type: ignore[union-attr] + index, + columns, + dtype=dtype, + typ=manager, + copy=_copy, + ) + else: + mgr = ndarray_to_mgr( + data, + index, + columns, + dtype=dtype, + copy=copy, + typ=manager, + ) + + # For data is list-like, or Iterable (will consume into list) + elif is_list_like(data): + if not isinstance(data, abc.Sequence): + if hasattr(data, "__array__"): + # GH#44616 big perf improvement for e.g. pytorch tensor + data = np.asarray(data) + else: + data = list(data) + if len(data) > 0: + if is_dataclass(data[0]): + data = dataclasses_to_dicts(data) + if not isinstance(data, np.ndarray) and treat_as_nested(data): + # exclude ndarray as we may have cast it a few lines above + if columns is not None: + columns = ensure_index(columns) + arrays, columns, index = nested_data_to_arrays( + # error: Argument 3 to "nested_data_to_arrays" has incompatible + # type "Optional[Collection[Any]]"; expected "Optional[Index]" + data, + columns, + index, # type: ignore[arg-type] + dtype, + ) + mgr = arrays_to_mgr( + arrays, + columns, + index, + dtype=dtype, + typ=manager, + ) + else: + mgr = ndarray_to_mgr( + data, + index, + columns, + dtype=dtype, + copy=copy, + typ=manager, + ) + else: + mgr = dict_to_mgr( + {}, + index, + columns if columns is not None else default_index(0), + dtype=dtype, + typ=manager, + ) + # For data is scalar + else: + if index is None or columns is None: + raise ValueError("DataFrame constructor not properly called!") + + index = ensure_index(index) + columns = ensure_index(columns) + + if not dtype: + dtype, _ = infer_dtype_from_scalar(data) + + # For data is a scalar extension dtype + if isinstance(dtype, ExtensionDtype): + # TODO(EA2D): special case not needed with 2D EAs + + values = [ + construct_1d_arraylike_from_scalar(data, len(index), dtype) + for _ in range(len(columns)) + ] + mgr = arrays_to_mgr(values, columns, index, dtype=None, typ=manager) + else: + arr2d = construct_2d_arraylike_from_scalar( + data, + len(index), + len(columns), + dtype, + copy, + ) + + mgr = ndarray_to_mgr( + arr2d, + index, + columns, + dtype=arr2d.dtype, + copy=False, + typ=manager, + ) + + # ensure correct Manager type according to settings + mgr = mgr_to_mgr(mgr, typ=manager) + + NDFrame.__init__(self, mgr) + + if original_dtype is None and is_pandas_object and data_dtype == np.object_: + if self.dtypes.iloc[0] != data_dtype: + warnings.warn( + "Dtype inference on a pandas object " + "(Series, Index, ExtensionArray) is deprecated. The DataFrame " + "constructor will keep the original dtype in the future. " + "Call `infer_objects` on the result to get the old " + "behavior.", + FutureWarning, + stacklevel=2, + ) + + # ---------------------------------------------------------------------- + + def __dataframe__( + self, nan_as_null: bool = False, allow_copy: bool = True + ) -> DataFrameXchg: + """ + Return the dataframe interchange object implementing the interchange protocol. + + Parameters + ---------- + nan_as_null : bool, default False + `nan_as_null` is DEPRECATED and has no effect. Please avoid using + it; it will be removed in a future release. + allow_copy : bool, default True + Whether to allow memory copying when exporting. If set to False + it would cause non-zero-copy exports to fail. + + Returns + ------- + DataFrame interchange object + The object which consuming library can use to ingress the dataframe. + + Notes + ----- + Details on the interchange protocol: + https://data-apis.org/dataframe-protocol/latest/index.html + + Examples + -------- + >>> df_not_necessarily_pandas = pd.DataFrame({'A': [1, 2], 'B': [3, 4]}) + >>> interchange_object = df_not_necessarily_pandas.__dataframe__() + >>> interchange_object.column_names() + Index(['A', 'B'], dtype='object') + >>> df_pandas = (pd.api.interchange.from_dataframe + ... (interchange_object.select_columns_by_name(['A']))) + >>> df_pandas + A + 0 1 + 1 2 + + These methods (``column_names``, ``select_columns_by_name``) should work + for any dataframe library which implements the interchange protocol. + """ + + from pandas.core.interchange.dataframe import PandasDataFrameXchg + + return PandasDataFrameXchg(self, allow_copy=allow_copy) + + def __dataframe_consortium_standard__( + self, *, api_version: str | None = None + ) -> Any: + """ + Provide entry point to the Consortium DataFrame Standard API. + + This is developed and maintained outside of pandas. + Please report any issues to https://github.com/data-apis/dataframe-api-compat. + """ + dataframe_api_compat = import_optional_dependency("dataframe_api_compat") + convert_to_standard_compliant_dataframe = ( + dataframe_api_compat.pandas_standard.convert_to_standard_compliant_dataframe + ) + return convert_to_standard_compliant_dataframe(self, api_version=api_version) + + def __arrow_c_stream__(self, requested_schema=None): + """ + Export the pandas DataFrame as an Arrow C stream PyCapsule. + + This relies on pyarrow to convert the pandas DataFrame to the Arrow + format (and follows the default behaviour of ``pyarrow.Table.from_pandas`` + in its handling of the index, i.e. store the index as a column except + for RangeIndex). + This conversion is not necessarily zero-copy. + + Parameters + ---------- + requested_schema : PyCapsule, default None + The schema to which the dataframe should be casted, passed as a + PyCapsule containing a C ArrowSchema representation of the + requested schema. + + Returns + ------- + PyCapsule + """ + pa = import_optional_dependency("pyarrow", min_version="14.0.0") + if requested_schema is not None: + requested_schema = pa.Schema._import_from_c_capsule(requested_schema) + table = pa.Table.from_pandas(self, schema=requested_schema) + return table.__arrow_c_stream__() + + # ---------------------------------------------------------------------- + + @property + def axes(self) -> list[Index]: + """ + Return a list representing the axes of the DataFrame. + + It has the row axis labels and column axis labels as the only members. + They are returned in that order. + + Examples + -------- + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df.axes + [RangeIndex(start=0, stop=2, step=1), Index(['col1', 'col2'], + dtype='object')] + """ + return [self.index, self.columns] + + @property + def shape(self) -> tuple[int, int]: + """ + Return a tuple representing the dimensionality of the DataFrame. + + See Also + -------- + ndarray.shape : Tuple of array dimensions. + + Examples + -------- + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df.shape + (2, 2) + + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4], + ... 'col3': [5, 6]}) + >>> df.shape + (2, 3) + """ + return len(self.index), len(self.columns) + + @property + def _is_homogeneous_type(self) -> bool: + """ + Whether all the columns in a DataFrame have the same type. + + Returns + ------- + bool + + Examples + -------- + >>> DataFrame({"A": [1, 2], "B": [3, 4]})._is_homogeneous_type + True + >>> DataFrame({"A": [1, 2], "B": [3.0, 4.0]})._is_homogeneous_type + False + + Items with the same type but different sizes are considered + different types. + + >>> DataFrame({ + ... "A": np.array([1, 2], dtype=np.int32), + ... "B": np.array([1, 2], dtype=np.int64)})._is_homogeneous_type + False + """ + # The "<" part of "<=" here is for empty DataFrame cases + return len({arr.dtype for arr in self._mgr.arrays}) <= 1 + + @property + def _can_fast_transpose(self) -> bool: + """ + Can we transpose this DataFrame without creating any new array objects. + """ + if isinstance(self._mgr, ArrayManager): + return False + blocks = self._mgr.blocks + if len(blocks) != 1: + return False + + dtype = blocks[0].dtype + # TODO(EA2D) special case would be unnecessary with 2D EAs + return not is_1d_only_ea_dtype(dtype) + + @property + def _values(self) -> np.ndarray | DatetimeArray | TimedeltaArray | PeriodArray: + """ + Analogue to ._values that may return a 2D ExtensionArray. + """ + mgr = self._mgr + + if isinstance(mgr, ArrayManager): + if len(mgr.arrays) == 1 and not is_1d_only_ea_dtype(mgr.arrays[0].dtype): + # error: Item "ExtensionArray" of "Union[ndarray, ExtensionArray]" + # has no attribute "reshape" + return mgr.arrays[0].reshape(-1, 1) # type: ignore[union-attr] + return ensure_wrapped_if_datetimelike(self.values) + + blocks = mgr.blocks + if len(blocks) != 1: + return ensure_wrapped_if_datetimelike(self.values) + + arr = blocks[0].values + if arr.ndim == 1: + # non-2D ExtensionArray + return self.values + + # more generally, whatever we allow in NDArrayBackedExtensionBlock + arr = cast("np.ndarray | DatetimeArray | TimedeltaArray | PeriodArray", arr) + return arr.T + + # ---------------------------------------------------------------------- + # Rendering Methods + + def _repr_fits_vertical_(self) -> bool: + """ + Check length against max_rows. + """ + max_rows = get_option("display.max_rows") + return len(self) <= max_rows + + def _repr_fits_horizontal_(self) -> bool: + """ + Check if full repr fits in horizontal boundaries imposed by the display + options width and max_columns. + """ + width, height = console.get_console_size() + max_columns = get_option("display.max_columns") + nb_columns = len(self.columns) + + # exceed max columns + if (max_columns and nb_columns > max_columns) or ( + width and nb_columns > (width // 2) + ): + return False + + # used by repr_html under IPython notebook or scripts ignore terminal + # dims + if width is None or not console.in_interactive_session(): + return True + + if get_option("display.width") is not None or console.in_ipython_frontend(): + # check at least the column row for excessive width + max_rows = 1 + else: + max_rows = get_option("display.max_rows") + + # when auto-detecting, so width=None and not in ipython front end + # check whether repr fits horizontal by actually checking + # the width of the rendered repr + buf = StringIO() + + # only care about the stuff we'll actually print out + # and to_string on entire frame may be expensive + d = self + + if max_rows is not None: # unlimited rows + # min of two, where one may be None + d = d.iloc[: min(max_rows, len(d))] + else: + return True + + d.to_string(buf=buf) + value = buf.getvalue() + repr_width = max(len(line) for line in value.split("\n")) + + return repr_width < width + + def _info_repr(self) -> bool: + """ + True if the repr should show the info view. + """ + info_repr_option = get_option("display.large_repr") == "info" + return info_repr_option and not ( + self._repr_fits_horizontal_() and self._repr_fits_vertical_() + ) + + def __repr__(self) -> str: + """ + Return a string representation for a particular DataFrame. + """ + if self._info_repr(): + buf = StringIO() + self.info(buf=buf) + return buf.getvalue() + + repr_params = fmt.get_dataframe_repr_params() + return self.to_string(**repr_params) + + def _repr_html_(self) -> str | None: + """ + Return a html representation for a particular DataFrame. + + Mainly for IPython notebook. + """ + if self._info_repr(): + buf = StringIO() + self.info(buf=buf) + # need to escape the , should be the first line. + val = buf.getvalue().replace("<", r"<", 1) + val = val.replace(">", r">", 1) + return f"
{val}
" + + if get_option("display.notebook_repr_html"): + max_rows = get_option("display.max_rows") + min_rows = get_option("display.min_rows") + max_cols = get_option("display.max_columns") + show_dimensions = get_option("display.show_dimensions") + + formatter = fmt.DataFrameFormatter( + self, + columns=None, + col_space=None, + na_rep="NaN", + formatters=None, + float_format=None, + sparsify=None, + justify=None, + index_names=True, + header=True, + index=True, + bold_rows=True, + escape=True, + max_rows=max_rows, + min_rows=min_rows, + max_cols=max_cols, + show_dimensions=show_dimensions, + decimal=".", + ) + return fmt.DataFrameRenderer(formatter).to_html(notebook=True) + else: + return None + + @overload + def to_string( + self, + buf: None = ..., + columns: Axes | None = ..., + col_space: int | list[int] | dict[Hashable, int] | None = ..., + header: bool | SequenceNotStr[str] = ..., + index: bool = ..., + na_rep: str = ..., + formatters: fmt.FormattersType | None = ..., + float_format: fmt.FloatFormatType | None = ..., + sparsify: bool | None = ..., + index_names: bool = ..., + justify: str | None = ..., + max_rows: int | None = ..., + max_cols: int | None = ..., + show_dimensions: bool = ..., + decimal: str = ..., + line_width: int | None = ..., + min_rows: int | None = ..., + max_colwidth: int | None = ..., + encoding: str | None = ..., + ) -> str: + ... + + @overload + def to_string( + self, + buf: FilePath | WriteBuffer[str], + columns: Axes | None = ..., + col_space: int | list[int] | dict[Hashable, int] | None = ..., + header: bool | SequenceNotStr[str] = ..., + index: bool = ..., + na_rep: str = ..., + formatters: fmt.FormattersType | None = ..., + float_format: fmt.FloatFormatType | None = ..., + sparsify: bool | None = ..., + index_names: bool = ..., + justify: str | None = ..., + max_rows: int | None = ..., + max_cols: int | None = ..., + show_dimensions: bool = ..., + decimal: str = ..., + line_width: int | None = ..., + min_rows: int | None = ..., + max_colwidth: int | None = ..., + encoding: str | None = ..., + ) -> None: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "buf"], name="to_string" + ) + @Substitution( + header_type="bool or list of str", + header="Write out the column names. If a list of columns " + "is given, it is assumed to be aliases for the " + "column names", + col_space_type="int, list or dict of int", + col_space="The minimum width of each column. If a list of ints is given " + "every integers corresponds with one column. If a dict is given, the key " + "references the column, while the value defines the space to use.", + ) + @Substitution(shared_params=fmt.common_docstring, returns=fmt.return_docstring) + def to_string( + self, + buf: FilePath | WriteBuffer[str] | None = None, + columns: Axes | None = None, + col_space: int | list[int] | dict[Hashable, int] | None = None, + header: bool | SequenceNotStr[str] = True, + index: bool = True, + na_rep: str = "NaN", + formatters: fmt.FormattersType | None = None, + float_format: fmt.FloatFormatType | None = None, + sparsify: bool | None = None, + index_names: bool = True, + justify: str | None = None, + max_rows: int | None = None, + max_cols: int | None = None, + show_dimensions: bool = False, + decimal: str = ".", + line_width: int | None = None, + min_rows: int | None = None, + max_colwidth: int | None = None, + encoding: str | None = None, + ) -> str | None: + """ + Render a DataFrame to a console-friendly tabular output. + %(shared_params)s + line_width : int, optional + Width to wrap a line in characters. + min_rows : int, optional + The number of rows to display in the console in a truncated repr + (when number of rows is above `max_rows`). + max_colwidth : int, optional + Max width to truncate each column in characters. By default, no limit. + encoding : str, default "utf-8" + Set character encoding. + %(returns)s + See Also + -------- + to_html : Convert DataFrame to HTML. + + Examples + -------- + >>> d = {'col1': [1, 2, 3], 'col2': [4, 5, 6]} + >>> df = pd.DataFrame(d) + >>> print(df.to_string()) + col1 col2 + 0 1 4 + 1 2 5 + 2 3 6 + """ + from pandas import option_context + + with option_context("display.max_colwidth", max_colwidth): + formatter = fmt.DataFrameFormatter( + self, + columns=columns, + col_space=col_space, + na_rep=na_rep, + formatters=formatters, + float_format=float_format, + sparsify=sparsify, + justify=justify, + index_names=index_names, + header=header, + index=index, + min_rows=min_rows, + max_rows=max_rows, + max_cols=max_cols, + show_dimensions=show_dimensions, + decimal=decimal, + ) + return fmt.DataFrameRenderer(formatter).to_string( + buf=buf, + encoding=encoding, + line_width=line_width, + ) + + def _get_values_for_csv( + self, + *, + float_format: FloatFormatType | None, + date_format: str | None, + decimal: str, + na_rep: str, + quoting, # int csv.QUOTE_FOO from stdlib + ) -> Self: + # helper used by to_csv + mgr = self._mgr.get_values_for_csv( + float_format=float_format, + date_format=date_format, + decimal=decimal, + na_rep=na_rep, + quoting=quoting, + ) + # error: Incompatible return value type (got "DataFrame", expected "Self") + return self._constructor_from_mgr(mgr, axes=mgr.axes) # type: ignore[return-value] + + # ---------------------------------------------------------------------- + + @property + def style(self) -> Styler: + """ + Returns a Styler object. + + Contains methods for building a styled HTML representation of the DataFrame. + + See Also + -------- + io.formats.style.Styler : Helps style a DataFrame or Series according to the + data with HTML and CSS. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2, 3]}) + >>> df.style # doctest: +SKIP + + Please see + `Table Visualization <../../user_guide/style.ipynb>`_ for more examples. + """ + # Raise AttributeError so that inspect works even if jinja2 is not installed. + has_jinja2 = import_optional_dependency("jinja2", errors="ignore") + if not has_jinja2: + raise AttributeError("The '.style' accessor requires jinja2") + + from pandas.io.formats.style import Styler + + return Styler(self) + + _shared_docs[ + "items" + ] = r""" + Iterate over (column name, Series) pairs. + + Iterates over the DataFrame columns, returning a tuple with + the column name and the content as a Series. + + Yields + ------ + label : object + The column names for the DataFrame being iterated over. + content : Series + The column entries belonging to each label, as a Series. + + See Also + -------- + DataFrame.iterrows : Iterate over DataFrame rows as + (index, Series) pairs. + DataFrame.itertuples : Iterate over DataFrame rows as namedtuples + of the values. + + Examples + -------- + >>> df = pd.DataFrame({'species': ['bear', 'bear', 'marsupial'], + ... 'population': [1864, 22000, 80000]}, + ... index=['panda', 'polar', 'koala']) + >>> df + species population + panda bear 1864 + polar bear 22000 + koala marsupial 80000 + >>> for label, content in df.items(): + ... print(f'label: {label}') + ... print(f'content: {content}', sep='\n') + ... + label: species + content: + panda bear + polar bear + koala marsupial + Name: species, dtype: object + label: population + content: + panda 1864 + polar 22000 + koala 80000 + Name: population, dtype: int64 + """ + + @Appender(_shared_docs["items"]) + def items(self) -> Iterable[tuple[Hashable, Series]]: + if self.columns.is_unique and hasattr(self, "_item_cache"): + for k in self.columns: + yield k, self._get_item_cache(k) + else: + for i, k in enumerate(self.columns): + yield k, self._ixs(i, axis=1) + + def iterrows(self) -> Iterable[tuple[Hashable, Series]]: + """ + Iterate over DataFrame rows as (index, Series) pairs. + + Yields + ------ + index : label or tuple of label + The index of the row. A tuple for a `MultiIndex`. + data : Series + The data of the row as a Series. + + See Also + -------- + DataFrame.itertuples : Iterate over DataFrame rows as namedtuples of the values. + DataFrame.items : Iterate over (column name, Series) pairs. + + Notes + ----- + 1. Because ``iterrows`` returns a Series for each row, + it does **not** preserve dtypes across the rows (dtypes are + preserved across columns for DataFrames). + + To preserve dtypes while iterating over the rows, it is better + to use :meth:`itertuples` which returns namedtuples of the values + and which is generally faster than ``iterrows``. + + 2. You should **never modify** something you are iterating over. + This is not guaranteed to work in all cases. Depending on the + data types, the iterator returns a copy and not a view, and writing + to it will have no effect. + + Examples + -------- + + >>> df = pd.DataFrame([[1, 1.5]], columns=['int', 'float']) + >>> row = next(df.iterrows())[1] + >>> row + int 1.0 + float 1.5 + Name: 0, dtype: float64 + >>> print(row['int'].dtype) + float64 + >>> print(df['int'].dtype) + int64 + """ + columns = self.columns + klass = self._constructor_sliced + using_cow = using_copy_on_write() + for k, v in zip(self.index, self.values): + s = klass(v, index=columns, name=k).__finalize__(self) + if using_cow and self._mgr.is_single_block: + s._mgr.add_references(self._mgr) # type: ignore[arg-type] + yield k, s + + def itertuples( + self, index: bool = True, name: str | None = "Pandas" + ) -> Iterable[tuple[Any, ...]]: + """ + Iterate over DataFrame rows as namedtuples. + + Parameters + ---------- + index : bool, default True + If True, return the index as the first element of the tuple. + name : str or None, default "Pandas" + The name of the returned namedtuples or None to return regular + tuples. + + Returns + ------- + iterator + An object to iterate over namedtuples for each row in the + DataFrame with the first field possibly being the index and + following fields being the column values. + + See Also + -------- + DataFrame.iterrows : Iterate over DataFrame rows as (index, Series) + pairs. + DataFrame.items : Iterate over (column name, Series) pairs. + + Notes + ----- + The column names will be renamed to positional names if they are + invalid Python identifiers, repeated, or start with an underscore. + + Examples + -------- + >>> df = pd.DataFrame({'num_legs': [4, 2], 'num_wings': [0, 2]}, + ... index=['dog', 'hawk']) + >>> df + num_legs num_wings + dog 4 0 + hawk 2 2 + >>> for row in df.itertuples(): + ... print(row) + ... + Pandas(Index='dog', num_legs=4, num_wings=0) + Pandas(Index='hawk', num_legs=2, num_wings=2) + + By setting the `index` parameter to False we can remove the index + as the first element of the tuple: + + >>> for row in df.itertuples(index=False): + ... print(row) + ... + Pandas(num_legs=4, num_wings=0) + Pandas(num_legs=2, num_wings=2) + + With the `name` parameter set we set a custom name for the yielded + namedtuples: + + >>> for row in df.itertuples(name='Animal'): + ... print(row) + ... + Animal(Index='dog', num_legs=4, num_wings=0) + Animal(Index='hawk', num_legs=2, num_wings=2) + """ + arrays = [] + fields = list(self.columns) + if index: + arrays.append(self.index) + fields.insert(0, "Index") + + # use integer indexing because of possible duplicate column names + arrays.extend(self.iloc[:, k] for k in range(len(self.columns))) + + if name is not None: + # https://github.com/python/mypy/issues/9046 + # error: namedtuple() expects a string literal as the first argument + itertuple = collections.namedtuple( # type: ignore[misc] + name, fields, rename=True + ) + return map(itertuple._make, zip(*arrays)) + + # fallback to regular tuples + return zip(*arrays) + + def __len__(self) -> int: + """ + Returns length of info axis, but here we use the index. + """ + return len(self.index) + + @overload + def dot(self, other: Series) -> Series: + ... + + @overload + def dot(self, other: DataFrame | Index | ArrayLike) -> DataFrame: + ... + + def dot(self, other: AnyArrayLike | DataFrame) -> DataFrame | Series: + """ + Compute the matrix multiplication between the DataFrame and other. + + This method computes the matrix product between the DataFrame and the + values of an other Series, DataFrame or a numpy array. + + It can also be called using ``self @ other``. + + Parameters + ---------- + other : Series, DataFrame or array-like + The other object to compute the matrix product with. + + Returns + ------- + Series or DataFrame + If other is a Series, return the matrix product between self and + other as a Series. If other is a DataFrame or a numpy.array, return + the matrix product of self and other in a DataFrame of a np.array. + + See Also + -------- + Series.dot: Similar method for Series. + + Notes + ----- + The dimensions of DataFrame and other must be compatible in order to + compute the matrix multiplication. In addition, the column names of + DataFrame and the index of other must contain the same values, as they + will be aligned prior to the multiplication. + + The dot method for Series computes the inner product, instead of the + matrix product here. + + Examples + -------- + Here we multiply a DataFrame with a Series. + + >>> df = pd.DataFrame([[0, 1, -2, -1], [1, 1, 1, 1]]) + >>> s = pd.Series([1, 1, 2, 1]) + >>> df.dot(s) + 0 -4 + 1 5 + dtype: int64 + + Here we multiply a DataFrame with another DataFrame. + + >>> other = pd.DataFrame([[0, 1], [1, 2], [-1, -1], [2, 0]]) + >>> df.dot(other) + 0 1 + 0 1 4 + 1 2 2 + + Note that the dot method give the same result as @ + + >>> df @ other + 0 1 + 0 1 4 + 1 2 2 + + The dot method works also if other is an np.array. + + >>> arr = np.array([[0, 1], [1, 2], [-1, -1], [2, 0]]) + >>> df.dot(arr) + 0 1 + 0 1 4 + 1 2 2 + + Note how shuffling of the objects does not change the result. + + >>> s2 = s.reindex([1, 0, 2, 3]) + >>> df.dot(s2) + 0 -4 + 1 5 + dtype: int64 + """ + if isinstance(other, (Series, DataFrame)): + common = self.columns.union(other.index) + if len(common) > len(self.columns) or len(common) > len(other.index): + raise ValueError("matrices are not aligned") + + left = self.reindex(columns=common, copy=False) + right = other.reindex(index=common, copy=False) + lvals = left.values + rvals = right._values + else: + left = self + lvals = self.values + rvals = np.asarray(other) + if lvals.shape[1] != rvals.shape[0]: + raise ValueError( + f"Dot product shape mismatch, {lvals.shape} vs {rvals.shape}" + ) + + if isinstance(other, DataFrame): + common_type = find_common_type(list(self.dtypes) + list(other.dtypes)) + return self._constructor( + np.dot(lvals, rvals), + index=left.index, + columns=other.columns, + copy=False, + dtype=common_type, + ) + elif isinstance(other, Series): + common_type = find_common_type(list(self.dtypes) + [other.dtypes]) + return self._constructor_sliced( + np.dot(lvals, rvals), index=left.index, copy=False, dtype=common_type + ) + elif isinstance(rvals, (np.ndarray, Index)): + result = np.dot(lvals, rvals) + if result.ndim == 2: + return self._constructor(result, index=left.index, copy=False) + else: + return self._constructor_sliced(result, index=left.index, copy=False) + else: # pragma: no cover + raise TypeError(f"unsupported type: {type(other)}") + + @overload + def __matmul__(self, other: Series) -> Series: + ... + + @overload + def __matmul__(self, other: AnyArrayLike | DataFrame) -> DataFrame | Series: + ... + + def __matmul__(self, other: AnyArrayLike | DataFrame) -> DataFrame | Series: + """ + Matrix multiplication using binary `@` operator. + """ + return self.dot(other) + + def __rmatmul__(self, other) -> DataFrame: + """ + Matrix multiplication using binary `@` operator. + """ + try: + return self.T.dot(np.transpose(other)).T + except ValueError as err: + if "shape mismatch" not in str(err): + raise + # GH#21581 give exception message for original shapes + msg = f"shapes {np.shape(other)} and {self.shape} not aligned" + raise ValueError(msg) from err + + # ---------------------------------------------------------------------- + # IO methods (to / from other formats) + + @classmethod + def from_dict( + cls, + data: dict, + orient: FromDictOrient = "columns", + dtype: Dtype | None = None, + columns: Axes | None = None, + ) -> DataFrame: + """ + Construct DataFrame from dict of array-like or dicts. + + Creates DataFrame object from dictionary by columns or by index + allowing dtype specification. + + Parameters + ---------- + data : dict + Of the form {field : array-like} or {field : dict}. + orient : {'columns', 'index', 'tight'}, default 'columns' + The "orientation" of the data. If the keys of the passed dict + should be the columns of the resulting DataFrame, pass 'columns' + (default). Otherwise if the keys should be rows, pass 'index'. + If 'tight', assume a dict with keys ['index', 'columns', 'data', + 'index_names', 'column_names']. + + .. versionadded:: 1.4.0 + 'tight' as an allowed value for the ``orient`` argument + + dtype : dtype, default None + Data type to force after DataFrame construction, otherwise infer. + columns : list, default None + Column labels to use when ``orient='index'``. Raises a ValueError + if used with ``orient='columns'`` or ``orient='tight'``. + + Returns + ------- + DataFrame + + See Also + -------- + DataFrame.from_records : DataFrame from structured ndarray, sequence + of tuples or dicts, or DataFrame. + DataFrame : DataFrame object creation using constructor. + DataFrame.to_dict : Convert the DataFrame to a dictionary. + + Examples + -------- + By default the keys of the dict become the DataFrame columns: + + >>> data = {'col_1': [3, 2, 1, 0], 'col_2': ['a', 'b', 'c', 'd']} + >>> pd.DataFrame.from_dict(data) + col_1 col_2 + 0 3 a + 1 2 b + 2 1 c + 3 0 d + + Specify ``orient='index'`` to create the DataFrame using dictionary + keys as rows: + + >>> data = {'row_1': [3, 2, 1, 0], 'row_2': ['a', 'b', 'c', 'd']} + >>> pd.DataFrame.from_dict(data, orient='index') + 0 1 2 3 + row_1 3 2 1 0 + row_2 a b c d + + When using the 'index' orientation, the column names can be + specified manually: + + >>> pd.DataFrame.from_dict(data, orient='index', + ... columns=['A', 'B', 'C', 'D']) + A B C D + row_1 3 2 1 0 + row_2 a b c d + + Specify ``orient='tight'`` to create the DataFrame using a 'tight' + format: + + >>> data = {'index': [('a', 'b'), ('a', 'c')], + ... 'columns': [('x', 1), ('y', 2)], + ... 'data': [[1, 3], [2, 4]], + ... 'index_names': ['n1', 'n2'], + ... 'column_names': ['z1', 'z2']} + >>> pd.DataFrame.from_dict(data, orient='tight') + z1 x y + z2 1 2 + n1 n2 + a b 1 3 + c 2 4 + """ + index = None + orient = orient.lower() # type: ignore[assignment] + if orient == "index": + if len(data) > 0: + # TODO speed up Series case + if isinstance(next(iter(data.values())), (Series, dict)): + data = _from_nested_dict(data) + else: + index = list(data.keys()) + # error: Incompatible types in assignment (expression has type + # "List[Any]", variable has type "Dict[Any, Any]") + data = list(data.values()) # type: ignore[assignment] + elif orient in ("columns", "tight"): + if columns is not None: + raise ValueError(f"cannot use columns parameter with orient='{orient}'") + else: # pragma: no cover + raise ValueError( + f"Expected 'index', 'columns' or 'tight' for orient parameter. " + f"Got '{orient}' instead" + ) + + if orient != "tight": + return cls(data, index=index, columns=columns, dtype=dtype) + else: + realdata = data["data"] + + def create_index(indexlist, namelist): + index: Index + if len(namelist) > 1: + index = MultiIndex.from_tuples(indexlist, names=namelist) + else: + index = Index(indexlist, name=namelist[0]) + return index + + index = create_index(data["index"], data["index_names"]) + columns = create_index(data["columns"], data["column_names"]) + return cls(realdata, index=index, columns=columns, dtype=dtype) + + def to_numpy( + self, + dtype: npt.DTypeLike | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Convert the DataFrame to a NumPy array. + + By default, the dtype of the returned array will be the common NumPy + dtype of all types in the DataFrame. For example, if the dtypes are + ``float16`` and ``float32``, the results dtype will be ``float32``. + This may require copying data and coercing values, which may be + expensive. + + Parameters + ---------- + dtype : str or numpy.dtype, optional + The dtype to pass to :meth:`numpy.asarray`. + copy : bool, default False + Whether to ensure that the returned value is not a view on + another array. Note that ``copy=False`` does not *ensure* that + ``to_numpy()`` is no-copy. Rather, ``copy=True`` ensure that + a copy is made, even if not strictly necessary. + na_value : Any, optional + The value to use for missing values. The default value depends + on `dtype` and the dtypes of the DataFrame columns. + + Returns + ------- + numpy.ndarray + + See Also + -------- + Series.to_numpy : Similar method for Series. + + Examples + -------- + >>> pd.DataFrame({"A": [1, 2], "B": [3, 4]}).to_numpy() + array([[1, 3], + [2, 4]]) + + With heterogeneous data, the lowest common type will have to + be used. + + >>> df = pd.DataFrame({"A": [1, 2], "B": [3.0, 4.5]}) + >>> df.to_numpy() + array([[1. , 3. ], + [2. , 4.5]]) + + For a mix of numeric and non-numeric types, the output array will + have object dtype. + + >>> df['C'] = pd.date_range('2000', periods=2) + >>> df.to_numpy() + array([[1, 3.0, Timestamp('2000-01-01 00:00:00')], + [2, 4.5, Timestamp('2000-01-02 00:00:00')]], dtype=object) + """ + if dtype is not None: + dtype = np.dtype(dtype) + result = self._mgr.as_array(dtype=dtype, copy=copy, na_value=na_value) + if result.dtype is not dtype: + result = np.asarray(result, dtype=dtype) + + return result + + def _create_data_for_split_and_tight_to_dict( + self, are_all_object_dtype_cols: bool, object_dtype_indices: list[int] + ) -> list: + """ + Simple helper method to create data for to ``to_dict(orient="split")`` and + ``to_dict(orient="tight")`` to create the main output data + """ + if are_all_object_dtype_cols: + data = [ + list(map(maybe_box_native, t)) + for t in self.itertuples(index=False, name=None) + ] + else: + data = [list(t) for t in self.itertuples(index=False, name=None)] + if object_dtype_indices: + # If we have object_dtype_cols, apply maybe_box_naive after list + # comprehension for perf + for row in data: + for i in object_dtype_indices: + row[i] = maybe_box_native(row[i]) + return data + + @overload + def to_dict( + self, + orient: Literal["dict", "list", "series", "split", "tight", "index"] = ..., + *, + into: type[MutableMappingT] | MutableMappingT, + index: bool = ..., + ) -> MutableMappingT: + ... + + @overload + def to_dict( + self, + orient: Literal["records"], + *, + into: type[MutableMappingT] | MutableMappingT, + index: bool = ..., + ) -> list[MutableMappingT]: + ... + + @overload + def to_dict( + self, + orient: Literal["dict", "list", "series", "split", "tight", "index"] = ..., + *, + into: type[dict] = ..., + index: bool = ..., + ) -> dict: + ... + + @overload + def to_dict( + self, + orient: Literal["records"], + *, + into: type[dict] = ..., + index: bool = ..., + ) -> list[dict]: + ... + + # error: Incompatible default for argument "into" (default has type "type + # [dict[Any, Any]]", argument has type "type[MutableMappingT] | MutableMappingT") + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "orient"], name="to_dict" + ) + def to_dict( + self, + orient: Literal[ + "dict", "list", "series", "split", "tight", "records", "index" + ] = "dict", + into: type[MutableMappingT] + | MutableMappingT = dict, # type: ignore[assignment] + index: bool = True, + ) -> MutableMappingT | list[MutableMappingT]: + """ + Convert the DataFrame to a dictionary. + + The type of the key-value pairs can be customized with the parameters + (see below). + + Parameters + ---------- + orient : str {'dict', 'list', 'series', 'split', 'tight', 'records', 'index'} + Determines the type of the values of the dictionary. + + - 'dict' (default) : dict like {column -> {index -> value}} + - 'list' : dict like {column -> [values]} + - 'series' : dict like {column -> Series(values)} + - 'split' : dict like + {'index' -> [index], 'columns' -> [columns], 'data' -> [values]} + - 'tight' : dict like + {'index' -> [index], 'columns' -> [columns], 'data' -> [values], + 'index_names' -> [index.names], 'column_names' -> [column.names]} + - 'records' : list like + [{column -> value}, ... , {column -> value}] + - 'index' : dict like {index -> {column -> value}} + + .. versionadded:: 1.4.0 + 'tight' as an allowed value for the ``orient`` argument + + into : class, default dict + The collections.abc.MutableMapping subclass used for all Mappings + in the return value. Can be the actual class or an empty + instance of the mapping type you want. If you want a + collections.defaultdict, you must pass it initialized. + + index : bool, default True + Whether to include the index item (and index_names item if `orient` + is 'tight') in the returned dictionary. Can only be ``False`` + when `orient` is 'split' or 'tight'. + + .. versionadded:: 2.0.0 + + Returns + ------- + dict, list or collections.abc.MutableMapping + Return a collections.abc.MutableMapping object representing the + DataFrame. The resulting transformation depends on the `orient` + parameter. + + See Also + -------- + DataFrame.from_dict: Create a DataFrame from a dictionary. + DataFrame.to_json: Convert a DataFrame to JSON format. + + Examples + -------- + >>> df = pd.DataFrame({'col1': [1, 2], + ... 'col2': [0.5, 0.75]}, + ... index=['row1', 'row2']) + >>> df + col1 col2 + row1 1 0.50 + row2 2 0.75 + >>> df.to_dict() + {'col1': {'row1': 1, 'row2': 2}, 'col2': {'row1': 0.5, 'row2': 0.75}} + + You can specify the return orientation. + + >>> df.to_dict('series') + {'col1': row1 1 + row2 2 + Name: col1, dtype: int64, + 'col2': row1 0.50 + row2 0.75 + Name: col2, dtype: float64} + + >>> df.to_dict('split') + {'index': ['row1', 'row2'], 'columns': ['col1', 'col2'], + 'data': [[1, 0.5], [2, 0.75]]} + + >>> df.to_dict('records') + [{'col1': 1, 'col2': 0.5}, {'col1': 2, 'col2': 0.75}] + + >>> df.to_dict('index') + {'row1': {'col1': 1, 'col2': 0.5}, 'row2': {'col1': 2, 'col2': 0.75}} + + >>> df.to_dict('tight') + {'index': ['row1', 'row2'], 'columns': ['col1', 'col2'], + 'data': [[1, 0.5], [2, 0.75]], 'index_names': [None], 'column_names': [None]} + + You can also specify the mapping type. + + >>> from collections import OrderedDict, defaultdict + >>> df.to_dict(into=OrderedDict) + OrderedDict([('col1', OrderedDict([('row1', 1), ('row2', 2)])), + ('col2', OrderedDict([('row1', 0.5), ('row2', 0.75)]))]) + + If you want a `defaultdict`, you need to initialize it: + + >>> dd = defaultdict(list) + >>> df.to_dict('records', into=dd) + [defaultdict(, {'col1': 1, 'col2': 0.5}), + defaultdict(, {'col1': 2, 'col2': 0.75})] + """ + from pandas.core.methods.to_dict import to_dict + + return to_dict(self, orient, into=into, index=index) + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "destination_table"], name="to_gbq" + ) + def to_gbq( + self, + destination_table: str, + project_id: str | None = None, + chunksize: int | None = None, + reauth: bool = False, + if_exists: ToGbqIfexist = "fail", + auth_local_webserver: bool = True, + table_schema: list[dict[str, str]] | None = None, + location: str | None = None, + progress_bar: bool = True, + credentials=None, + ) -> None: + """ + Write a DataFrame to a Google BigQuery table. + + .. deprecated:: 2.2.0 + + Please use ``pandas_gbq.to_gbq`` instead. + + This function requires the `pandas-gbq package + `__. + + See the `How to authenticate with Google BigQuery + `__ + guide for authentication instructions. + + Parameters + ---------- + destination_table : str + Name of table to be written, in the form ``dataset.tablename``. + project_id : str, optional + Google BigQuery Account project ID. Optional when available from + the environment. + chunksize : int, optional + Number of rows to be inserted in each chunk from the dataframe. + Set to ``None`` to load the whole dataframe at once. + reauth : bool, default False + Force Google BigQuery to re-authenticate the user. This is useful + if multiple accounts are used. + if_exists : str, default 'fail' + Behavior when the destination table exists. Value can be one of: + + ``'fail'`` + If table exists raise pandas_gbq.gbq.TableCreationError. + ``'replace'`` + If table exists, drop it, recreate it, and insert data. + ``'append'`` + If table exists, insert data. Create if does not exist. + auth_local_webserver : bool, default True + Use the `local webserver flow`_ instead of the `console flow`_ + when getting user credentials. + + .. _local webserver flow: + https://google-auth-oauthlib.readthedocs.io/en/latest/reference/google_auth_oauthlib.flow.html#google_auth_oauthlib.flow.InstalledAppFlow.run_local_server + .. _console flow: + https://google-auth-oauthlib.readthedocs.io/en/latest/reference/google_auth_oauthlib.flow.html#google_auth_oauthlib.flow.InstalledAppFlow.run_console + + *New in version 0.2.0 of pandas-gbq*. + + .. versionchanged:: 1.5.0 + Default value is changed to ``True``. Google has deprecated the + ``auth_local_webserver = False`` `"out of band" (copy-paste) + flow + `_. + table_schema : list of dicts, optional + List of BigQuery table fields to which according DataFrame + columns conform to, e.g. ``[{'name': 'col1', 'type': + 'STRING'},...]``. If schema is not provided, it will be + generated according to dtypes of DataFrame columns. See + BigQuery API documentation on available names of a field. + + *New in version 0.3.1 of pandas-gbq*. + location : str, optional + Location where the load job should run. See the `BigQuery locations + documentation + `__ for a + list of available locations. The location must match that of the + target dataset. + + *New in version 0.5.0 of pandas-gbq*. + progress_bar : bool, default True + Use the library `tqdm` to show the progress bar for the upload, + chunk by chunk. + + *New in version 0.5.0 of pandas-gbq*. + credentials : google.auth.credentials.Credentials, optional + Credentials for accessing Google APIs. Use this parameter to + override default credentials, such as to use Compute Engine + :class:`google.auth.compute_engine.Credentials` or Service + Account :class:`google.oauth2.service_account.Credentials` + directly. + + *New in version 0.8.0 of pandas-gbq*. + + See Also + -------- + pandas_gbq.to_gbq : This function in the pandas-gbq library. + read_gbq : Read a DataFrame from Google BigQuery. + + Examples + -------- + Example taken from `Google BigQuery documentation + `_ + + >>> project_id = "my-project" + >>> table_id = 'my_dataset.my_table' + >>> df = pd.DataFrame({ + ... "my_string": ["a", "b", "c"], + ... "my_int64": [1, 2, 3], + ... "my_float64": [4.0, 5.0, 6.0], + ... "my_bool1": [True, False, True], + ... "my_bool2": [False, True, False], + ... "my_dates": pd.date_range("now", periods=3), + ... } + ... ) + + >>> df.to_gbq(table_id, project_id=project_id) # doctest: +SKIP + """ + from pandas.io import gbq + + gbq.to_gbq( + self, + destination_table, + project_id=project_id, + chunksize=chunksize, + reauth=reauth, + if_exists=if_exists, + auth_local_webserver=auth_local_webserver, + table_schema=table_schema, + location=location, + progress_bar=progress_bar, + credentials=credentials, + ) + + @classmethod + def from_records( + cls, + data, + index=None, + exclude=None, + columns=None, + coerce_float: bool = False, + nrows: int | None = None, + ) -> DataFrame: + """ + Convert structured or record ndarray to DataFrame. + + Creates a DataFrame object from a structured ndarray, sequence of + tuples or dicts, or DataFrame. + + Parameters + ---------- + data : structured ndarray, sequence of tuples or dicts, or DataFrame + Structured input data. + + .. deprecated:: 2.1.0 + Passing a DataFrame is deprecated. + index : str, list of fields, array-like + Field of array to use as the index, alternately a specific set of + input labels to use. + exclude : sequence, default None + Columns or fields to exclude. + columns : sequence, default None + Column names to use. If the passed data do not have names + associated with them, this argument provides names for the + columns. Otherwise this argument indicates the order of the columns + in the result (any names not found in the data will become all-NA + columns). + coerce_float : bool, default False + Attempt to convert values of non-string, non-numeric objects (like + decimal.Decimal) to floating point, useful for SQL result sets. + nrows : int, default None + Number of rows to read if data is an iterator. + + Returns + ------- + DataFrame + + See Also + -------- + DataFrame.from_dict : DataFrame from dict of array-like or dicts. + DataFrame : DataFrame object creation using constructor. + + Examples + -------- + Data can be provided as a structured ndarray: + + >>> data = np.array([(3, 'a'), (2, 'b'), (1, 'c'), (0, 'd')], + ... dtype=[('col_1', 'i4'), ('col_2', 'U1')]) + >>> pd.DataFrame.from_records(data) + col_1 col_2 + 0 3 a + 1 2 b + 2 1 c + 3 0 d + + Data can be provided as a list of dicts: + + >>> data = [{'col_1': 3, 'col_2': 'a'}, + ... {'col_1': 2, 'col_2': 'b'}, + ... {'col_1': 1, 'col_2': 'c'}, + ... {'col_1': 0, 'col_2': 'd'}] + >>> pd.DataFrame.from_records(data) + col_1 col_2 + 0 3 a + 1 2 b + 2 1 c + 3 0 d + + Data can be provided as a list of tuples with corresponding columns: + + >>> data = [(3, 'a'), (2, 'b'), (1, 'c'), (0, 'd')] + >>> pd.DataFrame.from_records(data, columns=['col_1', 'col_2']) + col_1 col_2 + 0 3 a + 1 2 b + 2 1 c + 3 0 d + """ + if isinstance(data, DataFrame): + warnings.warn( + "Passing a DataFrame to DataFrame.from_records is deprecated. Use " + "set_index and/or drop to modify the DataFrame instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if columns is not None: + if is_scalar(columns): + columns = [columns] + data = data[columns] + if index is not None: + data = data.set_index(index) + if exclude is not None: + data = data.drop(columns=exclude) + return data.copy(deep=False) + + result_index = None + + # Make a copy of the input columns so we can modify it + if columns is not None: + columns = ensure_index(columns) + + def maybe_reorder( + arrays: list[ArrayLike], arr_columns: Index, columns: Index, index + ) -> tuple[list[ArrayLike], Index, Index | None]: + """ + If our desired 'columns' do not match the data's pre-existing 'arr_columns', + we re-order our arrays. This is like a pre-emptive (cheap) reindex. + """ + if len(arrays): + length = len(arrays[0]) + else: + length = 0 + + result_index = None + if len(arrays) == 0 and index is None and length == 0: + result_index = default_index(0) + + arrays, arr_columns = reorder_arrays(arrays, arr_columns, columns, length) + return arrays, arr_columns, result_index + + if is_iterator(data): + if nrows == 0: + return cls() + + try: + first_row = next(data) + except StopIteration: + return cls(index=index, columns=columns) + + dtype = None + if hasattr(first_row, "dtype") and first_row.dtype.names: + dtype = first_row.dtype + + values = [first_row] + + if nrows is None: + values += data + else: + values.extend(itertools.islice(data, nrows - 1)) + + if dtype is not None: + data = np.array(values, dtype=dtype) + else: + data = values + + if isinstance(data, dict): + if columns is None: + columns = arr_columns = ensure_index(sorted(data)) + arrays = [data[k] for k in columns] + else: + arrays = [] + arr_columns_list = [] + for k, v in data.items(): + if k in columns: + arr_columns_list.append(k) + arrays.append(v) + + arr_columns = Index(arr_columns_list) + arrays, arr_columns, result_index = maybe_reorder( + arrays, arr_columns, columns, index + ) + + elif isinstance(data, np.ndarray): + arrays, columns = to_arrays(data, columns) + arr_columns = columns + else: + arrays, arr_columns = to_arrays(data, columns) + if coerce_float: + for i, arr in enumerate(arrays): + if arr.dtype == object: + # error: Argument 1 to "maybe_convert_objects" has + # incompatible type "Union[ExtensionArray, ndarray]"; + # expected "ndarray" + arrays[i] = lib.maybe_convert_objects( + arr, # type: ignore[arg-type] + try_float=True, + ) + + arr_columns = ensure_index(arr_columns) + if columns is None: + columns = arr_columns + else: + arrays, arr_columns, result_index = maybe_reorder( + arrays, arr_columns, columns, index + ) + + if exclude is None: + exclude = set() + else: + exclude = set(exclude) + + if index is not None: + if isinstance(index, str) or not hasattr(index, "__iter__"): + i = columns.get_loc(index) + exclude.add(index) + if len(arrays) > 0: + result_index = Index(arrays[i], name=index) + else: + result_index = Index([], name=index) + else: + try: + index_data = [arrays[arr_columns.get_loc(field)] for field in index] + except (KeyError, TypeError): + # raised by get_loc, see GH#29258 + result_index = index + else: + result_index = ensure_index_from_sequences(index_data, names=index) + exclude.update(index) + + if any(exclude): + arr_exclude = [x for x in exclude if x in arr_columns] + to_remove = [arr_columns.get_loc(col) for col in arr_exclude] + arrays = [v for i, v in enumerate(arrays) if i not in to_remove] + + columns = columns.drop(exclude) + + manager = _get_option("mode.data_manager", silent=True) + mgr = arrays_to_mgr(arrays, columns, result_index, typ=manager) + + return cls._from_mgr(mgr, axes=mgr.axes) + + def to_records( + self, index: bool = True, column_dtypes=None, index_dtypes=None + ) -> np.rec.recarray: + """ + Convert DataFrame to a NumPy record array. + + Index will be included as the first field of the record array if + requested. + + Parameters + ---------- + index : bool, default True + Include index in resulting record array, stored in 'index' + field or using the index label, if set. + column_dtypes : str, type, dict, default None + If a string or type, the data type to store all columns. If + a dictionary, a mapping of column names and indices (zero-indexed) + to specific data types. + index_dtypes : str, type, dict, default None + If a string or type, the data type to store all index levels. If + a dictionary, a mapping of index level names and indices + (zero-indexed) to specific data types. + + This mapping is applied only if `index=True`. + + Returns + ------- + numpy.rec.recarray + NumPy ndarray with the DataFrame labels as fields and each row + of the DataFrame as entries. + + See Also + -------- + DataFrame.from_records: Convert structured or record ndarray + to DataFrame. + numpy.rec.recarray: An ndarray that allows field access using + attributes, analogous to typed columns in a + spreadsheet. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2], 'B': [0.5, 0.75]}, + ... index=['a', 'b']) + >>> df + A B + a 1 0.50 + b 2 0.75 + >>> df.to_records() + rec.array([('a', 1, 0.5 ), ('b', 2, 0.75)], + dtype=[('index', 'O'), ('A', '>> df.index = df.index.rename("I") + >>> df.to_records() + rec.array([('a', 1, 0.5 ), ('b', 2, 0.75)], + dtype=[('I', 'O'), ('A', '>> df.to_records(index=False) + rec.array([(1, 0.5 ), (2, 0.75)], + dtype=[('A', '>> df.to_records(column_dtypes={"A": "int32"}) + rec.array([('a', 1, 0.5 ), ('b', 2, 0.75)], + dtype=[('I', 'O'), ('A', '>> df.to_records(index_dtypes=">> index_dtypes = f">> df.to_records(index_dtypes=index_dtypes) + rec.array([(b'a', 1, 0.5 ), (b'b', 2, 0.75)], + dtype=[('I', 'S1'), ('A', ' Self: + """ + Create DataFrame from a list of arrays corresponding to the columns. + + Parameters + ---------- + arrays : list-like of arrays + Each array in the list corresponds to one column, in order. + columns : list-like, Index + The column names for the resulting DataFrame. + index : list-like, Index + The rows labels for the resulting DataFrame. + dtype : dtype, optional + Optional dtype to enforce for all arrays. + verify_integrity : bool, default True + Validate and homogenize all input. If set to False, it is assumed + that all elements of `arrays` are actual arrays how they will be + stored in a block (numpy ndarray or ExtensionArray), have the same + length as and are aligned with the index, and that `columns` and + `index` are ensured to be an Index object. + + Returns + ------- + DataFrame + """ + if dtype is not None: + dtype = pandas_dtype(dtype) + + manager = _get_option("mode.data_manager", silent=True) + columns = ensure_index(columns) + if len(columns) != len(arrays): + raise ValueError("len(columns) must match len(arrays)") + mgr = arrays_to_mgr( + arrays, + columns, + index, + dtype=dtype, + verify_integrity=verify_integrity, + typ=manager, + ) + return cls._from_mgr(mgr, axes=mgr.axes) + + @doc( + storage_options=_shared_docs["storage_options"], + compression_options=_shared_docs["compression_options"] % "path", + ) + def to_stata( + self, + path: FilePath | WriteBuffer[bytes], + *, + convert_dates: dict[Hashable, str] | None = None, + write_index: bool = True, + byteorder: ToStataByteorder | None = None, + time_stamp: datetime.datetime | None = None, + data_label: str | None = None, + variable_labels: dict[Hashable, str] | None = None, + version: int | None = 114, + convert_strl: Sequence[Hashable] | None = None, + compression: CompressionOptions = "infer", + storage_options: StorageOptions | None = None, + value_labels: dict[Hashable, dict[float, str]] | None = None, + ) -> None: + """ + Export DataFrame object to Stata dta format. + + Writes the DataFrame to a Stata dataset file. + "dta" files contain a Stata dataset. + + Parameters + ---------- + path : str, path object, or buffer + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a binary ``write()`` function. + + convert_dates : dict + Dictionary mapping columns containing datetime types to stata + internal format to use when writing the dates. Options are 'tc', + 'td', 'tm', 'tw', 'th', 'tq', 'ty'. Column can be either an integer + or a name. Datetime columns that do not have a conversion type + specified will be converted to 'tc'. Raises NotImplementedError if + a datetime column has timezone information. + write_index : bool + Write the index to Stata dataset. + byteorder : str + Can be ">", "<", "little", or "big". default is `sys.byteorder`. + time_stamp : datetime + A datetime to use as file creation date. Default is the current + time. + data_label : str, optional + A label for the data set. Must be 80 characters or smaller. + variable_labels : dict + Dictionary containing columns as keys and variable labels as + values. Each label must be 80 characters or smaller. + version : {{114, 117, 118, 119, None}}, default 114 + Version to use in the output dta file. Set to None to let pandas + decide between 118 or 119 formats depending on the number of + columns in the frame. Version 114 can be read by Stata 10 and + later. Version 117 can be read by Stata 13 or later. Version 118 + is supported in Stata 14 and later. Version 119 is supported in + Stata 15 and later. Version 114 limits string variables to 244 + characters or fewer while versions 117 and later allow strings + with lengths up to 2,000,000 characters. Versions 118 and 119 + support Unicode characters, and version 119 supports more than + 32,767 variables. + + Version 119 should usually only be used when the number of + variables exceeds the capacity of dta format 118. Exporting + smaller datasets in format 119 may have unintended consequences, + and, as of November 2020, Stata SE cannot read version 119 files. + + convert_strl : list, optional + List of column names to convert to string columns to Stata StrL + format. Only available if version is 117. Storing strings in the + StrL format can produce smaller dta files if strings have more than + 8 characters and values are repeated. + {compression_options} + + .. versionchanged:: 1.4.0 Zstandard support. + + {storage_options} + + value_labels : dict of dicts + Dictionary containing columns as keys and dictionaries of column value + to labels as values. Labels for a single variable must be 32,000 + characters or smaller. + + .. versionadded:: 1.4.0 + + Raises + ------ + NotImplementedError + * If datetimes contain timezone information + * Column dtype is not representable in Stata + ValueError + * Columns listed in convert_dates are neither datetime64[ns] + or datetime.datetime + * Column listed in convert_dates is not in DataFrame + * Categorical label contains more than 32,000 characters + + See Also + -------- + read_stata : Import Stata data files. + io.stata.StataWriter : Low-level writer for Stata data files. + io.stata.StataWriter117 : Low-level writer for version 117 files. + + Examples + -------- + >>> df = pd.DataFrame({{'animal': ['falcon', 'parrot', 'falcon', + ... 'parrot'], + ... 'speed': [350, 18, 361, 15]}}) + >>> df.to_stata('animals.dta') # doctest: +SKIP + """ + if version not in (114, 117, 118, 119, None): + raise ValueError("Only formats 114, 117, 118 and 119 are supported.") + if version == 114: + if convert_strl is not None: + raise ValueError("strl is not supported in format 114") + from pandas.io.stata import StataWriter as statawriter + elif version == 117: + # Incompatible import of "statawriter" (imported name has type + # "Type[StataWriter117]", local name has type "Type[StataWriter]") + from pandas.io.stata import ( # type: ignore[assignment] + StataWriter117 as statawriter, + ) + else: # versions 118 and 119 + # Incompatible import of "statawriter" (imported name has type + # "Type[StataWriter117]", local name has type "Type[StataWriter]") + from pandas.io.stata import ( # type: ignore[assignment] + StataWriterUTF8 as statawriter, + ) + + kwargs: dict[str, Any] = {} + if version is None or version >= 117: + # strl conversion is only supported >= 117 + kwargs["convert_strl"] = convert_strl + if version is None or version >= 118: + # Specifying the version is only supported for UTF8 (118 or 119) + kwargs["version"] = version + + writer = statawriter( + path, + self, + convert_dates=convert_dates, + byteorder=byteorder, + time_stamp=time_stamp, + data_label=data_label, + write_index=write_index, + variable_labels=variable_labels, + compression=compression, + storage_options=storage_options, + value_labels=value_labels, + **kwargs, + ) + writer.write_file() + + def to_feather(self, path: FilePath | WriteBuffer[bytes], **kwargs) -> None: + """ + Write a DataFrame to the binary Feather format. + + Parameters + ---------- + path : str, path object, file-like object + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a binary ``write()`` function. If a string or a path, + it will be used as Root Directory path when writing a partitioned dataset. + **kwargs : + Additional keywords passed to :func:`pyarrow.feather.write_feather`. + This includes the `compression`, `compression_level`, `chunksize` + and `version` keywords. + + Notes + ----- + This function writes the dataframe as a `feather file + `_. Requires a default + index. For saving the DataFrame with your custom index use a method that + supports custom indices e.g. `to_parquet`. + + Examples + -------- + >>> df = pd.DataFrame([[1, 2, 3], [4, 5, 6]]) + >>> df.to_feather("file.feather") # doctest: +SKIP + """ + from pandas.io.feather_format import to_feather + + to_feather(self, path, **kwargs) + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "buf"], name="to_markdown" + ) + @doc( + Series.to_markdown, + klass=_shared_doc_kwargs["klass"], + storage_options=_shared_docs["storage_options"], + examples="""Examples + -------- + >>> df = pd.DataFrame( + ... data={"animal_1": ["elk", "pig"], "animal_2": ["dog", "quetzal"]} + ... ) + >>> print(df.to_markdown()) + | | animal_1 | animal_2 | + |---:|:-----------|:-----------| + | 0 | elk | dog | + | 1 | pig | quetzal | + + Output markdown with a tabulate option. + + >>> print(df.to_markdown(tablefmt="grid")) + +----+------------+------------+ + | | animal_1 | animal_2 | + +====+============+============+ + | 0 | elk | dog | + +----+------------+------------+ + | 1 | pig | quetzal | + +----+------------+------------+""", + ) + def to_markdown( + self, + buf: FilePath | WriteBuffer[str] | None = None, + mode: str = "wt", + index: bool = True, + storage_options: StorageOptions | None = None, + **kwargs, + ) -> str | None: + if "showindex" in kwargs: + raise ValueError("Pass 'index' instead of 'showindex") + + kwargs.setdefault("headers", "keys") + kwargs.setdefault("tablefmt", "pipe") + kwargs.setdefault("showindex", index) + tabulate = import_optional_dependency("tabulate") + result = tabulate.tabulate(self, **kwargs) + if buf is None: + return result + + with get_handle(buf, mode, storage_options=storage_options) as handles: + handles.handle.write(result) + return None + + @overload + def to_parquet( + self, + path: None = ..., + engine: Literal["auto", "pyarrow", "fastparquet"] = ..., + compression: str | None = ..., + index: bool | None = ..., + partition_cols: list[str] | None = ..., + storage_options: StorageOptions = ..., + **kwargs, + ) -> bytes: + ... + + @overload + def to_parquet( + self, + path: FilePath | WriteBuffer[bytes], + engine: Literal["auto", "pyarrow", "fastparquet"] = ..., + compression: str | None = ..., + index: bool | None = ..., + partition_cols: list[str] | None = ..., + storage_options: StorageOptions = ..., + **kwargs, + ) -> None: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path"], name="to_parquet" + ) + @doc(storage_options=_shared_docs["storage_options"]) + def to_parquet( + self, + path: FilePath | WriteBuffer[bytes] | None = None, + engine: Literal["auto", "pyarrow", "fastparquet"] = "auto", + compression: str | None = "snappy", + index: bool | None = None, + partition_cols: list[str] | None = None, + storage_options: StorageOptions | None = None, + **kwargs, + ) -> bytes | None: + """ + Write a DataFrame to the binary parquet format. + + This function writes the dataframe as a `parquet file + `_. You can choose different parquet + backends, and have the option of compression. See + :ref:`the user guide ` for more details. + + Parameters + ---------- + path : str, path object, file-like object, or None, default None + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a binary ``write()`` function. If None, the result is + returned as bytes. If a string or path, it will be used as Root Directory + path when writing a partitioned dataset. + engine : {{'auto', 'pyarrow', 'fastparquet'}}, default 'auto' + Parquet library to use. If 'auto', then the option + ``io.parquet.engine`` is used. The default ``io.parquet.engine`` + behavior is to try 'pyarrow', falling back to 'fastparquet' if + 'pyarrow' is unavailable. + compression : str or None, default 'snappy' + Name of the compression to use. Use ``None`` for no compression. + Supported options: 'snappy', 'gzip', 'brotli', 'lz4', 'zstd'. + index : bool, default None + If ``True``, include the dataframe's index(es) in the file output. + If ``False``, they will not be written to the file. + If ``None``, similar to ``True`` the dataframe's index(es) + will be saved. However, instead of being saved as values, + the RangeIndex will be stored as a range in the metadata so it + doesn't require much space and is faster. Other indexes will + be included as columns in the file output. + partition_cols : list, optional, default None + Column names by which to partition the dataset. + Columns are partitioned in the order they are given. + Must be None if path is not a string. + {storage_options} + + **kwargs + Additional arguments passed to the parquet library. See + :ref:`pandas io ` for more details. + + Returns + ------- + bytes if no path argument is provided else None + + See Also + -------- + read_parquet : Read a parquet file. + DataFrame.to_orc : Write an orc file. + DataFrame.to_csv : Write a csv file. + DataFrame.to_sql : Write to a sql table. + DataFrame.to_hdf : Write to hdf. + + Notes + ----- + This function requires either the `fastparquet + `_ or `pyarrow + `_ library. + + Examples + -------- + >>> df = pd.DataFrame(data={{'col1': [1, 2], 'col2': [3, 4]}}) + >>> df.to_parquet('df.parquet.gzip', + ... compression='gzip') # doctest: +SKIP + >>> pd.read_parquet('df.parquet.gzip') # doctest: +SKIP + col1 col2 + 0 1 3 + 1 2 4 + + If you want to get a buffer to the parquet content you can use a io.BytesIO + object, as long as you don't use partition_cols, which creates multiple files. + + >>> import io + >>> f = io.BytesIO() + >>> df.to_parquet(f) + >>> f.seek(0) + 0 + >>> content = f.read() + """ + from pandas.io.parquet import to_parquet + + return to_parquet( + self, + path, + engine, + compression=compression, + index=index, + partition_cols=partition_cols, + storage_options=storage_options, + **kwargs, + ) + + def to_orc( + self, + path: FilePath | WriteBuffer[bytes] | None = None, + *, + engine: Literal["pyarrow"] = "pyarrow", + index: bool | None = None, + engine_kwargs: dict[str, Any] | None = None, + ) -> bytes | None: + """ + Write a DataFrame to the ORC format. + + .. versionadded:: 1.5.0 + + Parameters + ---------- + path : str, file-like object or None, default None + If a string, it will be used as Root Directory path + when writing a partitioned dataset. By file-like object, + we refer to objects with a write() method, such as a file handle + (e.g. via builtin open function). If path is None, + a bytes object is returned. + engine : {'pyarrow'}, default 'pyarrow' + ORC library to use. + index : bool, optional + If ``True``, include the dataframe's index(es) in the file output. + If ``False``, they will not be written to the file. + If ``None``, similar to ``infer`` the dataframe's index(es) + will be saved. However, instead of being saved as values, + the RangeIndex will be stored as a range in the metadata so it + doesn't require much space and is faster. Other indexes will + be included as columns in the file output. + engine_kwargs : dict[str, Any] or None, default None + Additional keyword arguments passed to :func:`pyarrow.orc.write_table`. + + Returns + ------- + bytes if no path argument is provided else None + + Raises + ------ + NotImplementedError + Dtype of one or more columns is category, unsigned integers, interval, + period or sparse. + ValueError + engine is not pyarrow. + + See Also + -------- + read_orc : Read a ORC file. + DataFrame.to_parquet : Write a parquet file. + DataFrame.to_csv : Write a csv file. + DataFrame.to_sql : Write to a sql table. + DataFrame.to_hdf : Write to hdf. + + Notes + ----- + * Before using this function you should read the :ref:`user guide about + ORC ` and :ref:`install optional dependencies `. + * This function requires `pyarrow `_ + library. + * For supported dtypes please refer to `supported ORC features in Arrow + `__. + * Currently timezones in datetime columns are not preserved when a + dataframe is converted into ORC files. + + Examples + -------- + >>> df = pd.DataFrame(data={'col1': [1, 2], 'col2': [4, 3]}) + >>> df.to_orc('df.orc') # doctest: +SKIP + >>> pd.read_orc('df.orc') # doctest: +SKIP + col1 col2 + 0 1 4 + 1 2 3 + + If you want to get a buffer to the orc content you can write it to io.BytesIO + + >>> import io + >>> b = io.BytesIO(df.to_orc()) # doctest: +SKIP + >>> b.seek(0) # doctest: +SKIP + 0 + >>> content = b.read() # doctest: +SKIP + """ + from pandas.io.orc import to_orc + + return to_orc( + self, path, engine=engine, index=index, engine_kwargs=engine_kwargs + ) + + @overload + def to_html( + self, + buf: FilePath | WriteBuffer[str], + columns: Axes | None = ..., + col_space: ColspaceArgType | None = ..., + header: bool = ..., + index: bool = ..., + na_rep: str = ..., + formatters: FormattersType | None = ..., + float_format: FloatFormatType | None = ..., + sparsify: bool | None = ..., + index_names: bool = ..., + justify: str | None = ..., + max_rows: int | None = ..., + max_cols: int | None = ..., + show_dimensions: bool | str = ..., + decimal: str = ..., + bold_rows: bool = ..., + classes: str | list | tuple | None = ..., + escape: bool = ..., + notebook: bool = ..., + border: int | bool | None = ..., + table_id: str | None = ..., + render_links: bool = ..., + encoding: str | None = ..., + ) -> None: + ... + + @overload + def to_html( + self, + buf: None = ..., + columns: Axes | None = ..., + col_space: ColspaceArgType | None = ..., + header: bool = ..., + index: bool = ..., + na_rep: str = ..., + formatters: FormattersType | None = ..., + float_format: FloatFormatType | None = ..., + sparsify: bool | None = ..., + index_names: bool = ..., + justify: str | None = ..., + max_rows: int | None = ..., + max_cols: int | None = ..., + show_dimensions: bool | str = ..., + decimal: str = ..., + bold_rows: bool = ..., + classes: str | list | tuple | None = ..., + escape: bool = ..., + notebook: bool = ..., + border: int | bool | None = ..., + table_id: str | None = ..., + render_links: bool = ..., + encoding: str | None = ..., + ) -> str: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "buf"], name="to_html" + ) + @Substitution( + header_type="bool", + header="Whether to print column labels, default True", + col_space_type="str or int, list or dict of int or str", + col_space="The minimum width of each column in CSS length " + "units. An int is assumed to be px units.", + ) + @Substitution(shared_params=fmt.common_docstring, returns=fmt.return_docstring) + def to_html( + self, + buf: FilePath | WriteBuffer[str] | None = None, + columns: Axes | None = None, + col_space: ColspaceArgType | None = None, + header: bool = True, + index: bool = True, + na_rep: str = "NaN", + formatters: FormattersType | None = None, + float_format: FloatFormatType | None = None, + sparsify: bool | None = None, + index_names: bool = True, + justify: str | None = None, + max_rows: int | None = None, + max_cols: int | None = None, + show_dimensions: bool | str = False, + decimal: str = ".", + bold_rows: bool = True, + classes: str | list | tuple | None = None, + escape: bool = True, + notebook: bool = False, + border: int | bool | None = None, + table_id: str | None = None, + render_links: bool = False, + encoding: str | None = None, + ) -> str | None: + """ + Render a DataFrame as an HTML table. + %(shared_params)s + bold_rows : bool, default True + Make the row labels bold in the output. + classes : str or list or tuple, default None + CSS class(es) to apply to the resulting html table. + escape : bool, default True + Convert the characters <, >, and & to HTML-safe sequences. + notebook : {True, False}, default False + Whether the generated HTML is for IPython Notebook. + border : int + A ``border=border`` attribute is included in the opening + `` tag. Default ``pd.options.display.html.border``. + table_id : str, optional + A css id is included in the opening `
` tag if specified. + render_links : bool, default False + Convert URLs to HTML links. + encoding : str, default "utf-8" + Set character encoding. + %(returns)s + See Also + -------- + to_string : Convert DataFrame to a string. + + Examples + -------- + >>> df = pd.DataFrame(data={'col1': [1, 2], 'col2': [4, 3]}) + >>> html_string = '''
+ ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ... + ...
col1col2
014
123
''' + >>> assert html_string == df.to_html() + """ + if justify is not None and justify not in fmt.VALID_JUSTIFY_PARAMETERS: + raise ValueError("Invalid value for justify parameter") + + formatter = fmt.DataFrameFormatter( + self, + columns=columns, + col_space=col_space, + na_rep=na_rep, + header=header, + index=index, + formatters=formatters, + float_format=float_format, + bold_rows=bold_rows, + sparsify=sparsify, + justify=justify, + index_names=index_names, + escape=escape, + decimal=decimal, + max_rows=max_rows, + max_cols=max_cols, + show_dimensions=show_dimensions, + ) + # TODO: a generic formatter wld b in DataFrameFormatter + return fmt.DataFrameRenderer(formatter).to_html( + buf=buf, + classes=classes, + notebook=notebook, + border=border, + encoding=encoding, + table_id=table_id, + render_links=render_links, + ) + + @overload + def to_xml( + self, + path_or_buffer: None = ..., + *, + index: bool = ..., + root_name: str | None = ..., + row_name: str | None = ..., + na_rep: str | None = ..., + attr_cols: list[str] | None = ..., + elem_cols: list[str] | None = ..., + namespaces: dict[str | None, str] | None = ..., + prefix: str | None = ..., + encoding: str = ..., + xml_declaration: bool | None = ..., + pretty_print: bool | None = ..., + parser: XMLParsers | None = ..., + stylesheet: FilePath | ReadBuffer[str] | ReadBuffer[bytes] | None = ..., + compression: CompressionOptions = ..., + storage_options: StorageOptions | None = ..., + ) -> str: + ... + + @overload + def to_xml( + self, + path_or_buffer: FilePath | WriteBuffer[bytes] | WriteBuffer[str], + *, + index: bool = ..., + root_name: str | None = ..., + row_name: str | None = ..., + na_rep: str | None = ..., + attr_cols: list[str] | None = ..., + elem_cols: list[str] | None = ..., + namespaces: dict[str | None, str] | None = ..., + prefix: str | None = ..., + encoding: str = ..., + xml_declaration: bool | None = ..., + pretty_print: bool | None = ..., + parser: XMLParsers | None = ..., + stylesheet: FilePath | ReadBuffer[str] | ReadBuffer[bytes] | None = ..., + compression: CompressionOptions = ..., + storage_options: StorageOptions | None = ..., + ) -> None: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path_or_buffer"], name="to_xml" + ) + @doc( + storage_options=_shared_docs["storage_options"], + compression_options=_shared_docs["compression_options"] % "path_or_buffer", + ) + def to_xml( + self, + path_or_buffer: FilePath | WriteBuffer[bytes] | WriteBuffer[str] | None = None, + index: bool = True, + root_name: str | None = "data", + row_name: str | None = "row", + na_rep: str | None = None, + attr_cols: list[str] | None = None, + elem_cols: list[str] | None = None, + namespaces: dict[str | None, str] | None = None, + prefix: str | None = None, + encoding: str = "utf-8", + xml_declaration: bool | None = True, + pretty_print: bool | None = True, + parser: XMLParsers | None = "lxml", + stylesheet: FilePath | ReadBuffer[str] | ReadBuffer[bytes] | None = None, + compression: CompressionOptions = "infer", + storage_options: StorageOptions | None = None, + ) -> str | None: + """ + Render a DataFrame to an XML document. + + .. versionadded:: 1.3.0 + + Parameters + ---------- + path_or_buffer : str, path object, file-like object, or None, default None + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a ``write()`` function. If None, the result is returned + as a string. + index : bool, default True + Whether to include index in XML document. + root_name : str, default 'data' + The name of root element in XML document. + row_name : str, default 'row' + The name of row element in XML document. + na_rep : str, optional + Missing data representation. + attr_cols : list-like, optional + List of columns to write as attributes in row element. + Hierarchical columns will be flattened with underscore + delimiting the different levels. + elem_cols : list-like, optional + List of columns to write as children in row element. By default, + all columns output as children of row element. Hierarchical + columns will be flattened with underscore delimiting the + different levels. + namespaces : dict, optional + All namespaces to be defined in root element. Keys of dict + should be prefix names and values of dict corresponding URIs. + Default namespaces should be given empty string key. For + example, :: + + namespaces = {{"": "https://example.com"}} + + prefix : str, optional + Namespace prefix to be used for every element and/or attribute + in document. This should be one of the keys in ``namespaces`` + dict. + encoding : str, default 'utf-8' + Encoding of the resulting document. + xml_declaration : bool, default True + Whether to include the XML declaration at start of document. + pretty_print : bool, default True + Whether output should be pretty printed with indentation and + line breaks. + parser : {{'lxml','etree'}}, default 'lxml' + Parser module to use for building of tree. Only 'lxml' and + 'etree' are supported. With 'lxml', the ability to use XSLT + stylesheet is supported. + stylesheet : str, path object or file-like object, optional + A URL, file-like object, or a raw string containing an XSLT + script used to transform the raw XML output. Script should use + layout of elements and attributes from original output. This + argument requires ``lxml`` to be installed. Only XSLT 1.0 + scripts and not later versions is currently supported. + {compression_options} + + .. versionchanged:: 1.4.0 Zstandard support. + + {storage_options} + + Returns + ------- + None or str + If ``io`` is None, returns the resulting XML format as a + string. Otherwise returns None. + + See Also + -------- + to_json : Convert the pandas object to a JSON string. + to_html : Convert DataFrame to a html. + + Examples + -------- + >>> df = pd.DataFrame({{'shape': ['square', 'circle', 'triangle'], + ... 'degrees': [360, 360, 180], + ... 'sides': [4, np.nan, 3]}}) + + >>> df.to_xml() # doctest: +SKIP + + + + 0 + square + 360 + 4.0 + + + 1 + circle + 360 + + + + 2 + triangle + 180 + 3.0 + + + + >>> df.to_xml(attr_cols=[ + ... 'index', 'shape', 'degrees', 'sides' + ... ]) # doctest: +SKIP + + + + + + + + >>> df.to_xml(namespaces={{"doc": "https://example.com"}}, + ... prefix="doc") # doctest: +SKIP + + + + 0 + square + 360 + 4.0 + + + 1 + circle + 360 + + + + 2 + triangle + 180 + 3.0 + + + """ + + from pandas.io.formats.xml import ( + EtreeXMLFormatter, + LxmlXMLFormatter, + ) + + lxml = import_optional_dependency("lxml.etree", errors="ignore") + + TreeBuilder: type[EtreeXMLFormatter | LxmlXMLFormatter] + + if parser == "lxml": + if lxml is not None: + TreeBuilder = LxmlXMLFormatter + else: + raise ImportError( + "lxml not found, please install or use the etree parser." + ) + + elif parser == "etree": + TreeBuilder = EtreeXMLFormatter + + else: + raise ValueError("Values for parser can only be lxml or etree.") + + xml_formatter = TreeBuilder( + self, + path_or_buffer=path_or_buffer, + index=index, + root_name=root_name, + row_name=row_name, + na_rep=na_rep, + attr_cols=attr_cols, + elem_cols=elem_cols, + namespaces=namespaces, + prefix=prefix, + encoding=encoding, + xml_declaration=xml_declaration, + pretty_print=pretty_print, + stylesheet=stylesheet, + compression=compression, + storage_options=storage_options, + ) + + return xml_formatter.write_output() + + # ---------------------------------------------------------------------- + @doc(INFO_DOCSTRING, **frame_sub_kwargs) + def info( + self, + verbose: bool | None = None, + buf: WriteBuffer[str] | None = None, + max_cols: int | None = None, + memory_usage: bool | str | None = None, + show_counts: bool | None = None, + ) -> None: + info = DataFrameInfo( + data=self, + memory_usage=memory_usage, + ) + info.render( + buf=buf, + max_cols=max_cols, + verbose=verbose, + show_counts=show_counts, + ) + + def memory_usage(self, index: bool = True, deep: bool = False) -> Series: + """ + Return the memory usage of each column in bytes. + + The memory usage can optionally include the contribution of + the index and elements of `object` dtype. + + This value is displayed in `DataFrame.info` by default. This can be + suppressed by setting ``pandas.options.display.memory_usage`` to False. + + Parameters + ---------- + index : bool, default True + Specifies whether to include the memory usage of the DataFrame's + index in returned Series. If ``index=True``, the memory usage of + the index is the first item in the output. + deep : bool, default False + If True, introspect the data deeply by interrogating + `object` dtypes for system-level memory consumption, and include + it in the returned values. + + Returns + ------- + Series + A Series whose index is the original column names and whose values + is the memory usage of each column in bytes. + + See Also + -------- + numpy.ndarray.nbytes : Total bytes consumed by the elements of an + ndarray. + Series.memory_usage : Bytes consumed by a Series. + Categorical : Memory-efficient array for string values with + many repeated values. + DataFrame.info : Concise summary of a DataFrame. + + Notes + ----- + See the :ref:`Frequently Asked Questions ` for more + details. + + Examples + -------- + >>> dtypes = ['int64', 'float64', 'complex128', 'object', 'bool'] + >>> data = dict([(t, np.ones(shape=5000, dtype=int).astype(t)) + ... for t in dtypes]) + >>> df = pd.DataFrame(data) + >>> df.head() + int64 float64 complex128 object bool + 0 1 1.0 1.0+0.0j 1 True + 1 1 1.0 1.0+0.0j 1 True + 2 1 1.0 1.0+0.0j 1 True + 3 1 1.0 1.0+0.0j 1 True + 4 1 1.0 1.0+0.0j 1 True + + >>> df.memory_usage() + Index 128 + int64 40000 + float64 40000 + complex128 80000 + object 40000 + bool 5000 + dtype: int64 + + >>> df.memory_usage(index=False) + int64 40000 + float64 40000 + complex128 80000 + object 40000 + bool 5000 + dtype: int64 + + The memory footprint of `object` dtype columns is ignored by default: + + >>> df.memory_usage(deep=True) + Index 128 + int64 40000 + float64 40000 + complex128 80000 + object 180000 + bool 5000 + dtype: int64 + + Use a Categorical for efficient storage of an object-dtype column with + many repeated values. + + >>> df['object'].astype('category').memory_usage(deep=True) + 5244 + """ + result = self._constructor_sliced( + [c.memory_usage(index=False, deep=deep) for col, c in self.items()], + index=self.columns, + dtype=np.intp, + ) + if index: + index_memory_usage = self._constructor_sliced( + self.index.memory_usage(deep=deep), index=["Index"] + ) + result = index_memory_usage._append(result) + return result + + def transpose(self, *args, copy: bool = False) -> DataFrame: + """ + Transpose index and columns. + + Reflect the DataFrame over its main diagonal by writing rows as columns + and vice-versa. The property :attr:`.T` is an accessor to the method + :meth:`transpose`. + + Parameters + ---------- + *args : tuple, optional + Accepted for compatibility with NumPy. + copy : bool, default False + Whether to copy the data after transposing, even for DataFrames + with a single dtype. + + Note that a copy is always required for mixed dtype DataFrames, + or for DataFrames with any extension types. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + DataFrame + The transposed DataFrame. + + See Also + -------- + numpy.transpose : Permute the dimensions of a given array. + + Notes + ----- + Transposing a DataFrame with mixed dtypes will result in a homogeneous + DataFrame with the `object` dtype. In such a case, a copy of the data + is always made. + + Examples + -------- + **Square DataFrame with homogeneous dtype** + + >>> d1 = {'col1': [1, 2], 'col2': [3, 4]} + >>> df1 = pd.DataFrame(data=d1) + >>> df1 + col1 col2 + 0 1 3 + 1 2 4 + + >>> df1_transposed = df1.T # or df1.transpose() + >>> df1_transposed + 0 1 + col1 1 2 + col2 3 4 + + When the dtype is homogeneous in the original DataFrame, we get a + transposed DataFrame with the same dtype: + + >>> df1.dtypes + col1 int64 + col2 int64 + dtype: object + >>> df1_transposed.dtypes + 0 int64 + 1 int64 + dtype: object + + **Non-square DataFrame with mixed dtypes** + + >>> d2 = {'name': ['Alice', 'Bob'], + ... 'score': [9.5, 8], + ... 'employed': [False, True], + ... 'kids': [0, 0]} + >>> df2 = pd.DataFrame(data=d2) + >>> df2 + name score employed kids + 0 Alice 9.5 False 0 + 1 Bob 8.0 True 0 + + >>> df2_transposed = df2.T # or df2.transpose() + >>> df2_transposed + 0 1 + name Alice Bob + score 9.5 8.0 + employed False True + kids 0 0 + + When the DataFrame has mixed dtypes, we get a transposed DataFrame with + the `object` dtype: + + >>> df2.dtypes + name object + score float64 + employed bool + kids int64 + dtype: object + >>> df2_transposed.dtypes + 0 object + 1 object + dtype: object + """ + nv.validate_transpose(args, {}) + # construct the args + + dtypes = list(self.dtypes) + + if self._can_fast_transpose: + # Note: tests pass without this, but this improves perf quite a bit. + new_vals = self._values.T + if copy and not using_copy_on_write(): + new_vals = new_vals.copy() + + result = self._constructor( + new_vals, + index=self.columns, + columns=self.index, + copy=False, + dtype=new_vals.dtype, + ) + if using_copy_on_write() and len(self) > 0: + result._mgr.add_references(self._mgr) # type: ignore[arg-type] + + elif ( + self._is_homogeneous_type + and dtypes + and isinstance(dtypes[0], ExtensionDtype) + ): + new_values: list + if isinstance(dtypes[0], BaseMaskedDtype): + # We have masked arrays with the same dtype. We can transpose faster. + from pandas.core.arrays.masked import ( + transpose_homogeneous_masked_arrays, + ) + + new_values = transpose_homogeneous_masked_arrays( + cast(Sequence[BaseMaskedArray], self._iter_column_arrays()) + ) + elif isinstance(dtypes[0], ArrowDtype): + # We have arrow EAs with the same dtype. We can transpose faster. + from pandas.core.arrays.arrow.array import ( + ArrowExtensionArray, + transpose_homogeneous_pyarrow, + ) + + new_values = transpose_homogeneous_pyarrow( + cast(Sequence[ArrowExtensionArray], self._iter_column_arrays()) + ) + else: + # We have other EAs with the same dtype. We preserve dtype in transpose. + dtyp = dtypes[0] + arr_typ = dtyp.construct_array_type() + values = self.values + new_values = [arr_typ._from_sequence(row, dtype=dtyp) for row in values] + + result = type(self)._from_arrays( + new_values, + index=self.columns, + columns=self.index, + verify_integrity=False, + ) + + else: + new_arr = self.values.T + if copy and not using_copy_on_write(): + new_arr = new_arr.copy() + result = self._constructor( + new_arr, + index=self.columns, + columns=self.index, + dtype=new_arr.dtype, + # We already made a copy (more than one block) + copy=False, + ) + + return result.__finalize__(self, method="transpose") + + @property + def T(self) -> DataFrame: + """ + The transpose of the DataFrame. + + Returns + ------- + DataFrame + The transposed DataFrame. + + See Also + -------- + DataFrame.transpose : Transpose index and columns. + + Examples + -------- + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df + col1 col2 + 0 1 3 + 1 2 4 + + >>> df.T + 0 1 + col1 1 2 + col2 3 4 + """ + return self.transpose() + + # ---------------------------------------------------------------------- + # Indexing Methods + + def _ixs(self, i: int, axis: AxisInt = 0) -> Series: + """ + Parameters + ---------- + i : int + axis : int + + Returns + ------- + Series + """ + # irow + if axis == 0: + new_mgr = self._mgr.fast_xs(i) + + # if we are a copy, mark as such + copy = isinstance(new_mgr.array, np.ndarray) and new_mgr.array.base is None + result = self._constructor_sliced_from_mgr(new_mgr, axes=new_mgr.axes) + result._name = self.index[i] + result = result.__finalize__(self) + result._set_is_copy(self, copy=copy) + return result + + # icol + else: + label = self.columns[i] + + col_mgr = self._mgr.iget(i) + result = self._box_col_values(col_mgr, i) + + # this is a cached value, mark it so + result._set_as_cached(label, self) + return result + + def _get_column_array(self, i: int) -> ArrayLike: + """ + Get the values of the i'th column (ndarray or ExtensionArray, as stored + in the Block) + + Warning! The returned array is a view but doesn't handle Copy-on-Write, + so this should be used with caution (for read-only purposes). + """ + return self._mgr.iget_values(i) + + def _iter_column_arrays(self) -> Iterator[ArrayLike]: + """ + Iterate over the arrays of all columns in order. + This returns the values as stored in the Block (ndarray or ExtensionArray). + + Warning! The returned array is a view but doesn't handle Copy-on-Write, + so this should be used with caution (for read-only purposes). + """ + if isinstance(self._mgr, ArrayManager): + yield from self._mgr.arrays + else: + for i in range(len(self.columns)): + yield self._get_column_array(i) + + def _getitem_nocopy(self, key: list): + """ + Behaves like __getitem__, but returns a view in cases where __getitem__ + would make a copy. + """ + # TODO(CoW): can be removed if/when we are always Copy-on-Write + indexer = self.columns._get_indexer_strict(key, "columns")[1] + new_axis = self.columns[indexer] + + new_mgr = self._mgr.reindex_indexer( + new_axis, + indexer, + axis=0, + allow_dups=True, + copy=False, + only_slice=True, + ) + result = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + result = result.__finalize__(self) + return result + + def __getitem__(self, key): + check_dict_or_set_indexers(key) + key = lib.item_from_zerodim(key) + key = com.apply_if_callable(key, self) + + if is_hashable(key) and not is_iterator(key): + # is_iterator to exclude generator e.g. test_getitem_listlike + # shortcut if the key is in columns + is_mi = isinstance(self.columns, MultiIndex) + # GH#45316 Return view if key is not duplicated + # Only use drop_duplicates with duplicates for performance + if not is_mi and ( + self.columns.is_unique + and key in self.columns + or key in self.columns.drop_duplicates(keep=False) + ): + return self._get_item_cache(key) + + elif is_mi and self.columns.is_unique and key in self.columns: + return self._getitem_multilevel(key) + + # Do we have a slicer (on rows)? + if isinstance(key, slice): + return self._getitem_slice(key) + + # Do we have a (boolean) DataFrame? + if isinstance(key, DataFrame): + return self.where(key) + + # Do we have a (boolean) 1d indexer? + if com.is_bool_indexer(key): + return self._getitem_bool_array(key) + + # We are left with two options: a single key, and a collection of keys, + # We interpret tuples as collections only for non-MultiIndex + is_single_key = isinstance(key, tuple) or not is_list_like(key) + + if is_single_key: + if self.columns.nlevels > 1: + return self._getitem_multilevel(key) + indexer = self.columns.get_loc(key) + if is_integer(indexer): + indexer = [indexer] + else: + if is_iterator(key): + key = list(key) + indexer = self.columns._get_indexer_strict(key, "columns")[1] + + # take() does not accept boolean indexers + if getattr(indexer, "dtype", None) == bool: + indexer = np.where(indexer)[0] + + if isinstance(indexer, slice): + return self._slice(indexer, axis=1) + + data = self._take_with_is_copy(indexer, axis=1) + + if is_single_key: + # What does looking for a single key in a non-unique index return? + # The behavior is inconsistent. It returns a Series, except when + # - the key itself is repeated (test on data.shape, #9519), or + # - we have a MultiIndex on columns (test on self.columns, #21309) + if data.shape[1] == 1 and not isinstance(self.columns, MultiIndex): + # GH#26490 using data[key] can cause RecursionError + return data._get_item_cache(key) + + return data + + def _getitem_bool_array(self, key): + # also raises Exception if object array with NA values + # warning here just in case -- previously __setitem__ was + # reindexing but __getitem__ was not; it seems more reasonable to + # go with the __setitem__ behavior since that is more consistent + # with all other indexing behavior + if isinstance(key, Series) and not key.index.equals(self.index): + warnings.warn( + "Boolean Series key will be reindexed to match DataFrame index.", + UserWarning, + stacklevel=find_stack_level(), + ) + elif len(key) != len(self.index): + raise ValueError( + f"Item wrong length {len(key)} instead of {len(self.index)}." + ) + + # check_bool_indexer will throw exception if Series key cannot + # be reindexed to match DataFrame rows + key = check_bool_indexer(self.index, key) + + if key.all(): + return self.copy(deep=None) + + indexer = key.nonzero()[0] + return self._take_with_is_copy(indexer, axis=0) + + def _getitem_multilevel(self, key): + # self.columns is a MultiIndex + loc = self.columns.get_loc(key) + if isinstance(loc, (slice, np.ndarray)): + new_columns = self.columns[loc] + result_columns = maybe_droplevels(new_columns, key) + result = self.iloc[:, loc] + result.columns = result_columns + + # If there is only one column being returned, and its name is + # either an empty string, or a tuple with an empty string as its + # first element, then treat the empty string as a placeholder + # and return the column as if the user had provided that empty + # string in the key. If the result is a Series, exclude the + # implied empty string from its name. + if len(result.columns) == 1: + # e.g. test_frame_getitem_multicolumn_empty_level, + # test_frame_mixed_depth_get, test_loc_setitem_single_column_slice + top = result.columns[0] + if isinstance(top, tuple): + top = top[0] + if top == "": + result = result[""] + if isinstance(result, Series): + result = self._constructor_sliced( + result, index=self.index, name=key + ) + + result._set_is_copy(self) + return result + else: + # loc is neither a slice nor ndarray, so must be an int + return self._ixs(loc, axis=1) + + def _get_value(self, index, col, takeable: bool = False) -> Scalar: + """ + Quickly retrieve single value at passed column and index. + + Parameters + ---------- + index : row label + col : column label + takeable : interpret the index/col as indexers, default False + + Returns + ------- + scalar + + Notes + ----- + Assumes that both `self.index._index_as_unique` and + `self.columns._index_as_unique`; Caller is responsible for checking. + """ + if takeable: + series = self._ixs(col, axis=1) + return series._values[index] + + series = self._get_item_cache(col) + engine = self.index._engine + + if not isinstance(self.index, MultiIndex): + # CategoricalIndex: Trying to use the engine fastpath may give incorrect + # results if our categories are integers that dont match our codes + # IntervalIndex: IntervalTree has no get_loc + row = self.index.get_loc(index) + return series._values[row] + + # For MultiIndex going through engine effectively restricts us to + # same-length tuples; see test_get_set_value_no_partial_indexing + loc = engine.get_loc(index) + return series._values[loc] + + def isetitem(self, loc, value) -> None: + """ + Set the given value in the column with position `loc`. + + This is a positional analogue to ``__setitem__``. + + Parameters + ---------- + loc : int or sequence of ints + Index position for the column. + value : scalar or arraylike + Value(s) for the column. + + Notes + ----- + ``frame.isetitem(loc, value)`` is an in-place method as it will + modify the DataFrame in place (not returning a new object). In contrast to + ``frame.iloc[:, i] = value`` which will try to update the existing values in + place, ``frame.isetitem(loc, value)`` will not update the values of the column + itself in place, it will instead insert a new array. + + In cases where ``frame.columns`` is unique, this is equivalent to + ``frame[frame.columns[i]] = value``. + """ + if isinstance(value, DataFrame): + if is_integer(loc): + loc = [loc] + + if len(loc) != len(value.columns): + raise ValueError( + f"Got {len(loc)} positions but value has {len(value.columns)} " + f"columns." + ) + + for i, idx in enumerate(loc): + arraylike, refs = self._sanitize_column(value.iloc[:, i]) + self._iset_item_mgr(idx, arraylike, inplace=False, refs=refs) + return + + arraylike, refs = self._sanitize_column(value) + self._iset_item_mgr(loc, arraylike, inplace=False, refs=refs) + + def __setitem__(self, key, value) -> None: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= 3: + warnings.warn( + _chained_assignment_msg, ChainedAssignmentError, stacklevel=2 + ) + elif not PYPY and not using_copy_on_write(): + if sys.getrefcount(self) <= 3 and ( + warn_copy_on_write() + or ( + not warn_copy_on_write() + and any(b.refs.has_reference() for b in self._mgr.blocks) # type: ignore[union-attr] + ) + ): + warnings.warn( + _chained_assignment_warning_msg, FutureWarning, stacklevel=2 + ) + + key = com.apply_if_callable(key, self) + + # see if we can slice the rows + if isinstance(key, slice): + slc = self.index._convert_slice_indexer(key, kind="getitem") + return self._setitem_slice(slc, value) + + if isinstance(key, DataFrame) or getattr(key, "ndim", None) == 2: + self._setitem_frame(key, value) + elif isinstance(key, (Series, np.ndarray, list, Index)): + self._setitem_array(key, value) + elif isinstance(value, DataFrame): + self._set_item_frame_value(key, value) + elif ( + is_list_like(value) + and not self.columns.is_unique + and 1 < len(self.columns.get_indexer_for([key])) == len(value) + ): + # Column to set is duplicated + self._setitem_array([key], value) + else: + # set column + self._set_item(key, value) + + def _setitem_slice(self, key: slice, value) -> None: + # NB: we can't just use self.loc[key] = value because that + # operates on labels and we need to operate positional for + # backwards-compat, xref GH#31469 + self._check_setitem_copy() + self.iloc[key] = value + + def _setitem_array(self, key, value): + # also raises Exception if object array with NA values + if com.is_bool_indexer(key): + # bool indexer is indexing along rows + if len(key) != len(self.index): + raise ValueError( + f"Item wrong length {len(key)} instead of {len(self.index)}!" + ) + key = check_bool_indexer(self.index, key) + indexer = key.nonzero()[0] + self._check_setitem_copy() + if isinstance(value, DataFrame): + # GH#39931 reindex since iloc does not align + value = value.reindex(self.index.take(indexer)) + self.iloc[indexer] = value + + else: + # Note: unlike self.iloc[:, indexer] = value, this will + # never try to overwrite values inplace + + if isinstance(value, DataFrame): + check_key_length(self.columns, key, value) + for k1, k2 in zip(key, value.columns): + self[k1] = value[k2] + + elif not is_list_like(value): + for col in key: + self[col] = value + + elif isinstance(value, np.ndarray) and value.ndim == 2: + self._iset_not_inplace(key, value) + + elif np.ndim(value) > 1: + # list of lists + value = DataFrame(value).values + return self._setitem_array(key, value) + + else: + self._iset_not_inplace(key, value) + + def _iset_not_inplace(self, key, value): + # GH#39510 when setting with df[key] = obj with a list-like key and + # list-like value, we iterate over those listlikes and set columns + # one at a time. This is different from dispatching to + # `self.loc[:, key]= value` because loc.__setitem__ may overwrite + # data inplace, whereas this will insert new arrays. + + def igetitem(obj, i: int): + # Note: we catch DataFrame obj before getting here, but + # hypothetically would return obj.iloc[:, i] + if isinstance(obj, np.ndarray): + return obj[..., i] + else: + return obj[i] + + if self.columns.is_unique: + if np.shape(value)[-1] != len(key): + raise ValueError("Columns must be same length as key") + + for i, col in enumerate(key): + self[col] = igetitem(value, i) + + else: + ilocs = self.columns.get_indexer_non_unique(key)[0] + if (ilocs < 0).any(): + # key entries not in self.columns + raise NotImplementedError + + if np.shape(value)[-1] != len(ilocs): + raise ValueError("Columns must be same length as key") + + assert np.ndim(value) <= 2 + + orig_columns = self.columns + + # Using self.iloc[:, i] = ... may set values inplace, which + # by convention we do not do in __setitem__ + try: + self.columns = Index(range(len(self.columns))) + for i, iloc in enumerate(ilocs): + self[iloc] = igetitem(value, i) + finally: + self.columns = orig_columns + + def _setitem_frame(self, key, value): + # support boolean setting with DataFrame input, e.g. + # df[df > df2] = 0 + if isinstance(key, np.ndarray): + if key.shape != self.shape: + raise ValueError("Array conditional must be same shape as self") + key = self._constructor(key, **self._construct_axes_dict(), copy=False) + + if key.size and not all(is_bool_dtype(dtype) for dtype in key.dtypes): + raise TypeError( + "Must pass DataFrame or 2-d ndarray with boolean values only" + ) + + self._check_setitem_copy() + self._where(-key, value, inplace=True) + + def _set_item_frame_value(self, key, value: DataFrame) -> None: + self._ensure_valid_index(value) + + # align columns + if key in self.columns: + loc = self.columns.get_loc(key) + cols = self.columns[loc] + len_cols = 1 if is_scalar(cols) or isinstance(cols, tuple) else len(cols) + if len_cols != len(value.columns): + raise ValueError("Columns must be same length as key") + + # align right-hand-side columns if self.columns + # is multi-index and self[key] is a sub-frame + if isinstance(self.columns, MultiIndex) and isinstance( + loc, (slice, Series, np.ndarray, Index) + ): + cols_droplevel = maybe_droplevels(cols, key) + if len(cols_droplevel) and not cols_droplevel.equals(value.columns): + value = value.reindex(cols_droplevel, axis=1) + + for col, col_droplevel in zip(cols, cols_droplevel): + self[col] = value[col_droplevel] + return + + if is_scalar(cols): + self[cols] = value[value.columns[0]] + return + + locs: np.ndarray | list + if isinstance(loc, slice): + locs = np.arange(loc.start, loc.stop, loc.step) + elif is_scalar(loc): + locs = [loc] + else: + locs = loc.nonzero()[0] + + return self.isetitem(locs, value) + + if len(value.columns) > 1: + raise ValueError( + "Cannot set a DataFrame with multiple columns to the single " + f"column {key}" + ) + elif len(value.columns) == 0: + raise ValueError( + f"Cannot set a DataFrame without columns to the column {key}" + ) + + self[key] = value[value.columns[0]] + + def _iset_item_mgr( + self, + loc: int | slice | np.ndarray, + value, + inplace: bool = False, + refs: BlockValuesRefs | None = None, + ) -> None: + # when called from _set_item_mgr loc can be anything returned from get_loc + self._mgr.iset(loc, value, inplace=inplace, refs=refs) + self._clear_item_cache() + + def _set_item_mgr( + self, key, value: ArrayLike, refs: BlockValuesRefs | None = None + ) -> None: + try: + loc = self._info_axis.get_loc(key) + except KeyError: + # This item wasn't present, just insert at end + self._mgr.insert(len(self._info_axis), key, value, refs) + else: + self._iset_item_mgr(loc, value, refs=refs) + + # check if we are modifying a copy + # try to set first as we want an invalid + # value exception to occur first + if len(self): + self._check_setitem_copy() + + def _iset_item(self, loc: int, value: Series, inplace: bool = True) -> None: + # We are only called from _replace_columnwise which guarantees that + # no reindex is necessary + if using_copy_on_write(): + self._iset_item_mgr( + loc, value._values, inplace=inplace, refs=value._references + ) + else: + self._iset_item_mgr(loc, value._values.copy(), inplace=True) + + # check if we are modifying a copy + # try to set first as we want an invalid + # value exception to occur first + if len(self): + self._check_setitem_copy() + + def _set_item(self, key, value) -> None: + """ + Add series to DataFrame in specified column. + + If series is a numpy-array (not a Series/TimeSeries), it must be the + same length as the DataFrames index or an error will be thrown. + + Series/TimeSeries will be conformed to the DataFrames index to + ensure homogeneity. + """ + value, refs = self._sanitize_column(value) + + if ( + key in self.columns + and value.ndim == 1 + and not isinstance(value.dtype, ExtensionDtype) + ): + # broadcast across multiple columns if necessary + if not self.columns.is_unique or isinstance(self.columns, MultiIndex): + existing_piece = self[key] + if isinstance(existing_piece, DataFrame): + value = np.tile(value, (len(existing_piece.columns), 1)).T + refs = None + + self._set_item_mgr(key, value, refs) + + def _set_value( + self, index: IndexLabel, col, value: Scalar, takeable: bool = False + ) -> None: + """ + Put single value at passed column and index. + + Parameters + ---------- + index : Label + row label + col : Label + column label + value : scalar + takeable : bool, default False + Sets whether or not index/col interpreted as indexers + """ + try: + if takeable: + icol = col + iindex = cast(int, index) + else: + icol = self.columns.get_loc(col) + iindex = self.index.get_loc(index) + self._mgr.column_setitem(icol, iindex, value, inplace_only=True) + self._clear_item_cache() + + except (KeyError, TypeError, ValueError, LossySetitemError): + # get_loc might raise a KeyError for missing labels (falling back + # to (i)loc will do expansion of the index) + # column_setitem will do validation that may raise TypeError, + # ValueError, or LossySetitemError + # set using a non-recursive method & reset the cache + if takeable: + self.iloc[index, col] = value + else: + self.loc[index, col] = value + self._item_cache.pop(col, None) + + except InvalidIndexError as ii_err: + # GH48729: Seems like you are trying to assign a value to a + # row when only scalar options are permitted + raise InvalidIndexError( + f"You can only assign a scalar value not a {type(value)}" + ) from ii_err + + def _ensure_valid_index(self, value) -> None: + """ + Ensure that if we don't have an index, that we can create one from the + passed value. + """ + # GH5632, make sure that we are a Series convertible + if not len(self.index) and is_list_like(value) and len(value): + if not isinstance(value, DataFrame): + try: + value = Series(value) + except (ValueError, NotImplementedError, TypeError) as err: + raise ValueError( + "Cannot set a frame with no defined index " + "and a value that cannot be converted to a Series" + ) from err + + # GH31368 preserve name of index + index_copy = value.index.copy() + if self.index.name is not None: + index_copy.name = self.index.name + + self._mgr = self._mgr.reindex_axis(index_copy, axis=1, fill_value=np.nan) + + def _box_col_values(self, values: SingleDataManager, loc: int) -> Series: + """ + Provide boxed values for a column. + """ + # Lookup in columns so that if e.g. a str datetime was passed + # we attach the Timestamp object as the name. + name = self.columns[loc] + # We get index=self.index bc values is a SingleDataManager + obj = self._constructor_sliced_from_mgr(values, axes=values.axes) + obj._name = name + return obj.__finalize__(self) + + # ---------------------------------------------------------------------- + # Lookup Caching + + def _clear_item_cache(self) -> None: + self._item_cache.clear() + + def _get_item_cache(self, item: Hashable) -> Series: + """Return the cached item, item represents a label indexer.""" + if using_copy_on_write() or warn_copy_on_write(): + loc = self.columns.get_loc(item) + return self._ixs(loc, axis=1) + + cache = self._item_cache + res = cache.get(item) + if res is None: + # All places that call _get_item_cache have unique columns, + # pending resolution of GH#33047 + + loc = self.columns.get_loc(item) + res = self._ixs(loc, axis=1) + + cache[item] = res + + # for a chain + res._is_copy = self._is_copy + return res + + def _reset_cacher(self) -> None: + # no-op for DataFrame + pass + + def _maybe_cache_changed(self, item, value: Series, inplace: bool) -> None: + """ + The object has called back to us saying maybe it has changed. + """ + loc = self._info_axis.get_loc(item) + arraylike = value._values + + old = self._ixs(loc, axis=1) + if old._values is value._values and inplace: + # GH#46149 avoid making unnecessary copies/block-splitting + return + + self._mgr.iset(loc, arraylike, inplace=inplace) + + # ---------------------------------------------------------------------- + # Unsorted + + @overload + def query(self, expr: str, *, inplace: Literal[False] = ..., **kwargs) -> DataFrame: + ... + + @overload + def query(self, expr: str, *, inplace: Literal[True], **kwargs) -> None: + ... + + @overload + def query(self, expr: str, *, inplace: bool = ..., **kwargs) -> DataFrame | None: + ... + + def query(self, expr: str, *, inplace: bool = False, **kwargs) -> DataFrame | None: + """ + Query the columns of a DataFrame with a boolean expression. + + Parameters + ---------- + expr : str + The query string to evaluate. + + You can refer to variables + in the environment by prefixing them with an '@' character like + ``@a + b``. + + You can refer to column names that are not valid Python variable names + by surrounding them in backticks. Thus, column names containing spaces + or punctuations (besides underscores) or starting with digits must be + surrounded by backticks. (For example, a column named "Area (cm^2)" would + be referenced as ```Area (cm^2)```). Column names which are Python keywords + (like "list", "for", "import", etc) cannot be used. + + For example, if one of your columns is called ``a a`` and you want + to sum it with ``b``, your query should be ```a a` + b``. + + inplace : bool + Whether to modify the DataFrame rather than creating a new one. + **kwargs + See the documentation for :func:`eval` for complete details + on the keyword arguments accepted by :meth:`DataFrame.query`. + + Returns + ------- + DataFrame or None + DataFrame resulting from the provided query expression or + None if ``inplace=True``. + + See Also + -------- + eval : Evaluate a string describing operations on + DataFrame columns. + DataFrame.eval : Evaluate a string describing operations on + DataFrame columns. + + Notes + ----- + The result of the evaluation of this expression is first passed to + :attr:`DataFrame.loc` and if that fails because of a + multidimensional key (e.g., a DataFrame) then the result will be passed + to :meth:`DataFrame.__getitem__`. + + This method uses the top-level :func:`eval` function to + evaluate the passed query. + + The :meth:`~pandas.DataFrame.query` method uses a slightly + modified Python syntax by default. For example, the ``&`` and ``|`` + (bitwise) operators have the precedence of their boolean cousins, + :keyword:`and` and :keyword:`or`. This *is* syntactically valid Python, + however the semantics are different. + + You can change the semantics of the expression by passing the keyword + argument ``parser='python'``. This enforces the same semantics as + evaluation in Python space. Likewise, you can pass ``engine='python'`` + to evaluate an expression using Python itself as a backend. This is not + recommended as it is inefficient compared to using ``numexpr`` as the + engine. + + The :attr:`DataFrame.index` and + :attr:`DataFrame.columns` attributes of the + :class:`~pandas.DataFrame` instance are placed in the query namespace + by default, which allows you to treat both the index and columns of the + frame as a column in the frame. + The identifier ``index`` is used for the frame index; you can also + use the name of the index to identify it in a query. Please note that + Python keywords may not be used as identifiers. + + For further details and examples see the ``query`` documentation in + :ref:`indexing `. + + *Backtick quoted variables* + + Backtick quoted variables are parsed as literal Python code and + are converted internally to a Python valid identifier. + This can lead to the following problems. + + During parsing a number of disallowed characters inside the backtick + quoted string are replaced by strings that are allowed as a Python identifier. + These characters include all operators in Python, the space character, the + question mark, the exclamation mark, the dollar sign, and the euro sign. + For other characters that fall outside the ASCII range (U+0001..U+007F) + and those that are not further specified in PEP 3131, + the query parser will raise an error. + This excludes whitespace different than the space character, + but also the hashtag (as it is used for comments) and the backtick + itself (backtick can also not be escaped). + + In a special case, quotes that make a pair around a backtick can + confuse the parser. + For example, ```it's` > `that's``` will raise an error, + as it forms a quoted string (``'s > `that'``) with a backtick inside. + + See also the Python documentation about lexical analysis + (https://docs.python.org/3/reference/lexical_analysis.html) + in combination with the source code in :mod:`pandas.core.computation.parsing`. + + Examples + -------- + >>> df = pd.DataFrame({'A': range(1, 6), + ... 'B': range(10, 0, -2), + ... 'C C': range(10, 5, -1)}) + >>> df + A B C C + 0 1 10 10 + 1 2 8 9 + 2 3 6 8 + 3 4 4 7 + 4 5 2 6 + >>> df.query('A > B') + A B C C + 4 5 2 6 + + The previous expression is equivalent to + + >>> df[df.A > df.B] + A B C C + 4 5 2 6 + + For columns with spaces in their name, you can use backtick quoting. + + >>> df.query('B == `C C`') + A B C C + 0 1 10 10 + + The previous expression is equivalent to + + >>> df[df.B == df['C C']] + A B C C + 0 1 10 10 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + if not isinstance(expr, str): + msg = f"expr must be a string to be evaluated, {type(expr)} given" + raise ValueError(msg) + kwargs["level"] = kwargs.pop("level", 0) + 1 + kwargs["target"] = None + res = self.eval(expr, **kwargs) + + try: + result = self.loc[res] + except ValueError: + # when res is multi-dimensional loc raises, but this is sometimes a + # valid query + result = self[res] + + if inplace: + self._update_inplace(result) + return None + else: + return result + + @overload + def eval(self, expr: str, *, inplace: Literal[False] = ..., **kwargs) -> Any: + ... + + @overload + def eval(self, expr: str, *, inplace: Literal[True], **kwargs) -> None: + ... + + def eval(self, expr: str, *, inplace: bool = False, **kwargs) -> Any | None: + """ + Evaluate a string describing operations on DataFrame columns. + + Operates on columns only, not specific rows or elements. This allows + `eval` to run arbitrary code, which can make you vulnerable to code + injection if you pass user input to this function. + + Parameters + ---------- + expr : str + The expression string to evaluate. + inplace : bool, default False + If the expression contains an assignment, whether to perform the + operation inplace and mutate the existing DataFrame. Otherwise, + a new DataFrame is returned. + **kwargs + See the documentation for :func:`eval` for complete details + on the keyword arguments accepted by + :meth:`~pandas.DataFrame.query`. + + Returns + ------- + ndarray, scalar, pandas object, or None + The result of the evaluation or None if ``inplace=True``. + + See Also + -------- + DataFrame.query : Evaluates a boolean expression to query the columns + of a frame. + DataFrame.assign : Can evaluate an expression or function to create new + values for a column. + eval : Evaluate a Python expression as a string using various + backends. + + Notes + ----- + For more details see the API documentation for :func:`~eval`. + For detailed examples see :ref:`enhancing performance with eval + `. + + Examples + -------- + >>> df = pd.DataFrame({'A': range(1, 6), 'B': range(10, 0, -2)}) + >>> df + A B + 0 1 10 + 1 2 8 + 2 3 6 + 3 4 4 + 4 5 2 + >>> df.eval('A + B') + 0 11 + 1 10 + 2 9 + 3 8 + 4 7 + dtype: int64 + + Assignment is allowed though by default the original DataFrame is not + modified. + + >>> df.eval('C = A + B') + A B C + 0 1 10 11 + 1 2 8 10 + 2 3 6 9 + 3 4 4 8 + 4 5 2 7 + >>> df + A B + 0 1 10 + 1 2 8 + 2 3 6 + 3 4 4 + 4 5 2 + + Multiple columns can be assigned to using multi-line expressions: + + >>> df.eval( + ... ''' + ... C = A + B + ... D = A - B + ... ''' + ... ) + A B C D + 0 1 10 11 -9 + 1 2 8 10 -6 + 2 3 6 9 -3 + 3 4 4 8 0 + 4 5 2 7 3 + """ + from pandas.core.computation.eval import eval as _eval + + inplace = validate_bool_kwarg(inplace, "inplace") + kwargs["level"] = kwargs.pop("level", 0) + 1 + index_resolvers = self._get_index_resolvers() + column_resolvers = self._get_cleaned_column_resolvers() + resolvers = column_resolvers, index_resolvers + if "target" not in kwargs: + kwargs["target"] = self + kwargs["resolvers"] = tuple(kwargs.get("resolvers", ())) + resolvers + + return _eval(expr, inplace=inplace, **kwargs) + + def select_dtypes(self, include=None, exclude=None) -> Self: + """ + Return a subset of the DataFrame's columns based on the column dtypes. + + Parameters + ---------- + include, exclude : scalar or list-like + A selection of dtypes or strings to be included/excluded. At least + one of these parameters must be supplied. + + Returns + ------- + DataFrame + The subset of the frame including the dtypes in ``include`` and + excluding the dtypes in ``exclude``. + + Raises + ------ + ValueError + * If both of ``include`` and ``exclude`` are empty + * If ``include`` and ``exclude`` have overlapping elements + * If any kind of string dtype is passed in. + + See Also + -------- + DataFrame.dtypes: Return Series with the data type of each column. + + Notes + ----- + * To select all *numeric* types, use ``np.number`` or ``'number'`` + * To select strings you must use the ``object`` dtype, but note that + this will return *all* object dtype columns. With + ``pd.options.future.infer_string`` enabled, using ``"str"`` will + work to select all string columns. + * See the `numpy dtype hierarchy + `__ + * To select datetimes, use ``np.datetime64``, ``'datetime'`` or + ``'datetime64'`` + * To select timedeltas, use ``np.timedelta64``, ``'timedelta'`` or + ``'timedelta64'`` + * To select Pandas categorical dtypes, use ``'category'`` + * To select Pandas datetimetz dtypes, use ``'datetimetz'`` + or ``'datetime64[ns, tz]'`` + + Examples + -------- + >>> df = pd.DataFrame({'a': [1, 2] * 3, + ... 'b': [True, False] * 3, + ... 'c': [1.0, 2.0] * 3}) + >>> df + a b c + 0 1 True 1.0 + 1 2 False 2.0 + 2 1 True 1.0 + 3 2 False 2.0 + 4 1 True 1.0 + 5 2 False 2.0 + + >>> df.select_dtypes(include='bool') + b + 0 True + 1 False + 2 True + 3 False + 4 True + 5 False + + >>> df.select_dtypes(include=['float64']) + c + 0 1.0 + 1 2.0 + 2 1.0 + 3 2.0 + 4 1.0 + 5 2.0 + + >>> df.select_dtypes(exclude=['int64']) + b c + 0 True 1.0 + 1 False 2.0 + 2 True 1.0 + 3 False 2.0 + 4 True 1.0 + 5 False 2.0 + """ + if not is_list_like(include): + include = (include,) if include is not None else () + if not is_list_like(exclude): + exclude = (exclude,) if exclude is not None else () + + selection = (frozenset(include), frozenset(exclude)) + + if not any(selection): + raise ValueError("at least one of include or exclude must be nonempty") + + # convert the myriad valid dtypes object to a single representation + def check_int_infer_dtype(dtypes): + converted_dtypes: list[type] = [] + for dtype in dtypes: + # Numpy maps int to different types (int32, in64) on Windows and Linux + # see https://github.com/numpy/numpy/issues/9464 + if (isinstance(dtype, str) and dtype == "int") or (dtype is int): + converted_dtypes.append(np.int32) + converted_dtypes.append(np.int64) + elif dtype == "float" or dtype is float: + # GH#42452 : np.dtype("float") coerces to np.float64 from Numpy 1.20 + converted_dtypes.extend([np.float64, np.float32]) + else: + converted_dtypes.append(infer_dtype_from_object(dtype)) + return frozenset(converted_dtypes) + + include = check_int_infer_dtype(include) + exclude = check_int_infer_dtype(exclude) + + for dtypes in (include, exclude): + invalidate_string_dtypes(dtypes) + + # can't both include AND exclude! + if not include.isdisjoint(exclude): + raise ValueError(f"include and exclude overlap on {(include & exclude)}") + + def dtype_predicate(dtype: DtypeObj, dtypes_set) -> bool: + # GH 46870: BooleanDtype._is_numeric == True but should be excluded + dtype = dtype if not isinstance(dtype, ArrowDtype) else dtype.numpy_dtype + return issubclass(dtype.type, tuple(dtypes_set)) or ( + np.number in dtypes_set + and getattr(dtype, "_is_numeric", False) + and not is_bool_dtype(dtype) + ) + + def predicate(arr: ArrayLike) -> bool: + dtype = arr.dtype + if include: + if not dtype_predicate(dtype, include): + return False + + if exclude: + if dtype_predicate(dtype, exclude): + return False + + return True + + mgr = self._mgr._get_data_subset(predicate).copy(deep=None) + # error: Incompatible return value type (got "DataFrame", expected "Self") + return self._constructor_from_mgr(mgr, axes=mgr.axes).__finalize__(self) # type: ignore[return-value] + + def insert( + self, + loc: int, + column: Hashable, + value: Scalar | AnyArrayLike, + allow_duplicates: bool | lib.NoDefault = lib.no_default, + ) -> None: + """ + Insert column into DataFrame at specified location. + + Raises a ValueError if `column` is already contained in the DataFrame, + unless `allow_duplicates` is set to True. + + Parameters + ---------- + loc : int + Insertion index. Must verify 0 <= loc <= len(columns). + column : str, number, or hashable object + Label of the inserted column. + value : Scalar, Series, or array-like + Content of the inserted column. + allow_duplicates : bool, optional, default lib.no_default + Allow duplicate column labels to be created. + + See Also + -------- + Index.insert : Insert new item by index. + + Examples + -------- + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df + col1 col2 + 0 1 3 + 1 2 4 + >>> df.insert(1, "newcol", [99, 99]) + >>> df + col1 newcol col2 + 0 1 99 3 + 1 2 99 4 + >>> df.insert(0, "col1", [100, 100], allow_duplicates=True) + >>> df + col1 col1 newcol col2 + 0 100 1 99 3 + 1 100 2 99 4 + + Notice that pandas uses index alignment in case of `value` from type `Series`: + + >>> df.insert(0, "col0", pd.Series([5, 6], index=[1, 2])) + >>> df + col0 col1 col1 newcol col2 + 0 NaN 100 1 99 3 + 1 5.0 100 2 99 4 + """ + if allow_duplicates is lib.no_default: + allow_duplicates = False + if allow_duplicates and not self.flags.allows_duplicate_labels: + raise ValueError( + "Cannot specify 'allow_duplicates=True' when " + "'self.flags.allows_duplicate_labels' is False." + ) + if not allow_duplicates and column in self.columns: + # Should this be a different kind of error?? + raise ValueError(f"cannot insert {column}, already exists") + if not is_integer(loc): + raise TypeError("loc must be int") + # convert non stdlib ints to satisfy typing checks + loc = int(loc) + if isinstance(value, DataFrame) and len(value.columns) > 1: + raise ValueError( + f"Expected a one-dimensional object, got a DataFrame with " + f"{len(value.columns)} columns instead." + ) + elif isinstance(value, DataFrame): + value = value.iloc[:, 0] + + value, refs = self._sanitize_column(value) + self._mgr.insert(loc, column, value, refs=refs) + + def assign(self, **kwargs) -> DataFrame: + r""" + Assign new columns to a DataFrame. + + Returns a new object with all original columns in addition to new ones. + Existing columns that are re-assigned will be overwritten. + + Parameters + ---------- + **kwargs : dict of {str: callable or Series} + The column names are keywords. If the values are + callable, they are computed on the DataFrame and + assigned to the new columns. The callable must not + change input DataFrame (though pandas doesn't check it). + If the values are not callable, (e.g. a Series, scalar, or array), + they are simply assigned. + + Returns + ------- + DataFrame + A new DataFrame with the new columns in addition to + all the existing columns. + + Notes + ----- + Assigning multiple columns within the same ``assign`` is possible. + Later items in '\*\*kwargs' may refer to newly created or modified + columns in 'df'; items are computed and assigned into 'df' in order. + + Examples + -------- + >>> df = pd.DataFrame({'temp_c': [17.0, 25.0]}, + ... index=['Portland', 'Berkeley']) + >>> df + temp_c + Portland 17.0 + Berkeley 25.0 + + Where the value is a callable, evaluated on `df`: + + >>> df.assign(temp_f=lambda x: x.temp_c * 9 / 5 + 32) + temp_c temp_f + Portland 17.0 62.6 + Berkeley 25.0 77.0 + + Alternatively, the same behavior can be achieved by directly + referencing an existing Series or sequence: + + >>> df.assign(temp_f=df['temp_c'] * 9 / 5 + 32) + temp_c temp_f + Portland 17.0 62.6 + Berkeley 25.0 77.0 + + You can create multiple columns within the same assign where one + of the columns depends on another one defined within the same assign: + + >>> df.assign(temp_f=lambda x: x['temp_c'] * 9 / 5 + 32, + ... temp_k=lambda x: (x['temp_f'] + 459.67) * 5 / 9) + temp_c temp_f temp_k + Portland 17.0 62.6 290.15 + Berkeley 25.0 77.0 298.15 + """ + data = self.copy(deep=None) + + for k, v in kwargs.items(): + data[k] = com.apply_if_callable(v, data) + return data + + def _sanitize_column(self, value) -> tuple[ArrayLike, BlockValuesRefs | None]: + """ + Ensures new columns (which go into the BlockManager as new blocks) are + always copied (or a reference is being tracked to them under CoW) + and converted into an array. + + Parameters + ---------- + value : scalar, Series, or array-like + + Returns + ------- + tuple of numpy.ndarray or ExtensionArray and optional BlockValuesRefs + """ + self._ensure_valid_index(value) + + # Using a DataFrame would mean coercing values to one dtype + assert not isinstance(value, DataFrame) + if is_dict_like(value): + if not isinstance(value, Series): + value = Series(value) + return _reindex_for_setitem(value, self.index) + + if is_list_like(value): + com.require_length_match(value, self.index) + arr = sanitize_array(value, self.index, copy=True, allow_2d=True) + if ( + isinstance(value, Index) + and value.dtype == "object" + and arr.dtype != value.dtype + ): # + # TODO: Remove kludge in sanitize_array for string mode when enforcing + # this deprecation + warnings.warn( + "Setting an Index with object dtype into a DataFrame will stop " + "inferring another dtype in a future version. Cast the Index " + "explicitly before setting it into the DataFrame.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return arr, None + + @property + def _series(self): + return {item: self._ixs(idx, axis=1) for idx, item in enumerate(self.columns)} + + # ---------------------------------------------------------------------- + # Reindexing and alignment + + def _reindex_multi( + self, axes: dict[str, Index], copy: bool, fill_value + ) -> DataFrame: + """ + We are guaranteed non-Nones in the axes. + """ + + new_index, row_indexer = self.index.reindex(axes["index"]) + new_columns, col_indexer = self.columns.reindex(axes["columns"]) + + if row_indexer is not None and col_indexer is not None: + # Fastpath. By doing two 'take's at once we avoid making an + # unnecessary copy. + # We only get here with `self._can_fast_transpose`, which (almost) + # ensures that self.values is cheap. It may be worth making this + # condition more specific. + indexer = row_indexer, col_indexer + new_values = take_2d_multi(self.values, indexer, fill_value=fill_value) + return self._constructor( + new_values, index=new_index, columns=new_columns, copy=False + ) + else: + return self._reindex_with_indexers( + {0: [new_index, row_indexer], 1: [new_columns, col_indexer]}, + copy=copy, + fill_value=fill_value, + ) + + @Appender( + """ + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + + Change the row labels. + + >>> df.set_axis(['a', 'b', 'c'], axis='index') + A B + a 1 4 + b 2 5 + c 3 6 + + Change the column labels. + + >>> df.set_axis(['I', 'II'], axis='columns') + I II + 0 1 4 + 1 2 5 + 2 3 6 + """ + ) + @Substitution( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + extended_summary_sub=" column or", + axis_description_sub=", and 1 identifies the columns", + see_also_sub=" or columns", + ) + @Appender(NDFrame.set_axis.__doc__) + def set_axis( + self, + labels, + *, + axis: Axis = 0, + copy: bool | None = None, + ) -> DataFrame: + return super().set_axis(labels, axis=axis, copy=copy) + + @doc( + NDFrame.reindex, + klass=_shared_doc_kwargs["klass"], + optional_reindex=_shared_doc_kwargs["optional_reindex"], + ) + def reindex( + self, + labels=None, + *, + index=None, + columns=None, + axis: Axis | None = None, + method: ReindexMethod | None = None, + copy: bool | None = None, + level: Level | None = None, + fill_value: Scalar | None = np.nan, + limit: int | None = None, + tolerance=None, + ) -> DataFrame: + return super().reindex( + labels=labels, + index=index, + columns=columns, + axis=axis, + method=method, + copy=copy, + level=level, + fill_value=fill_value, + limit=limit, + tolerance=tolerance, + ) + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level = ..., + inplace: Literal[True], + errors: IgnoreRaise = ..., + ) -> None: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level = ..., + inplace: Literal[False] = ..., + errors: IgnoreRaise = ..., + ) -> DataFrame: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level = ..., + inplace: bool = ..., + errors: IgnoreRaise = ..., + ) -> DataFrame | None: + ... + + def drop( + self, + labels: IndexLabel | None = None, + *, + axis: Axis = 0, + index: IndexLabel | None = None, + columns: IndexLabel | None = None, + level: Level | None = None, + inplace: bool = False, + errors: IgnoreRaise = "raise", + ) -> DataFrame | None: + """ + Drop specified labels from rows or columns. + + Remove rows or columns by specifying label names and corresponding + axis, or by directly specifying index or column names. When using a + multi-index, labels on different levels can be removed by specifying + the level. See the :ref:`user guide ` + for more information about the now unused levels. + + Parameters + ---------- + labels : single label or list-like + Index or column labels to drop. A tuple will be used as a single + label and not treated as a list-like. + axis : {0 or 'index', 1 or 'columns'}, default 0 + Whether to drop labels from the index (0 or 'index') or + columns (1 or 'columns'). + index : single label or list-like + Alternative to specifying axis (``labels, axis=0`` + is equivalent to ``index=labels``). + columns : single label or list-like + Alternative to specifying axis (``labels, axis=1`` + is equivalent to ``columns=labels``). + level : int or level name, optional + For MultiIndex, level from which the labels will be removed. + inplace : bool, default False + If False, return a copy. Otherwise, do operation + in place and return None. + errors : {'ignore', 'raise'}, default 'raise' + If 'ignore', suppress error and only existing labels are + dropped. + + Returns + ------- + DataFrame or None + Returns DataFrame or None DataFrame with the specified + index or column labels removed or None if inplace=True. + + Raises + ------ + KeyError + If any of the labels is not found in the selected axis. + + See Also + -------- + DataFrame.loc : Label-location based indexer for selection by label. + DataFrame.dropna : Return DataFrame with labels on given axis omitted + where (all or any) data are missing. + DataFrame.drop_duplicates : Return DataFrame with duplicate rows + removed, optionally only considering certain columns. + Series.drop : Return Series with specified index labels removed. + + Examples + -------- + >>> df = pd.DataFrame(np.arange(12).reshape(3, 4), + ... columns=['A', 'B', 'C', 'D']) + >>> df + A B C D + 0 0 1 2 3 + 1 4 5 6 7 + 2 8 9 10 11 + + Drop columns + + >>> df.drop(['B', 'C'], axis=1) + A D + 0 0 3 + 1 4 7 + 2 8 11 + + >>> df.drop(columns=['B', 'C']) + A D + 0 0 3 + 1 4 7 + 2 8 11 + + Drop a row by index + + >>> df.drop([0, 1]) + A B C D + 2 8 9 10 11 + + Drop columns and/or rows of MultiIndex DataFrame + + >>> midx = pd.MultiIndex(levels=[['llama', 'cow', 'falcon'], + ... ['speed', 'weight', 'length']], + ... codes=[[0, 0, 0, 1, 1, 1, 2, 2, 2], + ... [0, 1, 2, 0, 1, 2, 0, 1, 2]]) + >>> df = pd.DataFrame(index=midx, columns=['big', 'small'], + ... data=[[45, 30], [200, 100], [1.5, 1], [30, 20], + ... [250, 150], [1.5, 0.8], [320, 250], + ... [1, 0.8], [0.3, 0.2]]) + >>> df + big small + llama speed 45.0 30.0 + weight 200.0 100.0 + length 1.5 1.0 + cow speed 30.0 20.0 + weight 250.0 150.0 + length 1.5 0.8 + falcon speed 320.0 250.0 + weight 1.0 0.8 + length 0.3 0.2 + + Drop a specific index combination from the MultiIndex + DataFrame, i.e., drop the combination ``'falcon'`` and + ``'weight'``, which deletes only the corresponding row + + >>> df.drop(index=('falcon', 'weight')) + big small + llama speed 45.0 30.0 + weight 200.0 100.0 + length 1.5 1.0 + cow speed 30.0 20.0 + weight 250.0 150.0 + length 1.5 0.8 + falcon speed 320.0 250.0 + length 0.3 0.2 + + >>> df.drop(index='cow', columns='small') + big + llama speed 45.0 + weight 200.0 + length 1.5 + falcon speed 320.0 + weight 1.0 + length 0.3 + + >>> df.drop(index='length', level=1) + big small + llama speed 45.0 30.0 + weight 200.0 100.0 + cow speed 30.0 20.0 + weight 250.0 150.0 + falcon speed 320.0 250.0 + weight 1.0 0.8 + """ + return super().drop( + labels=labels, + axis=axis, + index=index, + columns=columns, + level=level, + inplace=inplace, + errors=errors, + ) + + @overload + def rename( + self, + mapper: Renamer | None = ..., + *, + index: Renamer | None = ..., + columns: Renamer | None = ..., + axis: Axis | None = ..., + copy: bool | None = ..., + inplace: Literal[True], + level: Level = ..., + errors: IgnoreRaise = ..., + ) -> None: + ... + + @overload + def rename( + self, + mapper: Renamer | None = ..., + *, + index: Renamer | None = ..., + columns: Renamer | None = ..., + axis: Axis | None = ..., + copy: bool | None = ..., + inplace: Literal[False] = ..., + level: Level = ..., + errors: IgnoreRaise = ..., + ) -> DataFrame: + ... + + @overload + def rename( + self, + mapper: Renamer | None = ..., + *, + index: Renamer | None = ..., + columns: Renamer | None = ..., + axis: Axis | None = ..., + copy: bool | None = ..., + inplace: bool = ..., + level: Level = ..., + errors: IgnoreRaise = ..., + ) -> DataFrame | None: + ... + + def rename( + self, + mapper: Renamer | None = None, + *, + index: Renamer | None = None, + columns: Renamer | None = None, + axis: Axis | None = None, + copy: bool | None = None, + inplace: bool = False, + level: Level | None = None, + errors: IgnoreRaise = "ignore", + ) -> DataFrame | None: + """ + Rename columns or index labels. + + Function / dict values must be unique (1-to-1). Labels not contained in + a dict / Series will be left as-is. Extra labels listed don't throw an + error. + + See the :ref:`user guide ` for more. + + Parameters + ---------- + mapper : dict-like or function + Dict-like or function transformations to apply to + that axis' values. Use either ``mapper`` and ``axis`` to + specify the axis to target with ``mapper``, or ``index`` and + ``columns``. + index : dict-like or function + Alternative to specifying axis (``mapper, axis=0`` + is equivalent to ``index=mapper``). + columns : dict-like or function + Alternative to specifying axis (``mapper, axis=1`` + is equivalent to ``columns=mapper``). + axis : {0 or 'index', 1 or 'columns'}, default 0 + Axis to target with ``mapper``. Can be either the axis name + ('index', 'columns') or number (0, 1). The default is 'index'. + copy : bool, default True + Also copy underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one. + If True then value of copy is ignored. + level : int or level name, default None + In case of a MultiIndex, only rename labels in the specified + level. + errors : {'ignore', 'raise'}, default 'ignore' + If 'raise', raise a `KeyError` when a dict-like `mapper`, `index`, + or `columns` contains labels that are not present in the Index + being transformed. + If 'ignore', existing keys will be renamed and extra keys will be + ignored. + + Returns + ------- + DataFrame or None + DataFrame with the renamed axis labels or None if ``inplace=True``. + + Raises + ------ + KeyError + If any of the labels is not found in the selected axis and + "errors='raise'". + + See Also + -------- + DataFrame.rename_axis : Set the name of the axis. + + Examples + -------- + ``DataFrame.rename`` supports two calling conventions + + * ``(index=index_mapper, columns=columns_mapper, ...)`` + * ``(mapper, axis={'index', 'columns'}, ...)`` + + We *highly* recommend using keyword arguments to clarify your + intent. + + Rename columns using a mapping: + + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + >>> df.rename(columns={"A": "a", "B": "c"}) + a c + 0 1 4 + 1 2 5 + 2 3 6 + + Rename index using a mapping: + + >>> df.rename(index={0: "x", 1: "y", 2: "z"}) + A B + x 1 4 + y 2 5 + z 3 6 + + Cast index labels to a different type: + + >>> df.index + RangeIndex(start=0, stop=3, step=1) + >>> df.rename(index=str).index + Index(['0', '1', '2'], dtype='object') + + >>> df.rename(columns={"A": "a", "B": "b", "C": "c"}, errors="raise") + Traceback (most recent call last): + KeyError: ['C'] not found in axis + + Using axis-style parameters: + + >>> df.rename(str.lower, axis='columns') + a b + 0 1 4 + 1 2 5 + 2 3 6 + + >>> df.rename({1: 2, 2: 4}, axis='index') + A B + 0 1 4 + 2 2 5 + 4 3 6 + """ + return super()._rename( + mapper=mapper, + index=index, + columns=columns, + axis=axis, + copy=copy, + inplace=inplace, + level=level, + errors=errors, + ) + + def pop(self, item: Hashable) -> Series: + """ + Return item and drop from frame. Raise KeyError if not found. + + Parameters + ---------- + item : label + Label of column to be popped. + + Returns + ------- + Series + + Examples + -------- + >>> df = pd.DataFrame([('falcon', 'bird', 389.0), + ... ('parrot', 'bird', 24.0), + ... ('lion', 'mammal', 80.5), + ... ('monkey', 'mammal', np.nan)], + ... columns=('name', 'class', 'max_speed')) + >>> df + name class max_speed + 0 falcon bird 389.0 + 1 parrot bird 24.0 + 2 lion mammal 80.5 + 3 monkey mammal NaN + + >>> df.pop('class') + 0 bird + 1 bird + 2 mammal + 3 mammal + Name: class, dtype: object + + >>> df + name max_speed + 0 falcon 389.0 + 1 parrot 24.0 + 2 lion 80.5 + 3 monkey NaN + """ + return super().pop(item=item) + + def _replace_columnwise( + self, mapping: dict[Hashable, tuple[Any, Any]], inplace: bool, regex + ): + """ + Dispatch to Series.replace column-wise. + + Parameters + ---------- + mapping : dict + of the form {col: (target, value)} + inplace : bool + regex : bool or same types as `to_replace` in DataFrame.replace + + Returns + ------- + DataFrame or None + """ + # Operate column-wise + res = self if inplace else self.copy(deep=None) + ax = self.columns + + for i, ax_value in enumerate(ax): + if ax_value in mapping: + ser = self.iloc[:, i] + + target, value = mapping[ax_value] + newobj = ser.replace(target, value, regex=regex) + + res._iset_item(i, newobj, inplace=inplace) + + if inplace: + return + return res.__finalize__(self) + + @doc(NDFrame.shift, klass=_shared_doc_kwargs["klass"]) + def shift( + self, + periods: int | Sequence[int] = 1, + freq: Frequency | None = None, + axis: Axis = 0, + fill_value: Hashable = lib.no_default, + suffix: str | None = None, + ) -> DataFrame: + if freq is not None and fill_value is not lib.no_default: + # GH#53832 + warnings.warn( + "Passing a 'freq' together with a 'fill_value' silently ignores " + "the fill_value and is deprecated. This will raise in a future " + "version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + fill_value = lib.no_default + + if self.empty: + return self.copy() + + axis = self._get_axis_number(axis) + + if is_list_like(periods): + periods = cast(Sequence, periods) + if axis == 1: + raise ValueError( + "If `periods` contains multiple shifts, `axis` cannot be 1." + ) + if len(periods) == 0: + raise ValueError("If `periods` is an iterable, it cannot be empty.") + from pandas.core.reshape.concat import concat + + shifted_dataframes = [] + for period in periods: + if not is_integer(period): + raise TypeError( + f"Periods must be integer, but {period} is {type(period)}." + ) + period = cast(int, period) + shifted_dataframes.append( + super() + .shift(periods=period, freq=freq, axis=axis, fill_value=fill_value) + .add_suffix(f"{suffix}_{period}" if suffix else f"_{period}") + ) + return concat(shifted_dataframes, axis=1) + elif suffix: + raise ValueError("Cannot specify `suffix` if `periods` is an int.") + periods = cast(int, periods) + + ncols = len(self.columns) + arrays = self._mgr.arrays + if axis == 1 and periods != 0 and ncols > 0 and freq is None: + if fill_value is lib.no_default: + # We will infer fill_value to match the closest column + + # Use a column that we know is valid for our column's dtype GH#38434 + label = self.columns[0] + + if periods > 0: + result = self.iloc[:, :-periods] + for col in range(min(ncols, abs(periods))): + # TODO(EA2D): doing this in a loop unnecessary with 2D EAs + # Define filler inside loop so we get a copy + filler = self.iloc[:, 0].shift(len(self)) + result.insert(0, label, filler, allow_duplicates=True) + else: + result = self.iloc[:, -periods:] + for col in range(min(ncols, abs(periods))): + # Define filler inside loop so we get a copy + filler = self.iloc[:, -1].shift(len(self)) + result.insert( + len(result.columns), label, filler, allow_duplicates=True + ) + + result.columns = self.columns.copy() + return result + elif len(arrays) > 1 or ( + # If we only have one block and we know that we can't + # keep the same dtype (i.e. the _can_hold_element check) + # then we can go through the reindex_indexer path + # (and avoid casting logic in the Block method). + not can_hold_element(arrays[0], fill_value) + ): + # GH#35488 we need to watch out for multi-block cases + # We only get here with fill_value not-lib.no_default + nper = abs(periods) + nper = min(nper, ncols) + if periods > 0: + indexer = np.array( + [-1] * nper + list(range(ncols - periods)), dtype=np.intp + ) + else: + indexer = np.array( + list(range(nper, ncols)) + [-1] * nper, dtype=np.intp + ) + mgr = self._mgr.reindex_indexer( + self.columns, + indexer, + axis=0, + fill_value=fill_value, + allow_dups=True, + ) + res_df = self._constructor_from_mgr(mgr, axes=mgr.axes) + return res_df.__finalize__(self, method="shift") + else: + return self.T.shift(periods=periods, fill_value=fill_value).T + + return super().shift( + periods=periods, freq=freq, axis=axis, fill_value=fill_value + ) + + @overload + def set_index( + self, + keys, + *, + drop: bool = ..., + append: bool = ..., + inplace: Literal[False] = ..., + verify_integrity: bool = ..., + ) -> DataFrame: + ... + + @overload + def set_index( + self, + keys, + *, + drop: bool = ..., + append: bool = ..., + inplace: Literal[True], + verify_integrity: bool = ..., + ) -> None: + ... + + def set_index( + self, + keys, + *, + drop: bool = True, + append: bool = False, + inplace: bool = False, + verify_integrity: bool = False, + ) -> DataFrame | None: + """ + Set the DataFrame index using existing columns. + + Set the DataFrame index (row labels) using one or more existing + columns or arrays (of the correct length). The index can replace the + existing index or expand on it. + + Parameters + ---------- + keys : label or array-like or list of labels/arrays + This parameter can be either a single column key, a single array of + the same length as the calling DataFrame, or a list containing an + arbitrary combination of column keys and arrays. Here, "array" + encompasses :class:`Series`, :class:`Index`, ``np.ndarray``, and + instances of :class:`~collections.abc.Iterator`. + drop : bool, default True + Delete columns to be used as the new index. + append : bool, default False + Whether to append columns to existing index. + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one. + verify_integrity : bool, default False + Check the new index for duplicates. Otherwise defer the check until + necessary. Setting to False will improve the performance of this + method. + + Returns + ------- + DataFrame or None + Changed row labels or None if ``inplace=True``. + + See Also + -------- + DataFrame.reset_index : Opposite of set_index. + DataFrame.reindex : Change to new indices or expand indices. + DataFrame.reindex_like : Change to same indices as other DataFrame. + + Examples + -------- + >>> df = pd.DataFrame({'month': [1, 4, 7, 10], + ... 'year': [2012, 2014, 2013, 2014], + ... 'sale': [55, 40, 84, 31]}) + >>> df + month year sale + 0 1 2012 55 + 1 4 2014 40 + 2 7 2013 84 + 3 10 2014 31 + + Set the index to become the 'month' column: + + >>> df.set_index('month') + year sale + month + 1 2012 55 + 4 2014 40 + 7 2013 84 + 10 2014 31 + + Create a MultiIndex using columns 'year' and 'month': + + >>> df.set_index(['year', 'month']) + sale + year month + 2012 1 55 + 2014 4 40 + 2013 7 84 + 2014 10 31 + + Create a MultiIndex using an Index and a column: + + >>> df.set_index([pd.Index([1, 2, 3, 4]), 'year']) + month sale + year + 1 2012 1 55 + 2 2014 4 40 + 3 2013 7 84 + 4 2014 10 31 + + Create a MultiIndex using two Series: + + >>> s = pd.Series([1, 2, 3, 4]) + >>> df.set_index([s, s**2]) + month year sale + 1 1 1 2012 55 + 2 4 4 2014 40 + 3 9 7 2013 84 + 4 16 10 2014 31 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + self._check_inplace_and_allows_duplicate_labels(inplace) + if not isinstance(keys, list): + keys = [keys] + + err_msg = ( + 'The parameter "keys" may be a column key, one-dimensional ' + "array, or a list containing only valid column keys and " + "one-dimensional arrays." + ) + + missing: list[Hashable] = [] + for col in keys: + if isinstance(col, (Index, Series, np.ndarray, list, abc.Iterator)): + # arrays are fine as long as they are one-dimensional + # iterators get converted to list below + if getattr(col, "ndim", 1) != 1: + raise ValueError(err_msg) + else: + # everything else gets tried as a key; see GH 24969 + try: + found = col in self.columns + except TypeError as err: + raise TypeError( + f"{err_msg}. Received column of type {type(col)}" + ) from err + else: + if not found: + missing.append(col) + + if missing: + raise KeyError(f"None of {missing} are in the columns") + + if inplace: + frame = self + else: + # GH 49473 Use "lazy copy" with Copy-on-Write + frame = self.copy(deep=None) + + arrays: list[Index] = [] + names: list[Hashable] = [] + if append: + names = list(self.index.names) + if isinstance(self.index, MultiIndex): + arrays.extend( + self.index._get_level_values(i) for i in range(self.index.nlevels) + ) + else: + arrays.append(self.index) + + to_remove: list[Hashable] = [] + for col in keys: + if isinstance(col, MultiIndex): + arrays.extend(col._get_level_values(n) for n in range(col.nlevels)) + names.extend(col.names) + elif isinstance(col, (Index, Series)): + # if Index then not MultiIndex (treated above) + + # error: Argument 1 to "append" of "list" has incompatible type + # "Union[Index, Series]"; expected "Index" + arrays.append(col) # type: ignore[arg-type] + names.append(col.name) + elif isinstance(col, (list, np.ndarray)): + # error: Argument 1 to "append" of "list" has incompatible type + # "Union[List[Any], ndarray]"; expected "Index" + arrays.append(col) # type: ignore[arg-type] + names.append(None) + elif isinstance(col, abc.Iterator): + # error: Argument 1 to "append" of "list" has incompatible type + # "List[Any]"; expected "Index" + arrays.append(list(col)) # type: ignore[arg-type] + names.append(None) + # from here, col can only be a column label + else: + arrays.append(frame[col]) + names.append(col) + if drop: + to_remove.append(col) + + if len(arrays[-1]) != len(self): + # check newest element against length of calling frame, since + # ensure_index_from_sequences would not raise for append=False. + raise ValueError( + f"Length mismatch: Expected {len(self)} rows, " + f"received array of length {len(arrays[-1])}" + ) + + index = ensure_index_from_sequences(arrays, names) + + if verify_integrity and not index.is_unique: + duplicates = index[index.duplicated()].unique() + raise ValueError(f"Index has duplicate keys: {duplicates}") + + # use set to handle duplicate column names gracefully in case of drop + for c in set(to_remove): + del frame[c] + + # clear up memory usage + index._cleanup() + + frame.index = index + + if not inplace: + return frame + return None + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: bool = ..., + inplace: Literal[False] = ..., + col_level: Hashable = ..., + col_fill: Hashable = ..., + allow_duplicates: bool | lib.NoDefault = ..., + names: Hashable | Sequence[Hashable] | None = None, + ) -> DataFrame: + ... + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: bool = ..., + inplace: Literal[True], + col_level: Hashable = ..., + col_fill: Hashable = ..., + allow_duplicates: bool | lib.NoDefault = ..., + names: Hashable | Sequence[Hashable] | None = None, + ) -> None: + ... + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: bool = ..., + inplace: bool = ..., + col_level: Hashable = ..., + col_fill: Hashable = ..., + allow_duplicates: bool | lib.NoDefault = ..., + names: Hashable | Sequence[Hashable] | None = None, + ) -> DataFrame | None: + ... + + def reset_index( + self, + level: IndexLabel | None = None, + *, + drop: bool = False, + inplace: bool = False, + col_level: Hashable = 0, + col_fill: Hashable = "", + allow_duplicates: bool | lib.NoDefault = lib.no_default, + names: Hashable | Sequence[Hashable] | None = None, + ) -> DataFrame | None: + """ + Reset the index, or a level of it. + + Reset the index of the DataFrame, and use the default one instead. + If the DataFrame has a MultiIndex, this method can remove one or more + levels. + + Parameters + ---------- + level : int, str, tuple, or list, default None + Only remove the given levels from the index. Removes all levels by + default. + drop : bool, default False + Do not try to insert index into dataframe columns. This resets + the index to the default integer index. + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one. + col_level : int or str, default 0 + If the columns have multiple levels, determines which level the + labels are inserted into. By default it is inserted into the first + level. + col_fill : object, default '' + If the columns have multiple levels, determines how the other + levels are named. If None then the index name is repeated. + allow_duplicates : bool, optional, default lib.no_default + Allow duplicate column labels to be created. + + .. versionadded:: 1.5.0 + + names : int, str or 1-dimensional list, default None + Using the given string, rename the DataFrame column which contains the + index data. If the DataFrame has a MultiIndex, this has to be a list or + tuple with length equal to the number of levels. + + .. versionadded:: 1.5.0 + + Returns + ------- + DataFrame or None + DataFrame with the new index or None if ``inplace=True``. + + See Also + -------- + DataFrame.set_index : Opposite of reset_index. + DataFrame.reindex : Change to new indices or expand indices. + DataFrame.reindex_like : Change to same indices as other DataFrame. + + Examples + -------- + >>> df = pd.DataFrame([('bird', 389.0), + ... ('bird', 24.0), + ... ('mammal', 80.5), + ... ('mammal', np.nan)], + ... index=['falcon', 'parrot', 'lion', 'monkey'], + ... columns=('class', 'max_speed')) + >>> df + class max_speed + falcon bird 389.0 + parrot bird 24.0 + lion mammal 80.5 + monkey mammal NaN + + When we reset the index, the old index is added as a column, and a + new sequential index is used: + + >>> df.reset_index() + index class max_speed + 0 falcon bird 389.0 + 1 parrot bird 24.0 + 2 lion mammal 80.5 + 3 monkey mammal NaN + + We can use the `drop` parameter to avoid the old index being added as + a column: + + >>> df.reset_index(drop=True) + class max_speed + 0 bird 389.0 + 1 bird 24.0 + 2 mammal 80.5 + 3 mammal NaN + + You can also use `reset_index` with `MultiIndex`. + + >>> index = pd.MultiIndex.from_tuples([('bird', 'falcon'), + ... ('bird', 'parrot'), + ... ('mammal', 'lion'), + ... ('mammal', 'monkey')], + ... names=['class', 'name']) + >>> columns = pd.MultiIndex.from_tuples([('speed', 'max'), + ... ('species', 'type')]) + >>> df = pd.DataFrame([(389.0, 'fly'), + ... (24.0, 'fly'), + ... (80.5, 'run'), + ... (np.nan, 'jump')], + ... index=index, + ... columns=columns) + >>> df + speed species + max type + class name + bird falcon 389.0 fly + parrot 24.0 fly + mammal lion 80.5 run + monkey NaN jump + + Using the `names` parameter, choose a name for the index column: + + >>> df.reset_index(names=['classes', 'names']) + classes names speed species + max type + 0 bird falcon 389.0 fly + 1 bird parrot 24.0 fly + 2 mammal lion 80.5 run + 3 mammal monkey NaN jump + + If the index has multiple levels, we can reset a subset of them: + + >>> df.reset_index(level='class') + class speed species + max type + name + falcon bird 389.0 fly + parrot bird 24.0 fly + lion mammal 80.5 run + monkey mammal NaN jump + + If we are not dropping the index, by default, it is placed in the top + level. We can place it in another level: + + >>> df.reset_index(level='class', col_level=1) + speed species + class max type + name + falcon bird 389.0 fly + parrot bird 24.0 fly + lion mammal 80.5 run + monkey mammal NaN jump + + When the index is inserted under another level, we can specify under + which one with the parameter `col_fill`: + + >>> df.reset_index(level='class', col_level=1, col_fill='species') + species speed species + class max type + name + falcon bird 389.0 fly + parrot bird 24.0 fly + lion mammal 80.5 run + monkey mammal NaN jump + + If we specify a nonexistent level for `col_fill`, it is created: + + >>> df.reset_index(level='class', col_level=1, col_fill='genus') + genus speed species + class max type + name + falcon bird 389.0 fly + parrot bird 24.0 fly + lion mammal 80.5 run + monkey mammal NaN jump + """ + inplace = validate_bool_kwarg(inplace, "inplace") + self._check_inplace_and_allows_duplicate_labels(inplace) + if inplace: + new_obj = self + else: + new_obj = self.copy(deep=None) + if allow_duplicates is not lib.no_default: + allow_duplicates = validate_bool_kwarg(allow_duplicates, "allow_duplicates") + + new_index = default_index(len(new_obj)) + if level is not None: + if not isinstance(level, (tuple, list)): + level = [level] + level = [self.index._get_level_number(lev) for lev in level] + if len(level) < self.index.nlevels: + new_index = self.index.droplevel(level) + + if not drop: + to_insert: Iterable[tuple[Any, Any | None]] + + default = "index" if "index" not in self else "level_0" + names = self.index._get_default_index_names(names, default) + + if isinstance(self.index, MultiIndex): + to_insert = zip(self.index.levels, self.index.codes) + else: + to_insert = ((self.index, None),) + + multi_col = isinstance(self.columns, MultiIndex) + for i, (lev, lab) in reversed(list(enumerate(to_insert))): + if level is not None and i not in level: + continue + name = names[i] + if multi_col: + col_name = list(name) if isinstance(name, tuple) else [name] + if col_fill is None: + if len(col_name) not in (1, self.columns.nlevels): + raise ValueError( + "col_fill=None is incompatible " + f"with incomplete column name {name}" + ) + col_fill = col_name[0] + + lev_num = self.columns._get_level_number(col_level) + name_lst = [col_fill] * lev_num + col_name + missing = self.columns.nlevels - len(name_lst) + name_lst += [col_fill] * missing + name = tuple(name_lst) + + # to ndarray and maybe infer different dtype + level_values = lev._values + if level_values.dtype == np.object_: + level_values = lib.maybe_convert_objects(level_values) + + if lab is not None: + # if we have the codes, extract the values with a mask + level_values = algorithms.take( + level_values, lab, allow_fill=True, fill_value=lev._na_value + ) + + new_obj.insert( + 0, + name, + level_values, + allow_duplicates=allow_duplicates, + ) + + new_obj.index = new_index + if not inplace: + return new_obj + + return None + + # ---------------------------------------------------------------------- + # Reindex-based selection methods + + @doc(NDFrame.isna, klass=_shared_doc_kwargs["klass"]) + def isna(self) -> DataFrame: + res_mgr = self._mgr.isna(func=isna) + result = self._constructor_from_mgr(res_mgr, axes=res_mgr.axes) + return result.__finalize__(self, method="isna") + + @doc(NDFrame.isna, klass=_shared_doc_kwargs["klass"]) + def isnull(self) -> DataFrame: + """ + DataFrame.isnull is an alias for DataFrame.isna. + """ + return self.isna() + + @doc(NDFrame.notna, klass=_shared_doc_kwargs["klass"]) + def notna(self) -> DataFrame: + return ~self.isna() + + @doc(NDFrame.notna, klass=_shared_doc_kwargs["klass"]) + def notnull(self) -> DataFrame: + """ + DataFrame.notnull is an alias for DataFrame.notna. + """ + return ~self.isna() + + @overload + def dropna( + self, + *, + axis: Axis = ..., + how: AnyAll | lib.NoDefault = ..., + thresh: int | lib.NoDefault = ..., + subset: IndexLabel = ..., + inplace: Literal[False] = ..., + ignore_index: bool = ..., + ) -> DataFrame: + ... + + @overload + def dropna( + self, + *, + axis: Axis = ..., + how: AnyAll | lib.NoDefault = ..., + thresh: int | lib.NoDefault = ..., + subset: IndexLabel = ..., + inplace: Literal[True], + ignore_index: bool = ..., + ) -> None: + ... + + def dropna( + self, + *, + axis: Axis = 0, + how: AnyAll | lib.NoDefault = lib.no_default, + thresh: int | lib.NoDefault = lib.no_default, + subset: IndexLabel | None = None, + inplace: bool = False, + ignore_index: bool = False, + ) -> DataFrame | None: + """ + Remove missing values. + + See the :ref:`User Guide ` for more on which values are + considered missing, and how to work with missing data. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + Determine if rows or columns which contain missing values are + removed. + + * 0, or 'index' : Drop rows which contain missing values. + * 1, or 'columns' : Drop columns which contain missing value. + + Only a single axis is allowed. + + how : {'any', 'all'}, default 'any' + Determine if row or column is removed from DataFrame, when we have + at least one NA or all NA. + + * 'any' : If any NA values are present, drop that row or column. + * 'all' : If all values are NA, drop that row or column. + + thresh : int, optional + Require that many non-NA values. Cannot be combined with how. + subset : column label or sequence of labels, optional + Labels along other axis to consider, e.g. if you are dropping rows + these would be a list of columns to include. + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one. + ignore_index : bool, default ``False`` + If ``True``, the resulting axis will be labeled 0, 1, …, n - 1. + + .. versionadded:: 2.0.0 + + Returns + ------- + DataFrame or None + DataFrame with NA entries dropped from it or None if ``inplace=True``. + + See Also + -------- + DataFrame.isna: Indicate missing values. + DataFrame.notna : Indicate existing (non-missing) values. + DataFrame.fillna : Replace missing values. + Series.dropna : Drop missing values. + Index.dropna : Drop missing indices. + + Examples + -------- + >>> df = pd.DataFrame({"name": ['Alfred', 'Batman', 'Catwoman'], + ... "toy": [np.nan, 'Batmobile', 'Bullwhip'], + ... "born": [pd.NaT, pd.Timestamp("1940-04-25"), + ... pd.NaT]}) + >>> df + name toy born + 0 Alfred NaN NaT + 1 Batman Batmobile 1940-04-25 + 2 Catwoman Bullwhip NaT + + Drop the rows where at least one element is missing. + + >>> df.dropna() + name toy born + 1 Batman Batmobile 1940-04-25 + + Drop the columns where at least one element is missing. + + >>> df.dropna(axis='columns') + name + 0 Alfred + 1 Batman + 2 Catwoman + + Drop the rows where all elements are missing. + + >>> df.dropna(how='all') + name toy born + 0 Alfred NaN NaT + 1 Batman Batmobile 1940-04-25 + 2 Catwoman Bullwhip NaT + + Keep only the rows with at least 2 non-NA values. + + >>> df.dropna(thresh=2) + name toy born + 1 Batman Batmobile 1940-04-25 + 2 Catwoman Bullwhip NaT + + Define in which columns to look for missing values. + + >>> df.dropna(subset=['name', 'toy']) + name toy born + 1 Batman Batmobile 1940-04-25 + 2 Catwoman Bullwhip NaT + """ + if (how is not lib.no_default) and (thresh is not lib.no_default): + raise TypeError( + "You cannot set both the how and thresh arguments at the same time." + ) + + if how is lib.no_default: + how = "any" + + inplace = validate_bool_kwarg(inplace, "inplace") + if isinstance(axis, (tuple, list)): + # GH20987 + raise TypeError("supplying multiple axes to axis is no longer supported.") + + axis = self._get_axis_number(axis) + agg_axis = 1 - axis + + agg_obj = self + if subset is not None: + # subset needs to be list + if not is_list_like(subset): + subset = [subset] + ax = self._get_axis(agg_axis) + indices = ax.get_indexer_for(subset) + check = indices == -1 + if check.any(): + raise KeyError(np.array(subset)[check].tolist()) + agg_obj = self.take(indices, axis=agg_axis) + + if thresh is not lib.no_default: + count = agg_obj.count(axis=agg_axis) + mask = count >= thresh + elif how == "any": + # faster equivalent to 'agg_obj.count(agg_axis) == self.shape[agg_axis]' + mask = notna(agg_obj).all(axis=agg_axis, bool_only=False) + elif how == "all": + # faster equivalent to 'agg_obj.count(agg_axis) > 0' + mask = notna(agg_obj).any(axis=agg_axis, bool_only=False) + else: + raise ValueError(f"invalid how option: {how}") + + if np.all(mask): + result = self.copy(deep=None) + else: + result = self.loc(axis=axis)[mask] + + if ignore_index: + result.index = default_index(len(result)) + + if not inplace: + return result + self._update_inplace(result) + return None + + @overload + def drop_duplicates( + self, + subset: Hashable | Sequence[Hashable] | None = ..., + *, + keep: DropKeep = ..., + inplace: Literal[True], + ignore_index: bool = ..., + ) -> None: + ... + + @overload + def drop_duplicates( + self, + subset: Hashable | Sequence[Hashable] | None = ..., + *, + keep: DropKeep = ..., + inplace: Literal[False] = ..., + ignore_index: bool = ..., + ) -> DataFrame: + ... + + @overload + def drop_duplicates( + self, + subset: Hashable | Sequence[Hashable] | None = ..., + *, + keep: DropKeep = ..., + inplace: bool = ..., + ignore_index: bool = ..., + ) -> DataFrame | None: + ... + + def drop_duplicates( + self, + subset: Hashable | Sequence[Hashable] | None = None, + *, + keep: DropKeep = "first", + inplace: bool = False, + ignore_index: bool = False, + ) -> DataFrame | None: + """ + Return DataFrame with duplicate rows removed. + + Considering certain columns is optional. Indexes, including time indexes + are ignored. + + Parameters + ---------- + subset : column label or sequence of labels, optional + Only consider certain columns for identifying duplicates, by + default use all of the columns. + keep : {'first', 'last', ``False``}, default 'first' + Determines which duplicates (if any) to keep. + + - 'first' : Drop duplicates except for the first occurrence. + - 'last' : Drop duplicates except for the last occurrence. + - ``False`` : Drop all duplicates. + + inplace : bool, default ``False`` + Whether to modify the DataFrame rather than creating a new one. + ignore_index : bool, default ``False`` + If ``True``, the resulting axis will be labeled 0, 1, …, n - 1. + + Returns + ------- + DataFrame or None + DataFrame with duplicates removed or None if ``inplace=True``. + + See Also + -------- + DataFrame.value_counts: Count unique combinations of columns. + + Examples + -------- + Consider dataset containing ramen rating. + + >>> df = pd.DataFrame({ + ... 'brand': ['Yum Yum', 'Yum Yum', 'Indomie', 'Indomie', 'Indomie'], + ... 'style': ['cup', 'cup', 'cup', 'pack', 'pack'], + ... 'rating': [4, 4, 3.5, 15, 5] + ... }) + >>> df + brand style rating + 0 Yum Yum cup 4.0 + 1 Yum Yum cup 4.0 + 2 Indomie cup 3.5 + 3 Indomie pack 15.0 + 4 Indomie pack 5.0 + + By default, it removes duplicate rows based on all columns. + + >>> df.drop_duplicates() + brand style rating + 0 Yum Yum cup 4.0 + 2 Indomie cup 3.5 + 3 Indomie pack 15.0 + 4 Indomie pack 5.0 + + To remove duplicates on specific column(s), use ``subset``. + + >>> df.drop_duplicates(subset=['brand']) + brand style rating + 0 Yum Yum cup 4.0 + 2 Indomie cup 3.5 + + To remove duplicates and keep last occurrences, use ``keep``. + + >>> df.drop_duplicates(subset=['brand', 'style'], keep='last') + brand style rating + 1 Yum Yum cup 4.0 + 2 Indomie cup 3.5 + 4 Indomie pack 5.0 + """ + if self.empty: + return self.copy(deep=None) + + inplace = validate_bool_kwarg(inplace, "inplace") + ignore_index = validate_bool_kwarg(ignore_index, "ignore_index") + + result = self[-self.duplicated(subset, keep=keep)] + if ignore_index: + result.index = default_index(len(result)) + + if inplace: + self._update_inplace(result) + return None + else: + return result + + def duplicated( + self, + subset: Hashable | Sequence[Hashable] | None = None, + keep: DropKeep = "first", + ) -> Series: + """ + Return boolean Series denoting duplicate rows. + + Considering certain columns is optional. + + Parameters + ---------- + subset : column label or sequence of labels, optional + Only consider certain columns for identifying duplicates, by + default use all of the columns. + keep : {'first', 'last', False}, default 'first' + Determines which duplicates (if any) to mark. + + - ``first`` : Mark duplicates as ``True`` except for the first occurrence. + - ``last`` : Mark duplicates as ``True`` except for the last occurrence. + - False : Mark all duplicates as ``True``. + + Returns + ------- + Series + Boolean series for each duplicated rows. + + See Also + -------- + Index.duplicated : Equivalent method on index. + Series.duplicated : Equivalent method on Series. + Series.drop_duplicates : Remove duplicate values from Series. + DataFrame.drop_duplicates : Remove duplicate values from DataFrame. + + Examples + -------- + Consider dataset containing ramen rating. + + >>> df = pd.DataFrame({ + ... 'brand': ['Yum Yum', 'Yum Yum', 'Indomie', 'Indomie', 'Indomie'], + ... 'style': ['cup', 'cup', 'cup', 'pack', 'pack'], + ... 'rating': [4, 4, 3.5, 15, 5] + ... }) + >>> df + brand style rating + 0 Yum Yum cup 4.0 + 1 Yum Yum cup 4.0 + 2 Indomie cup 3.5 + 3 Indomie pack 15.0 + 4 Indomie pack 5.0 + + By default, for each set of duplicated values, the first occurrence + is set on False and all others on True. + + >>> df.duplicated() + 0 False + 1 True + 2 False + 3 False + 4 False + dtype: bool + + By using 'last', the last occurrence of each set of duplicated values + is set on False and all others on True. + + >>> df.duplicated(keep='last') + 0 True + 1 False + 2 False + 3 False + 4 False + dtype: bool + + By setting ``keep`` on False, all duplicates are True. + + >>> df.duplicated(keep=False) + 0 True + 1 True + 2 False + 3 False + 4 False + dtype: bool + + To find duplicates on specific column(s), use ``subset``. + + >>> df.duplicated(subset=['brand']) + 0 False + 1 True + 2 False + 3 True + 4 True + dtype: bool + """ + + if self.empty: + return self._constructor_sliced(dtype=bool) + + def f(vals) -> tuple[np.ndarray, int]: + labels, shape = algorithms.factorize(vals, size_hint=len(self)) + return labels.astype("i8", copy=False), len(shape) + + if subset is None: + # https://github.com/pandas-dev/pandas/issues/28770 + # Incompatible types in assignment (expression has type "Index", variable + # has type "Sequence[Any]") + subset = self.columns # type: ignore[assignment] + elif ( + not np.iterable(subset) + or isinstance(subset, str) + or isinstance(subset, tuple) + and subset in self.columns + ): + subset = (subset,) + + # needed for mypy since can't narrow types using np.iterable + subset = cast(Sequence, subset) + + # Verify all columns in subset exist in the queried dataframe + # Otherwise, raise a KeyError, same as if you try to __getitem__ with a + # key that doesn't exist. + diff = set(subset) - set(self.columns) + if diff: + raise KeyError(Index(diff)) + + if len(subset) == 1 and self.columns.is_unique: + # GH#45236 This is faster than get_group_index below + result = self[subset[0]].duplicated(keep) + result.name = None + else: + vals = (col.values for name, col in self.items() if name in subset) + labels, shape = map(list, zip(*map(f, vals))) + + ids = get_group_index(labels, tuple(shape), sort=False, xnull=False) + result = self._constructor_sliced(duplicated(ids, keep), index=self.index) + return result.__finalize__(self, method="duplicated") + + # ---------------------------------------------------------------------- + # Sorting + # error: Signature of "sort_values" incompatible with supertype "NDFrame" + @overload # type: ignore[override] + def sort_values( + self, + by: IndexLabel, + *, + axis: Axis = ..., + ascending=..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool = ..., + key: ValueKeyFunc = ..., + ) -> DataFrame: + ... + + @overload + def sort_values( + self, + by: IndexLabel, + *, + axis: Axis = ..., + ascending=..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: str = ..., + ignore_index: bool = ..., + key: ValueKeyFunc = ..., + ) -> None: + ... + + def sort_values( + self, + by: IndexLabel, + *, + axis: Axis = 0, + ascending: bool | list[bool] | tuple[bool, ...] = True, + inplace: bool = False, + kind: SortKind = "quicksort", + na_position: str = "last", + ignore_index: bool = False, + key: ValueKeyFunc | None = None, + ) -> DataFrame | None: + """ + Sort by the values along either axis. + + Parameters + ---------- + by : str or list of str + Name or list of names to sort by. + + - if `axis` is 0 or `'index'` then `by` may contain index + levels and/or column labels. + - if `axis` is 1 or `'columns'` then `by` may contain column + levels and/or index labels. + axis : "{0 or 'index', 1 or 'columns'}", default 0 + Axis to be sorted. + ascending : bool or list of bool, default True + Sort ascending vs. descending. Specify list for multiple sort + orders. If this is a list of bools, must match the length of + the by. + inplace : bool, default False + If True, perform operation in-place. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See also :func:`numpy.sort` for more + information. `mergesort` and `stable` are the only stable algorithms. For + DataFrames, this option is only applied when sorting on a single + column or label. + na_position : {'first', 'last'}, default 'last' + Puts NaNs at the beginning if `first`; `last` puts NaNs at the + end. + ignore_index : bool, default False + If True, the resulting axis will be labeled 0, 1, …, n - 1. + key : callable, optional + Apply the key function to the values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect a + ``Series`` and return a Series with the same shape as the input. + It will be applied to each column in `by` independently. + + Returns + ------- + DataFrame or None + DataFrame with sorted values or None if ``inplace=True``. + + See Also + -------- + DataFrame.sort_index : Sort a DataFrame by the index. + Series.sort_values : Similar method for a Series. + + Examples + -------- + >>> df = pd.DataFrame({ + ... 'col1': ['A', 'A', 'B', np.nan, 'D', 'C'], + ... 'col2': [2, 1, 9, 8, 7, 4], + ... 'col3': [0, 1, 9, 4, 2, 3], + ... 'col4': ['a', 'B', 'c', 'D', 'e', 'F'] + ... }) + >>> df + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + + Sort by col1 + + >>> df.sort_values(by=['col1']) + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 5 C 4 3 F + 4 D 7 2 e + 3 NaN 8 4 D + + Sort by multiple columns + + >>> df.sort_values(by=['col1', 'col2']) + col1 col2 col3 col4 + 1 A 1 1 B + 0 A 2 0 a + 2 B 9 9 c + 5 C 4 3 F + 4 D 7 2 e + 3 NaN 8 4 D + + Sort Descending + + >>> df.sort_values(by='col1', ascending=False) + col1 col2 col3 col4 + 4 D 7 2 e + 5 C 4 3 F + 2 B 9 9 c + 0 A 2 0 a + 1 A 1 1 B + 3 NaN 8 4 D + + Putting NAs first + + >>> df.sort_values(by='col1', ascending=False, na_position='first') + col1 col2 col3 col4 + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + 2 B 9 9 c + 0 A 2 0 a + 1 A 1 1 B + + Sorting with a key function + + >>> df.sort_values(by='col4', key=lambda col: col.str.lower()) + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + + Natural sort with the key argument, + using the `natsort ` package. + + >>> df = pd.DataFrame({ + ... "time": ['0hr', '128hr', '72hr', '48hr', '96hr'], + ... "value": [10, 20, 30, 40, 50] + ... }) + >>> df + time value + 0 0hr 10 + 1 128hr 20 + 2 72hr 30 + 3 48hr 40 + 4 96hr 50 + >>> from natsort import index_natsorted + >>> df.sort_values( + ... by="time", + ... key=lambda x: np.argsort(index_natsorted(df["time"])) + ... ) + time value + 0 0hr 10 + 3 48hr 40 + 2 72hr 30 + 4 96hr 50 + 1 128hr 20 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + axis = self._get_axis_number(axis) + ascending = validate_ascending(ascending) + if not isinstance(by, list): + by = [by] + # error: Argument 1 to "len" has incompatible type "Union[bool, List[bool]]"; + # expected "Sized" + if is_sequence(ascending) and ( + len(by) != len(ascending) # type: ignore[arg-type] + ): + # error: Argument 1 to "len" has incompatible type "Union[bool, + # List[bool]]"; expected "Sized" + raise ValueError( + f"Length of ascending ({len(ascending)})" # type: ignore[arg-type] + f" != length of by ({len(by)})" + ) + if len(by) > 1: + keys = [self._get_label_or_level_values(x, axis=axis) for x in by] + + # need to rewrap columns in Series to apply key function + if key is not None: + # error: List comprehension has incompatible type List[Series]; + # expected List[ndarray] + keys = [ + Series(k, name=name) # type: ignore[misc] + for (k, name) in zip(keys, by) + ] + + indexer = lexsort_indexer( + keys, orders=ascending, na_position=na_position, key=key + ) + elif len(by): + # len(by) == 1 + + k = self._get_label_or_level_values(by[0], axis=axis) + + # need to rewrap column in Series to apply key function + if key is not None: + # error: Incompatible types in assignment (expression has type + # "Series", variable has type "ndarray") + k = Series(k, name=by[0]) # type: ignore[assignment] + + if isinstance(ascending, (tuple, list)): + ascending = ascending[0] + + indexer = nargsort( + k, kind=kind, ascending=ascending, na_position=na_position, key=key + ) + else: + if inplace: + return self._update_inplace(self) + else: + return self.copy(deep=None) + + if is_range_indexer(indexer, len(indexer)): + result = self.copy(deep=(not inplace and not using_copy_on_write())) + if ignore_index: + result.index = default_index(len(result)) + + if inplace: + return self._update_inplace(result) + else: + return result + + new_data = self._mgr.take( + indexer, axis=self._get_block_manager_axis(axis), verify=False + ) + + if ignore_index: + new_data.set_axis( + self._get_block_manager_axis(axis), default_index(len(indexer)) + ) + + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="sort_values") + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> None: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> DataFrame: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: bool = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> DataFrame | None: + ... + + def sort_index( + self, + *, + axis: Axis = 0, + level: IndexLabel | None = None, + ascending: bool | Sequence[bool] = True, + inplace: bool = False, + kind: SortKind = "quicksort", + na_position: NaPosition = "last", + sort_remaining: bool = True, + ignore_index: bool = False, + key: IndexKeyFunc | None = None, + ) -> DataFrame | None: + """ + Sort object by labels (along an axis). + + Returns a new DataFrame sorted by label if `inplace` argument is + ``False``, otherwise updates the original DataFrame and returns None. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis along which to sort. The value 0 identifies the rows, + and 1 identifies the columns. + level : int or level name or list of ints or list of level names + If not None, sort on values in specified index level(s). + ascending : bool or list-like of bools, default True + Sort ascending vs. descending. When the index is a MultiIndex the + sort direction can be controlled for each level individually. + inplace : bool, default False + Whether to modify the DataFrame rather than creating a new one. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See also :func:`numpy.sort` for more + information. `mergesort` and `stable` are the only stable algorithms. For + DataFrames, this option is only applied when sorting on a single + column or label. + na_position : {'first', 'last'}, default 'last' + Puts NaNs at the beginning if `first`; `last` puts NaNs at the end. + Not implemented for MultiIndex. + sort_remaining : bool, default True + If True and sorting by level and index is multilevel, sort by other + levels too (in order) after sorting by specified level. + ignore_index : bool, default False + If True, the resulting axis will be labeled 0, 1, …, n - 1. + key : callable, optional + If not None, apply the key function to the index values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect an + ``Index`` and return an ``Index`` of the same shape. For MultiIndex + inputs, the key is applied *per level*. + + Returns + ------- + DataFrame or None + The original DataFrame sorted by the labels or None if ``inplace=True``. + + See Also + -------- + Series.sort_index : Sort Series by the index. + DataFrame.sort_values : Sort DataFrame by the value. + Series.sort_values : Sort Series by the value. + + Examples + -------- + >>> df = pd.DataFrame([1, 2, 3, 4, 5], index=[100, 29, 234, 1, 150], + ... columns=['A']) + >>> df.sort_index() + A + 1 4 + 29 2 + 100 1 + 150 5 + 234 3 + + By default, it sorts in ascending order, to sort in descending order, + use ``ascending=False`` + + >>> df.sort_index(ascending=False) + A + 234 3 + 150 5 + 100 1 + 29 2 + 1 4 + + A key function can be specified which is applied to the index before + sorting. For a ``MultiIndex`` this is applied to each level separately. + + >>> df = pd.DataFrame({"a": [1, 2, 3, 4]}, index=['A', 'b', 'C', 'd']) + >>> df.sort_index(key=lambda x: x.str.lower()) + a + A 1 + b 2 + C 3 + d 4 + """ + return super().sort_index( + axis=axis, + level=level, + ascending=ascending, + inplace=inplace, + kind=kind, + na_position=na_position, + sort_remaining=sort_remaining, + ignore_index=ignore_index, + key=key, + ) + + def value_counts( + self, + subset: IndexLabel | None = None, + normalize: bool = False, + sort: bool = True, + ascending: bool = False, + dropna: bool = True, + ) -> Series: + """ + Return a Series containing the frequency of each distinct row in the Dataframe. + + Parameters + ---------- + subset : label or list of labels, optional + Columns to use when counting unique combinations. + normalize : bool, default False + Return proportions rather than frequencies. + sort : bool, default True + Sort by frequencies when True. Sort by DataFrame column values when False. + ascending : bool, default False + Sort in ascending order. + dropna : bool, default True + Don't include counts of rows that contain NA values. + + .. versionadded:: 1.3.0 + + Returns + ------- + Series + + See Also + -------- + Series.value_counts: Equivalent method on Series. + + Notes + ----- + The returned Series will have a MultiIndex with one level per input + column but an Index (non-multi) for a single label. By default, rows + that contain any NA values are omitted from the result. By default, + the resulting Series will be in descending order so that the first + element is the most frequently-occurring row. + + Examples + -------- + >>> df = pd.DataFrame({'num_legs': [2, 4, 4, 6], + ... 'num_wings': [2, 0, 0, 0]}, + ... index=['falcon', 'dog', 'cat', 'ant']) + >>> df + num_legs num_wings + falcon 2 2 + dog 4 0 + cat 4 0 + ant 6 0 + + >>> df.value_counts() + num_legs num_wings + 4 0 2 + 2 2 1 + 6 0 1 + Name: count, dtype: int64 + + >>> df.value_counts(sort=False) + num_legs num_wings + 2 2 1 + 4 0 2 + 6 0 1 + Name: count, dtype: int64 + + >>> df.value_counts(ascending=True) + num_legs num_wings + 2 2 1 + 6 0 1 + 4 0 2 + Name: count, dtype: int64 + + >>> df.value_counts(normalize=True) + num_legs num_wings + 4 0 0.50 + 2 2 0.25 + 6 0 0.25 + Name: proportion, dtype: float64 + + With `dropna` set to `False` we can also count rows with NA values. + + >>> df = pd.DataFrame({'first_name': ['John', 'Anne', 'John', 'Beth'], + ... 'middle_name': ['Smith', pd.NA, pd.NA, 'Louise']}) + >>> df + first_name middle_name + 0 John Smith + 1 Anne + 2 John + 3 Beth Louise + + >>> df.value_counts() + first_name middle_name + Beth Louise 1 + John Smith 1 + Name: count, dtype: int64 + + >>> df.value_counts(dropna=False) + first_name middle_name + Anne NaN 1 + Beth Louise 1 + John Smith 1 + NaN 1 + Name: count, dtype: int64 + + >>> df.value_counts("first_name") + first_name + John 2 + Anne 1 + Beth 1 + Name: count, dtype: int64 + """ + if subset is None: + subset = self.columns.tolist() + + name = "proportion" if normalize else "count" + counts = self.groupby(subset, dropna=dropna, observed=False)._grouper.size() + counts.name = name + + if sort: + counts = counts.sort_values(ascending=ascending) + if normalize: + counts /= counts.sum() + + # Force MultiIndex for a list_like subset with a single column + if is_list_like(subset) and len(subset) == 1: # type: ignore[arg-type] + counts.index = MultiIndex.from_arrays( + [counts.index], names=[counts.index.name] + ) + + return counts + + def nlargest( + self, n: int, columns: IndexLabel, keep: NsmallestNlargestKeep = "first" + ) -> DataFrame: + """ + Return the first `n` rows ordered by `columns` in descending order. + + Return the first `n` rows with the largest values in `columns`, in + descending order. The columns that are not specified are returned as + well, but not used for ordering. + + This method is equivalent to + ``df.sort_values(columns, ascending=False).head(n)``, but more + performant. + + Parameters + ---------- + n : int + Number of rows to return. + columns : label or list of labels + Column label(s) to order by. + keep : {'first', 'last', 'all'}, default 'first' + Where there are duplicate values: + + - ``first`` : prioritize the first occurrence(s) + - ``last`` : prioritize the last occurrence(s) + - ``all`` : keep all the ties of the smallest item even if it means + selecting more than ``n`` items. + + Returns + ------- + DataFrame + The first `n` rows ordered by the given columns in descending + order. + + See Also + -------- + DataFrame.nsmallest : Return the first `n` rows ordered by `columns` in + ascending order. + DataFrame.sort_values : Sort DataFrame by the values. + DataFrame.head : Return the first `n` rows without re-ordering. + + Notes + ----- + This function cannot be used with all column types. For example, when + specifying columns with `object` or `category` dtypes, ``TypeError`` is + raised. + + Examples + -------- + >>> df = pd.DataFrame({'population': [59000000, 65000000, 434000, + ... 434000, 434000, 337000, 11300, + ... 11300, 11300], + ... 'GDP': [1937894, 2583560 , 12011, 4520, 12128, + ... 17036, 182, 38, 311], + ... 'alpha-2': ["IT", "FR", "MT", "MV", "BN", + ... "IS", "NR", "TV", "AI"]}, + ... index=["Italy", "France", "Malta", + ... "Maldives", "Brunei", "Iceland", + ... "Nauru", "Tuvalu", "Anguilla"]) + >>> df + population GDP alpha-2 + Italy 59000000 1937894 IT + France 65000000 2583560 FR + Malta 434000 12011 MT + Maldives 434000 4520 MV + Brunei 434000 12128 BN + Iceland 337000 17036 IS + Nauru 11300 182 NR + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + + In the following example, we will use ``nlargest`` to select the three + rows having the largest values in column "population". + + >>> df.nlargest(3, 'population') + population GDP alpha-2 + France 65000000 2583560 FR + Italy 59000000 1937894 IT + Malta 434000 12011 MT + + When using ``keep='last'``, ties are resolved in reverse order: + + >>> df.nlargest(3, 'population', keep='last') + population GDP alpha-2 + France 65000000 2583560 FR + Italy 59000000 1937894 IT + Brunei 434000 12128 BN + + When using ``keep='all'``, the number of element kept can go beyond ``n`` + if there are duplicate values for the smallest element, all the + ties are kept: + + >>> df.nlargest(3, 'population', keep='all') + population GDP alpha-2 + France 65000000 2583560 FR + Italy 59000000 1937894 IT + Malta 434000 12011 MT + Maldives 434000 4520 MV + Brunei 434000 12128 BN + + However, ``nlargest`` does not keep ``n`` distinct largest elements: + + >>> df.nlargest(5, 'population', keep='all') + population GDP alpha-2 + France 65000000 2583560 FR + Italy 59000000 1937894 IT + Malta 434000 12011 MT + Maldives 434000 4520 MV + Brunei 434000 12128 BN + + To order by the largest values in column "population" and then "GDP", + we can specify multiple columns like in the next example. + + >>> df.nlargest(3, ['population', 'GDP']) + population GDP alpha-2 + France 65000000 2583560 FR + Italy 59000000 1937894 IT + Brunei 434000 12128 BN + """ + return selectn.SelectNFrame(self, n=n, keep=keep, columns=columns).nlargest() + + def nsmallest( + self, n: int, columns: IndexLabel, keep: NsmallestNlargestKeep = "first" + ) -> DataFrame: + """ + Return the first `n` rows ordered by `columns` in ascending order. + + Return the first `n` rows with the smallest values in `columns`, in + ascending order. The columns that are not specified are returned as + well, but not used for ordering. + + This method is equivalent to + ``df.sort_values(columns, ascending=True).head(n)``, but more + performant. + + Parameters + ---------- + n : int + Number of items to retrieve. + columns : list or str + Column name or names to order by. + keep : {'first', 'last', 'all'}, default 'first' + Where there are duplicate values: + + - ``first`` : take the first occurrence. + - ``last`` : take the last occurrence. + - ``all`` : keep all the ties of the largest item even if it means + selecting more than ``n`` items. + + Returns + ------- + DataFrame + + See Also + -------- + DataFrame.nlargest : Return the first `n` rows ordered by `columns` in + descending order. + DataFrame.sort_values : Sort DataFrame by the values. + DataFrame.head : Return the first `n` rows without re-ordering. + + Examples + -------- + >>> df = pd.DataFrame({'population': [59000000, 65000000, 434000, + ... 434000, 434000, 337000, 337000, + ... 11300, 11300], + ... 'GDP': [1937894, 2583560 , 12011, 4520, 12128, + ... 17036, 182, 38, 311], + ... 'alpha-2': ["IT", "FR", "MT", "MV", "BN", + ... "IS", "NR", "TV", "AI"]}, + ... index=["Italy", "France", "Malta", + ... "Maldives", "Brunei", "Iceland", + ... "Nauru", "Tuvalu", "Anguilla"]) + >>> df + population GDP alpha-2 + Italy 59000000 1937894 IT + France 65000000 2583560 FR + Malta 434000 12011 MT + Maldives 434000 4520 MV + Brunei 434000 12128 BN + Iceland 337000 17036 IS + Nauru 337000 182 NR + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + + In the following example, we will use ``nsmallest`` to select the + three rows having the smallest values in column "population". + + >>> df.nsmallest(3, 'population') + population GDP alpha-2 + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + Iceland 337000 17036 IS + + When using ``keep='last'``, ties are resolved in reverse order: + + >>> df.nsmallest(3, 'population', keep='last') + population GDP alpha-2 + Anguilla 11300 311 AI + Tuvalu 11300 38 TV + Nauru 337000 182 NR + + When using ``keep='all'``, the number of element kept can go beyond ``n`` + if there are duplicate values for the largest element, all the + ties are kept. + + >>> df.nsmallest(3, 'population', keep='all') + population GDP alpha-2 + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + Iceland 337000 17036 IS + Nauru 337000 182 NR + + However, ``nsmallest`` does not keep ``n`` distinct + smallest elements: + + >>> df.nsmallest(4, 'population', keep='all') + population GDP alpha-2 + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + Iceland 337000 17036 IS + Nauru 337000 182 NR + + To order by the smallest values in column "population" and then "GDP", we can + specify multiple columns like in the next example. + + >>> df.nsmallest(3, ['population', 'GDP']) + population GDP alpha-2 + Tuvalu 11300 38 TV + Anguilla 11300 311 AI + Nauru 337000 182 NR + """ + return selectn.SelectNFrame(self, n=n, keep=keep, columns=columns).nsmallest() + + @doc( + Series.swaplevel, + klass=_shared_doc_kwargs["klass"], + extra_params=dedent( + """axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to swap levels on. 0 or 'index' for row-wise, 1 or + 'columns' for column-wise.""" + ), + examples=dedent( + """\ + Examples + -------- + >>> df = pd.DataFrame( + ... {"Grade": ["A", "B", "A", "C"]}, + ... index=[ + ... ["Final exam", "Final exam", "Coursework", "Coursework"], + ... ["History", "Geography", "History", "Geography"], + ... ["January", "February", "March", "April"], + ... ], + ... ) + >>> df + Grade + Final exam History January A + Geography February B + Coursework History March A + Geography April C + + In the following example, we will swap the levels of the indices. + Here, we will swap the levels column-wise, but levels can be swapped row-wise + in a similar manner. Note that column-wise is the default behaviour. + By not supplying any arguments for i and j, we swap the last and second to + last indices. + + >>> df.swaplevel() + Grade + Final exam January History A + February Geography B + Coursework March History A + April Geography C + + By supplying one argument, we can choose which index to swap the last + index with. We can for example swap the first index with the last one as + follows. + + >>> df.swaplevel(0) + Grade + January History Final exam A + February Geography Final exam B + March History Coursework A + April Geography Coursework C + + We can also define explicitly which indices we want to swap by supplying values + for both i and j. Here, we for example swap the first and second indices. + + >>> df.swaplevel(0, 1) + Grade + History Final exam January A + Geography Final exam February B + History Coursework March A + Geography Coursework April C""" + ), + ) + def swaplevel(self, i: Axis = -2, j: Axis = -1, axis: Axis = 0) -> DataFrame: + result = self.copy(deep=None) + + axis = self._get_axis_number(axis) + + if not isinstance(result._get_axis(axis), MultiIndex): # pragma: no cover + raise TypeError("Can only swap levels on a hierarchical axis.") + + if axis == 0: + assert isinstance(result.index, MultiIndex) + result.index = result.index.swaplevel(i, j) + else: + assert isinstance(result.columns, MultiIndex) + result.columns = result.columns.swaplevel(i, j) + return result + + def reorder_levels(self, order: Sequence[int | str], axis: Axis = 0) -> DataFrame: + """ + Rearrange index levels using input order. May not drop or duplicate levels. + + Parameters + ---------- + order : list of int or list of str + List representing new level order. Reference level by number + (position) or by key (label). + axis : {0 or 'index', 1 or 'columns'}, default 0 + Where to reorder levels. + + Returns + ------- + DataFrame + + Examples + -------- + >>> data = { + ... "class": ["Mammals", "Mammals", "Reptiles"], + ... "diet": ["Omnivore", "Carnivore", "Carnivore"], + ... "species": ["Humans", "Dogs", "Snakes"], + ... } + >>> df = pd.DataFrame(data, columns=["class", "diet", "species"]) + >>> df = df.set_index(["class", "diet"]) + >>> df + species + class diet + Mammals Omnivore Humans + Carnivore Dogs + Reptiles Carnivore Snakes + + Let's reorder the levels of the index: + + >>> df.reorder_levels(["diet", "class"]) + species + diet class + Omnivore Mammals Humans + Carnivore Mammals Dogs + Reptiles Snakes + """ + axis = self._get_axis_number(axis) + if not isinstance(self._get_axis(axis), MultiIndex): # pragma: no cover + raise TypeError("Can only reorder levels on a hierarchical axis.") + + result = self.copy(deep=None) + + if axis == 0: + assert isinstance(result.index, MultiIndex) + result.index = result.index.reorder_levels(order) + else: + assert isinstance(result.columns, MultiIndex) + result.columns = result.columns.reorder_levels(order) + return result + + # ---------------------------------------------------------------------- + # Arithmetic Methods + + def _cmp_method(self, other, op): + axis: Literal[1] = 1 # only relevant for Series other case + + self, other = self._align_for_op(other, axis, flex=False, level=None) + + # See GH#4537 for discussion of scalar op behavior + new_data = self._dispatch_frame_op(other, op, axis=axis) + return self._construct_result(new_data) + + def _arith_method(self, other, op): + if self._should_reindex_frame_op(other, op, 1, None, None): + return self._arith_method_with_reindex(other, op) + + axis: Literal[1] = 1 # only relevant for Series other case + other = ops.maybe_prepare_scalar_for_op(other, (self.shape[axis],)) + + self, other = self._align_for_op(other, axis, flex=True, level=None) + + with np.errstate(all="ignore"): + new_data = self._dispatch_frame_op(other, op, axis=axis) + return self._construct_result(new_data) + + _logical_method = _arith_method + + def _dispatch_frame_op( + self, right, func: Callable, axis: AxisInt | None = None + ) -> DataFrame: + """ + Evaluate the frame operation func(left, right) by evaluating + column-by-column, dispatching to the Series implementation. + + Parameters + ---------- + right : scalar, Series, or DataFrame + func : arithmetic or comparison operator + axis : {None, 0, 1} + + Returns + ------- + DataFrame + + Notes + ----- + Caller is responsible for setting np.errstate where relevant. + """ + # Get the appropriate array-op to apply to each column/block's values. + array_op = ops.get_array_op(func) + + right = lib.item_from_zerodim(right) + if not is_list_like(right): + # i.e. scalar, faster than checking np.ndim(right) == 0 + bm = self._mgr.apply(array_op, right=right) + return self._constructor_from_mgr(bm, axes=bm.axes) + + elif isinstance(right, DataFrame): + assert self.index.equals(right.index) + assert self.columns.equals(right.columns) + # TODO: The previous assertion `assert right._indexed_same(self)` + # fails in cases with empty columns reached via + # _frame_arith_method_with_reindex + + # TODO operate_blockwise expects a manager of the same type + bm = self._mgr.operate_blockwise( + # error: Argument 1 to "operate_blockwise" of "ArrayManager" has + # incompatible type "Union[ArrayManager, BlockManager]"; expected + # "ArrayManager" + # error: Argument 1 to "operate_blockwise" of "BlockManager" has + # incompatible type "Union[ArrayManager, BlockManager]"; expected + # "BlockManager" + right._mgr, # type: ignore[arg-type] + array_op, + ) + return self._constructor_from_mgr(bm, axes=bm.axes) + + elif isinstance(right, Series) and axis == 1: + # axis=1 means we want to operate row-by-row + assert right.index.equals(self.columns) + + right = right._values + # maybe_align_as_frame ensures we do not have an ndarray here + assert not isinstance(right, np.ndarray) + + arrays = [ + array_op(_left, _right) + for _left, _right in zip(self._iter_column_arrays(), right) + ] + + elif isinstance(right, Series): + assert right.index.equals(self.index) + right = right._values + + arrays = [array_op(left, right) for left in self._iter_column_arrays()] + + else: + raise NotImplementedError(right) + + return type(self)._from_arrays( + arrays, self.columns, self.index, verify_integrity=False + ) + + def _combine_frame(self, other: DataFrame, func, fill_value=None): + # at this point we have `self._indexed_same(other)` + + if fill_value is None: + # since _arith_op may be called in a loop, avoid function call + # overhead if possible by doing this check once + _arith_op = func + + else: + + def _arith_op(left, right): + # for the mixed_type case where we iterate over columns, + # _arith_op(left, right) is equivalent to + # left._binop(right, func, fill_value=fill_value) + left, right = ops.fill_binop(left, right, fill_value) + return func(left, right) + + new_data = self._dispatch_frame_op(other, _arith_op) + return new_data + + def _arith_method_with_reindex(self, right: DataFrame, op) -> DataFrame: + """ + For DataFrame-with-DataFrame operations that require reindexing, + operate only on shared columns, then reindex. + + Parameters + ---------- + right : DataFrame + op : binary operator + + Returns + ------- + DataFrame + """ + left = self + + # GH#31623, only operate on shared columns + cols, lcols, rcols = left.columns.join( + right.columns, how="inner", level=None, return_indexers=True + ) + + new_left = left.iloc[:, lcols] + new_right = right.iloc[:, rcols] + result = op(new_left, new_right) + + # Do the join on the columns instead of using left._align_for_op + # to avoid constructing two potentially large/sparse DataFrames + join_columns, _, _ = left.columns.join( + right.columns, how="outer", level=None, return_indexers=True + ) + + if result.columns.has_duplicates: + # Avoid reindexing with a duplicate axis. + # https://github.com/pandas-dev/pandas/issues/35194 + indexer, _ = result.columns.get_indexer_non_unique(join_columns) + indexer = algorithms.unique1d(indexer) + result = result._reindex_with_indexers( + {1: [join_columns, indexer]}, allow_dups=True + ) + else: + result = result.reindex(join_columns, axis=1) + + return result + + def _should_reindex_frame_op(self, right, op, axis: int, fill_value, level) -> bool: + """ + Check if this is an operation between DataFrames that will need to reindex. + """ + if op is operator.pow or op is roperator.rpow: + # GH#32685 pow has special semantics for operating with null values + return False + + if not isinstance(right, DataFrame): + return False + + if fill_value is None and level is None and axis == 1: + # TODO: any other cases we should handle here? + + # Intersection is always unique so we have to check the unique columns + left_uniques = self.columns.unique() + right_uniques = right.columns.unique() + cols = left_uniques.intersection(right_uniques) + if len(cols) and not ( + len(cols) == len(left_uniques) and len(cols) == len(right_uniques) + ): + # TODO: is there a shortcut available when len(cols) == 0? + return True + + return False + + def _align_for_op( + self, + other, + axis: AxisInt, + flex: bool | None = False, + level: Level | None = None, + ): + """ + Convert rhs to meet lhs dims if input is list, tuple or np.ndarray. + + Parameters + ---------- + left : DataFrame + right : Any + axis : int + flex : bool or None, default False + Whether this is a flex op, in which case we reindex. + None indicates not to check for alignment. + level : int or level name, default None + + Returns + ------- + left : DataFrame + right : Any + """ + left, right = self, other + + def to_series(right): + msg = ( + "Unable to coerce to Series, " + "length must be {req_len}: given {given_len}" + ) + + # pass dtype to avoid doing inference, which would break consistency + # with Index/Series ops + dtype = None + if getattr(right, "dtype", None) == object: + # can't pass right.dtype unconditionally as that would break on e.g. + # datetime64[h] ndarray + dtype = object + + if axis == 0: + if len(left.index) != len(right): + raise ValueError( + msg.format(req_len=len(left.index), given_len=len(right)) + ) + right = left._constructor_sliced(right, index=left.index, dtype=dtype) + else: + if len(left.columns) != len(right): + raise ValueError( + msg.format(req_len=len(left.columns), given_len=len(right)) + ) + right = left._constructor_sliced(right, index=left.columns, dtype=dtype) + return right + + if isinstance(right, np.ndarray): + if right.ndim == 1: + right = to_series(right) + + elif right.ndim == 2: + # We need to pass dtype=right.dtype to retain object dtype + # otherwise we lose consistency with Index and array ops + dtype = None + if right.dtype == object: + # can't pass right.dtype unconditionally as that would break on e.g. + # datetime64[h] ndarray + dtype = object + + if right.shape == left.shape: + right = left._constructor( + right, index=left.index, columns=left.columns, dtype=dtype + ) + + elif right.shape[0] == left.shape[0] and right.shape[1] == 1: + # Broadcast across columns + right = np.broadcast_to(right, left.shape) + right = left._constructor( + right, index=left.index, columns=left.columns, dtype=dtype + ) + + elif right.shape[1] == left.shape[1] and right.shape[0] == 1: + # Broadcast along rows + right = to_series(right[0, :]) + + else: + raise ValueError( + "Unable to coerce to DataFrame, shape " + f"must be {left.shape}: given {right.shape}" + ) + + elif right.ndim > 2: + raise ValueError( + "Unable to coerce to Series/DataFrame, " + f"dimension must be <= 2: {right.shape}" + ) + + elif is_list_like(right) and not isinstance(right, (Series, DataFrame)): + # GH#36702. Raise when attempting arithmetic with list of array-like. + if any(is_array_like(el) for el in right): + raise ValueError( + f"Unable to coerce list of {type(right[0])} to Series/DataFrame" + ) + # GH#17901 + right = to_series(right) + + if flex is not None and isinstance(right, DataFrame): + if not left._indexed_same(right): + if flex: + left, right = left.align( + right, join="outer", level=level, copy=False + ) + else: + raise ValueError( + "Can only compare identically-labeled (both index and columns) " + "DataFrame objects" + ) + elif isinstance(right, Series): + # axis=1 is default for DataFrame-with-Series op + axis = axis if axis is not None else 1 + if not flex: + if not left.axes[axis].equals(right.index): + raise ValueError( + "Operands are not aligned. Do " + "`left, right = left.align(right, axis=1, copy=False)` " + "before operating." + ) + + left, right = left.align( + right, + join="outer", + axis=axis, + level=level, + copy=False, + ) + right = left._maybe_align_series_as_frame(right, axis) + + return left, right + + def _maybe_align_series_as_frame(self, series: Series, axis: AxisInt): + """ + If the Series operand is not EA-dtype, we can broadcast to 2D and operate + blockwise. + """ + rvalues = series._values + if not isinstance(rvalues, np.ndarray): + # TODO(EA2D): no need to special-case with 2D EAs + if rvalues.dtype in ("datetime64[ns]", "timedelta64[ns]"): + # We can losslessly+cheaply cast to ndarray + rvalues = np.asarray(rvalues) + else: + return series + + if axis == 0: + rvalues = rvalues.reshape(-1, 1) + else: + rvalues = rvalues.reshape(1, -1) + + rvalues = np.broadcast_to(rvalues, self.shape) + # pass dtype to avoid doing inference + return self._constructor( + rvalues, + index=self.index, + columns=self.columns, + dtype=rvalues.dtype, + ) + + def _flex_arith_method( + self, other, op, *, axis: Axis = "columns", level=None, fill_value=None + ): + axis = self._get_axis_number(axis) if axis is not None else 1 + + if self._should_reindex_frame_op(other, op, axis, fill_value, level): + return self._arith_method_with_reindex(other, op) + + if isinstance(other, Series) and fill_value is not None: + # TODO: We could allow this in cases where we end up going + # through the DataFrame path + raise NotImplementedError(f"fill_value {fill_value} not supported.") + + other = ops.maybe_prepare_scalar_for_op(other, self.shape) + self, other = self._align_for_op(other, axis, flex=True, level=level) + + with np.errstate(all="ignore"): + if isinstance(other, DataFrame): + # Another DataFrame + new_data = self._combine_frame(other, op, fill_value) + + elif isinstance(other, Series): + new_data = self._dispatch_frame_op(other, op, axis=axis) + else: + # in this case we always have `np.ndim(other) == 0` + if fill_value is not None: + self = self.fillna(fill_value) + + new_data = self._dispatch_frame_op(other, op) + + return self._construct_result(new_data) + + def _construct_result(self, result) -> DataFrame: + """ + Wrap the result of an arithmetic, comparison, or logical operation. + + Parameters + ---------- + result : DataFrame + + Returns + ------- + DataFrame + """ + out = self._constructor(result, copy=False).__finalize__(self) + # Pin columns instead of passing to constructor for compat with + # non-unique columns case + out.columns = self.columns + out.index = self.index + return out + + def __divmod__(self, other) -> tuple[DataFrame, DataFrame]: + # Naive implementation, room for optimization + div = self // other + mod = self - div * other + return div, mod + + def __rdivmod__(self, other) -> tuple[DataFrame, DataFrame]: + # Naive implementation, room for optimization + div = other // self + mod = other - div * self + return div, mod + + def _flex_cmp_method(self, other, op, *, axis: Axis = "columns", level=None): + axis = self._get_axis_number(axis) if axis is not None else 1 + + self, other = self._align_for_op(other, axis, flex=True, level=level) + + new_data = self._dispatch_frame_op(other, op, axis=axis) + return self._construct_result(new_data) + + @Appender(ops.make_flex_doc("eq", "dataframe")) + def eq(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.eq, axis=axis, level=level) + + @Appender(ops.make_flex_doc("ne", "dataframe")) + def ne(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.ne, axis=axis, level=level) + + @Appender(ops.make_flex_doc("le", "dataframe")) + def le(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.le, axis=axis, level=level) + + @Appender(ops.make_flex_doc("lt", "dataframe")) + def lt(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.lt, axis=axis, level=level) + + @Appender(ops.make_flex_doc("ge", "dataframe")) + def ge(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.ge, axis=axis, level=level) + + @Appender(ops.make_flex_doc("gt", "dataframe")) + def gt(self, other, axis: Axis = "columns", level=None) -> DataFrame: + return self._flex_cmp_method(other, operator.gt, axis=axis, level=level) + + @Appender(ops.make_flex_doc("add", "dataframe")) + def add( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.add, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("radd", "dataframe")) + def radd( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.radd, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("sub", "dataframe")) + def sub( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.sub, level=level, fill_value=fill_value, axis=axis + ) + + subtract = sub + + @Appender(ops.make_flex_doc("rsub", "dataframe")) + def rsub( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rsub, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("mul", "dataframe")) + def mul( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.mul, level=level, fill_value=fill_value, axis=axis + ) + + multiply = mul + + @Appender(ops.make_flex_doc("rmul", "dataframe")) + def rmul( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rmul, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("truediv", "dataframe")) + def truediv( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.truediv, level=level, fill_value=fill_value, axis=axis + ) + + div = truediv + divide = truediv + + @Appender(ops.make_flex_doc("rtruediv", "dataframe")) + def rtruediv( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rtruediv, level=level, fill_value=fill_value, axis=axis + ) + + rdiv = rtruediv + + @Appender(ops.make_flex_doc("floordiv", "dataframe")) + def floordiv( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.floordiv, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rfloordiv", "dataframe")) + def rfloordiv( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rfloordiv, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("mod", "dataframe")) + def mod( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.mod, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rmod", "dataframe")) + def rmod( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rmod, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("pow", "dataframe")) + def pow( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, operator.pow, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rpow", "dataframe")) + def rpow( + self, other, axis: Axis = "columns", level=None, fill_value=None + ) -> DataFrame: + return self._flex_arith_method( + other, roperator.rpow, level=level, fill_value=fill_value, axis=axis + ) + + # ---------------------------------------------------------------------- + # Combination-Related + + @doc( + _shared_docs["compare"], + dedent( + """ + Returns + ------- + DataFrame + DataFrame that shows the differences stacked side by side. + + The resulting index will be a MultiIndex with 'self' and 'other' + stacked alternately at the inner level. + + Raises + ------ + ValueError + When the two DataFrames don't have identical labels or shape. + + See Also + -------- + Series.compare : Compare with another Series and show differences. + DataFrame.equals : Test whether two objects contain the same elements. + + Notes + ----- + Matching NaNs will not appear as a difference. + + Can only compare identically-labeled + (i.e. same shape, identical row and column labels) DataFrames + + Examples + -------- + >>> df = pd.DataFrame( + ... {{ + ... "col1": ["a", "a", "b", "b", "a"], + ... "col2": [1.0, 2.0, 3.0, np.nan, 5.0], + ... "col3": [1.0, 2.0, 3.0, 4.0, 5.0] + ... }}, + ... columns=["col1", "col2", "col3"], + ... ) + >>> df + col1 col2 col3 + 0 a 1.0 1.0 + 1 a 2.0 2.0 + 2 b 3.0 3.0 + 3 b NaN 4.0 + 4 a 5.0 5.0 + + >>> df2 = df.copy() + >>> df2.loc[0, 'col1'] = 'c' + >>> df2.loc[2, 'col3'] = 4.0 + >>> df2 + col1 col2 col3 + 0 c 1.0 1.0 + 1 a 2.0 2.0 + 2 b 3.0 4.0 + 3 b NaN 4.0 + 4 a 5.0 5.0 + + Align the differences on columns + + >>> df.compare(df2) + col1 col3 + self other self other + 0 a c NaN NaN + 2 NaN NaN 3.0 4.0 + + Assign result_names + + >>> df.compare(df2, result_names=("left", "right")) + col1 col3 + left right left right + 0 a c NaN NaN + 2 NaN NaN 3.0 4.0 + + Stack the differences on rows + + >>> df.compare(df2, align_axis=0) + col1 col3 + 0 self a NaN + other c NaN + 2 self NaN 3.0 + other NaN 4.0 + + Keep the equal values + + >>> df.compare(df2, keep_equal=True) + col1 col3 + self other self other + 0 a c 1.0 1.0 + 2 b b 3.0 4.0 + + Keep all original rows and columns + + >>> df.compare(df2, keep_shape=True) + col1 col2 col3 + self other self other self other + 0 a c NaN NaN NaN NaN + 1 NaN NaN NaN NaN NaN NaN + 2 NaN NaN NaN NaN 3.0 4.0 + 3 NaN NaN NaN NaN NaN NaN + 4 NaN NaN NaN NaN NaN NaN + + Keep all original rows and columns and also all original values + + >>> df.compare(df2, keep_shape=True, keep_equal=True) + col1 col2 col3 + self other self other self other + 0 a c 1.0 1.0 1.0 1.0 + 1 a a 2.0 2.0 2.0 2.0 + 2 b b 3.0 3.0 3.0 4.0 + 3 b b NaN NaN 4.0 4.0 + 4 a a 5.0 5.0 5.0 5.0 + """ + ), + klass=_shared_doc_kwargs["klass"], + ) + def compare( + self, + other: DataFrame, + align_axis: Axis = 1, + keep_shape: bool = False, + keep_equal: bool = False, + result_names: Suffixes = ("self", "other"), + ) -> DataFrame: + return super().compare( + other=other, + align_axis=align_axis, + keep_shape=keep_shape, + keep_equal=keep_equal, + result_names=result_names, + ) + + def combine( + self, + other: DataFrame, + func: Callable[[Series, Series], Series | Hashable], + fill_value=None, + overwrite: bool = True, + ) -> DataFrame: + """ + Perform column-wise combine with another DataFrame. + + Combines a DataFrame with `other` DataFrame using `func` + to element-wise combine columns. The row and column indexes of the + resulting DataFrame will be the union of the two. + + Parameters + ---------- + other : DataFrame + The DataFrame to merge column-wise. + func : function + Function that takes two series as inputs and return a Series or a + scalar. Used to merge the two dataframes column by columns. + fill_value : scalar value, default None + The value to fill NaNs with prior to passing any column to the + merge func. + overwrite : bool, default True + If True, columns in `self` that do not exist in `other` will be + overwritten with NaNs. + + Returns + ------- + DataFrame + Combination of the provided DataFrames. + + See Also + -------- + DataFrame.combine_first : Combine two DataFrame objects and default to + non-null values in frame calling the method. + + Examples + -------- + Combine using a simple function that chooses the smaller column. + + >>> df1 = pd.DataFrame({'A': [0, 0], 'B': [4, 4]}) + >>> df2 = pd.DataFrame({'A': [1, 1], 'B': [3, 3]}) + >>> take_smaller = lambda s1, s2: s1 if s1.sum() < s2.sum() else s2 + >>> df1.combine(df2, take_smaller) + A B + 0 0 3 + 1 0 3 + + Example using a true element-wise combine function. + + >>> df1 = pd.DataFrame({'A': [5, 0], 'B': [2, 4]}) + >>> df2 = pd.DataFrame({'A': [1, 1], 'B': [3, 3]}) + >>> df1.combine(df2, np.minimum) + A B + 0 1 2 + 1 0 3 + + Using `fill_value` fills Nones prior to passing the column to the + merge function. + + >>> df1 = pd.DataFrame({'A': [0, 0], 'B': [None, 4]}) + >>> df2 = pd.DataFrame({'A': [1, 1], 'B': [3, 3]}) + >>> df1.combine(df2, take_smaller, fill_value=-5) + A B + 0 0 -5.0 + 1 0 4.0 + + However, if the same element in both dataframes is None, that None + is preserved + + >>> df1 = pd.DataFrame({'A': [0, 0], 'B': [None, 4]}) + >>> df2 = pd.DataFrame({'A': [1, 1], 'B': [None, 3]}) + >>> df1.combine(df2, take_smaller, fill_value=-5) + A B + 0 0 -5.0 + 1 0 3.0 + + Example that demonstrates the use of `overwrite` and behavior when + the axis differ between the dataframes. + + >>> df1 = pd.DataFrame({'A': [0, 0], 'B': [4, 4]}) + >>> df2 = pd.DataFrame({'B': [3, 3], 'C': [-10, 1], }, index=[1, 2]) + >>> df1.combine(df2, take_smaller) + A B C + 0 NaN NaN NaN + 1 NaN 3.0 -10.0 + 2 NaN 3.0 1.0 + + >>> df1.combine(df2, take_smaller, overwrite=False) + A B C + 0 0.0 NaN NaN + 1 0.0 3.0 -10.0 + 2 NaN 3.0 1.0 + + Demonstrating the preference of the passed in dataframe. + + >>> df2 = pd.DataFrame({'B': [3, 3], 'C': [1, 1], }, index=[1, 2]) + >>> df2.combine(df1, take_smaller) + A B C + 0 0.0 NaN NaN + 1 0.0 3.0 NaN + 2 NaN 3.0 NaN + + >>> df2.combine(df1, take_smaller, overwrite=False) + A B C + 0 0.0 NaN NaN + 1 0.0 3.0 1.0 + 2 NaN 3.0 1.0 + """ + other_idxlen = len(other.index) # save for compare + + this, other = self.align(other, copy=False) + new_index = this.index + + if other.empty and len(new_index) == len(self.index): + return self.copy() + + if self.empty and len(other) == other_idxlen: + return other.copy() + + # sorts if possible; otherwise align above ensures that these are set-equal + new_columns = this.columns.union(other.columns) + do_fill = fill_value is not None + result = {} + for col in new_columns: + series = this[col] + other_series = other[col] + + this_dtype = series.dtype + other_dtype = other_series.dtype + + this_mask = isna(series) + other_mask = isna(other_series) + + # don't overwrite columns unnecessarily + # DO propagate if this column is not in the intersection + if not overwrite and other_mask.all(): + result[col] = this[col].copy() + continue + + if do_fill: + series = series.copy() + other_series = other_series.copy() + series[this_mask] = fill_value + other_series[other_mask] = fill_value + + if col not in self.columns: + # If self DataFrame does not have col in other DataFrame, + # try to promote series, which is all NaN, as other_dtype. + new_dtype = other_dtype + try: + series = series.astype(new_dtype, copy=False) + except ValueError: + # e.g. new_dtype is integer types + pass + else: + # if we have different dtypes, possibly promote + new_dtype = find_common_type([this_dtype, other_dtype]) + series = series.astype(new_dtype, copy=False) + other_series = other_series.astype(new_dtype, copy=False) + + arr = func(series, other_series) + if isinstance(new_dtype, np.dtype): + # if new_dtype is an EA Dtype, then `func` is expected to return + # the correct dtype without any additional casting + # error: No overload variant of "maybe_downcast_to_dtype" matches + # argument types "Union[Series, Hashable]", "dtype[Any]" + arr = maybe_downcast_to_dtype( # type: ignore[call-overload] + arr, new_dtype + ) + + result[col] = arr + + # convert_objects just in case + frame_result = self._constructor(result, index=new_index, columns=new_columns) + return frame_result.__finalize__(self, method="combine") + + def combine_first(self, other: DataFrame) -> DataFrame: + """ + Update null elements with value in the same location in `other`. + + Combine two DataFrame objects by filling null values in one DataFrame + with non-null values from other DataFrame. The row and column indexes + of the resulting DataFrame will be the union of the two. The resulting + dataframe contains the 'first' dataframe values and overrides the + second one values where both first.loc[index, col] and + second.loc[index, col] are not missing values, upon calling + first.combine_first(second). + + Parameters + ---------- + other : DataFrame + Provided DataFrame to use to fill null values. + + Returns + ------- + DataFrame + The result of combining the provided DataFrame with the other object. + + See Also + -------- + DataFrame.combine : Perform series-wise operation on two DataFrames + using a given function. + + Examples + -------- + >>> df1 = pd.DataFrame({'A': [None, 0], 'B': [None, 4]}) + >>> df2 = pd.DataFrame({'A': [1, 1], 'B': [3, 3]}) + >>> df1.combine_first(df2) + A B + 0 1.0 3.0 + 1 0.0 4.0 + + Null values still persist if the location of that null value + does not exist in `other` + + >>> df1 = pd.DataFrame({'A': [None, 0], 'B': [4, None]}) + >>> df2 = pd.DataFrame({'B': [3, 3], 'C': [1, 1]}, index=[1, 2]) + >>> df1.combine_first(df2) + A B C + 0 NaN 4.0 NaN + 1 0.0 3.0 1.0 + 2 NaN 3.0 1.0 + """ + from pandas.core.computation import expressions + + def combiner(x: Series, y: Series): + mask = x.isna()._values + + x_values = x._values + y_values = y._values + + # If the column y in other DataFrame is not in first DataFrame, + # just return y_values. + if y.name not in self.columns: + return y_values + + return expressions.where(mask, y_values, x_values) + + if len(other) == 0: + combined = self.reindex( + self.columns.append(other.columns.difference(self.columns)), axis=1 + ) + combined = combined.astype(other.dtypes) + else: + combined = self.combine(other, combiner, overwrite=False) + + dtypes = { + col: find_common_type([self.dtypes[col], other.dtypes[col]]) + for col in self.columns.intersection(other.columns) + if combined.dtypes[col] != self.dtypes[col] + } + + if dtypes: + combined = combined.astype(dtypes) + + return combined.__finalize__(self, method="combine_first") + + def update( + self, + other, + join: UpdateJoin = "left", + overwrite: bool = True, + filter_func=None, + errors: IgnoreRaise = "ignore", + ) -> None: + """ + Modify in place using non-NA values from another DataFrame. + + Aligns on indices. There is no return value. + + Parameters + ---------- + other : DataFrame, or object coercible into a DataFrame + Should have at least one matching index/column label + with the original DataFrame. If a Series is passed, + its name attribute must be set, and that will be + used as the column name to align with the original DataFrame. + join : {'left'}, default 'left' + Only left join is implemented, keeping the index and columns of the + original object. + overwrite : bool, default True + How to handle non-NA values for overlapping keys: + + * True: overwrite original DataFrame's values + with values from `other`. + * False: only update values that are NA in + the original DataFrame. + + filter_func : callable(1d-array) -> bool 1d-array, optional + Can choose to replace values other than NA. Return True for values + that should be updated. + errors : {'raise', 'ignore'}, default 'ignore' + If 'raise', will raise a ValueError if the DataFrame and `other` + both contain non-NA data in the same place. + + Returns + ------- + None + This method directly changes calling object. + + Raises + ------ + ValueError + * When `errors='raise'` and there's overlapping non-NA data. + * When `errors` is not either `'ignore'` or `'raise'` + NotImplementedError + * If `join != 'left'` + + See Also + -------- + dict.update : Similar method for dictionaries. + DataFrame.merge : For column(s)-on-column(s) operations. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2, 3], + ... 'B': [400, 500, 600]}) + >>> new_df = pd.DataFrame({'B': [4, 5, 6], + ... 'C': [7, 8, 9]}) + >>> df.update(new_df) + >>> df + A B + 0 1 4 + 1 2 5 + 2 3 6 + + The DataFrame's length does not increase as a result of the update, + only values at matching index/column labels are updated. + + >>> df = pd.DataFrame({'A': ['a', 'b', 'c'], + ... 'B': ['x', 'y', 'z']}) + >>> new_df = pd.DataFrame({'B': ['d', 'e', 'f', 'g', 'h', 'i']}) + >>> df.update(new_df) + >>> df + A B + 0 a d + 1 b e + 2 c f + + >>> df = pd.DataFrame({'A': ['a', 'b', 'c'], + ... 'B': ['x', 'y', 'z']}) + >>> new_df = pd.DataFrame({'B': ['d', 'f']}, index=[0, 2]) + >>> df.update(new_df) + >>> df + A B + 0 a d + 1 b y + 2 c f + + For Series, its name attribute must be set. + + >>> df = pd.DataFrame({'A': ['a', 'b', 'c'], + ... 'B': ['x', 'y', 'z']}) + >>> new_column = pd.Series(['d', 'e', 'f'], name='B') + >>> df.update(new_column) + >>> df + A B + 0 a d + 1 b e + 2 c f + + If `other` contains NaNs the corresponding values are not updated + in the original dataframe. + + >>> df = pd.DataFrame({'A': [1, 2, 3], + ... 'B': [400., 500., 600.]}) + >>> new_df = pd.DataFrame({'B': [4, np.nan, 6]}) + >>> df.update(new_df) + >>> df + A B + 0 1 4.0 + 1 2 500.0 + 2 3 6.0 + """ + + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif not PYPY and not using_copy_on_write() and self._is_view_after_cow_rules(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + # TODO: Support other joins + if join != "left": # pragma: no cover + raise NotImplementedError("Only left join is supported") + if errors not in ["ignore", "raise"]: + raise ValueError("The parameter errors must be either 'ignore' or 'raise'") + + if not isinstance(other, DataFrame): + other = DataFrame(other) + + other = other.reindex(self.index) + + for col in self.columns.intersection(other.columns): + this = self[col]._values + that = other[col]._values + + if filter_func is not None: + mask = ~filter_func(this) | isna(that) + else: + if errors == "raise": + mask_this = notna(that) + mask_that = notna(this) + if any(mask_this & mask_that): + raise ValueError("Data overlaps.") + + if overwrite: + mask = isna(that) + else: + mask = notna(this) + + # don't overwrite columns unnecessarily + if mask.all(): + continue + + with warnings.catch_warnings(): + warnings.filterwarnings( + "ignore", + message="Downcasting behavior", + category=FutureWarning, + ) + # GH#57124 - `that` might get upcasted because of NA values, and then + # downcasted in where because of the mask. Ignoring the warning + # is a stopgap, will replace with a new implementation of update + # in 3.0. + self.loc[:, col] = self[col].where(mask, that) + + # ---------------------------------------------------------------------- + # Data reshaping + @Appender( + dedent( + """ + Examples + -------- + >>> df = pd.DataFrame({'Animal': ['Falcon', 'Falcon', + ... 'Parrot', 'Parrot'], + ... 'Max Speed': [380., 370., 24., 26.]}) + >>> df + Animal Max Speed + 0 Falcon 380.0 + 1 Falcon 370.0 + 2 Parrot 24.0 + 3 Parrot 26.0 + >>> df.groupby(['Animal']).mean() + Max Speed + Animal + Falcon 375.0 + Parrot 25.0 + + **Hierarchical Indexes** + + We can groupby different levels of a hierarchical index + using the `level` parameter: + + >>> arrays = [['Falcon', 'Falcon', 'Parrot', 'Parrot'], + ... ['Captive', 'Wild', 'Captive', 'Wild']] + >>> index = pd.MultiIndex.from_arrays(arrays, names=('Animal', 'Type')) + >>> df = pd.DataFrame({'Max Speed': [390., 350., 30., 20.]}, + ... index=index) + >>> df + Max Speed + Animal Type + Falcon Captive 390.0 + Wild 350.0 + Parrot Captive 30.0 + Wild 20.0 + >>> df.groupby(level=0).mean() + Max Speed + Animal + Falcon 370.0 + Parrot 25.0 + >>> df.groupby(level="Type").mean() + Max Speed + Type + Captive 210.0 + Wild 185.0 + + We can also choose to include NA in group keys or not by setting + `dropna` parameter, the default setting is `True`. + + >>> l = [[1, 2, 3], [1, None, 4], [2, 1, 3], [1, 2, 2]] + >>> df = pd.DataFrame(l, columns=["a", "b", "c"]) + + >>> df.groupby(by=["b"]).sum() + a c + b + 1.0 2 3 + 2.0 2 5 + + >>> df.groupby(by=["b"], dropna=False).sum() + a c + b + 1.0 2 3 + 2.0 2 5 + NaN 1 4 + + >>> l = [["a", 12, 12], [None, 12.3, 33.], ["b", 12.3, 123], ["a", 1, 1]] + >>> df = pd.DataFrame(l, columns=["a", "b", "c"]) + + >>> df.groupby(by="a").sum() + b c + a + a 13.0 13.0 + b 12.3 123.0 + + >>> df.groupby(by="a", dropna=False).sum() + b c + a + a 13.0 13.0 + b 12.3 123.0 + NaN 12.3 33.0 + + When using ``.apply()``, use ``group_keys`` to include or exclude the + group keys. The ``group_keys`` argument defaults to ``True`` (include). + + >>> df = pd.DataFrame({'Animal': ['Falcon', 'Falcon', + ... 'Parrot', 'Parrot'], + ... 'Max Speed': [380., 370., 24., 26.]}) + >>> df.groupby("Animal", group_keys=True)[['Max Speed']].apply(lambda x: x) + Max Speed + Animal + Falcon 0 380.0 + 1 370.0 + Parrot 2 24.0 + 3 26.0 + + >>> df.groupby("Animal", group_keys=False)[['Max Speed']].apply(lambda x: x) + Max Speed + 0 380.0 + 1 370.0 + 2 24.0 + 3 26.0 + """ + ) + ) + @Appender(_shared_docs["groupby"] % _shared_doc_kwargs) + def groupby( + self, + by=None, + axis: Axis | lib.NoDefault = lib.no_default, + level: IndexLabel | None = None, + as_index: bool = True, + sort: bool = True, + group_keys: bool = True, + observed: bool | lib.NoDefault = lib.no_default, + dropna: bool = True, + ) -> DataFrameGroupBy: + if axis is not lib.no_default: + axis = self._get_axis_number(axis) + if axis == 1: + warnings.warn( + "DataFrame.groupby with axis=1 is deprecated. Do " + "`frame.T.groupby(...)` without axis instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + "The 'axis' keyword in DataFrame.groupby is deprecated and " + "will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + + from pandas.core.groupby.generic import DataFrameGroupBy + + if level is None and by is None: + raise TypeError("You have to supply one of 'by' and 'level'") + + return DataFrameGroupBy( + obj=self, + keys=by, + axis=axis, + level=level, + as_index=as_index, + sort=sort, + group_keys=group_keys, + observed=observed, + dropna=dropna, + ) + + _shared_docs[ + "pivot" + ] = """ + Return reshaped DataFrame organized by given index / column values. + + Reshape data (produce a "pivot" table) based on column values. Uses + unique values from specified `index` / `columns` to form axes of the + resulting DataFrame. This function does not support data + aggregation, multiple values will result in a MultiIndex in the + columns. See the :ref:`User Guide ` for more on reshaping. + + Parameters + ----------%s + columns : str or object or a list of str + Column to use to make new frame's columns. + index : str or object or a list of str, optional + Column to use to make new frame's index. If not given, uses existing index. + values : str, object or a list of the previous, optional + Column(s) to use for populating new frame's values. If not + specified, all remaining columns will be used and the result will + have hierarchically indexed columns. + + Returns + ------- + DataFrame + Returns reshaped DataFrame. + + Raises + ------ + ValueError: + When there are any `index`, `columns` combinations with multiple + values. `DataFrame.pivot_table` when you need to aggregate. + + See Also + -------- + DataFrame.pivot_table : Generalization of pivot that can handle + duplicate values for one index/column pair. + DataFrame.unstack : Pivot based on the index values instead of a + column. + wide_to_long : Wide panel to long format. Less flexible but more + user-friendly than melt. + + Notes + ----- + For finer-tuned control, see hierarchical indexing documentation along + with the related stack/unstack methods. + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> df = pd.DataFrame({'foo': ['one', 'one', 'one', 'two', 'two', + ... 'two'], + ... 'bar': ['A', 'B', 'C', 'A', 'B', 'C'], + ... 'baz': [1, 2, 3, 4, 5, 6], + ... 'zoo': ['x', 'y', 'z', 'q', 'w', 't']}) + >>> df + foo bar baz zoo + 0 one A 1 x + 1 one B 2 y + 2 one C 3 z + 3 two A 4 q + 4 two B 5 w + 5 two C 6 t + + >>> df.pivot(index='foo', columns='bar', values='baz') + bar A B C + foo + one 1 2 3 + two 4 5 6 + + >>> df.pivot(index='foo', columns='bar')['baz'] + bar A B C + foo + one 1 2 3 + two 4 5 6 + + >>> df.pivot(index='foo', columns='bar', values=['baz', 'zoo']) + baz zoo + bar A B C A B C + foo + one 1 2 3 x y z + two 4 5 6 q w t + + You could also assign a list of column names or a list of index names. + + >>> df = pd.DataFrame({ + ... "lev1": [1, 1, 1, 2, 2, 2], + ... "lev2": [1, 1, 2, 1, 1, 2], + ... "lev3": [1, 2, 1, 2, 1, 2], + ... "lev4": [1, 2, 3, 4, 5, 6], + ... "values": [0, 1, 2, 3, 4, 5]}) + >>> df + lev1 lev2 lev3 lev4 values + 0 1 1 1 1 0 + 1 1 1 2 2 1 + 2 1 2 1 3 2 + 3 2 1 2 4 3 + 4 2 1 1 5 4 + 5 2 2 2 6 5 + + >>> df.pivot(index="lev1", columns=["lev2", "lev3"], values="values") + lev2 1 2 + lev3 1 2 1 2 + lev1 + 1 0.0 1.0 2.0 NaN + 2 4.0 3.0 NaN 5.0 + + >>> df.pivot(index=["lev1", "lev2"], columns=["lev3"], values="values") + lev3 1 2 + lev1 lev2 + 1 1 0.0 1.0 + 2 2.0 NaN + 2 1 4.0 3.0 + 2 NaN 5.0 + + A ValueError is raised if there are any duplicates. + + >>> df = pd.DataFrame({"foo": ['one', 'one', 'two', 'two'], + ... "bar": ['A', 'A', 'B', 'C'], + ... "baz": [1, 2, 3, 4]}) + >>> df + foo bar baz + 0 one A 1 + 1 one A 2 + 2 two B 3 + 3 two C 4 + + Notice that the first two rows are the same for our `index` + and `columns` arguments. + + >>> df.pivot(index='foo', columns='bar', values='baz') + Traceback (most recent call last): + ... + ValueError: Index contains duplicate entries, cannot reshape + """ + + @Substitution("") + @Appender(_shared_docs["pivot"]) + def pivot( + self, *, columns, index=lib.no_default, values=lib.no_default + ) -> DataFrame: + from pandas.core.reshape.pivot import pivot + + return pivot(self, index=index, columns=columns, values=values) + + _shared_docs[ + "pivot_table" + ] = """ + Create a spreadsheet-style pivot table as a DataFrame. + + The levels in the pivot table will be stored in MultiIndex objects + (hierarchical indexes) on the index and columns of the result DataFrame. + + Parameters + ----------%s + values : list-like or scalar, optional + Column or columns to aggregate. + index : column, Grouper, array, or list of the previous + Keys to group by on the pivot table index. If a list is passed, + it can contain any of the other types (except list). If an array is + passed, it must be the same length as the data and will be used in + the same manner as column values. + columns : column, Grouper, array, or list of the previous + Keys to group by on the pivot table column. If a list is passed, + it can contain any of the other types (except list). If an array is + passed, it must be the same length as the data and will be used in + the same manner as column values. + aggfunc : function, list of functions, dict, default "mean" + If a list of functions is passed, the resulting pivot table will have + hierarchical columns whose top level are the function names + (inferred from the function objects themselves). + If a dict is passed, the key is column to aggregate and the value is + function or list of functions. If ``margin=True``, aggfunc will be + used to calculate the partial aggregates. + fill_value : scalar, default None + Value to replace missing values with (in the resulting pivot table, + after aggregation). + margins : bool, default False + If ``margins=True``, special ``All`` columns and rows + will be added with partial group aggregates across the categories + on the rows and columns. + dropna : bool, default True + Do not include columns whose entries are all NaN. If True, + rows with a NaN value in any column will be omitted before + computing margins. + margins_name : str, default 'All' + Name of the row / column that will contain the totals + when margins is True. + observed : bool, default False + This only applies if any of the groupers are Categoricals. + If True: only show observed values for categorical groupers. + If False: show all values for categorical groupers. + + .. deprecated:: 2.2.0 + + The default value of ``False`` is deprecated and will change to + ``True`` in a future version of pandas. + + sort : bool, default True + Specifies if the result should be sorted. + + .. versionadded:: 1.3.0 + + Returns + ------- + DataFrame + An Excel style pivot table. + + See Also + -------- + DataFrame.pivot : Pivot without aggregation that can handle + non-numeric data. + DataFrame.melt: Unpivot a DataFrame from wide to long format, + optionally leaving identifiers set. + wide_to_long : Wide panel to long format. Less flexible but more + user-friendly than melt. + + Notes + ----- + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> df = pd.DataFrame({"A": ["foo", "foo", "foo", "foo", "foo", + ... "bar", "bar", "bar", "bar"], + ... "B": ["one", "one", "one", "two", "two", + ... "one", "one", "two", "two"], + ... "C": ["small", "large", "large", "small", + ... "small", "large", "small", "small", + ... "large"], + ... "D": [1, 2, 2, 3, 3, 4, 5, 6, 7], + ... "E": [2, 4, 5, 5, 6, 6, 8, 9, 9]}) + >>> df + A B C D E + 0 foo one small 1 2 + 1 foo one large 2 4 + 2 foo one large 2 5 + 3 foo two small 3 5 + 4 foo two small 3 6 + 5 bar one large 4 6 + 6 bar one small 5 8 + 7 bar two small 6 9 + 8 bar two large 7 9 + + This first example aggregates values by taking the sum. + + >>> table = pd.pivot_table(df, values='D', index=['A', 'B'], + ... columns=['C'], aggfunc="sum") + >>> table + C large small + A B + bar one 4.0 5.0 + two 7.0 6.0 + foo one 4.0 1.0 + two NaN 6.0 + + We can also fill missing values using the `fill_value` parameter. + + >>> table = pd.pivot_table(df, values='D', index=['A', 'B'], + ... columns=['C'], aggfunc="sum", fill_value=0) + >>> table + C large small + A B + bar one 4 5 + two 7 6 + foo one 4 1 + two 0 6 + + The next example aggregates by taking the mean across multiple columns. + + >>> table = pd.pivot_table(df, values=['D', 'E'], index=['A', 'C'], + ... aggfunc={'D': "mean", 'E': "mean"}) + >>> table + D E + A C + bar large 5.500000 7.500000 + small 5.500000 8.500000 + foo large 2.000000 4.500000 + small 2.333333 4.333333 + + We can also calculate multiple types of aggregations for any given + value column. + + >>> table = pd.pivot_table(df, values=['D', 'E'], index=['A', 'C'], + ... aggfunc={'D': "mean", + ... 'E': ["min", "max", "mean"]}) + >>> table + D E + mean max mean min + A C + bar large 5.500000 9 7.500000 6 + small 5.500000 9 8.500000 8 + foo large 2.000000 5 4.500000 4 + small 2.333333 6 4.333333 2 + """ + + @Substitution("") + @Appender(_shared_docs["pivot_table"]) + def pivot_table( + self, + values=None, + index=None, + columns=None, + aggfunc: AggFuncType = "mean", + fill_value=None, + margins: bool = False, + dropna: bool = True, + margins_name: Level = "All", + observed: bool | lib.NoDefault = lib.no_default, + sort: bool = True, + ) -> DataFrame: + from pandas.core.reshape.pivot import pivot_table + + return pivot_table( + self, + values=values, + index=index, + columns=columns, + aggfunc=aggfunc, + fill_value=fill_value, + margins=margins, + dropna=dropna, + margins_name=margins_name, + observed=observed, + sort=sort, + ) + + def stack( + self, + level: IndexLabel = -1, + dropna: bool | lib.NoDefault = lib.no_default, + sort: bool | lib.NoDefault = lib.no_default, + future_stack: bool = False, + ): + """ + Stack the prescribed level(s) from columns to index. + + Return a reshaped DataFrame or Series having a multi-level + index with one or more new inner-most levels compared to the current + DataFrame. The new inner-most levels are created by pivoting the + columns of the current dataframe: + + - if the columns have a single level, the output is a Series; + - if the columns have multiple levels, the new index + level(s) is (are) taken from the prescribed level(s) and + the output is a DataFrame. + + Parameters + ---------- + level : int, str, list, default -1 + Level(s) to stack from the column axis onto the index + axis, defined as one index or label, or a list of indices + or labels. + dropna : bool, default True + Whether to drop rows in the resulting Frame/Series with + missing values. Stacking a column level onto the index + axis can create combinations of index and column values + that are missing from the original dataframe. See Examples + section. + sort : bool, default True + Whether to sort the levels of the resulting MultiIndex. + future_stack : bool, default False + Whether to use the new implementation that will replace the current + implementation in pandas 3.0. When True, dropna and sort have no impact + on the result and must remain unspecified. See :ref:`pandas 2.1.0 Release + notes ` for more details. + + Returns + ------- + DataFrame or Series + Stacked dataframe or series. + + See Also + -------- + DataFrame.unstack : Unstack prescribed level(s) from index axis + onto column axis. + DataFrame.pivot : Reshape dataframe from long format to wide + format. + DataFrame.pivot_table : Create a spreadsheet-style pivot table + as a DataFrame. + + Notes + ----- + The function is named by analogy with a collection of books + being reorganized from being side by side on a horizontal + position (the columns of the dataframe) to being stacked + vertically on top of each other (in the index of the + dataframe). + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + **Single level columns** + + >>> df_single_level_cols = pd.DataFrame([[0, 1], [2, 3]], + ... index=['cat', 'dog'], + ... columns=['weight', 'height']) + + Stacking a dataframe with a single level column axis returns a Series: + + >>> df_single_level_cols + weight height + cat 0 1 + dog 2 3 + >>> df_single_level_cols.stack(future_stack=True) + cat weight 0 + height 1 + dog weight 2 + height 3 + dtype: int64 + + **Multi level columns: simple case** + + >>> multicol1 = pd.MultiIndex.from_tuples([('weight', 'kg'), + ... ('weight', 'pounds')]) + >>> df_multi_level_cols1 = pd.DataFrame([[1, 2], [2, 4]], + ... index=['cat', 'dog'], + ... columns=multicol1) + + Stacking a dataframe with a multi-level column axis: + + >>> df_multi_level_cols1 + weight + kg pounds + cat 1 2 + dog 2 4 + >>> df_multi_level_cols1.stack(future_stack=True) + weight + cat kg 1 + pounds 2 + dog kg 2 + pounds 4 + + **Missing values** + + >>> multicol2 = pd.MultiIndex.from_tuples([('weight', 'kg'), + ... ('height', 'm')]) + >>> df_multi_level_cols2 = pd.DataFrame([[1.0, 2.0], [3.0, 4.0]], + ... index=['cat', 'dog'], + ... columns=multicol2) + + It is common to have missing values when stacking a dataframe + with multi-level columns, as the stacked dataframe typically + has more values than the original dataframe. Missing values + are filled with NaNs: + + >>> df_multi_level_cols2 + weight height + kg m + cat 1.0 2.0 + dog 3.0 4.0 + >>> df_multi_level_cols2.stack(future_stack=True) + weight height + cat kg 1.0 NaN + m NaN 2.0 + dog kg 3.0 NaN + m NaN 4.0 + + **Prescribing the level(s) to be stacked** + + The first parameter controls which level or levels are stacked: + + >>> df_multi_level_cols2.stack(0, future_stack=True) + kg m + cat weight 1.0 NaN + height NaN 2.0 + dog weight 3.0 NaN + height NaN 4.0 + >>> df_multi_level_cols2.stack([0, 1], future_stack=True) + cat weight kg 1.0 + height m 2.0 + dog weight kg 3.0 + height m 4.0 + dtype: float64 + """ + if not future_stack: + from pandas.core.reshape.reshape import ( + stack, + stack_multiple, + ) + + if ( + dropna is not lib.no_default + or sort is not lib.no_default + or self.columns.nlevels > 1 + ): + warnings.warn( + "The previous implementation of stack is deprecated and will be " + "removed in a future version of pandas. See the What's New notes " + "for pandas 2.1.0 for details. Specify future_stack=True to adopt " + "the new implementation and silence this warning.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if dropna is lib.no_default: + dropna = True + if sort is lib.no_default: + sort = True + + if isinstance(level, (tuple, list)): + result = stack_multiple(self, level, dropna=dropna, sort=sort) + else: + result = stack(self, level, dropna=dropna, sort=sort) + else: + from pandas.core.reshape.reshape import stack_v3 + + if dropna is not lib.no_default: + raise ValueError( + "dropna must be unspecified with future_stack=True as the new " + "implementation does not introduce rows of NA values. This " + "argument will be removed in a future version of pandas." + ) + + if sort is not lib.no_default: + raise ValueError( + "Cannot specify sort with future_stack=True, this argument will be " + "removed in a future version of pandas. Sort the result using " + ".sort_index instead." + ) + + if ( + isinstance(level, (tuple, list)) + and not all(lev in self.columns.names for lev in level) + and not all(isinstance(lev, int) for lev in level) + ): + raise ValueError( + "level should contain all level names or all level " + "numbers, not a mixture of the two." + ) + + if not isinstance(level, (tuple, list)): + level = [level] + level = [self.columns._get_level_number(lev) for lev in level] + result = stack_v3(self, level) + + return result.__finalize__(self, method="stack") + + def explode( + self, + column: IndexLabel, + ignore_index: bool = False, + ) -> DataFrame: + """ + Transform each element of a list-like to a row, replicating index values. + + Parameters + ---------- + column : IndexLabel + Column(s) to explode. + For multiple columns, specify a non-empty list with each element + be str or tuple, and all specified columns their list-like data + on same row of the frame must have matching length. + + .. versionadded:: 1.3.0 + Multi-column explode + + ignore_index : bool, default False + If True, the resulting index will be labeled 0, 1, …, n - 1. + + Returns + ------- + DataFrame + Exploded lists to rows of the subset columns; + index will be duplicated for these rows. + + Raises + ------ + ValueError : + * If columns of the frame are not unique. + * If specified columns to explode is empty list. + * If specified columns to explode have not matching count of + elements rowwise in the frame. + + See Also + -------- + DataFrame.unstack : Pivot a level of the (necessarily hierarchical) + index labels. + DataFrame.melt : Unpivot a DataFrame from wide format to long format. + Series.explode : Explode a DataFrame from list-like columns to long format. + + Notes + ----- + This routine will explode list-likes including lists, tuples, sets, + Series, and np.ndarray. The result dtype of the subset rows will + be object. Scalars will be returned unchanged, and empty list-likes will + result in a np.nan for that row. In addition, the ordering of rows in the + output will be non-deterministic when exploding sets. + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> df = pd.DataFrame({'A': [[0, 1, 2], 'foo', [], [3, 4]], + ... 'B': 1, + ... 'C': [['a', 'b', 'c'], np.nan, [], ['d', 'e']]}) + >>> df + A B C + 0 [0, 1, 2] 1 [a, b, c] + 1 foo 1 NaN + 2 [] 1 [] + 3 [3, 4] 1 [d, e] + + Single-column explode. + + >>> df.explode('A') + A B C + 0 0 1 [a, b, c] + 0 1 1 [a, b, c] + 0 2 1 [a, b, c] + 1 foo 1 NaN + 2 NaN 1 [] + 3 3 1 [d, e] + 3 4 1 [d, e] + + Multi-column explode. + + >>> df.explode(list('AC')) + A B C + 0 0 1 a + 0 1 1 b + 0 2 1 c + 1 foo 1 NaN + 2 NaN 1 NaN + 3 3 1 d + 3 4 1 e + """ + if not self.columns.is_unique: + duplicate_cols = self.columns[self.columns.duplicated()].tolist() + raise ValueError( + f"DataFrame columns must be unique. Duplicate columns: {duplicate_cols}" + ) + + columns: list[Hashable] + if is_scalar(column) or isinstance(column, tuple): + columns = [column] + elif isinstance(column, list) and all( + is_scalar(c) or isinstance(c, tuple) for c in column + ): + if not column: + raise ValueError("column must be nonempty") + if len(column) > len(set(column)): + raise ValueError("column must be unique") + columns = column + else: + raise ValueError("column must be a scalar, tuple, or list thereof") + + df = self.reset_index(drop=True) + if len(columns) == 1: + result = df[columns[0]].explode() + else: + mylen = lambda x: len(x) if (is_list_like(x) and len(x) > 0) else 1 + counts0 = self[columns[0]].apply(mylen) + for c in columns[1:]: + if not all(counts0 == self[c].apply(mylen)): + raise ValueError("columns must have matching element counts") + result = DataFrame({c: df[c].explode() for c in columns}) + result = df.drop(columns, axis=1).join(result) + if ignore_index: + result.index = default_index(len(result)) + else: + result.index = self.index.take(result.index) + result = result.reindex(columns=self.columns, copy=False) + + return result.__finalize__(self, method="explode") + + def unstack(self, level: IndexLabel = -1, fill_value=None, sort: bool = True): + """ + Pivot a level of the (necessarily hierarchical) index labels. + + Returns a DataFrame having a new level of column labels whose inner-most level + consists of the pivoted index labels. + + If the index is not a MultiIndex, the output will be a Series + (the analogue of stack when the columns are not a MultiIndex). + + Parameters + ---------- + level : int, str, or list of these, default -1 (last level) + Level(s) of index to unstack, can pass level name. + fill_value : int, str or dict + Replace NaN with this value if the unstack produces missing values. + sort : bool, default True + Sort the level(s) in the resulting MultiIndex columns. + + Returns + ------- + Series or DataFrame + + See Also + -------- + DataFrame.pivot : Pivot a table based on column values. + DataFrame.stack : Pivot a level of the column labels (inverse operation + from `unstack`). + + Notes + ----- + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> index = pd.MultiIndex.from_tuples([('one', 'a'), ('one', 'b'), + ... ('two', 'a'), ('two', 'b')]) + >>> s = pd.Series(np.arange(1.0, 5.0), index=index) + >>> s + one a 1.0 + b 2.0 + two a 3.0 + b 4.0 + dtype: float64 + + >>> s.unstack(level=-1) + a b + one 1.0 2.0 + two 3.0 4.0 + + >>> s.unstack(level=0) + one two + a 1.0 3.0 + b 2.0 4.0 + + >>> df = s.unstack(level=0) + >>> df.unstack() + one a 1.0 + b 2.0 + two a 3.0 + b 4.0 + dtype: float64 + """ + from pandas.core.reshape.reshape import unstack + + result = unstack(self, level, fill_value, sort) + + return result.__finalize__(self, method="unstack") + + @Appender(_shared_docs["melt"] % {"caller": "df.melt(", "other": "melt"}) + def melt( + self, + id_vars=None, + value_vars=None, + var_name=None, + value_name: Hashable = "value", + col_level: Level | None = None, + ignore_index: bool = True, + ) -> DataFrame: + return melt( + self, + id_vars=id_vars, + value_vars=value_vars, + var_name=var_name, + value_name=value_name, + col_level=col_level, + ignore_index=ignore_index, + ).__finalize__(self, method="melt") + + # ---------------------------------------------------------------------- + # Time series-related + + @doc( + Series.diff, + klass="DataFrame", + extra_params="axis : {0 or 'index', 1 or 'columns'}, default 0\n " + "Take difference over rows (0) or columns (1).\n", + other_klass="Series", + examples=dedent( + """ + Difference with previous row + + >>> df = pd.DataFrame({'a': [1, 2, 3, 4, 5, 6], + ... 'b': [1, 1, 2, 3, 5, 8], + ... 'c': [1, 4, 9, 16, 25, 36]}) + >>> df + a b c + 0 1 1 1 + 1 2 1 4 + 2 3 2 9 + 3 4 3 16 + 4 5 5 25 + 5 6 8 36 + + >>> df.diff() + a b c + 0 NaN NaN NaN + 1 1.0 0.0 3.0 + 2 1.0 1.0 5.0 + 3 1.0 1.0 7.0 + 4 1.0 2.0 9.0 + 5 1.0 3.0 11.0 + + Difference with previous column + + >>> df.diff(axis=1) + a b c + 0 NaN 0 0 + 1 NaN -1 3 + 2 NaN -1 7 + 3 NaN -1 13 + 4 NaN 0 20 + 5 NaN 2 28 + + Difference with 3rd previous row + + >>> df.diff(periods=3) + a b c + 0 NaN NaN NaN + 1 NaN NaN NaN + 2 NaN NaN NaN + 3 3.0 2.0 15.0 + 4 3.0 4.0 21.0 + 5 3.0 6.0 27.0 + + Difference with following row + + >>> df.diff(periods=-1) + a b c + 0 -1.0 0.0 -3.0 + 1 -1.0 -1.0 -5.0 + 2 -1.0 -1.0 -7.0 + 3 -1.0 -2.0 -9.0 + 4 -1.0 -3.0 -11.0 + 5 NaN NaN NaN + + Overflow in input dtype + + >>> df = pd.DataFrame({'a': [1, 0]}, dtype=np.uint8) + >>> df.diff() + a + 0 NaN + 1 255.0""" + ), + ) + def diff(self, periods: int = 1, axis: Axis = 0) -> DataFrame: + if not lib.is_integer(periods): + if not (is_float(periods) and periods.is_integer()): + raise ValueError("periods must be an integer") + periods = int(periods) + + axis = self._get_axis_number(axis) + if axis == 1: + if periods != 0: + # in the periods == 0 case, this is equivalent diff of 0 periods + # along axis=0, and the Manager method may be somewhat more + # performant, so we dispatch in that case. + return self - self.shift(periods, axis=axis) + # With periods=0 this is equivalent to a diff with axis=0 + axis = 0 + + new_data = self._mgr.diff(n=periods) + res_df = self._constructor_from_mgr(new_data, axes=new_data.axes) + return res_df.__finalize__(self, "diff") + + # ---------------------------------------------------------------------- + # Function application + + def _gotitem( + self, + key: IndexLabel, + ndim: int, + subset: DataFrame | Series | None = None, + ) -> DataFrame | Series: + """ + Sub-classes to define. Return a sliced object. + + Parameters + ---------- + key : string / list of selections + ndim : {1, 2} + requested ndim of result + subset : object, default None + subset to act on + """ + if subset is None: + subset = self + elif subset.ndim == 1: # is Series + return subset + + # TODO: _shallow_copy(subset)? + return subset[key] + + _agg_see_also_doc = dedent( + """ + See Also + -------- + DataFrame.apply : Perform any type of operations. + DataFrame.transform : Perform transformation type operations. + pandas.DataFrame.groupby : Perform operations over groups. + pandas.DataFrame.resample : Perform operations over resampled bins. + pandas.DataFrame.rolling : Perform operations over rolling window. + pandas.DataFrame.expanding : Perform operations over expanding window. + pandas.core.window.ewm.ExponentialMovingWindow : Perform operation over exponential + weighted window. + """ + ) + + _agg_examples_doc = dedent( + """ + Examples + -------- + >>> df = pd.DataFrame([[1, 2, 3], + ... [4, 5, 6], + ... [7, 8, 9], + ... [np.nan, np.nan, np.nan]], + ... columns=['A', 'B', 'C']) + + Aggregate these functions over the rows. + + >>> df.agg(['sum', 'min']) + A B C + sum 12.0 15.0 18.0 + min 1.0 2.0 3.0 + + Different aggregations per column. + + >>> df.agg({'A' : ['sum', 'min'], 'B' : ['min', 'max']}) + A B + sum 12.0 NaN + min 1.0 2.0 + max NaN 8.0 + + Aggregate different functions over the columns and rename the index of the resulting + DataFrame. + + >>> df.agg(x=('A', 'max'), y=('B', 'min'), z=('C', 'mean')) + A B C + x 7.0 NaN NaN + y NaN 2.0 NaN + z NaN NaN 6.0 + + Aggregate over the columns. + + >>> df.agg("mean", axis="columns") + 0 2.0 + 1 5.0 + 2 8.0 + 3 NaN + dtype: float64 + """ + ) + + @doc( + _shared_docs["aggregate"], + klass=_shared_doc_kwargs["klass"], + axis=_shared_doc_kwargs["axis"], + see_also=_agg_see_also_doc, + examples=_agg_examples_doc, + ) + def aggregate(self, func=None, axis: Axis = 0, *args, **kwargs): + from pandas.core.apply import frame_apply + + axis = self._get_axis_number(axis) + + op = frame_apply(self, func=func, axis=axis, args=args, kwargs=kwargs) + result = op.agg() + result = reconstruct_and_relabel_result(result, func, **kwargs) + return result + + agg = aggregate + + @doc( + _shared_docs["transform"], + klass=_shared_doc_kwargs["klass"], + axis=_shared_doc_kwargs["axis"], + ) + def transform( + self, func: AggFuncType, axis: Axis = 0, *args, **kwargs + ) -> DataFrame: + from pandas.core.apply import frame_apply + + op = frame_apply(self, func=func, axis=axis, args=args, kwargs=kwargs) + result = op.transform() + assert isinstance(result, DataFrame) + return result + + def apply( + self, + func: AggFuncType, + axis: Axis = 0, + raw: bool = False, + result_type: Literal["expand", "reduce", "broadcast"] | None = None, + args=(), + by_row: Literal[False, "compat"] = "compat", + engine: Literal["python", "numba"] = "python", + engine_kwargs: dict[str, bool] | None = None, + **kwargs, + ): + """ + Apply a function along an axis of the DataFrame. + + Objects passed to the function are Series objects whose index is + either the DataFrame's index (``axis=0``) or the DataFrame's columns + (``axis=1``). By default (``result_type=None``), the final return type + is inferred from the return type of the applied function. Otherwise, + it depends on the `result_type` argument. + + Parameters + ---------- + func : function + Function to apply to each column or row. + axis : {0 or 'index', 1 or 'columns'}, default 0 + Axis along which the function is applied: + + * 0 or 'index': apply function to each column. + * 1 or 'columns': apply function to each row. + + raw : bool, default False + Determines if row or column is passed as a Series or ndarray object: + + * ``False`` : passes each row or column as a Series to the + function. + * ``True`` : the passed function will receive ndarray objects + instead. + If you are just applying a NumPy reduction function this will + achieve much better performance. + + result_type : {'expand', 'reduce', 'broadcast', None}, default None + These only act when ``axis=1`` (columns): + + * 'expand' : list-like results will be turned into columns. + * 'reduce' : returns a Series if possible rather than expanding + list-like results. This is the opposite of 'expand'. + * 'broadcast' : results will be broadcast to the original shape + of the DataFrame, the original index and columns will be + retained. + + The default behaviour (None) depends on the return value of the + applied function: list-like results will be returned as a Series + of those. However if the apply function returns a Series these + are expanded to columns. + args : tuple + Positional arguments to pass to `func` in addition to the + array/series. + by_row : False or "compat", default "compat" + Only has an effect when ``func`` is a listlike or dictlike of funcs + and the func isn't a string. + If "compat", will if possible first translate the func into pandas + methods (e.g. ``Series().apply(np.sum)`` will be translated to + ``Series().sum()``). If that doesn't work, will try call to apply again with + ``by_row=True`` and if that fails, will call apply again with + ``by_row=False`` (backward compatible). + If False, the funcs will be passed the whole Series at once. + + .. versionadded:: 2.1.0 + + engine : {'python', 'numba'}, default 'python' + Choose between the python (default) engine or the numba engine in apply. + + The numba engine will attempt to JIT compile the passed function, + which may result in speedups for large DataFrames. + It also supports the following engine_kwargs : + + - nopython (compile the function in nopython mode) + - nogil (release the GIL inside the JIT compiled function) + - parallel (try to apply the function in parallel over the DataFrame) + + Note: Due to limitations within numba/how pandas interfaces with numba, + you should only use this if raw=True + + Note: The numba compiler only supports a subset of + valid Python/numpy operations. + + Please read more about the `supported python features + `_ + and `supported numpy features + `_ + in numba to learn what you can or cannot use in the passed function. + + .. versionadded:: 2.2.0 + + engine_kwargs : dict + Pass keyword arguments to the engine. + This is currently only used by the numba engine, + see the documentation for the engine argument for more information. + **kwargs + Additional keyword arguments to pass as keywords arguments to + `func`. + + Returns + ------- + Series or DataFrame + Result of applying ``func`` along the given axis of the + DataFrame. + + See Also + -------- + DataFrame.map: For elementwise operations. + DataFrame.aggregate: Only perform aggregating type operations. + DataFrame.transform: Only perform transforming type operations. + + Notes + ----- + Functions that mutate the passed object can produce unexpected + behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` + for more details. + + Examples + -------- + >>> df = pd.DataFrame([[4, 9]] * 3, columns=['A', 'B']) + >>> df + A B + 0 4 9 + 1 4 9 + 2 4 9 + + Using a numpy universal function (in this case the same as + ``np.sqrt(df)``): + + >>> df.apply(np.sqrt) + A B + 0 2.0 3.0 + 1 2.0 3.0 + 2 2.0 3.0 + + Using a reducing function on either axis + + >>> df.apply(np.sum, axis=0) + A 12 + B 27 + dtype: int64 + + >>> df.apply(np.sum, axis=1) + 0 13 + 1 13 + 2 13 + dtype: int64 + + Returning a list-like will result in a Series + + >>> df.apply(lambda x: [1, 2], axis=1) + 0 [1, 2] + 1 [1, 2] + 2 [1, 2] + dtype: object + + Passing ``result_type='expand'`` will expand list-like results + to columns of a Dataframe + + >>> df.apply(lambda x: [1, 2], axis=1, result_type='expand') + 0 1 + 0 1 2 + 1 1 2 + 2 1 2 + + Returning a Series inside the function is similar to passing + ``result_type='expand'``. The resulting column names + will be the Series index. + + >>> df.apply(lambda x: pd.Series([1, 2], index=['foo', 'bar']), axis=1) + foo bar + 0 1 2 + 1 1 2 + 2 1 2 + + Passing ``result_type='broadcast'`` will ensure the same shape + result, whether list-like or scalar is returned by the function, + and broadcast it along the axis. The resulting column names will + be the originals. + + >>> df.apply(lambda x: [1, 2], axis=1, result_type='broadcast') + A B + 0 1 2 + 1 1 2 + 2 1 2 + """ + from pandas.core.apply import frame_apply + + op = frame_apply( + self, + func=func, + axis=axis, + raw=raw, + result_type=result_type, + by_row=by_row, + engine=engine, + engine_kwargs=engine_kwargs, + args=args, + kwargs=kwargs, + ) + return op.apply().__finalize__(self, method="apply") + + def map( + self, func: PythonFuncType, na_action: str | None = None, **kwargs + ) -> DataFrame: + """ + Apply a function to a Dataframe elementwise. + + .. versionadded:: 2.1.0 + + DataFrame.applymap was deprecated and renamed to DataFrame.map. + + This method applies a function that accepts and returns a scalar + to every element of a DataFrame. + + Parameters + ---------- + func : callable + Python function, returns a single value from a single value. + na_action : {None, 'ignore'}, default None + If 'ignore', propagate NaN values, without passing them to func. + **kwargs + Additional keyword arguments to pass as keywords arguments to + `func`. + + Returns + ------- + DataFrame + Transformed DataFrame. + + See Also + -------- + DataFrame.apply : Apply a function along input axis of DataFrame. + DataFrame.replace: Replace values given in `to_replace` with `value`. + Series.map : Apply a function elementwise on a Series. + + Examples + -------- + >>> df = pd.DataFrame([[1, 2.12], [3.356, 4.567]]) + >>> df + 0 1 + 0 1.000 2.120 + 1 3.356 4.567 + + >>> df.map(lambda x: len(str(x))) + 0 1 + 0 3 4 + 1 5 5 + + Like Series.map, NA values can be ignored: + + >>> df_copy = df.copy() + >>> df_copy.iloc[0, 0] = pd.NA + >>> df_copy.map(lambda x: len(str(x)), na_action='ignore') + 0 1 + 0 NaN 4 + 1 5.0 5 + + It is also possible to use `map` with functions that are not + `lambda` functions: + + >>> df.map(round, ndigits=1) + 0 1 + 0 1.0 2.1 + 1 3.4 4.6 + + Note that a vectorized version of `func` often exists, which will + be much faster. You could square each number elementwise. + + >>> df.map(lambda x: x**2) + 0 1 + 0 1.000000 4.494400 + 1 11.262736 20.857489 + + But it's better to avoid map in that case. + + >>> df ** 2 + 0 1 + 0 1.000000 4.494400 + 1 11.262736 20.857489 + """ + if na_action not in {"ignore", None}: + raise ValueError( + f"na_action must be 'ignore' or None. Got {repr(na_action)}" + ) + + if self.empty: + return self.copy() + + func = functools.partial(func, **kwargs) + + def infer(x): + return x._map_values(func, na_action=na_action) + + return self.apply(infer).__finalize__(self, "map") + + def applymap( + self, func: PythonFuncType, na_action: NaAction | None = None, **kwargs + ) -> DataFrame: + """ + Apply a function to a Dataframe elementwise. + + .. deprecated:: 2.1.0 + + DataFrame.applymap has been deprecated. Use DataFrame.map instead. + + This method applies a function that accepts and returns a scalar + to every element of a DataFrame. + + Parameters + ---------- + func : callable + Python function, returns a single value from a single value. + na_action : {None, 'ignore'}, default None + If 'ignore', propagate NaN values, without passing them to func. + **kwargs + Additional keyword arguments to pass as keywords arguments to + `func`. + + Returns + ------- + DataFrame + Transformed DataFrame. + + See Also + -------- + DataFrame.apply : Apply a function along input axis of DataFrame. + DataFrame.map : Apply a function along input axis of DataFrame. + DataFrame.replace: Replace values given in `to_replace` with `value`. + + Examples + -------- + >>> df = pd.DataFrame([[1, 2.12], [3.356, 4.567]]) + >>> df + 0 1 + 0 1.000 2.120 + 1 3.356 4.567 + + >>> df.map(lambda x: len(str(x))) + 0 1 + 0 3 4 + 1 5 5 + """ + warnings.warn( + "DataFrame.applymap has been deprecated. Use DataFrame.map instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.map(func, na_action=na_action, **kwargs) + + # ---------------------------------------------------------------------- + # Merging / joining methods + + def _append( + self, + other, + ignore_index: bool = False, + verify_integrity: bool = False, + sort: bool = False, + ) -> DataFrame: + if isinstance(other, (Series, dict)): + if isinstance(other, dict): + if not ignore_index: + raise TypeError("Can only append a dict if ignore_index=True") + other = Series(other) + if other.name is None and not ignore_index: + raise TypeError( + "Can only append a Series if ignore_index=True " + "or if the Series has a name" + ) + + index = Index( + [other.name], + name=self.index.names + if isinstance(self.index, MultiIndex) + else self.index.name, + ) + row_df = other.to_frame().T + # infer_objects is needed for + # test_append_empty_frame_to_series_with_dateutil_tz + other = row_df.infer_objects(copy=False).rename_axis( + index.names, copy=False + ) + elif isinstance(other, list): + if not other: + pass + elif not isinstance(other[0], DataFrame): + other = DataFrame(other) + if self.index.name is not None and not ignore_index: + other.index.name = self.index.name + + from pandas.core.reshape.concat import concat + + if isinstance(other, (list, tuple)): + to_concat = [self, *other] + else: + to_concat = [self, other] + + result = concat( + to_concat, + ignore_index=ignore_index, + verify_integrity=verify_integrity, + sort=sort, + ) + return result.__finalize__(self, method="append") + + def join( + self, + other: DataFrame | Series | Iterable[DataFrame | Series], + on: IndexLabel | None = None, + how: MergeHow = "left", + lsuffix: str = "", + rsuffix: str = "", + sort: bool = False, + validate: JoinValidate | None = None, + ) -> DataFrame: + """ + Join columns of another DataFrame. + + Join columns with `other` DataFrame either on index or on a key + column. Efficiently join multiple DataFrame objects by index at once by + passing a list. + + Parameters + ---------- + other : DataFrame, Series, or a list containing any combination of them + Index should be similar to one of the columns in this one. If a + Series is passed, its name attribute must be set, and that will be + used as the column name in the resulting joined DataFrame. + on : str, list of str, or array-like, optional + Column or index level name(s) in the caller to join on the index + in `other`, otherwise joins index-on-index. If multiple + values given, the `other` DataFrame must have a MultiIndex. Can + pass an array as the join key if it is not already contained in + the calling DataFrame. Like an Excel VLOOKUP operation. + how : {'left', 'right', 'outer', 'inner', 'cross'}, default 'left' + How to handle the operation of the two objects. + + * left: use calling frame's index (or column if on is specified) + * right: use `other`'s index. + * outer: form union of calling frame's index (or column if on is + specified) with `other`'s index, and sort it lexicographically. + * inner: form intersection of calling frame's index (or column if + on is specified) with `other`'s index, preserving the order + of the calling's one. + * cross: creates the cartesian product from both frames, preserves the order + of the left keys. + lsuffix : str, default '' + Suffix to use from left frame's overlapping columns. + rsuffix : str, default '' + Suffix to use from right frame's overlapping columns. + sort : bool, default False + Order result DataFrame lexicographically by the join key. If False, + the order of the join key depends on the join type (how keyword). + validate : str, optional + If specified, checks if join is of specified type. + + * "one_to_one" or "1:1": check if join keys are unique in both left + and right datasets. + * "one_to_many" or "1:m": check if join keys are unique in left dataset. + * "many_to_one" or "m:1": check if join keys are unique in right dataset. + * "many_to_many" or "m:m": allowed, but does not result in checks. + + .. versionadded:: 1.5.0 + + Returns + ------- + DataFrame + A dataframe containing columns from both the caller and `other`. + + See Also + -------- + DataFrame.merge : For column(s)-on-column(s) operations. + + Notes + ----- + Parameters `on`, `lsuffix`, and `rsuffix` are not supported when + passing a list of `DataFrame` objects. + + Examples + -------- + >>> df = pd.DataFrame({'key': ['K0', 'K1', 'K2', 'K3', 'K4', 'K5'], + ... 'A': ['A0', 'A1', 'A2', 'A3', 'A4', 'A5']}) + + >>> df + key A + 0 K0 A0 + 1 K1 A1 + 2 K2 A2 + 3 K3 A3 + 4 K4 A4 + 5 K5 A5 + + >>> other = pd.DataFrame({'key': ['K0', 'K1', 'K2'], + ... 'B': ['B0', 'B1', 'B2']}) + + >>> other + key B + 0 K0 B0 + 1 K1 B1 + 2 K2 B2 + + Join DataFrames using their indexes. + + >>> df.join(other, lsuffix='_caller', rsuffix='_other') + key_caller A key_other B + 0 K0 A0 K0 B0 + 1 K1 A1 K1 B1 + 2 K2 A2 K2 B2 + 3 K3 A3 NaN NaN + 4 K4 A4 NaN NaN + 5 K5 A5 NaN NaN + + If we want to join using the key columns, we need to set key to be + the index in both `df` and `other`. The joined DataFrame will have + key as its index. + + >>> df.set_index('key').join(other.set_index('key')) + A B + key + K0 A0 B0 + K1 A1 B1 + K2 A2 B2 + K3 A3 NaN + K4 A4 NaN + K5 A5 NaN + + Another option to join using the key columns is to use the `on` + parameter. DataFrame.join always uses `other`'s index but we can use + any column in `df`. This method preserves the original DataFrame's + index in the result. + + >>> df.join(other.set_index('key'), on='key') + key A B + 0 K0 A0 B0 + 1 K1 A1 B1 + 2 K2 A2 B2 + 3 K3 A3 NaN + 4 K4 A4 NaN + 5 K5 A5 NaN + + Using non-unique key values shows how they are matched. + + >>> df = pd.DataFrame({'key': ['K0', 'K1', 'K1', 'K3', 'K0', 'K1'], + ... 'A': ['A0', 'A1', 'A2', 'A3', 'A4', 'A5']}) + + >>> df + key A + 0 K0 A0 + 1 K1 A1 + 2 K1 A2 + 3 K3 A3 + 4 K0 A4 + 5 K1 A5 + + >>> df.join(other.set_index('key'), on='key', validate='m:1') + key A B + 0 K0 A0 B0 + 1 K1 A1 B1 + 2 K1 A2 B1 + 3 K3 A3 NaN + 4 K0 A4 B0 + 5 K1 A5 B1 + """ + from pandas.core.reshape.concat import concat + from pandas.core.reshape.merge import merge + + if isinstance(other, Series): + if other.name is None: + raise ValueError("Other Series must have a name") + other = DataFrame({other.name: other}) + + if isinstance(other, DataFrame): + if how == "cross": + return merge( + self, + other, + how=how, + on=on, + suffixes=(lsuffix, rsuffix), + sort=sort, + validate=validate, + ) + return merge( + self, + other, + left_on=on, + how=how, + left_index=on is None, + right_index=True, + suffixes=(lsuffix, rsuffix), + sort=sort, + validate=validate, + ) + else: + if on is not None: + raise ValueError( + "Joining multiple DataFrames only supported for joining on index" + ) + + if rsuffix or lsuffix: + raise ValueError( + "Suffixes not supported when joining multiple DataFrames" + ) + + # Mypy thinks the RHS is a + # "Union[DataFrame, Series, Iterable[Union[DataFrame, Series]]]" whereas + # the LHS is an "Iterable[DataFrame]", but in reality both types are + # "Iterable[Union[DataFrame, Series]]" due to the if statements + frames = [cast("DataFrame | Series", self)] + list(other) + + can_concat = all(df.index.is_unique for df in frames) + + # join indexes only using concat + if can_concat: + if how == "left": + res = concat( + frames, axis=1, join="outer", verify_integrity=True, sort=sort + ) + return res.reindex(self.index, copy=False) + else: + return concat( + frames, axis=1, join=how, verify_integrity=True, sort=sort + ) + + joined = frames[0] + + for frame in frames[1:]: + joined = merge( + joined, + frame, + how=how, + left_index=True, + right_index=True, + validate=validate, + ) + + return joined + + @Substitution("") + @Appender(_merge_doc, indents=2) + def merge( + self, + right: DataFrame | Series, + how: MergeHow = "inner", + on: IndexLabel | AnyArrayLike | None = None, + left_on: IndexLabel | AnyArrayLike | None = None, + right_on: IndexLabel | AnyArrayLike | None = None, + left_index: bool = False, + right_index: bool = False, + sort: bool = False, + suffixes: Suffixes = ("_x", "_y"), + copy: bool | None = None, + indicator: str | bool = False, + validate: MergeValidate | None = None, + ) -> DataFrame: + from pandas.core.reshape.merge import merge + + return merge( + self, + right, + how=how, + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + sort=sort, + suffixes=suffixes, + copy=copy, + indicator=indicator, + validate=validate, + ) + + def round( + self, decimals: int | dict[IndexLabel, int] | Series = 0, *args, **kwargs + ) -> DataFrame: + """ + Round a DataFrame to a variable number of decimal places. + + Parameters + ---------- + decimals : int, dict, Series + Number of decimal places to round each column to. If an int is + given, round each column to the same number of places. + Otherwise dict and Series round to variable numbers of places. + Column names should be in the keys if `decimals` is a + dict-like, or in the index if `decimals` is a Series. Any + columns not included in `decimals` will be left as is. Elements + of `decimals` which are not columns of the input will be + ignored. + *args + Additional keywords have no effect but might be accepted for + compatibility with numpy. + **kwargs + Additional keywords have no effect but might be accepted for + compatibility with numpy. + + Returns + ------- + DataFrame + A DataFrame with the affected columns rounded to the specified + number of decimal places. + + See Also + -------- + numpy.around : Round a numpy array to the given number of decimals. + Series.round : Round a Series to the given number of decimals. + + Examples + -------- + >>> df = pd.DataFrame([(.21, .32), (.01, .67), (.66, .03), (.21, .18)], + ... columns=['dogs', 'cats']) + >>> df + dogs cats + 0 0.21 0.32 + 1 0.01 0.67 + 2 0.66 0.03 + 3 0.21 0.18 + + By providing an integer each column is rounded to the same number + of decimal places + + >>> df.round(1) + dogs cats + 0 0.2 0.3 + 1 0.0 0.7 + 2 0.7 0.0 + 3 0.2 0.2 + + With a dict, the number of places for specific columns can be + specified with the column names as key and the number of decimal + places as value + + >>> df.round({'dogs': 1, 'cats': 0}) + dogs cats + 0 0.2 0.0 + 1 0.0 1.0 + 2 0.7 0.0 + 3 0.2 0.0 + + Using a Series, the number of places for specific columns can be + specified with the column names as index and the number of + decimal places as value + + >>> decimals = pd.Series([0, 1], index=['cats', 'dogs']) + >>> df.round(decimals) + dogs cats + 0 0.2 0.0 + 1 0.0 1.0 + 2 0.7 0.0 + 3 0.2 0.0 + """ + from pandas.core.reshape.concat import concat + + def _dict_round(df: DataFrame, decimals): + for col, vals in df.items(): + try: + yield _series_round(vals, decimals[col]) + except KeyError: + yield vals + + def _series_round(ser: Series, decimals: int) -> Series: + if is_integer_dtype(ser.dtype) or is_float_dtype(ser.dtype): + return ser.round(decimals) + return ser + + nv.validate_round(args, kwargs) + + if isinstance(decimals, (dict, Series)): + if isinstance(decimals, Series) and not decimals.index.is_unique: + raise ValueError("Index of decimals must be unique") + if is_dict_like(decimals) and not all( + is_integer(value) for _, value in decimals.items() + ): + raise TypeError("Values in decimals must be integers") + new_cols = list(_dict_round(self, decimals)) + elif is_integer(decimals): + # Dispatch to Block.round + # Argument "decimals" to "round" of "BaseBlockManager" has incompatible + # type "Union[int, integer[Any]]"; expected "int" + new_mgr = self._mgr.round( + decimals=decimals, # type: ignore[arg-type] + using_cow=using_copy_on_write(), + ) + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__( + self, method="round" + ) + else: + raise TypeError("decimals must be an integer, a dict-like or a Series") + + if new_cols is not None and len(new_cols) > 0: + return self._constructor( + concat(new_cols, axis=1), index=self.index, columns=self.columns + ).__finalize__(self, method="round") + else: + return self.copy(deep=False) + + # ---------------------------------------------------------------------- + # Statistical methods, etc. + + def corr( + self, + method: CorrelationMethod = "pearson", + min_periods: int = 1, + numeric_only: bool = False, + ) -> DataFrame: + """ + Compute pairwise correlation of columns, excluding NA/null values. + + Parameters + ---------- + method : {'pearson', 'kendall', 'spearman'} or callable + Method of correlation: + + * pearson : standard correlation coefficient + * kendall : Kendall Tau correlation coefficient + * spearman : Spearman rank correlation + * callable: callable with input two 1d ndarrays + and returning a float. Note that the returned matrix from corr + will have 1 along the diagonals and will be symmetric + regardless of the callable's behavior. + min_periods : int, optional + Minimum number of observations required per pair of columns + to have a valid result. Currently only available for Pearson + and Spearman correlation. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + The default value of ``numeric_only`` is now ``False``. + + Returns + ------- + DataFrame + Correlation matrix. + + See Also + -------- + DataFrame.corrwith : Compute pairwise correlation with another + DataFrame or Series. + Series.corr : Compute the correlation between two Series. + + Notes + ----- + Pearson, Kendall and Spearman correlation are currently computed using pairwise complete observations. + + * `Pearson correlation coefficient `_ + * `Kendall rank correlation coefficient `_ + * `Spearman's rank correlation coefficient `_ + + Examples + -------- + >>> def histogram_intersection(a, b): + ... v = np.minimum(a, b).sum().round(decimals=1) + ... return v + >>> df = pd.DataFrame([(.2, .3), (.0, .6), (.6, .0), (.2, .1)], + ... columns=['dogs', 'cats']) + >>> df.corr(method=histogram_intersection) + dogs cats + dogs 1.0 0.3 + cats 0.3 1.0 + + >>> df = pd.DataFrame([(1, 1), (2, np.nan), (np.nan, 3), (4, 4)], + ... columns=['dogs', 'cats']) + >>> df.corr(min_periods=3) + dogs cats + dogs 1.0 NaN + cats NaN 1.0 + """ # noqa: E501 + data = self._get_numeric_data() if numeric_only else self + cols = data.columns + idx = cols.copy() + mat = data.to_numpy(dtype=float, na_value=np.nan, copy=False) + + if method == "pearson": + correl = libalgos.nancorr(mat, minp=min_periods) + elif method == "spearman": + correl = libalgos.nancorr_spearman(mat, minp=min_periods) + elif method == "kendall" or callable(method): + if min_periods is None: + min_periods = 1 + mat = mat.T + corrf = nanops.get_corr_func(method) + K = len(cols) + correl = np.empty((K, K), dtype=float) + mask = np.isfinite(mat) + for i, ac in enumerate(mat): + for j, bc in enumerate(mat): + if i > j: + continue + + valid = mask[i] & mask[j] + if valid.sum() < min_periods: + c = np.nan + elif i == j: + c = 1.0 + elif not valid.all(): + c = corrf(ac[valid], bc[valid]) + else: + c = corrf(ac, bc) + correl[i, j] = c + correl[j, i] = c + else: + raise ValueError( + "method must be either 'pearson', " + "'spearman', 'kendall', or a callable, " + f"'{method}' was supplied" + ) + + result = self._constructor(correl, index=idx, columns=cols, copy=False) + return result.__finalize__(self, method="corr") + + def cov( + self, + min_periods: int | None = None, + ddof: int | None = 1, + numeric_only: bool = False, + ) -> DataFrame: + """ + Compute pairwise covariance of columns, excluding NA/null values. + + Compute the pairwise covariance among the series of a DataFrame. + The returned data frame is the `covariance matrix + `__ of the columns + of the DataFrame. + + Both NA and null values are automatically excluded from the + calculation. (See the note below about bias from missing values.) + A threshold can be set for the minimum number of + observations for each value created. Comparisons with observations + below this threshold will be returned as ``NaN``. + + This method is generally used for the analysis of time series data to + understand the relationship between different measures + across time. + + Parameters + ---------- + min_periods : int, optional + Minimum number of observations required per pair of columns + to have a valid result. + + ddof : int, default 1 + Delta degrees of freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + This argument is applicable only when no ``nan`` is in the dataframe. + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + The default value of ``numeric_only`` is now ``False``. + + Returns + ------- + DataFrame + The covariance matrix of the series of the DataFrame. + + See Also + -------- + Series.cov : Compute covariance with another Series. + core.window.ewm.ExponentialMovingWindow.cov : Exponential weighted sample + covariance. + core.window.expanding.Expanding.cov : Expanding sample covariance. + core.window.rolling.Rolling.cov : Rolling sample covariance. + + Notes + ----- + Returns the covariance matrix of the DataFrame's time series. + The covariance is normalized by N-ddof. + + For DataFrames that have Series that are missing data (assuming that + data is `missing at random + `__) + the returned covariance matrix will be an unbiased estimate + of the variance and covariance between the member Series. + + However, for many applications this estimate may not be acceptable + because the estimate covariance matrix is not guaranteed to be positive + semi-definite. This could lead to estimate correlations having + absolute values which are greater than one, and/or a non-invertible + covariance matrix. See `Estimation of covariance matrices + `__ for more details. + + Examples + -------- + >>> df = pd.DataFrame([(1, 2), (0, 3), (2, 0), (1, 1)], + ... columns=['dogs', 'cats']) + >>> df.cov() + dogs cats + dogs 0.666667 -1.000000 + cats -1.000000 1.666667 + + >>> np.random.seed(42) + >>> df = pd.DataFrame(np.random.randn(1000, 5), + ... columns=['a', 'b', 'c', 'd', 'e']) + >>> df.cov() + a b c d e + a 0.998438 -0.020161 0.059277 -0.008943 0.014144 + b -0.020161 1.059352 -0.008543 -0.024738 0.009826 + c 0.059277 -0.008543 1.010670 -0.001486 -0.000271 + d -0.008943 -0.024738 -0.001486 0.921297 -0.013692 + e 0.014144 0.009826 -0.000271 -0.013692 0.977795 + + **Minimum number of periods** + + This method also supports an optional ``min_periods`` keyword + that specifies the required minimum number of non-NA observations for + each column pair in order to have a valid result: + + >>> np.random.seed(42) + >>> df = pd.DataFrame(np.random.randn(20, 3), + ... columns=['a', 'b', 'c']) + >>> df.loc[df.index[:5], 'a'] = np.nan + >>> df.loc[df.index[5:10], 'b'] = np.nan + >>> df.cov(min_periods=12) + a b c + a 0.316741 NaN -0.150812 + b NaN 1.248003 0.191417 + c -0.150812 0.191417 0.895202 + """ + data = self._get_numeric_data() if numeric_only else self + cols = data.columns + idx = cols.copy() + mat = data.to_numpy(dtype=float, na_value=np.nan, copy=False) + + if notna(mat).all(): + if min_periods is not None and min_periods > len(mat): + base_cov = np.empty((mat.shape[1], mat.shape[1])) + base_cov.fill(np.nan) + else: + base_cov = np.cov(mat.T, ddof=ddof) + base_cov = base_cov.reshape((len(cols), len(cols))) + else: + base_cov = libalgos.nancorr(mat, cov=True, minp=min_periods) + + result = self._constructor(base_cov, index=idx, columns=cols, copy=False) + return result.__finalize__(self, method="cov") + + def corrwith( + self, + other: DataFrame | Series, + axis: Axis = 0, + drop: bool = False, + method: CorrelationMethod = "pearson", + numeric_only: bool = False, + ) -> Series: + """ + Compute pairwise correlation. + + Pairwise correlation is computed between rows or columns of + DataFrame with rows or columns of Series or DataFrame. DataFrames + are first aligned along both axes before computing the + correlations. + + Parameters + ---------- + other : DataFrame, Series + Object with which to compute correlations. + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to use. 0 or 'index' to compute row-wise, 1 or 'columns' for + column-wise. + drop : bool, default False + Drop missing indices from result. + method : {'pearson', 'kendall', 'spearman'} or callable + Method of correlation: + + * pearson : standard correlation coefficient + * kendall : Kendall Tau correlation coefficient + * spearman : Spearman rank correlation + * callable: callable with input two 1d ndarrays + and returning a float. + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + The default value of ``numeric_only`` is now ``False``. + + Returns + ------- + Series + Pairwise correlations. + + See Also + -------- + DataFrame.corr : Compute pairwise correlation of columns. + + Examples + -------- + >>> index = ["a", "b", "c", "d", "e"] + >>> columns = ["one", "two", "three", "four"] + >>> df1 = pd.DataFrame(np.arange(20).reshape(5, 4), index=index, columns=columns) + >>> df2 = pd.DataFrame(np.arange(16).reshape(4, 4), index=index[:4], columns=columns) + >>> df1.corrwith(df2) + one 1.0 + two 1.0 + three 1.0 + four 1.0 + dtype: float64 + + >>> df2.corrwith(df1, axis=1) + a 1.0 + b 1.0 + c 1.0 + d 1.0 + e NaN + dtype: float64 + """ # noqa: E501 + axis = self._get_axis_number(axis) + this = self._get_numeric_data() if numeric_only else self + + if isinstance(other, Series): + return this.apply(lambda x: other.corr(x, method=method), axis=axis) + + if numeric_only: + other = other._get_numeric_data() + left, right = this.align(other, join="inner", copy=False) + + if axis == 1: + left = left.T + right = right.T + + if method == "pearson": + # mask missing values + left = left + right * 0 + right = right + left * 0 + + # demeaned data + ldem = left - left.mean(numeric_only=numeric_only) + rdem = right - right.mean(numeric_only=numeric_only) + + num = (ldem * rdem).sum() + dom = ( + (left.count() - 1) + * left.std(numeric_only=numeric_only) + * right.std(numeric_only=numeric_only) + ) + + correl = num / dom + + elif method in ["kendall", "spearman"] or callable(method): + + def c(x): + return nanops.nancorr(x[0], x[1], method=method) + + correl = self._constructor_sliced( + map(c, zip(left.values.T, right.values.T)), + index=left.columns, + copy=False, + ) + + else: + raise ValueError( + f"Invalid method {method} was passed, " + "valid methods are: 'pearson', 'kendall', " + "'spearman', or callable" + ) + + if not drop: + # Find non-matching labels along the given axis + # and append missing correlations (GH 22375) + raxis: AxisInt = 1 if axis == 0 else 0 + result_index = this._get_axis(raxis).union(other._get_axis(raxis)) + idx_diff = result_index.difference(correl.index) + + if len(idx_diff) > 0: + correl = correl._append( + Series([np.nan] * len(idx_diff), index=idx_diff) + ) + + return correl + + # ---------------------------------------------------------------------- + # ndarray-like stats methods + + def count(self, axis: Axis = 0, numeric_only: bool = False): + """ + Count non-NA cells for each column or row. + + The values `None`, `NaN`, `NaT`, ``pandas.NA`` are considered NA. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + If 0 or 'index' counts are generated for each column. + If 1 or 'columns' counts are generated for each row. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + Returns + ------- + Series + For each column/row the number of non-NA/null entries. + + See Also + -------- + Series.count: Number of non-NA elements in a Series. + DataFrame.value_counts: Count unique combinations of columns. + DataFrame.shape: Number of DataFrame rows and columns (including NA + elements). + DataFrame.isna: Boolean same-sized DataFrame showing places of NA + elements. + + Examples + -------- + Constructing DataFrame from a dictionary: + + >>> df = pd.DataFrame({"Person": + ... ["John", "Myla", "Lewis", "John", "Myla"], + ... "Age": [24., np.nan, 21., 33, 26], + ... "Single": [False, True, True, True, False]}) + >>> df + Person Age Single + 0 John 24.0 False + 1 Myla NaN True + 2 Lewis 21.0 True + 3 John 33.0 True + 4 Myla 26.0 False + + Notice the uncounted NA values: + + >>> df.count() + Person 5 + Age 4 + Single 5 + dtype: int64 + + Counts for each **row**: + + >>> df.count(axis='columns') + 0 3 + 1 2 + 2 3 + 3 3 + 4 3 + dtype: int64 + """ + axis = self._get_axis_number(axis) + + if numeric_only: + frame = self._get_numeric_data() + else: + frame = self + + # GH #423 + if len(frame._get_axis(axis)) == 0: + result = self._constructor_sliced(0, index=frame._get_agg_axis(axis)) + else: + result = notna(frame).sum(axis=axis) + + return result.astype("int64", copy=False).__finalize__(self, method="count") + + def _reduce( + self, + op, + name: str, + *, + axis: Axis = 0, + skipna: bool = True, + numeric_only: bool = False, + filter_type=None, + **kwds, + ): + assert filter_type is None or filter_type == "bool", filter_type + out_dtype = "bool" if filter_type == "bool" else None + + if axis is not None: + axis = self._get_axis_number(axis) + + def func(values: np.ndarray): + # We only use this in the case that operates on self.values + return op(values, axis=axis, skipna=skipna, **kwds) + + dtype_has_keepdims: dict[ExtensionDtype, bool] = {} + + def blk_func(values, axis: Axis = 1): + if isinstance(values, ExtensionArray): + if not is_1d_only_ea_dtype(values.dtype) and not isinstance( + self._mgr, ArrayManager + ): + return values._reduce(name, axis=1, skipna=skipna, **kwds) + has_keepdims = dtype_has_keepdims.get(values.dtype) + if has_keepdims is None: + sign = signature(values._reduce) + has_keepdims = "keepdims" in sign.parameters + dtype_has_keepdims[values.dtype] = has_keepdims + if has_keepdims: + return values._reduce(name, skipna=skipna, keepdims=True, **kwds) + else: + warnings.warn( + f"{type(values)}._reduce will require a `keepdims` parameter " + "in the future", + FutureWarning, + stacklevel=find_stack_level(), + ) + result = values._reduce(name, skipna=skipna, **kwds) + return np.array([result]) + else: + return op(values, axis=axis, skipna=skipna, **kwds) + + def _get_data() -> DataFrame: + if filter_type is None: + data = self._get_numeric_data() + else: + # GH#25101, GH#24434 + assert filter_type == "bool" + data = self._get_bool_data() + return data + + # Case with EAs see GH#35881 + df = self + if numeric_only: + df = _get_data() + if axis is None: + dtype = find_common_type([arr.dtype for arr in df._mgr.arrays]) + if isinstance(dtype, ExtensionDtype): + df = df.astype(dtype, copy=False) + arr = concat_compat(list(df._iter_column_arrays())) + return arr._reduce(name, skipna=skipna, keepdims=False, **kwds) + return func(df.values) + elif axis == 1: + if len(df.index) == 0: + # Taking a transpose would result in no columns, losing the dtype. + # In the empty case, reducing along axis 0 or 1 gives the same + # result dtype, so reduce with axis=0 and ignore values + result = df._reduce( + op, + name, + axis=0, + skipna=skipna, + numeric_only=False, + filter_type=filter_type, + **kwds, + ).iloc[:0] + result.index = df.index + return result + + # kurtosis excluded since groupby does not implement it + if df.shape[1] and name != "kurt": + dtype = find_common_type([arr.dtype for arr in df._mgr.arrays]) + if isinstance(dtype, ExtensionDtype): + # GH 54341: fastpath for EA-backed axis=1 reductions + # This flattens the frame into a single 1D array while keeping + # track of the row and column indices of the original frame. Once + # flattened, grouping by the row indices and aggregating should + # be equivalent to transposing the original frame and aggregating + # with axis=0. + name = {"argmax": "idxmax", "argmin": "idxmin"}.get(name, name) + df = df.astype(dtype, copy=False) + arr = concat_compat(list(df._iter_column_arrays())) + nrows, ncols = df.shape + row_index = np.tile(np.arange(nrows), ncols) + col_index = np.repeat(np.arange(ncols), nrows) + ser = Series(arr, index=col_index, copy=False) + # GroupBy will raise a warning with SeriesGroupBy as the object, + # likely confusing users + with rewrite_warning( + target_message=( + f"The behavior of SeriesGroupBy.{name} with all-NA values" + ), + target_category=FutureWarning, + new_message=( + f"The behavior of {type(self).__name__}.{name} with all-NA " + "values, or any-NA and skipna=False, is deprecated. In " + "a future version this will raise ValueError" + ), + ): + result = ser.groupby(row_index).agg(name, **kwds) + result.index = df.index + if not skipna and name not in ("any", "all"): + mask = df.isna().to_numpy(dtype=np.bool_).any(axis=1) + other = -1 if name in ("idxmax", "idxmin") else lib.no_default + result = result.mask(mask, other) + return result + + df = df.T + + # After possibly _get_data and transposing, we are now in the + # simple case where we can use BlockManager.reduce + res = df._mgr.reduce(blk_func) + out = df._constructor_from_mgr(res, axes=res.axes).iloc[0] + if out_dtype is not None and out.dtype != "boolean": + out = out.astype(out_dtype) + elif (df._mgr.get_dtypes() == object).any() and name not in ["any", "all"]: + out = out.astype(object) + elif len(self) == 0 and out.dtype == object and name in ("sum", "prod"): + # Even if we are object dtype, follow numpy and return + # float64, see test_apply_funcs_over_empty + out = out.astype(np.float64) + + return out + + def _reduce_axis1(self, name: str, func, skipna: bool) -> Series: + """ + Special case for _reduce to try to avoid a potentially-expensive transpose. + + Apply the reduction block-wise along axis=1 and then reduce the resulting + 1D arrays. + """ + if name == "all": + result = np.ones(len(self), dtype=bool) + ufunc = np.logical_and + elif name == "any": + result = np.zeros(len(self), dtype=bool) + # error: Incompatible types in assignment + # (expression has type "_UFunc_Nin2_Nout1[Literal['logical_or'], + # Literal[20], Literal[False]]", variable has type + # "_UFunc_Nin2_Nout1[Literal['logical_and'], Literal[20], + # Literal[True]]") + ufunc = np.logical_or # type: ignore[assignment] + else: + raise NotImplementedError(name) + + for arr in self._mgr.arrays: + middle = func(arr, axis=0, skipna=skipna) + result = ufunc(result, middle) + + res_ser = self._constructor_sliced(result, index=self.index, copy=False) + return res_ser + + @doc(make_doc("any", ndim=2)) + # error: Signature of "any" incompatible with supertype "NDFrame" + def any( # type: ignore[override] + self, + *, + axis: Axis | None = 0, + bool_only: bool = False, + skipna: bool = True, + **kwargs, + ) -> Series | bool: + result = self._logical_func( + "any", nanops.nanany, axis, bool_only, skipna, **kwargs + ) + if isinstance(result, Series): + result = result.__finalize__(self, method="any") + return result + + @doc(make_doc("all", ndim=2)) + def all( + self, + axis: Axis | None = 0, + bool_only: bool = False, + skipna: bool = True, + **kwargs, + ) -> Series | bool: + result = self._logical_func( + "all", nanops.nanall, axis, bool_only, skipna, **kwargs + ) + if isinstance(result, Series): + result = result.__finalize__(self, method="all") + return result + + @doc(make_doc("min", ndim=2)) + def min( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().min(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="min") + return result + + @doc(make_doc("max", ndim=2)) + def max( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().max(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="max") + return result + + @doc(make_doc("sum", ndim=2)) + def sum( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + min_count: int = 0, + **kwargs, + ): + result = super().sum(axis, skipna, numeric_only, min_count, **kwargs) + return result.__finalize__(self, method="sum") + + @doc(make_doc("prod", ndim=2)) + def prod( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + min_count: int = 0, + **kwargs, + ): + result = super().prod(axis, skipna, numeric_only, min_count, **kwargs) + return result.__finalize__(self, method="prod") + + @doc(make_doc("mean", ndim=2)) + def mean( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().mean(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="mean") + return result + + @doc(make_doc("median", ndim=2)) + def median( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().median(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="median") + return result + + @doc(make_doc("sem", ndim=2)) + def sem( + self, + axis: Axis | None = 0, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + result = super().sem(axis, skipna, ddof, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="sem") + return result + + @doc(make_doc("var", ndim=2)) + def var( + self, + axis: Axis | None = 0, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + result = super().var(axis, skipna, ddof, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="var") + return result + + @doc(make_doc("std", ndim=2)) + def std( + self, + axis: Axis | None = 0, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + result = super().std(axis, skipna, ddof, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="std") + return result + + @doc(make_doc("skew", ndim=2)) + def skew( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().skew(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="skew") + return result + + @doc(make_doc("kurt", ndim=2)) + def kurt( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + result = super().kurt(axis, skipna, numeric_only, **kwargs) + if isinstance(result, Series): + result = result.__finalize__(self, method="kurt") + return result + + kurtosis = kurt + product = prod + + @doc(make_doc("cummin", ndim=2)) + def cummin(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cummin(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cummax", ndim=2)) + def cummax(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cummax(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cumsum", ndim=2)) + def cumsum(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cumsum(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cumprod", 2)) + def cumprod(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cumprod(self, axis, skipna, *args, **kwargs) + + def nunique(self, axis: Axis = 0, dropna: bool = True) -> Series: + """ + Count number of distinct elements in specified axis. + + Return Series with number of distinct elements. Can ignore NaN + values. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for + column-wise. + dropna : bool, default True + Don't include NaN in the counts. + + Returns + ------- + Series + + See Also + -------- + Series.nunique: Method nunique for Series. + DataFrame.count: Count non-NA cells for each column or row. + + Examples + -------- + >>> df = pd.DataFrame({'A': [4, 5, 6], 'B': [4, 1, 1]}) + >>> df.nunique() + A 3 + B 2 + dtype: int64 + + >>> df.nunique(axis=1) + 0 1 + 1 2 + 2 2 + dtype: int64 + """ + return self.apply(Series.nunique, axis=axis, dropna=dropna) + + @doc(_shared_docs["idxmin"], numeric_only_default="False") + def idxmin( + self, axis: Axis = 0, skipna: bool = True, numeric_only: bool = False + ) -> Series: + axis = self._get_axis_number(axis) + + if self.empty and len(self.axes[axis]): + axis_dtype = self.axes[axis].dtype + return self._constructor_sliced(dtype=axis_dtype) + + if numeric_only: + data = self._get_numeric_data() + else: + data = self + + res = data._reduce( + nanops.nanargmin, "argmin", axis=axis, skipna=skipna, numeric_only=False + ) + indices = res._values + # indices will always be np.ndarray since axis is not N + + if (indices == -1).any(): + warnings.warn( + f"The behavior of {type(self).__name__}.idxmin with all-NA " + "values, or any-NA and skipna=False, is deprecated. In a future " + "version this will raise ValueError", + FutureWarning, + stacklevel=find_stack_level(), + ) + + index = data._get_axis(axis) + result = algorithms.take( + index._values, indices, allow_fill=True, fill_value=index._na_value + ) + final_result = data._constructor_sliced(result, index=data._get_agg_axis(axis)) + return final_result.__finalize__(self, method="idxmin") + + @doc(_shared_docs["idxmax"], numeric_only_default="False") + def idxmax( + self, axis: Axis = 0, skipna: bool = True, numeric_only: bool = False + ) -> Series: + axis = self._get_axis_number(axis) + + if self.empty and len(self.axes[axis]): + axis_dtype = self.axes[axis].dtype + return self._constructor_sliced(dtype=axis_dtype) + + if numeric_only: + data = self._get_numeric_data() + else: + data = self + + res = data._reduce( + nanops.nanargmax, "argmax", axis=axis, skipna=skipna, numeric_only=False + ) + indices = res._values + # indices will always be 1d array since axis is not None + + if (indices == -1).any(): + warnings.warn( + f"The behavior of {type(self).__name__}.idxmax with all-NA " + "values, or any-NA and skipna=False, is deprecated. In a future " + "version this will raise ValueError", + FutureWarning, + stacklevel=find_stack_level(), + ) + + index = data._get_axis(axis) + result = algorithms.take( + index._values, indices, allow_fill=True, fill_value=index._na_value + ) + final_result = data._constructor_sliced(result, index=data._get_agg_axis(axis)) + return final_result.__finalize__(self, method="idxmax") + + def _get_agg_axis(self, axis_num: int) -> Index: + """ + Let's be explicit about this. + """ + if axis_num == 0: + return self.columns + elif axis_num == 1: + return self.index + else: + raise ValueError(f"Axis must be 0 or 1 (got {repr(axis_num)})") + + def mode( + self, axis: Axis = 0, numeric_only: bool = False, dropna: bool = True + ) -> DataFrame: + """ + Get the mode(s) of each element along the selected axis. + + The mode of a set of values is the value that appears most often. + It can be multiple values. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to iterate over while searching for the mode: + + * 0 or 'index' : get mode of each column + * 1 or 'columns' : get mode of each row. + + numeric_only : bool, default False + If True, only apply to numeric columns. + dropna : bool, default True + Don't consider counts of NaN/NaT. + + Returns + ------- + DataFrame + The modes of each column or row. + + See Also + -------- + Series.mode : Return the highest frequency value in a Series. + Series.value_counts : Return the counts of values in a Series. + + Examples + -------- + >>> df = pd.DataFrame([('bird', 2, 2), + ... ('mammal', 4, np.nan), + ... ('arthropod', 8, 0), + ... ('bird', 2, np.nan)], + ... index=('falcon', 'horse', 'spider', 'ostrich'), + ... columns=('species', 'legs', 'wings')) + >>> df + species legs wings + falcon bird 2 2.0 + horse mammal 4 NaN + spider arthropod 8 0.0 + ostrich bird 2 NaN + + By default, missing values are not considered, and the mode of wings + are both 0 and 2. Because the resulting DataFrame has two rows, + the second row of ``species`` and ``legs`` contains ``NaN``. + + >>> df.mode() + species legs wings + 0 bird 2.0 0.0 + 1 NaN NaN 2.0 + + Setting ``dropna=False`` ``NaN`` values are considered and they can be + the mode (like for wings). + + >>> df.mode(dropna=False) + species legs wings + 0 bird 2 NaN + + Setting ``numeric_only=True``, only the mode of numeric columns is + computed, and columns of other types are ignored. + + >>> df.mode(numeric_only=True) + legs wings + 0 2.0 0.0 + 1 NaN 2.0 + + To compute the mode over columns and not rows, use the axis parameter: + + >>> df.mode(axis='columns', numeric_only=True) + 0 1 + falcon 2.0 NaN + horse 4.0 NaN + spider 0.0 8.0 + ostrich 2.0 NaN + """ + data = self if not numeric_only else self._get_numeric_data() + + def f(s): + return s.mode(dropna=dropna) + + data = data.apply(f, axis=axis) + # Ensure index is type stable (should always use int index) + if data.empty: + data.index = default_index(0) + + return data + + @overload + def quantile( + self, + q: float = ..., + axis: Axis = ..., + numeric_only: bool = ..., + interpolation: QuantileInterpolation = ..., + method: Literal["single", "table"] = ..., + ) -> Series: + ... + + @overload + def quantile( + self, + q: AnyArrayLike | Sequence[float], + axis: Axis = ..., + numeric_only: bool = ..., + interpolation: QuantileInterpolation = ..., + method: Literal["single", "table"] = ..., + ) -> Series | DataFrame: + ... + + @overload + def quantile( + self, + q: float | AnyArrayLike | Sequence[float] = ..., + axis: Axis = ..., + numeric_only: bool = ..., + interpolation: QuantileInterpolation = ..., + method: Literal["single", "table"] = ..., + ) -> Series | DataFrame: + ... + + def quantile( + self, + q: float | AnyArrayLike | Sequence[float] = 0.5, + axis: Axis = 0, + numeric_only: bool = False, + interpolation: QuantileInterpolation = "linear", + method: Literal["single", "table"] = "single", + ) -> Series | DataFrame: + """ + Return values at the given quantile over requested axis. + + Parameters + ---------- + q : float or array-like, default 0.5 (50% quantile) + Value between 0 <= q <= 1, the quantile(s) to compute. + axis : {0 or 'index', 1 or 'columns'}, default 0 + Equals 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionchanged:: 2.0.0 + The default value of ``numeric_only`` is now ``False``. + + interpolation : {'linear', 'lower', 'higher', 'midpoint', 'nearest'} + This optional parameter specifies the interpolation method to use, + when the desired quantile lies between two data points `i` and `j`: + + * linear: `i + (j - i) * fraction`, where `fraction` is the + fractional part of the index surrounded by `i` and `j`. + * lower: `i`. + * higher: `j`. + * nearest: `i` or `j` whichever is nearest. + * midpoint: (`i` + `j`) / 2. + method : {'single', 'table'}, default 'single' + Whether to compute quantiles per-column ('single') or over all columns + ('table'). When 'table', the only allowed interpolation methods are + 'nearest', 'lower', and 'higher'. + + Returns + ------- + Series or DataFrame + + If ``q`` is an array, a DataFrame will be returned where the + index is ``q``, the columns are the columns of self, and the + values are the quantiles. + If ``q`` is a float, a Series will be returned where the + index is the columns of self and the values are the quantiles. + + See Also + -------- + core.window.rolling.Rolling.quantile: Rolling quantile. + numpy.percentile: Numpy function to compute the percentile. + + Examples + -------- + >>> df = pd.DataFrame(np.array([[1, 1], [2, 10], [3, 100], [4, 100]]), + ... columns=['a', 'b']) + >>> df.quantile(.1) + a 1.3 + b 3.7 + Name: 0.1, dtype: float64 + >>> df.quantile([.1, .5]) + a b + 0.1 1.3 3.7 + 0.5 2.5 55.0 + + Specifying `method='table'` will compute the quantile over all columns. + + >>> df.quantile(.1, method="table", interpolation="nearest") + a 1 + b 1 + Name: 0.1, dtype: int64 + >>> df.quantile([.1, .5], method="table", interpolation="nearest") + a b + 0.1 1 1 + 0.5 3 100 + + Specifying `numeric_only=False` will also compute the quantile of + datetime and timedelta data. + + >>> df = pd.DataFrame({'A': [1, 2], + ... 'B': [pd.Timestamp('2010'), + ... pd.Timestamp('2011')], + ... 'C': [pd.Timedelta('1 days'), + ... pd.Timedelta('2 days')]}) + >>> df.quantile(0.5, numeric_only=False) + A 1.5 + B 2010-07-02 12:00:00 + C 1 days 12:00:00 + Name: 0.5, dtype: object + """ + validate_percentile(q) + axis = self._get_axis_number(axis) + + if not is_list_like(q): + # BlockManager.quantile expects listlike, so we wrap and unwrap here + # error: List item 0 has incompatible type "float | ExtensionArray | + # ndarray[Any, Any] | Index | Series | Sequence[float]"; expected "float" + res_df = self.quantile( + [q], # type: ignore[list-item] + axis=axis, + numeric_only=numeric_only, + interpolation=interpolation, + method=method, + ) + if method == "single": + res = res_df.iloc[0] + else: + # cannot directly iloc over sparse arrays + res = res_df.T.iloc[:, 0] + if axis == 1 and len(self) == 0: + # GH#41544 try to get an appropriate dtype + dtype = find_common_type(list(self.dtypes)) + if needs_i8_conversion(dtype): + return res.astype(dtype) + return res + + q = Index(q, dtype=np.float64) + data = self._get_numeric_data() if numeric_only else self + + if axis == 1: + data = data.T + + if len(data.columns) == 0: + # GH#23925 _get_numeric_data may have dropped all columns + cols = Index([], name=self.columns.name) + + dtype = np.float64 + if axis == 1: + # GH#41544 try to get an appropriate dtype + cdtype = find_common_type(list(self.dtypes)) + if needs_i8_conversion(cdtype): + dtype = cdtype + + res = self._constructor([], index=q, columns=cols, dtype=dtype) + return res.__finalize__(self, method="quantile") + + valid_method = {"single", "table"} + if method not in valid_method: + raise ValueError( + f"Invalid method: {method}. Method must be in {valid_method}." + ) + if method == "single": + res = data._mgr.quantile(qs=q, interpolation=interpolation) + elif method == "table": + valid_interpolation = {"nearest", "lower", "higher"} + if interpolation not in valid_interpolation: + raise ValueError( + f"Invalid interpolation: {interpolation}. " + f"Interpolation must be in {valid_interpolation}" + ) + # handle degenerate case + if len(data) == 0: + if data.ndim == 2: + dtype = find_common_type(list(self.dtypes)) + else: + dtype = self.dtype + return self._constructor([], index=q, columns=data.columns, dtype=dtype) + + q_idx = np.quantile(np.arange(len(data)), q, method=interpolation) + + by = data.columns + if len(by) > 1: + keys = [data._get_label_or_level_values(x) for x in by] + indexer = lexsort_indexer(keys) + else: + k = data._get_label_or_level_values(by[0]) + indexer = nargsort(k) + + res = data._mgr.take(indexer[q_idx], verify=False) + res.axes[1] = q + + result = self._constructor_from_mgr(res, axes=res.axes) + return result.__finalize__(self, method="quantile") + + def to_timestamp( + self, + freq: Frequency | None = None, + how: ToTimestampHow = "start", + axis: Axis = 0, + copy: bool | None = None, + ) -> DataFrame: + """ + Cast to DatetimeIndex of timestamps, at *beginning* of period. + + Parameters + ---------- + freq : str, default frequency of PeriodIndex + Desired frequency. + how : {'s', 'e', 'start', 'end'} + Convention for converting period to timestamp; start of period + vs. end. + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to convert (the index by default). + copy : bool, default True + If False then underlying input data is not copied. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + DataFrame + The DataFrame has a DatetimeIndex. + + Examples + -------- + >>> idx = pd.PeriodIndex(['2023', '2024'], freq='Y') + >>> d = {'col1': [1, 2], 'col2': [3, 4]} + >>> df1 = pd.DataFrame(data=d, index=idx) + >>> df1 + col1 col2 + 2023 1 3 + 2024 2 4 + + The resulting timestamps will be at the beginning of the year in this case + + >>> df1 = df1.to_timestamp() + >>> df1 + col1 col2 + 2023-01-01 1 3 + 2024-01-01 2 4 + >>> df1.index + DatetimeIndex(['2023-01-01', '2024-01-01'], dtype='datetime64[ns]', freq=None) + + Using `freq` which is the offset that the Timestamps will have + + >>> df2 = pd.DataFrame(data=d, index=idx) + >>> df2 = df2.to_timestamp(freq='M') + >>> df2 + col1 col2 + 2023-01-31 1 3 + 2024-01-31 2 4 + >>> df2.index + DatetimeIndex(['2023-01-31', '2024-01-31'], dtype='datetime64[ns]', freq=None) + """ + new_obj = self.copy(deep=copy and not using_copy_on_write()) + + axis_name = self._get_axis_name(axis) + old_ax = getattr(self, axis_name) + if not isinstance(old_ax, PeriodIndex): + raise TypeError(f"unsupported Type {type(old_ax).__name__}") + + new_ax = old_ax.to_timestamp(freq=freq, how=how) + + setattr(new_obj, axis_name, new_ax) + return new_obj + + def to_period( + self, freq: Frequency | None = None, axis: Axis = 0, copy: bool | None = None + ) -> DataFrame: + """ + Convert DataFrame from DatetimeIndex to PeriodIndex. + + Convert DataFrame from DatetimeIndex to PeriodIndex with desired + frequency (inferred from index if not passed). + + Parameters + ---------- + freq : str, default + Frequency of the PeriodIndex. + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to convert (the index by default). + copy : bool, default True + If False then underlying input data is not copied. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + DataFrame + The DataFrame has a PeriodIndex. + + Examples + -------- + >>> idx = pd.to_datetime( + ... [ + ... "2001-03-31 00:00:00", + ... "2002-05-31 00:00:00", + ... "2003-08-31 00:00:00", + ... ] + ... ) + + >>> idx + DatetimeIndex(['2001-03-31', '2002-05-31', '2003-08-31'], + dtype='datetime64[ns]', freq=None) + + >>> idx.to_period("M") + PeriodIndex(['2001-03', '2002-05', '2003-08'], dtype='period[M]') + + For the yearly frequency + + >>> idx.to_period("Y") + PeriodIndex(['2001', '2002', '2003'], dtype='period[Y-DEC]') + """ + new_obj = self.copy(deep=copy and not using_copy_on_write()) + + axis_name = self._get_axis_name(axis) + old_ax = getattr(self, axis_name) + if not isinstance(old_ax, DatetimeIndex): + raise TypeError(f"unsupported Type {type(old_ax).__name__}") + + new_ax = old_ax.to_period(freq=freq) + + setattr(new_obj, axis_name, new_ax) + return new_obj + + def isin(self, values: Series | DataFrame | Sequence | Mapping) -> DataFrame: + """ + Whether each element in the DataFrame is contained in values. + + Parameters + ---------- + values : iterable, Series, DataFrame or dict + The result will only be true at a location if all the + labels match. If `values` is a Series, that's the index. If + `values` is a dict, the keys must be the column names, + which must match. If `values` is a DataFrame, + then both the index and column labels must match. + + Returns + ------- + DataFrame + DataFrame of booleans showing whether each element in the DataFrame + is contained in values. + + See Also + -------- + DataFrame.eq: Equality test for DataFrame. + Series.isin: Equivalent method on Series. + Series.str.contains: Test if pattern or regex is contained within a + string of a Series or Index. + + Examples + -------- + >>> df = pd.DataFrame({'num_legs': [2, 4], 'num_wings': [2, 0]}, + ... index=['falcon', 'dog']) + >>> df + num_legs num_wings + falcon 2 2 + dog 4 0 + + When ``values`` is a list check whether every value in the DataFrame + is present in the list (which animals have 0 or 2 legs or wings) + + >>> df.isin([0, 2]) + num_legs num_wings + falcon True True + dog False True + + To check if ``values`` is *not* in the DataFrame, use the ``~`` operator: + + >>> ~df.isin([0, 2]) + num_legs num_wings + falcon False False + dog True False + + When ``values`` is a dict, we can pass values to check for each + column separately: + + >>> df.isin({'num_wings': [0, 3]}) + num_legs num_wings + falcon False False + dog False True + + When ``values`` is a Series or DataFrame the index and column must + match. Note that 'falcon' does not match based on the number of legs + in other. + + >>> other = pd.DataFrame({'num_legs': [8, 3], 'num_wings': [0, 2]}, + ... index=['spider', 'falcon']) + >>> df.isin(other) + num_legs num_wings + falcon False True + dog False False + """ + if isinstance(values, dict): + from pandas.core.reshape.concat import concat + + values = collections.defaultdict(list, values) + result = concat( + ( + self.iloc[:, [i]].isin(values[col]) + for i, col in enumerate(self.columns) + ), + axis=1, + ) + elif isinstance(values, Series): + if not values.index.is_unique: + raise ValueError("cannot compute isin with a duplicate axis.") + result = self.eq(values.reindex_like(self), axis="index") + elif isinstance(values, DataFrame): + if not (values.columns.is_unique and values.index.is_unique): + raise ValueError("cannot compute isin with a duplicate axis.") + result = self.eq(values.reindex_like(self)) + else: + if not is_list_like(values): + raise TypeError( + "only list-like or dict-like objects are allowed " + "to be passed to DataFrame.isin(), " + f"you passed a '{type(values).__name__}'" + ) + + def isin_(x): + # error: Argument 2 to "isin" has incompatible type "Union[Series, + # DataFrame, Sequence[Any], Mapping[Any, Any]]"; expected + # "Union[Union[Union[ExtensionArray, ndarray[Any, Any]], Index, + # Series], List[Any], range]" + result = algorithms.isin( + x.ravel(), + values, # type: ignore[arg-type] + ) + return result.reshape(x.shape) + + res_mgr = self._mgr.apply(isin_) + result = self._constructor_from_mgr( + res_mgr, + axes=res_mgr.axes, + ) + return result.__finalize__(self, method="isin") + + # ---------------------------------------------------------------------- + # Add index and columns + _AXIS_ORDERS: list[Literal["index", "columns"]] = ["index", "columns"] + _AXIS_TO_AXIS_NUMBER: dict[Axis, int] = { + **NDFrame._AXIS_TO_AXIS_NUMBER, + 1: 1, + "columns": 1, + } + _AXIS_LEN = len(_AXIS_ORDERS) + _info_axis_number: Literal[1] = 1 + _info_axis_name: Literal["columns"] = "columns" + + index = properties.AxisProperty( + axis=1, + doc=""" + The index (row labels) of the DataFrame. + + The index of a DataFrame is a series of labels that identify each row. + The labels can be integers, strings, or any other hashable type. The index + is used for label-based access and alignment, and can be accessed or + modified using this attribute. + + Returns + ------- + pandas.Index + The index labels of the DataFrame. + + See Also + -------- + DataFrame.columns : The column labels of the DataFrame. + DataFrame.to_numpy : Convert the DataFrame to a NumPy array. + + Examples + -------- + >>> df = pd.DataFrame({'Name': ['Alice', 'Bob', 'Aritra'], + ... 'Age': [25, 30, 35], + ... 'Location': ['Seattle', 'New York', 'Kona']}, + ... index=([10, 20, 30])) + >>> df.index + Index([10, 20, 30], dtype='int64') + + In this example, we create a DataFrame with 3 rows and 3 columns, + including Name, Age, and Location information. We set the index labels to + be the integers 10, 20, and 30. We then access the `index` attribute of the + DataFrame, which returns an `Index` object containing the index labels. + + >>> df.index = [100, 200, 300] + >>> df + Name Age Location + 100 Alice 25 Seattle + 200 Bob 30 New York + 300 Aritra 35 Kona + + In this example, we modify the index labels of the DataFrame by assigning + a new list of labels to the `index` attribute. The DataFrame is then + updated with the new labels, and the output shows the modified DataFrame. + """, + ) + columns = properties.AxisProperty( + axis=0, + doc=dedent( + """ + The column labels of the DataFrame. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2], 'B': [3, 4]}) + >>> df + A B + 0 1 3 + 1 2 4 + >>> df.columns + Index(['A', 'B'], dtype='object') + """ + ), + ) + + # ---------------------------------------------------------------------- + # Add plotting methods to DataFrame + plot = CachedAccessor("plot", pandas.plotting.PlotAccessor) + hist = pandas.plotting.hist_frame + boxplot = pandas.plotting.boxplot_frame + sparse = CachedAccessor("sparse", SparseFrameAccessor) + + # ---------------------------------------------------------------------- + # Internal Interface Methods + + def _to_dict_of_blocks(self): + """ + Return a dict of dtype -> Constructor Types that + each is a homogeneous dtype. + + Internal ONLY - only works for BlockManager + """ + mgr = self._mgr + # convert to BlockManager if needed -> this way support ArrayManager as well + mgr = cast(BlockManager, mgr_to_mgr(mgr, "block")) + return { + k: self._constructor_from_mgr(v, axes=v.axes).__finalize__(self) + for k, v, in mgr.to_dict().items() + } + + @property + def values(self) -> np.ndarray: + """ + Return a Numpy representation of the DataFrame. + + .. warning:: + + We recommend using :meth:`DataFrame.to_numpy` instead. + + Only the values in the DataFrame will be returned, the axes labels + will be removed. + + Returns + ------- + numpy.ndarray + The values of the DataFrame. + + See Also + -------- + DataFrame.to_numpy : Recommended alternative to this method. + DataFrame.index : Retrieve the index labels. + DataFrame.columns : Retrieving the column names. + + Notes + ----- + The dtype will be a lower-common-denominator dtype (implicit + upcasting); that is to say if the dtypes (even of numeric types) + are mixed, the one that accommodates all will be chosen. Use this + with care if you are not dealing with the blocks. + + e.g. If the dtypes are float16 and float32, dtype will be upcast to + float32. If dtypes are int32 and uint8, dtype will be upcast to + int32. By :func:`numpy.find_common_type` convention, mixing int64 + and uint64 will result in a float64 dtype. + + Examples + -------- + A DataFrame where all columns are the same type (e.g., int64) results + in an array of the same type. + + >>> df = pd.DataFrame({'age': [ 3, 29], + ... 'height': [94, 170], + ... 'weight': [31, 115]}) + >>> df + age height weight + 0 3 94 31 + 1 29 170 115 + >>> df.dtypes + age int64 + height int64 + weight int64 + dtype: object + >>> df.values + array([[ 3, 94, 31], + [ 29, 170, 115]]) + + A DataFrame with mixed type columns(e.g., str/object, int64, float32) + results in an ndarray of the broadest type that accommodates these + mixed types (e.g., object). + + >>> df2 = pd.DataFrame([('parrot', 24.0, 'second'), + ... ('lion', 80.5, 1), + ... ('monkey', np.nan, None)], + ... columns=('name', 'max_speed', 'rank')) + >>> df2.dtypes + name object + max_speed float64 + rank object + dtype: object + >>> df2.values + array([['parrot', 24.0, 'second'], + ['lion', 80.5, 1], + ['monkey', nan, None]], dtype=object) + """ + return self._mgr.as_array() + + +def _from_nested_dict(data) -> collections.defaultdict: + new_data: collections.defaultdict = collections.defaultdict(dict) + for index, s in data.items(): + for col, v in s.items(): + new_data[col][index] = v + return new_data + + +def _reindex_for_setitem( + value: DataFrame | Series, index: Index +) -> tuple[ArrayLike, BlockValuesRefs | None]: + # reindex if necessary + + if value.index.equals(index) or not len(index): + if using_copy_on_write() and isinstance(value, Series): + return value._values, value._references + return value._values.copy(), None + + # GH#4107 + try: + reindexed_value = value.reindex(index)._values + except ValueError as err: + # raised in MultiIndex.from_tuples, see test_insert_error_msmgs + if not value.index.is_unique: + # duplicate axis + raise err + + raise TypeError( + "incompatible index of inserted column with frame index" + ) from err + return reindexed_value, None diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/generic.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/generic.py new file mode 100644 index 0000000000000000000000000000000000000000..70b72577dd5d11edc0de31b52d4c1d9476dca4b8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/generic.py @@ -0,0 +1,13979 @@ +# pyright: reportPropertyTypeMismatch=false +from __future__ import annotations + +import collections +from copy import deepcopy +import datetime as dt +from functools import partial +import gc +from json import loads +import operator +import pickle +import re +import sys +from typing import ( + TYPE_CHECKING, + Any, + Callable, + ClassVar, + Literal, + NoReturn, + cast, + final, + overload, +) +import warnings +import weakref + +import numpy as np + +from pandas._config import ( + config, + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs import lib +from pandas._libs.lib import is_range_indexer +from pandas._libs.tslibs import ( + Period, + Tick, + Timestamp, + to_offset, +) +from pandas._libs.tslibs.dtypes import freq_to_period_freqstr +from pandas._typing import ( + AlignJoin, + AnyArrayLike, + ArrayLike, + Axes, + Axis, + AxisInt, + CompressionOptions, + DtypeArg, + DtypeBackend, + DtypeObj, + FilePath, + FillnaOptions, + FloatFormatType, + FormattersType, + Frequency, + IgnoreRaise, + IndexKeyFunc, + IndexLabel, + InterpolateOptions, + IntervalClosedType, + JSONSerializable, + Level, + Manager, + NaPosition, + NDFrameT, + OpenFileErrors, + RandomState, + ReindexMethod, + Renamer, + Scalar, + Self, + SequenceNotStr, + SortKind, + StorageOptions, + Suffixes, + T, + TimeAmbiguous, + TimedeltaConvertibleTypes, + TimeNonexistent, + TimestampConvertibleTypes, + TimeUnit, + ValueKeyFunc, + WriteBuffer, + WriteExcelBuffer, + npt, +) +from pandas.compat import PYPY +from pandas.compat._constants import REF_COUNT +from pandas.compat._optional import import_optional_dependency +from pandas.compat.numpy import function as nv +from pandas.errors import ( + AbstractMethodError, + ChainedAssignmentError, + InvalidIndexError, + SettingWithCopyError, + SettingWithCopyWarning, + _chained_assignment_method_msg, + _chained_assignment_warning_method_msg, + _check_cacher, +) +from pandas.util._decorators import ( + deprecate_nonkeyword_arguments, + doc, +) +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import ( + check_dtype_backend, + validate_ascending, + validate_bool_kwarg, + validate_fillna_kwargs, + validate_inclusive, +) + +from pandas.core.dtypes.astype import astype_is_view +from pandas.core.dtypes.common import ( + ensure_object, + ensure_platform_int, + ensure_str, + is_bool, + is_bool_dtype, + is_dict_like, + is_extension_array_dtype, + is_list_like, + is_number, + is_numeric_dtype, + is_re_compilable, + is_scalar, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + ExtensionDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.inference import ( + is_hashable, + is_nested_list_like, +) +from pandas.core.dtypes.missing import ( + isna, + notna, +) + +from pandas.core import ( + algorithms as algos, + arraylike, + common, + indexing, + missing, + nanops, + sample, +) +from pandas.core.array_algos.replace import should_use_regex +from pandas.core.arrays import ExtensionArray +from pandas.core.base import PandasObject +from pandas.core.construction import extract_array +from pandas.core.flags import Flags +from pandas.core.indexes.api import ( + DatetimeIndex, + Index, + MultiIndex, + PeriodIndex, + RangeIndex, + default_index, + ensure_index, +) +from pandas.core.internals import ( + ArrayManager, + BlockManager, + SingleArrayManager, +) +from pandas.core.internals.construction import ( + mgr_to_mgr, + ndarray_to_mgr, +) +from pandas.core.methods.describe import describe_ndframe +from pandas.core.missing import ( + clean_fill_method, + clean_reindex_fill_method, + find_valid_index, +) +from pandas.core.reshape.concat import concat +from pandas.core.shared_docs import _shared_docs +from pandas.core.sorting import get_indexer_indexer +from pandas.core.window import ( + Expanding, + ExponentialMovingWindow, + Rolling, + Window, +) + +from pandas.io.formats.format import ( + DataFrameFormatter, + DataFrameRenderer, +) +from pandas.io.formats.printing import pprint_thing + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + Mapping, + Sequence, + ) + + from pandas._libs.tslibs import BaseOffset + + from pandas import ( + DataFrame, + ExcelWriter, + HDFStore, + Series, + ) + from pandas.core.indexers.objects import BaseIndexer + from pandas.core.resample import Resampler + +# goal is to be able to define the docs close to function, while still being +# able to share +_shared_docs = {**_shared_docs} +_shared_doc_kwargs = { + "axes": "keywords for axes", + "klass": "Series/DataFrame", + "axes_single_arg": "{0 or 'index'} for Series, {0 or 'index', 1 or 'columns'} for DataFrame", # noqa: E501 + "inplace": """ + inplace : bool, default False + If True, performs operation inplace and returns None.""", + "optional_by": """ + by : str or list of str + Name or list of names to sort by""", +} + + +bool_t = bool # Need alias because NDFrame has def bool: + + +class NDFrame(PandasObject, indexing.IndexingMixin): + """ + N-dimensional analogue of DataFrame. Store multi-dimensional in a + size-mutable, labeled data structure + + Parameters + ---------- + data : BlockManager + axes : list + copy : bool, default False + """ + + _internal_names: list[str] = [ + "_mgr", + "_cacher", + "_item_cache", + "_cache", + "_is_copy", + "_name", + "_metadata", + "_flags", + ] + _internal_names_set: set[str] = set(_internal_names) + _accessors: set[str] = set() + _hidden_attrs: frozenset[str] = frozenset([]) + _metadata: list[str] = [] + _is_copy: weakref.ReferenceType[NDFrame] | str | None = None + _mgr: Manager + _attrs: dict[Hashable, Any] + _typ: str + + # ---------------------------------------------------------------------- + # Constructors + + def __init__(self, data: Manager) -> None: + object.__setattr__(self, "_is_copy", None) + object.__setattr__(self, "_mgr", data) + object.__setattr__(self, "_item_cache", {}) + object.__setattr__(self, "_attrs", {}) + object.__setattr__(self, "_flags", Flags(self, allows_duplicate_labels=True)) + + @final + @classmethod + def _init_mgr( + cls, + mgr: Manager, + axes: dict[Literal["index", "columns"], Axes | None], + dtype: DtypeObj | None = None, + copy: bool_t = False, + ) -> Manager: + """passed a manager and a axes dict""" + for a, axe in axes.items(): + if axe is not None: + axe = ensure_index(axe) + bm_axis = cls._get_block_manager_axis(a) + mgr = mgr.reindex_axis(axe, axis=bm_axis) + + # make a copy if explicitly requested + if copy: + mgr = mgr.copy() + if dtype is not None: + # avoid further copies if we can + if ( + isinstance(mgr, BlockManager) + and len(mgr.blocks) == 1 + and mgr.blocks[0].values.dtype == dtype + ): + pass + else: + mgr = mgr.astype(dtype=dtype) + return mgr + + @final + def _as_manager(self, typ: str, copy: bool_t = True) -> Self: + """ + Private helper function to create a DataFrame with specific manager. + + Parameters + ---------- + typ : {"block", "array"} + copy : bool, default True + Only controls whether the conversion from Block->ArrayManager + copies the 1D arrays (to ensure proper/contiguous memory layout). + + Returns + ------- + DataFrame + New DataFrame using specified manager type. Is not guaranteed + to be a copy or not. + """ + new_mgr: Manager + new_mgr = mgr_to_mgr(self._mgr, typ=typ, copy=copy) + # fastpath of passing a manager doesn't check the option/manager class + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__(self) + + @final + @classmethod + def _from_mgr(cls, mgr: Manager, axes: list[Index]) -> Self: + """ + Construct a new object of this type from a Manager object and axes. + + Parameters + ---------- + mgr : Manager + Must have the same ndim as cls. + axes : list[Index] + + Notes + ----- + The axes must match mgr.axes, but are required for future-proofing + in the event that axes are refactored out of the Manager objects. + """ + obj = cls.__new__(cls) + NDFrame.__init__(obj, mgr) + return obj + + # ---------------------------------------------------------------------- + # attrs and flags + + @property + def attrs(self) -> dict[Hashable, Any]: + """ + Dictionary of global attributes of this dataset. + + .. warning:: + + attrs is experimental and may change without warning. + + See Also + -------- + DataFrame.flags : Global flags applying to this object. + + Notes + ----- + Many operations that create new datasets will copy ``attrs``. Copies + are always deep so that changing ``attrs`` will only affect the + present dataset. ``pandas.concat`` copies ``attrs`` only if all input + datasets have the same ``attrs``. + + Examples + -------- + For Series: + + >>> ser = pd.Series([1, 2, 3]) + >>> ser.attrs = {"A": [10, 20, 30]} + >>> ser.attrs + {'A': [10, 20, 30]} + + For DataFrame: + + >>> df = pd.DataFrame({'A': [1, 2], 'B': [3, 4]}) + >>> df.attrs = {"A": [10, 20, 30]} + >>> df.attrs + {'A': [10, 20, 30]} + """ + return self._attrs + + @attrs.setter + def attrs(self, value: Mapping[Hashable, Any]) -> None: + self._attrs = dict(value) + + @final + @property + def flags(self) -> Flags: + """ + Get the properties associated with this pandas object. + + The available flags are + + * :attr:`Flags.allows_duplicate_labels` + + See Also + -------- + Flags : Flags that apply to pandas objects. + DataFrame.attrs : Global metadata applying to this dataset. + + Notes + ----- + "Flags" differ from "metadata". Flags reflect properties of the + pandas object (the Series or DataFrame). Metadata refer to properties + of the dataset, and should be stored in :attr:`DataFrame.attrs`. + + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2]}) + >>> df.flags + + + Flags can be get or set using ``.`` + + >>> df.flags.allows_duplicate_labels + True + >>> df.flags.allows_duplicate_labels = False + + Or by slicing with a key + + >>> df.flags["allows_duplicate_labels"] + False + >>> df.flags["allows_duplicate_labels"] = True + """ + return self._flags + + @final + def set_flags( + self, + *, + copy: bool_t = False, + allows_duplicate_labels: bool_t | None = None, + ) -> Self: + """ + Return a new object with updated flags. + + Parameters + ---------- + copy : bool, default False + Specify if a copy of the object should be made. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + allows_duplicate_labels : bool, optional + Whether the returned object allows duplicate labels. + + Returns + ------- + Series or DataFrame + The same type as the caller. + + See Also + -------- + DataFrame.attrs : Global metadata applying to this dataset. + DataFrame.flags : Global flags applying to this object. + + Notes + ----- + This method returns a new object that's a view on the same data + as the input. Mutating the input or the output values will be reflected + in the other. + + This method is intended to be used in method chains. + + "Flags" differ from "metadata". Flags reflect properties of the + pandas object (the Series or DataFrame). Metadata refer to properties + of the dataset, and should be stored in :attr:`DataFrame.attrs`. + + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2]}) + >>> df.flags.allows_duplicate_labels + True + >>> df2 = df.set_flags(allows_duplicate_labels=False) + >>> df2.flags.allows_duplicate_labels + False + """ + df = self.copy(deep=copy and not using_copy_on_write()) + if allows_duplicate_labels is not None: + df.flags["allows_duplicate_labels"] = allows_duplicate_labels + return df + + @final + @classmethod + def _validate_dtype(cls, dtype) -> DtypeObj | None: + """validate the passed dtype""" + if dtype is not None: + dtype = pandas_dtype(dtype) + + # a compound dtype + if dtype.kind == "V": + raise NotImplementedError( + "compound dtypes are not implemented " + f"in the {cls.__name__} constructor" + ) + + return dtype + + # ---------------------------------------------------------------------- + # Construction + + @property + def _constructor(self) -> Callable[..., Self]: + """ + Used when a manipulation result has the same dimensions as the + original. + """ + raise AbstractMethodError(self) + + # ---------------------------------------------------------------------- + # Internals + + @final + @property + def _data(self): + # GH#33054 retained because some downstream packages uses this, + # e.g. fastparquet + # GH#33333 + warnings.warn( + f"{type(self).__name__}._data is deprecated and will be removed in " + "a future version. Use public APIs instead.", + DeprecationWarning, + stacklevel=find_stack_level(), + ) + return self._mgr + + # ---------------------------------------------------------------------- + # Axis + _AXIS_ORDERS: list[Literal["index", "columns"]] + _AXIS_TO_AXIS_NUMBER: dict[Axis, AxisInt] = {0: 0, "index": 0, "rows": 0} + _info_axis_number: int + _info_axis_name: Literal["index", "columns"] + _AXIS_LEN: int + + @final + def _construct_axes_dict(self, axes: Sequence[Axis] | None = None, **kwargs): + """Return an axes dictionary for myself.""" + d = {a: self._get_axis(a) for a in (axes or self._AXIS_ORDERS)} + # error: Argument 1 to "update" of "MutableMapping" has incompatible type + # "Dict[str, Any]"; expected "SupportsKeysAndGetItem[Union[int, str], Any]" + d.update(kwargs) # type: ignore[arg-type] + return d + + @final + @classmethod + def _get_axis_number(cls, axis: Axis) -> AxisInt: + try: + return cls._AXIS_TO_AXIS_NUMBER[axis] + except KeyError: + raise ValueError(f"No axis named {axis} for object type {cls.__name__}") + + @final + @classmethod + def _get_axis_name(cls, axis: Axis) -> Literal["index", "columns"]: + axis_number = cls._get_axis_number(axis) + return cls._AXIS_ORDERS[axis_number] + + @final + def _get_axis(self, axis: Axis) -> Index: + axis_number = self._get_axis_number(axis) + assert axis_number in {0, 1} + return self.index if axis_number == 0 else self.columns + + @final + @classmethod + def _get_block_manager_axis(cls, axis: Axis) -> AxisInt: + """Map the axis to the block_manager axis.""" + axis = cls._get_axis_number(axis) + ndim = cls._AXIS_LEN + if ndim == 2: + # i.e. DataFrame + return 1 - axis + return axis + + @final + def _get_axis_resolvers(self, axis: str) -> dict[str, Series | MultiIndex]: + # index or columns + axis_index = getattr(self, axis) + d = {} + prefix = axis[0] + + for i, name in enumerate(axis_index.names): + if name is not None: + key = level = name + else: + # prefix with 'i' or 'c' depending on the input axis + # e.g., you must do ilevel_0 for the 0th level of an unnamed + # multiiindex + key = f"{prefix}level_{i}" + level = i + + level_values = axis_index.get_level_values(level) + s = level_values.to_series() + s.index = axis_index + d[key] = s + + # put the index/columns itself in the dict + if isinstance(axis_index, MultiIndex): + dindex = axis_index + else: + dindex = axis_index.to_series() + + d[axis] = dindex + return d + + @final + def _get_index_resolvers(self) -> dict[Hashable, Series | MultiIndex]: + from pandas.core.computation.parsing import clean_column_name + + d: dict[str, Series | MultiIndex] = {} + for axis_name in self._AXIS_ORDERS: + d.update(self._get_axis_resolvers(axis_name)) + + return {clean_column_name(k): v for k, v in d.items() if not isinstance(k, int)} + + @final + def _get_cleaned_column_resolvers(self) -> dict[Hashable, Series]: + """ + Return the special character free column resolvers of a dataframe. + + Column names with special characters are 'cleaned up' so that they can + be referred to by backtick quoting. + Used in :meth:`DataFrame.eval`. + """ + from pandas.core.computation.parsing import clean_column_name + from pandas.core.series import Series + + if isinstance(self, ABCSeries): + return {clean_column_name(self.name): self} + + return { + clean_column_name(k): Series( + v, copy=False, index=self.index, name=k, dtype=self.dtypes[k] + ).__finalize__(self) + for k, v in zip(self.columns, self._iter_column_arrays()) + if not isinstance(k, int) + } + + @final + @property + def _info_axis(self) -> Index: + return getattr(self, self._info_axis_name) + + def _is_view_after_cow_rules(self): + # Only to be used in cases of chained assignment checks, this is a + # simplified check that assumes that either the whole object is a view + # or a copy + if len(self._mgr.blocks) == 0: # type: ignore[union-attr] + return False + return self._mgr.blocks[0].refs.has_reference() # type: ignore[union-attr] + + @property + def shape(self) -> tuple[int, ...]: + """ + Return a tuple of axis dimensions + """ + return tuple(len(self._get_axis(a)) for a in self._AXIS_ORDERS) + + @property + def axes(self) -> list[Index]: + """ + Return index label(s) of the internal NDFrame + """ + # we do it this way because if we have reversed axes, then + # the block manager shows then reversed + return [self._get_axis(a) for a in self._AXIS_ORDERS] + + @final + @property + def ndim(self) -> int: + """ + Return an int representing the number of axes / array dimensions. + + Return 1 if Series. Otherwise return 2 if DataFrame. + + See Also + -------- + ndarray.ndim : Number of array dimensions. + + Examples + -------- + >>> s = pd.Series({'a': 1, 'b': 2, 'c': 3}) + >>> s.ndim + 1 + + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df.ndim + 2 + """ + return self._mgr.ndim + + @final + @property + def size(self) -> int: + """ + Return an int representing the number of elements in this object. + + Return the number of rows if Series. Otherwise return the number of + rows times number of columns if DataFrame. + + See Also + -------- + ndarray.size : Number of elements in the array. + + Examples + -------- + >>> s = pd.Series({'a': 1, 'b': 2, 'c': 3}) + >>> s.size + 3 + + >>> df = pd.DataFrame({'col1': [1, 2], 'col2': [3, 4]}) + >>> df.size + 4 + """ + + return int(np.prod(self.shape)) + + def set_axis( + self, + labels, + *, + axis: Axis = 0, + copy: bool_t | None = None, + ) -> Self: + """ + Assign desired index to given axis. + + Indexes for%(extended_summary_sub)s row labels can be changed by assigning + a list-like or Index. + + Parameters + ---------- + labels : list-like, Index + The values for the new index. + + axis : %(axes_single_arg)s, default 0 + The axis to update. The value 0 identifies the rows. For `Series` + this parameter is unused and defaults to 0. + + copy : bool, default True + Whether to make a copy of the underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + %(klass)s + An object of type %(klass)s. + + See Also + -------- + %(klass)s.rename_axis : Alter the name of the index%(see_also_sub)s. + """ + return self._set_axis_nocheck(labels, axis, inplace=False, copy=copy) + + @final + def _set_axis_nocheck( + self, labels, axis: Axis, inplace: bool_t, copy: bool_t | None + ): + if inplace: + setattr(self, self._get_axis_name(axis), labels) + else: + # With copy=False, we create a new object but don't copy the + # underlying data. + obj = self.copy(deep=copy and not using_copy_on_write()) + setattr(obj, obj._get_axis_name(axis), labels) + return obj + + @final + def _set_axis(self, axis: AxisInt, labels: AnyArrayLike | list) -> None: + """ + This is called from the cython code when we set the `index` attribute + directly, e.g. `series.index = [1, 2, 3]`. + """ + labels = ensure_index(labels) + self._mgr.set_axis(axis, labels) + self._clear_item_cache() + + @final + def swapaxes(self, axis1: Axis, axis2: Axis, copy: bool_t | None = None) -> Self: + """ + Interchange axes and swap values axes appropriately. + + .. deprecated:: 2.1.0 + ``swapaxes`` is deprecated and will be removed. + Please use ``transpose`` instead. + + Returns + ------- + same as input + + Examples + -------- + Please see examples for :meth:`DataFrame.transpose`. + """ + warnings.warn( + # GH#51946 + f"'{type(self).__name__}.swapaxes' is deprecated and " + "will be removed in a future version. " + f"Please use '{type(self).__name__}.transpose' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + i = self._get_axis_number(axis1) + j = self._get_axis_number(axis2) + + if i == j: + return self.copy(deep=copy and not using_copy_on_write()) + + mapping = {i: j, j: i} + + new_axes = [self._get_axis(mapping.get(k, k)) for k in range(self._AXIS_LEN)] + new_values = self._values.swapaxes(i, j) # type: ignore[union-attr] + if self._mgr.is_single_block and isinstance(self._mgr, BlockManager): + # This should only get hit in case of having a single block, otherwise a + # copy is made, we don't have to set up references. + new_mgr = ndarray_to_mgr( + new_values, + new_axes[0], + new_axes[1], + dtype=None, + copy=False, + typ="block", + ) + assert isinstance(new_mgr, BlockManager) + assert isinstance(self._mgr, BlockManager) + new_mgr.blocks[0].refs = self._mgr.blocks[0].refs + new_mgr.blocks[0].refs.add_reference(new_mgr.blocks[0]) + if not using_copy_on_write() and copy is not False: + new_mgr = new_mgr.copy(deep=True) + + out = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + return out.__finalize__(self, method="swapaxes") + + return self._constructor( + new_values, + *new_axes, + # The no-copy case for CoW is handled above + copy=False, + ).__finalize__(self, method="swapaxes") + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def droplevel(self, level: IndexLabel, axis: Axis = 0) -> Self: + """ + Return {klass} with requested index / column level(s) removed. + + Parameters + ---------- + level : int, str, or list-like + If a string is given, must be the name of a level + If list-like, elements must be names or positional indexes + of levels. + + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + Axis along which the level(s) is removed: + + * 0 or 'index': remove level(s) in column. + * 1 or 'columns': remove level(s) in row. + + For `Series` this parameter is unused and defaults to 0. + + Returns + ------- + {klass} + {klass} with requested index / column level(s) removed. + + Examples + -------- + >>> df = pd.DataFrame([ + ... [1, 2, 3, 4], + ... [5, 6, 7, 8], + ... [9, 10, 11, 12] + ... ]).set_index([0, 1]).rename_axis(['a', 'b']) + + >>> df.columns = pd.MultiIndex.from_tuples([ + ... ('c', 'e'), ('d', 'f') + ... ], names=['level_1', 'level_2']) + + >>> df + level_1 c d + level_2 e f + a b + 1 2 3 4 + 5 6 7 8 + 9 10 11 12 + + >>> df.droplevel('a') + level_1 c d + level_2 e f + b + 2 3 4 + 6 7 8 + 10 11 12 + + >>> df.droplevel('level_2', axis=1) + level_1 c d + a b + 1 2 3 4 + 5 6 7 8 + 9 10 11 12 + """ + labels = self._get_axis(axis) + new_labels = labels.droplevel(level) + return self.set_axis(new_labels, axis=axis, copy=None) + + def pop(self, item: Hashable) -> Series | Any: + result = self[item] + del self[item] + + return result + + @final + def squeeze(self, axis: Axis | None = None): + """ + Squeeze 1 dimensional axis objects into scalars. + + Series or DataFrames with a single element are squeezed to a scalar. + DataFrames with a single column or a single row are squeezed to a + Series. Otherwise the object is unchanged. + + This method is most useful when you don't know if your + object is a Series or DataFrame, but you do know it has just a single + column. In that case you can safely call `squeeze` to ensure you have a + Series. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns', None}, default None + A specific axis to squeeze. By default, all length-1 axes are + squeezed. For `Series` this parameter is unused and defaults to `None`. + + Returns + ------- + DataFrame, Series, or scalar + The projection after squeezing `axis` or all the axes. + + See Also + -------- + Series.iloc : Integer-location based indexing for selecting scalars. + DataFrame.iloc : Integer-location based indexing for selecting Series. + Series.to_frame : Inverse of DataFrame.squeeze for a + single-column DataFrame. + + Examples + -------- + >>> primes = pd.Series([2, 3, 5, 7]) + + Slicing might produce a Series with a single value: + + >>> even_primes = primes[primes % 2 == 0] + >>> even_primes + 0 2 + dtype: int64 + + >>> even_primes.squeeze() + 2 + + Squeezing objects with more than one value in every axis does nothing: + + >>> odd_primes = primes[primes % 2 == 1] + >>> odd_primes + 1 3 + 2 5 + 3 7 + dtype: int64 + + >>> odd_primes.squeeze() + 1 3 + 2 5 + 3 7 + dtype: int64 + + Squeezing is even more effective when used with DataFrames. + + >>> df = pd.DataFrame([[1, 2], [3, 4]], columns=['a', 'b']) + >>> df + a b + 0 1 2 + 1 3 4 + + Slicing a single column will produce a DataFrame with the columns + having only one value: + + >>> df_a = df[['a']] + >>> df_a + a + 0 1 + 1 3 + + So the columns can be squeezed down, resulting in a Series: + + >>> df_a.squeeze('columns') + 0 1 + 1 3 + Name: a, dtype: int64 + + Slicing a single row from a single column will produce a single + scalar DataFrame: + + >>> df_0a = df.loc[df.index < 1, ['a']] + >>> df_0a + a + 0 1 + + Squeezing the rows produces a single scalar Series: + + >>> df_0a.squeeze('rows') + a 1 + Name: 0, dtype: int64 + + Squeezing all axes will project directly into a scalar: + + >>> df_0a.squeeze() + 1 + """ + axes = range(self._AXIS_LEN) if axis is None else (self._get_axis_number(axis),) + result = self.iloc[ + tuple( + 0 if i in axes and len(a) == 1 else slice(None) + for i, a in enumerate(self.axes) + ) + ] + if isinstance(result, NDFrame): + result = result.__finalize__(self, method="squeeze") + return result + + # ---------------------------------------------------------------------- + # Rename + + @final + def _rename( + self, + mapper: Renamer | None = None, + *, + index: Renamer | None = None, + columns: Renamer | None = None, + axis: Axis | None = None, + copy: bool_t | None = None, + inplace: bool_t = False, + level: Level | None = None, + errors: str = "ignore", + ) -> Self | None: + # called by Series.rename and DataFrame.rename + + if mapper is None and index is None and columns is None: + raise TypeError("must pass an index to rename") + + if index is not None or columns is not None: + if axis is not None: + raise TypeError( + "Cannot specify both 'axis' and any of 'index' or 'columns'" + ) + if mapper is not None: + raise TypeError( + "Cannot specify both 'mapper' and any of 'index' or 'columns'" + ) + else: + # use the mapper argument + if axis and self._get_axis_number(axis) == 1: + columns = mapper + else: + index = mapper + + self._check_inplace_and_allows_duplicate_labels(inplace) + result = self if inplace else self.copy(deep=copy and not using_copy_on_write()) + + for axis_no, replacements in enumerate((index, columns)): + if replacements is None: + continue + + ax = self._get_axis(axis_no) + f = common.get_rename_function(replacements) + + if level is not None: + level = ax._get_level_number(level) + + # GH 13473 + if not callable(replacements): + if ax._is_multi and level is not None: + indexer = ax.get_level_values(level).get_indexer_for(replacements) + else: + indexer = ax.get_indexer_for(replacements) + + if errors == "raise" and len(indexer[indexer == -1]): + missing_labels = [ + label + for index, label in enumerate(replacements) + if indexer[index] == -1 + ] + raise KeyError(f"{missing_labels} not found in axis") + + new_index = ax._transform_index(f, level=level) + result._set_axis_nocheck(new_index, axis=axis_no, inplace=True, copy=False) + result._clear_item_cache() + + if inplace: + self._update_inplace(result) + return None + else: + return result.__finalize__(self, method="rename") + + @overload + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + columns=..., + axis: Axis = ..., + copy: bool_t | None = ..., + inplace: Literal[False] = ..., + ) -> Self: + ... + + @overload + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + columns=..., + axis: Axis = ..., + copy: bool_t | None = ..., + inplace: Literal[True], + ) -> None: + ... + + @overload + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + columns=..., + axis: Axis = ..., + copy: bool_t | None = ..., + inplace: bool_t = ..., + ) -> Self | None: + ... + + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = lib.no_default, + *, + index=lib.no_default, + columns=lib.no_default, + axis: Axis = 0, + copy: bool_t | None = None, + inplace: bool_t = False, + ) -> Self | None: + """ + Set the name of the axis for the index or columns. + + Parameters + ---------- + mapper : scalar, list-like, optional + Value to set the axis name attribute. + index, columns : scalar, list-like, dict-like or function, optional + A scalar, list-like, dict-like or functions transformations to + apply to that axis' values. + Note that the ``columns`` parameter is not allowed if the + object is a Series. This parameter only apply for DataFrame + type objects. + + Use either ``mapper`` and ``axis`` to + specify the axis to target with ``mapper``, or ``index`` + and/or ``columns``. + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to rename. For `Series` this parameter is unused and defaults to 0. + copy : bool, default None + Also copy underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + inplace : bool, default False + Modifies the object directly, instead of creating a new Series + or DataFrame. + + Returns + ------- + Series, DataFrame, or None + The same type as the caller or None if ``inplace=True``. + + See Also + -------- + Series.rename : Alter Series index labels or name. + DataFrame.rename : Alter DataFrame index labels or name. + Index.rename : Set new names on index. + + Notes + ----- + ``DataFrame.rename_axis`` supports two calling conventions + + * ``(index=index_mapper, columns=columns_mapper, ...)`` + * ``(mapper, axis={'index', 'columns'}, ...)`` + + The first calling convention will only modify the names of + the index and/or the names of the Index object that is the columns. + In this case, the parameter ``copy`` is ignored. + + The second calling convention will modify the names of the + corresponding index if mapper is a list or a scalar. + However, if mapper is dict-like or a function, it will use the + deprecated behavior of modifying the axis *labels*. + + We *highly* recommend using keyword arguments to clarify your + intent. + + Examples + -------- + **Series** + + >>> s = pd.Series(["dog", "cat", "monkey"]) + >>> s + 0 dog + 1 cat + 2 monkey + dtype: object + >>> s.rename_axis("animal") + animal + 0 dog + 1 cat + 2 monkey + dtype: object + + **DataFrame** + + >>> df = pd.DataFrame({"num_legs": [4, 4, 2], + ... "num_arms": [0, 0, 2]}, + ... ["dog", "cat", "monkey"]) + >>> df + num_legs num_arms + dog 4 0 + cat 4 0 + monkey 2 2 + >>> df = df.rename_axis("animal") + >>> df + num_legs num_arms + animal + dog 4 0 + cat 4 0 + monkey 2 2 + >>> df = df.rename_axis("limbs", axis="columns") + >>> df + limbs num_legs num_arms + animal + dog 4 0 + cat 4 0 + monkey 2 2 + + **MultiIndex** + + >>> df.index = pd.MultiIndex.from_product([['mammal'], + ... ['dog', 'cat', 'monkey']], + ... names=['type', 'name']) + >>> df + limbs num_legs num_arms + type name + mammal dog 4 0 + cat 4 0 + monkey 2 2 + + >>> df.rename_axis(index={'type': 'class'}) + limbs num_legs num_arms + class name + mammal dog 4 0 + cat 4 0 + monkey 2 2 + + >>> df.rename_axis(columns=str.upper) + LIMBS num_legs num_arms + type name + mammal dog 4 0 + cat 4 0 + monkey 2 2 + """ + axes = {"index": index, "columns": columns} + + if axis is not None: + axis = self._get_axis_number(axis) + + inplace = validate_bool_kwarg(inplace, "inplace") + + if copy and using_copy_on_write(): + copy = False + + if mapper is not lib.no_default: + # Use v0.23 behavior if a scalar or list + non_mapper = is_scalar(mapper) or ( + is_list_like(mapper) and not is_dict_like(mapper) + ) + if non_mapper: + return self._set_axis_name( + mapper, axis=axis, inplace=inplace, copy=copy + ) + else: + raise ValueError("Use `.rename` to alter labels with a mapper.") + else: + # Use new behavior. Means that index and/or columns + # is specified + result = self if inplace else self.copy(deep=copy) + + for axis in range(self._AXIS_LEN): + v = axes.get(self._get_axis_name(axis)) + if v is lib.no_default: + continue + non_mapper = is_scalar(v) or (is_list_like(v) and not is_dict_like(v)) + if non_mapper: + newnames = v + else: + f = common.get_rename_function(v) + curnames = self._get_axis(axis).names + newnames = [f(name) for name in curnames] + result._set_axis_name(newnames, axis=axis, inplace=True, copy=copy) + if not inplace: + return result + return None + + @final + def _set_axis_name( + self, name, axis: Axis = 0, inplace: bool_t = False, copy: bool_t | None = True + ): + """ + Set the name(s) of the axis. + + Parameters + ---------- + name : str or list of str + Name(s) to set. + axis : {0 or 'index', 1 or 'columns'}, default 0 + The axis to set the label. The value 0 or 'index' specifies index, + and the value 1 or 'columns' specifies columns. + inplace : bool, default False + If `True`, do operation inplace and return None. + copy: + Whether to make a copy of the result. + + Returns + ------- + Series, DataFrame, or None + The same type as the caller or `None` if `inplace` is `True`. + + See Also + -------- + DataFrame.rename : Alter the axis labels of :class:`DataFrame`. + Series.rename : Alter the index labels or set the index name + of :class:`Series`. + Index.rename : Set the name of :class:`Index` or :class:`MultiIndex`. + + Examples + -------- + >>> df = pd.DataFrame({"num_legs": [4, 4, 2]}, + ... ["dog", "cat", "monkey"]) + >>> df + num_legs + dog 4 + cat 4 + monkey 2 + >>> df._set_axis_name("animal") + num_legs + animal + dog 4 + cat 4 + monkey 2 + >>> df.index = pd.MultiIndex.from_product( + ... [["mammal"], ['dog', 'cat', 'monkey']]) + >>> df._set_axis_name(["type", "name"]) + num_legs + type name + mammal dog 4 + cat 4 + monkey 2 + """ + axis = self._get_axis_number(axis) + idx = self._get_axis(axis).set_names(name) + + inplace = validate_bool_kwarg(inplace, "inplace") + renamed = self if inplace else self.copy(deep=copy) + if axis == 0: + renamed.index = idx + else: + renamed.columns = idx + + if not inplace: + return renamed + + # ---------------------------------------------------------------------- + # Comparison Methods + + @final + def _indexed_same(self, other) -> bool_t: + return all( + self._get_axis(a).equals(other._get_axis(a)) for a in self._AXIS_ORDERS + ) + + @final + def equals(self, other: object) -> bool_t: + """ + Test whether two objects contain the same elements. + + This function allows two Series or DataFrames to be compared against + each other to see if they have the same shape and elements. NaNs in + the same location are considered equal. + + The row/column index do not need to have the same type, as long + as the values are considered equal. Corresponding columns and + index must be of the same dtype. + + Parameters + ---------- + other : Series or DataFrame + The other Series or DataFrame to be compared with the first. + + Returns + ------- + bool + True if all elements are the same in both objects, False + otherwise. + + See Also + -------- + Series.eq : Compare two Series objects of the same length + and return a Series where each element is True if the element + in each Series is equal, False otherwise. + DataFrame.eq : Compare two DataFrame objects of the same shape and + return a DataFrame where each element is True if the respective + element in each DataFrame is equal, False otherwise. + testing.assert_series_equal : Raises an AssertionError if left and + right are not equal. Provides an easy interface to ignore + inequality in dtypes, indexes and precision among others. + testing.assert_frame_equal : Like assert_series_equal, but targets + DataFrames. + numpy.array_equal : Return True if two arrays have the same shape + and elements, False otherwise. + + Examples + -------- + >>> df = pd.DataFrame({1: [10], 2: [20]}) + >>> df + 1 2 + 0 10 20 + + DataFrames df and exactly_equal have the same types and values for + their elements and column labels, which will return True. + + >>> exactly_equal = pd.DataFrame({1: [10], 2: [20]}) + >>> exactly_equal + 1 2 + 0 10 20 + >>> df.equals(exactly_equal) + True + + DataFrames df and different_column_type have the same element + types and values, but have different types for the column labels, + which will still return True. + + >>> different_column_type = pd.DataFrame({1.0: [10], 2.0: [20]}) + >>> different_column_type + 1.0 2.0 + 0 10 20 + >>> df.equals(different_column_type) + True + + DataFrames df and different_data_type have different types for the + same values for their elements, and will return False even though + their column labels are the same values and types. + + >>> different_data_type = pd.DataFrame({1: [10.0], 2: [20.0]}) + >>> different_data_type + 1 2 + 0 10.0 20.0 + >>> df.equals(different_data_type) + False + """ + if not (isinstance(other, type(self)) or isinstance(self, type(other))): + return False + other = cast(NDFrame, other) + return self._mgr.equals(other._mgr) + + # ------------------------------------------------------------------------- + # Unary Methods + + @final + def __neg__(self) -> Self: + def blk_func(values: ArrayLike): + if is_bool_dtype(values.dtype): + # error: Argument 1 to "inv" has incompatible type "Union + # [ExtensionArray, ndarray[Any, Any]]"; expected + # "_SupportsInversion[ndarray[Any, dtype[bool_]]]" + return operator.inv(values) # type: ignore[arg-type] + else: + # error: Argument 1 to "neg" has incompatible type "Union + # [ExtensionArray, ndarray[Any, Any]]"; expected + # "_SupportsNeg[ndarray[Any, dtype[Any]]]" + return operator.neg(values) # type: ignore[arg-type] + + new_data = self._mgr.apply(blk_func) + res = self._constructor_from_mgr(new_data, axes=new_data.axes) + return res.__finalize__(self, method="__neg__") + + @final + def __pos__(self) -> Self: + def blk_func(values: ArrayLike): + if is_bool_dtype(values.dtype): + return values.copy() + else: + # error: Argument 1 to "pos" has incompatible type "Union + # [ExtensionArray, ndarray[Any, Any]]"; expected + # "_SupportsPos[ndarray[Any, dtype[Any]]]" + return operator.pos(values) # type: ignore[arg-type] + + new_data = self._mgr.apply(blk_func) + res = self._constructor_from_mgr(new_data, axes=new_data.axes) + return res.__finalize__(self, method="__pos__") + + @final + def __invert__(self) -> Self: + if not self.size: + # inv fails with 0 len + return self.copy(deep=False) + + new_data = self._mgr.apply(operator.invert) + res = self._constructor_from_mgr(new_data, axes=new_data.axes) + return res.__finalize__(self, method="__invert__") + + @final + def __nonzero__(self) -> NoReturn: + raise ValueError( + f"The truth value of a {type(self).__name__} is ambiguous. " + "Use a.empty, a.bool(), a.item(), a.any() or a.all()." + ) + + __bool__ = __nonzero__ + + @final + def bool(self) -> bool_t: + """ + Return the bool of a single element Series or DataFrame. + + .. deprecated:: 2.1.0 + + bool is deprecated and will be removed in future version of pandas. + For ``Series`` use ``pandas.Series.item``. + + This must be a boolean scalar value, either True or False. It will raise a + ValueError if the Series or DataFrame does not have exactly 1 element, or that + element is not boolean (integer values 0 and 1 will also raise an exception). + + Returns + ------- + bool + The value in the Series or DataFrame. + + See Also + -------- + Series.astype : Change the data type of a Series, including to boolean. + DataFrame.astype : Change the data type of a DataFrame, including to boolean. + numpy.bool_ : NumPy boolean data type, used by pandas for boolean values. + + Examples + -------- + The method will only work for single element objects with a boolean value: + + >>> pd.Series([True]).bool() # doctest: +SKIP + True + >>> pd.Series([False]).bool() # doctest: +SKIP + False + + >>> pd.DataFrame({'col': [True]}).bool() # doctest: +SKIP + True + >>> pd.DataFrame({'col': [False]}).bool() # doctest: +SKIP + False + + This is an alternative method and will only work + for single element objects with a boolean value: + + >>> pd.Series([True]).item() # doctest: +SKIP + True + >>> pd.Series([False]).item() # doctest: +SKIP + False + """ + + warnings.warn( + f"{type(self).__name__}.bool is now deprecated and will be removed " + "in future version of pandas", + FutureWarning, + stacklevel=find_stack_level(), + ) + v = self.squeeze() + if isinstance(v, (bool, np.bool_)): + return bool(v) + elif is_scalar(v): + raise ValueError( + "bool cannot act on a non-boolean single element " + f"{type(self).__name__}" + ) + + self.__nonzero__() + # for mypy (__nonzero__ raises) + return True + + @final + def abs(self) -> Self: + """ + Return a Series/DataFrame with absolute numeric value of each element. + + This function only applies to elements that are all numeric. + + Returns + ------- + abs + Series/DataFrame containing the absolute value of each element. + + See Also + -------- + numpy.absolute : Calculate the absolute value element-wise. + + Notes + ----- + For ``complex`` inputs, ``1.2 + 1j``, the absolute value is + :math:`\\sqrt{ a^2 + b^2 }`. + + Examples + -------- + Absolute numeric values in a Series. + + >>> s = pd.Series([-1.10, 2, -3.33, 4]) + >>> s.abs() + 0 1.10 + 1 2.00 + 2 3.33 + 3 4.00 + dtype: float64 + + Absolute numeric values in a Series with complex numbers. + + >>> s = pd.Series([1.2 + 1j]) + >>> s.abs() + 0 1.56205 + dtype: float64 + + Absolute numeric values in a Series with a Timedelta element. + + >>> s = pd.Series([pd.Timedelta('1 days')]) + >>> s.abs() + 0 1 days + dtype: timedelta64[ns] + + Select rows with data closest to certain value using argsort (from + `StackOverflow `__). + + >>> df = pd.DataFrame({ + ... 'a': [4, 5, 6, 7], + ... 'b': [10, 20, 30, 40], + ... 'c': [100, 50, -30, -50] + ... }) + >>> df + a b c + 0 4 10 100 + 1 5 20 50 + 2 6 30 -30 + 3 7 40 -50 + >>> df.loc[(df.c - 43).abs().argsort()] + a b c + 1 5 20 50 + 0 4 10 100 + 2 6 30 -30 + 3 7 40 -50 + """ + res_mgr = self._mgr.apply(np.abs) + return self._constructor_from_mgr(res_mgr, axes=res_mgr.axes).__finalize__( + self, name="abs" + ) + + @final + def __abs__(self) -> Self: + return self.abs() + + @final + def __round__(self, decimals: int = 0) -> Self: + return self.round(decimals).__finalize__(self, method="__round__") + + # ------------------------------------------------------------------------- + # Label or Level Combination Helpers + # + # A collection of helper methods for DataFrame/Series operations that + # accept a combination of column/index labels and levels. All such + # operations should utilize/extend these methods when possible so that we + # have consistent precedence and validation logic throughout the library. + + @final + def _is_level_reference(self, key: Level, axis: Axis = 0) -> bool_t: + """ + Test whether a key is a level reference for a given axis. + + To be considered a level reference, `key` must be a string that: + - (axis=0): Matches the name of an index level and does NOT match + a column label. + - (axis=1): Matches the name of a column level and does NOT match + an index label. + + Parameters + ---------- + key : Hashable + Potential level name for the given axis + axis : int, default 0 + Axis that levels are associated with (0 for index, 1 for columns) + + Returns + ------- + is_level : bool + """ + axis_int = self._get_axis_number(axis) + + return ( + key is not None + and is_hashable(key) + and key in self.axes[axis_int].names + and not self._is_label_reference(key, axis=axis_int) + ) + + @final + def _is_label_reference(self, key: Level, axis: Axis = 0) -> bool_t: + """ + Test whether a key is a label reference for a given axis. + + To be considered a label reference, `key` must be a string that: + - (axis=0): Matches a column label + - (axis=1): Matches an index label + + Parameters + ---------- + key : Hashable + Potential label name, i.e. Index entry. + axis : int, default 0 + Axis perpendicular to the axis that labels are associated with + (0 means search for column labels, 1 means search for index labels) + + Returns + ------- + is_label: bool + """ + axis_int = self._get_axis_number(axis) + other_axes = (ax for ax in range(self._AXIS_LEN) if ax != axis_int) + + return ( + key is not None + and is_hashable(key) + and any(key in self.axes[ax] for ax in other_axes) + ) + + @final + def _is_label_or_level_reference(self, key: Level, axis: AxisInt = 0) -> bool_t: + """ + Test whether a key is a label or level reference for a given axis. + + To be considered either a label or a level reference, `key` must be a + string that: + - (axis=0): Matches a column label or an index level + - (axis=1): Matches an index label or a column level + + Parameters + ---------- + key : Hashable + Potential label or level name + axis : int, default 0 + Axis that levels are associated with (0 for index, 1 for columns) + + Returns + ------- + bool + """ + return self._is_level_reference(key, axis=axis) or self._is_label_reference( + key, axis=axis + ) + + @final + def _check_label_or_level_ambiguity(self, key: Level, axis: Axis = 0) -> None: + """ + Check whether `key` is ambiguous. + + By ambiguous, we mean that it matches both a level of the input + `axis` and a label of the other axis. + + Parameters + ---------- + key : Hashable + Label or level name. + axis : int, default 0 + Axis that levels are associated with (0 for index, 1 for columns). + + Raises + ------ + ValueError: `key` is ambiguous + """ + + axis_int = self._get_axis_number(axis) + other_axes = (ax for ax in range(self._AXIS_LEN) if ax != axis_int) + + if ( + key is not None + and is_hashable(key) + and key in self.axes[axis_int].names + and any(key in self.axes[ax] for ax in other_axes) + ): + # Build an informative and grammatical warning + level_article, level_type = ( + ("an", "index") if axis_int == 0 else ("a", "column") + ) + + label_article, label_type = ( + ("a", "column") if axis_int == 0 else ("an", "index") + ) + + msg = ( + f"'{key}' is both {level_article} {level_type} level and " + f"{label_article} {label_type} label, which is ambiguous." + ) + raise ValueError(msg) + + @final + def _get_label_or_level_values(self, key: Level, axis: AxisInt = 0) -> ArrayLike: + """ + Return a 1-D array of values associated with `key`, a label or level + from the given `axis`. + + Retrieval logic: + - (axis=0): Return column values if `key` matches a column label. + Otherwise return index level values if `key` matches an index + level. + - (axis=1): Return row values if `key` matches an index label. + Otherwise return column level values if 'key' matches a column + level + + Parameters + ---------- + key : Hashable + Label or level name. + axis : int, default 0 + Axis that levels are associated with (0 for index, 1 for columns) + + Returns + ------- + np.ndarray or ExtensionArray + + Raises + ------ + KeyError + if `key` matches neither a label nor a level + ValueError + if `key` matches multiple labels + """ + axis = self._get_axis_number(axis) + other_axes = [ax for ax in range(self._AXIS_LEN) if ax != axis] + + if self._is_label_reference(key, axis=axis): + self._check_label_or_level_ambiguity(key, axis=axis) + values = self.xs(key, axis=other_axes[0])._values + elif self._is_level_reference(key, axis=axis): + values = self.axes[axis].get_level_values(key)._values + else: + raise KeyError(key) + + # Check for duplicates + if values.ndim > 1: + if other_axes and isinstance(self._get_axis(other_axes[0]), MultiIndex): + multi_message = ( + "\n" + "For a multi-index, the label must be a " + "tuple with elements corresponding to each level." + ) + else: + multi_message = "" + + label_axis_name = "column" if axis == 0 else "index" + raise ValueError( + f"The {label_axis_name} label '{key}' is not unique.{multi_message}" + ) + + return values + + @final + def _drop_labels_or_levels(self, keys, axis: AxisInt = 0): + """ + Drop labels and/or levels for the given `axis`. + + For each key in `keys`: + - (axis=0): If key matches a column label then drop the column. + Otherwise if key matches an index level then drop the level. + - (axis=1): If key matches an index label then drop the row. + Otherwise if key matches a column level then drop the level. + + Parameters + ---------- + keys : str or list of str + labels or levels to drop + axis : int, default 0 + Axis that levels are associated with (0 for index, 1 for columns) + + Returns + ------- + dropped: DataFrame + + Raises + ------ + ValueError + if any `keys` match neither a label nor a level + """ + axis = self._get_axis_number(axis) + + # Validate keys + keys = common.maybe_make_list(keys) + invalid_keys = [ + k for k in keys if not self._is_label_or_level_reference(k, axis=axis) + ] + + if invalid_keys: + raise ValueError( + "The following keys are not valid labels or " + f"levels for axis {axis}: {invalid_keys}" + ) + + # Compute levels and labels to drop + levels_to_drop = [k for k in keys if self._is_level_reference(k, axis=axis)] + + labels_to_drop = [k for k in keys if not self._is_level_reference(k, axis=axis)] + + # Perform copy upfront and then use inplace operations below. + # This ensures that we always perform exactly one copy. + # ``copy`` and/or ``inplace`` options could be added in the future. + dropped = self.copy(deep=False) + + if axis == 0: + # Handle dropping index levels + if levels_to_drop: + dropped.reset_index(levels_to_drop, drop=True, inplace=True) + + # Handle dropping columns labels + if labels_to_drop: + dropped.drop(labels_to_drop, axis=1, inplace=True) + else: + # Handle dropping column levels + if levels_to_drop: + if isinstance(dropped.columns, MultiIndex): + # Drop the specified levels from the MultiIndex + dropped.columns = dropped.columns.droplevel(levels_to_drop) + else: + # Drop the last level of Index by replacing with + # a RangeIndex + dropped.columns = RangeIndex(dropped.columns.size) + + # Handle dropping index labels + if labels_to_drop: + dropped.drop(labels_to_drop, axis=0, inplace=True) + + return dropped + + # ---------------------------------------------------------------------- + # Iteration + + # https://github.com/python/typeshed/issues/2148#issuecomment-520783318 + # Incompatible types in assignment (expression has type "None", base class + # "object" defined the type as "Callable[[object], int]") + __hash__: ClassVar[None] # type: ignore[assignment] + + def __iter__(self) -> Iterator: + """ + Iterate over info axis. + + Returns + ------- + iterator + Info axis as iterator. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2, 3], 'B': [4, 5, 6]}) + >>> for x in df: + ... print(x) + A + B + """ + return iter(self._info_axis) + + # can we get a better explanation of this? + def keys(self) -> Index: + """ + Get the 'info axis' (see Indexing for more). + + This is index for Series, columns for DataFrame. + + Returns + ------- + Index + Info axis. + + Examples + -------- + >>> d = pd.DataFrame(data={'A': [1, 2, 3], 'B': [0, 4, 8]}, + ... index=['a', 'b', 'c']) + >>> d + A B + a 1 0 + b 2 4 + c 3 8 + >>> d.keys() + Index(['A', 'B'], dtype='object') + """ + return self._info_axis + + def items(self): + """ + Iterate over (label, values) on info axis + + This is index for Series and columns for DataFrame. + + Returns + ------- + Generator + """ + for h in self._info_axis: + yield h, self[h] + + def __len__(self) -> int: + """Returns length of info axis""" + return len(self._info_axis) + + @final + def __contains__(self, key) -> bool_t: + """True if the key is in the info axis""" + return key in self._info_axis + + @property + def empty(self) -> bool_t: + """ + Indicator whether Series/DataFrame is empty. + + True if Series/DataFrame is entirely empty (no items), meaning any of the + axes are of length 0. + + Returns + ------- + bool + If Series/DataFrame is empty, return True, if not return False. + + See Also + -------- + Series.dropna : Return series without null values. + DataFrame.dropna : Return DataFrame with labels on given axis omitted + where (all or any) data are missing. + + Notes + ----- + If Series/DataFrame contains only NaNs, it is still not considered empty. See + the example below. + + Examples + -------- + An example of an actual empty DataFrame. Notice the index is empty: + + >>> df_empty = pd.DataFrame({'A' : []}) + >>> df_empty + Empty DataFrame + Columns: [A] + Index: [] + >>> df_empty.empty + True + + If we only have NaNs in our DataFrame, it is not considered empty! We + will need to drop the NaNs to make the DataFrame empty: + + >>> df = pd.DataFrame({'A' : [np.nan]}) + >>> df + A + 0 NaN + >>> df.empty + False + >>> df.dropna().empty + True + + >>> ser_empty = pd.Series({'A' : []}) + >>> ser_empty + A [] + dtype: object + >>> ser_empty.empty + False + >>> ser_empty = pd.Series() + >>> ser_empty.empty + True + """ + return any(len(self._get_axis(a)) == 0 for a in self._AXIS_ORDERS) + + # ---------------------------------------------------------------------- + # Array Interface + + # This is also set in IndexOpsMixin + # GH#23114 Ensure ndarray.__op__(DataFrame) returns NotImplemented + __array_priority__: int = 1000 + + def __array__( + self, dtype: npt.DTypeLike | None = None, copy: bool_t | None = None + ) -> np.ndarray: + if copy is False and not self._mgr.is_single_block and not self.empty: + # check this manually, otherwise ._values will already return a copy + # and np.array(values, copy=False) will not raise a warning + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + values = self._values + if copy is None: + # Note: branch avoids `copy=None` for NumPy 1.x support + arr = np.asarray(values, dtype=dtype) + else: + arr = np.array(values, dtype=dtype, copy=copy) + + if ( + copy is not True + and astype_is_view(values.dtype, arr.dtype) + and using_copy_on_write() + and self._mgr.is_single_block + ): + # Check if both conversions can be done without a copy + if astype_is_view(self.dtypes.iloc[0], values.dtype) and astype_is_view( + values.dtype, arr.dtype + ): + arr = arr.view() + arr.flags.writeable = False + return arr + + @final + def __array_ufunc__( + self, ufunc: np.ufunc, method: str, *inputs: Any, **kwargs: Any + ): + return arraylike.array_ufunc(self, ufunc, method, *inputs, **kwargs) + + # ---------------------------------------------------------------------- + # Picklability + + @final + def __getstate__(self) -> dict[str, Any]: + meta = {k: getattr(self, k, None) for k in self._metadata} + return { + "_mgr": self._mgr, + "_typ": self._typ, + "_metadata": self._metadata, + "attrs": self.attrs, + "_flags": {k: self.flags[k] for k in self.flags._keys}, + **meta, + } + + @final + def __setstate__(self, state) -> None: + if isinstance(state, BlockManager): + self._mgr = state + elif isinstance(state, dict): + if "_data" in state and "_mgr" not in state: + # compat for older pickles + state["_mgr"] = state.pop("_data") + typ = state.get("_typ") + if typ is not None: + attrs = state.get("_attrs", {}) + if attrs is None: # should not happen, but better be on the safe side + attrs = {} + object.__setattr__(self, "_attrs", attrs) + flags = state.get("_flags", {"allows_duplicate_labels": True}) + object.__setattr__(self, "_flags", Flags(self, **flags)) + + # set in the order of internal names + # to avoid definitional recursion + # e.g. say fill_value needing _mgr to be + # defined + meta = set(self._internal_names + self._metadata) + for k in list(meta): + if k in state and k != "_flags": + v = state[k] + object.__setattr__(self, k, v) + + for k, v in state.items(): + if k not in meta: + object.__setattr__(self, k, v) + + else: + raise NotImplementedError("Pre-0.12 pickles are no longer supported") + elif len(state) == 2: + raise NotImplementedError("Pre-0.12 pickles are no longer supported") + + self._item_cache: dict[Hashable, Series] = {} + + # ---------------------------------------------------------------------- + # Rendering Methods + + def __repr__(self) -> str: + # string representation based upon iterating over self + # (since, by definition, `PandasContainers` are iterable) + prepr = f"[{','.join(map(pprint_thing, self))}]" + return f"{type(self).__name__}({prepr})" + + @final + def _repr_latex_(self): + """ + Returns a LaTeX representation for a particular object. + Mainly for use with nbconvert (jupyter notebook conversion to pdf). + """ + if config.get_option("styler.render.repr") == "latex": + return self.to_latex() + else: + return None + + @final + def _repr_data_resource_(self): + """ + Not a real Jupyter special repr method, but we use the same + naming convention. + """ + if config.get_option("display.html.table_schema"): + data = self.head(config.get_option("display.max_rows")) + + as_json = data.to_json(orient="table") + as_json = cast(str, as_json) + return loads(as_json, object_pairs_hook=collections.OrderedDict) + + # ---------------------------------------------------------------------- + # I/O Methods + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "excel_writer"], name="to_excel" + ) + @doc( + klass="object", + storage_options=_shared_docs["storage_options"], + storage_options_versionadded="1.2.0", + ) + def to_excel( + self, + excel_writer: FilePath | WriteExcelBuffer | ExcelWriter, + sheet_name: str = "Sheet1", + na_rep: str = "", + float_format: str | None = None, + columns: Sequence[Hashable] | None = None, + header: Sequence[Hashable] | bool_t = True, + index: bool_t = True, + index_label: IndexLabel | None = None, + startrow: int = 0, + startcol: int = 0, + engine: Literal["openpyxl", "xlsxwriter"] | None = None, + merge_cells: bool_t = True, + inf_rep: str = "inf", + freeze_panes: tuple[int, int] | None = None, + storage_options: StorageOptions | None = None, + engine_kwargs: dict[str, Any] | None = None, + ) -> None: + """ + Write {klass} to an Excel sheet. + + To write a single {klass} to an Excel .xlsx file it is only necessary to + specify a target file name. To write to multiple sheets it is necessary to + create an `ExcelWriter` object with a target file name, and specify a sheet + in the file to write to. + + Multiple sheets may be written to by specifying unique `sheet_name`. + With all data written to the file it is necessary to save the changes. + Note that creating an `ExcelWriter` object with a file name that already + exists will result in the contents of the existing file being erased. + + Parameters + ---------- + excel_writer : path-like, file-like, or ExcelWriter object + File path or existing ExcelWriter. + sheet_name : str, default 'Sheet1' + Name of sheet which will contain DataFrame. + na_rep : str, default '' + Missing data representation. + float_format : str, optional + Format string for floating point numbers. For example + ``float_format="%.2f"`` will format 0.1234 to 0.12. + columns : sequence or list of str, optional + Columns to write. + header : bool or list of str, default True + Write out the column names. If a list of string is given it is + assumed to be aliases for the column names. + index : bool, default True + Write row names (index). + index_label : str or sequence, optional + Column label for index column(s) if desired. If not specified, and + `header` and `index` are True, then the index names are used. A + sequence should be given if the DataFrame uses MultiIndex. + startrow : int, default 0 + Upper left cell row to dump data frame. + startcol : int, default 0 + Upper left cell column to dump data frame. + engine : str, optional + Write engine to use, 'openpyxl' or 'xlsxwriter'. You can also set this + via the options ``io.excel.xlsx.writer`` or + ``io.excel.xlsm.writer``. + + merge_cells : bool, default True + Write MultiIndex and Hierarchical Rows as merged cells. + inf_rep : str, default 'inf' + Representation for infinity (there is no native representation for + infinity in Excel). + freeze_panes : tuple of int (length 2), optional + Specifies the one-based bottommost row and rightmost column that + is to be frozen. + {storage_options} + + .. versionadded:: {storage_options_versionadded} + engine_kwargs : dict, optional + Arbitrary keyword arguments passed to excel engine. + + See Also + -------- + to_csv : Write DataFrame to a comma-separated values (csv) file. + ExcelWriter : Class for writing DataFrame objects into excel sheets. + read_excel : Read an Excel file into a pandas DataFrame. + read_csv : Read a comma-separated values (csv) file into DataFrame. + io.formats.style.Styler.to_excel : Add styles to Excel sheet. + + Notes + ----- + For compatibility with :meth:`~DataFrame.to_csv`, + to_excel serializes lists and dicts to strings before writing. + + Once a workbook has been saved it is not possible to write further + data without rewriting the whole workbook. + + Examples + -------- + + Create, write to and save a workbook: + + >>> df1 = pd.DataFrame([['a', 'b'], ['c', 'd']], + ... index=['row 1', 'row 2'], + ... columns=['col 1', 'col 2']) + >>> df1.to_excel("output.xlsx") # doctest: +SKIP + + To specify the sheet name: + + >>> df1.to_excel("output.xlsx", + ... sheet_name='Sheet_name_1') # doctest: +SKIP + + If you wish to write to more than one sheet in the workbook, it is + necessary to specify an ExcelWriter object: + + >>> df2 = df1.copy() + >>> with pd.ExcelWriter('output.xlsx') as writer: # doctest: +SKIP + ... df1.to_excel(writer, sheet_name='Sheet_name_1') + ... df2.to_excel(writer, sheet_name='Sheet_name_2') + + ExcelWriter can also be used to append to an existing Excel file: + + >>> with pd.ExcelWriter('output.xlsx', + ... mode='a') as writer: # doctest: +SKIP + ... df1.to_excel(writer, sheet_name='Sheet_name_3') + + To set the library that is used to write the Excel file, + you can pass the `engine` keyword (the default engine is + automatically chosen depending on the file extension): + + >>> df1.to_excel('output1.xlsx', engine='xlsxwriter') # doctest: +SKIP + """ + if engine_kwargs is None: + engine_kwargs = {} + + df = self if isinstance(self, ABCDataFrame) else self.to_frame() + + from pandas.io.formats.excel import ExcelFormatter + + formatter = ExcelFormatter( + df, + na_rep=na_rep, + cols=columns, + header=header, + float_format=float_format, + index=index, + index_label=index_label, + merge_cells=merge_cells, + inf_rep=inf_rep, + ) + formatter.write( + excel_writer, + sheet_name=sheet_name, + startrow=startrow, + startcol=startcol, + freeze_panes=freeze_panes, + engine=engine, + storage_options=storage_options, + engine_kwargs=engine_kwargs, + ) + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path_or_buf"], name="to_json" + ) + @doc( + storage_options=_shared_docs["storage_options"], + compression_options=_shared_docs["compression_options"] % "path_or_buf", + ) + def to_json( + self, + path_or_buf: FilePath | WriteBuffer[bytes] | WriteBuffer[str] | None = None, + orient: Literal["split", "records", "index", "table", "columns", "values"] + | None = None, + date_format: str | None = None, + double_precision: int = 10, + force_ascii: bool_t = True, + date_unit: TimeUnit = "ms", + default_handler: Callable[[Any], JSONSerializable] | None = None, + lines: bool_t = False, + compression: CompressionOptions = "infer", + index: bool_t | None = None, + indent: int | None = None, + storage_options: StorageOptions | None = None, + mode: Literal["a", "w"] = "w", + ) -> str | None: + """ + Convert the object to a JSON string. + + Note NaN's and None will be converted to null and datetime objects + will be converted to UNIX timestamps. + + Parameters + ---------- + path_or_buf : str, path object, file-like object, or None, default None + String, path object (implementing os.PathLike[str]), or file-like + object implementing a write() function. If None, the result is + returned as a string. + orient : str + Indication of expected JSON string format. + + * Series: + + - default is 'index' + - allowed values are: {{'split', 'records', 'index', 'table'}}. + + * DataFrame: + + - default is 'columns' + - allowed values are: {{'split', 'records', 'index', 'columns', + 'values', 'table'}}. + + * The format of the JSON string: + + - 'split' : dict like {{'index' -> [index], 'columns' -> [columns], + 'data' -> [values]}} + - 'records' : list like [{{column -> value}}, ... , {{column -> value}}] + - 'index' : dict like {{index -> {{column -> value}}}} + - 'columns' : dict like {{column -> {{index -> value}}}} + - 'values' : just the values array + - 'table' : dict like {{'schema': {{schema}}, 'data': {{data}}}} + + Describing the data, where data component is like ``orient='records'``. + + date_format : {{None, 'epoch', 'iso'}} + Type of date conversion. 'epoch' = epoch milliseconds, + 'iso' = ISO8601. The default depends on the `orient`. For + ``orient='table'``, the default is 'iso'. For all other orients, + the default is 'epoch'. + double_precision : int, default 10 + The number of decimal places to use when encoding + floating point values. The possible maximal value is 15. + Passing double_precision greater than 15 will raise a ValueError. + force_ascii : bool, default True + Force encoded string to be ASCII. + date_unit : str, default 'ms' (milliseconds) + The time unit to encode to, governs timestamp and ISO8601 + precision. One of 's', 'ms', 'us', 'ns' for second, millisecond, + microsecond, and nanosecond respectively. + default_handler : callable, default None + Handler to call if object cannot otherwise be converted to a + suitable format for JSON. Should receive a single argument which is + the object to convert and return a serialisable object. + lines : bool, default False + If 'orient' is 'records' write out line-delimited json format. Will + throw ValueError if incorrect 'orient' since others are not + list-like. + {compression_options} + + .. versionchanged:: 1.4.0 Zstandard support. + + index : bool or None, default None + The index is only used when 'orient' is 'split', 'index', 'column', + or 'table'. Of these, 'index' and 'column' do not support + `index=False`. + + indent : int, optional + Length of whitespace used to indent each record. + + {storage_options} + + mode : str, default 'w' (writing) + Specify the IO mode for output when supplying a path_or_buf. + Accepted args are 'w' (writing) and 'a' (append) only. + mode='a' is only supported when lines is True and orient is 'records'. + + Returns + ------- + None or str + If path_or_buf is None, returns the resulting json format as a + string. Otherwise returns None. + + See Also + -------- + read_json : Convert a JSON string to pandas object. + + Notes + ----- + The behavior of ``indent=0`` varies from the stdlib, which does not + indent the output but does insert newlines. Currently, ``indent=0`` + and the default ``indent=None`` are equivalent in pandas, though this + may change in a future release. + + ``orient='table'`` contains a 'pandas_version' field under 'schema'. + This stores the version of `pandas` used in the latest revision of the + schema. + + Examples + -------- + >>> from json import loads, dumps + >>> df = pd.DataFrame( + ... [["a", "b"], ["c", "d"]], + ... index=["row 1", "row 2"], + ... columns=["col 1", "col 2"], + ... ) + + >>> result = df.to_json(orient="split") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + {{ + "columns": [ + "col 1", + "col 2" + ], + "index": [ + "row 1", + "row 2" + ], + "data": [ + [ + "a", + "b" + ], + [ + "c", + "d" + ] + ] + }} + + Encoding/decoding a Dataframe using ``'records'`` formatted JSON. + Note that index labels are not preserved with this encoding. + + >>> result = df.to_json(orient="records") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + [ + {{ + "col 1": "a", + "col 2": "b" + }}, + {{ + "col 1": "c", + "col 2": "d" + }} + ] + + Encoding/decoding a Dataframe using ``'index'`` formatted JSON: + + >>> result = df.to_json(orient="index") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + {{ + "row 1": {{ + "col 1": "a", + "col 2": "b" + }}, + "row 2": {{ + "col 1": "c", + "col 2": "d" + }} + }} + + Encoding/decoding a Dataframe using ``'columns'`` formatted JSON: + + >>> result = df.to_json(orient="columns") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + {{ + "col 1": {{ + "row 1": "a", + "row 2": "c" + }}, + "col 2": {{ + "row 1": "b", + "row 2": "d" + }} + }} + + Encoding/decoding a Dataframe using ``'values'`` formatted JSON: + + >>> result = df.to_json(orient="values") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + [ + [ + "a", + "b" + ], + [ + "c", + "d" + ] + ] + + Encoding with Table Schema: + + >>> result = df.to_json(orient="table") + >>> parsed = loads(result) + >>> dumps(parsed, indent=4) # doctest: +SKIP + {{ + "schema": {{ + "fields": [ + {{ + "name": "index", + "type": "string" + }}, + {{ + "name": "col 1", + "type": "string" + }}, + {{ + "name": "col 2", + "type": "string" + }} + ], + "primaryKey": [ + "index" + ], + "pandas_version": "1.4.0" + }}, + "data": [ + {{ + "index": "row 1", + "col 1": "a", + "col 2": "b" + }}, + {{ + "index": "row 2", + "col 1": "c", + "col 2": "d" + }} + ] + }} + """ + from pandas.io import json + + if date_format is None and orient == "table": + date_format = "iso" + elif date_format is None: + date_format = "epoch" + + config.is_nonnegative_int(indent) + indent = indent or 0 + + return json.to_json( + path_or_buf=path_or_buf, + obj=self, + orient=orient, + date_format=date_format, + double_precision=double_precision, + force_ascii=force_ascii, + date_unit=date_unit, + default_handler=default_handler, + lines=lines, + compression=compression, + index=index, + indent=indent, + storage_options=storage_options, + mode=mode, + ) + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path_or_buf"], name="to_hdf" + ) + def to_hdf( + self, + path_or_buf: FilePath | HDFStore, + key: str, + mode: Literal["a", "w", "r+"] = "a", + complevel: int | None = None, + complib: Literal["zlib", "lzo", "bzip2", "blosc"] | None = None, + append: bool_t = False, + format: Literal["fixed", "table"] | None = None, + index: bool_t = True, + min_itemsize: int | dict[str, int] | None = None, + nan_rep=None, + dropna: bool_t | None = None, + data_columns: Literal[True] | list[str] | None = None, + errors: OpenFileErrors = "strict", + encoding: str = "UTF-8", + ) -> None: + """ + Write the contained data to an HDF5 file using HDFStore. + + Hierarchical Data Format (HDF) is self-describing, allowing an + application to interpret the structure and contents of a file with + no outside information. One HDF file can hold a mix of related objects + which can be accessed as a group or as individual objects. + + In order to add another DataFrame or Series to an existing HDF file + please use append mode and a different a key. + + .. warning:: + + One can store a subclass of ``DataFrame`` or ``Series`` to HDF5, + but the type of the subclass is lost upon storing. + + For more information see the :ref:`user guide `. + + Parameters + ---------- + path_or_buf : str or pandas.HDFStore + File path or HDFStore object. + key : str + Identifier for the group in the store. + mode : {'a', 'w', 'r+'}, default 'a' + Mode to open file: + + - 'w': write, a new file is created (an existing file with + the same name would be deleted). + - 'a': append, an existing file is opened for reading and + writing, and if the file does not exist it is created. + - 'r+': similar to 'a', but the file must already exist. + complevel : {0-9}, default None + Specifies a compression level for data. + A value of 0 or None disables compression. + complib : {'zlib', 'lzo', 'bzip2', 'blosc'}, default 'zlib' + Specifies the compression library to be used. + These additional compressors for Blosc are supported + (default if no compressor specified: 'blosc:blosclz'): + {'blosc:blosclz', 'blosc:lz4', 'blosc:lz4hc', 'blosc:snappy', + 'blosc:zlib', 'blosc:zstd'}. + Specifying a compression library which is not available issues + a ValueError. + append : bool, default False + For Table formats, append the input data to the existing. + format : {'fixed', 'table', None}, default 'fixed' + Possible values: + + - 'fixed': Fixed format. Fast writing/reading. Not-appendable, + nor searchable. + - 'table': Table format. Write as a PyTables Table structure + which may perform worse but allow more flexible operations + like searching / selecting subsets of the data. + - If None, pd.get_option('io.hdf.default_format') is checked, + followed by fallback to "fixed". + index : bool, default True + Write DataFrame index as a column. + min_itemsize : dict or int, optional + Map column names to minimum string sizes for columns. + nan_rep : Any, optional + How to represent null values as str. + Not allowed with append=True. + dropna : bool, default False, optional + Remove missing values. + data_columns : list of columns or True, optional + List of columns to create as indexed data columns for on-disk + queries, or True to use all columns. By default only the axes + of the object are indexed. See + :ref:`Query via data columns`. for + more information. + Applicable only to format='table'. + errors : str, default 'strict' + Specifies how encoding and decoding errors are to be handled. + See the errors argument for :func:`open` for a full list + of options. + encoding : str, default "UTF-8" + + See Also + -------- + read_hdf : Read from HDF file. + DataFrame.to_orc : Write a DataFrame to the binary orc format. + DataFrame.to_parquet : Write a DataFrame to the binary parquet format. + DataFrame.to_sql : Write to a SQL table. + DataFrame.to_feather : Write out feather-format for DataFrames. + DataFrame.to_csv : Write out to a csv file. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 2, 3], 'B': [4, 5, 6]}, + ... index=['a', 'b', 'c']) # doctest: +SKIP + >>> df.to_hdf('data.h5', key='df', mode='w') # doctest: +SKIP + + We can add another object to the same file: + + >>> s = pd.Series([1, 2, 3, 4]) # doctest: +SKIP + >>> s.to_hdf('data.h5', key='s') # doctest: +SKIP + + Reading from HDF file: + + >>> pd.read_hdf('data.h5', 'df') # doctest: +SKIP + A B + a 1 4 + b 2 5 + c 3 6 + >>> pd.read_hdf('data.h5', 's') # doctest: +SKIP + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + """ + from pandas.io import pytables + + # Argument 3 to "to_hdf" has incompatible type "NDFrame"; expected + # "Union[DataFrame, Series]" [arg-type] + pytables.to_hdf( + path_or_buf, + key, + self, # type: ignore[arg-type] + mode=mode, + complevel=complevel, + complib=complib, + append=append, + format=format, + index=index, + min_itemsize=min_itemsize, + nan_rep=nan_rep, + dropna=dropna, + data_columns=data_columns, + errors=errors, + encoding=encoding, + ) + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "name", "con"], name="to_sql" + ) + def to_sql( + self, + name: str, + con, + schema: str | None = None, + if_exists: Literal["fail", "replace", "append"] = "fail", + index: bool_t = True, + index_label: IndexLabel | None = None, + chunksize: int | None = None, + dtype: DtypeArg | None = None, + method: Literal["multi"] | Callable | None = None, + ) -> int | None: + """ + Write records stored in a DataFrame to a SQL database. + + Databases supported by SQLAlchemy [1]_ are supported. Tables can be + newly created, appended to, or overwritten. + + Parameters + ---------- + name : str + Name of SQL table. + con : sqlalchemy.engine.(Engine or Connection) or sqlite3.Connection + Using SQLAlchemy makes it possible to use any DB supported by that + library. Legacy support is provided for sqlite3.Connection objects. The user + is responsible for engine disposal and connection closure for the SQLAlchemy + connectable. See `here \ + `_. + If passing a sqlalchemy.engine.Connection which is already in a transaction, + the transaction will not be committed. If passing a sqlite3.Connection, + it will not be possible to roll back the record insertion. + + schema : str, optional + Specify the schema (if database flavor supports this). If None, use + default schema. + if_exists : {'fail', 'replace', 'append'}, default 'fail' + How to behave if the table already exists. + + * fail: Raise a ValueError. + * replace: Drop the table before inserting new values. + * append: Insert new values to the existing table. + + index : bool, default True + Write DataFrame index as a column. Uses `index_label` as the column + name in the table. Creates a table index for this column. + index_label : str or sequence, default None + Column label for index column(s). If None is given (default) and + `index` is True, then the index names are used. + A sequence should be given if the DataFrame uses MultiIndex. + chunksize : int, optional + Specify the number of rows in each batch to be written at a time. + By default, all rows will be written at once. + dtype : dict or scalar, optional + Specifying the datatype for columns. If a dictionary is used, the + keys should be the column names and the values should be the + SQLAlchemy types or strings for the sqlite3 legacy mode. If a + scalar is provided, it will be applied to all columns. + method : {None, 'multi', callable}, optional + Controls the SQL insertion clause used: + + * None : Uses standard SQL ``INSERT`` clause (one per row). + * 'multi': Pass multiple values in a single ``INSERT`` clause. + * callable with signature ``(pd_table, conn, keys, data_iter)``. + + Details and a sample callable implementation can be found in the + section :ref:`insert method `. + + Returns + ------- + None or int + Number of rows affected by to_sql. None is returned if the callable + passed into ``method`` does not return an integer number of rows. + + The number of returned rows affected is the sum of the ``rowcount`` + attribute of ``sqlite3.Cursor`` or SQLAlchemy connectable which may not + reflect the exact number of written rows as stipulated in the + `sqlite3 `__ or + `SQLAlchemy `__. + + .. versionadded:: 1.4.0 + + Raises + ------ + ValueError + When the table already exists and `if_exists` is 'fail' (the + default). + + See Also + -------- + read_sql : Read a DataFrame from a table. + + Notes + ----- + Timezone aware datetime columns will be written as + ``Timestamp with timezone`` type with SQLAlchemy if supported by the + database. Otherwise, the datetimes will be stored as timezone unaware + timestamps local to the original timezone. + + Not all datastores support ``method="multi"``. Oracle, for example, + does not support multi-value insert. + + References + ---------- + .. [1] https://docs.sqlalchemy.org + .. [2] https://www.python.org/dev/peps/pep-0249/ + + Examples + -------- + Create an in-memory SQLite database. + + >>> from sqlalchemy import create_engine + >>> engine = create_engine('sqlite://', echo=False) + + Create a table from scratch with 3 rows. + + >>> df = pd.DataFrame({'name' : ['User 1', 'User 2', 'User 3']}) + >>> df + name + 0 User 1 + 1 User 2 + 2 User 3 + + >>> df.to_sql(name='users', con=engine) + 3 + >>> from sqlalchemy import text + >>> with engine.connect() as conn: + ... conn.execute(text("SELECT * FROM users")).fetchall() + [(0, 'User 1'), (1, 'User 2'), (2, 'User 3')] + + An `sqlalchemy.engine.Connection` can also be passed to `con`: + + >>> with engine.begin() as connection: + ... df1 = pd.DataFrame({'name' : ['User 4', 'User 5']}) + ... df1.to_sql(name='users', con=connection, if_exists='append') + 2 + + This is allowed to support operations that require that the same + DBAPI connection is used for the entire operation. + + >>> df2 = pd.DataFrame({'name' : ['User 6', 'User 7']}) + >>> df2.to_sql(name='users', con=engine, if_exists='append') + 2 + >>> with engine.connect() as conn: + ... conn.execute(text("SELECT * FROM users")).fetchall() + [(0, 'User 1'), (1, 'User 2'), (2, 'User 3'), + (0, 'User 4'), (1, 'User 5'), (0, 'User 6'), + (1, 'User 7')] + + Overwrite the table with just ``df2``. + + >>> df2.to_sql(name='users', con=engine, if_exists='replace', + ... index_label='id') + 2 + >>> with engine.connect() as conn: + ... conn.execute(text("SELECT * FROM users")).fetchall() + [(0, 'User 6'), (1, 'User 7')] + + Use ``method`` to define a callable insertion method to do nothing + if there's a primary key conflict on a table in a PostgreSQL database. + + >>> from sqlalchemy.dialects.postgresql import insert + >>> def insert_on_conflict_nothing(table, conn, keys, data_iter): + ... # "a" is the primary key in "conflict_table" + ... data = [dict(zip(keys, row)) for row in data_iter] + ... stmt = insert(table.table).values(data).on_conflict_do_nothing(index_elements=["a"]) + ... result = conn.execute(stmt) + ... return result.rowcount + >>> df_conflict.to_sql(name="conflict_table", con=conn, if_exists="append", method=insert_on_conflict_nothing) # doctest: +SKIP + 0 + + For MySQL, a callable to update columns ``b`` and ``c`` if there's a conflict + on a primary key. + + >>> from sqlalchemy.dialects.mysql import insert + >>> def insert_on_conflict_update(table, conn, keys, data_iter): + ... # update columns "b" and "c" on primary key conflict + ... data = [dict(zip(keys, row)) for row in data_iter] + ... stmt = ( + ... insert(table.table) + ... .values(data) + ... ) + ... stmt = stmt.on_duplicate_key_update(b=stmt.inserted.b, c=stmt.inserted.c) + ... result = conn.execute(stmt) + ... return result.rowcount + >>> df_conflict.to_sql(name="conflict_table", con=conn, if_exists="append", method=insert_on_conflict_update) # doctest: +SKIP + 2 + + Specify the dtype (especially useful for integers with missing values). + Notice that while pandas is forced to store the data as floating point, + the database supports nullable integers. When fetching the data with + Python, we get back integer scalars. + + >>> df = pd.DataFrame({"A": [1, None, 2]}) + >>> df + A + 0 1.0 + 1 NaN + 2 2.0 + + >>> from sqlalchemy.types import Integer + >>> df.to_sql(name='integers', con=engine, index=False, + ... dtype={"A": Integer()}) + 3 + + >>> with engine.connect() as conn: + ... conn.execute(text("SELECT * FROM integers")).fetchall() + [(1,), (None,), (2,)] + """ # noqa: E501 + from pandas.io import sql + + return sql.to_sql( + self, + name, + con, + schema=schema, + if_exists=if_exists, + index=index, + index_label=index_label, + chunksize=chunksize, + dtype=dtype, + method=method, + ) + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path"], name="to_pickle" + ) + @doc( + storage_options=_shared_docs["storage_options"], + compression_options=_shared_docs["compression_options"] % "path", + ) + def to_pickle( + self, + path: FilePath | WriteBuffer[bytes], + compression: CompressionOptions = "infer", + protocol: int = pickle.HIGHEST_PROTOCOL, + storage_options: StorageOptions | None = None, + ) -> None: + """ + Pickle (serialize) object to file. + + Parameters + ---------- + path : str, path object, or file-like object + String, path object (implementing ``os.PathLike[str]``), or file-like + object implementing a binary ``write()`` function. File path where + the pickled object will be stored. + {compression_options} + protocol : int + Int which indicates which protocol should be used by the pickler, + default HIGHEST_PROTOCOL (see [1]_ paragraph 12.1.2). The possible + values are 0, 1, 2, 3, 4, 5. A negative value for the protocol + parameter is equivalent to setting its value to HIGHEST_PROTOCOL. + + .. [1] https://docs.python.org/3/library/pickle.html. + + {storage_options} + + See Also + -------- + read_pickle : Load pickled pandas object (or any object) from file. + DataFrame.to_hdf : Write DataFrame to an HDF5 file. + DataFrame.to_sql : Write DataFrame to a SQL database. + DataFrame.to_parquet : Write a DataFrame to the binary parquet format. + + Examples + -------- + >>> original_df = pd.DataFrame({{"foo": range(5), "bar": range(5, 10)}}) # doctest: +SKIP + >>> original_df # doctest: +SKIP + foo bar + 0 0 5 + 1 1 6 + 2 2 7 + 3 3 8 + 4 4 9 + >>> original_df.to_pickle("./dummy.pkl") # doctest: +SKIP + + >>> unpickled_df = pd.read_pickle("./dummy.pkl") # doctest: +SKIP + >>> unpickled_df # doctest: +SKIP + foo bar + 0 0 5 + 1 1 6 + 2 2 7 + 3 3 8 + 4 4 9 + """ # noqa: E501 + from pandas.io.pickle import to_pickle + + to_pickle( + self, + path, + compression=compression, + protocol=protocol, + storage_options=storage_options, + ) + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self"], name="to_clipboard" + ) + def to_clipboard( + self, excel: bool_t = True, sep: str | None = None, **kwargs + ) -> None: + r""" + Copy object to the system clipboard. + + Write a text representation of object to the system clipboard. + This can be pasted into Excel, for example. + + Parameters + ---------- + excel : bool, default True + Produce output in a csv format for easy pasting into excel. + + - True, use the provided separator for csv pasting. + - False, write a string representation of the object to the clipboard. + + sep : str, default ``'\t'`` + Field delimiter. + **kwargs + These parameters will be passed to DataFrame.to_csv. + + See Also + -------- + DataFrame.to_csv : Write a DataFrame to a comma-separated values + (csv) file. + read_clipboard : Read text from clipboard and pass to read_csv. + + Notes + ----- + Requirements for your platform. + + - Linux : `xclip`, or `xsel` (with `PyQt4` modules) + - Windows : none + - macOS : none + + This method uses the processes developed for the package `pyperclip`. A + solution to render any output string format is given in the examples. + + Examples + -------- + Copy the contents of a DataFrame to the clipboard. + + >>> df = pd.DataFrame([[1, 2, 3], [4, 5, 6]], columns=['A', 'B', 'C']) + + >>> df.to_clipboard(sep=',') # doctest: +SKIP + ... # Wrote the following to the system clipboard: + ... # ,A,B,C + ... # 0,1,2,3 + ... # 1,4,5,6 + + We can omit the index by passing the keyword `index` and setting + it to false. + + >>> df.to_clipboard(sep=',', index=False) # doctest: +SKIP + ... # Wrote the following to the system clipboard: + ... # A,B,C + ... # 1,2,3 + ... # 4,5,6 + + Using the original `pyperclip` package for any string output format. + + .. code-block:: python + + import pyperclip + html = df.style.to_html() + pyperclip.copy(html) + """ + from pandas.io import clipboards + + clipboards.to_clipboard(self, excel=excel, sep=sep, **kwargs) + + @final + def to_xarray(self): + """ + Return an xarray object from the pandas object. + + Returns + ------- + xarray.DataArray or xarray.Dataset + Data in the pandas structure converted to Dataset if the object is + a DataFrame, or a DataArray if the object is a Series. + + See Also + -------- + DataFrame.to_hdf : Write DataFrame to an HDF5 file. + DataFrame.to_parquet : Write a DataFrame to the binary parquet format. + + Notes + ----- + See the `xarray docs `__ + + Examples + -------- + >>> df = pd.DataFrame([('falcon', 'bird', 389.0, 2), + ... ('parrot', 'bird', 24.0, 2), + ... ('lion', 'mammal', 80.5, 4), + ... ('monkey', 'mammal', np.nan, 4)], + ... columns=['name', 'class', 'max_speed', + ... 'num_legs']) + >>> df + name class max_speed num_legs + 0 falcon bird 389.0 2 + 1 parrot bird 24.0 2 + 2 lion mammal 80.5 4 + 3 monkey mammal NaN 4 + + >>> df.to_xarray() # doctest: +SKIP + + Dimensions: (index: 4) + Coordinates: + * index (index) int64 32B 0 1 2 3 + Data variables: + name (index) object 32B 'falcon' 'parrot' 'lion' 'monkey' + class (index) object 32B 'bird' 'bird' 'mammal' 'mammal' + max_speed (index) float64 32B 389.0 24.0 80.5 nan + num_legs (index) int64 32B 2 2 4 4 + + >>> df['max_speed'].to_xarray() # doctest: +SKIP + + array([389. , 24. , 80.5, nan]) + Coordinates: + * index (index) int64 0 1 2 3 + + >>> dates = pd.to_datetime(['2018-01-01', '2018-01-01', + ... '2018-01-02', '2018-01-02']) + >>> df_multiindex = pd.DataFrame({'date': dates, + ... 'animal': ['falcon', 'parrot', + ... 'falcon', 'parrot'], + ... 'speed': [350, 18, 361, 15]}) + >>> df_multiindex = df_multiindex.set_index(['date', 'animal']) + + >>> df_multiindex + speed + date animal + 2018-01-01 falcon 350 + parrot 18 + 2018-01-02 falcon 361 + parrot 15 + + >>> df_multiindex.to_xarray() # doctest: +SKIP + + Dimensions: (date: 2, animal: 2) + Coordinates: + * date (date) datetime64[ns] 2018-01-01 2018-01-02 + * animal (animal) object 'falcon' 'parrot' + Data variables: + speed (date, animal) int64 350 18 361 15 + """ + xarray = import_optional_dependency("xarray") + + if self.ndim == 1: + return xarray.DataArray.from_series(self) + else: + return xarray.Dataset.from_dataframe(self) + + @overload + def to_latex( + self, + buf: None = ..., + columns: Sequence[Hashable] | None = ..., + header: bool_t | SequenceNotStr[str] = ..., + index: bool_t = ..., + na_rep: str = ..., + formatters: FormattersType | None = ..., + float_format: FloatFormatType | None = ..., + sparsify: bool_t | None = ..., + index_names: bool_t = ..., + bold_rows: bool_t = ..., + column_format: str | None = ..., + longtable: bool_t | None = ..., + escape: bool_t | None = ..., + encoding: str | None = ..., + decimal: str = ..., + multicolumn: bool_t | None = ..., + multicolumn_format: str | None = ..., + multirow: bool_t | None = ..., + caption: str | tuple[str, str] | None = ..., + label: str | None = ..., + position: str | None = ..., + ) -> str: + ... + + @overload + def to_latex( + self, + buf: FilePath | WriteBuffer[str], + columns: Sequence[Hashable] | None = ..., + header: bool_t | SequenceNotStr[str] = ..., + index: bool_t = ..., + na_rep: str = ..., + formatters: FormattersType | None = ..., + float_format: FloatFormatType | None = ..., + sparsify: bool_t | None = ..., + index_names: bool_t = ..., + bold_rows: bool_t = ..., + column_format: str | None = ..., + longtable: bool_t | None = ..., + escape: bool_t | None = ..., + encoding: str | None = ..., + decimal: str = ..., + multicolumn: bool_t | None = ..., + multicolumn_format: str | None = ..., + multirow: bool_t | None = ..., + caption: str | tuple[str, str] | None = ..., + label: str | None = ..., + position: str | None = ..., + ) -> None: + ... + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "buf"], name="to_latex" + ) + def to_latex( + self, + buf: FilePath | WriteBuffer[str] | None = None, + columns: Sequence[Hashable] | None = None, + header: bool_t | SequenceNotStr[str] = True, + index: bool_t = True, + na_rep: str = "NaN", + formatters: FormattersType | None = None, + float_format: FloatFormatType | None = None, + sparsify: bool_t | None = None, + index_names: bool_t = True, + bold_rows: bool_t = False, + column_format: str | None = None, + longtable: bool_t | None = None, + escape: bool_t | None = None, + encoding: str | None = None, + decimal: str = ".", + multicolumn: bool_t | None = None, + multicolumn_format: str | None = None, + multirow: bool_t | None = None, + caption: str | tuple[str, str] | None = None, + label: str | None = None, + position: str | None = None, + ) -> str | None: + r""" + Render object to a LaTeX tabular, longtable, or nested table. + + Requires ``\usepackage{{booktabs}}``. The output can be copy/pasted + into a main LaTeX document or read from an external file + with ``\input{{table.tex}}``. + + .. versionchanged:: 2.0.0 + Refactored to use the Styler implementation via jinja2 templating. + + Parameters + ---------- + buf : str, Path or StringIO-like, optional, default None + Buffer to write to. If None, the output is returned as a string. + columns : list of label, optional + The subset of columns to write. Writes all columns by default. + header : bool or list of str, default True + Write out the column names. If a list of strings is given, + it is assumed to be aliases for the column names. + index : bool, default True + Write row names (index). + na_rep : str, default 'NaN' + Missing data representation. + formatters : list of functions or dict of {{str: function}}, optional + Formatter functions to apply to columns' elements by position or + name. The result of each function must be a unicode string. + List must be of length equal to the number of columns. + float_format : one-parameter function or str, optional, default None + Formatter for floating point numbers. For example + ``float_format="%.2f"`` and ``float_format="{{:0.2f}}".format`` will + both result in 0.1234 being formatted as 0.12. + sparsify : bool, optional + Set to False for a DataFrame with a hierarchical index to print + every multiindex key at each row. By default, the value will be + read from the config module. + index_names : bool, default True + Prints the names of the indexes. + bold_rows : bool, default False + Make the row labels bold in the output. + column_format : str, optional + The columns format as specified in `LaTeX table format + `__ e.g. 'rcl' for 3 + columns. By default, 'l' will be used for all columns except + columns of numbers, which default to 'r'. + longtable : bool, optional + Use a longtable environment instead of tabular. Requires + adding a \usepackage{{longtable}} to your LaTeX preamble. + By default, the value will be read from the pandas config + module, and set to `True` if the option ``styler.latex.environment`` is + `"longtable"`. + + .. versionchanged:: 2.0.0 + The pandas option affecting this argument has changed. + escape : bool, optional + By default, the value will be read from the pandas config + module and set to `True` if the option ``styler.format.escape`` is + `"latex"`. When set to False prevents from escaping latex special + characters in column names. + + .. versionchanged:: 2.0.0 + The pandas option affecting this argument has changed, as has the + default value to `False`. + encoding : str, optional + A string representing the encoding to use in the output file, + defaults to 'utf-8'. + decimal : str, default '.' + Character recognized as decimal separator, e.g. ',' in Europe. + multicolumn : bool, default True + Use \multicolumn to enhance MultiIndex columns. + The default will be read from the config module, and is set + as the option ``styler.sparse.columns``. + + .. versionchanged:: 2.0.0 + The pandas option affecting this argument has changed. + multicolumn_format : str, default 'r' + The alignment for multicolumns, similar to `column_format` + The default will be read from the config module, and is set as the option + ``styler.latex.multicol_align``. + + .. versionchanged:: 2.0.0 + The pandas option affecting this argument has changed, as has the + default value to "r". + multirow : bool, default True + Use \multirow to enhance MultiIndex rows. Requires adding a + \usepackage{{multirow}} to your LaTeX preamble. Will print + centered labels (instead of top-aligned) across the contained + rows, separating groups via clines. The default will be read + from the pandas config module, and is set as the option + ``styler.sparse.index``. + + .. versionchanged:: 2.0.0 + The pandas option affecting this argument has changed, as has the + default value to `True`. + caption : str or tuple, optional + Tuple (full_caption, short_caption), + which results in ``\caption[short_caption]{{full_caption}}``; + if a single string is passed, no short caption will be set. + label : str, optional + The LaTeX label to be placed inside ``\label{{}}`` in the output. + This is used with ``\ref{{}}`` in the main ``.tex`` file. + + position : str, optional + The LaTeX positional argument for tables, to be placed after + ``\begin{{}}`` in the output. + + Returns + ------- + str or None + If buf is None, returns the result as a string. Otherwise returns None. + + See Also + -------- + io.formats.style.Styler.to_latex : Render a DataFrame to LaTeX + with conditional formatting. + DataFrame.to_string : Render a DataFrame to a console-friendly + tabular output. + DataFrame.to_html : Render a DataFrame as an HTML table. + + Notes + ----- + As of v2.0.0 this method has changed to use the Styler implementation as + part of :meth:`.Styler.to_latex` via ``jinja2`` templating. This means + that ``jinja2`` is a requirement, and needs to be installed, for this method + to function. It is advised that users switch to using Styler, since that + implementation is more frequently updated and contains much more + flexibility with the output. + + Examples + -------- + Convert a general DataFrame to LaTeX with formatting: + + >>> df = pd.DataFrame(dict(name=['Raphael', 'Donatello'], + ... age=[26, 45], + ... height=[181.23, 177.65])) + >>> print(df.to_latex(index=False, + ... formatters={"name": str.upper}, + ... float_format="{:.1f}".format, + ... )) # doctest: +SKIP + \begin{tabular}{lrr} + \toprule + name & age & height \\ + \midrule + RAPHAEL & 26 & 181.2 \\ + DONATELLO & 45 & 177.7 \\ + \bottomrule + \end{tabular} + """ + # Get defaults from the pandas config + if self.ndim == 1: + self = self.to_frame() + if longtable is None: + longtable = config.get_option("styler.latex.environment") == "longtable" + if escape is None: + escape = config.get_option("styler.format.escape") == "latex" + if multicolumn is None: + multicolumn = config.get_option("styler.sparse.columns") + if multicolumn_format is None: + multicolumn_format = config.get_option("styler.latex.multicol_align") + if multirow is None: + multirow = config.get_option("styler.sparse.index") + + if column_format is not None and not isinstance(column_format, str): + raise ValueError("`column_format` must be str or unicode") + length = len(self.columns) if columns is None else len(columns) + if isinstance(header, (list, tuple)) and len(header) != length: + raise ValueError(f"Writing {length} cols but got {len(header)} aliases") + + # Refactor formatters/float_format/decimal/na_rep/escape to Styler structure + base_format_ = { + "na_rep": na_rep, + "escape": "latex" if escape else None, + "decimal": decimal, + } + index_format_: dict[str, Any] = {"axis": 0, **base_format_} + column_format_: dict[str, Any] = {"axis": 1, **base_format_} + + if isinstance(float_format, str): + float_format_: Callable | None = lambda x: float_format % x + else: + float_format_ = float_format + + def _wrap(x, alt_format_): + if isinstance(x, (float, complex)) and float_format_ is not None: + return float_format_(x) + else: + return alt_format_(x) + + formatters_: list | tuple | dict | Callable | None = None + if isinstance(formatters, list): + formatters_ = { + c: partial(_wrap, alt_format_=formatters[i]) + for i, c in enumerate(self.columns) + } + elif isinstance(formatters, dict): + index_formatter = formatters.pop("__index__", None) + column_formatter = formatters.pop("__columns__", None) + if index_formatter is not None: + index_format_.update({"formatter": index_formatter}) + if column_formatter is not None: + column_format_.update({"formatter": column_formatter}) + + formatters_ = formatters + float_columns = self.select_dtypes(include="float").columns + for col in float_columns: + if col not in formatters.keys(): + formatters_.update({col: float_format_}) + elif formatters is None and float_format is not None: + formatters_ = partial(_wrap, alt_format_=lambda v: v) + format_index_ = [index_format_, column_format_] + + # Deal with hiding indexes and relabelling column names + hide_: list[dict] = [] + relabel_index_: list[dict] = [] + if columns: + hide_.append( + { + "subset": [c for c in self.columns if c not in columns], + "axis": "columns", + } + ) + if header is False: + hide_.append({"axis": "columns"}) + elif isinstance(header, (list, tuple)): + relabel_index_.append({"labels": header, "axis": "columns"}) + format_index_ = [index_format_] # column_format is overwritten + + if index is False: + hide_.append({"axis": "index"}) + if index_names is False: + hide_.append({"names": True, "axis": "index"}) + + render_kwargs_ = { + "hrules": True, + "sparse_index": sparsify, + "sparse_columns": sparsify, + "environment": "longtable" if longtable else None, + "multicol_align": multicolumn_format + if multicolumn + else f"naive-{multicolumn_format}", + "multirow_align": "t" if multirow else "naive", + "encoding": encoding, + "caption": caption, + "label": label, + "position": position, + "column_format": column_format, + "clines": "skip-last;data" + if (multirow and isinstance(self.index, MultiIndex)) + else None, + "bold_rows": bold_rows, + } + + return self._to_latex_via_styler( + buf, + hide=hide_, + relabel_index=relabel_index_, + format={"formatter": formatters_, **base_format_}, + format_index=format_index_, + render_kwargs=render_kwargs_, + ) + + @final + def _to_latex_via_styler( + self, + buf=None, + *, + hide: dict | list[dict] | None = None, + relabel_index: dict | list[dict] | None = None, + format: dict | list[dict] | None = None, + format_index: dict | list[dict] | None = None, + render_kwargs: dict | None = None, + ): + """ + Render object to a LaTeX tabular, longtable, or nested table. + + Uses the ``Styler`` implementation with the following, ordered, method chaining: + + .. code-block:: python + styler = Styler(DataFrame) + styler.hide(**hide) + styler.relabel_index(**relabel_index) + styler.format(**format) + styler.format_index(**format_index) + styler.to_latex(buf=buf, **render_kwargs) + + Parameters + ---------- + buf : str, Path or StringIO-like, optional, default None + Buffer to write to. If None, the output is returned as a string. + hide : dict, list of dict + Keyword args to pass to the method call of ``Styler.hide``. If a list will + call the method numerous times. + relabel_index : dict, list of dict + Keyword args to pass to the method of ``Styler.relabel_index``. If a list + will call the method numerous times. + format : dict, list of dict + Keyword args to pass to the method call of ``Styler.format``. If a list will + call the method numerous times. + format_index : dict, list of dict + Keyword args to pass to the method call of ``Styler.format_index``. If a + list will call the method numerous times. + render_kwargs : dict + Keyword args to pass to the method call of ``Styler.to_latex``. + + Returns + ------- + str or None + If buf is None, returns the result as a string. Otherwise returns None. + """ + from pandas.io.formats.style import Styler + + self = cast("DataFrame", self) + styler = Styler(self, uuid="") + + for kw_name in ["hide", "relabel_index", "format", "format_index"]: + kw = vars()[kw_name] + if isinstance(kw, dict): + getattr(styler, kw_name)(**kw) + elif isinstance(kw, list): + for sub_kw in kw: + getattr(styler, kw_name)(**sub_kw) + + # bold_rows is not a direct kwarg of Styler.to_latex + render_kwargs = {} if render_kwargs is None else render_kwargs + if render_kwargs.pop("bold_rows"): + styler.map_index(lambda v: "textbf:--rwrap;") + + return styler.to_latex(buf=buf, **render_kwargs) + + @overload + def to_csv( + self, + path_or_buf: None = ..., + sep: str = ..., + na_rep: str = ..., + float_format: str | Callable | None = ..., + columns: Sequence[Hashable] | None = ..., + header: bool_t | list[str] = ..., + index: bool_t = ..., + index_label: IndexLabel | None = ..., + mode: str = ..., + encoding: str | None = ..., + compression: CompressionOptions = ..., + quoting: int | None = ..., + quotechar: str = ..., + lineterminator: str | None = ..., + chunksize: int | None = ..., + date_format: str | None = ..., + doublequote: bool_t = ..., + escapechar: str | None = ..., + decimal: str = ..., + errors: OpenFileErrors = ..., + storage_options: StorageOptions = ..., + ) -> str: + ... + + @overload + def to_csv( + self, + path_or_buf: FilePath | WriteBuffer[bytes] | WriteBuffer[str], + sep: str = ..., + na_rep: str = ..., + float_format: str | Callable | None = ..., + columns: Sequence[Hashable] | None = ..., + header: bool_t | list[str] = ..., + index: bool_t = ..., + index_label: IndexLabel | None = ..., + mode: str = ..., + encoding: str | None = ..., + compression: CompressionOptions = ..., + quoting: int | None = ..., + quotechar: str = ..., + lineterminator: str | None = ..., + chunksize: int | None = ..., + date_format: str | None = ..., + doublequote: bool_t = ..., + escapechar: str | None = ..., + decimal: str = ..., + errors: OpenFileErrors = ..., + storage_options: StorageOptions = ..., + ) -> None: + ... + + @final + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "path_or_buf"], name="to_csv" + ) + @doc( + storage_options=_shared_docs["storage_options"], + compression_options=_shared_docs["compression_options"] % "path_or_buf", + ) + def to_csv( + self, + path_or_buf: FilePath | WriteBuffer[bytes] | WriteBuffer[str] | None = None, + sep: str = ",", + na_rep: str = "", + float_format: str | Callable | None = None, + columns: Sequence[Hashable] | None = None, + header: bool_t | list[str] = True, + index: bool_t = True, + index_label: IndexLabel | None = None, + mode: str = "w", + encoding: str | None = None, + compression: CompressionOptions = "infer", + quoting: int | None = None, + quotechar: str = '"', + lineterminator: str | None = None, + chunksize: int | None = None, + date_format: str | None = None, + doublequote: bool_t = True, + escapechar: str | None = None, + decimal: str = ".", + errors: OpenFileErrors = "strict", + storage_options: StorageOptions | None = None, + ) -> str | None: + r""" + Write object to a comma-separated values (csv) file. + + Parameters + ---------- + path_or_buf : str, path object, file-like object, or None, default None + String, path object (implementing os.PathLike[str]), or file-like + object implementing a write() function. If None, the result is + returned as a string. If a non-binary file object is passed, it should + be opened with `newline=''`, disabling universal newlines. If a binary + file object is passed, `mode` might need to contain a `'b'`. + sep : str, default ',' + String of length 1. Field delimiter for the output file. + na_rep : str, default '' + Missing data representation. + float_format : str, Callable, default None + Format string for floating point numbers. If a Callable is given, it takes + precedence over other numeric formatting parameters, like decimal. + columns : sequence, optional + Columns to write. + header : bool or list of str, default True + Write out the column names. If a list of strings is given it is + assumed to be aliases for the column names. + index : bool, default True + Write row names (index). + index_label : str or sequence, or False, default None + Column label for index column(s) if desired. If None is given, and + `header` and `index` are True, then the index names are used. A + sequence should be given if the object uses MultiIndex. If + False do not print fields for index names. Use index_label=False + for easier importing in R. + mode : {{'w', 'x', 'a'}}, default 'w' + Forwarded to either `open(mode=)` or `fsspec.open(mode=)` to control + the file opening. Typical values include: + + - 'w', truncate the file first. + - 'x', exclusive creation, failing if the file already exists. + - 'a', append to the end of file if it exists. + + encoding : str, optional + A string representing the encoding to use in the output file, + defaults to 'utf-8'. `encoding` is not supported if `path_or_buf` + is a non-binary file object. + {compression_options} + + May be a dict with key 'method' as compression mode + and other entries as additional compression options if + compression mode is 'zip'. + + Passing compression options as keys in dict is + supported for compression modes 'gzip', 'bz2', 'zstd', and 'zip'. + quoting : optional constant from csv module + Defaults to csv.QUOTE_MINIMAL. If you have set a `float_format` + then floats are converted to strings and thus csv.QUOTE_NONNUMERIC + will treat them as non-numeric. + quotechar : str, default '\"' + String of length 1. Character used to quote fields. + lineterminator : str, optional + The newline character or character sequence to use in the output + file. Defaults to `os.linesep`, which depends on the OS in which + this method is called ('\\n' for linux, '\\r\\n' for Windows, i.e.). + + .. versionchanged:: 1.5.0 + + Previously was line_terminator, changed for consistency with + read_csv and the standard library 'csv' module. + + chunksize : int or None + Rows to write at a time. + date_format : str, default None + Format string for datetime objects. + doublequote : bool, default True + Control quoting of `quotechar` inside a field. + escapechar : str, default None + String of length 1. Character used to escape `sep` and `quotechar` + when appropriate. + decimal : str, default '.' + Character recognized as decimal separator. E.g. use ',' for + European data. + errors : str, default 'strict' + Specifies how encoding and decoding errors are to be handled. + See the errors argument for :func:`open` for a full list + of options. + + {storage_options} + + Returns + ------- + None or str + If path_or_buf is None, returns the resulting csv format as a + string. Otherwise returns None. + + See Also + -------- + read_csv : Load a CSV file into a DataFrame. + to_excel : Write DataFrame to an Excel file. + + Examples + -------- + Create 'out.csv' containing 'df' without indices + + >>> df = pd.DataFrame({{'name': ['Raphael', 'Donatello'], + ... 'mask': ['red', 'purple'], + ... 'weapon': ['sai', 'bo staff']}}) + >>> df.to_csv('out.csv', index=False) # doctest: +SKIP + + Create 'out.zip' containing 'out.csv' + + >>> df.to_csv(index=False) + 'name,mask,weapon\nRaphael,red,sai\nDonatello,purple,bo staff\n' + >>> compression_opts = dict(method='zip', + ... archive_name='out.csv') # doctest: +SKIP + >>> df.to_csv('out.zip', index=False, + ... compression=compression_opts) # doctest: +SKIP + + To write a csv file to a new folder or nested folder you will first + need to create it using either Pathlib or os: + + >>> from pathlib import Path # doctest: +SKIP + >>> filepath = Path('folder/subfolder/out.csv') # doctest: +SKIP + >>> filepath.parent.mkdir(parents=True, exist_ok=True) # doctest: +SKIP + >>> df.to_csv(filepath) # doctest: +SKIP + + >>> import os # doctest: +SKIP + >>> os.makedirs('folder/subfolder', exist_ok=True) # doctest: +SKIP + >>> df.to_csv('folder/subfolder/out.csv') # doctest: +SKIP + """ + df = self if isinstance(self, ABCDataFrame) else self.to_frame() + + formatter = DataFrameFormatter( + frame=df, + header=header, + index=index, + na_rep=na_rep, + float_format=float_format, + decimal=decimal, + ) + + return DataFrameRenderer(formatter).to_csv( + path_or_buf, + lineterminator=lineterminator, + sep=sep, + encoding=encoding, + errors=errors, + compression=compression, + quoting=quoting, + columns=columns, + index_label=index_label, + mode=mode, + chunksize=chunksize, + quotechar=quotechar, + date_format=date_format, + doublequote=doublequote, + escapechar=escapechar, + storage_options=storage_options, + ) + + # ---------------------------------------------------------------------- + # Lookup Caching + + def _reset_cacher(self) -> None: + """ + Reset the cacher. + """ + raise AbstractMethodError(self) + + def _maybe_update_cacher( + self, + clear: bool_t = False, + verify_is_copy: bool_t = True, + inplace: bool_t = False, + ) -> None: + """ + See if we need to update our parent cacher if clear, then clear our + cache. + + Parameters + ---------- + clear : bool, default False + Clear the item cache. + verify_is_copy : bool, default True + Provide is_copy checks. + """ + if using_copy_on_write(): + return + + if verify_is_copy: + self._check_setitem_copy(t="referent") + + if clear: + self._clear_item_cache() + + def _clear_item_cache(self) -> None: + raise AbstractMethodError(self) + + # ---------------------------------------------------------------------- + # Indexing Methods + + @final + def take(self, indices, axis: Axis = 0, **kwargs) -> Self: + """ + Return the elements in the given *positional* indices along an axis. + + This means that we are not indexing according to actual values in + the index attribute of the object. We are indexing according to the + actual position of the element in the object. + + Parameters + ---------- + indices : array-like + An array of ints indicating which positions to take. + axis : {0 or 'index', 1 or 'columns', None}, default 0 + The axis on which to select elements. ``0`` means that we are + selecting rows, ``1`` means that we are selecting columns. + For `Series` this parameter is unused and defaults to 0. + **kwargs + For compatibility with :meth:`numpy.take`. Has no effect on the + output. + + Returns + ------- + same type as caller + An array-like containing the elements taken from the object. + + See Also + -------- + DataFrame.loc : Select a subset of a DataFrame by labels. + DataFrame.iloc : Select a subset of a DataFrame by positions. + numpy.take : Take elements from an array along an axis. + + Examples + -------- + >>> df = pd.DataFrame([('falcon', 'bird', 389.0), + ... ('parrot', 'bird', 24.0), + ... ('lion', 'mammal', 80.5), + ... ('monkey', 'mammal', np.nan)], + ... columns=['name', 'class', 'max_speed'], + ... index=[0, 2, 3, 1]) + >>> df + name class max_speed + 0 falcon bird 389.0 + 2 parrot bird 24.0 + 3 lion mammal 80.5 + 1 monkey mammal NaN + + Take elements at positions 0 and 3 along the axis 0 (default). + + Note how the actual indices selected (0 and 1) do not correspond to + our selected indices 0 and 3. That's because we are selecting the 0th + and 3rd rows, not rows whose indices equal 0 and 3. + + >>> df.take([0, 3]) + name class max_speed + 0 falcon bird 389.0 + 1 monkey mammal NaN + + Take elements at indices 1 and 2 along the axis 1 (column selection). + + >>> df.take([1, 2], axis=1) + class max_speed + 0 bird 389.0 + 2 bird 24.0 + 3 mammal 80.5 + 1 mammal NaN + + We may take elements using negative integers for positive indices, + starting from the end of the object, just like with Python lists. + + >>> df.take([-1, -2]) + name class max_speed + 1 monkey mammal NaN + 3 lion mammal 80.5 + """ + + nv.validate_take((), kwargs) + + if not isinstance(indices, slice): + indices = np.asarray(indices, dtype=np.intp) + if ( + axis == 0 + and indices.ndim == 1 + and using_copy_on_write() + and is_range_indexer(indices, len(self)) + ): + return self.copy(deep=None) + elif self.ndim == 1: + raise TypeError( + f"{type(self).__name__}.take requires a sequence of integers, " + "not slice." + ) + else: + warnings.warn( + # GH#51539 + f"Passing a slice to {type(self).__name__}.take is deprecated " + "and will raise in a future version. Use `obj[slicer]` or pass " + "a sequence of integers instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + # We can get here with a slice via DataFrame.__getitem__ + indices = np.arange( + indices.start, indices.stop, indices.step, dtype=np.intp + ) + + new_data = self._mgr.take( + indices, + axis=self._get_block_manager_axis(axis), + verify=True, + ) + return self._constructor_from_mgr(new_data, axes=new_data.axes).__finalize__( + self, method="take" + ) + + @final + def _take_with_is_copy(self, indices, axis: Axis = 0) -> Self: + """ + Internal version of the `take` method that sets the `_is_copy` + attribute to keep track of the parent dataframe (using in indexing + for the SettingWithCopyWarning). + + For Series this does the same as the public take (it never sets `_is_copy`). + + See the docstring of `take` for full explanation of the parameters. + """ + result = self.take(indices=indices, axis=axis) + # Maybe set copy if we didn't actually change the index. + if self.ndim == 2 and not result._get_axis(axis).equals(self._get_axis(axis)): + result._set_is_copy(self) + return result + + @final + def xs( + self, + key: IndexLabel, + axis: Axis = 0, + level: IndexLabel | None = None, + drop_level: bool_t = True, + ) -> Self: + """ + Return cross-section from the Series/DataFrame. + + This method takes a `key` argument to select data at a particular + level of a MultiIndex. + + Parameters + ---------- + key : label or tuple of label + Label contained in the index, or partially in a MultiIndex. + axis : {0 or 'index', 1 or 'columns'}, default 0 + Axis to retrieve cross-section on. + level : object, defaults to first n levels (n=1 or len(key)) + In case of a key partially contained in a MultiIndex, indicate + which levels are used. Levels can be referred by label or position. + drop_level : bool, default True + If False, returns object with same levels as self. + + Returns + ------- + Series or DataFrame + Cross-section from the original Series or DataFrame + corresponding to the selected index levels. + + See Also + -------- + DataFrame.loc : Access a group of rows and columns + by label(s) or a boolean array. + DataFrame.iloc : Purely integer-location based indexing + for selection by position. + + Notes + ----- + `xs` can not be used to set values. + + MultiIndex Slicers is a generic way to get/set values on + any level or levels. + It is a superset of `xs` functionality, see + :ref:`MultiIndex Slicers `. + + Examples + -------- + >>> d = {'num_legs': [4, 4, 2, 2], + ... 'num_wings': [0, 0, 2, 2], + ... 'class': ['mammal', 'mammal', 'mammal', 'bird'], + ... 'animal': ['cat', 'dog', 'bat', 'penguin'], + ... 'locomotion': ['walks', 'walks', 'flies', 'walks']} + >>> df = pd.DataFrame(data=d) + >>> df = df.set_index(['class', 'animal', 'locomotion']) + >>> df + num_legs num_wings + class animal locomotion + mammal cat walks 4 0 + dog walks 4 0 + bat flies 2 2 + bird penguin walks 2 2 + + Get values at specified index + + >>> df.xs('mammal') + num_legs num_wings + animal locomotion + cat walks 4 0 + dog walks 4 0 + bat flies 2 2 + + Get values at several indexes + + >>> df.xs(('mammal', 'dog', 'walks')) + num_legs 4 + num_wings 0 + Name: (mammal, dog, walks), dtype: int64 + + Get values at specified index and level + + >>> df.xs('cat', level=1) + num_legs num_wings + class locomotion + mammal walks 4 0 + + Get values at several indexes and levels + + >>> df.xs(('bird', 'walks'), + ... level=[0, 'locomotion']) + num_legs num_wings + animal + penguin 2 2 + + Get values at specified column and axis + + >>> df.xs('num_wings', axis=1) + class animal locomotion + mammal cat walks 0 + dog walks 0 + bat flies 2 + bird penguin walks 2 + Name: num_wings, dtype: int64 + """ + axis = self._get_axis_number(axis) + labels = self._get_axis(axis) + + if isinstance(key, list): + raise TypeError("list keys are not supported in xs, pass a tuple instead") + + if level is not None: + if not isinstance(labels, MultiIndex): + raise TypeError("Index must be a MultiIndex") + loc, new_ax = labels.get_loc_level(key, level=level, drop_level=drop_level) + + # create the tuple of the indexer + _indexer = [slice(None)] * self.ndim + _indexer[axis] = loc + indexer = tuple(_indexer) + + result = self.iloc[indexer] + setattr(result, result._get_axis_name(axis), new_ax) + return result + + if axis == 1: + if drop_level: + return self[key] + index = self.columns + else: + index = self.index + + if isinstance(index, MultiIndex): + loc, new_index = index._get_loc_level(key, level=0) + if not drop_level: + if lib.is_integer(loc): + # Slice index must be an integer or None + new_index = index[loc : loc + 1] + else: + new_index = index[loc] + else: + loc = index.get_loc(key) + + if isinstance(loc, np.ndarray): + if loc.dtype == np.bool_: + (inds,) = loc.nonzero() + return self._take_with_is_copy(inds, axis=axis) + else: + return self._take_with_is_copy(loc, axis=axis) + + if not is_scalar(loc): + new_index = index[loc] + + if is_scalar(loc) and axis == 0: + # In this case loc should be an integer + if self.ndim == 1: + # if we encounter an array-like and we only have 1 dim + # that means that their are list/ndarrays inside the Series! + # so just return them (GH 6394) + return self._values[loc] + + new_mgr = self._mgr.fast_xs(loc) + + result = self._constructor_sliced_from_mgr(new_mgr, axes=new_mgr.axes) + result._name = self.index[loc] + result = result.__finalize__(self) + elif is_scalar(loc): + result = self.iloc[:, slice(loc, loc + 1)] + elif axis == 1: + result = self.iloc[:, loc] + else: + result = self.iloc[loc] + result.index = new_index + + # this could be a view + # but only in a single-dtyped view sliceable case + result._set_is_copy(self, copy=not result._is_view) + return result + + def __getitem__(self, item): + raise AbstractMethodError(self) + + @final + def _getitem_slice(self, key: slice) -> Self: + """ + __getitem__ for the case where the key is a slice object. + """ + # _convert_slice_indexer to determine if this slice is positional + # or label based, and if the latter, convert to positional + slobj = self.index._convert_slice_indexer(key, kind="getitem") + if isinstance(slobj, np.ndarray): + # reachable with DatetimeIndex + indexer = lib.maybe_indices_to_slice( + slobj.astype(np.intp, copy=False), len(self) + ) + if isinstance(indexer, np.ndarray): + # GH#43223 If we can not convert, use take + return self.take(indexer, axis=0) + slobj = indexer + return self._slice(slobj) + + def _slice(self, slobj: slice, axis: AxisInt = 0) -> Self: + """ + Construct a slice of this container. + + Slicing with this method is *always* positional. + """ + assert isinstance(slobj, slice), type(slobj) + axis = self._get_block_manager_axis(axis) + new_mgr = self._mgr.get_slice(slobj, axis=axis) + result = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + result = result.__finalize__(self) + + # this could be a view + # but only in a single-dtyped view sliceable case + is_copy = axis != 0 or result._is_view + result._set_is_copy(self, copy=is_copy) + return result + + @final + def _set_is_copy(self, ref: NDFrame, copy: bool_t = True) -> None: + if not copy: + self._is_copy = None + else: + assert ref is not None + self._is_copy = weakref.ref(ref) + + def _check_is_chained_assignment_possible(self) -> bool_t: + """ + Check if we are a view, have a cacher, and are of mixed type. + If so, then force a setitem_copy check. + + Should be called just near setting a value + + Will return a boolean if it we are a view and are cached, but a + single-dtype meaning that the cacher should be updated following + setting. + """ + if self._is_copy: + self._check_setitem_copy(t="referent") + return False + + @final + def _check_setitem_copy(self, t: str = "setting", force: bool_t = False): + """ + + Parameters + ---------- + t : str, the type of setting error + force : bool, default False + If True, then force showing an error. + + validate if we are doing a setitem on a chained copy. + + It is technically possible to figure out that we are setting on + a copy even WITH a multi-dtyped pandas object. In other words, some + blocks may be views while other are not. Currently _is_view will ALWAYS + return False for multi-blocks to avoid having to handle this case. + + df = DataFrame(np.arange(0,9), columns=['count']) + df['group'] = 'b' + + # This technically need not raise SettingWithCopy if both are view + # (which is not generally guaranteed but is usually True. However, + # this is in general not a good practice and we recommend using .loc. + df.iloc[0:5]['group'] = 'a' + + """ + if using_copy_on_write() or warn_copy_on_write(): + return + + # return early if the check is not needed + if not (force or self._is_copy): + return + + value = config.get_option("mode.chained_assignment") + if value is None: + return + + # see if the copy is not actually referred; if so, then dissolve + # the copy weakref + if self._is_copy is not None and not isinstance(self._is_copy, str): + r = self._is_copy() + if not gc.get_referents(r) or (r is not None and r.shape == self.shape): + self._is_copy = None + return + + # a custom message + if isinstance(self._is_copy, str): + t = self._is_copy + + elif t == "referent": + t = ( + "\n" + "A value is trying to be set on a copy of a slice from a " + "DataFrame\n\n" + "See the caveats in the documentation: " + "https://pandas.pydata.org/pandas-docs/stable/user_guide/" + "indexing.html#returning-a-view-versus-a-copy" + ) + + else: + t = ( + "\n" + "A value is trying to be set on a copy of a slice from a " + "DataFrame.\n" + "Try using .loc[row_indexer,col_indexer] = value " + "instead\n\nSee the caveats in the documentation: " + "https://pandas.pydata.org/pandas-docs/stable/user_guide/" + "indexing.html#returning-a-view-versus-a-copy" + ) + + if value == "raise": + raise SettingWithCopyError(t) + if value == "warn": + warnings.warn(t, SettingWithCopyWarning, stacklevel=find_stack_level()) + + @final + def __delitem__(self, key) -> None: + """ + Delete item + """ + deleted = False + + maybe_shortcut = False + if self.ndim == 2 and isinstance(self.columns, MultiIndex): + try: + # By using engine's __contains__ we effectively + # restrict to same-length tuples + maybe_shortcut = key not in self.columns._engine + except TypeError: + pass + + if maybe_shortcut: + # Allow shorthand to delete all columns whose first len(key) + # elements match key: + if not isinstance(key, tuple): + key = (key,) + for col in self.columns: + if isinstance(col, tuple) and col[: len(key)] == key: + del self[col] + deleted = True + if not deleted: + # If the above loop ran and didn't delete anything because + # there was no match, this call should raise the appropriate + # exception: + loc = self.axes[-1].get_loc(key) + self._mgr = self._mgr.idelete(loc) + + # delete from the caches + try: + del self._item_cache[key] + except KeyError: + pass + + # ---------------------------------------------------------------------- + # Unsorted + + @final + def _check_inplace_and_allows_duplicate_labels(self, inplace: bool_t): + if inplace and not self.flags.allows_duplicate_labels: + raise ValueError( + "Cannot specify 'inplace=True' when " + "'self.flags.allows_duplicate_labels' is False." + ) + + @final + def get(self, key, default=None): + """ + Get item from object for given key (ex: DataFrame column). + + Returns default value if not found. + + Parameters + ---------- + key : object + + Returns + ------- + same type as items contained in object + + Examples + -------- + >>> df = pd.DataFrame( + ... [ + ... [24.3, 75.7, "high"], + ... [31, 87.8, "high"], + ... [22, 71.6, "medium"], + ... [35, 95, "medium"], + ... ], + ... columns=["temp_celsius", "temp_fahrenheit", "windspeed"], + ... index=pd.date_range(start="2014-02-12", end="2014-02-15", freq="D"), + ... ) + + >>> df + temp_celsius temp_fahrenheit windspeed + 2014-02-12 24.3 75.7 high + 2014-02-13 31.0 87.8 high + 2014-02-14 22.0 71.6 medium + 2014-02-15 35.0 95.0 medium + + >>> df.get(["temp_celsius", "windspeed"]) + temp_celsius windspeed + 2014-02-12 24.3 high + 2014-02-13 31.0 high + 2014-02-14 22.0 medium + 2014-02-15 35.0 medium + + >>> ser = df['windspeed'] + >>> ser.get('2014-02-13') + 'high' + + If the key isn't found, the default value will be used. + + >>> df.get(["temp_celsius", "temp_kelvin"], default="default_value") + 'default_value' + + >>> ser.get('2014-02-10', '[unknown]') + '[unknown]' + """ + try: + return self[key] + except (KeyError, ValueError, IndexError): + return default + + @final + @property + def _is_view(self) -> bool_t: + """Return boolean indicating if self is view of another array""" + return self._mgr.is_view + + @final + def reindex_like( + self, + other, + method: Literal["backfill", "bfill", "pad", "ffill", "nearest"] | None = None, + copy: bool_t | None = None, + limit: int | None = None, + tolerance=None, + ) -> Self: + """ + Return an object with matching indices as other object. + + Conform the object to the same index on all axes. Optional + filling logic, placing NaN in locations having no value + in the previous index. A new object is produced unless the + new index is equivalent to the current one and copy=False. + + Parameters + ---------- + other : Object of the same data type + Its row and column indices are used to define the new indices + of this object. + method : {None, 'backfill'/'bfill', 'pad'/'ffill', 'nearest'} + Method to use for filling holes in reindexed DataFrame. + Please note: this is only applicable to DataFrames/Series with a + monotonically increasing/decreasing index. + + * None (default): don't fill gaps + * pad / ffill: propagate last valid observation forward to next + valid + * backfill / bfill: use next valid observation to fill gap + * nearest: use nearest valid observations to fill gap. + + copy : bool, default True + Return a new object, even if the passed indexes are the same. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + limit : int, default None + Maximum number of consecutive labels to fill for inexact matches. + tolerance : optional + Maximum distance between original and new labels for inexact + matches. The values of the index at the matching locations must + satisfy the equation ``abs(index[indexer] - target) <= tolerance``. + + Tolerance may be a scalar value, which applies the same tolerance + to all values, or list-like, which applies variable tolerance per + element. List-like includes list, tuple, array, Series, and must be + the same size as the index and its dtype must exactly match the + index's type. + + Returns + ------- + Series or DataFrame + Same type as caller, but with changed indices on each axis. + + See Also + -------- + DataFrame.set_index : Set row labels. + DataFrame.reset_index : Remove row labels or move them to new columns. + DataFrame.reindex : Change to new indices or expand indices. + + Notes + ----- + Same as calling + ``.reindex(index=other.index, columns=other.columns,...)``. + + Examples + -------- + >>> df1 = pd.DataFrame([[24.3, 75.7, 'high'], + ... [31, 87.8, 'high'], + ... [22, 71.6, 'medium'], + ... [35, 95, 'medium']], + ... columns=['temp_celsius', 'temp_fahrenheit', + ... 'windspeed'], + ... index=pd.date_range(start='2014-02-12', + ... end='2014-02-15', freq='D')) + + >>> df1 + temp_celsius temp_fahrenheit windspeed + 2014-02-12 24.3 75.7 high + 2014-02-13 31.0 87.8 high + 2014-02-14 22.0 71.6 medium + 2014-02-15 35.0 95.0 medium + + >>> df2 = pd.DataFrame([[28, 'low'], + ... [30, 'low'], + ... [35.1, 'medium']], + ... columns=['temp_celsius', 'windspeed'], + ... index=pd.DatetimeIndex(['2014-02-12', '2014-02-13', + ... '2014-02-15'])) + + >>> df2 + temp_celsius windspeed + 2014-02-12 28.0 low + 2014-02-13 30.0 low + 2014-02-15 35.1 medium + + >>> df2.reindex_like(df1) + temp_celsius temp_fahrenheit windspeed + 2014-02-12 28.0 NaN low + 2014-02-13 30.0 NaN low + 2014-02-14 NaN NaN NaN + 2014-02-15 35.1 NaN medium + """ + d = other._construct_axes_dict( + axes=self._AXIS_ORDERS, + method=method, + copy=copy, + limit=limit, + tolerance=tolerance, + ) + + return self.reindex(**d) + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: Literal[True], + errors: IgnoreRaise = ..., + ) -> None: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: Literal[False] = ..., + errors: IgnoreRaise = ..., + ) -> Self: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: bool_t = ..., + errors: IgnoreRaise = ..., + ) -> Self | None: + ... + + def drop( + self, + labels: IndexLabel | None = None, + *, + axis: Axis = 0, + index: IndexLabel | None = None, + columns: IndexLabel | None = None, + level: Level | None = None, + inplace: bool_t = False, + errors: IgnoreRaise = "raise", + ) -> Self | None: + inplace = validate_bool_kwarg(inplace, "inplace") + + if labels is not None: + if index is not None or columns is not None: + raise ValueError("Cannot specify both 'labels' and 'index'/'columns'") + axis_name = self._get_axis_name(axis) + axes = {axis_name: labels} + elif index is not None or columns is not None: + axes = {"index": index} + if self.ndim == 2: + axes["columns"] = columns + else: + raise ValueError( + "Need to specify at least one of 'labels', 'index' or 'columns'" + ) + + obj = self + + for axis, labels in axes.items(): + if labels is not None: + obj = obj._drop_axis(labels, axis, level=level, errors=errors) + + if inplace: + self._update_inplace(obj) + return None + else: + return obj + + @final + def _drop_axis( + self, + labels, + axis, + level=None, + errors: IgnoreRaise = "raise", + only_slice: bool_t = False, + ) -> Self: + """ + Drop labels from specified axis. Used in the ``drop`` method + internally. + + Parameters + ---------- + labels : single label or list-like + axis : int or axis name + level : int or level name, default None + For MultiIndex + errors : {'ignore', 'raise'}, default 'raise' + If 'ignore', suppress error and existing labels are dropped. + only_slice : bool, default False + Whether indexing along columns should be view-only. + + """ + axis_num = self._get_axis_number(axis) + axis = self._get_axis(axis) + + if axis.is_unique: + if level is not None: + if not isinstance(axis, MultiIndex): + raise AssertionError("axis must be a MultiIndex") + new_axis = axis.drop(labels, level=level, errors=errors) + else: + new_axis = axis.drop(labels, errors=errors) + indexer = axis.get_indexer(new_axis) + + # Case for non-unique axis + else: + is_tuple_labels = is_nested_list_like(labels) or isinstance(labels, tuple) + labels = ensure_object(common.index_labels_to_array(labels)) + if level is not None: + if not isinstance(axis, MultiIndex): + raise AssertionError("axis must be a MultiIndex") + mask = ~axis.get_level_values(level).isin(labels) + + # GH 18561 MultiIndex.drop should raise if label is absent + if errors == "raise" and mask.all(): + raise KeyError(f"{labels} not found in axis") + elif ( + isinstance(axis, MultiIndex) + and labels.dtype == "object" + and not is_tuple_labels + ): + # Set level to zero in case of MultiIndex and label is string, + # because isin can't handle strings for MultiIndexes GH#36293 + # In case of tuples we get dtype object but have to use isin GH#42771 + mask = ~axis.get_level_values(0).isin(labels) + else: + mask = ~axis.isin(labels) + # Check if label doesn't exist along axis + labels_missing = (axis.get_indexer_for(labels) == -1).any() + if errors == "raise" and labels_missing: + raise KeyError(f"{labels} not found in axis") + + if isinstance(mask.dtype, ExtensionDtype): + # GH#45860 + mask = mask.to_numpy(dtype=bool) + + indexer = mask.nonzero()[0] + new_axis = axis.take(indexer) + + bm_axis = self.ndim - axis_num - 1 + new_mgr = self._mgr.reindex_indexer( + new_axis, + indexer, + axis=bm_axis, + allow_dups=True, + copy=None, + only_slice=only_slice, + ) + result = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + if self.ndim == 1: + result._name = self.name + + return result.__finalize__(self) + + @final + def _update_inplace(self, result, verify_is_copy: bool_t = True) -> None: + """ + Replace self internals with result. + + Parameters + ---------- + result : same type as self + verify_is_copy : bool, default True + Provide is_copy checks. + """ + # NOTE: This does *not* call __finalize__ and that's an explicit + # decision that we may revisit in the future. + self._reset_cache() + self._clear_item_cache() + self._mgr = result._mgr + self._maybe_update_cacher(verify_is_copy=verify_is_copy, inplace=True) + + @final + def add_prefix(self, prefix: str, axis: Axis | None = None) -> Self: + """ + Prefix labels with string `prefix`. + + For Series, the row labels are prefixed. + For DataFrame, the column labels are prefixed. + + Parameters + ---------- + prefix : str + The string to add before each label. + axis : {0 or 'index', 1 or 'columns', None}, default None + Axis to add prefix on + + .. versionadded:: 2.0.0 + + Returns + ------- + Series or DataFrame + New Series or DataFrame with updated labels. + + See Also + -------- + Series.add_suffix: Suffix row labels with string `suffix`. + DataFrame.add_suffix: Suffix column labels with string `suffix`. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + >>> s + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + + >>> s.add_prefix('item_') + item_0 1 + item_1 2 + item_2 3 + item_3 4 + dtype: int64 + + >>> df = pd.DataFrame({'A': [1, 2, 3, 4], 'B': [3, 4, 5, 6]}) + >>> df + A B + 0 1 3 + 1 2 4 + 2 3 5 + 3 4 6 + + >>> df.add_prefix('col_') + col_A col_B + 0 1 3 + 1 2 4 + 2 3 5 + 3 4 6 + """ + f = lambda x: f"{prefix}{x}" + + axis_name = self._info_axis_name + if axis is not None: + axis_name = self._get_axis_name(axis) + + mapper = {axis_name: f} + + # error: Incompatible return value type (got "Optional[Self]", + # expected "Self") + # error: Argument 1 to "rename" of "NDFrame" has incompatible type + # "**Dict[str, partial[str]]"; expected "Union[str, int, None]" + # error: Keywords must be strings + return self._rename(**mapper) # type: ignore[return-value, arg-type, misc] + + @final + def add_suffix(self, suffix: str, axis: Axis | None = None) -> Self: + """ + Suffix labels with string `suffix`. + + For Series, the row labels are suffixed. + For DataFrame, the column labels are suffixed. + + Parameters + ---------- + suffix : str + The string to add after each label. + axis : {0 or 'index', 1 or 'columns', None}, default None + Axis to add suffix on + + .. versionadded:: 2.0.0 + + Returns + ------- + Series or DataFrame + New Series or DataFrame with updated labels. + + See Also + -------- + Series.add_prefix: Prefix row labels with string `prefix`. + DataFrame.add_prefix: Prefix column labels with string `prefix`. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + >>> s + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + + >>> s.add_suffix('_item') + 0_item 1 + 1_item 2 + 2_item 3 + 3_item 4 + dtype: int64 + + >>> df = pd.DataFrame({'A': [1, 2, 3, 4], 'B': [3, 4, 5, 6]}) + >>> df + A B + 0 1 3 + 1 2 4 + 2 3 5 + 3 4 6 + + >>> df.add_suffix('_col') + A_col B_col + 0 1 3 + 1 2 4 + 2 3 5 + 3 4 6 + """ + f = lambda x: f"{x}{suffix}" + + axis_name = self._info_axis_name + if axis is not None: + axis_name = self._get_axis_name(axis) + + mapper = {axis_name: f} + # error: Incompatible return value type (got "Optional[Self]", + # expected "Self") + # error: Argument 1 to "rename" of "NDFrame" has incompatible type + # "**Dict[str, partial[str]]"; expected "Union[str, int, None]" + # error: Keywords must be strings + return self._rename(**mapper) # type: ignore[return-value, arg-type, misc] + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool_t = ..., + key: ValueKeyFunc = ..., + ) -> Self: + ... + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool_t = ..., + key: ValueKeyFunc = ..., + ) -> None: + ... + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: bool_t = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool_t = ..., + key: ValueKeyFunc = ..., + ) -> Self | None: + ... + + def sort_values( + self, + *, + axis: Axis = 0, + ascending: bool_t | Sequence[bool_t] = True, + inplace: bool_t = False, + kind: SortKind = "quicksort", + na_position: NaPosition = "last", + ignore_index: bool_t = False, + key: ValueKeyFunc | None = None, + ) -> Self | None: + """ + Sort by the values along either axis. + + Parameters + ----------%(optional_by)s + axis : %(axes_single_arg)s, default 0 + Axis to be sorted. + ascending : bool or list of bool, default True + Sort ascending vs. descending. Specify list for multiple sort + orders. If this is a list of bools, must match the length of + the by. + inplace : bool, default False + If True, perform operation in-place. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See also :func:`numpy.sort` for more + information. `mergesort` and `stable` are the only stable algorithms. For + DataFrames, this option is only applied when sorting on a single + column or label. + na_position : {'first', 'last'}, default 'last' + Puts NaNs at the beginning if `first`; `last` puts NaNs at the + end. + ignore_index : bool, default False + If True, the resulting axis will be labeled 0, 1, …, n - 1. + key : callable, optional + Apply the key function to the values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect a + ``Series`` and return a Series with the same shape as the input. + It will be applied to each column in `by` independently. + + Returns + ------- + DataFrame or None + DataFrame with sorted values or None if ``inplace=True``. + + See Also + -------- + DataFrame.sort_index : Sort a DataFrame by the index. + Series.sort_values : Similar method for a Series. + + Examples + -------- + >>> df = pd.DataFrame({ + ... 'col1': ['A', 'A', 'B', np.nan, 'D', 'C'], + ... 'col2': [2, 1, 9, 8, 7, 4], + ... 'col3': [0, 1, 9, 4, 2, 3], + ... 'col4': ['a', 'B', 'c', 'D', 'e', 'F'] + ... }) + >>> df + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + + Sort by col1 + + >>> df.sort_values(by=['col1']) + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 5 C 4 3 F + 4 D 7 2 e + 3 NaN 8 4 D + + Sort by multiple columns + + >>> df.sort_values(by=['col1', 'col2']) + col1 col2 col3 col4 + 1 A 1 1 B + 0 A 2 0 a + 2 B 9 9 c + 5 C 4 3 F + 4 D 7 2 e + 3 NaN 8 4 D + + Sort Descending + + >>> df.sort_values(by='col1', ascending=False) + col1 col2 col3 col4 + 4 D 7 2 e + 5 C 4 3 F + 2 B 9 9 c + 0 A 2 0 a + 1 A 1 1 B + 3 NaN 8 4 D + + Putting NAs first + + >>> df.sort_values(by='col1', ascending=False, na_position='first') + col1 col2 col3 col4 + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + 2 B 9 9 c + 0 A 2 0 a + 1 A 1 1 B + + Sorting with a key function + + >>> df.sort_values(by='col4', key=lambda col: col.str.lower()) + col1 col2 col3 col4 + 0 A 2 0 a + 1 A 1 1 B + 2 B 9 9 c + 3 NaN 8 4 D + 4 D 7 2 e + 5 C 4 3 F + + Natural sort with the key argument, + using the `natsort ` package. + + >>> df = pd.DataFrame({ + ... "time": ['0hr', '128hr', '72hr', '48hr', '96hr'], + ... "value": [10, 20, 30, 40, 50] + ... }) + >>> df + time value + 0 0hr 10 + 1 128hr 20 + 2 72hr 30 + 3 48hr 40 + 4 96hr 50 + >>> from natsort import index_natsorted + >>> df.sort_values( + ... by="time", + ... key=lambda x: np.argsort(index_natsorted(df["time"])) + ... ) + time value + 0 0hr 10 + 3 48hr 40 + 2 72hr 30 + 4 96hr 50 + 1 128hr 20 + """ + raise AbstractMethodError(self) + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool_t = ..., + ignore_index: bool_t = ..., + key: IndexKeyFunc = ..., + ) -> None: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool_t = ..., + ignore_index: bool_t = ..., + key: IndexKeyFunc = ..., + ) -> Self: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool_t | Sequence[bool_t] = ..., + inplace: bool_t = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool_t = ..., + ignore_index: bool_t = ..., + key: IndexKeyFunc = ..., + ) -> Self | None: + ... + + def sort_index( + self, + *, + axis: Axis = 0, + level: IndexLabel | None = None, + ascending: bool_t | Sequence[bool_t] = True, + inplace: bool_t = False, + kind: SortKind = "quicksort", + na_position: NaPosition = "last", + sort_remaining: bool_t = True, + ignore_index: bool_t = False, + key: IndexKeyFunc | None = None, + ) -> Self | None: + inplace = validate_bool_kwarg(inplace, "inplace") + axis = self._get_axis_number(axis) + ascending = validate_ascending(ascending) + + target = self._get_axis(axis) + + indexer = get_indexer_indexer( + target, level, ascending, kind, na_position, sort_remaining, key + ) + + if indexer is None: + if inplace: + result = self + else: + result = self.copy(deep=None) + + if ignore_index: + result.index = default_index(len(self)) + if inplace: + return None + else: + return result + + baxis = self._get_block_manager_axis(axis) + new_data = self._mgr.take(indexer, axis=baxis, verify=False) + + # reconstruct axis if needed + if not ignore_index: + new_axis = new_data.axes[baxis]._sort_levels_monotonic() + else: + new_axis = default_index(len(indexer)) + new_data.set_axis(baxis, new_axis) + + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="sort_index") + + @doc( + klass=_shared_doc_kwargs["klass"], + optional_reindex="", + ) + def reindex( + self, + labels=None, + *, + index=None, + columns=None, + axis: Axis | None = None, + method: ReindexMethod | None = None, + copy: bool_t | None = None, + level: Level | None = None, + fill_value: Scalar | None = np.nan, + limit: int | None = None, + tolerance=None, + ) -> Self: + """ + Conform {klass} to new index with optional filling logic. + + Places NA/NaN in locations having no value in the previous index. A new object + is produced unless the new index is equivalent to the current one and + ``copy=False``. + + Parameters + ---------- + {optional_reindex} + method : {{None, 'backfill'/'bfill', 'pad'/'ffill', 'nearest'}} + Method to use for filling holes in reindexed DataFrame. + Please note: this is only applicable to DataFrames/Series with a + monotonically increasing/decreasing index. + + * None (default): don't fill gaps + * pad / ffill: Propagate last valid observation forward to next + valid. + * backfill / bfill: Use next valid observation to fill gap. + * nearest: Use nearest valid observations to fill gap. + + copy : bool, default True + Return a new object, even if the passed indexes are the same. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + level : int or name + Broadcast across a level, matching Index values on the + passed MultiIndex level. + fill_value : scalar, default np.nan + Value to use for missing values. Defaults to NaN, but can be any + "compatible" value. + limit : int, default None + Maximum number of consecutive elements to forward or backward fill. + tolerance : optional + Maximum distance between original and new labels for inexact + matches. The values of the index at the matching locations most + satisfy the equation ``abs(index[indexer] - target) <= tolerance``. + + Tolerance may be a scalar value, which applies the same tolerance + to all values, or list-like, which applies variable tolerance per + element. List-like includes list, tuple, array, Series, and must be + the same size as the index and its dtype must exactly match the + index's type. + + Returns + ------- + {klass} with changed index. + + See Also + -------- + DataFrame.set_index : Set row labels. + DataFrame.reset_index : Remove row labels or move them to new columns. + DataFrame.reindex_like : Change to same indices as other DataFrame. + + Examples + -------- + ``DataFrame.reindex`` supports two calling conventions + + * ``(index=index_labels, columns=column_labels, ...)`` + * ``(labels, axis={{'index', 'columns'}}, ...)`` + + We *highly* recommend using keyword arguments to clarify your + intent. + + Create a dataframe with some fictional data. + + >>> index = ['Firefox', 'Chrome', 'Safari', 'IE10', 'Konqueror'] + >>> df = pd.DataFrame({{'http_status': [200, 200, 404, 404, 301], + ... 'response_time': [0.04, 0.02, 0.07, 0.08, 1.0]}}, + ... index=index) + >>> df + http_status response_time + Firefox 200 0.04 + Chrome 200 0.02 + Safari 404 0.07 + IE10 404 0.08 + Konqueror 301 1.00 + + Create a new index and reindex the dataframe. By default + values in the new index that do not have corresponding + records in the dataframe are assigned ``NaN``. + + >>> new_index = ['Safari', 'Iceweasel', 'Comodo Dragon', 'IE10', + ... 'Chrome'] + >>> df.reindex(new_index) + http_status response_time + Safari 404.0 0.07 + Iceweasel NaN NaN + Comodo Dragon NaN NaN + IE10 404.0 0.08 + Chrome 200.0 0.02 + + We can fill in the missing values by passing a value to + the keyword ``fill_value``. Because the index is not monotonically + increasing or decreasing, we cannot use arguments to the keyword + ``method`` to fill the ``NaN`` values. + + >>> df.reindex(new_index, fill_value=0) + http_status response_time + Safari 404 0.07 + Iceweasel 0 0.00 + Comodo Dragon 0 0.00 + IE10 404 0.08 + Chrome 200 0.02 + + >>> df.reindex(new_index, fill_value='missing') + http_status response_time + Safari 404 0.07 + Iceweasel missing missing + Comodo Dragon missing missing + IE10 404 0.08 + Chrome 200 0.02 + + We can also reindex the columns. + + >>> df.reindex(columns=['http_status', 'user_agent']) + http_status user_agent + Firefox 200 NaN + Chrome 200 NaN + Safari 404 NaN + IE10 404 NaN + Konqueror 301 NaN + + Or we can use "axis-style" keyword arguments + + >>> df.reindex(['http_status', 'user_agent'], axis="columns") + http_status user_agent + Firefox 200 NaN + Chrome 200 NaN + Safari 404 NaN + IE10 404 NaN + Konqueror 301 NaN + + To further illustrate the filling functionality in + ``reindex``, we will create a dataframe with a + monotonically increasing index (for example, a sequence + of dates). + + >>> date_index = pd.date_range('1/1/2010', periods=6, freq='D') + >>> df2 = pd.DataFrame({{"prices": [100, 101, np.nan, 100, 89, 88]}}, + ... index=date_index) + >>> df2 + prices + 2010-01-01 100.0 + 2010-01-02 101.0 + 2010-01-03 NaN + 2010-01-04 100.0 + 2010-01-05 89.0 + 2010-01-06 88.0 + + Suppose we decide to expand the dataframe to cover a wider + date range. + + >>> date_index2 = pd.date_range('12/29/2009', periods=10, freq='D') + >>> df2.reindex(date_index2) + prices + 2009-12-29 NaN + 2009-12-30 NaN + 2009-12-31 NaN + 2010-01-01 100.0 + 2010-01-02 101.0 + 2010-01-03 NaN + 2010-01-04 100.0 + 2010-01-05 89.0 + 2010-01-06 88.0 + 2010-01-07 NaN + + The index entries that did not have a value in the original data frame + (for example, '2009-12-29') are by default filled with ``NaN``. + If desired, we can fill in the missing values using one of several + options. + + For example, to back-propagate the last valid value to fill the ``NaN`` + values, pass ``bfill`` as an argument to the ``method`` keyword. + + >>> df2.reindex(date_index2, method='bfill') + prices + 2009-12-29 100.0 + 2009-12-30 100.0 + 2009-12-31 100.0 + 2010-01-01 100.0 + 2010-01-02 101.0 + 2010-01-03 NaN + 2010-01-04 100.0 + 2010-01-05 89.0 + 2010-01-06 88.0 + 2010-01-07 NaN + + Please note that the ``NaN`` value present in the original dataframe + (at index value 2010-01-03) will not be filled by any of the + value propagation schemes. This is because filling while reindexing + does not look at dataframe values, but only compares the original and + desired indexes. If you do want to fill in the ``NaN`` values present + in the original dataframe, use the ``fillna()`` method. + + See the :ref:`user guide ` for more. + """ + # TODO: Decide if we care about having different examples for different + # kinds + + if index is not None and columns is not None and labels is not None: + raise TypeError("Cannot specify all of 'labels', 'index', 'columns'.") + elif index is not None or columns is not None: + if axis is not None: + raise TypeError( + "Cannot specify both 'axis' and any of 'index' or 'columns'" + ) + if labels is not None: + if index is not None: + columns = labels + else: + index = labels + else: + if axis and self._get_axis_number(axis) == 1: + columns = labels + else: + index = labels + axes: dict[Literal["index", "columns"], Any] = { + "index": index, + "columns": columns, + } + method = clean_reindex_fill_method(method) + + # if all axes that are requested to reindex are equal, then only copy + # if indicated must have index names equal here as well as values + if copy and using_copy_on_write(): + copy = False + if all( + self._get_axis(axis_name).identical(ax) + for axis_name, ax in axes.items() + if ax is not None + ): + return self.copy(deep=copy) + + # check if we are a multi reindex + if self._needs_reindex_multi(axes, method, level): + return self._reindex_multi(axes, copy, fill_value) + + # perform the reindex on the axes + return self._reindex_axes( + axes, level, limit, tolerance, method, fill_value, copy + ).__finalize__(self, method="reindex") + + @final + def _reindex_axes( + self, + axes, + level: Level | None, + limit: int | None, + tolerance, + method, + fill_value: Scalar | None, + copy: bool_t | None, + ) -> Self: + """Perform the reindex for all the axes.""" + obj = self + for a in self._AXIS_ORDERS: + labels = axes[a] + if labels is None: + continue + + ax = self._get_axis(a) + new_index, indexer = ax.reindex( + labels, level=level, limit=limit, tolerance=tolerance, method=method + ) + + axis = self._get_axis_number(a) + obj = obj._reindex_with_indexers( + {axis: [new_index, indexer]}, + fill_value=fill_value, + copy=copy, + allow_dups=False, + ) + # If we've made a copy once, no need to make another one + copy = False + + return obj + + def _needs_reindex_multi(self, axes, method, level: Level | None) -> bool_t: + """Check if we do need a multi reindex.""" + return ( + (common.count_not_none(*axes.values()) == self._AXIS_LEN) + and method is None + and level is None + # reindex_multi calls self.values, so we only want to go + # down that path when doing so is cheap. + and self._can_fast_transpose + ) + + def _reindex_multi(self, axes, copy, fill_value): + raise AbstractMethodError(self) + + @final + def _reindex_with_indexers( + self, + reindexers, + fill_value=None, + copy: bool_t | None = False, + allow_dups: bool_t = False, + ) -> Self: + """allow_dups indicates an internal call here""" + # reindex doing multiple operations on different axes if indicated + new_data = self._mgr + for axis in sorted(reindexers.keys()): + index, indexer = reindexers[axis] + baxis = self._get_block_manager_axis(axis) + + if index is None: + continue + + index = ensure_index(index) + if indexer is not None: + indexer = ensure_platform_int(indexer) + + # TODO: speed up on homogeneous DataFrame objects (see _reindex_multi) + new_data = new_data.reindex_indexer( + index, + indexer, + axis=baxis, + fill_value=fill_value, + allow_dups=allow_dups, + copy=copy, + ) + # If we've made a copy once, no need to make another one + copy = False + + if ( + (copy or copy is None) + and new_data is self._mgr + and not using_copy_on_write() + ): + new_data = new_data.copy(deep=copy) + elif using_copy_on_write() and new_data is self._mgr: + new_data = new_data.copy(deep=False) + + return self._constructor_from_mgr(new_data, axes=new_data.axes).__finalize__( + self + ) + + def filter( + self, + items=None, + like: str | None = None, + regex: str | None = None, + axis: Axis | None = None, + ) -> Self: + """ + Subset the dataframe rows or columns according to the specified index labels. + + Note that this routine does not filter a dataframe on its + contents. The filter is applied to the labels of the index. + + Parameters + ---------- + items : list-like + Keep labels from axis which are in items. + like : str + Keep labels from axis for which "like in label == True". + regex : str (regular expression) + Keep labels from axis for which re.search(regex, label) == True. + axis : {0 or 'index', 1 or 'columns', None}, default None + The axis to filter on, expressed either as an index (int) + or axis name (str). By default this is the info axis, 'columns' for + DataFrame. For `Series` this parameter is unused and defaults to `None`. + + Returns + ------- + same type as input object + + See Also + -------- + DataFrame.loc : Access a group of rows and columns + by label(s) or a boolean array. + + Notes + ----- + The ``items``, ``like``, and ``regex`` parameters are + enforced to be mutually exclusive. + + ``axis`` defaults to the info axis that is used when indexing + with ``[]``. + + Examples + -------- + >>> df = pd.DataFrame(np.array(([1, 2, 3], [4, 5, 6])), + ... index=['mouse', 'rabbit'], + ... columns=['one', 'two', 'three']) + >>> df + one two three + mouse 1 2 3 + rabbit 4 5 6 + + >>> # select columns by name + >>> df.filter(items=['one', 'three']) + one three + mouse 1 3 + rabbit 4 6 + + >>> # select columns by regular expression + >>> df.filter(regex='e$', axis=1) + one three + mouse 1 3 + rabbit 4 6 + + >>> # select rows containing 'bbi' + >>> df.filter(like='bbi', axis=0) + one two three + rabbit 4 5 6 + """ + nkw = common.count_not_none(items, like, regex) + if nkw > 1: + raise TypeError( + "Keyword arguments `items`, `like`, or `regex` " + "are mutually exclusive" + ) + + if axis is None: + axis = self._info_axis_name + labels = self._get_axis(axis) + + if items is not None: + name = self._get_axis_name(axis) + items = Index(items).intersection(labels) + if len(items) == 0: + # Keep the dtype of labels when we are empty + items = items.astype(labels.dtype) + # error: Keywords must be strings + return self.reindex(**{name: items}) # type: ignore[misc] + elif like: + + def f(x) -> bool_t: + assert like is not None # needed for mypy + return like in ensure_str(x) + + values = labels.map(f) + return self.loc(axis=axis)[values] + elif regex: + + def f(x) -> bool_t: + return matcher.search(ensure_str(x)) is not None + + matcher = re.compile(regex) + values = labels.map(f) + return self.loc(axis=axis)[values] + else: + raise TypeError("Must pass either `items`, `like`, or `regex`") + + @final + def head(self, n: int = 5) -> Self: + """ + Return the first `n` rows. + + This function returns the first `n` rows for the object based + on position. It is useful for quickly testing if your object + has the right type of data in it. + + For negative values of `n`, this function returns all rows except + the last `|n|` rows, equivalent to ``df[:n]``. + + If n is larger than the number of rows, this function returns all rows. + + Parameters + ---------- + n : int, default 5 + Number of rows to select. + + Returns + ------- + same type as caller + The first `n` rows of the caller object. + + See Also + -------- + DataFrame.tail: Returns the last `n` rows. + + Examples + -------- + >>> df = pd.DataFrame({'animal': ['alligator', 'bee', 'falcon', 'lion', + ... 'monkey', 'parrot', 'shark', 'whale', 'zebra']}) + >>> df + animal + 0 alligator + 1 bee + 2 falcon + 3 lion + 4 monkey + 5 parrot + 6 shark + 7 whale + 8 zebra + + Viewing the first 5 lines + + >>> df.head() + animal + 0 alligator + 1 bee + 2 falcon + 3 lion + 4 monkey + + Viewing the first `n` lines (three in this case) + + >>> df.head(3) + animal + 0 alligator + 1 bee + 2 falcon + + For negative values of `n` + + >>> df.head(-3) + animal + 0 alligator + 1 bee + 2 falcon + 3 lion + 4 monkey + 5 parrot + """ + if using_copy_on_write(): + return self.iloc[:n].copy() + return self.iloc[:n] + + @final + def tail(self, n: int = 5) -> Self: + """ + Return the last `n` rows. + + This function returns last `n` rows from the object based on + position. It is useful for quickly verifying data, for example, + after sorting or appending rows. + + For negative values of `n`, this function returns all rows except + the first `|n|` rows, equivalent to ``df[|n|:]``. + + If n is larger than the number of rows, this function returns all rows. + + Parameters + ---------- + n : int, default 5 + Number of rows to select. + + Returns + ------- + type of caller + The last `n` rows of the caller object. + + See Also + -------- + DataFrame.head : The first `n` rows of the caller object. + + Examples + -------- + >>> df = pd.DataFrame({'animal': ['alligator', 'bee', 'falcon', 'lion', + ... 'monkey', 'parrot', 'shark', 'whale', 'zebra']}) + >>> df + animal + 0 alligator + 1 bee + 2 falcon + 3 lion + 4 monkey + 5 parrot + 6 shark + 7 whale + 8 zebra + + Viewing the last 5 lines + + >>> df.tail() + animal + 4 monkey + 5 parrot + 6 shark + 7 whale + 8 zebra + + Viewing the last `n` lines (three in this case) + + >>> df.tail(3) + animal + 6 shark + 7 whale + 8 zebra + + For negative values of `n` + + >>> df.tail(-3) + animal + 3 lion + 4 monkey + 5 parrot + 6 shark + 7 whale + 8 zebra + """ + if using_copy_on_write(): + if n == 0: + return self.iloc[0:0].copy() + return self.iloc[-n:].copy() + if n == 0: + return self.iloc[0:0] + return self.iloc[-n:] + + @final + def sample( + self, + n: int | None = None, + frac: float | None = None, + replace: bool_t = False, + weights=None, + random_state: RandomState | None = None, + axis: Axis | None = None, + ignore_index: bool_t = False, + ) -> Self: + """ + Return a random sample of items from an axis of object. + + You can use `random_state` for reproducibility. + + Parameters + ---------- + n : int, optional + Number of items from axis to return. Cannot be used with `frac`. + Default = 1 if `frac` = None. + frac : float, optional + Fraction of axis items to return. Cannot be used with `n`. + replace : bool, default False + Allow or disallow sampling of the same row more than once. + weights : str or ndarray-like, optional + Default 'None' results in equal probability weighting. + If passed a Series, will align with target object on index. Index + values in weights not found in sampled object will be ignored and + index values in sampled object not in weights will be assigned + weights of zero. + If called on a DataFrame, will accept the name of a column + when axis = 0. + Unless weights are a Series, weights must be same length as axis + being sampled. + If weights do not sum to 1, they will be normalized to sum to 1. + Missing values in the weights column will be treated as zero. + Infinite values not allowed. + random_state : int, array-like, BitGenerator, np.random.RandomState, np.random.Generator, optional + If int, array-like, or BitGenerator, seed for random number generator. + If np.random.RandomState or np.random.Generator, use as given. + + .. versionchanged:: 1.4.0 + + np.random.Generator objects now accepted + + axis : {0 or 'index', 1 or 'columns', None}, default None + Axis to sample. Accepts axis number or name. Default is stat axis + for given data type. For `Series` this parameter is unused and defaults to `None`. + ignore_index : bool, default False + If True, the resulting index will be labeled 0, 1, …, n - 1. + + .. versionadded:: 1.3.0 + + Returns + ------- + Series or DataFrame + A new object of same type as caller containing `n` items randomly + sampled from the caller object. + + See Also + -------- + DataFrameGroupBy.sample: Generates random samples from each group of a + DataFrame object. + SeriesGroupBy.sample: Generates random samples from each group of a + Series object. + numpy.random.choice: Generates a random sample from a given 1-D numpy + array. + + Notes + ----- + If `frac` > 1, `replacement` should be set to `True`. + + Examples + -------- + >>> df = pd.DataFrame({'num_legs': [2, 4, 8, 0], + ... 'num_wings': [2, 0, 0, 0], + ... 'num_specimen_seen': [10, 2, 1, 8]}, + ... index=['falcon', 'dog', 'spider', 'fish']) + >>> df + num_legs num_wings num_specimen_seen + falcon 2 2 10 + dog 4 0 2 + spider 8 0 1 + fish 0 0 8 + + Extract 3 random elements from the ``Series`` ``df['num_legs']``: + Note that we use `random_state` to ensure the reproducibility of + the examples. + + >>> df['num_legs'].sample(n=3, random_state=1) + fish 0 + spider 8 + falcon 2 + Name: num_legs, dtype: int64 + + A random 50% sample of the ``DataFrame`` with replacement: + + >>> df.sample(frac=0.5, replace=True, random_state=1) + num_legs num_wings num_specimen_seen + dog 4 0 2 + fish 0 0 8 + + An upsample sample of the ``DataFrame`` with replacement: + Note that `replace` parameter has to be `True` for `frac` parameter > 1. + + >>> df.sample(frac=2, replace=True, random_state=1) + num_legs num_wings num_specimen_seen + dog 4 0 2 + fish 0 0 8 + falcon 2 2 10 + falcon 2 2 10 + fish 0 0 8 + dog 4 0 2 + fish 0 0 8 + dog 4 0 2 + + Using a DataFrame column as weights. Rows with larger value in the + `num_specimen_seen` column are more likely to be sampled. + + >>> df.sample(n=2, weights='num_specimen_seen', random_state=1) + num_legs num_wings num_specimen_seen + falcon 2 2 10 + fish 0 0 8 + """ # noqa: E501 + if axis is None: + axis = 0 + + axis = self._get_axis_number(axis) + obj_len = self.shape[axis] + + # Process random_state argument + rs = common.random_state(random_state) + + size = sample.process_sampling_size(n, frac, replace) + if size is None: + assert frac is not None + size = round(frac * obj_len) + + if weights is not None: + weights = sample.preprocess_weights(self, weights, axis) + + sampled_indices = sample.sample(obj_len, size, replace, weights, rs) + result = self.take(sampled_indices, axis=axis) + + if ignore_index: + result.index = default_index(len(result)) + + return result + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def pipe( + self, + func: Callable[..., T] | tuple[Callable[..., T], str], + *args, + **kwargs, + ) -> T: + r""" + Apply chainable functions that expect Series or DataFrames. + + Parameters + ---------- + func : function + Function to apply to the {klass}. + ``args``, and ``kwargs`` are passed into ``func``. + Alternatively a ``(callable, data_keyword)`` tuple where + ``data_keyword`` is a string indicating the keyword of + ``callable`` that expects the {klass}. + *args : iterable, optional + Positional arguments passed into ``func``. + **kwargs : mapping, optional + A dictionary of keyword arguments passed into ``func``. + + Returns + ------- + the return type of ``func``. + + See Also + -------- + DataFrame.apply : Apply a function along input axis of DataFrame. + DataFrame.map : Apply a function elementwise on a whole DataFrame. + Series.map : Apply a mapping correspondence on a + :class:`~pandas.Series`. + + Notes + ----- + Use ``.pipe`` when chaining together functions that expect + Series, DataFrames or GroupBy objects. + + Examples + -------- + Constructing a income DataFrame from a dictionary. + + >>> data = [[8000, 1000], [9500, np.nan], [5000, 2000]] + >>> df = pd.DataFrame(data, columns=['Salary', 'Others']) + >>> df + Salary Others + 0 8000 1000.0 + 1 9500 NaN + 2 5000 2000.0 + + Functions that perform tax reductions on an income DataFrame. + + >>> def subtract_federal_tax(df): + ... return df * 0.9 + >>> def subtract_state_tax(df, rate): + ... return df * (1 - rate) + >>> def subtract_national_insurance(df, rate, rate_increase): + ... new_rate = rate + rate_increase + ... return df * (1 - new_rate) + + Instead of writing + + >>> subtract_national_insurance( + ... subtract_state_tax(subtract_federal_tax(df), rate=0.12), + ... rate=0.05, + ... rate_increase=0.02) # doctest: +SKIP + + You can write + + >>> ( + ... df.pipe(subtract_federal_tax) + ... .pipe(subtract_state_tax, rate=0.12) + ... .pipe(subtract_national_insurance, rate=0.05, rate_increase=0.02) + ... ) + Salary Others + 0 5892.48 736.56 + 1 6997.32 NaN + 2 3682.80 1473.12 + + If you have a function that takes the data as (say) the second + argument, pass a tuple indicating which keyword expects the + data. For example, suppose ``national_insurance`` takes its data as ``df`` + in the second argument: + + >>> def subtract_national_insurance(rate, df, rate_increase): + ... new_rate = rate + rate_increase + ... return df * (1 - new_rate) + >>> ( + ... df.pipe(subtract_federal_tax) + ... .pipe(subtract_state_tax, rate=0.12) + ... .pipe( + ... (subtract_national_insurance, 'df'), + ... rate=0.05, + ... rate_increase=0.02 + ... ) + ... ) + Salary Others + 0 5892.48 736.56 + 1 6997.32 NaN + 2 3682.80 1473.12 + """ + if using_copy_on_write(): + return common.pipe(self.copy(deep=None), func, *args, **kwargs) + return common.pipe(self, func, *args, **kwargs) + + # ---------------------------------------------------------------------- + # Attribute access + + @final + def __finalize__(self, other, method: str | None = None, **kwargs) -> Self: + """ + Propagate metadata from other to self. + + Parameters + ---------- + other : the object from which to get the attributes that we are going + to propagate + method : str, optional + A passed method name providing context on where ``__finalize__`` + was called. + + .. warning:: + + The value passed as `method` are not currently considered + stable across pandas releases. + """ + if isinstance(other, NDFrame): + if other.attrs: + # We want attrs propagation to have minimal performance + # impact if attrs are not used; i.e. attrs is an empty dict. + # One could make the deepcopy unconditionally, but a deepcopy + # of an empty dict is 50x more expensive than the empty check. + self.attrs = deepcopy(other.attrs) + + self.flags.allows_duplicate_labels = other.flags.allows_duplicate_labels + # For subclasses using _metadata. + for name in set(self._metadata) & set(other._metadata): + assert isinstance(name, str) + object.__setattr__(self, name, getattr(other, name, None)) + + if method == "concat": + # propagate attrs only if all concat arguments have the same attrs + if all(bool(obj.attrs) for obj in other.objs): + # all concatenate arguments have non-empty attrs + attrs = other.objs[0].attrs + have_same_attrs = all(obj.attrs == attrs for obj in other.objs[1:]) + if have_same_attrs: + self.attrs = deepcopy(attrs) + + allows_duplicate_labels = all( + x.flags.allows_duplicate_labels for x in other.objs + ) + self.flags.allows_duplicate_labels = allows_duplicate_labels + + return self + + @final + def __getattr__(self, name: str): + """ + After regular attribute access, try looking up the name + This allows simpler access to columns for interactive use. + """ + # Note: obj.x will always call obj.__getattribute__('x') prior to + # calling obj.__getattr__('x'). + if ( + name not in self._internal_names_set + and name not in self._metadata + and name not in self._accessors + and self._info_axis._can_hold_identifiers_and_holds_name(name) + ): + return self[name] + return object.__getattribute__(self, name) + + @final + def __setattr__(self, name: str, value) -> None: + """ + After regular attribute access, try setting the name + This allows simpler access to columns for interactive use. + """ + # first try regular attribute access via __getattribute__, so that + # e.g. ``obj.x`` and ``obj.x = 4`` will always reference/modify + # the same attribute. + + try: + object.__getattribute__(self, name) + return object.__setattr__(self, name, value) + except AttributeError: + pass + + # if this fails, go on to more involved attribute setting + # (note that this matches __getattr__, above). + if name in self._internal_names_set: + object.__setattr__(self, name, value) + elif name in self._metadata: + object.__setattr__(self, name, value) + else: + try: + existing = getattr(self, name) + if isinstance(existing, Index): + object.__setattr__(self, name, value) + elif name in self._info_axis: + self[name] = value + else: + object.__setattr__(self, name, value) + except (AttributeError, TypeError): + if isinstance(self, ABCDataFrame) and (is_list_like(value)): + warnings.warn( + "Pandas doesn't allow columns to be " + "created via a new attribute name - see " + "https://pandas.pydata.org/pandas-docs/" + "stable/indexing.html#attribute-access", + stacklevel=find_stack_level(), + ) + object.__setattr__(self, name, value) + + @final + def _dir_additions(self) -> set[str]: + """ + add the string-like attributes from the info_axis. + If info_axis is a MultiIndex, its first level values are used. + """ + additions = super()._dir_additions() + if self._info_axis._can_hold_strings: + additions.update(self._info_axis._dir_additions_for_owner) + return additions + + # ---------------------------------------------------------------------- + # Consolidation of internals + + @final + def _protect_consolidate(self, f): + """ + Consolidate _mgr -- if the blocks have changed, then clear the + cache + """ + if isinstance(self._mgr, (ArrayManager, SingleArrayManager)): + return f() + blocks_before = len(self._mgr.blocks) + result = f() + if len(self._mgr.blocks) != blocks_before: + self._clear_item_cache() + return result + + @final + def _consolidate_inplace(self) -> None: + """Consolidate data in place and return None""" + + def f() -> None: + self._mgr = self._mgr.consolidate() + + self._protect_consolidate(f) + + @final + def _consolidate(self): + """ + Compute NDFrame with "consolidated" internals (data of each dtype + grouped together in a single ndarray). + + Returns + ------- + consolidated : same type as caller + """ + f = lambda: self._mgr.consolidate() + cons_data = self._protect_consolidate(f) + return self._constructor_from_mgr(cons_data, axes=cons_data.axes).__finalize__( + self + ) + + @final + @property + def _is_mixed_type(self) -> bool_t: + if self._mgr.is_single_block: + # Includes all Series cases + return False + + if self._mgr.any_extension_types: + # Even if they have the same dtype, we can't consolidate them, + # so we pretend this is "mixed'" + return True + + return self.dtypes.nunique() > 1 + + @final + def _get_numeric_data(self) -> Self: + new_mgr = self._mgr.get_numeric_data() + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__(self) + + @final + def _get_bool_data(self): + new_mgr = self._mgr.get_bool_data() + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__(self) + + # ---------------------------------------------------------------------- + # Internal Interface Methods + + @property + def values(self): + raise AbstractMethodError(self) + + @property + def _values(self) -> ArrayLike: + """internal implementation""" + raise AbstractMethodError(self) + + @property + def dtypes(self): + """ + Return the dtypes in the DataFrame. + + This returns a Series with the data type of each column. + The result's index is the original DataFrame's columns. Columns + with mixed types are stored with the ``object`` dtype. See + :ref:`the User Guide ` for more. + + Returns + ------- + pandas.Series + The data type of each column. + + Examples + -------- + >>> df = pd.DataFrame({'float': [1.0], + ... 'int': [1], + ... 'datetime': [pd.Timestamp('20180310')], + ... 'string': ['foo']}) + >>> df.dtypes + float float64 + int int64 + datetime datetime64[ns] + string object + dtype: object + """ + data = self._mgr.get_dtypes() + return self._constructor_sliced(data, index=self._info_axis, dtype=np.object_) + + @final + def astype( + self, dtype, copy: bool_t | None = None, errors: IgnoreRaise = "raise" + ) -> Self: + """ + Cast a pandas object to a specified dtype ``dtype``. + + Parameters + ---------- + dtype : str, data type, Series or Mapping of column name -> data type + Use a str, numpy.dtype, pandas.ExtensionDtype or Python type to + cast entire pandas object to the same type. Alternatively, use a + mapping, e.g. {col: dtype, ...}, where col is a column label and dtype is + a numpy.dtype or Python type to cast one or more of the DataFrame's + columns to column-specific types. + copy : bool, default True + Return a copy when ``copy=True`` (be very careful setting + ``copy=False`` as changes to values then may propagate to other + pandas objects). + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + errors : {'raise', 'ignore'}, default 'raise' + Control raising of exceptions on invalid data for provided dtype. + + - ``raise`` : allow exceptions to be raised + - ``ignore`` : suppress exceptions. On error return original object. + + Returns + ------- + same type as caller + + See Also + -------- + to_datetime : Convert argument to datetime. + to_timedelta : Convert argument to timedelta. + to_numeric : Convert argument to a numeric type. + numpy.ndarray.astype : Cast a numpy array to a specified type. + + Notes + ----- + .. versionchanged:: 2.0.0 + + Using ``astype`` to convert from timezone-naive dtype to + timezone-aware dtype will raise an exception. + Use :meth:`Series.dt.tz_localize` instead. + + Examples + -------- + Create a DataFrame: + + >>> d = {'col1': [1, 2], 'col2': [3, 4]} + >>> df = pd.DataFrame(data=d) + >>> df.dtypes + col1 int64 + col2 int64 + dtype: object + + Cast all columns to int32: + + >>> df.astype('int32').dtypes + col1 int32 + col2 int32 + dtype: object + + Cast col1 to int32 using a dictionary: + + >>> df.astype({'col1': 'int32'}).dtypes + col1 int32 + col2 int64 + dtype: object + + Create a series: + + >>> ser = pd.Series([1, 2], dtype='int32') + >>> ser + 0 1 + 1 2 + dtype: int32 + >>> ser.astype('int64') + 0 1 + 1 2 + dtype: int64 + + Convert to categorical type: + + >>> ser.astype('category') + 0 1 + 1 2 + dtype: category + Categories (2, int32): [1, 2] + + Convert to ordered categorical type with custom ordering: + + >>> from pandas.api.types import CategoricalDtype + >>> cat_dtype = CategoricalDtype( + ... categories=[2, 1], ordered=True) + >>> ser.astype(cat_dtype) + 0 1 + 1 2 + dtype: category + Categories (2, int64): [2 < 1] + + Create a series of dates: + + >>> ser_date = pd.Series(pd.date_range('20200101', periods=3)) + >>> ser_date + 0 2020-01-01 + 1 2020-01-02 + 2 2020-01-03 + dtype: datetime64[ns] + """ + if copy and using_copy_on_write(): + copy = False + + if is_dict_like(dtype): + if self.ndim == 1: # i.e. Series + if len(dtype) > 1 or self.name not in dtype: + raise KeyError( + "Only the Series name can be used for " + "the key in Series dtype mappings." + ) + new_type = dtype[self.name] + return self.astype(new_type, copy, errors) + + # GH#44417 cast to Series so we can use .iat below, which will be + # robust in case we + from pandas import Series + + dtype_ser = Series(dtype, dtype=object) + + for col_name in dtype_ser.index: + if col_name not in self: + raise KeyError( + "Only a column name can be used for the " + "key in a dtype mappings argument. " + f"'{col_name}' not found in columns." + ) + + dtype_ser = dtype_ser.reindex(self.columns, fill_value=None, copy=False) + + results = [] + for i, (col_name, col) in enumerate(self.items()): + cdt = dtype_ser.iat[i] + if isna(cdt): + res_col = col.copy(deep=copy) + else: + try: + res_col = col.astype(dtype=cdt, copy=copy, errors=errors) + except ValueError as ex: + ex.args = ( + f"{ex}: Error while type casting for column '{col_name}'", + ) + raise + results.append(res_col) + + elif is_extension_array_dtype(dtype) and self.ndim > 1: + # TODO(EA2D): special case not needed with 2D EAs + dtype = pandas_dtype(dtype) + if isinstance(dtype, ExtensionDtype) and all( + arr.dtype == dtype for arr in self._mgr.arrays + ): + return self.copy(deep=copy) + # GH 18099/22869: columnwise conversion to extension dtype + # GH 24704: self.items handles duplicate column names + results = [ + ser.astype(dtype, copy=copy, errors=errors) for _, ser in self.items() + ] + + else: + # else, only a single dtype is given + new_data = self._mgr.astype(dtype=dtype, copy=copy, errors=errors) + res = self._constructor_from_mgr(new_data, axes=new_data.axes) + return res.__finalize__(self, method="astype") + + # GH 33113: handle empty frame or series + if not results: + return self.copy(deep=None) + + # GH 19920: retain column metadata after concat + result = concat(results, axis=1, copy=False) + # GH#40810 retain subclass + # error: Incompatible types in assignment + # (expression has type "Self", variable has type "DataFrame") + result = self._constructor(result) # type: ignore[assignment] + result.columns = self.columns + result = result.__finalize__(self, method="astype") + # https://github.com/python/mypy/issues/8354 + return cast(Self, result) + + @final + def copy(self, deep: bool_t | None = True) -> Self: + """ + Make a copy of this object's indices and data. + + When ``deep=True`` (default), a new object will be created with a + copy of the calling object's data and indices. Modifications to + the data or indices of the copy will not be reflected in the + original object (see notes below). + + When ``deep=False``, a new object will be created without copying + the calling object's data or index (only references to the data + and index are copied). Any changes to the data of the original + will be reflected in the shallow copy (and vice versa). + + .. note:: + The ``deep=False`` behaviour as described above will change + in pandas 3.0. `Copy-on-Write + `__ + will be enabled by default, which means that the "shallow" copy + is that is returned with ``deep=False`` will still avoid making + an eager copy, but changes to the data of the original will *no* + longer be reflected in the shallow copy (or vice versa). Instead, + it makes use of a lazy (deferred) copy mechanism that will copy + the data only when any changes to the original or shallow copy is + made. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Parameters + ---------- + deep : bool, default True + Make a deep copy, including a copy of the data and the indices. + With ``deep=False`` neither the indices nor the data are copied. + + Returns + ------- + Series or DataFrame + Object type matches caller. + + Notes + ----- + When ``deep=True``, data is copied but actual Python objects + will not be copied recursively, only the reference to the object. + This is in contrast to `copy.deepcopy` in the Standard Library, + which recursively copies object data (see examples below). + + While ``Index`` objects are copied when ``deep=True``, the underlying + numpy array is not copied for performance reasons. Since ``Index`` is + immutable, the underlying data can be safely shared and a copy + is not needed. + + Since pandas is not thread safe, see the + :ref:`gotchas ` when copying in a threading + environment. + + When ``copy_on_write`` in pandas config is set to ``True``, the + ``copy_on_write`` config takes effect even when ``deep=False``. + This means that any changes to the copied data would make a new copy + of the data upon write (and vice versa). Changes made to either the + original or copied variable would not be reflected in the counterpart. + See :ref:`Copy_on_Write ` for more information. + + Examples + -------- + >>> s = pd.Series([1, 2], index=["a", "b"]) + >>> s + a 1 + b 2 + dtype: int64 + + >>> s_copy = s.copy() + >>> s_copy + a 1 + b 2 + dtype: int64 + + **Shallow copy versus default (deep) copy:** + + >>> s = pd.Series([1, 2], index=["a", "b"]) + >>> deep = s.copy() + >>> shallow = s.copy(deep=False) + + Shallow copy shares data and index with original. + + >>> s is shallow + False + >>> s.values is shallow.values and s.index is shallow.index + True + + Deep copy has own copy of data and index. + + >>> s is deep + False + >>> s.values is deep.values or s.index is deep.index + False + + Updates to the data shared by shallow copy and original is reflected + in both (NOTE: this will no longer be true for pandas >= 3.0); + deep copy remains unchanged. + + >>> s.iloc[0] = 3 + >>> shallow.iloc[1] = 4 + >>> s + a 3 + b 4 + dtype: int64 + >>> shallow + a 3 + b 4 + dtype: int64 + >>> deep + a 1 + b 2 + dtype: int64 + + Note that when copying an object containing Python objects, a deep copy + will copy the data, but will not do so recursively. Updating a nested + data object will be reflected in the deep copy. + + >>> s = pd.Series([[1, 2], [3, 4]]) + >>> deep = s.copy() + >>> s[0][0] = 10 + >>> s + 0 [10, 2] + 1 [3, 4] + dtype: object + >>> deep + 0 [10, 2] + 1 [3, 4] + dtype: object + + **Copy-on-Write is set to true**, the shallow copy is not modified + when the original data is changed: + + >>> with pd.option_context("mode.copy_on_write", True): + ... s = pd.Series([1, 2], index=["a", "b"]) + ... copy = s.copy(deep=False) + ... s.iloc[0] = 100 + ... s + a 100 + b 2 + dtype: int64 + >>> copy + a 1 + b 2 + dtype: int64 + """ + data = self._mgr.copy(deep=deep) + self._clear_item_cache() + return self._constructor_from_mgr(data, axes=data.axes).__finalize__( + self, method="copy" + ) + + @final + def __copy__(self, deep: bool_t = True) -> Self: + return self.copy(deep=deep) + + @final + def __deepcopy__(self, memo=None) -> Self: + """ + Parameters + ---------- + memo, default None + Standard signature. Unused + """ + return self.copy(deep=True) + + @final + def infer_objects(self, copy: bool_t | None = None) -> Self: + """ + Attempt to infer better dtypes for object columns. + + Attempts soft conversion of object-dtyped + columns, leaving non-object and unconvertible + columns unchanged. The inference rules are the + same as during normal Series/DataFrame construction. + + Parameters + ---------- + copy : bool, default True + Whether to make a copy for non-object or non-inferable columns + or Series. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + same type as input object + + See Also + -------- + to_datetime : Convert argument to datetime. + to_timedelta : Convert argument to timedelta. + to_numeric : Convert argument to numeric type. + convert_dtypes : Convert argument to best possible dtype. + + Examples + -------- + >>> df = pd.DataFrame({"A": ["a", 1, 2, 3]}) + >>> df = df.iloc[1:] + >>> df + A + 1 1 + 2 2 + 3 3 + + >>> df.dtypes + A object + dtype: object + + >>> df.infer_objects().dtypes + A int64 + dtype: object + """ + new_mgr = self._mgr.convert(copy=copy) + res = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + return res.__finalize__(self, method="infer_objects") + + @final + def convert_dtypes( + self, + infer_objects: bool_t = True, + convert_string: bool_t = True, + convert_integer: bool_t = True, + convert_boolean: bool_t = True, + convert_floating: bool_t = True, + dtype_backend: DtypeBackend = "numpy_nullable", + ) -> Self: + """ + Convert columns to the best possible dtypes using dtypes supporting ``pd.NA``. + + Parameters + ---------- + infer_objects : bool, default True + Whether object dtypes should be converted to the best possible types. + convert_string : bool, default True + Whether object dtypes should be converted to ``StringDtype()``. + convert_integer : bool, default True + Whether, if possible, conversion can be done to integer extension types. + convert_boolean : bool, defaults True + Whether object dtypes should be converted to ``BooleanDtypes()``. + convert_floating : bool, defaults True + Whether, if possible, conversion can be done to floating extension types. + If `convert_integer` is also True, preference will be give to integer + dtypes if the floats can be faithfully casted to integers. + dtype_backend : {'numpy_nullable', 'pyarrow'}, default 'numpy_nullable' + Back-end data type applied to the resultant :class:`DataFrame` + (still experimental). Behaviour is as follows: + + * ``"numpy_nullable"``: returns nullable-dtype-backed :class:`DataFrame` + (default). + * ``"pyarrow"``: returns pyarrow-backed nullable :class:`ArrowDtype` + DataFrame. + + .. versionadded:: 2.0 + + Returns + ------- + Series or DataFrame + Copy of input object with new dtype. + + See Also + -------- + infer_objects : Infer dtypes of objects. + to_datetime : Convert argument to datetime. + to_timedelta : Convert argument to timedelta. + to_numeric : Convert argument to a numeric type. + + Notes + ----- + By default, ``convert_dtypes`` will attempt to convert a Series (or each + Series in a DataFrame) to dtypes that support ``pd.NA``. By using the options + ``convert_string``, ``convert_integer``, ``convert_boolean`` and + ``convert_floating``, it is possible to turn off individual conversions + to ``StringDtype``, the integer extension types, ``BooleanDtype`` + or floating extension types, respectively. + + For object-dtyped columns, if ``infer_objects`` is ``True``, use the inference + rules as during normal Series/DataFrame construction. Then, if possible, + convert to ``StringDtype``, ``BooleanDtype`` or an appropriate integer + or floating extension type, otherwise leave as ``object``. + + If the dtype is integer, convert to an appropriate integer extension type. + + If the dtype is numeric, and consists of all integers, convert to an + appropriate integer extension type. Otherwise, convert to an + appropriate floating extension type. + + In the future, as new dtypes are added that support ``pd.NA``, the results + of this method will change to support those new dtypes. + + Examples + -------- + >>> df = pd.DataFrame( + ... { + ... "a": pd.Series([1, 2, 3], dtype=np.dtype("int32")), + ... "b": pd.Series(["x", "y", "z"], dtype=np.dtype("O")), + ... "c": pd.Series([True, False, np.nan], dtype=np.dtype("O")), + ... "d": pd.Series(["h", "i", np.nan], dtype=np.dtype("O")), + ... "e": pd.Series([10, np.nan, 20], dtype=np.dtype("float")), + ... "f": pd.Series([np.nan, 100.5, 200], dtype=np.dtype("float")), + ... } + ... ) + + Start with a DataFrame with default dtypes. + + >>> df + a b c d e f + 0 1 x True h 10.0 NaN + 1 2 y False i NaN 100.5 + 2 3 z NaN NaN 20.0 200.0 + + >>> df.dtypes + a int32 + b object + c object + d object + e float64 + f float64 + dtype: object + + Convert the DataFrame to use best possible dtypes. + + >>> dfn = df.convert_dtypes() + >>> dfn + a b c d e f + 0 1 x True h 10 + 1 2 y False i 100.5 + 2 3 z 20 200.0 + + >>> dfn.dtypes + a Int32 + b string[python] + c boolean + d string[python] + e Int64 + f Float64 + dtype: object + + Start with a Series of strings and missing data represented by ``np.nan``. + + >>> s = pd.Series(["a", "b", np.nan]) + >>> s + 0 a + 1 b + 2 NaN + dtype: object + + Obtain a Series with dtype ``StringDtype``. + + >>> s.convert_dtypes() + 0 a + 1 b + 2 + dtype: string + """ + check_dtype_backend(dtype_backend) + new_mgr = self._mgr.convert_dtypes( # type: ignore[union-attr] + infer_objects=infer_objects, + convert_string=convert_string, + convert_integer=convert_integer, + convert_boolean=convert_boolean, + convert_floating=convert_floating, + dtype_backend=dtype_backend, + ) + res = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + return res.__finalize__(self, method="convert_dtypes") + + # ---------------------------------------------------------------------- + # Filling NA's + + def _deprecate_downcast(self, downcast, method_name: str): + # GH#40988 + if downcast is not lib.no_default: + warnings.warn( + f"The 'downcast' keyword in {method_name} is deprecated and " + "will be removed in a future version. Use " + "res.infer_objects(copy=False) to infer non-object dtype, or " + "pd.to_numeric with the 'downcast' keyword to downcast numeric " + "results.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + downcast = None + return downcast + + @final + def _pad_or_backfill( + self, + method: Literal["ffill", "bfill", "pad", "backfill"], + *, + axis: None | Axis = None, + inplace: bool_t = False, + limit: None | int = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: dict | None = None, + ): + if axis is None: + axis = 0 + axis = self._get_axis_number(axis) + method = clean_fill_method(method) + + if not self._mgr.is_single_block and axis == 1: + # e.g. test_align_fill_method + # TODO(3.0): once downcast is removed, we can do the .T + # in all axis=1 cases, and remove axis kward from mgr.pad_or_backfill. + if inplace: + raise NotImplementedError() + result = self.T._pad_or_backfill( + method=method, limit=limit, limit_area=limit_area + ).T + + return result + + new_mgr = self._mgr.pad_or_backfill( + method=method, + axis=self._get_block_manager_axis(axis), + limit=limit, + limit_area=limit_area, + inplace=inplace, + downcast=downcast, + ) + result = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="fillna") + + @overload + def fillna( + self, + value: Hashable | Mapping | Series | DataFrame = ..., + *, + method: FillnaOptions | None = ..., + axis: Axis | None = ..., + inplace: Literal[False] = ..., + limit: int | None = ..., + downcast: dict | None = ..., + ) -> Self: + ... + + @overload + def fillna( + self, + value: Hashable | Mapping | Series | DataFrame = ..., + *, + method: FillnaOptions | None = ..., + axis: Axis | None = ..., + inplace: Literal[True], + limit: int | None = ..., + downcast: dict | None = ..., + ) -> None: + ... + + @overload + def fillna( + self, + value: Hashable | Mapping | Series | DataFrame = ..., + *, + method: FillnaOptions | None = ..., + axis: Axis | None = ..., + inplace: bool_t = ..., + limit: int | None = ..., + downcast: dict | None = ..., + ) -> Self | None: + ... + + @final + @doc( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + ) + def fillna( + self, + value: Hashable | Mapping | Series | DataFrame | None = None, + *, + method: FillnaOptions | None = None, + axis: Axis | None = None, + inplace: bool_t = False, + limit: int | None = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Self | None: + """ + Fill NA/NaN values using the specified method. + + Parameters + ---------- + value : scalar, dict, Series, or DataFrame + Value to use to fill holes (e.g. 0), alternately a + dict/Series/DataFrame of values specifying which value to use for + each index (for a Series) or column (for a DataFrame). Values not + in the dict/Series/DataFrame will not be filled. This value cannot + be a list. + method : {{'backfill', 'bfill', 'ffill', None}}, default None + Method to use for filling holes in reindexed Series: + + * ffill: propagate last valid observation forward to next valid. + * backfill / bfill: use next valid observation to fill gap. + + .. deprecated:: 2.1.0 + Use ffill or bfill instead. + + axis : {axes_single_arg} + Axis along which to fill missing values. For `Series` + this parameter is unused and defaults to 0. + inplace : bool, default False + If True, fill in-place. Note: this will modify any + other views on this object (e.g., a no-copy slice for a column in a + DataFrame). + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + .. deprecated:: 2.2.0 + + Returns + ------- + {klass} or None + Object with missing values filled or None if ``inplace=True``. + + See Also + -------- + ffill : Fill values by propagating the last valid observation to next valid. + bfill : Fill values by using the next valid observation to fill the gap. + interpolate : Fill NaN values using interpolation. + reindex : Conform object to new index. + asfreq : Convert TimeSeries to specified frequency. + + Examples + -------- + >>> df = pd.DataFrame([[np.nan, 2, np.nan, 0], + ... [3, 4, np.nan, 1], + ... [np.nan, np.nan, np.nan, np.nan], + ... [np.nan, 3, np.nan, 4]], + ... columns=list("ABCD")) + >>> df + A B C D + 0 NaN 2.0 NaN 0.0 + 1 3.0 4.0 NaN 1.0 + 2 NaN NaN NaN NaN + 3 NaN 3.0 NaN 4.0 + + Replace all NaN elements with 0s. + + >>> df.fillna(0) + A B C D + 0 0.0 2.0 0.0 0.0 + 1 3.0 4.0 0.0 1.0 + 2 0.0 0.0 0.0 0.0 + 3 0.0 3.0 0.0 4.0 + + Replace all NaN elements in column 'A', 'B', 'C', and 'D', with 0, 1, + 2, and 3 respectively. + + >>> values = {{"A": 0, "B": 1, "C": 2, "D": 3}} + >>> df.fillna(value=values) + A B C D + 0 0.0 2.0 2.0 0.0 + 1 3.0 4.0 2.0 1.0 + 2 0.0 1.0 2.0 3.0 + 3 0.0 3.0 2.0 4.0 + + Only replace the first NaN element. + + >>> df.fillna(value=values, limit=1) + A B C D + 0 0.0 2.0 2.0 0.0 + 1 3.0 4.0 NaN 1.0 + 2 NaN 1.0 NaN 3.0 + 3 NaN 3.0 NaN 4.0 + + When filling using a DataFrame, replacement happens along + the same column names and same indices + + >>> df2 = pd.DataFrame(np.zeros((4, 4)), columns=list("ABCE")) + >>> df.fillna(df2) + A B C D + 0 0.0 2.0 0.0 0.0 + 1 3.0 4.0 0.0 1.0 + 2 0.0 0.0 0.0 NaN + 3 0.0 3.0 0.0 4.0 + + Note that column D is not affected since it is not present in df2. + """ + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + value, method = validate_fillna_kwargs(value, method) + if method is not None: + warnings.warn( + f"{type(self).__name__}.fillna with 'method' is deprecated and " + "will raise in a future version. Use obj.ffill() or obj.bfill() " + "instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + was_no_default = downcast is lib.no_default + downcast = self._deprecate_downcast(downcast, "fillna") + + # set the default here, so functions examining the signaure + # can detect if something was set (e.g. in groupby) (GH9221) + if axis is None: + axis = 0 + axis = self._get_axis_number(axis) + + if value is None: + return self._pad_or_backfill( + # error: Argument 1 to "_pad_or_backfill" of "NDFrame" has + # incompatible type "Optional[Literal['backfill', 'bfill', 'ffill', + # 'pad']]"; expected "Literal['ffill', 'bfill', 'pad', 'backfill']" + method, # type: ignore[arg-type] + axis=axis, + limit=limit, + inplace=inplace, + # error: Argument "downcast" to "_fillna_with_method" of "NDFrame" + # has incompatible type "Union[Dict[Any, Any], None, + # Literal[_NoDefault.no_default]]"; expected + # "Optional[Dict[Any, Any]]" + downcast=downcast, # type: ignore[arg-type] + ) + else: + if self.ndim == 1: + if isinstance(value, (dict, ABCSeries)): + if not len(value): + # test_fillna_nonscalar + if inplace: + return None + return self.copy(deep=None) + from pandas import Series + + value = Series(value) + value = value.reindex(self.index, copy=False) + value = value._values + elif not is_list_like(value): + pass + else: + raise TypeError( + '"value" parameter must be a scalar, dict ' + "or Series, but you passed a " + f'"{type(value).__name__}"' + ) + + new_data = self._mgr.fillna( + value=value, limit=limit, inplace=inplace, downcast=downcast + ) + + elif isinstance(value, (dict, ABCSeries)): + if axis == 1: + raise NotImplementedError( + "Currently only can fill " + "with dict/Series column " + "by column" + ) + if using_copy_on_write(): + result = self.copy(deep=None) + else: + result = self if inplace else self.copy() + is_dict = isinstance(downcast, dict) + for k, v in value.items(): + if k not in result: + continue + + if was_no_default: + downcast_k = lib.no_default + else: + downcast_k = ( + # error: Incompatible types in assignment (expression + # has type "Union[Dict[Any, Any], None, + # Literal[_NoDefault.no_default], Any]", variable has + # type "_NoDefault") + downcast # type: ignore[assignment] + if not is_dict + # error: Item "None" of "Optional[Dict[Any, Any]]" has + # no attribute "get" + else downcast.get(k) # type: ignore[union-attr] + ) + + res_k = result[k].fillna(v, limit=limit, downcast=downcast_k) + + if not inplace: + result[k] = res_k + else: + # We can write into our existing column(s) iff dtype + # was preserved. + if isinstance(res_k, ABCSeries): + # i.e. 'k' only shows up once in self.columns + if res_k.dtype == result[k].dtype: + result.loc[:, k] = res_k + else: + # Different dtype -> no way to do inplace. + result[k] = res_k + else: + # see test_fillna_dict_inplace_nonunique_columns + locs = result.columns.get_loc(k) + if isinstance(locs, slice): + locs = np.arange(self.shape[1])[locs] + elif ( + isinstance(locs, np.ndarray) and locs.dtype.kind == "b" + ): + locs = locs.nonzero()[0] + elif not ( + isinstance(locs, np.ndarray) and locs.dtype.kind == "i" + ): + # Should never be reached, but let's cover our bases + raise NotImplementedError( + "Unexpected get_loc result, please report a bug at " + "https://github.com/pandas-dev/pandas" + ) + + for i, loc in enumerate(locs): + res_loc = res_k.iloc[:, i] + target = self.iloc[:, loc] + + if res_loc.dtype == target.dtype: + result.iloc[:, loc] = res_loc + else: + result.isetitem(loc, res_loc) + if inplace: + return self._update_inplace(result) + else: + return result + + elif not is_list_like(value): + if axis == 1: + result = self.T.fillna(value=value, limit=limit).T + new_data = result._mgr + else: + new_data = self._mgr.fillna( + value=value, limit=limit, inplace=inplace, downcast=downcast + ) + elif isinstance(value, ABCDataFrame) and self.ndim == 2: + new_data = self.where(self.notna(), value)._mgr + else: + raise ValueError(f"invalid fill value with a {type(value)}") + + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="fillna") + + @overload + def ffill( + self, + *, + axis: None | Axis = ..., + inplace: Literal[False] = ..., + limit: None | int = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> Self: + ... + + @overload + def ffill( + self, + *, + axis: None | Axis = ..., + inplace: Literal[True], + limit: None | int = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> None: + ... + + @overload + def ffill( + self, + *, + axis: None | Axis = ..., + inplace: bool_t = ..., + limit: None | int = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> Self | None: + ... + + @final + @doc( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + ) + def ffill( + self, + *, + axis: None | Axis = None, + inplace: bool_t = False, + limit: None | int = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Self | None: + """ + Fill NA/NaN values by propagating the last valid observation to next valid. + + Parameters + ---------- + axis : {axes_single_arg} + Axis along which to fill missing values. For `Series` + this parameter is unused and defaults to 0. + inplace : bool, default False + If True, fill in-place. Note: this will modify any + other views on this object (e.g., a no-copy slice for a column in a + DataFrame). + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + limit_area : {{`None`, 'inside', 'outside'}}, default None + If limit is specified, consecutive NaNs will be filled with this + restriction. + + * ``None``: No fill restriction. + * 'inside': Only fill NaNs surrounded by valid values + (interpolate). + * 'outside': Only fill NaNs outside valid values (extrapolate). + + .. versionadded:: 2.2.0 + + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + .. deprecated:: 2.2.0 + + Returns + ------- + {klass} or None + Object with missing values filled or None if ``inplace=True``. + + Examples + -------- + >>> df = pd.DataFrame([[np.nan, 2, np.nan, 0], + ... [3, 4, np.nan, 1], + ... [np.nan, np.nan, np.nan, np.nan], + ... [np.nan, 3, np.nan, 4]], + ... columns=list("ABCD")) + >>> df + A B C D + 0 NaN 2.0 NaN 0.0 + 1 3.0 4.0 NaN 1.0 + 2 NaN NaN NaN NaN + 3 NaN 3.0 NaN 4.0 + + >>> df.ffill() + A B C D + 0 NaN 2.0 NaN 0.0 + 1 3.0 4.0 NaN 1.0 + 2 3.0 4.0 NaN 1.0 + 3 3.0 3.0 NaN 4.0 + + >>> ser = pd.Series([1, np.nan, 2, 3]) + >>> ser.ffill() + 0 1.0 + 1 1.0 + 2 2.0 + 3 3.0 + dtype: float64 + """ + downcast = self._deprecate_downcast(downcast, "ffill") + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + return self._pad_or_backfill( + "ffill", + axis=axis, + inplace=inplace, + limit=limit, + limit_area=limit_area, + # error: Argument "downcast" to "_fillna_with_method" of "NDFrame" + # has incompatible type "Union[Dict[Any, Any], None, + # Literal[_NoDefault.no_default]]"; expected "Optional[Dict[Any, Any]]" + downcast=downcast, # type: ignore[arg-type] + ) + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def pad( + self, + *, + axis: None | Axis = None, + inplace: bool_t = False, + limit: None | int = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Self | None: + """ + Fill NA/NaN values by propagating the last valid observation to next valid. + + .. deprecated:: 2.0 + + {klass}.pad is deprecated. Use {klass}.ffill instead. + + Returns + ------- + {klass} or None + Object with missing values filled or None if ``inplace=True``. + + Examples + -------- + Please see examples for :meth:`DataFrame.ffill` or :meth:`Series.ffill`. + """ + warnings.warn( + "DataFrame.pad/Series.pad is deprecated. Use " + "DataFrame.ffill/Series.ffill instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.ffill(axis=axis, inplace=inplace, limit=limit, downcast=downcast) + + @overload + def bfill( + self, + *, + axis: None | Axis = ..., + inplace: Literal[False] = ..., + limit: None | int = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> Self: + ... + + @overload + def bfill( + self, + *, + axis: None | Axis = ..., + inplace: Literal[True], + limit: None | int = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> None: + ... + + @overload + def bfill( + self, + *, + axis: None | Axis = ..., + inplace: bool_t = ..., + limit: None | int = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: dict | None | lib.NoDefault = ..., + ) -> Self | None: + ... + + @final + @doc( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + ) + def bfill( + self, + *, + axis: None | Axis = None, + inplace: bool_t = False, + limit: None | int = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Self | None: + """ + Fill NA/NaN values by using the next valid observation to fill the gap. + + Parameters + ---------- + axis : {axes_single_arg} + Axis along which to fill missing values. For `Series` + this parameter is unused and defaults to 0. + inplace : bool, default False + If True, fill in-place. Note: this will modify any + other views on this object (e.g., a no-copy slice for a column in a + DataFrame). + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + limit_area : {{`None`, 'inside', 'outside'}}, default None + If limit is specified, consecutive NaNs will be filled with this + restriction. + + * ``None``: No fill restriction. + * 'inside': Only fill NaNs surrounded by valid values + (interpolate). + * 'outside': Only fill NaNs outside valid values (extrapolate). + + .. versionadded:: 2.2.0 + + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + .. deprecated:: 2.2.0 + + Returns + ------- + {klass} or None + Object with missing values filled or None if ``inplace=True``. + + Examples + -------- + For Series: + + >>> s = pd.Series([1, None, None, 2]) + >>> s.bfill() + 0 1.0 + 1 2.0 + 2 2.0 + 3 2.0 + dtype: float64 + >>> s.bfill(limit=1) + 0 1.0 + 1 NaN + 2 2.0 + 3 2.0 + dtype: float64 + + With DataFrame: + + >>> df = pd.DataFrame({{'A': [1, None, None, 4], 'B': [None, 5, None, 7]}}) + >>> df + A B + 0 1.0 NaN + 1 NaN 5.0 + 2 NaN NaN + 3 4.0 7.0 + >>> df.bfill() + A B + 0 1.0 5.0 + 1 4.0 5.0 + 2 4.0 7.0 + 3 4.0 7.0 + >>> df.bfill(limit=1) + A B + 0 1.0 5.0 + 1 NaN 5.0 + 2 4.0 7.0 + 3 4.0 7.0 + """ + downcast = self._deprecate_downcast(downcast, "bfill") + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + return self._pad_or_backfill( + "bfill", + axis=axis, + inplace=inplace, + limit=limit, + limit_area=limit_area, + # error: Argument "downcast" to "_fillna_with_method" of "NDFrame" + # has incompatible type "Union[Dict[Any, Any], None, + # Literal[_NoDefault.no_default]]"; expected "Optional[Dict[Any, Any]]" + downcast=downcast, # type: ignore[arg-type] + ) + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def backfill( + self, + *, + axis: None | Axis = None, + inplace: bool_t = False, + limit: None | int = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Self | None: + """ + Fill NA/NaN values by using the next valid observation to fill the gap. + + .. deprecated:: 2.0 + + {klass}.backfill is deprecated. Use {klass}.bfill instead. + + Returns + ------- + {klass} or None + Object with missing values filled or None if ``inplace=True``. + + Examples + -------- + Please see examples for :meth:`DataFrame.bfill` or :meth:`Series.bfill`. + """ + warnings.warn( + "DataFrame.backfill/Series.backfill is deprecated. Use " + "DataFrame.bfill/Series.bfill instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.bfill(axis=axis, inplace=inplace, limit=limit, downcast=downcast) + + @overload + def replace( + self, + to_replace=..., + value=..., + *, + inplace: Literal[False] = ..., + limit: int | None = ..., + regex: bool_t = ..., + method: Literal["pad", "ffill", "bfill"] | lib.NoDefault = ..., + ) -> Self: + ... + + @overload + def replace( + self, + to_replace=..., + value=..., + *, + inplace: Literal[True], + limit: int | None = ..., + regex: bool_t = ..., + method: Literal["pad", "ffill", "bfill"] | lib.NoDefault = ..., + ) -> None: + ... + + @overload + def replace( + self, + to_replace=..., + value=..., + *, + inplace: bool_t = ..., + limit: int | None = ..., + regex: bool_t = ..., + method: Literal["pad", "ffill", "bfill"] | lib.NoDefault = ..., + ) -> Self | None: + ... + + @final + @doc( + _shared_docs["replace"], + klass=_shared_doc_kwargs["klass"], + inplace=_shared_doc_kwargs["inplace"], + ) + def replace( + self, + to_replace=None, + value=lib.no_default, + *, + inplace: bool_t = False, + limit: int | None = None, + regex: bool_t = False, + method: Literal["pad", "ffill", "bfill"] | lib.NoDefault = lib.no_default, + ) -> Self | None: + if method is not lib.no_default: + warnings.warn( + # GH#33302 + f"The 'method' keyword in {type(self).__name__}.replace is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + elif limit is not None: + warnings.warn( + # GH#33302 + f"The 'limit' keyword in {type(self).__name__}.replace is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if ( + value is lib.no_default + and method is lib.no_default + and not is_dict_like(to_replace) + and regex is False + ): + # case that goes through _replace_single and defaults to method="pad" + warnings.warn( + # GH#33302 + f"{type(self).__name__}.replace without 'value' and with " + "non-dict-like 'to_replace' is deprecated " + "and will raise in a future version. " + "Explicitly specify the new values instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if not ( + is_scalar(to_replace) + or is_re_compilable(to_replace) + or is_list_like(to_replace) + ): + raise TypeError( + "Expecting 'to_replace' to be either a scalar, array-like, " + "dict or None, got invalid type " + f"{repr(type(to_replace).__name__)}" + ) + + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and _check_cacher(self): + # in non-CoW mode, chained Series access will populate the + # `_item_cache` which results in an increased ref count not below + # the threshold, while we still need to warn. We detect this case + # of a Series derived from a DataFrame through the presence of + # checking the `_cacher` + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + if not is_bool(regex) and to_replace is not None: + raise ValueError("'to_replace' must be 'None' if 'regex' is not a bool") + + if value is lib.no_default or method is not lib.no_default: + # GH#36984 if the user explicitly passes value=None we want to + # respect that. We have the corner case where the user explicitly + # passes value=None *and* a method, which we interpret as meaning + # they want the (documented) default behavior. + if method is lib.no_default: + # TODO: get this to show up as the default in the docs? + method = "pad" + + # passing a single value that is scalar like + # when value is None (GH5319), for compat + if not is_dict_like(to_replace) and not is_dict_like(regex): + to_replace = [to_replace] + + if isinstance(to_replace, (tuple, list)): + # TODO: Consider copy-on-write for non-replaced columns's here + if isinstance(self, ABCDataFrame): + from pandas import Series + + result = self.apply( + Series._replace_single, + args=(to_replace, method, inplace, limit), + ) + if inplace: + return None + return result + return self._replace_single(to_replace, method, inplace, limit) + + if not is_dict_like(to_replace): + if not is_dict_like(regex): + raise TypeError( + 'If "to_replace" and "value" are both None ' + 'and "to_replace" is not a list, then ' + "regex must be a mapping" + ) + to_replace = regex + regex = True + + items = list(to_replace.items()) + if items: + keys, values = zip(*items) + else: + # error: Incompatible types in assignment (expression has type + # "list[Never]", variable has type "tuple[Any, ...]") + keys, values = ([], []) # type: ignore[assignment] + + are_mappings = [is_dict_like(v) for v in values] + + if any(are_mappings): + if not all(are_mappings): + raise TypeError( + "If a nested mapping is passed, all values " + "of the top level mapping must be mappings" + ) + # passed a nested dict/Series + to_rep_dict = {} + value_dict = {} + + for k, v in items: + # error: Incompatible types in assignment (expression has type + # "list[Never]", variable has type "tuple[Any, ...]") + keys, values = list(zip(*v.items())) or ( # type: ignore[assignment] + [], + [], + ) + + to_rep_dict[k] = list(keys) + value_dict[k] = list(values) + + to_replace, value = to_rep_dict, value_dict + else: + to_replace, value = keys, values + + return self.replace( + to_replace, value, inplace=inplace, limit=limit, regex=regex + ) + else: + # need a non-zero len on all axes + if not self.size: + if inplace: + return None + return self.copy(deep=None) + + if is_dict_like(to_replace): + if is_dict_like(value): # {'A' : NA} -> {'A' : 0} + # Note: Checking below for `in foo.keys()` instead of + # `in foo` is needed for when we have a Series and not dict + mapping = { + col: (to_replace[col], value[col]) + for col in to_replace.keys() + if col in value.keys() and col in self + } + return self._replace_columnwise(mapping, inplace, regex) + + # {'A': NA} -> 0 + elif not is_list_like(value): + # Operate column-wise + if self.ndim == 1: + raise ValueError( + "Series.replace cannot use dict-like to_replace " + "and non-None value" + ) + mapping = { + col: (to_rep, value) for col, to_rep in to_replace.items() + } + return self._replace_columnwise(mapping, inplace, regex) + else: + raise TypeError("value argument must be scalar, dict, or Series") + + elif is_list_like(to_replace): + if not is_list_like(value): + # e.g. to_replace = [NA, ''] and value is 0, + # so we replace NA with 0 and then replace '' with 0 + value = [value] * len(to_replace) + + # e.g. we have to_replace = [NA, ''] and value = [0, 'missing'] + if len(to_replace) != len(value): + raise ValueError( + f"Replacement lists must match in length. " + f"Expecting {len(to_replace)} got {len(value)} " + ) + new_data = self._mgr.replace_list( + src_list=to_replace, + dest_list=value, + inplace=inplace, + regex=regex, + ) + + elif to_replace is None: + if not ( + is_re_compilable(regex) + or is_list_like(regex) + or is_dict_like(regex) + ): + raise TypeError( + f"'regex' must be a string or a compiled regular expression " + f"or a list or dict of strings or regular expressions, " + f"you passed a {repr(type(regex).__name__)}" + ) + return self.replace( + regex, value, inplace=inplace, limit=limit, regex=True + ) + else: + # dest iterable dict-like + if is_dict_like(value): # NA -> {'A' : 0, 'B' : -1} + # Operate column-wise + if self.ndim == 1: + raise ValueError( + "Series.replace cannot use dict-value and " + "non-None to_replace" + ) + mapping = {col: (to_replace, val) for col, val in value.items()} + return self._replace_columnwise(mapping, inplace, regex) + + elif not is_list_like(value): # NA -> 0 + regex = should_use_regex(regex, to_replace) + if regex: + new_data = self._mgr.replace_regex( + to_replace=to_replace, + value=value, + inplace=inplace, + ) + else: + new_data = self._mgr.replace( + to_replace=to_replace, value=value, inplace=inplace + ) + else: + raise TypeError( + f'Invalid "to_replace" type: {repr(type(to_replace).__name__)}' + ) + + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="replace") + + @overload + def interpolate( + self, + method: InterpolateOptions = ..., + *, + axis: Axis = ..., + limit: int | None = ..., + inplace: Literal[False] = ..., + limit_direction: Literal["forward", "backward", "both"] | None = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: Literal["infer"] | None | lib.NoDefault = ..., + **kwargs, + ) -> Self: + ... + + @overload + def interpolate( + self, + method: InterpolateOptions = ..., + *, + axis: Axis = ..., + limit: int | None = ..., + inplace: Literal[True], + limit_direction: Literal["forward", "backward", "both"] | None = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: Literal["infer"] | None | lib.NoDefault = ..., + **kwargs, + ) -> None: + ... + + @overload + def interpolate( + self, + method: InterpolateOptions = ..., + *, + axis: Axis = ..., + limit: int | None = ..., + inplace: bool_t = ..., + limit_direction: Literal["forward", "backward", "both"] | None = ..., + limit_area: Literal["inside", "outside"] | None = ..., + downcast: Literal["infer"] | None | lib.NoDefault = ..., + **kwargs, + ) -> Self | None: + ... + + @final + def interpolate( + self, + method: InterpolateOptions = "linear", + *, + axis: Axis = 0, + limit: int | None = None, + inplace: bool_t = False, + limit_direction: Literal["forward", "backward", "both"] | None = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: Literal["infer"] | None | lib.NoDefault = lib.no_default, + **kwargs, + ) -> Self | None: + """ + Fill NaN values using an interpolation method. + + Please note that only ``method='linear'`` is supported for + DataFrame/Series with a MultiIndex. + + Parameters + ---------- + method : str, default 'linear' + Interpolation technique to use. One of: + + * 'linear': Ignore the index and treat the values as equally + spaced. This is the only method supported on MultiIndexes. + * 'time': Works on daily and higher resolution data to interpolate + given length of interval. + * 'index', 'values': use the actual numerical values of the index. + * 'pad': Fill in NaNs using existing values. + * 'nearest', 'zero', 'slinear', 'quadratic', 'cubic', + 'barycentric', 'polynomial': Passed to + `scipy.interpolate.interp1d`, whereas 'spline' is passed to + `scipy.interpolate.UnivariateSpline`. These methods use the numerical + values of the index. Both 'polynomial' and 'spline' require that + you also specify an `order` (int), e.g. + ``df.interpolate(method='polynomial', order=5)``. Note that, + `slinear` method in Pandas refers to the Scipy first order `spline` + instead of Pandas first order `spline`. + * 'krogh', 'piecewise_polynomial', 'spline', 'pchip', 'akima', + 'cubicspline': Wrappers around the SciPy interpolation methods of + similar names. See `Notes`. + * 'from_derivatives': Refers to + `scipy.interpolate.BPoly.from_derivatives`. + + axis : {{0 or 'index', 1 or 'columns', None}}, default None + Axis to interpolate along. For `Series` this parameter is unused + and defaults to 0. + limit : int, optional + Maximum number of consecutive NaNs to fill. Must be greater than + 0. + inplace : bool, default False + Update the data in place if possible. + limit_direction : {{'forward', 'backward', 'both'}}, Optional + Consecutive NaNs will be filled in this direction. + + If limit is specified: + * If 'method' is 'pad' or 'ffill', 'limit_direction' must be 'forward'. + * If 'method' is 'backfill' or 'bfill', 'limit_direction' must be + 'backwards'. + + If 'limit' is not specified: + * If 'method' is 'backfill' or 'bfill', the default is 'backward' + * else the default is 'forward' + + raises ValueError if `limit_direction` is 'forward' or 'both' and + method is 'backfill' or 'bfill'. + raises ValueError if `limit_direction` is 'backward' or 'both' and + method is 'pad' or 'ffill'. + + limit_area : {{`None`, 'inside', 'outside'}}, default None + If limit is specified, consecutive NaNs will be filled with this + restriction. + + * ``None``: No fill restriction. + * 'inside': Only fill NaNs surrounded by valid values + (interpolate). + * 'outside': Only fill NaNs outside valid values (extrapolate). + + downcast : optional, 'infer' or None, defaults to None + Downcast dtypes if possible. + + .. deprecated:: 2.1.0 + + ``**kwargs`` : optional + Keyword arguments to pass on to the interpolating function. + + Returns + ------- + Series or DataFrame or None + Returns the same object type as the caller, interpolated at + some or all ``NaN`` values or None if ``inplace=True``. + + See Also + -------- + fillna : Fill missing values using different methods. + scipy.interpolate.Akima1DInterpolator : Piecewise cubic polynomials + (Akima interpolator). + scipy.interpolate.BPoly.from_derivatives : Piecewise polynomial in the + Bernstein basis. + scipy.interpolate.interp1d : Interpolate a 1-D function. + scipy.interpolate.KroghInterpolator : Interpolate polynomial (Krogh + interpolator). + scipy.interpolate.PchipInterpolator : PCHIP 1-d monotonic cubic + interpolation. + scipy.interpolate.CubicSpline : Cubic spline data interpolator. + + Notes + ----- + The 'krogh', 'piecewise_polynomial', 'spline', 'pchip' and 'akima' + methods are wrappers around the respective SciPy implementations of + similar names. These use the actual numerical values of the index. + For more information on their behavior, see the + `SciPy documentation + `__. + + Examples + -------- + Filling in ``NaN`` in a :class:`~pandas.Series` via linear + interpolation. + + >>> s = pd.Series([0, 1, np.nan, 3]) + >>> s + 0 0.0 + 1 1.0 + 2 NaN + 3 3.0 + dtype: float64 + >>> s.interpolate() + 0 0.0 + 1 1.0 + 2 2.0 + 3 3.0 + dtype: float64 + + Filling in ``NaN`` in a Series via polynomial interpolation or splines: + Both 'polynomial' and 'spline' methods require that you also specify + an ``order`` (int). + + >>> s = pd.Series([0, 2, np.nan, 8]) + >>> s.interpolate(method='polynomial', order=2) + 0 0.000000 + 1 2.000000 + 2 4.666667 + 3 8.000000 + dtype: float64 + + Fill the DataFrame forward (that is, going down) along each column + using linear interpolation. + + Note how the last entry in column 'a' is interpolated differently, + because there is no entry after it to use for interpolation. + Note how the first entry in column 'b' remains ``NaN``, because there + is no entry before it to use for interpolation. + + >>> df = pd.DataFrame([(0.0, np.nan, -1.0, 1.0), + ... (np.nan, 2.0, np.nan, np.nan), + ... (2.0, 3.0, np.nan, 9.0), + ... (np.nan, 4.0, -4.0, 16.0)], + ... columns=list('abcd')) + >>> df + a b c d + 0 0.0 NaN -1.0 1.0 + 1 NaN 2.0 NaN NaN + 2 2.0 3.0 NaN 9.0 + 3 NaN 4.0 -4.0 16.0 + >>> df.interpolate(method='linear', limit_direction='forward', axis=0) + a b c d + 0 0.0 NaN -1.0 1.0 + 1 1.0 2.0 -2.0 5.0 + 2 2.0 3.0 -3.0 9.0 + 3 2.0 4.0 -4.0 16.0 + + Using polynomial interpolation. + + >>> df['d'].interpolate(method='polynomial', order=2) + 0 1.0 + 1 4.0 + 2 9.0 + 3 16.0 + Name: d, dtype: float64 + """ + if downcast is not lib.no_default: + # GH#40988 + warnings.warn( + f"The 'downcast' keyword in {type(self).__name__}.interpolate " + "is deprecated and will be removed in a future version. " + "Call result.infer_objects(copy=False) on the result instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + downcast = None + if downcast is not None and downcast != "infer": + raise ValueError("downcast must be either None or 'infer'") + + inplace = validate_bool_kwarg(inplace, "inplace") + + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + axis = self._get_axis_number(axis) + + if self.empty: + if inplace: + return None + return self.copy() + + if not isinstance(method, str): + raise ValueError("'method' should be a string, not None.") + + fillna_methods = ["ffill", "bfill", "pad", "backfill"] + if method.lower() in fillna_methods: + # GH#53581 + warnings.warn( + f"{type(self).__name__}.interpolate with method={method} is " + "deprecated and will raise in a future version. " + "Use obj.ffill() or obj.bfill() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + obj, should_transpose = self, False + else: + obj, should_transpose = (self.T, True) if axis == 1 else (self, False) + if np.any(obj.dtypes == object): + # GH#53631 + if not (obj.ndim == 2 and np.all(obj.dtypes == object)): + # don't warn in cases that already raise + warnings.warn( + f"{type(self).__name__}.interpolate with object dtype is " + "deprecated and will raise in a future version. Call " + "obj.infer_objects(copy=False) before interpolating instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if method in fillna_methods and "fill_value" in kwargs: + raise ValueError( + "'fill_value' is not a valid keyword for " + f"{type(self).__name__}.interpolate with method from " + f"{fillna_methods}" + ) + + if isinstance(obj.index, MultiIndex) and method != "linear": + raise ValueError( + "Only `method=linear` interpolation is supported on MultiIndexes." + ) + + limit_direction = missing.infer_limit_direction(limit_direction, method) + + if obj.ndim == 2 and np.all(obj.dtypes == object): + raise TypeError( + "Cannot interpolate with all object-dtype columns " + "in the DataFrame. Try setting at least one " + "column to a numeric dtype." + ) + + if method.lower() in fillna_methods: + # TODO(3.0): remove this case + # TODO: warn/raise on limit_direction or kwargs which are ignored? + # as of 2023-06-26 no tests get here with either + if not self._mgr.is_single_block and axis == 1: + # GH#53898 + if inplace: + raise NotImplementedError() + obj, axis, should_transpose = self.T, 1 - axis, True + + new_data = obj._mgr.pad_or_backfill( + method=method, + axis=self._get_block_manager_axis(axis), + limit=limit, + limit_area=limit_area, + inplace=inplace, + downcast=downcast, + ) + else: + index = missing.get_interp_index(method, obj.index) + new_data = obj._mgr.interpolate( + method=method, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + inplace=inplace, + downcast=downcast, + **kwargs, + ) + + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + if should_transpose: + result = result.T + if inplace: + return self._update_inplace(result) + else: + return result.__finalize__(self, method="interpolate") + + # ---------------------------------------------------------------------- + # Timeseries methods Methods + + @final + def asof(self, where, subset=None): + """ + Return the last row(s) without any NaNs before `where`. + + The last row (for each element in `where`, if list) without any + NaN is taken. + In case of a :class:`~pandas.DataFrame`, the last row without NaN + considering only the subset of columns (if not `None`) + + If there is no good value, NaN is returned for a Series or + a Series of NaN values for a DataFrame + + Parameters + ---------- + where : date or array-like of dates + Date(s) before which the last row(s) are returned. + subset : str or array-like of str, default `None` + For DataFrame, if not `None`, only use these columns to + check for NaNs. + + Returns + ------- + scalar, Series, or DataFrame + + The return can be: + + * scalar : when `self` is a Series and `where` is a scalar + * Series: when `self` is a Series and `where` is an array-like, + or when `self` is a DataFrame and `where` is a scalar + * DataFrame : when `self` is a DataFrame and `where` is an + array-like + + See Also + -------- + merge_asof : Perform an asof merge. Similar to left join. + + Notes + ----- + Dates are assumed to be sorted. Raises if this is not the case. + + Examples + -------- + A Series and a scalar `where`. + + >>> s = pd.Series([1, 2, np.nan, 4], index=[10, 20, 30, 40]) + >>> s + 10 1.0 + 20 2.0 + 30 NaN + 40 4.0 + dtype: float64 + + >>> s.asof(20) + 2.0 + + For a sequence `where`, a Series is returned. The first value is + NaN, because the first element of `where` is before the first + index value. + + >>> s.asof([5, 20]) + 5 NaN + 20 2.0 + dtype: float64 + + Missing values are not considered. The following is ``2.0``, not + NaN, even though NaN is at the index location for ``30``. + + >>> s.asof(30) + 2.0 + + Take all columns into consideration + + >>> df = pd.DataFrame({'a': [10., 20., 30., 40., 50.], + ... 'b': [None, None, None, None, 500]}, + ... index=pd.DatetimeIndex(['2018-02-27 09:01:00', + ... '2018-02-27 09:02:00', + ... '2018-02-27 09:03:00', + ... '2018-02-27 09:04:00', + ... '2018-02-27 09:05:00'])) + >>> df.asof(pd.DatetimeIndex(['2018-02-27 09:03:30', + ... '2018-02-27 09:04:30'])) + a b + 2018-02-27 09:03:30 NaN NaN + 2018-02-27 09:04:30 NaN NaN + + Take a single column into consideration + + >>> df.asof(pd.DatetimeIndex(['2018-02-27 09:03:30', + ... '2018-02-27 09:04:30']), + ... subset=['a']) + a b + 2018-02-27 09:03:30 30.0 NaN + 2018-02-27 09:04:30 40.0 NaN + """ + if isinstance(where, str): + where = Timestamp(where) + + if not self.index.is_monotonic_increasing: + raise ValueError("asof requires a sorted index") + + is_series = isinstance(self, ABCSeries) + if is_series: + if subset is not None: + raise ValueError("subset is not valid for Series") + else: + if subset is None: + subset = self.columns + if not is_list_like(subset): + subset = [subset] + + is_list = is_list_like(where) + if not is_list: + start = self.index[0] + if isinstance(self.index, PeriodIndex): + where = Period(where, freq=self.index.freq) + + if where < start: + if not is_series: + return self._constructor_sliced( + index=self.columns, name=where, dtype=np.float64 + ) + return np.nan + + # It's always much faster to use a *while* loop here for + # Series than pre-computing all the NAs. However a + # *while* loop is extremely expensive for DataFrame + # so we later pre-compute all the NAs and use the same + # code path whether *where* is a scalar or list. + # See PR: https://github.com/pandas-dev/pandas/pull/14476 + if is_series: + loc = self.index.searchsorted(where, side="right") + if loc > 0: + loc -= 1 + + values = self._values + while loc > 0 and isna(values[loc]): + loc -= 1 + return values[loc] + + if not isinstance(where, Index): + where = Index(where) if is_list else Index([where]) + + nulls = self.isna() if is_series else self[subset].isna().any(axis=1) + if nulls.all(): + if is_series: + self = cast("Series", self) + return self._constructor(np.nan, index=where, name=self.name) + elif is_list: + self = cast("DataFrame", self) + return self._constructor(np.nan, index=where, columns=self.columns) + else: + self = cast("DataFrame", self) + return self._constructor_sliced( + np.nan, index=self.columns, name=where[0] + ) + + locs = self.index.asof_locs(where, ~(nulls._values)) + + # mask the missing + mask = locs == -1 + data = self.take(locs) + data.index = where + if mask.any(): + # GH#16063 only do this setting when necessary, otherwise + # we'd cast e.g. bools to floats + data.loc[mask] = np.nan + return data if is_list else data.iloc[-1] + + # ---------------------------------------------------------------------- + # Action Methods + + @doc(klass=_shared_doc_kwargs["klass"]) + def isna(self) -> Self: + """ + Detect missing values. + + Return a boolean same-sized object indicating if the values are NA. + NA values, such as None or :attr:`numpy.NaN`, gets mapped to True + values. + Everything else gets mapped to False values. Characters such as empty + strings ``''`` or :attr:`numpy.inf` are not considered NA values + (unless you set ``pandas.options.mode.use_inf_as_na = True``). + + Returns + ------- + {klass} + Mask of bool values for each element in {klass} that + indicates whether an element is an NA value. + + See Also + -------- + {klass}.isnull : Alias of isna. + {klass}.notna : Boolean inverse of isna. + {klass}.dropna : Omit axes labels with missing values. + isna : Top-level isna. + + Examples + -------- + Show which entries in a DataFrame are NA. + + >>> df = pd.DataFrame(dict(age=[5, 6, np.nan], + ... born=[pd.NaT, pd.Timestamp('1939-05-27'), + ... pd.Timestamp('1940-04-25')], + ... name=['Alfred', 'Batman', ''], + ... toy=[None, 'Batmobile', 'Joker'])) + >>> df + age born name toy + 0 5.0 NaT Alfred None + 1 6.0 1939-05-27 Batman Batmobile + 2 NaN 1940-04-25 Joker + + >>> df.isna() + age born name toy + 0 False True False True + 1 False False False False + 2 True False False False + + Show which entries in a Series are NA. + + >>> ser = pd.Series([5, 6, np.nan]) + >>> ser + 0 5.0 + 1 6.0 + 2 NaN + dtype: float64 + + >>> ser.isna() + 0 False + 1 False + 2 True + dtype: bool + """ + return isna(self).__finalize__(self, method="isna") + + @doc(isna, klass=_shared_doc_kwargs["klass"]) + def isnull(self) -> Self: + return isna(self).__finalize__(self, method="isnull") + + @doc(klass=_shared_doc_kwargs["klass"]) + def notna(self) -> Self: + """ + Detect existing (non-missing) values. + + Return a boolean same-sized object indicating if the values are not NA. + Non-missing values get mapped to True. Characters such as empty + strings ``''`` or :attr:`numpy.inf` are not considered NA values + (unless you set ``pandas.options.mode.use_inf_as_na = True``). + NA values, such as None or :attr:`numpy.NaN`, get mapped to False + values. + + Returns + ------- + {klass} + Mask of bool values for each element in {klass} that + indicates whether an element is not an NA value. + + See Also + -------- + {klass}.notnull : Alias of notna. + {klass}.isna : Boolean inverse of notna. + {klass}.dropna : Omit axes labels with missing values. + notna : Top-level notna. + + Examples + -------- + Show which entries in a DataFrame are not NA. + + >>> df = pd.DataFrame(dict(age=[5, 6, np.nan], + ... born=[pd.NaT, pd.Timestamp('1939-05-27'), + ... pd.Timestamp('1940-04-25')], + ... name=['Alfred', 'Batman', ''], + ... toy=[None, 'Batmobile', 'Joker'])) + >>> df + age born name toy + 0 5.0 NaT Alfred None + 1 6.0 1939-05-27 Batman Batmobile + 2 NaN 1940-04-25 Joker + + >>> df.notna() + age born name toy + 0 True False True False + 1 True True True True + 2 False True True True + + Show which entries in a Series are not NA. + + >>> ser = pd.Series([5, 6, np.nan]) + >>> ser + 0 5.0 + 1 6.0 + 2 NaN + dtype: float64 + + >>> ser.notna() + 0 True + 1 True + 2 False + dtype: bool + """ + return notna(self).__finalize__(self, method="notna") + + @doc(notna, klass=_shared_doc_kwargs["klass"]) + def notnull(self) -> Self: + return notna(self).__finalize__(self, method="notnull") + + @final + def _clip_with_scalar(self, lower, upper, inplace: bool_t = False): + if (lower is not None and np.any(isna(lower))) or ( + upper is not None and np.any(isna(upper)) + ): + raise ValueError("Cannot use an NA value as a clip threshold") + + result = self + mask = self.isna() + + if lower is not None: + cond = mask | (self >= lower) + result = result.where( + cond, lower, inplace=inplace + ) # type: ignore[assignment] + if upper is not None: + cond = mask | (self <= upper) + result = self if inplace else result + result = result.where( + cond, upper, inplace=inplace + ) # type: ignore[assignment] + + return result + + @final + def _clip_with_one_bound(self, threshold, method, axis, inplace): + if axis is not None: + axis = self._get_axis_number(axis) + + # method is self.le for upper bound and self.ge for lower bound + if is_scalar(threshold) and is_number(threshold): + if method.__name__ == "le": + return self._clip_with_scalar(None, threshold, inplace=inplace) + return self._clip_with_scalar(threshold, None, inplace=inplace) + + # GH #15390 + # In order for where method to work, the threshold must + # be transformed to NDFrame from other array like structure. + if (not isinstance(threshold, ABCSeries)) and is_list_like(threshold): + if isinstance(self, ABCSeries): + threshold = self._constructor(threshold, index=self.index) + else: + threshold = self._align_for_op(threshold, axis, flex=None)[1] + + # GH 40420 + # Treat missing thresholds as no bounds, not clipping the values + if is_list_like(threshold): + fill_value = np.inf if method.__name__ == "le" else -np.inf + threshold_inf = threshold.fillna(fill_value) + else: + threshold_inf = threshold + + subset = method(threshold_inf, axis=axis) | isna(self) + + # GH 40420 + return self.where(subset, threshold, axis=axis, inplace=inplace) + + @overload + def clip( + self, + lower=..., + upper=..., + *, + axis: Axis | None = ..., + inplace: Literal[False] = ..., + **kwargs, + ) -> Self: + ... + + @overload + def clip( + self, + lower=..., + upper=..., + *, + axis: Axis | None = ..., + inplace: Literal[True], + **kwargs, + ) -> None: + ... + + @overload + def clip( + self, + lower=..., + upper=..., + *, + axis: Axis | None = ..., + inplace: bool_t = ..., + **kwargs, + ) -> Self | None: + ... + + @final + def clip( + self, + lower=None, + upper=None, + *, + axis: Axis | None = None, + inplace: bool_t = False, + **kwargs, + ) -> Self | None: + """ + Trim values at input threshold(s). + + Assigns values outside boundary to boundary values. Thresholds + can be singular values or array like, and in the latter case + the clipping is performed element-wise in the specified axis. + + Parameters + ---------- + lower : float or array-like, default None + Minimum threshold value. All values below this + threshold will be set to it. A missing + threshold (e.g `NA`) will not clip the value. + upper : float or array-like, default None + Maximum threshold value. All values above this + threshold will be set to it. A missing + threshold (e.g `NA`) will not clip the value. + axis : {{0 or 'index', 1 or 'columns', None}}, default None + Align object with lower and upper along the given axis. + For `Series` this parameter is unused and defaults to `None`. + inplace : bool, default False + Whether to perform the operation in place on the data. + *args, **kwargs + Additional keywords have no effect but might be accepted + for compatibility with numpy. + + Returns + ------- + Series or DataFrame or None + Same type as calling object with the values outside the + clip boundaries replaced or None if ``inplace=True``. + + See Also + -------- + Series.clip : Trim values at input threshold in series. + DataFrame.clip : Trim values at input threshold in dataframe. + numpy.clip : Clip (limit) the values in an array. + + Examples + -------- + >>> data = {'col_0': [9, -3, 0, -1, 5], 'col_1': [-2, -7, 6, 8, -5]} + >>> df = pd.DataFrame(data) + >>> df + col_0 col_1 + 0 9 -2 + 1 -3 -7 + 2 0 6 + 3 -1 8 + 4 5 -5 + + Clips per column using lower and upper thresholds: + + >>> df.clip(-4, 6) + col_0 col_1 + 0 6 -2 + 1 -3 -4 + 2 0 6 + 3 -1 6 + 4 5 -4 + + Clips using specific lower and upper thresholds per column: + + >>> df.clip([-2, -1], [4, 5]) + col_0 col_1 + 0 4 -1 + 1 -2 -1 + 2 0 5 + 3 -1 5 + 4 4 -1 + + Clips using specific lower and upper thresholds per column element: + + >>> t = pd.Series([2, -4, -1, 6, 3]) + >>> t + 0 2 + 1 -4 + 2 -1 + 3 6 + 4 3 + dtype: int64 + + >>> df.clip(t, t + 4, axis=0) + col_0 col_1 + 0 6 2 + 1 -3 -4 + 2 0 3 + 3 6 8 + 4 5 3 + + Clips using specific lower threshold per column element, with missing values: + + >>> t = pd.Series([2, -4, np.nan, 6, 3]) + >>> t + 0 2.0 + 1 -4.0 + 2 NaN + 3 6.0 + 4 3.0 + dtype: float64 + + >>> df.clip(t, axis=0) + col_0 col_1 + 0 9 2 + 1 -3 -4 + 2 0 6 + 3 6 8 + 4 5 3 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and hasattr(self, "_cacher"): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + axis = nv.validate_clip_with_axis(axis, (), kwargs) + if axis is not None: + axis = self._get_axis_number(axis) + + # GH 17276 + # numpy doesn't like NaN as a clip value + # so ignore + # GH 19992 + # numpy doesn't drop a list-like bound containing NaN + isna_lower = isna(lower) + if not is_list_like(lower): + if np.any(isna_lower): + lower = None + elif np.all(isna_lower): + lower = None + isna_upper = isna(upper) + if not is_list_like(upper): + if np.any(isna_upper): + upper = None + elif np.all(isna_upper): + upper = None + + # GH 2747 (arguments were reversed) + if ( + lower is not None + and upper is not None + and is_scalar(lower) + and is_scalar(upper) + ): + lower, upper = min(lower, upper), max(lower, upper) + + # fast-path for scalars + if (lower is None or is_number(lower)) and (upper is None or is_number(upper)): + return self._clip_with_scalar(lower, upper, inplace=inplace) + + result = self + if lower is not None: + result = result._clip_with_one_bound( + lower, method=self.ge, axis=axis, inplace=inplace + ) + if upper is not None: + if inplace: + result = self + result = result._clip_with_one_bound( + upper, method=self.le, axis=axis, inplace=inplace + ) + + return result + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def asfreq( + self, + freq: Frequency, + method: FillnaOptions | None = None, + how: Literal["start", "end"] | None = None, + normalize: bool_t = False, + fill_value: Hashable | None = None, + ) -> Self: + """ + Convert time series to specified frequency. + + Returns the original data conformed to a new index with the specified + frequency. + + If the index of this {klass} is a :class:`~pandas.PeriodIndex`, the new index + is the result of transforming the original index with + :meth:`PeriodIndex.asfreq ` (so the original index + will map one-to-one to the new index). + + Otherwise, the new index will be equivalent to ``pd.date_range(start, end, + freq=freq)`` where ``start`` and ``end`` are, respectively, the first and + last entries in the original index (see :func:`pandas.date_range`). The + values corresponding to any timesteps in the new index which were not present + in the original index will be null (``NaN``), unless a method for filling + such unknowns is provided (see the ``method`` parameter below). + + The :meth:`resample` method is more appropriate if an operation on each group of + timesteps (such as an aggregate) is necessary to represent the data at the new + frequency. + + Parameters + ---------- + freq : DateOffset or str + Frequency DateOffset or string. + method : {{'backfill'/'bfill', 'pad'/'ffill'}}, default None + Method to use for filling holes in reindexed Series (note this + does not fill NaNs that already were present): + + * 'pad' / 'ffill': propagate last valid observation forward to next + valid + * 'backfill' / 'bfill': use NEXT valid observation to fill. + how : {{'start', 'end'}}, default end + For PeriodIndex only (see PeriodIndex.asfreq). + normalize : bool, default False + Whether to reset output index to midnight. + fill_value : scalar, optional + Value to use for missing values, applied during upsampling (note + this does not fill NaNs that already were present). + + Returns + ------- + {klass} + {klass} object reindexed to the specified frequency. + + See Also + -------- + reindex : Conform DataFrame to new index with optional filling logic. + + Notes + ----- + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + Start by creating a series with 4 one minute timestamps. + + >>> index = pd.date_range('1/1/2000', periods=4, freq='min') + >>> series = pd.Series([0.0, None, 2.0, 3.0], index=index) + >>> df = pd.DataFrame({{'s': series}}) + >>> df + s + 2000-01-01 00:00:00 0.0 + 2000-01-01 00:01:00 NaN + 2000-01-01 00:02:00 2.0 + 2000-01-01 00:03:00 3.0 + + Upsample the series into 30 second bins. + + >>> df.asfreq(freq='30s') + s + 2000-01-01 00:00:00 0.0 + 2000-01-01 00:00:30 NaN + 2000-01-01 00:01:00 NaN + 2000-01-01 00:01:30 NaN + 2000-01-01 00:02:00 2.0 + 2000-01-01 00:02:30 NaN + 2000-01-01 00:03:00 3.0 + + Upsample again, providing a ``fill value``. + + >>> df.asfreq(freq='30s', fill_value=9.0) + s + 2000-01-01 00:00:00 0.0 + 2000-01-01 00:00:30 9.0 + 2000-01-01 00:01:00 NaN + 2000-01-01 00:01:30 9.0 + 2000-01-01 00:02:00 2.0 + 2000-01-01 00:02:30 9.0 + 2000-01-01 00:03:00 3.0 + + Upsample again, providing a ``method``. + + >>> df.asfreq(freq='30s', method='bfill') + s + 2000-01-01 00:00:00 0.0 + 2000-01-01 00:00:30 NaN + 2000-01-01 00:01:00 NaN + 2000-01-01 00:01:30 2.0 + 2000-01-01 00:02:00 2.0 + 2000-01-01 00:02:30 3.0 + 2000-01-01 00:03:00 3.0 + """ + from pandas.core.resample import asfreq + + return asfreq( + self, + freq, + method=method, + how=how, + normalize=normalize, + fill_value=fill_value, + ) + + @final + def at_time(self, time, asof: bool_t = False, axis: Axis | None = None) -> Self: + """ + Select values at particular time of day (e.g., 9:30AM). + + Parameters + ---------- + time : datetime.time or str + The values to select. + axis : {0 or 'index', 1 or 'columns'}, default 0 + For `Series` this parameter is unused and defaults to 0. + + Returns + ------- + Series or DataFrame + + Raises + ------ + TypeError + If the index is not a :class:`DatetimeIndex` + + See Also + -------- + between_time : Select values between particular times of the day. + first : Select initial periods of time series based on a date offset. + last : Select final periods of time series based on a date offset. + DatetimeIndex.indexer_at_time : Get just the index locations for + values at particular time of the day. + + Examples + -------- + >>> i = pd.date_range('2018-04-09', periods=4, freq='12h') + >>> ts = pd.DataFrame({'A': [1, 2, 3, 4]}, index=i) + >>> ts + A + 2018-04-09 00:00:00 1 + 2018-04-09 12:00:00 2 + 2018-04-10 00:00:00 3 + 2018-04-10 12:00:00 4 + + >>> ts.at_time('12:00') + A + 2018-04-09 12:00:00 2 + 2018-04-10 12:00:00 4 + """ + if axis is None: + axis = 0 + axis = self._get_axis_number(axis) + + index = self._get_axis(axis) + + if not isinstance(index, DatetimeIndex): + raise TypeError("Index must be DatetimeIndex") + + indexer = index.indexer_at_time(time, asof=asof) + return self._take_with_is_copy(indexer, axis=axis) + + @final + def between_time( + self, + start_time, + end_time, + inclusive: IntervalClosedType = "both", + axis: Axis | None = None, + ) -> Self: + """ + Select values between particular times of the day (e.g., 9:00-9:30 AM). + + By setting ``start_time`` to be later than ``end_time``, + you can get the times that are *not* between the two times. + + Parameters + ---------- + start_time : datetime.time or str + Initial time as a time filter limit. + end_time : datetime.time or str + End time as a time filter limit. + inclusive : {"both", "neither", "left", "right"}, default "both" + Include boundaries; whether to set each bound as closed or open. + axis : {0 or 'index', 1 or 'columns'}, default 0 + Determine range time on index or columns value. + For `Series` this parameter is unused and defaults to 0. + + Returns + ------- + Series or DataFrame + Data from the original object filtered to the specified dates range. + + Raises + ------ + TypeError + If the index is not a :class:`DatetimeIndex` + + See Also + -------- + at_time : Select values at a particular time of the day. + first : Select initial periods of time series based on a date offset. + last : Select final periods of time series based on a date offset. + DatetimeIndex.indexer_between_time : Get just the index locations for + values between particular times of the day. + + Examples + -------- + >>> i = pd.date_range('2018-04-09', periods=4, freq='1D20min') + >>> ts = pd.DataFrame({'A': [1, 2, 3, 4]}, index=i) + >>> ts + A + 2018-04-09 00:00:00 1 + 2018-04-10 00:20:00 2 + 2018-04-11 00:40:00 3 + 2018-04-12 01:00:00 4 + + >>> ts.between_time('0:15', '0:45') + A + 2018-04-10 00:20:00 2 + 2018-04-11 00:40:00 3 + + You get the times that are *not* between two times by setting + ``start_time`` later than ``end_time``: + + >>> ts.between_time('0:45', '0:15') + A + 2018-04-09 00:00:00 1 + 2018-04-12 01:00:00 4 + """ + if axis is None: + axis = 0 + axis = self._get_axis_number(axis) + + index = self._get_axis(axis) + if not isinstance(index, DatetimeIndex): + raise TypeError("Index must be DatetimeIndex") + + left_inclusive, right_inclusive = validate_inclusive(inclusive) + indexer = index.indexer_between_time( + start_time, + end_time, + include_start=left_inclusive, + include_end=right_inclusive, + ) + return self._take_with_is_copy(indexer, axis=axis) + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def resample( + self, + rule, + axis: Axis | lib.NoDefault = lib.no_default, + closed: Literal["right", "left"] | None = None, + label: Literal["right", "left"] | None = None, + convention: Literal["start", "end", "s", "e"] | lib.NoDefault = lib.no_default, + kind: Literal["timestamp", "period"] | None | lib.NoDefault = lib.no_default, + on: Level | None = None, + level: Level | None = None, + origin: str | TimestampConvertibleTypes = "start_day", + offset: TimedeltaConvertibleTypes | None = None, + group_keys: bool_t = False, + ) -> Resampler: + """ + Resample time-series data. + + Convenience method for frequency conversion and resampling of time series. + The object must have a datetime-like index (`DatetimeIndex`, `PeriodIndex`, + or `TimedeltaIndex`), or the caller must pass the label of a datetime-like + series/index to the ``on``/``level`` keyword parameter. + + Parameters + ---------- + rule : DateOffset, Timedelta or str + The offset string or object representing target conversion. + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + Which axis to use for up- or down-sampling. For `Series` this parameter + is unused and defaults to 0. Must be + `DatetimeIndex`, `TimedeltaIndex` or `PeriodIndex`. + + .. deprecated:: 2.0.0 + Use frame.T.resample(...) instead. + closed : {{'right', 'left'}}, default None + Which side of bin interval is closed. The default is 'left' + for all frequency offsets except for 'ME', 'YE', 'QE', 'BME', + 'BA', 'BQE', and 'W' which all have a default of 'right'. + label : {{'right', 'left'}}, default None + Which bin edge label to label bucket with. The default is 'left' + for all frequency offsets except for 'ME', 'YE', 'QE', 'BME', + 'BA', 'BQE', and 'W' which all have a default of 'right'. + convention : {{'start', 'end', 's', 'e'}}, default 'start' + For `PeriodIndex` only, controls whether to use the start or + end of `rule`. + + .. deprecated:: 2.2.0 + Convert PeriodIndex to DatetimeIndex before resampling instead. + kind : {{'timestamp', 'period'}}, optional, default None + Pass 'timestamp' to convert the resulting index to a + `DateTimeIndex` or 'period' to convert it to a `PeriodIndex`. + By default the input representation is retained. + + .. deprecated:: 2.2.0 + Convert index to desired type explicitly instead. + + on : str, optional + For a DataFrame, column to use instead of index for resampling. + Column must be datetime-like. + level : str or int, optional + For a MultiIndex, level (name or number) to use for + resampling. `level` must be datetime-like. + origin : Timestamp or str, default 'start_day' + The timestamp on which to adjust the grouping. The timezone of origin + must match the timezone of the index. + If string, must be one of the following: + + - 'epoch': `origin` is 1970-01-01 + - 'start': `origin` is the first value of the timeseries + - 'start_day': `origin` is the first day at midnight of the timeseries + + - 'end': `origin` is the last value of the timeseries + - 'end_day': `origin` is the ceiling midnight of the last day + + .. versionadded:: 1.3.0 + + .. note:: + + Only takes effect for Tick-frequencies (i.e. fixed frequencies like + days, hours, and minutes, rather than months or quarters). + offset : Timedelta or str, default is None + An offset timedelta added to the origin. + + group_keys : bool, default False + Whether to include the group keys in the result index when using + ``.apply()`` on the resampled object. + + .. versionadded:: 1.5.0 + + Not specifying ``group_keys`` will retain values-dependent behavior + from pandas 1.4 and earlier (see :ref:`pandas 1.5.0 Release notes + ` for examples). + + .. versionchanged:: 2.0.0 + + ``group_keys`` now defaults to ``False``. + + Returns + ------- + pandas.api.typing.Resampler + :class:`~pandas.core.Resampler` object. + + See Also + -------- + Series.resample : Resample a Series. + DataFrame.resample : Resample a DataFrame. + groupby : Group {klass} by mapping, function, label, or list of labels. + asfreq : Reindex a {klass} with the given frequency without grouping. + + Notes + ----- + See the `user guide + `__ + for more. + + To learn more about the offset strings, please see `this link + `__. + + Examples + -------- + Start by creating a series with 9 one minute timestamps. + + >>> index = pd.date_range('1/1/2000', periods=9, freq='min') + >>> series = pd.Series(range(9), index=index) + >>> series + 2000-01-01 00:00:00 0 + 2000-01-01 00:01:00 1 + 2000-01-01 00:02:00 2 + 2000-01-01 00:03:00 3 + 2000-01-01 00:04:00 4 + 2000-01-01 00:05:00 5 + 2000-01-01 00:06:00 6 + 2000-01-01 00:07:00 7 + 2000-01-01 00:08:00 8 + Freq: min, dtype: int64 + + Downsample the series into 3 minute bins and sum the values + of the timestamps falling into a bin. + + >>> series.resample('3min').sum() + 2000-01-01 00:00:00 3 + 2000-01-01 00:03:00 12 + 2000-01-01 00:06:00 21 + Freq: 3min, dtype: int64 + + Downsample the series into 3 minute bins as above, but label each + bin using the right edge instead of the left. Please note that the + value in the bucket used as the label is not included in the bucket, + which it labels. For example, in the original series the + bucket ``2000-01-01 00:03:00`` contains the value 3, but the summed + value in the resampled bucket with the label ``2000-01-01 00:03:00`` + does not include 3 (if it did, the summed value would be 6, not 3). + + >>> series.resample('3min', label='right').sum() + 2000-01-01 00:03:00 3 + 2000-01-01 00:06:00 12 + 2000-01-01 00:09:00 21 + Freq: 3min, dtype: int64 + + To include this value close the right side of the bin interval, + as shown below. + + >>> series.resample('3min', label='right', closed='right').sum() + 2000-01-01 00:00:00 0 + 2000-01-01 00:03:00 6 + 2000-01-01 00:06:00 15 + 2000-01-01 00:09:00 15 + Freq: 3min, dtype: int64 + + Upsample the series into 30 second bins. + + >>> series.resample('30s').asfreq()[0:5] # Select first 5 rows + 2000-01-01 00:00:00 0.0 + 2000-01-01 00:00:30 NaN + 2000-01-01 00:01:00 1.0 + 2000-01-01 00:01:30 NaN + 2000-01-01 00:02:00 2.0 + Freq: 30s, dtype: float64 + + Upsample the series into 30 second bins and fill the ``NaN`` + values using the ``ffill`` method. + + >>> series.resample('30s').ffill()[0:5] + 2000-01-01 00:00:00 0 + 2000-01-01 00:00:30 0 + 2000-01-01 00:01:00 1 + 2000-01-01 00:01:30 1 + 2000-01-01 00:02:00 2 + Freq: 30s, dtype: int64 + + Upsample the series into 30 second bins and fill the + ``NaN`` values using the ``bfill`` method. + + >>> series.resample('30s').bfill()[0:5] + 2000-01-01 00:00:00 0 + 2000-01-01 00:00:30 1 + 2000-01-01 00:01:00 1 + 2000-01-01 00:01:30 2 + 2000-01-01 00:02:00 2 + Freq: 30s, dtype: int64 + + Pass a custom function via ``apply`` + + >>> def custom_resampler(arraylike): + ... return np.sum(arraylike) + 5 + ... + >>> series.resample('3min').apply(custom_resampler) + 2000-01-01 00:00:00 8 + 2000-01-01 00:03:00 17 + 2000-01-01 00:06:00 26 + Freq: 3min, dtype: int64 + + For DataFrame objects, the keyword `on` can be used to specify the + column instead of the index for resampling. + + >>> d = {{'price': [10, 11, 9, 13, 14, 18, 17, 19], + ... 'volume': [50, 60, 40, 100, 50, 100, 40, 50]}} + >>> df = pd.DataFrame(d) + >>> df['week_starting'] = pd.date_range('01/01/2018', + ... periods=8, + ... freq='W') + >>> df + price volume week_starting + 0 10 50 2018-01-07 + 1 11 60 2018-01-14 + 2 9 40 2018-01-21 + 3 13 100 2018-01-28 + 4 14 50 2018-02-04 + 5 18 100 2018-02-11 + 6 17 40 2018-02-18 + 7 19 50 2018-02-25 + >>> df.resample('ME', on='week_starting').mean() + price volume + week_starting + 2018-01-31 10.75 62.5 + 2018-02-28 17.00 60.0 + + For a DataFrame with MultiIndex, the keyword `level` can be used to + specify on which level the resampling needs to take place. + + >>> days = pd.date_range('1/1/2000', periods=4, freq='D') + >>> d2 = {{'price': [10, 11, 9, 13, 14, 18, 17, 19], + ... 'volume': [50, 60, 40, 100, 50, 100, 40, 50]}} + >>> df2 = pd.DataFrame( + ... d2, + ... index=pd.MultiIndex.from_product( + ... [days, ['morning', 'afternoon']] + ... ) + ... ) + >>> df2 + price volume + 2000-01-01 morning 10 50 + afternoon 11 60 + 2000-01-02 morning 9 40 + afternoon 13 100 + 2000-01-03 morning 14 50 + afternoon 18 100 + 2000-01-04 morning 17 40 + afternoon 19 50 + >>> df2.resample('D', level=0).sum() + price volume + 2000-01-01 21 110 + 2000-01-02 22 140 + 2000-01-03 32 150 + 2000-01-04 36 90 + + If you want to adjust the start of the bins based on a fixed timestamp: + + >>> start, end = '2000-10-01 23:30:00', '2000-10-02 00:30:00' + >>> rng = pd.date_range(start, end, freq='7min') + >>> ts = pd.Series(np.arange(len(rng)) * 3, index=rng) + >>> ts + 2000-10-01 23:30:00 0 + 2000-10-01 23:37:00 3 + 2000-10-01 23:44:00 6 + 2000-10-01 23:51:00 9 + 2000-10-01 23:58:00 12 + 2000-10-02 00:05:00 15 + 2000-10-02 00:12:00 18 + 2000-10-02 00:19:00 21 + 2000-10-02 00:26:00 24 + Freq: 7min, dtype: int64 + + >>> ts.resample('17min').sum() + 2000-10-01 23:14:00 0 + 2000-10-01 23:31:00 9 + 2000-10-01 23:48:00 21 + 2000-10-02 00:05:00 54 + 2000-10-02 00:22:00 24 + Freq: 17min, dtype: int64 + + >>> ts.resample('17min', origin='epoch').sum() + 2000-10-01 23:18:00 0 + 2000-10-01 23:35:00 18 + 2000-10-01 23:52:00 27 + 2000-10-02 00:09:00 39 + 2000-10-02 00:26:00 24 + Freq: 17min, dtype: int64 + + >>> ts.resample('17min', origin='2000-01-01').sum() + 2000-10-01 23:24:00 3 + 2000-10-01 23:41:00 15 + 2000-10-01 23:58:00 45 + 2000-10-02 00:15:00 45 + Freq: 17min, dtype: int64 + + If you want to adjust the start of the bins with an `offset` Timedelta, the two + following lines are equivalent: + + >>> ts.resample('17min', origin='start').sum() + 2000-10-01 23:30:00 9 + 2000-10-01 23:47:00 21 + 2000-10-02 00:04:00 54 + 2000-10-02 00:21:00 24 + Freq: 17min, dtype: int64 + + >>> ts.resample('17min', offset='23h30min').sum() + 2000-10-01 23:30:00 9 + 2000-10-01 23:47:00 21 + 2000-10-02 00:04:00 54 + 2000-10-02 00:21:00 24 + Freq: 17min, dtype: int64 + + If you want to take the largest Timestamp as the end of the bins: + + >>> ts.resample('17min', origin='end').sum() + 2000-10-01 23:35:00 0 + 2000-10-01 23:52:00 18 + 2000-10-02 00:09:00 27 + 2000-10-02 00:26:00 63 + Freq: 17min, dtype: int64 + + In contrast with the `start_day`, you can use `end_day` to take the ceiling + midnight of the largest Timestamp as the end of the bins and drop the bins + not containing data: + + >>> ts.resample('17min', origin='end_day').sum() + 2000-10-01 23:38:00 3 + 2000-10-01 23:55:00 15 + 2000-10-02 00:12:00 45 + 2000-10-02 00:29:00 45 + Freq: 17min, dtype: int64 + """ + from pandas.core.resample import get_resampler + + if axis is not lib.no_default: + axis = self._get_axis_number(axis) + if axis == 1: + warnings.warn( + "DataFrame.resample with axis=1 is deprecated. Do " + "`frame.T.resample(...)` without axis instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + f"The 'axis' keyword in {type(self).__name__}.resample is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + + if kind is not lib.no_default: + # GH#55895 + warnings.warn( + f"The 'kind' keyword in {type(self).__name__}.resample is " + "deprecated and will be removed in a future version. " + "Explicitly cast the index to the desired type instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + kind = None + + if convention is not lib.no_default: + warnings.warn( + f"The 'convention' keyword in {type(self).__name__}.resample is " + "deprecated and will be removed in a future version. " + "Explicitly cast PeriodIndex to DatetimeIndex before resampling " + "instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + convention = "start" + + return get_resampler( + cast("Series | DataFrame", self), + freq=rule, + label=label, + closed=closed, + axis=axis, + kind=kind, + convention=convention, + key=on, + level=level, + origin=origin, + offset=offset, + group_keys=group_keys, + ) + + @final + def first(self, offset) -> Self: + """ + Select initial periods of time series data based on a date offset. + + .. deprecated:: 2.1 + :meth:`.first` is deprecated and will be removed in a future version. + Please create a mask and filter using `.loc` instead. + + For a DataFrame with a sorted DatetimeIndex, this function can + select the first few rows based on a date offset. + + Parameters + ---------- + offset : str, DateOffset or dateutil.relativedelta + The offset length of the data that will be selected. For instance, + '1ME' will display all the rows having their index within the first month. + + Returns + ------- + Series or DataFrame + A subset of the caller. + + Raises + ------ + TypeError + If the index is not a :class:`DatetimeIndex` + + See Also + -------- + last : Select final periods of time series based on a date offset. + at_time : Select values at a particular time of the day. + between_time : Select values between particular times of the day. + + Examples + -------- + >>> i = pd.date_range('2018-04-09', periods=4, freq='2D') + >>> ts = pd.DataFrame({'A': [1, 2, 3, 4]}, index=i) + >>> ts + A + 2018-04-09 1 + 2018-04-11 2 + 2018-04-13 3 + 2018-04-15 4 + + Get the rows for the first 3 days: + + >>> ts.first('3D') + A + 2018-04-09 1 + 2018-04-11 2 + + Notice the data for 3 first calendar days were returned, not the first + 3 days observed in the dataset, and therefore data for 2018-04-13 was + not returned. + """ + warnings.warn( + "first is deprecated and will be removed in a future version. " + "Please create a mask and filter using `.loc` instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + if not isinstance(self.index, DatetimeIndex): + raise TypeError("'first' only supports a DatetimeIndex index") + + if len(self.index) == 0: + return self.copy(deep=False) + + offset = to_offset(offset) + if not isinstance(offset, Tick) and offset.is_on_offset(self.index[0]): + # GH#29623 if first value is end of period, remove offset with n = 1 + # before adding the real offset + end_date = end = self.index[0] - offset.base + offset + else: + end_date = end = self.index[0] + offset + + # Tick-like, e.g. 3 weeks + if isinstance(offset, Tick) and end_date in self.index: + end = self.index.searchsorted(end_date, side="left") + return self.iloc[:end] + + return self.loc[:end] + + @final + def last(self, offset) -> Self: + """ + Select final periods of time series data based on a date offset. + + .. deprecated:: 2.1 + :meth:`.last` is deprecated and will be removed in a future version. + Please create a mask and filter using `.loc` instead. + + For a DataFrame with a sorted DatetimeIndex, this function + selects the last few rows based on a date offset. + + Parameters + ---------- + offset : str, DateOffset, dateutil.relativedelta + The offset length of the data that will be selected. For instance, + '3D' will display all the rows having their index within the last 3 days. + + Returns + ------- + Series or DataFrame + A subset of the caller. + + Raises + ------ + TypeError + If the index is not a :class:`DatetimeIndex` + + See Also + -------- + first : Select initial periods of time series based on a date offset. + at_time : Select values at a particular time of the day. + between_time : Select values between particular times of the day. + + Notes + ----- + .. deprecated:: 2.1.0 + Please create a mask and filter using `.loc` instead + + Examples + -------- + >>> i = pd.date_range('2018-04-09', periods=4, freq='2D') + >>> ts = pd.DataFrame({'A': [1, 2, 3, 4]}, index=i) + >>> ts + A + 2018-04-09 1 + 2018-04-11 2 + 2018-04-13 3 + 2018-04-15 4 + + Get the rows for the last 3 days: + + >>> ts.last('3D') # doctest: +SKIP + A + 2018-04-13 3 + 2018-04-15 4 + + Notice the data for 3 last calendar days were returned, not the last + 3 observed days in the dataset, and therefore data for 2018-04-11 was + not returned. + """ + warnings.warn( + "last is deprecated and will be removed in a future version. " + "Please create a mask and filter using `.loc` instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if not isinstance(self.index, DatetimeIndex): + raise TypeError("'last' only supports a DatetimeIndex index") + + if len(self.index) == 0: + return self.copy(deep=False) + + offset = to_offset(offset) + + start_date = self.index[-1] - offset + start = self.index.searchsorted(start_date, side="right") + return self.iloc[start:] + + @final + def rank( + self, + axis: Axis = 0, + method: Literal["average", "min", "max", "first", "dense"] = "average", + numeric_only: bool_t = False, + na_option: Literal["keep", "top", "bottom"] = "keep", + ascending: bool_t = True, + pct: bool_t = False, + ) -> Self: + """ + Compute numerical data ranks (1 through n) along axis. + + By default, equal values are assigned a rank that is the average of the + ranks of those values. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns'}, default 0 + Index to direct ranking. + For `Series` this parameter is unused and defaults to 0. + method : {'average', 'min', 'max', 'first', 'dense'}, default 'average' + How to rank the group of records that have the same value (i.e. ties): + + * average: average rank of the group + * min: lowest rank in the group + * max: highest rank in the group + * first: ranks assigned in order they appear in the array + * dense: like 'min', but rank always increases by 1 between groups. + + numeric_only : bool, default False + For DataFrame objects, rank only numeric columns if set to True. + + .. versionchanged:: 2.0.0 + The default value of ``numeric_only`` is now ``False``. + + na_option : {'keep', 'top', 'bottom'}, default 'keep' + How to rank NaN values: + + * keep: assign NaN rank to NaN values + * top: assign lowest rank to NaN values + * bottom: assign highest rank to NaN values + + ascending : bool, default True + Whether or not the elements should be ranked in ascending order. + pct : bool, default False + Whether or not to display the returned rankings in percentile + form. + + Returns + ------- + same type as caller + Return a Series or DataFrame with data ranks as values. + + See Also + -------- + core.groupby.DataFrameGroupBy.rank : Rank of values within each group. + core.groupby.SeriesGroupBy.rank : Rank of values within each group. + + Examples + -------- + >>> df = pd.DataFrame(data={'Animal': ['cat', 'penguin', 'dog', + ... 'spider', 'snake'], + ... 'Number_legs': [4, 2, 4, 8, np.nan]}) + >>> df + Animal Number_legs + 0 cat 4.0 + 1 penguin 2.0 + 2 dog 4.0 + 3 spider 8.0 + 4 snake NaN + + Ties are assigned the mean of the ranks (by default) for the group. + + >>> s = pd.Series(range(5), index=list("abcde")) + >>> s["d"] = s["b"] + >>> s.rank() + a 1.0 + b 2.5 + c 4.0 + d 2.5 + e 5.0 + dtype: float64 + + The following example shows how the method behaves with the above + parameters: + + * default_rank: this is the default behaviour obtained without using + any parameter. + * max_rank: setting ``method = 'max'`` the records that have the + same values are ranked using the highest rank (e.g.: since 'cat' + and 'dog' are both in the 2nd and 3rd position, rank 3 is assigned.) + * NA_bottom: choosing ``na_option = 'bottom'``, if there are records + with NaN values they are placed at the bottom of the ranking. + * pct_rank: when setting ``pct = True``, the ranking is expressed as + percentile rank. + + >>> df['default_rank'] = df['Number_legs'].rank() + >>> df['max_rank'] = df['Number_legs'].rank(method='max') + >>> df['NA_bottom'] = df['Number_legs'].rank(na_option='bottom') + >>> df['pct_rank'] = df['Number_legs'].rank(pct=True) + >>> df + Animal Number_legs default_rank max_rank NA_bottom pct_rank + 0 cat 4.0 2.5 3.0 2.5 0.625 + 1 penguin 2.0 1.0 1.0 1.0 0.250 + 2 dog 4.0 2.5 3.0 2.5 0.625 + 3 spider 8.0 4.0 4.0 4.0 1.000 + 4 snake NaN NaN NaN 5.0 NaN + """ + axis_int = self._get_axis_number(axis) + + if na_option not in {"keep", "top", "bottom"}: + msg = "na_option must be one of 'keep', 'top', or 'bottom'" + raise ValueError(msg) + + def ranker(data): + if data.ndim == 2: + # i.e. DataFrame, we cast to ndarray + values = data.values + else: + # i.e. Series, can dispatch to EA + values = data._values + + if isinstance(values, ExtensionArray): + ranks = values._rank( + axis=axis_int, + method=method, + ascending=ascending, + na_option=na_option, + pct=pct, + ) + else: + ranks = algos.rank( + values, + axis=axis_int, + method=method, + ascending=ascending, + na_option=na_option, + pct=pct, + ) + + ranks_obj = self._constructor(ranks, **data._construct_axes_dict()) + return ranks_obj.__finalize__(self, method="rank") + + if numeric_only: + if self.ndim == 1 and not is_numeric_dtype(self.dtype): + # GH#47500 + raise TypeError( + "Series.rank does not allow numeric_only=True with " + "non-numeric dtype." + ) + data = self._get_numeric_data() + else: + data = self + + return ranker(data) + + @doc(_shared_docs["compare"], klass=_shared_doc_kwargs["klass"]) + def compare( + self, + other, + align_axis: Axis = 1, + keep_shape: bool_t = False, + keep_equal: bool_t = False, + result_names: Suffixes = ("self", "other"), + ): + if type(self) is not type(other): + cls_self, cls_other = type(self).__name__, type(other).__name__ + raise TypeError( + f"can only compare '{cls_self}' (not '{cls_other}') with '{cls_self}'" + ) + + mask = ~((self == other) | (self.isna() & other.isna())) + mask.fillna(True, inplace=True) + + if not keep_equal: + self = self.where(mask) + other = other.where(mask) + + if not keep_shape: + if isinstance(self, ABCDataFrame): + cmask = mask.any() + rmask = mask.any(axis=1) + self = self.loc[rmask, cmask] + other = other.loc[rmask, cmask] + else: + self = self[mask] + other = other[mask] + if not isinstance(result_names, tuple): + raise TypeError( + f"Passing 'result_names' as a {type(result_names)} is not " + "supported. Provide 'result_names' as a tuple instead." + ) + + if align_axis in (1, "columns"): # This is needed for Series + axis = 1 + else: + axis = self._get_axis_number(align_axis) + + # error: List item 0 has incompatible type "NDFrame"; expected + # "Union[Series, DataFrame]" + diff = concat( + [self, other], # type: ignore[list-item] + axis=axis, + keys=result_names, + ) + + if axis >= self.ndim: + # No need to reorganize data if stacking on new axis + # This currently applies for stacking two Series on columns + return diff + + ax = diff._get_axis(axis) + ax_names = np.array(ax.names) + + # set index names to positions to avoid confusion + ax.names = np.arange(len(ax_names)) + + # bring self-other to inner level + order = list(range(1, ax.nlevels)) + [0] + if isinstance(diff, ABCDataFrame): + diff = diff.reorder_levels(order, axis=axis) + else: + diff = diff.reorder_levels(order) + + # restore the index names in order + diff._get_axis(axis=axis).names = ax_names[order] + + # reorder axis to keep things organized + indices = ( + np.arange(diff.shape[axis]).reshape([2, diff.shape[axis] // 2]).T.flatten() + ) + diff = diff.take(indices, axis=axis) + + return diff + + @final + @doc( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + ) + def align( + self, + other: NDFrameT, + join: AlignJoin = "outer", + axis: Axis | None = None, + level: Level | None = None, + copy: bool_t | None = None, + fill_value: Hashable | None = None, + method: FillnaOptions | None | lib.NoDefault = lib.no_default, + limit: int | None | lib.NoDefault = lib.no_default, + fill_axis: Axis | lib.NoDefault = lib.no_default, + broadcast_axis: Axis | None | lib.NoDefault = lib.no_default, + ) -> tuple[Self, NDFrameT]: + """ + Align two objects on their axes with the specified join method. + + Join method is specified for each axis Index. + + Parameters + ---------- + other : DataFrame or Series + join : {{'outer', 'inner', 'left', 'right'}}, default 'outer' + Type of alignment to be performed. + + * left: use only keys from left frame, preserve key order. + * right: use only keys from right frame, preserve key order. + * outer: use union of keys from both frames, sort keys lexicographically. + * inner: use intersection of keys from both frames, + preserve the order of the left keys. + + axis : allowed axis of the other object, default None + Align on index (0), columns (1), or both (None). + level : int or level name, default None + Broadcast across a level, matching Index values on the + passed MultiIndex level. + copy : bool, default True + Always returns new objects. If copy=False and no reindexing is + required then original objects are returned. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + fill_value : scalar, default np.nan + Value to use for missing values. Defaults to NaN, but can be any + "compatible" value. + method : {{'backfill', 'bfill', 'pad', 'ffill', None}}, default None + Method to use for filling holes in reindexed Series: + + - pad / ffill: propagate last valid observation forward to next valid. + - backfill / bfill: use NEXT valid observation to fill gap. + + .. deprecated:: 2.1 + + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill. In other words, if there is + a gap with more than this number of consecutive NaNs, it will only + be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + + .. deprecated:: 2.1 + + fill_axis : {axes_single_arg}, default 0 + Filling axis, method and limit. + + .. deprecated:: 2.1 + + broadcast_axis : {axes_single_arg}, default None + Broadcast values along this axis, if aligning two objects of + different dimensions. + + .. deprecated:: 2.1 + + Returns + ------- + tuple of ({klass}, type of other) + Aligned objects. + + Examples + -------- + >>> df = pd.DataFrame( + ... [[1, 2, 3, 4], [6, 7, 8, 9]], columns=["D", "B", "E", "A"], index=[1, 2] + ... ) + >>> other = pd.DataFrame( + ... [[10, 20, 30, 40], [60, 70, 80, 90], [600, 700, 800, 900]], + ... columns=["A", "B", "C", "D"], + ... index=[2, 3, 4], + ... ) + >>> df + D B E A + 1 1 2 3 4 + 2 6 7 8 9 + >>> other + A B C D + 2 10 20 30 40 + 3 60 70 80 90 + 4 600 700 800 900 + + Align on columns: + + >>> left, right = df.align(other, join="outer", axis=1) + >>> left + A B C D E + 1 4 2 NaN 1 3 + 2 9 7 NaN 6 8 + >>> right + A B C D E + 2 10 20 30 40 NaN + 3 60 70 80 90 NaN + 4 600 700 800 900 NaN + + We can also align on the index: + + >>> left, right = df.align(other, join="outer", axis=0) + >>> left + D B E A + 1 1.0 2.0 3.0 4.0 + 2 6.0 7.0 8.0 9.0 + 3 NaN NaN NaN NaN + 4 NaN NaN NaN NaN + >>> right + A B C D + 1 NaN NaN NaN NaN + 2 10.0 20.0 30.0 40.0 + 3 60.0 70.0 80.0 90.0 + 4 600.0 700.0 800.0 900.0 + + Finally, the default `axis=None` will align on both index and columns: + + >>> left, right = df.align(other, join="outer", axis=None) + >>> left + A B C D E + 1 4.0 2.0 NaN 1.0 3.0 + 2 9.0 7.0 NaN 6.0 8.0 + 3 NaN NaN NaN NaN NaN + 4 NaN NaN NaN NaN NaN + >>> right + A B C D E + 1 NaN NaN NaN NaN NaN + 2 10.0 20.0 30.0 40.0 NaN + 3 60.0 70.0 80.0 90.0 NaN + 4 600.0 700.0 800.0 900.0 NaN + """ + if ( + method is not lib.no_default + or limit is not lib.no_default + or fill_axis is not lib.no_default + ): + # GH#51856 + warnings.warn( + "The 'method', 'limit', and 'fill_axis' keywords in " + f"{type(self).__name__}.align are deprecated and will be removed " + "in a future version. Call fillna directly on the returned objects " + "instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if fill_axis is lib.no_default: + fill_axis = 0 + if method is lib.no_default: + method = None + if limit is lib.no_default: + limit = None + + if method is not None: + method = clean_fill_method(method) + + if broadcast_axis is not lib.no_default: + # GH#51856 + # TODO(3.0): enforcing this deprecation will close GH#13194 + msg = ( + f"The 'broadcast_axis' keyword in {type(self).__name__}.align is " + "deprecated and will be removed in a future version." + ) + if broadcast_axis is not None: + if self.ndim == 1 and other.ndim == 2: + msg += ( + " Use left = DataFrame({col: left for col in right.columns}, " + "index=right.index) before calling `left.align(right)` instead." + ) + elif self.ndim == 2 and other.ndim == 1: + msg += ( + " Use right = DataFrame({col: right for col in left.columns}, " + "index=left.index) before calling `left.align(right)` instead" + ) + warnings.warn(msg, FutureWarning, stacklevel=find_stack_level()) + else: + broadcast_axis = None + + if broadcast_axis == 1 and self.ndim != other.ndim: + if isinstance(self, ABCSeries): + # this means other is a DataFrame, and we need to broadcast + # self + cons = self._constructor_expanddim + df = cons( + {c: self for c in other.columns}, **other._construct_axes_dict() + ) + # error: Incompatible return value type (got "Tuple[DataFrame, + # DataFrame]", expected "Tuple[Self, NDFrameT]") + return df._align_frame( # type: ignore[return-value] + other, # type: ignore[arg-type] + join=join, + axis=axis, + level=level, + copy=copy, + fill_value=fill_value, + method=method, + limit=limit, + fill_axis=fill_axis, + )[:2] + elif isinstance(other, ABCSeries): + # this means self is a DataFrame, and we need to broadcast + # other + cons = other._constructor_expanddim + df = cons( + {c: other for c in self.columns}, **self._construct_axes_dict() + ) + # error: Incompatible return value type (got "Tuple[NDFrameT, + # DataFrame]", expected "Tuple[Self, NDFrameT]") + return self._align_frame( # type: ignore[return-value] + df, + join=join, + axis=axis, + level=level, + copy=copy, + fill_value=fill_value, + method=method, + limit=limit, + fill_axis=fill_axis, + )[:2] + + _right: DataFrame | Series + if axis is not None: + axis = self._get_axis_number(axis) + if isinstance(other, ABCDataFrame): + left, _right, join_index = self._align_frame( + other, + join=join, + axis=axis, + level=level, + copy=copy, + fill_value=fill_value, + method=method, + limit=limit, + fill_axis=fill_axis, + ) + + elif isinstance(other, ABCSeries): + left, _right, join_index = self._align_series( + other, + join=join, + axis=axis, + level=level, + copy=copy, + fill_value=fill_value, + method=method, + limit=limit, + fill_axis=fill_axis, + ) + else: # pragma: no cover + raise TypeError(f"unsupported type: {type(other)}") + + right = cast(NDFrameT, _right) + if self.ndim == 1 or axis == 0: + # If we are aligning timezone-aware DatetimeIndexes and the timezones + # do not match, convert both to UTC. + if isinstance(left.index.dtype, DatetimeTZDtype): + if left.index.tz != right.index.tz: + if join_index is not None: + # GH#33671 copy to ensure we don't change the index on + # our original Series + left = left.copy(deep=False) + right = right.copy(deep=False) + left.index = join_index + right.index = join_index + + left = left.__finalize__(self) + right = right.__finalize__(other) + return left, right + + @final + def _align_frame( + self, + other: DataFrame, + join: AlignJoin = "outer", + axis: Axis | None = None, + level=None, + copy: bool_t | None = None, + fill_value=None, + method=None, + limit: int | None = None, + fill_axis: Axis = 0, + ) -> tuple[Self, DataFrame, Index | None]: + # defaults + join_index, join_columns = None, None + ilidx, iridx = None, None + clidx, cridx = None, None + + is_series = isinstance(self, ABCSeries) + + if (axis is None or axis == 0) and not self.index.equals(other.index): + join_index, ilidx, iridx = self.index.join( + other.index, how=join, level=level, return_indexers=True + ) + + if ( + (axis is None or axis == 1) + and not is_series + and not self.columns.equals(other.columns) + ): + join_columns, clidx, cridx = self.columns.join( + other.columns, how=join, level=level, return_indexers=True + ) + + if is_series: + reindexers = {0: [join_index, ilidx]} + else: + reindexers = {0: [join_index, ilidx], 1: [join_columns, clidx]} + + left = self._reindex_with_indexers( + reindexers, copy=copy, fill_value=fill_value, allow_dups=True + ) + # other must be always DataFrame + right = other._reindex_with_indexers( + {0: [join_index, iridx], 1: [join_columns, cridx]}, + copy=copy, + fill_value=fill_value, + allow_dups=True, + ) + + if method is not None: + left = left._pad_or_backfill(method, axis=fill_axis, limit=limit) + right = right._pad_or_backfill(method, axis=fill_axis, limit=limit) + + return left, right, join_index + + @final + def _align_series( + self, + other: Series, + join: AlignJoin = "outer", + axis: Axis | None = None, + level=None, + copy: bool_t | None = None, + fill_value=None, + method=None, + limit: int | None = None, + fill_axis: Axis = 0, + ) -> tuple[Self, Series, Index | None]: + is_series = isinstance(self, ABCSeries) + if copy and using_copy_on_write(): + copy = False + + if (not is_series and axis is None) or axis not in [None, 0, 1]: + raise ValueError("Must specify axis=0 or 1") + + if is_series and axis == 1: + raise ValueError("cannot align series to a series other than axis 0") + + # series/series compat, other must always be a Series + if not axis: + # equal + if self.index.equals(other.index): + join_index, lidx, ridx = None, None, None + else: + join_index, lidx, ridx = self.index.join( + other.index, how=join, level=level, return_indexers=True + ) + + if is_series: + left = self._reindex_indexer(join_index, lidx, copy) + elif lidx is None or join_index is None: + left = self.copy(deep=copy) + else: + new_mgr = self._mgr.reindex_indexer(join_index, lidx, axis=1, copy=copy) + left = self._constructor_from_mgr(new_mgr, axes=new_mgr.axes) + + right = other._reindex_indexer(join_index, ridx, copy) + + else: + # one has > 1 ndim + fdata = self._mgr + join_index = self.axes[1] + lidx, ridx = None, None + if not join_index.equals(other.index): + join_index, lidx, ridx = join_index.join( + other.index, how=join, level=level, return_indexers=True + ) + + if lidx is not None: + bm_axis = self._get_block_manager_axis(1) + fdata = fdata.reindex_indexer(join_index, lidx, axis=bm_axis) + + if copy and fdata is self._mgr: + fdata = fdata.copy() + + left = self._constructor_from_mgr(fdata, axes=fdata.axes) + + if ridx is None: + right = other.copy(deep=copy) + else: + right = other.reindex(join_index, level=level) + + # fill + fill_na = notna(fill_value) or (method is not None) + if fill_na: + fill_value, method = validate_fillna_kwargs(fill_value, method) + if method is not None: + left = left._pad_or_backfill(method, limit=limit, axis=fill_axis) + right = right._pad_or_backfill(method, limit=limit) + else: + left = left.fillna(fill_value, limit=limit, axis=fill_axis) + right = right.fillna(fill_value, limit=limit) + + return left, right, join_index + + @final + def _where( + self, + cond, + other=lib.no_default, + inplace: bool_t = False, + axis: Axis | None = None, + level=None, + warn: bool_t = True, + ): + """ + Equivalent to public method `where`, except that `other` is not + applied as a function even if callable. Used in __setitem__. + """ + inplace = validate_bool_kwarg(inplace, "inplace") + + if axis is not None: + axis = self._get_axis_number(axis) + + # align the cond to same shape as myself + cond = common.apply_if_callable(cond, self) + if isinstance(cond, NDFrame): + # CoW: Make sure reference is not kept alive + if cond.ndim == 1 and self.ndim == 2: + cond = cond._constructor_expanddim( + {i: cond for i in range(len(self.columns))}, + copy=False, + ) + cond.columns = self.columns + cond = cond.align(self, join="right", copy=False)[0] + else: + if not hasattr(cond, "shape"): + cond = np.asanyarray(cond) + if cond.shape != self.shape: + raise ValueError("Array conditional must be same shape as self") + cond = self._constructor(cond, **self._construct_axes_dict(), copy=False) + + # make sure we are boolean + fill_value = bool(inplace) + with warnings.catch_warnings(): + warnings.filterwarnings( + "ignore", + "Downcasting object dtype arrays", + category=FutureWarning, + ) + cond = cond.fillna(fill_value) + cond = cond.infer_objects(copy=False) + + msg = "Boolean array expected for the condition, not {dtype}" + + if not cond.empty: + if not isinstance(cond, ABCDataFrame): + # This is a single-dimensional object. + if not is_bool_dtype(cond): + raise ValueError(msg.format(dtype=cond.dtype)) + else: + for _dt in cond.dtypes: + if not is_bool_dtype(_dt): + raise ValueError(msg.format(dtype=_dt)) + if cond._mgr.any_extension_types: + # GH51574: avoid object ndarray conversion later on + cond = cond._constructor( + cond.to_numpy(dtype=bool, na_value=fill_value), + **cond._construct_axes_dict(), + ) + else: + # GH#21947 we have an empty DataFrame/Series, could be object-dtype + cond = cond.astype(bool) + + cond = -cond if inplace else cond + cond = cond.reindex(self._info_axis, axis=self._info_axis_number, copy=False) + + # try to align with other + if isinstance(other, NDFrame): + # align with me + if other.ndim <= self.ndim: + # CoW: Make sure reference is not kept alive + other = self.align( + other, + join="left", + axis=axis, + level=level, + fill_value=None, + copy=False, + )[1] + + # if we are NOT aligned, raise as we cannot where index + if axis is None and not other._indexed_same(self): + raise InvalidIndexError + + if other.ndim < self.ndim: + # TODO(EA2D): avoid object-dtype cast in EA case GH#38729 + other = other._values + if axis == 0: + other = np.reshape(other, (-1, 1)) + elif axis == 1: + other = np.reshape(other, (1, -1)) + + other = np.broadcast_to(other, self.shape) + + # slice me out of the other + else: + raise NotImplementedError( + "cannot align with a higher dimensional NDFrame" + ) + + elif not isinstance(other, (MultiIndex, NDFrame)): + # mainly just catching Index here + other = extract_array(other, extract_numpy=True) + + if isinstance(other, (np.ndarray, ExtensionArray)): + if other.shape != self.shape: + if self.ndim != 1: + # In the ndim == 1 case we may have + # other length 1, which we treat as scalar (GH#2745, GH#4192) + # or len(other) == icond.sum(), which we treat like + # __setitem__ (GH#3235) + raise ValueError( + "other must be the same shape as self when an ndarray" + ) + + # we are the same shape, so create an actual object for alignment + else: + other = self._constructor( + other, **self._construct_axes_dict(), copy=False + ) + + if axis is None: + axis = 0 + + if self.ndim == getattr(other, "ndim", 0): + align = True + else: + align = self._get_axis_number(axis) == 1 + + if inplace: + # we may have different type blocks come out of putmask, so + # reconstruct the block manager + + new_data = self._mgr.putmask(mask=cond, new=other, align=align, warn=warn) + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + return self._update_inplace(result) + + else: + new_data = self._mgr.where( + other=other, + cond=cond, + align=align, + ) + result = self._constructor_from_mgr(new_data, axes=new_data.axes) + return result.__finalize__(self) + + @overload + def where( + self, + cond, + other=..., + *, + inplace: Literal[False] = ..., + axis: Axis | None = ..., + level: Level = ..., + ) -> Self: + ... + + @overload + def where( + self, + cond, + other=..., + *, + inplace: Literal[True], + axis: Axis | None = ..., + level: Level = ..., + ) -> None: + ... + + @overload + def where( + self, + cond, + other=..., + *, + inplace: bool_t = ..., + axis: Axis | None = ..., + level: Level = ..., + ) -> Self | None: + ... + + @final + @doc( + klass=_shared_doc_kwargs["klass"], + cond="True", + cond_rev="False", + name="where", + name_other="mask", + ) + def where( + self, + cond, + other=np.nan, + *, + inplace: bool_t = False, + axis: Axis | None = None, + level: Level | None = None, + ) -> Self | None: + """ + Replace values where the condition is {cond_rev}. + + Parameters + ---------- + cond : bool {klass}, array-like, or callable + Where `cond` is {cond}, keep the original value. Where + {cond_rev}, replace with corresponding value from `other`. + If `cond` is callable, it is computed on the {klass} and + should return boolean {klass} or array. The callable must + not change input {klass} (though pandas doesn't check it). + other : scalar, {klass}, or callable + Entries where `cond` is {cond_rev} are replaced with + corresponding value from `other`. + If other is callable, it is computed on the {klass} and + should return scalar or {klass}. The callable must not + change input {klass} (though pandas doesn't check it). + If not specified, entries will be filled with the corresponding + NULL value (``np.nan`` for numpy dtypes, ``pd.NA`` for extension + dtypes). + inplace : bool, default False + Whether to perform the operation in place on the data. + axis : int, default None + Alignment axis if needed. For `Series` this parameter is + unused and defaults to 0. + level : int, default None + Alignment level if needed. + + Returns + ------- + Same type as caller or None if ``inplace=True``. + + See Also + -------- + :func:`DataFrame.{name_other}` : Return an object of same shape as + self. + + Notes + ----- + The {name} method is an application of the if-then idiom. For each + element in the calling DataFrame, if ``cond`` is ``{cond}`` the + element is used; otherwise the corresponding element from the DataFrame + ``other`` is used. If the axis of ``other`` does not align with axis of + ``cond`` {klass}, the misaligned index positions will be filled with + {cond_rev}. + + The signature for :func:`DataFrame.where` differs from + :func:`numpy.where`. Roughly ``df1.where(m, df2)`` is equivalent to + ``np.where(m, df1, df2)``. + + For further details and examples see the ``{name}`` documentation in + :ref:`indexing `. + + The dtype of the object takes precedence. The fill value is casted to + the object's dtype, if this can be done losslessly. + + Examples + -------- + >>> s = pd.Series(range(5)) + >>> s.where(s > 0) + 0 NaN + 1 1.0 + 2 2.0 + 3 3.0 + 4 4.0 + dtype: float64 + >>> s.mask(s > 0) + 0 0.0 + 1 NaN + 2 NaN + 3 NaN + 4 NaN + dtype: float64 + + >>> s = pd.Series(range(5)) + >>> t = pd.Series([True, False]) + >>> s.where(t, 99) + 0 0 + 1 99 + 2 99 + 3 99 + 4 99 + dtype: int64 + >>> s.mask(t, 99) + 0 99 + 1 1 + 2 99 + 3 99 + 4 99 + dtype: int64 + + >>> s.where(s > 1, 10) + 0 10 + 1 10 + 2 2 + 3 3 + 4 4 + dtype: int64 + >>> s.mask(s > 1, 10) + 0 0 + 1 1 + 2 10 + 3 10 + 4 10 + dtype: int64 + + >>> df = pd.DataFrame(np.arange(10).reshape(-1, 2), columns=['A', 'B']) + >>> df + A B + 0 0 1 + 1 2 3 + 2 4 5 + 3 6 7 + 4 8 9 + >>> m = df % 3 == 0 + >>> df.where(m, -df) + A B + 0 0 -1 + 1 -2 3 + 2 -4 -5 + 3 6 -7 + 4 -8 9 + >>> df.where(m, -df) == np.where(m, df, -df) + A B + 0 True True + 1 True True + 2 True True + 3 True True + 4 True True + >>> df.where(m, -df) == df.mask(~m, -df) + A B + 0 True True + 1 True True + 2 True True + 3 True True + 4 True True + """ + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and hasattr(self, "_cacher"): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + other = common.apply_if_callable(other, self) + return self._where(cond, other, inplace, axis, level) + + @overload + def mask( + self, + cond, + other=..., + *, + inplace: Literal[False] = ..., + axis: Axis | None = ..., + level: Level = ..., + ) -> Self: + ... + + @overload + def mask( + self, + cond, + other=..., + *, + inplace: Literal[True], + axis: Axis | None = ..., + level: Level = ..., + ) -> None: + ... + + @overload + def mask( + self, + cond, + other=..., + *, + inplace: bool_t = ..., + axis: Axis | None = ..., + level: Level = ..., + ) -> Self | None: + ... + + @final + @doc( + where, + klass=_shared_doc_kwargs["klass"], + cond="False", + cond_rev="True", + name="mask", + name_other="where", + ) + def mask( + self, + cond, + other=lib.no_default, + *, + inplace: bool_t = False, + axis: Axis | None = None, + level: Level | None = None, + ) -> Self | None: + inplace = validate_bool_kwarg(inplace, "inplace") + if inplace: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif ( + not PYPY + and not using_copy_on_write() + and self._is_view_after_cow_rules() + ): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if isinstance(self, ABCSeries) and hasattr(self, "_cacher"): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + cond = common.apply_if_callable(cond, self) + other = common.apply_if_callable(other, self) + + # see gh-21891 + if not hasattr(cond, "__invert__"): + cond = np.array(cond) + + return self._where( + ~cond, + other=other, + inplace=inplace, + axis=axis, + level=level, + ) + + @doc(klass=_shared_doc_kwargs["klass"]) + def shift( + self, + periods: int | Sequence[int] = 1, + freq=None, + axis: Axis = 0, + fill_value: Hashable = lib.no_default, + suffix: str | None = None, + ) -> Self | DataFrame: + """ + Shift index by desired number of periods with an optional time `freq`. + + When `freq` is not passed, shift the index without realigning the data. + If `freq` is passed (in this case, the index must be date or datetime, + or it will raise a `NotImplementedError`), the index will be + increased using the periods and the `freq`. `freq` can be inferred + when specified as "infer" as long as either freq or inferred_freq + attribute is set in the index. + + Parameters + ---------- + periods : int or Sequence + Number of periods to shift. Can be positive or negative. + If an iterable of ints, the data will be shifted once by each int. + This is equivalent to shifting by one value at a time and + concatenating all resulting frames. The resulting columns will have + the shift suffixed to their column names. For multiple periods, + axis must not be 1. + freq : DateOffset, tseries.offsets, timedelta, or str, optional + Offset to use from the tseries module or time rule (e.g. 'EOM'). + If `freq` is specified then the index values are shifted but the + data is not realigned. That is, use `freq` if you would like to + extend the index when shifting and preserve the original data. + If `freq` is specified as "infer" then it will be inferred from + the freq or inferred_freq attributes of the index. If neither of + those attributes exist, a ValueError is thrown. + axis : {{0 or 'index', 1 or 'columns', None}}, default None + Shift direction. For `Series` this parameter is unused and defaults to 0. + fill_value : object, optional + The scalar value to use for newly introduced missing values. + the default depends on the dtype of `self`. + For numeric data, ``np.nan`` is used. + For datetime, timedelta, or period data, etc. :attr:`NaT` is used. + For extension dtypes, ``self.dtype.na_value`` is used. + suffix : str, optional + If str and periods is an iterable, this is added after the column + name and before the shift value for each shifted column name. + + Returns + ------- + {klass} + Copy of input object, shifted. + + See Also + -------- + Index.shift : Shift values of Index. + DatetimeIndex.shift : Shift values of DatetimeIndex. + PeriodIndex.shift : Shift values of PeriodIndex. + + Examples + -------- + >>> df = pd.DataFrame({{"Col1": [10, 20, 15, 30, 45], + ... "Col2": [13, 23, 18, 33, 48], + ... "Col3": [17, 27, 22, 37, 52]}}, + ... index=pd.date_range("2020-01-01", "2020-01-05")) + >>> df + Col1 Col2 Col3 + 2020-01-01 10 13 17 + 2020-01-02 20 23 27 + 2020-01-03 15 18 22 + 2020-01-04 30 33 37 + 2020-01-05 45 48 52 + + >>> df.shift(periods=3) + Col1 Col2 Col3 + 2020-01-01 NaN NaN NaN + 2020-01-02 NaN NaN NaN + 2020-01-03 NaN NaN NaN + 2020-01-04 10.0 13.0 17.0 + 2020-01-05 20.0 23.0 27.0 + + >>> df.shift(periods=1, axis="columns") + Col1 Col2 Col3 + 2020-01-01 NaN 10 13 + 2020-01-02 NaN 20 23 + 2020-01-03 NaN 15 18 + 2020-01-04 NaN 30 33 + 2020-01-05 NaN 45 48 + + >>> df.shift(periods=3, fill_value=0) + Col1 Col2 Col3 + 2020-01-01 0 0 0 + 2020-01-02 0 0 0 + 2020-01-03 0 0 0 + 2020-01-04 10 13 17 + 2020-01-05 20 23 27 + + >>> df.shift(periods=3, freq="D") + Col1 Col2 Col3 + 2020-01-04 10 13 17 + 2020-01-05 20 23 27 + 2020-01-06 15 18 22 + 2020-01-07 30 33 37 + 2020-01-08 45 48 52 + + >>> df.shift(periods=3, freq="infer") + Col1 Col2 Col3 + 2020-01-04 10 13 17 + 2020-01-05 20 23 27 + 2020-01-06 15 18 22 + 2020-01-07 30 33 37 + 2020-01-08 45 48 52 + + >>> df['Col1'].shift(periods=[0, 1, 2]) + Col1_0 Col1_1 Col1_2 + 2020-01-01 10 NaN NaN + 2020-01-02 20 10.0 NaN + 2020-01-03 15 20.0 10.0 + 2020-01-04 30 15.0 20.0 + 2020-01-05 45 30.0 15.0 + """ + axis = self._get_axis_number(axis) + + if freq is not None and fill_value is not lib.no_default: + # GH#53832 + warnings.warn( + "Passing a 'freq' together with a 'fill_value' silently ignores " + "the fill_value and is deprecated. This will raise in a future " + "version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + fill_value = lib.no_default + + if periods == 0: + return self.copy(deep=None) + + if is_list_like(periods) and isinstance(self, ABCSeries): + return self.to_frame().shift( + periods=periods, freq=freq, axis=axis, fill_value=fill_value + ) + periods = cast(int, periods) + + if freq is None: + # when freq is None, data is shifted, index is not + axis = self._get_axis_number(axis) + assert axis == 0 # axis == 1 cases handled in DataFrame.shift + new_data = self._mgr.shift(periods=periods, fill_value=fill_value) + return self._constructor_from_mgr( + new_data, axes=new_data.axes + ).__finalize__(self, method="shift") + + return self._shift_with_freq(periods, axis, freq) + + @final + def _shift_with_freq(self, periods: int, axis: int, freq) -> Self: + # see shift.__doc__ + # when freq is given, index is shifted, data is not + index = self._get_axis(axis) + + if freq == "infer": + freq = getattr(index, "freq", None) + + if freq is None: + freq = getattr(index, "inferred_freq", None) + + if freq is None: + msg = "Freq was not set in the index hence cannot be inferred" + raise ValueError(msg) + + elif isinstance(freq, str): + is_period = isinstance(index, PeriodIndex) + freq = to_offset(freq, is_period=is_period) + + if isinstance(index, PeriodIndex): + orig_freq = to_offset(index.freq) + if freq != orig_freq: + assert orig_freq is not None # for mypy + raise ValueError( + f"Given freq {freq_to_period_freqstr(freq.n, freq.name)} " + f"does not match PeriodIndex freq " + f"{freq_to_period_freqstr(orig_freq.n, orig_freq.name)}" + ) + new_ax = index.shift(periods) + else: + new_ax = index.shift(periods, freq) + + result = self.set_axis(new_ax, axis=axis) + return result.__finalize__(self, method="shift") + + @final + def truncate( + self, + before=None, + after=None, + axis: Axis | None = None, + copy: bool_t | None = None, + ) -> Self: + """ + Truncate a Series or DataFrame before and after some index value. + + This is a useful shorthand for boolean indexing based on index + values above or below certain thresholds. + + Parameters + ---------- + before : date, str, int + Truncate all rows before this index value. + after : date, str, int + Truncate all rows after this index value. + axis : {0 or 'index', 1 or 'columns'}, optional + Axis to truncate. Truncates the index (rows) by default. + For `Series` this parameter is unused and defaults to 0. + copy : bool, default is True, + Return a copy of the truncated section. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + type of caller + The truncated Series or DataFrame. + + See Also + -------- + DataFrame.loc : Select a subset of a DataFrame by label. + DataFrame.iloc : Select a subset of a DataFrame by position. + + Notes + ----- + If the index being truncated contains only datetime values, + `before` and `after` may be specified as strings instead of + Timestamps. + + Examples + -------- + >>> df = pd.DataFrame({'A': ['a', 'b', 'c', 'd', 'e'], + ... 'B': ['f', 'g', 'h', 'i', 'j'], + ... 'C': ['k', 'l', 'm', 'n', 'o']}, + ... index=[1, 2, 3, 4, 5]) + >>> df + A B C + 1 a f k + 2 b g l + 3 c h m + 4 d i n + 5 e j o + + >>> df.truncate(before=2, after=4) + A B C + 2 b g l + 3 c h m + 4 d i n + + The columns of a DataFrame can be truncated. + + >>> df.truncate(before="A", after="B", axis="columns") + A B + 1 a f + 2 b g + 3 c h + 4 d i + 5 e j + + For Series, only rows can be truncated. + + >>> df['A'].truncate(before=2, after=4) + 2 b + 3 c + 4 d + Name: A, dtype: object + + The index values in ``truncate`` can be datetimes or string + dates. + + >>> dates = pd.date_range('2016-01-01', '2016-02-01', freq='s') + >>> df = pd.DataFrame(index=dates, data={'A': 1}) + >>> df.tail() + A + 2016-01-31 23:59:56 1 + 2016-01-31 23:59:57 1 + 2016-01-31 23:59:58 1 + 2016-01-31 23:59:59 1 + 2016-02-01 00:00:00 1 + + >>> df.truncate(before=pd.Timestamp('2016-01-05'), + ... after=pd.Timestamp('2016-01-10')).tail() + A + 2016-01-09 23:59:56 1 + 2016-01-09 23:59:57 1 + 2016-01-09 23:59:58 1 + 2016-01-09 23:59:59 1 + 2016-01-10 00:00:00 1 + + Because the index is a DatetimeIndex containing only dates, we can + specify `before` and `after` as strings. They will be coerced to + Timestamps before truncation. + + >>> df.truncate('2016-01-05', '2016-01-10').tail() + A + 2016-01-09 23:59:56 1 + 2016-01-09 23:59:57 1 + 2016-01-09 23:59:58 1 + 2016-01-09 23:59:59 1 + 2016-01-10 00:00:00 1 + + Note that ``truncate`` assumes a 0 value for any unspecified time + component (midnight). This differs from partial string slicing, which + returns any partially matching dates. + + >>> df.loc['2016-01-05':'2016-01-10', :].tail() + A + 2016-01-10 23:59:55 1 + 2016-01-10 23:59:56 1 + 2016-01-10 23:59:57 1 + 2016-01-10 23:59:58 1 + 2016-01-10 23:59:59 1 + """ + if axis is None: + axis = 0 + axis = self._get_axis_number(axis) + ax = self._get_axis(axis) + + # GH 17935 + # Check that index is sorted + if not ax.is_monotonic_increasing and not ax.is_monotonic_decreasing: + raise ValueError("truncate requires a sorted index") + + # if we have a date index, convert to dates, otherwise + # treat like a slice + if ax._is_all_dates: + from pandas.core.tools.datetimes import to_datetime + + before = to_datetime(before) + after = to_datetime(after) + + if before is not None and after is not None and before > after: + raise ValueError(f"Truncate: {after} must be after {before}") + + if len(ax) > 1 and ax.is_monotonic_decreasing and ax.nunique() > 1: + before, after = after, before + + slicer = [slice(None, None)] * self._AXIS_LEN + slicer[axis] = slice(before, after) + result = self.loc[tuple(slicer)] + + if isinstance(ax, MultiIndex): + setattr(result, self._get_axis_name(axis), ax.truncate(before, after)) + + result = result.copy(deep=copy and not using_copy_on_write()) + + return result + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def tz_convert( + self, tz, axis: Axis = 0, level=None, copy: bool_t | None = None + ) -> Self: + """ + Convert tz-aware axis to target time zone. + + Parameters + ---------- + tz : str or tzinfo object or None + Target time zone. Passing ``None`` will convert to + UTC and remove the timezone information. + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + The axis to convert + level : int, str, default None + If axis is a MultiIndex, convert a specific level. Otherwise + must be None. + copy : bool, default True + Also make a copy of the underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + {klass} + Object with time zone converted axis. + + Raises + ------ + TypeError + If the axis is tz-naive. + + Examples + -------- + Change to another time zone: + + >>> s = pd.Series( + ... [1], + ... index=pd.DatetimeIndex(['2018-09-15 01:30:00+02:00']), + ... ) + >>> s.tz_convert('Asia/Shanghai') + 2018-09-15 07:30:00+08:00 1 + dtype: int64 + + Pass None to convert to UTC and get a tz-naive index: + + >>> s = pd.Series([1], + ... index=pd.DatetimeIndex(['2018-09-15 01:30:00+02:00'])) + >>> s.tz_convert(None) + 2018-09-14 23:30:00 1 + dtype: int64 + """ + axis = self._get_axis_number(axis) + ax = self._get_axis(axis) + + def _tz_convert(ax, tz): + if not hasattr(ax, "tz_convert"): + if len(ax) > 0: + ax_name = self._get_axis_name(axis) + raise TypeError( + f"{ax_name} is not a valid DatetimeIndex or PeriodIndex" + ) + ax = DatetimeIndex([], tz=tz) + else: + ax = ax.tz_convert(tz) + return ax + + # if a level is given it must be a MultiIndex level or + # equivalent to the axis name + if isinstance(ax, MultiIndex): + level = ax._get_level_number(level) + new_level = _tz_convert(ax.levels[level], tz) + ax = ax.set_levels(new_level, level=level) + else: + if level not in (None, 0, ax.name): + raise ValueError(f"The level {level} is not valid") + ax = _tz_convert(ax, tz) + + result = self.copy(deep=copy and not using_copy_on_write()) + result = result.set_axis(ax, axis=axis, copy=False) + return result.__finalize__(self, method="tz_convert") + + @final + @doc(klass=_shared_doc_kwargs["klass"]) + def tz_localize( + self, + tz, + axis: Axis = 0, + level=None, + copy: bool_t | None = None, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + """ + Localize tz-naive index of a Series or DataFrame to target time zone. + + This operation localizes the Index. To localize the values in a + timezone-naive Series, use :meth:`Series.dt.tz_localize`. + + Parameters + ---------- + tz : str or tzinfo or None + Time zone to localize. Passing ``None`` will remove the + time zone information and preserve local time. + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + The axis to localize + level : int, str, default None + If axis ia a MultiIndex, localize a specific level. Otherwise + must be None. + copy : bool, default True + Also make a copy of the underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + ambiguous : 'infer', bool-ndarray, 'NaT', default 'raise' + When clocks moved backward due to DST, ambiguous times may arise. + For example in Central European Time (UTC+01), when going from + 03:00 DST to 02:00 non-DST, 02:30:00 local time occurs both at + 00:30:00 UTC and at 01:30:00 UTC. In such a situation, the + `ambiguous` parameter dictates how ambiguous times should be + handled. + + - 'infer' will attempt to infer fall dst-transition hours based on + order + - bool-ndarray where True signifies a DST time, False designates + a non-DST time (note that this flag is only applicable for + ambiguous times) + - 'NaT' will return NaT where there are ambiguous times + - 'raise' will raise an AmbiguousTimeError if there are ambiguous + times. + nonexistent : str, default 'raise' + A nonexistent time does not exist in a particular timezone + where clocks moved forward due to DST. Valid values are: + + - 'shift_forward' will shift the nonexistent time forward to the + closest existing time + - 'shift_backward' will shift the nonexistent time backward to the + closest existing time + - 'NaT' will return NaT where there are nonexistent times + - timedelta objects will shift nonexistent times by the timedelta + - 'raise' will raise an NonExistentTimeError if there are + nonexistent times. + + Returns + ------- + {klass} + Same type as the input. + + Raises + ------ + TypeError + If the TimeSeries is tz-aware and tz is not None. + + Examples + -------- + Localize local times: + + >>> s = pd.Series( + ... [1], + ... index=pd.DatetimeIndex(['2018-09-15 01:30:00']), + ... ) + >>> s.tz_localize('CET') + 2018-09-15 01:30:00+02:00 1 + dtype: int64 + + Pass None to convert to tz-naive index and preserve local time: + + >>> s = pd.Series([1], + ... index=pd.DatetimeIndex(['2018-09-15 01:30:00+02:00'])) + >>> s.tz_localize(None) + 2018-09-15 01:30:00 1 + dtype: int64 + + Be careful with DST changes. When there is sequential data, pandas + can infer the DST time: + + >>> s = pd.Series(range(7), + ... index=pd.DatetimeIndex(['2018-10-28 01:30:00', + ... '2018-10-28 02:00:00', + ... '2018-10-28 02:30:00', + ... '2018-10-28 02:00:00', + ... '2018-10-28 02:30:00', + ... '2018-10-28 03:00:00', + ... '2018-10-28 03:30:00'])) + >>> s.tz_localize('CET', ambiguous='infer') + 2018-10-28 01:30:00+02:00 0 + 2018-10-28 02:00:00+02:00 1 + 2018-10-28 02:30:00+02:00 2 + 2018-10-28 02:00:00+01:00 3 + 2018-10-28 02:30:00+01:00 4 + 2018-10-28 03:00:00+01:00 5 + 2018-10-28 03:30:00+01:00 6 + dtype: int64 + + In some cases, inferring the DST is impossible. In such cases, you can + pass an ndarray to the ambiguous parameter to set the DST explicitly + + >>> s = pd.Series(range(3), + ... index=pd.DatetimeIndex(['2018-10-28 01:20:00', + ... '2018-10-28 02:36:00', + ... '2018-10-28 03:46:00'])) + >>> s.tz_localize('CET', ambiguous=np.array([True, True, False])) + 2018-10-28 01:20:00+02:00 0 + 2018-10-28 02:36:00+02:00 1 + 2018-10-28 03:46:00+01:00 2 + dtype: int64 + + If the DST transition causes nonexistent times, you can shift these + dates forward or backward with a timedelta object or `'shift_forward'` + or `'shift_backward'`. + + >>> s = pd.Series(range(2), + ... index=pd.DatetimeIndex(['2015-03-29 02:30:00', + ... '2015-03-29 03:30:00'])) + >>> s.tz_localize('Europe/Warsaw', nonexistent='shift_forward') + 2015-03-29 03:00:00+02:00 0 + 2015-03-29 03:30:00+02:00 1 + dtype: int64 + >>> s.tz_localize('Europe/Warsaw', nonexistent='shift_backward') + 2015-03-29 01:59:59.999999999+01:00 0 + 2015-03-29 03:30:00+02:00 1 + dtype: int64 + >>> s.tz_localize('Europe/Warsaw', nonexistent=pd.Timedelta('1h')) + 2015-03-29 03:30:00+02:00 0 + 2015-03-29 03:30:00+02:00 1 + dtype: int64 + """ + nonexistent_options = ("raise", "NaT", "shift_forward", "shift_backward") + if nonexistent not in nonexistent_options and not isinstance( + nonexistent, dt.timedelta + ): + raise ValueError( + "The nonexistent argument must be one of 'raise', " + "'NaT', 'shift_forward', 'shift_backward' or " + "a timedelta object" + ) + + axis = self._get_axis_number(axis) + ax = self._get_axis(axis) + + def _tz_localize(ax, tz, ambiguous, nonexistent): + if not hasattr(ax, "tz_localize"): + if len(ax) > 0: + ax_name = self._get_axis_name(axis) + raise TypeError( + f"{ax_name} is not a valid DatetimeIndex or PeriodIndex" + ) + ax = DatetimeIndex([], tz=tz) + else: + ax = ax.tz_localize(tz, ambiguous=ambiguous, nonexistent=nonexistent) + return ax + + # if a level is given it must be a MultiIndex level or + # equivalent to the axis name + if isinstance(ax, MultiIndex): + level = ax._get_level_number(level) + new_level = _tz_localize(ax.levels[level], tz, ambiguous, nonexistent) + ax = ax.set_levels(new_level, level=level) + else: + if level not in (None, 0, ax.name): + raise ValueError(f"The level {level} is not valid") + ax = _tz_localize(ax, tz, ambiguous, nonexistent) + + result = self.copy(deep=copy and not using_copy_on_write()) + result = result.set_axis(ax, axis=axis, copy=False) + return result.__finalize__(self, method="tz_localize") + + # ---------------------------------------------------------------------- + # Numeric Methods + + @final + def describe( + self, + percentiles=None, + include=None, + exclude=None, + ) -> Self: + """ + Generate descriptive statistics. + + Descriptive statistics include those that summarize the central + tendency, dispersion and shape of a + dataset's distribution, excluding ``NaN`` values. + + Analyzes both numeric and object series, as well + as ``DataFrame`` column sets of mixed data types. The output + will vary depending on what is provided. Refer to the notes + below for more detail. + + Parameters + ---------- + percentiles : list-like of numbers, optional + The percentiles to include in the output. All should + fall between 0 and 1. The default is + ``[.25, .5, .75]``, which returns the 25th, 50th, and + 75th percentiles. + include : 'all', list-like of dtypes or None (default), optional + A white list of data types to include in the result. Ignored + for ``Series``. Here are the options: + + - 'all' : All columns of the input will be included in the output. + - A list-like of dtypes : Limits the results to the + provided data types. + To limit the result to numeric types submit + ``numpy.number``. To limit it instead to object columns submit + the ``numpy.object`` data type. Strings + can also be used in the style of + ``select_dtypes`` (e.g. ``df.describe(include=['O'])``). To + select pandas categorical columns, use ``'category'`` + - None (default) : The result will include all numeric columns. + exclude : list-like of dtypes or None (default), optional, + A black list of data types to omit from the result. Ignored + for ``Series``. Here are the options: + + - A list-like of dtypes : Excludes the provided data types + from the result. To exclude numeric types submit + ``numpy.number``. To exclude object columns submit the data + type ``numpy.object``. Strings can also be used in the style of + ``select_dtypes`` (e.g. ``df.describe(exclude=['O'])``). To + exclude pandas categorical columns, use ``'category'`` + - None (default) : The result will exclude nothing. + + Returns + ------- + Series or DataFrame + Summary statistics of the Series or Dataframe provided. + + See Also + -------- + DataFrame.count: Count number of non-NA/null observations. + DataFrame.max: Maximum of the values in the object. + DataFrame.min: Minimum of the values in the object. + DataFrame.mean: Mean of the values. + DataFrame.std: Standard deviation of the observations. + DataFrame.select_dtypes: Subset of a DataFrame including/excluding + columns based on their dtype. + + Notes + ----- + For numeric data, the result's index will include ``count``, + ``mean``, ``std``, ``min``, ``max`` as well as lower, ``50`` and + upper percentiles. By default the lower percentile is ``25`` and the + upper percentile is ``75``. The ``50`` percentile is the + same as the median. + + For object data (e.g. strings or timestamps), the result's index + will include ``count``, ``unique``, ``top``, and ``freq``. The ``top`` + is the most common value. The ``freq`` is the most common value's + frequency. Timestamps also include the ``first`` and ``last`` items. + + If multiple object values have the highest count, then the + ``count`` and ``top`` results will be arbitrarily chosen from + among those with the highest count. + + For mixed data types provided via a ``DataFrame``, the default is to + return only an analysis of numeric columns. If the dataframe consists + only of object and categorical data without any numeric columns, the + default is to return an analysis of both the object and categorical + columns. If ``include='all'`` is provided as an option, the result + will include a union of attributes of each type. + + The `include` and `exclude` parameters can be used to limit + which columns in a ``DataFrame`` are analyzed for the output. + The parameters are ignored when analyzing a ``Series``. + + Examples + -------- + Describing a numeric ``Series``. + + >>> s = pd.Series([1, 2, 3]) + >>> s.describe() + count 3.0 + mean 2.0 + std 1.0 + min 1.0 + 25% 1.5 + 50% 2.0 + 75% 2.5 + max 3.0 + dtype: float64 + + Describing a categorical ``Series``. + + >>> s = pd.Series(['a', 'a', 'b', 'c']) + >>> s.describe() + count 4 + unique 3 + top a + freq 2 + dtype: object + + Describing a timestamp ``Series``. + + >>> s = pd.Series([ + ... np.datetime64("2000-01-01"), + ... np.datetime64("2010-01-01"), + ... np.datetime64("2010-01-01") + ... ]) + >>> s.describe() + count 3 + mean 2006-09-01 08:00:00 + min 2000-01-01 00:00:00 + 25% 2004-12-31 12:00:00 + 50% 2010-01-01 00:00:00 + 75% 2010-01-01 00:00:00 + max 2010-01-01 00:00:00 + dtype: object + + Describing a ``DataFrame``. By default only numeric fields + are returned. + + >>> df = pd.DataFrame({'categorical': pd.Categorical(['d', 'e', 'f']), + ... 'numeric': [1, 2, 3], + ... 'object': ['a', 'b', 'c'] + ... }) + >>> df.describe() + numeric + count 3.0 + mean 2.0 + std 1.0 + min 1.0 + 25% 1.5 + 50% 2.0 + 75% 2.5 + max 3.0 + + Describing all columns of a ``DataFrame`` regardless of data type. + + >>> df.describe(include='all') # doctest: +SKIP + categorical numeric object + count 3 3.0 3 + unique 3 NaN 3 + top f NaN a + freq 1 NaN 1 + mean NaN 2.0 NaN + std NaN 1.0 NaN + min NaN 1.0 NaN + 25% NaN 1.5 NaN + 50% NaN 2.0 NaN + 75% NaN 2.5 NaN + max NaN 3.0 NaN + + Describing a column from a ``DataFrame`` by accessing it as + an attribute. + + >>> df.numeric.describe() + count 3.0 + mean 2.0 + std 1.0 + min 1.0 + 25% 1.5 + 50% 2.0 + 75% 2.5 + max 3.0 + Name: numeric, dtype: float64 + + Including only numeric columns in a ``DataFrame`` description. + + >>> df.describe(include=[np.number]) + numeric + count 3.0 + mean 2.0 + std 1.0 + min 1.0 + 25% 1.5 + 50% 2.0 + 75% 2.5 + max 3.0 + + Including only string columns in a ``DataFrame`` description. + + >>> df.describe(include=[object]) # doctest: +SKIP + object + count 3 + unique 3 + top a + freq 1 + + Including only categorical columns from a ``DataFrame`` description. + + >>> df.describe(include=['category']) + categorical + count 3 + unique 3 + top d + freq 1 + + Excluding numeric columns from a ``DataFrame`` description. + + >>> df.describe(exclude=[np.number]) # doctest: +SKIP + categorical object + count 3 3 + unique 3 3 + top f a + freq 1 1 + + Excluding object columns from a ``DataFrame`` description. + + >>> df.describe(exclude=[object]) # doctest: +SKIP + categorical numeric + count 3 3.0 + unique 3 NaN + top f NaN + freq 1 NaN + mean NaN 2.0 + std NaN 1.0 + min NaN 1.0 + 25% NaN 1.5 + 50% NaN 2.0 + 75% NaN 2.5 + max NaN 3.0 + """ + return describe_ndframe( + obj=self, + include=include, + exclude=exclude, + percentiles=percentiles, + ).__finalize__(self, method="describe") + + @final + def pct_change( + self, + periods: int = 1, + fill_method: FillnaOptions | None | lib.NoDefault = lib.no_default, + limit: int | None | lib.NoDefault = lib.no_default, + freq=None, + **kwargs, + ) -> Self: + """ + Fractional change between the current and a prior element. + + Computes the fractional change from the immediately previous row by + default. This is useful in comparing the fraction of change in a time + series of elements. + + .. note:: + + Despite the name of this method, it calculates fractional change + (also known as per unit change or relative change) and not + percentage change. If you need the percentage change, multiply + these values by 100. + + Parameters + ---------- + periods : int, default 1 + Periods to shift for forming percent change. + fill_method : {'backfill', 'bfill', 'pad', 'ffill', None}, default 'pad' + How to handle NAs **before** computing percent changes. + + .. deprecated:: 2.1 + All options of `fill_method` are deprecated except `fill_method=None`. + + limit : int, default None + The number of consecutive NAs to fill before stopping. + + .. deprecated:: 2.1 + + freq : DateOffset, timedelta, or str, optional + Increment to use from time series API (e.g. 'ME' or BDay()). + **kwargs + Additional keyword arguments are passed into + `DataFrame.shift` or `Series.shift`. + + Returns + ------- + Series or DataFrame + The same type as the calling object. + + See Also + -------- + Series.diff : Compute the difference of two elements in a Series. + DataFrame.diff : Compute the difference of two elements in a DataFrame. + Series.shift : Shift the index by some number of periods. + DataFrame.shift : Shift the index by some number of periods. + + Examples + -------- + **Series** + + >>> s = pd.Series([90, 91, 85]) + >>> s + 0 90 + 1 91 + 2 85 + dtype: int64 + + >>> s.pct_change() + 0 NaN + 1 0.011111 + 2 -0.065934 + dtype: float64 + + >>> s.pct_change(periods=2) + 0 NaN + 1 NaN + 2 -0.055556 + dtype: float64 + + See the percentage change in a Series where filling NAs with last + valid observation forward to next valid. + + >>> s = pd.Series([90, 91, None, 85]) + >>> s + 0 90.0 + 1 91.0 + 2 NaN + 3 85.0 + dtype: float64 + + >>> s.ffill().pct_change() + 0 NaN + 1 0.011111 + 2 0.000000 + 3 -0.065934 + dtype: float64 + + **DataFrame** + + Percentage change in French franc, Deutsche Mark, and Italian lira from + 1980-01-01 to 1980-03-01. + + >>> df = pd.DataFrame({ + ... 'FR': [4.0405, 4.0963, 4.3149], + ... 'GR': [1.7246, 1.7482, 1.8519], + ... 'IT': [804.74, 810.01, 860.13]}, + ... index=['1980-01-01', '1980-02-01', '1980-03-01']) + >>> df + FR GR IT + 1980-01-01 4.0405 1.7246 804.74 + 1980-02-01 4.0963 1.7482 810.01 + 1980-03-01 4.3149 1.8519 860.13 + + >>> df.pct_change() + FR GR IT + 1980-01-01 NaN NaN NaN + 1980-02-01 0.013810 0.013684 0.006549 + 1980-03-01 0.053365 0.059318 0.061876 + + Percentage of change in GOOG and APPL stock volume. Shows computing + the percentage change between columns. + + >>> df = pd.DataFrame({ + ... '2016': [1769950, 30586265], + ... '2015': [1500923, 40912316], + ... '2014': [1371819, 41403351]}, + ... index=['GOOG', 'APPL']) + >>> df + 2016 2015 2014 + GOOG 1769950 1500923 1371819 + APPL 30586265 40912316 41403351 + + >>> df.pct_change(axis='columns', periods=-1) + 2016 2015 2014 + GOOG 0.179241 0.094112 NaN + APPL -0.252395 -0.011860 NaN + """ + # GH#53491 + if fill_method not in (lib.no_default, None) or limit is not lib.no_default: + warnings.warn( + "The 'fill_method' keyword being not None and the 'limit' keyword in " + f"{type(self).__name__}.pct_change are deprecated and will be removed " + "in a future version. Either fill in any non-leading NA values prior " + "to calling pct_change or specify 'fill_method=None' to not fill NA " + "values.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if fill_method is lib.no_default: + if limit is lib.no_default: + cols = self.items() if self.ndim == 2 else [(None, self)] + for _, col in cols: + if len(col) > 0: + mask = col.isna().values + mask = mask[np.argmax(~mask) :] + if mask.any(): + warnings.warn( + "The default fill_method='pad' in " + f"{type(self).__name__}.pct_change is deprecated and " + "will be removed in a future version. Either fill in " + "any non-leading NA values prior to calling pct_change " + "or specify 'fill_method=None' to not fill NA values.", + FutureWarning, + stacklevel=find_stack_level(), + ) + break + fill_method = "pad" + if limit is lib.no_default: + limit = None + + axis = self._get_axis_number(kwargs.pop("axis", "index")) + if fill_method is None: + data = self + else: + data = self._pad_or_backfill(fill_method, axis=axis, limit=limit) + + shifted = data.shift(periods=periods, freq=freq, axis=axis, **kwargs) + # Unsupported left operand type for / ("Self") + rs = data / shifted - 1 # type: ignore[operator] + if freq is not None: + # Shift method is implemented differently when freq is not None + # We want to restore the original index + rs = rs.loc[~rs.index.duplicated()] + rs = rs.reindex_like(data) + return rs.__finalize__(self, method="pct_change") + + @final + def _logical_func( + self, + name: str, + func, + axis: Axis | None = 0, + bool_only: bool_t = False, + skipna: bool_t = True, + **kwargs, + ) -> Series | bool_t: + nv.validate_logical_func((), kwargs, fname=name) + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + + if self.ndim > 1 and axis is None: + # Reduce along one dimension then the other, to simplify DataFrame._reduce + res = self._logical_func( + name, func, axis=0, bool_only=bool_only, skipna=skipna, **kwargs + ) + # error: Item "bool" of "Series | bool" has no attribute "_logical_func" + return res._logical_func( # type: ignore[union-attr] + name, func, skipna=skipna, **kwargs + ) + elif axis is None: + axis = 0 + + if ( + self.ndim > 1 + and axis == 1 + and len(self._mgr.arrays) > 1 + # TODO(EA2D): special-case not needed + and all(x.ndim == 2 for x in self._mgr.arrays) + and not kwargs + ): + # Fastpath avoiding potentially expensive transpose + obj = self + if bool_only: + obj = self._get_bool_data() + return obj._reduce_axis1(name, func, skipna=skipna) + + return self._reduce( + func, + name=name, + axis=axis, + skipna=skipna, + numeric_only=bool_only, + filter_type="bool", + ) + + def any( + self, + axis: Axis | None = 0, + bool_only: bool_t = False, + skipna: bool_t = True, + **kwargs, + ) -> Series | bool_t: + return self._logical_func( + "any", nanops.nanany, axis, bool_only, skipna, **kwargs + ) + + def all( + self, + axis: Axis = 0, + bool_only: bool_t = False, + skipna: bool_t = True, + **kwargs, + ) -> Series | bool_t: + return self._logical_func( + "all", nanops.nanall, axis, bool_only, skipna, **kwargs + ) + + @final + def _accum_func( + self, + name: str, + func, + axis: Axis | None = None, + skipna: bool_t = True, + *args, + **kwargs, + ): + skipna = nv.validate_cum_func_with_skipna(skipna, args, kwargs, name) + if axis is None: + axis = 0 + else: + axis = self._get_axis_number(axis) + + if axis == 1: + return self.T._accum_func( + name, func, axis=0, skipna=skipna, *args, **kwargs # noqa: B026 + ).T + + def block_accum_func(blk_values): + values = blk_values.T if hasattr(blk_values, "T") else blk_values + + result: np.ndarray | ExtensionArray + if isinstance(values, ExtensionArray): + result = values._accumulate(name, skipna=skipna, **kwargs) + else: + result = nanops.na_accum_func(values, func, skipna=skipna) + + result = result.T if hasattr(result, "T") else result + return result + + result = self._mgr.apply(block_accum_func) + + return self._constructor_from_mgr(result, axes=result.axes).__finalize__( + self, method=name + ) + + def cummax(self, axis: Axis | None = None, skipna: bool_t = True, *args, **kwargs): + return self._accum_func( + "cummax", np.maximum.accumulate, axis, skipna, *args, **kwargs + ) + + def cummin(self, axis: Axis | None = None, skipna: bool_t = True, *args, **kwargs): + return self._accum_func( + "cummin", np.minimum.accumulate, axis, skipna, *args, **kwargs + ) + + def cumsum(self, axis: Axis | None = None, skipna: bool_t = True, *args, **kwargs): + return self._accum_func("cumsum", np.cumsum, axis, skipna, *args, **kwargs) + + def cumprod(self, axis: Axis | None = None, skipna: bool_t = True, *args, **kwargs): + return self._accum_func("cumprod", np.cumprod, axis, skipna, *args, **kwargs) + + @final + def _stat_function_ddof( + self, + name: str, + func, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool_t = True, + ddof: int = 1, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + nv.validate_stat_ddof_func((), kwargs, fname=name) + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + + if axis is None: + if self.ndim > 1: + warnings.warn( + f"The behavior of {type(self).__name__}.{name} with axis=None " + "is deprecated, in a future version this will reduce over both " + "axes and return a scalar. To retain the old behavior, pass " + "axis=0 (or do not pass axis)", + FutureWarning, + stacklevel=find_stack_level(), + ) + axis = 0 + elif axis is lib.no_default: + axis = 0 + + return self._reduce( + func, name, axis=axis, numeric_only=numeric_only, skipna=skipna, ddof=ddof + ) + + def sem( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + ddof: int = 1, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function_ddof( + "sem", nanops.nansem, axis, skipna, ddof, numeric_only, **kwargs + ) + + def var( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + ddof: int = 1, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function_ddof( + "var", nanops.nanvar, axis, skipna, ddof, numeric_only, **kwargs + ) + + def std( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + ddof: int = 1, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function_ddof( + "std", nanops.nanstd, axis, skipna, ddof, numeric_only, **kwargs + ) + + @final + def _stat_function( + self, + name: str, + func, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ): + assert name in ["median", "mean", "min", "max", "kurt", "skew"], name + nv.validate_func(name, (), kwargs) + + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + + return self._reduce( + func, name=name, axis=axis, skipna=skipna, numeric_only=numeric_only + ) + + def min( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ): + return self._stat_function( + "min", + nanops.nanmin, + axis, + skipna, + numeric_only, + **kwargs, + ) + + def max( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ): + return self._stat_function( + "max", + nanops.nanmax, + axis, + skipna, + numeric_only, + **kwargs, + ) + + def mean( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function( + "mean", nanops.nanmean, axis, skipna, numeric_only, **kwargs + ) + + def median( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function( + "median", nanops.nanmedian, axis, skipna, numeric_only, **kwargs + ) + + def skew( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function( + "skew", nanops.nanskew, axis, skipna, numeric_only, **kwargs + ) + + def kurt( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + **kwargs, + ) -> Series | float: + return self._stat_function( + "kurt", nanops.nankurt, axis, skipna, numeric_only, **kwargs + ) + + kurtosis = kurt + + @final + def _min_count_stat_function( + self, + name: str, + func, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool_t = True, + numeric_only: bool_t = False, + min_count: int = 0, + **kwargs, + ): + assert name in ["sum", "prod"], name + nv.validate_func(name, (), kwargs) + + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + + if axis is None: + if self.ndim > 1: + warnings.warn( + f"The behavior of {type(self).__name__}.{name} with axis=None " + "is deprecated, in a future version this will reduce over both " + "axes and return a scalar. To retain the old behavior, pass " + "axis=0 (or do not pass axis)", + FutureWarning, + stacklevel=find_stack_level(), + ) + axis = 0 + elif axis is lib.no_default: + axis = 0 + + return self._reduce( + func, + name=name, + axis=axis, + skipna=skipna, + numeric_only=numeric_only, + min_count=min_count, + ) + + def sum( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + min_count: int = 0, + **kwargs, + ): + return self._min_count_stat_function( + "sum", nanops.nansum, axis, skipna, numeric_only, min_count, **kwargs + ) + + def prod( + self, + axis: Axis | None = 0, + skipna: bool_t = True, + numeric_only: bool_t = False, + min_count: int = 0, + **kwargs, + ): + return self._min_count_stat_function( + "prod", + nanops.nanprod, + axis, + skipna, + numeric_only, + min_count, + **kwargs, + ) + + product = prod + + @final + @doc(Rolling) + def rolling( + self, + window: int | dt.timedelta | str | BaseOffset | BaseIndexer, + min_periods: int | None = None, + center: bool_t = False, + win_type: str | None = None, + on: str | None = None, + axis: Axis | lib.NoDefault = lib.no_default, + closed: IntervalClosedType | None = None, + step: int | None = None, + method: str = "single", + ) -> Window | Rolling: + if axis is not lib.no_default: + axis = self._get_axis_number(axis) + name = "rolling" + if axis == 1: + warnings.warn( + f"Support for axis=1 in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + f"Use obj.T.{name}(...) instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + f"The 'axis' keyword in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + "Call the method without the axis keyword instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + + if win_type is not None: + return Window( + self, + window=window, + min_periods=min_periods, + center=center, + win_type=win_type, + on=on, + axis=axis, + closed=closed, + step=step, + method=method, + ) + + return Rolling( + self, + window=window, + min_periods=min_periods, + center=center, + win_type=win_type, + on=on, + axis=axis, + closed=closed, + step=step, + method=method, + ) + + @final + @doc(Expanding) + def expanding( + self, + min_periods: int = 1, + axis: Axis | lib.NoDefault = lib.no_default, + method: Literal["single", "table"] = "single", + ) -> Expanding: + if axis is not lib.no_default: + axis = self._get_axis_number(axis) + name = "expanding" + if axis == 1: + warnings.warn( + f"Support for axis=1 in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + f"Use obj.T.{name}(...) instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + f"The 'axis' keyword in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + "Call the method without the axis keyword instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + return Expanding(self, min_periods=min_periods, axis=axis, method=method) + + @final + @doc(ExponentialMovingWindow) + def ewm( + self, + com: float | None = None, + span: float | None = None, + halflife: float | TimedeltaConvertibleTypes | None = None, + alpha: float | None = None, + min_periods: int | None = 0, + adjust: bool_t = True, + ignore_na: bool_t = False, + axis: Axis | lib.NoDefault = lib.no_default, + times: np.ndarray | DataFrame | Series | None = None, + method: Literal["single", "table"] = "single", + ) -> ExponentialMovingWindow: + if axis is not lib.no_default: + axis = self._get_axis_number(axis) + name = "ewm" + if axis == 1: + warnings.warn( + f"Support for axis=1 in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + f"Use obj.T.{name}(...) instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + f"The 'axis' keyword in {type(self).__name__}.{name} is " + "deprecated and will be removed in a future version. " + "Call the method without the axis keyword instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + + return ExponentialMovingWindow( + self, + com=com, + span=span, + halflife=halflife, + alpha=alpha, + min_periods=min_periods, + adjust=adjust, + ignore_na=ignore_na, + axis=axis, + times=times, + method=method, + ) + + # ---------------------------------------------------------------------- + # Arithmetic Methods + + @final + def _inplace_method(self, other, op) -> Self: + """ + Wrap arithmetic method to operate inplace. + """ + warn = True + if not PYPY and warn_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT + 2: + # we are probably in an inplace setitem context (e.g. df['a'] += 1) + warn = False + + result = op(self, other) + + if ( + self.ndim == 1 + and result._indexed_same(self) + and result.dtype == self.dtype + and not using_copy_on_write() + and not (warn_copy_on_write() and not warn) + ): + # GH#36498 this inplace op can _actually_ be inplace. + # Item "ArrayManager" of "Union[ArrayManager, SingleArrayManager, + # BlockManager, SingleBlockManager]" has no attribute "setitem_inplace" + self._mgr.setitem_inplace( # type: ignore[union-attr] + slice(None), result._values, warn=warn + ) + return self + + # Delete cacher + self._reset_cacher() + + # this makes sure that we are aligned like the input + # we are updating inplace so we want to ignore is_copy + self._update_inplace( + result.reindex_like(self, copy=False), verify_is_copy=False + ) + return self + + @final + def __iadd__(self, other) -> Self: + # error: Unsupported left operand type for + ("Type[NDFrame]") + return self._inplace_method(other, type(self).__add__) # type: ignore[operator] + + @final + def __isub__(self, other) -> Self: + # error: Unsupported left operand type for - ("Type[NDFrame]") + return self._inplace_method(other, type(self).__sub__) # type: ignore[operator] + + @final + def __imul__(self, other) -> Self: + # error: Unsupported left operand type for * ("Type[NDFrame]") + return self._inplace_method(other, type(self).__mul__) # type: ignore[operator] + + @final + def __itruediv__(self, other) -> Self: + # error: Unsupported left operand type for / ("Type[NDFrame]") + return self._inplace_method( + other, type(self).__truediv__ # type: ignore[operator] + ) + + @final + def __ifloordiv__(self, other) -> Self: + # error: Unsupported left operand type for // ("Type[NDFrame]") + return self._inplace_method( + other, type(self).__floordiv__ # type: ignore[operator] + ) + + @final + def __imod__(self, other) -> Self: + # error: Unsupported left operand type for % ("Type[NDFrame]") + return self._inplace_method(other, type(self).__mod__) # type: ignore[operator] + + @final + def __ipow__(self, other) -> Self: + # error: Unsupported left operand type for ** ("Type[NDFrame]") + return self._inplace_method(other, type(self).__pow__) # type: ignore[operator] + + @final + def __iand__(self, other) -> Self: + # error: Unsupported left operand type for & ("Type[NDFrame]") + return self._inplace_method(other, type(self).__and__) # type: ignore[operator] + + @final + def __ior__(self, other) -> Self: + return self._inplace_method(other, type(self).__or__) + + @final + def __ixor__(self, other) -> Self: + # error: Unsupported left operand type for ^ ("Type[NDFrame]") + return self._inplace_method(other, type(self).__xor__) # type: ignore[operator] + + # ---------------------------------------------------------------------- + # Misc methods + + @final + def _find_valid_index(self, *, how: str) -> Hashable | None: + """ + Retrieves the index of the first valid value. + + Parameters + ---------- + how : {'first', 'last'} + Use this parameter to change between the first or last valid index. + + Returns + ------- + idx_first_valid : type of index + """ + is_valid = self.notna().values + idxpos = find_valid_index(how=how, is_valid=is_valid) + if idxpos is None: + return None + return self.index[idxpos] + + @final + @doc(position="first", klass=_shared_doc_kwargs["klass"]) + def first_valid_index(self) -> Hashable | None: + """ + Return index for {position} non-NA value or None, if no non-NA value is found. + + Returns + ------- + type of index + + Examples + -------- + For Series: + + >>> s = pd.Series([None, 3, 4]) + >>> s.first_valid_index() + 1 + >>> s.last_valid_index() + 2 + + >>> s = pd.Series([None, None]) + >>> print(s.first_valid_index()) + None + >>> print(s.last_valid_index()) + None + + If all elements in Series are NA/null, returns None. + + >>> s = pd.Series() + >>> print(s.first_valid_index()) + None + >>> print(s.last_valid_index()) + None + + If Series is empty, returns None. + + For DataFrame: + + >>> df = pd.DataFrame({{'A': [None, None, 2], 'B': [None, 3, 4]}}) + >>> df + A B + 0 NaN NaN + 1 NaN 3.0 + 2 2.0 4.0 + >>> df.first_valid_index() + 1 + >>> df.last_valid_index() + 2 + + >>> df = pd.DataFrame({{'A': [None, None, None], 'B': [None, None, None]}}) + >>> df + A B + 0 None None + 1 None None + 2 None None + >>> print(df.first_valid_index()) + None + >>> print(df.last_valid_index()) + None + + If all elements in DataFrame are NA/null, returns None. + + >>> df = pd.DataFrame() + >>> df + Empty DataFrame + Columns: [] + Index: [] + >>> print(df.first_valid_index()) + None + >>> print(df.last_valid_index()) + None + + If DataFrame is empty, returns None. + """ + return self._find_valid_index(how="first") + + @final + @doc(first_valid_index, position="last", klass=_shared_doc_kwargs["klass"]) + def last_valid_index(self) -> Hashable | None: + return self._find_valid_index(how="last") + + +_num_doc = """ +{desc} + +Parameters +---------- +axis : {axis_descr} + Axis for the function to be applied on. + For `Series` this parameter is unused and defaults to 0. + + For DataFrames, specifying ``axis=None`` will apply the aggregation + across both axes. + + .. versionadded:: 2.0.0 + +skipna : bool, default True + Exclude NA/null values when computing the result. +numeric_only : bool, default False + Include only float, int, boolean columns. Not implemented for Series. + +{min_count}\ +**kwargs + Additional keyword arguments to be passed to the function. + +Returns +------- +{name1} or scalar\ +{see_also}\ +{examples} +""" + +_sum_prod_doc = """ +{desc} + +Parameters +---------- +axis : {axis_descr} + Axis for the function to be applied on. + For `Series` this parameter is unused and defaults to 0. + + .. warning:: + + The behavior of DataFrame.{name} with ``axis=None`` is deprecated, + in a future version this will reduce over both axes and return a scalar + To retain the old behavior, pass axis=0 (or do not pass axis). + + .. versionadded:: 2.0.0 + +skipna : bool, default True + Exclude NA/null values when computing the result. +numeric_only : bool, default False + Include only float, int, boolean columns. Not implemented for Series. + +{min_count}\ +**kwargs + Additional keyword arguments to be passed to the function. + +Returns +------- +{name1} or scalar\ +{see_also}\ +{examples} +""" + +_num_ddof_doc = """ +{desc} + +Parameters +---------- +axis : {axis_descr} + For `Series` this parameter is unused and defaults to 0. + + .. warning:: + + The behavior of DataFrame.{name} with ``axis=None`` is deprecated, + in a future version this will reduce over both axes and return a scalar + To retain the old behavior, pass axis=0 (or do not pass axis). + +skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. +ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations is N - ddof, + where N represents the number of elements. +numeric_only : bool, default False + Include only float, int, boolean columns. Not implemented for Series. + +Returns +------- +{name1} or {name2} (if level specified) \ +{notes}\ +{examples} +""" + +_std_notes = """ + +Notes +----- +To have the same behaviour as `numpy.std`, use `ddof=0` (instead of the +default `ddof=1`)""" + +_std_examples = """ + +Examples +-------- +>>> df = pd.DataFrame({'person_id': [0, 1, 2, 3], +... 'age': [21, 25, 62, 43], +... 'height': [1.61, 1.87, 1.49, 2.01]} +... ).set_index('person_id') +>>> df + age height +person_id +0 21 1.61 +1 25 1.87 +2 62 1.49 +3 43 2.01 + +The standard deviation of the columns can be found as follows: + +>>> df.std() +age 18.786076 +height 0.237417 +dtype: float64 + +Alternatively, `ddof=0` can be set to normalize by N instead of N-1: + +>>> df.std(ddof=0) +age 16.269219 +height 0.205609 +dtype: float64""" + +_var_examples = """ + +Examples +-------- +>>> df = pd.DataFrame({'person_id': [0, 1, 2, 3], +... 'age': [21, 25, 62, 43], +... 'height': [1.61, 1.87, 1.49, 2.01]} +... ).set_index('person_id') +>>> df + age height +person_id +0 21 1.61 +1 25 1.87 +2 62 1.49 +3 43 2.01 + +>>> df.var() +age 352.916667 +height 0.056367 +dtype: float64 + +Alternatively, ``ddof=0`` can be set to normalize by N instead of N-1: + +>>> df.var(ddof=0) +age 264.687500 +height 0.042275 +dtype: float64""" + +_bool_doc = """ +{desc} + +Parameters +---------- +axis : {{0 or 'index', 1 or 'columns', None}}, default 0 + Indicate which axis or axes should be reduced. For `Series` this parameter + is unused and defaults to 0. + + * 0 / 'index' : reduce the index, return a Series whose index is the + original column labels. + * 1 / 'columns' : reduce the columns, return a Series whose index is the + original index. + * None : reduce all axes, return a scalar. + +bool_only : bool, default False + Include only boolean columns. Not implemented for Series. +skipna : bool, default True + Exclude NA/null values. If the entire row/column is NA and skipna is + True, then the result will be {empty_value}, as for an empty row/column. + If skipna is False, then NA are treated as True, because these are not + equal to zero. +**kwargs : any, default None + Additional keywords have no effect but might be accepted for + compatibility with NumPy. + +Returns +------- +{name1} or {name2} + If level is specified, then, {name2} is returned; otherwise, {name1} + is returned. + +{see_also} +{examples}""" + +_all_desc = """\ +Return whether all elements are True, potentially over an axis. + +Returns True unless there at least one element within a series or +along a Dataframe axis that is False or equivalent (e.g. zero or +empty).""" + +_all_examples = """\ +Examples +-------- +**Series** + +>>> pd.Series([True, True]).all() +True +>>> pd.Series([True, False]).all() +False +>>> pd.Series([], dtype="float64").all() +True +>>> pd.Series([np.nan]).all() +True +>>> pd.Series([np.nan]).all(skipna=False) +True + +**DataFrames** + +Create a dataframe from a dictionary. + +>>> df = pd.DataFrame({'col1': [True, True], 'col2': [True, False]}) +>>> df + col1 col2 +0 True True +1 True False + +Default behaviour checks if values in each column all return True. + +>>> df.all() +col1 True +col2 False +dtype: bool + +Specify ``axis='columns'`` to check if values in each row all return True. + +>>> df.all(axis='columns') +0 True +1 False +dtype: bool + +Or ``axis=None`` for whether every value is True. + +>>> df.all(axis=None) +False +""" + +_all_see_also = """\ +See Also +-------- +Series.all : Return True if all elements are True. +DataFrame.any : Return True if one (or more) elements are True. +""" + +_cnum_doc = """ +Return cumulative {desc} over a DataFrame or Series axis. + +Returns a DataFrame or Series of the same size containing the cumulative +{desc}. + +Parameters +---------- +axis : {{0 or 'index', 1 or 'columns'}}, default 0 + The index or the name of the axis. 0 is equivalent to None or 'index'. + For `Series` this parameter is unused and defaults to 0. +skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. +*args, **kwargs + Additional keywords have no effect but might be accepted for + compatibility with NumPy. + +Returns +------- +{name1} or {name2} + Return cumulative {desc} of {name1} or {name2}. + +See Also +-------- +core.window.expanding.Expanding.{accum_func_name} : Similar functionality + but ignores ``NaN`` values. +{name2}.{accum_func_name} : Return the {desc} over + {name2} axis. +{name2}.cummax : Return cumulative maximum over {name2} axis. +{name2}.cummin : Return cumulative minimum over {name2} axis. +{name2}.cumsum : Return cumulative sum over {name2} axis. +{name2}.cumprod : Return cumulative product over {name2} axis. + +{examples}""" + +_cummin_examples = """\ +Examples +-------- +**Series** + +>>> s = pd.Series([2, np.nan, 5, -1, 0]) +>>> s +0 2.0 +1 NaN +2 5.0 +3 -1.0 +4 0.0 +dtype: float64 + +By default, NA values are ignored. + +>>> s.cummin() +0 2.0 +1 NaN +2 2.0 +3 -1.0 +4 -1.0 +dtype: float64 + +To include NA values in the operation, use ``skipna=False`` + +>>> s.cummin(skipna=False) +0 2.0 +1 NaN +2 NaN +3 NaN +4 NaN +dtype: float64 + +**DataFrame** + +>>> df = pd.DataFrame([[2.0, 1.0], +... [3.0, np.nan], +... [1.0, 0.0]], +... columns=list('AB')) +>>> df + A B +0 2.0 1.0 +1 3.0 NaN +2 1.0 0.0 + +By default, iterates over rows and finds the minimum +in each column. This is equivalent to ``axis=None`` or ``axis='index'``. + +>>> df.cummin() + A B +0 2.0 1.0 +1 2.0 NaN +2 1.0 0.0 + +To iterate over columns and find the minimum in each row, +use ``axis=1`` + +>>> df.cummin(axis=1) + A B +0 2.0 1.0 +1 3.0 NaN +2 1.0 0.0 +""" + +_cumsum_examples = """\ +Examples +-------- +**Series** + +>>> s = pd.Series([2, np.nan, 5, -1, 0]) +>>> s +0 2.0 +1 NaN +2 5.0 +3 -1.0 +4 0.0 +dtype: float64 + +By default, NA values are ignored. + +>>> s.cumsum() +0 2.0 +1 NaN +2 7.0 +3 6.0 +4 6.0 +dtype: float64 + +To include NA values in the operation, use ``skipna=False`` + +>>> s.cumsum(skipna=False) +0 2.0 +1 NaN +2 NaN +3 NaN +4 NaN +dtype: float64 + +**DataFrame** + +>>> df = pd.DataFrame([[2.0, 1.0], +... [3.0, np.nan], +... [1.0, 0.0]], +... columns=list('AB')) +>>> df + A B +0 2.0 1.0 +1 3.0 NaN +2 1.0 0.0 + +By default, iterates over rows and finds the sum +in each column. This is equivalent to ``axis=None`` or ``axis='index'``. + +>>> df.cumsum() + A B +0 2.0 1.0 +1 5.0 NaN +2 6.0 1.0 + +To iterate over columns and find the sum in each row, +use ``axis=1`` + +>>> df.cumsum(axis=1) + A B +0 2.0 3.0 +1 3.0 NaN +2 1.0 1.0 +""" + +_cumprod_examples = """\ +Examples +-------- +**Series** + +>>> s = pd.Series([2, np.nan, 5, -1, 0]) +>>> s +0 2.0 +1 NaN +2 5.0 +3 -1.0 +4 0.0 +dtype: float64 + +By default, NA values are ignored. + +>>> s.cumprod() +0 2.0 +1 NaN +2 10.0 +3 -10.0 +4 -0.0 +dtype: float64 + +To include NA values in the operation, use ``skipna=False`` + +>>> s.cumprod(skipna=False) +0 2.0 +1 NaN +2 NaN +3 NaN +4 NaN +dtype: float64 + +**DataFrame** + +>>> df = pd.DataFrame([[2.0, 1.0], +... [3.0, np.nan], +... [1.0, 0.0]], +... columns=list('AB')) +>>> df + A B +0 2.0 1.0 +1 3.0 NaN +2 1.0 0.0 + +By default, iterates over rows and finds the product +in each column. This is equivalent to ``axis=None`` or ``axis='index'``. + +>>> df.cumprod() + A B +0 2.0 1.0 +1 6.0 NaN +2 6.0 0.0 + +To iterate over columns and find the product in each row, +use ``axis=1`` + +>>> df.cumprod(axis=1) + A B +0 2.0 2.0 +1 3.0 NaN +2 1.0 0.0 +""" + +_cummax_examples = """\ +Examples +-------- +**Series** + +>>> s = pd.Series([2, np.nan, 5, -1, 0]) +>>> s +0 2.0 +1 NaN +2 5.0 +3 -1.0 +4 0.0 +dtype: float64 + +By default, NA values are ignored. + +>>> s.cummax() +0 2.0 +1 NaN +2 5.0 +3 5.0 +4 5.0 +dtype: float64 + +To include NA values in the operation, use ``skipna=False`` + +>>> s.cummax(skipna=False) +0 2.0 +1 NaN +2 NaN +3 NaN +4 NaN +dtype: float64 + +**DataFrame** + +>>> df = pd.DataFrame([[2.0, 1.0], +... [3.0, np.nan], +... [1.0, 0.0]], +... columns=list('AB')) +>>> df + A B +0 2.0 1.0 +1 3.0 NaN +2 1.0 0.0 + +By default, iterates over rows and finds the maximum +in each column. This is equivalent to ``axis=None`` or ``axis='index'``. + +>>> df.cummax() + A B +0 2.0 1.0 +1 3.0 NaN +2 3.0 1.0 + +To iterate over columns and find the maximum in each row, +use ``axis=1`` + +>>> df.cummax(axis=1) + A B +0 2.0 2.0 +1 3.0 NaN +2 1.0 1.0 +""" + +_any_see_also = """\ +See Also +-------- +numpy.any : Numpy version of this method. +Series.any : Return whether any element is True. +Series.all : Return whether all elements are True. +DataFrame.any : Return whether any element is True over requested axis. +DataFrame.all : Return whether all elements are True over requested axis. +""" + +_any_desc = """\ +Return whether any element is True, potentially over an axis. + +Returns False unless there is at least one element within a series or +along a Dataframe axis that is True or equivalent (e.g. non-zero or +non-empty).""" + +_any_examples = """\ +Examples +-------- +**Series** + +For Series input, the output is a scalar indicating whether any element +is True. + +>>> pd.Series([False, False]).any() +False +>>> pd.Series([True, False]).any() +True +>>> pd.Series([], dtype="float64").any() +False +>>> pd.Series([np.nan]).any() +False +>>> pd.Series([np.nan]).any(skipna=False) +True + +**DataFrame** + +Whether each column contains at least one True element (the default). + +>>> df = pd.DataFrame({"A": [1, 2], "B": [0, 2], "C": [0, 0]}) +>>> df + A B C +0 1 0 0 +1 2 2 0 + +>>> df.any() +A True +B True +C False +dtype: bool + +Aggregating over the columns. + +>>> df = pd.DataFrame({"A": [True, False], "B": [1, 2]}) +>>> df + A B +0 True 1 +1 False 2 + +>>> df.any(axis='columns') +0 True +1 True +dtype: bool + +>>> df = pd.DataFrame({"A": [True, False], "B": [1, 0]}) +>>> df + A B +0 True 1 +1 False 0 + +>>> df.any(axis='columns') +0 True +1 False +dtype: bool + +Aggregating over the entire DataFrame with ``axis=None``. + +>>> df.any(axis=None) +True + +`any` for an empty DataFrame is an empty Series. + +>>> pd.DataFrame([]).any() +Series([], dtype: bool) +""" + +_shared_docs[ + "stat_func_example" +] = """ + +Examples +-------- +>>> idx = pd.MultiIndex.from_arrays([ +... ['warm', 'warm', 'cold', 'cold'], +... ['dog', 'falcon', 'fish', 'spider']], +... names=['blooded', 'animal']) +>>> s = pd.Series([4, 2, 0, 8], name='legs', index=idx) +>>> s +blooded animal +warm dog 4 + falcon 2 +cold fish 0 + spider 8 +Name: legs, dtype: int64 + +>>> s.{stat_func}() +{default_output}""" + +_sum_examples = _shared_docs["stat_func_example"].format( + stat_func="sum", verb="Sum", default_output=14, level_output_0=6, level_output_1=8 +) + +_sum_examples += """ + +By default, the sum of an empty or all-NA Series is ``0``. + +>>> pd.Series([], dtype="float64").sum() # min_count=0 is the default +0.0 + +This can be controlled with the ``min_count`` parameter. For example, if +you'd like the sum of an empty series to be NaN, pass ``min_count=1``. + +>>> pd.Series([], dtype="float64").sum(min_count=1) +nan + +Thanks to the ``skipna`` parameter, ``min_count`` handles all-NA and +empty series identically. + +>>> pd.Series([np.nan]).sum() +0.0 + +>>> pd.Series([np.nan]).sum(min_count=1) +nan""" + +_max_examples: str = _shared_docs["stat_func_example"].format( + stat_func="max", verb="Max", default_output=8, level_output_0=4, level_output_1=8 +) + +_min_examples: str = _shared_docs["stat_func_example"].format( + stat_func="min", verb="Min", default_output=0, level_output_0=2, level_output_1=0 +) + +_stat_func_see_also = """ + +See Also +-------- +Series.sum : Return the sum. +Series.min : Return the minimum. +Series.max : Return the maximum. +Series.idxmin : Return the index of the minimum. +Series.idxmax : Return the index of the maximum. +DataFrame.sum : Return the sum over the requested axis. +DataFrame.min : Return the minimum over the requested axis. +DataFrame.max : Return the maximum over the requested axis. +DataFrame.idxmin : Return the index of the minimum over the requested axis. +DataFrame.idxmax : Return the index of the maximum over the requested axis.""" + +_prod_examples = """ + +Examples +-------- +By default, the product of an empty or all-NA Series is ``1`` + +>>> pd.Series([], dtype="float64").prod() +1.0 + +This can be controlled with the ``min_count`` parameter + +>>> pd.Series([], dtype="float64").prod(min_count=1) +nan + +Thanks to the ``skipna`` parameter, ``min_count`` handles all-NA and +empty series identically. + +>>> pd.Series([np.nan]).prod() +1.0 + +>>> pd.Series([np.nan]).prod(min_count=1) +nan""" + +_min_count_stub = """\ +min_count : int, default 0 + The required number of valid values to perform the operation. If fewer than + ``min_count`` non-NA values are present the result will be NA. +""" + + +def make_doc(name: str, ndim: int) -> str: + """ + Generate the docstring for a Series/DataFrame reduction. + """ + if ndim == 1: + name1 = "scalar" + name2 = "Series" + axis_descr = "{index (0)}" + else: + name1 = "Series" + name2 = "DataFrame" + axis_descr = "{index (0), columns (1)}" + + if name == "any": + base_doc = _bool_doc + desc = _any_desc + see_also = _any_see_also + examples = _any_examples + kwargs = {"empty_value": "False"} + elif name == "all": + base_doc = _bool_doc + desc = _all_desc + see_also = _all_see_also + examples = _all_examples + kwargs = {"empty_value": "True"} + elif name == "min": + base_doc = _num_doc + desc = ( + "Return the minimum of the values over the requested axis.\n\n" + "If you want the *index* of the minimum, use ``idxmin``. This is " + "the equivalent of the ``numpy.ndarray`` method ``argmin``." + ) + see_also = _stat_func_see_also + examples = _min_examples + kwargs = {"min_count": ""} + elif name == "max": + base_doc = _num_doc + desc = ( + "Return the maximum of the values over the requested axis.\n\n" + "If you want the *index* of the maximum, use ``idxmax``. This is " + "the equivalent of the ``numpy.ndarray`` method ``argmax``." + ) + see_also = _stat_func_see_also + examples = _max_examples + kwargs = {"min_count": ""} + + elif name == "sum": + base_doc = _sum_prod_doc + desc = ( + "Return the sum of the values over the requested axis.\n\n" + "This is equivalent to the method ``numpy.sum``." + ) + see_also = _stat_func_see_also + examples = _sum_examples + kwargs = {"min_count": _min_count_stub} + + elif name == "prod": + base_doc = _sum_prod_doc + desc = "Return the product of the values over the requested axis." + see_also = _stat_func_see_also + examples = _prod_examples + kwargs = {"min_count": _min_count_stub} + + elif name == "median": + base_doc = _num_doc + desc = "Return the median of the values over the requested axis." + see_also = "" + examples = """ + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.median() + 2.0 + + With a DataFrame + + >>> df = pd.DataFrame({'a': [1, 2], 'b': [2, 3]}, index=['tiger', 'zebra']) + >>> df + a b + tiger 1 2 + zebra 2 3 + >>> df.median() + a 1.5 + b 2.5 + dtype: float64 + + Using axis=1 + + >>> df.median(axis=1) + tiger 1.5 + zebra 2.5 + dtype: float64 + + In this case, `numeric_only` should be set to `True` + to avoid getting an error. + + >>> df = pd.DataFrame({'a': [1, 2], 'b': ['T', 'Z']}, + ... index=['tiger', 'zebra']) + >>> df.median(numeric_only=True) + a 1.5 + dtype: float64""" + kwargs = {"min_count": ""} + + elif name == "mean": + base_doc = _num_doc + desc = "Return the mean of the values over the requested axis." + see_also = "" + examples = """ + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.mean() + 2.0 + + With a DataFrame + + >>> df = pd.DataFrame({'a': [1, 2], 'b': [2, 3]}, index=['tiger', 'zebra']) + >>> df + a b + tiger 1 2 + zebra 2 3 + >>> df.mean() + a 1.5 + b 2.5 + dtype: float64 + + Using axis=1 + + >>> df.mean(axis=1) + tiger 1.5 + zebra 2.5 + dtype: float64 + + In this case, `numeric_only` should be set to `True` to avoid + getting an error. + + >>> df = pd.DataFrame({'a': [1, 2], 'b': ['T', 'Z']}, + ... index=['tiger', 'zebra']) + >>> df.mean(numeric_only=True) + a 1.5 + dtype: float64""" + kwargs = {"min_count": ""} + + elif name == "var": + base_doc = _num_ddof_doc + desc = ( + "Return unbiased variance over requested axis.\n\nNormalized by " + "N-1 by default. This can be changed using the ddof argument." + ) + examples = _var_examples + see_also = "" + kwargs = {"notes": ""} + + elif name == "std": + base_doc = _num_ddof_doc + desc = ( + "Return sample standard deviation over requested axis." + "\n\nNormalized by N-1 by default. This can be changed using the " + "ddof argument." + ) + examples = _std_examples + see_also = "" + kwargs = {"notes": _std_notes} + + elif name == "sem": + base_doc = _num_ddof_doc + desc = ( + "Return unbiased standard error of the mean over requested " + "axis.\n\nNormalized by N-1 by default. This can be changed " + "using the ddof argument" + ) + examples = """ + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.sem().round(6) + 0.57735 + + With a DataFrame + + >>> df = pd.DataFrame({'a': [1, 2], 'b': [2, 3]}, index=['tiger', 'zebra']) + >>> df + a b + tiger 1 2 + zebra 2 3 + >>> df.sem() + a 0.5 + b 0.5 + dtype: float64 + + Using axis=1 + + >>> df.sem(axis=1) + tiger 0.5 + zebra 0.5 + dtype: float64 + + In this case, `numeric_only` should be set to `True` + to avoid getting an error. + + >>> df = pd.DataFrame({'a': [1, 2], 'b': ['T', 'Z']}, + ... index=['tiger', 'zebra']) + >>> df.sem(numeric_only=True) + a 0.5 + dtype: float64""" + see_also = "" + kwargs = {"notes": ""} + + elif name == "skew": + base_doc = _num_doc + desc = "Return unbiased skew over requested axis.\n\nNormalized by N-1." + see_also = "" + examples = """ + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.skew() + 0.0 + + With a DataFrame + + >>> df = pd.DataFrame({'a': [1, 2, 3], 'b': [2, 3, 4], 'c': [1, 3, 5]}, + ... index=['tiger', 'zebra', 'cow']) + >>> df + a b c + tiger 1 2 1 + zebra 2 3 3 + cow 3 4 5 + >>> df.skew() + a 0.0 + b 0.0 + c 0.0 + dtype: float64 + + Using axis=1 + + >>> df.skew(axis=1) + tiger 1.732051 + zebra -1.732051 + cow 0.000000 + dtype: float64 + + In this case, `numeric_only` should be set to `True` to avoid + getting an error. + + >>> df = pd.DataFrame({'a': [1, 2, 3], 'b': ['T', 'Z', 'X']}, + ... index=['tiger', 'zebra', 'cow']) + >>> df.skew(numeric_only=True) + a 0.0 + dtype: float64""" + kwargs = {"min_count": ""} + elif name == "kurt": + base_doc = _num_doc + desc = ( + "Return unbiased kurtosis over requested axis.\n\n" + "Kurtosis obtained using Fisher's definition of\n" + "kurtosis (kurtosis of normal == 0.0). Normalized " + "by N-1." + ) + see_also = "" + examples = """ + + Examples + -------- + >>> s = pd.Series([1, 2, 2, 3], index=['cat', 'dog', 'dog', 'mouse']) + >>> s + cat 1 + dog 2 + dog 2 + mouse 3 + dtype: int64 + >>> s.kurt() + 1.5 + + With a DataFrame + + >>> df = pd.DataFrame({'a': [1, 2, 2, 3], 'b': [3, 4, 4, 4]}, + ... index=['cat', 'dog', 'dog', 'mouse']) + >>> df + a b + cat 1 3 + dog 2 4 + dog 2 4 + mouse 3 4 + >>> df.kurt() + a 1.5 + b 4.0 + dtype: float64 + + With axis=None + + >>> df.kurt(axis=None).round(6) + -0.988693 + + Using axis=1 + + >>> df = pd.DataFrame({'a': [1, 2], 'b': [3, 4], 'c': [3, 4], 'd': [1, 2]}, + ... index=['cat', 'dog']) + >>> df.kurt(axis=1) + cat -6.0 + dog -6.0 + dtype: float64""" + kwargs = {"min_count": ""} + + elif name == "cumsum": + base_doc = _cnum_doc + desc = "sum" + see_also = "" + examples = _cumsum_examples + kwargs = {"accum_func_name": "sum"} + + elif name == "cumprod": + base_doc = _cnum_doc + desc = "product" + see_also = "" + examples = _cumprod_examples + kwargs = {"accum_func_name": "prod"} + + elif name == "cummin": + base_doc = _cnum_doc + desc = "minimum" + see_also = "" + examples = _cummin_examples + kwargs = {"accum_func_name": "min"} + + elif name == "cummax": + base_doc = _cnum_doc + desc = "maximum" + see_also = "" + examples = _cummax_examples + kwargs = {"accum_func_name": "max"} + + else: + raise NotImplementedError + + docstr = base_doc.format( + desc=desc, + name=name, + name1=name1, + name2=name2, + axis_descr=axis_descr, + see_also=see_also, + examples=examples, + **kwargs, + ) + return docstr diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..8248f378e2c1acea37bdc2d41065c591360b902a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__init__.py @@ -0,0 +1,15 @@ +from pandas.core.groupby.generic import ( + DataFrameGroupBy, + NamedAgg, + SeriesGroupBy, +) +from pandas.core.groupby.groupby import GroupBy +from pandas.core.groupby.grouper import Grouper + +__all__ = [ + "DataFrameGroupBy", + "NamedAgg", + "SeriesGroupBy", + "GroupBy", + "Grouper", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..dda952b205a85dae190f6f9ddafeea5ae79f24e1 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/__pycache__/__init__.cpython-310.pyc differ diff --git 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a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/base.py new file mode 100644 index 0000000000000000000000000000000000000000..a443597347283887deb9cbd3eafb5f6d3bb6d9a6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/base.py @@ -0,0 +1,121 @@ +""" +Provide basic components for groupby. +""" +from __future__ import annotations + +import dataclasses +from typing import TYPE_CHECKING + +if TYPE_CHECKING: + from collections.abc import Hashable + + +@dataclasses.dataclass(order=True, frozen=True) +class OutputKey: + label: Hashable + position: int + + +# special case to prevent duplicate plots when catching exceptions when +# forwarding methods from NDFrames +plotting_methods = frozenset(["plot", "hist"]) + +# cythonized transformations or canned "agg+broadcast", which do not +# require postprocessing of the result by transform. +cythonized_kernels = frozenset(["cumprod", "cumsum", "shift", "cummin", "cummax"]) + +# List of aggregation/reduction functions. +# These map each group to a single numeric value +reduction_kernels = frozenset( + [ + "all", + "any", + "corrwith", + "count", + "first", + "idxmax", + "idxmin", + "last", + "max", + "mean", + "median", + "min", + "nunique", + "prod", + # as long as `quantile`'s signature accepts only + # a single quantile value, it's a reduction. + # GH#27526 might change that. + "quantile", + "sem", + "size", + "skew", + "std", + "sum", + "var", + ] +) + +# List of transformation functions. +# a transformation is a function that, for each group, +# produces a result that has the same shape as the group. + + +transformation_kernels = frozenset( + [ + "bfill", + "cumcount", + "cummax", + "cummin", + "cumprod", + "cumsum", + "diff", + "ffill", + "fillna", + "ngroup", + "pct_change", + "rank", + "shift", + ] +) + +# these are all the public methods on Grouper which don't belong +# in either of the above lists +groupby_other_methods = frozenset( + [ + "agg", + "aggregate", + "apply", + "boxplot", + # corr and cov return ngroups*ncolumns rows, so they + # are neither a transformation nor a reduction + "corr", + "cov", + "describe", + "dtypes", + "expanding", + "ewm", + "filter", + "get_group", + "groups", + "head", + "hist", + "indices", + "ndim", + "ngroups", + "nth", + "ohlc", + "pipe", + "plot", + "resample", + "rolling", + "tail", + "take", + "transform", + "sample", + "value_counts", + ] +) +# Valid values of `name` for `groupby.transform(name)` +# NOTE: do NOT edit this directly. New additions should be inserted +# into the appropriate list above. +transform_kernel_allowlist = reduction_kernels | transformation_kernels diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..6ab98cf4fe55e9b064db99e61d1245cb83b63dc1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/categorical.py @@ -0,0 +1,87 @@ +from __future__ import annotations + +import numpy as np + +from pandas.core.algorithms import unique1d +from pandas.core.arrays.categorical import ( + Categorical, + CategoricalDtype, + recode_for_categories, +) + + +def recode_for_groupby( + c: Categorical, sort: bool, observed: bool +) -> tuple[Categorical, Categorical | None]: + """ + Code the categories to ensure we can groupby for categoricals. + + If observed=True, we return a new Categorical with the observed + categories only. + + If sort=False, return a copy of self, coded with categories as + returned by .unique(), followed by any categories not appearing in + the data. If sort=True, return self. + + This method is needed solely to ensure the categorical index of the + GroupBy result has categories in the order of appearance in the data + (GH-8868). + + Parameters + ---------- + c : Categorical + sort : bool + The value of the sort parameter groupby was called with. + observed : bool + Account only for the observed values + + Returns + ------- + Categorical + If sort=False, the new categories are set to the order of + appearance in codes (unless ordered=True, in which case the + original order is preserved), followed by any unrepresented + categories in the original order. + Categorical or None + If we are observed, return the original categorical, otherwise None + """ + # we only care about observed values + if observed: + # In cases with c.ordered, this is equivalent to + # return c.remove_unused_categories(), c + + unique_codes = unique1d(c.codes) + + take_codes = unique_codes[unique_codes != -1] + if sort: + take_codes = np.sort(take_codes) + + # we recode according to the uniques + categories = c.categories.take(take_codes) + codes = recode_for_categories(c.codes, c.categories, categories) + + # return a new categorical that maps our new codes + # and categories + dtype = CategoricalDtype(categories, ordered=c.ordered) + return Categorical._simple_new(codes, dtype=dtype), c + + # Already sorted according to c.categories; all is fine + if sort: + return c, None + + # sort=False should order groups in as-encountered order (GH-8868) + + # xref GH:46909: Re-ordering codes faster than using (set|add|reorder)_categories + all_codes = np.arange(c.categories.nunique()) + # GH 38140: exclude nan from indexer for categories + unique_notnan_codes = unique1d(c.codes[c.codes != -1]) + if sort: + unique_notnan_codes = np.sort(unique_notnan_codes) + if len(all_codes) > len(unique_notnan_codes): + # GH 13179: All categories need to be present, even if missing from the data + missing_codes = np.setdiff1d(all_codes, unique_notnan_codes, assume_unique=True) + take_codes = np.concatenate((unique_notnan_codes, missing_codes)) + else: + take_codes = unique_notnan_codes + + return Categorical(c, c.unique().categories.take(take_codes)), None diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/generic.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/generic.py new file mode 100644 index 0000000000000000000000000000000000000000..f2e314046fb749e7d32bf7fc76ca22eb1194a328 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/generic.py @@ -0,0 +1,2852 @@ +""" +Define the SeriesGroupBy and DataFrameGroupBy +classes that hold the groupby interfaces (and some implementations). + +These are user facing as the result of the ``df.groupby(...)`` operations, +which here returns a DataFrameGroupBy object. +""" +from __future__ import annotations + +from collections import abc +from functools import partial +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + NamedTuple, + TypeVar, + Union, + cast, +) +import warnings + +import numpy as np + +from pandas._libs import ( + Interval, + lib, +) +from pandas._libs.hashtable import duplicated +from pandas.errors import SpecificationError +from pandas.util._decorators import ( + Appender, + Substitution, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + ensure_int64, + is_bool, + is_dict_like, + is_integer_dtype, + is_list_like, + is_numeric_dtype, + is_scalar, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + IntervalDtype, +) +from pandas.core.dtypes.inference import is_hashable +from pandas.core.dtypes.missing import ( + isna, + notna, +) + +from pandas.core import algorithms +from pandas.core.apply import ( + GroupByApply, + maybe_mangle_lambdas, + reconstruct_func, + validate_func_kwargs, + warn_alias_replacement, +) +import pandas.core.common as com +from pandas.core.frame import DataFrame +from pandas.core.groupby import ( + base, + ops, +) +from pandas.core.groupby.groupby import ( + GroupBy, + GroupByPlot, + _agg_template_frame, + _agg_template_series, + _apply_docs, + _transform_template, +) +from pandas.core.indexes.api import ( + Index, + MultiIndex, + all_indexes_same, + default_index, +) +from pandas.core.series import Series +from pandas.core.sorting import get_group_index +from pandas.core.util.numba_ import maybe_use_numba + +from pandas.plotting import boxplot_frame_groupby + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Mapping, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + Axis, + AxisInt, + CorrelationMethod, + FillnaOptions, + IndexLabel, + Manager, + Manager2D, + SingleManager, + TakeIndexer, + ) + + from pandas import Categorical + from pandas.core.generic import NDFrame + +# TODO(typing) the return value on this callable should be any *scalar*. +AggScalar = Union[str, Callable[..., Any]] +# TODO: validate types on ScalarResult and move to _typing +# Blocked from using by https://github.com/python/mypy/issues/1484 +# See note at _mangle_lambda_list +ScalarResult = TypeVar("ScalarResult") + + +class NamedAgg(NamedTuple): + """ + Helper for column specific aggregation with control over output column names. + + Subclass of typing.NamedTuple. + + Parameters + ---------- + column : Hashable + Column label in the DataFrame to apply aggfunc. + aggfunc : function or str + Function to apply to the provided column. If string, the name of a built-in + pandas function. + + Examples + -------- + >>> df = pd.DataFrame({"key": [1, 1, 2], "a": [-1, 0, 1], 1: [10, 11, 12]}) + >>> agg_a = pd.NamedAgg(column="a", aggfunc="min") + >>> agg_1 = pd.NamedAgg(column=1, aggfunc=lambda x: np.mean(x)) + >>> df.groupby("key").agg(result_a=agg_a, result_1=agg_1) + result_a result_1 + key + 1 -1 10.5 + 2 1 12.0 + """ + + column: Hashable + aggfunc: AggScalar + + +class SeriesGroupBy(GroupBy[Series]): + def _wrap_agged_manager(self, mgr: Manager) -> Series: + out = self.obj._constructor_from_mgr(mgr, axes=mgr.axes) + out._name = self.obj.name + return out + + def _get_data_to_aggregate( + self, *, numeric_only: bool = False, name: str | None = None + ) -> SingleManager: + ser = self._obj_with_exclusions + single = ser._mgr + if numeric_only and not is_numeric_dtype(ser.dtype): + # GH#41291 match Series behavior + kwd_name = "numeric_only" + raise TypeError( + f"Cannot use {kwd_name}=True with " + f"{type(self).__name__}.{name} and non-numeric dtypes." + ) + return single + + _agg_examples_doc = dedent( + """ + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + + >>> s + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + + >>> s.groupby([1, 1, 2, 2]).min() + 1 1 + 2 3 + dtype: int64 + + >>> s.groupby([1, 1, 2, 2]).agg('min') + 1 1 + 2 3 + dtype: int64 + + >>> s.groupby([1, 1, 2, 2]).agg(['min', 'max']) + min max + 1 1 2 + 2 3 4 + + The output column names can be controlled by passing + the desired column names and aggregations as keyword arguments. + + >>> s.groupby([1, 1, 2, 2]).agg( + ... minimum='min', + ... maximum='max', + ... ) + minimum maximum + 1 1 2 + 2 3 4 + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the aggregating function. + + >>> s.groupby([1, 1, 2, 2]).agg(lambda x: x.astype(float).min()) + 1 1.0 + 2 3.0 + dtype: float64 + """ + ) + + @Appender( + _apply_docs["template"].format( + input="series", examples=_apply_docs["series_examples"] + ) + ) + def apply(self, func, *args, **kwargs) -> Series: + return super().apply(func, *args, **kwargs) + + @doc(_agg_template_series, examples=_agg_examples_doc, klass="Series") + def aggregate(self, func=None, *args, engine=None, engine_kwargs=None, **kwargs): + relabeling = func is None + columns = None + if relabeling: + columns, func = validate_func_kwargs(kwargs) + kwargs = {} + + if isinstance(func, str): + if maybe_use_numba(engine) and engine is not None: + # Not all agg functions support numba, only propagate numba kwargs + # if user asks for numba, and engine is not None + # (if engine is None, the called function will handle the case where + # numba is requested via the global option) + kwargs["engine"] = engine + if engine_kwargs is not None: + kwargs["engine_kwargs"] = engine_kwargs + return getattr(self, func)(*args, **kwargs) + + elif isinstance(func, abc.Iterable): + # Catch instances of lists / tuples + # but not the class list / tuple itself. + func = maybe_mangle_lambdas(func) + kwargs["engine"] = engine + kwargs["engine_kwargs"] = engine_kwargs + ret = self._aggregate_multiple_funcs(func, *args, **kwargs) + if relabeling: + # columns is not narrowed by mypy from relabeling flag + assert columns is not None # for mypy + ret.columns = columns + if not self.as_index: + ret = ret.reset_index() + return ret + + else: + cyfunc = com.get_cython_func(func) + if cyfunc and not args and not kwargs: + warn_alias_replacement(self, func, cyfunc) + return getattr(self, cyfunc)() + + if maybe_use_numba(engine): + return self._aggregate_with_numba( + func, *args, engine_kwargs=engine_kwargs, **kwargs + ) + + if self.ngroups == 0: + # e.g. test_evaluate_with_empty_groups without any groups to + # iterate over, we have no output on which to do dtype + # inference. We default to using the existing dtype. + # xref GH#51445 + obj = self._obj_with_exclusions + return self.obj._constructor( + [], + name=self.obj.name, + index=self._grouper.result_index, + dtype=obj.dtype, + ) + + if self._grouper.nkeys > 1: + return self._python_agg_general(func, *args, **kwargs) + + try: + return self._python_agg_general(func, *args, **kwargs) + except KeyError: + # KeyError raised in test_groupby.test_basic is bc the func does + # a dictionary lookup on group.name, but group name is not + # pinned in _python_agg_general, only in _aggregate_named + result = self._aggregate_named(func, *args, **kwargs) + + warnings.warn( + "Pinning the groupby key to each group in " + f"{type(self).__name__}.agg is deprecated, and cases that " + "relied on it will raise in a future version. " + "If your operation requires utilizing the groupby keys, " + "iterate over the groupby object instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + # result is a dict whose keys are the elements of result_index + result = Series(result, index=self._grouper.result_index) + result = self._wrap_aggregated_output(result) + return result + + agg = aggregate + + def _python_agg_general(self, func, *args, **kwargs): + orig_func = func + func = com.is_builtin_func(func) + if orig_func != func: + alias = com._builtin_table_alias[func] + warn_alias_replacement(self, orig_func, alias) + f = lambda x: func(x, *args, **kwargs) + + obj = self._obj_with_exclusions + result = self._grouper.agg_series(obj, f) + res = obj._constructor(result, name=obj.name) + return self._wrap_aggregated_output(res) + + def _aggregate_multiple_funcs(self, arg, *args, **kwargs) -> DataFrame: + if isinstance(arg, dict): + if self.as_index: + # GH 15931 + raise SpecificationError("nested renamer is not supported") + else: + # GH#50684 - This accidentally worked in 1.x + msg = ( + "Passing a dictionary to SeriesGroupBy.agg is deprecated " + "and will raise in a future version of pandas. Pass a list " + "of aggregations instead." + ) + warnings.warn( + message=msg, + category=FutureWarning, + stacklevel=find_stack_level(), + ) + arg = list(arg.items()) + elif any(isinstance(x, (tuple, list)) for x in arg): + arg = [(x, x) if not isinstance(x, (tuple, list)) else x for x in arg] + else: + # list of functions / function names + columns = (com.get_callable_name(f) or f for f in arg) + arg = zip(columns, arg) + + results: dict[base.OutputKey, DataFrame | Series] = {} + with com.temp_setattr(self, "as_index", True): + # Combine results using the index, need to adjust index after + # if as_index=False (GH#50724) + for idx, (name, func) in enumerate(arg): + key = base.OutputKey(label=name, position=idx) + results[key] = self.aggregate(func, *args, **kwargs) + + if any(isinstance(x, DataFrame) for x in results.values()): + from pandas import concat + + res_df = concat( + results.values(), axis=1, keys=[key.label for key in results] + ) + return res_df + + indexed_output = {key.position: val for key, val in results.items()} + output = self.obj._constructor_expanddim(indexed_output, index=None) + output.columns = Index(key.label for key in results) + + return output + + def _wrap_applied_output( + self, + data: Series, + values: list[Any], + not_indexed_same: bool = False, + is_transform: bool = False, + ) -> DataFrame | Series: + """ + Wrap the output of SeriesGroupBy.apply into the expected result. + + Parameters + ---------- + data : Series + Input data for groupby operation. + values : List[Any] + Applied output for each group. + not_indexed_same : bool, default False + Whether the applied outputs are not indexed the same as the group axes. + + Returns + ------- + DataFrame or Series + """ + if len(values) == 0: + # GH #6265 + if is_transform: + # GH#47787 see test_group_on_empty_multiindex + res_index = data.index + else: + res_index = self._grouper.result_index + + return self.obj._constructor( + [], + name=self.obj.name, + index=res_index, + dtype=data.dtype, + ) + assert values is not None + + if isinstance(values[0], dict): + # GH #823 #24880 + index = self._grouper.result_index + res_df = self.obj._constructor_expanddim(values, index=index) + res_df = self._reindex_output(res_df) + # if self.observed is False, + # keep all-NaN rows created while re-indexing + res_ser = res_df.stack(future_stack=True) + res_ser.name = self.obj.name + return res_ser + elif isinstance(values[0], (Series, DataFrame)): + result = self._concat_objects( + values, + not_indexed_same=not_indexed_same, + is_transform=is_transform, + ) + if isinstance(result, Series): + result.name = self.obj.name + if not self.as_index and not_indexed_same: + result = self._insert_inaxis_grouper(result) + result.index = default_index(len(result)) + return result + else: + # GH #6265 #24880 + result = self.obj._constructor( + data=values, index=self._grouper.result_index, name=self.obj.name + ) + if not self.as_index: + result = self._insert_inaxis_grouper(result) + result.index = default_index(len(result)) + return self._reindex_output(result) + + def _aggregate_named(self, func, *args, **kwargs): + # Note: this is very similar to _aggregate_series_pure_python, + # but that does not pin group.name + result = {} + initialized = False + + for name, group in self._grouper.get_iterator( + self._obj_with_exclusions, axis=self.axis + ): + # needed for pandas/tests/groupby/test_groupby.py::test_basic_aggregations + object.__setattr__(group, "name", name) + + output = func(group, *args, **kwargs) + output = ops.extract_result(output) + if not initialized: + # We only do this validation on the first iteration + ops.check_result_array(output, group.dtype) + initialized = True + result[name] = output + + return result + + __examples_series_doc = dedent( + """ + >>> ser = pd.Series([390.0, 350.0, 30.0, 20.0], + ... index=["Falcon", "Falcon", "Parrot", "Parrot"], + ... name="Max Speed") + >>> grouped = ser.groupby([1, 1, 2, 2]) + >>> grouped.transform(lambda x: (x - x.mean()) / x.std()) + Falcon 0.707107 + Falcon -0.707107 + Parrot 0.707107 + Parrot -0.707107 + Name: Max Speed, dtype: float64 + + Broadcast result of the transformation + + >>> grouped.transform(lambda x: x.max() - x.min()) + Falcon 40.0 + Falcon 40.0 + Parrot 10.0 + Parrot 10.0 + Name: Max Speed, dtype: float64 + + >>> grouped.transform("mean") + Falcon 370.0 + Falcon 370.0 + Parrot 25.0 + Parrot 25.0 + Name: Max Speed, dtype: float64 + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + for example: + + >>> grouped.transform(lambda x: x.astype(int).max()) + Falcon 390 + Falcon 390 + Parrot 30 + Parrot 30 + Name: Max Speed, dtype: int64 + """ + ) + + @Substitution(klass="Series", example=__examples_series_doc) + @Appender(_transform_template) + def transform(self, func, *args, engine=None, engine_kwargs=None, **kwargs): + return self._transform( + func, *args, engine=engine, engine_kwargs=engine_kwargs, **kwargs + ) + + def _cython_transform( + self, how: str, numeric_only: bool = False, axis: AxisInt = 0, **kwargs + ): + assert axis == 0 # handled by caller + + obj = self._obj_with_exclusions + + try: + result = self._grouper._cython_operation( + "transform", obj._values, how, axis, **kwargs + ) + except NotImplementedError as err: + # e.g. test_groupby_raises_string + raise TypeError(f"{how} is not supported for {obj.dtype} dtype") from err + + return obj._constructor(result, index=self.obj.index, name=obj.name) + + def _transform_general( + self, func: Callable, engine, engine_kwargs, *args, **kwargs + ) -> Series: + """ + Transform with a callable `func`. + """ + if maybe_use_numba(engine): + return self._transform_with_numba( + func, *args, engine_kwargs=engine_kwargs, **kwargs + ) + assert callable(func) + klass = type(self.obj) + + results = [] + for name, group in self._grouper.get_iterator( + self._obj_with_exclusions, axis=self.axis + ): + # this setattr is needed for test_transform_lambda_with_datetimetz + object.__setattr__(group, "name", name) + res = func(group, *args, **kwargs) + + results.append(klass(res, index=group.index)) + + # check for empty "results" to avoid concat ValueError + if results: + from pandas.core.reshape.concat import concat + + concatenated = concat(results) + result = self._set_result_index_ordered(concatenated) + else: + result = self.obj._constructor(dtype=np.float64) + + result.name = self.obj.name + return result + + def filter(self, func, dropna: bool = True, *args, **kwargs): + """ + Filter elements from groups that don't satisfy a criterion. + + Elements from groups are filtered if they do not satisfy the + boolean criterion specified by func. + + Parameters + ---------- + func : function + Criterion to apply to each group. Should return True or False. + dropna : bool + Drop groups that do not pass the filter. True by default; if False, + groups that evaluate False are filled with NaNs. + + Returns + ------- + Series + + Notes + ----- + Functions that mutate the passed object can produce unexpected + behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` + for more details. + + Examples + -------- + >>> df = pd.DataFrame({'A' : ['foo', 'bar', 'foo', 'bar', + ... 'foo', 'bar'], + ... 'B' : [1, 2, 3, 4, 5, 6], + ... 'C' : [2.0, 5., 8., 1., 2., 9.]}) + >>> grouped = df.groupby('A') + >>> df.groupby('A').B.filter(lambda x: x.mean() > 3.) + 1 2 + 3 4 + 5 6 + Name: B, dtype: int64 + """ + if isinstance(func, str): + wrapper = lambda x: getattr(x, func)(*args, **kwargs) + else: + wrapper = lambda x: func(x, *args, **kwargs) + + # Interpret np.nan as False. + def true_and_notna(x) -> bool: + b = wrapper(x) + return notna(b) and b + + try: + indices = [ + self._get_index(name) + for name, group in self._grouper.get_iterator( + self._obj_with_exclusions, axis=self.axis + ) + if true_and_notna(group) + ] + except (ValueError, TypeError) as err: + raise TypeError("the filter must return a boolean result") from err + + filtered = self._apply_filter(indices, dropna) + return filtered + + def nunique(self, dropna: bool = True) -> Series | DataFrame: + """ + Return number of unique elements in the group. + + Returns + ------- + Series + Number of unique values within each group. + + Examples + -------- + For SeriesGroupby: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 3 + dtype: int64 + >>> ser.groupby(level=0).nunique() + a 2 + b 1 + dtype: int64 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 3], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 3 + dtype: int64 + >>> ser.resample('MS').nunique() + 2023-01-01 2 + 2023-02-01 1 + Freq: MS, dtype: int64 + """ + ids, _, ngroups = self._grouper.group_info + val = self.obj._values + codes, uniques = algorithms.factorize(val, use_na_sentinel=dropna, sort=False) + + if self._grouper.has_dropped_na: + mask = ids >= 0 + ids = ids[mask] + codes = codes[mask] + + group_index = get_group_index( + labels=[ids, codes], + shape=(ngroups, len(uniques)), + sort=False, + xnull=dropna, + ) + + if dropna: + mask = group_index >= 0 + if (~mask).any(): + ids = ids[mask] + group_index = group_index[mask] + + mask = duplicated(group_index, "first") + res = np.bincount(ids[~mask], minlength=ngroups) + res = ensure_int64(res) + + ri = self._grouper.result_index + result: Series | DataFrame = self.obj._constructor( + res, index=ri, name=self.obj.name + ) + if not self.as_index: + result = self._insert_inaxis_grouper(result) + result.index = default_index(len(result)) + return self._reindex_output(result, fill_value=0) + + @doc(Series.describe) + def describe(self, percentiles=None, include=None, exclude=None) -> Series: + return super().describe( + percentiles=percentiles, include=include, exclude=exclude + ) + + def value_counts( + self, + normalize: bool = False, + sort: bool = True, + ascending: bool = False, + bins=None, + dropna: bool = True, + ) -> Series | DataFrame: + name = "proportion" if normalize else "count" + + if bins is None: + result = self._value_counts( + normalize=normalize, sort=sort, ascending=ascending, dropna=dropna + ) + result.name = name + return result + + from pandas.core.reshape.merge import get_join_indexers + from pandas.core.reshape.tile import cut + + ids, _, _ = self._grouper.group_info + val = self.obj._values + + index_names = self._grouper.names + [self.obj.name] + + if isinstance(val.dtype, CategoricalDtype) or ( + bins is not None and not np.iterable(bins) + ): + # scalar bins cannot be done at top level + # in a backward compatible way + # GH38672 relates to categorical dtype + ser = self.apply( + Series.value_counts, + normalize=normalize, + sort=sort, + ascending=ascending, + bins=bins, + ) + ser.name = name + ser.index.names = index_names + return ser + + # groupby removes null keys from groupings + mask = ids != -1 + ids, val = ids[mask], val[mask] + + lab: Index | np.ndarray + if bins is None: + lab, lev = algorithms.factorize(val, sort=True) + llab = lambda lab, inc: lab[inc] + else: + # lab is a Categorical with categories an IntervalIndex + cat_ser = cut(Series(val, copy=False), bins, include_lowest=True) + cat_obj = cast("Categorical", cat_ser._values) + lev = cat_obj.categories + lab = lev.take( + cat_obj.codes, + allow_fill=True, + fill_value=lev._na_value, + ) + llab = lambda lab, inc: lab[inc]._multiindex.codes[-1] + + if isinstance(lab.dtype, IntervalDtype): + # TODO: should we do this inside II? + lab_interval = cast(Interval, lab) + + sorter = np.lexsort((lab_interval.left, lab_interval.right, ids)) + else: + sorter = np.lexsort((lab, ids)) + + ids, lab = ids[sorter], lab[sorter] + + # group boundaries are where group ids change + idchanges = 1 + np.nonzero(ids[1:] != ids[:-1])[0] + idx = np.r_[0, idchanges] + if not len(ids): + idx = idchanges + + # new values are where sorted labels change + lchanges = llab(lab, slice(1, None)) != llab(lab, slice(None, -1)) + inc = np.r_[True, lchanges] + if not len(val): + inc = lchanges + inc[idx] = True # group boundaries are also new values + out = np.diff(np.nonzero(np.r_[inc, True])[0]) # value counts + + # num. of times each group should be repeated + rep = partial(np.repeat, repeats=np.add.reduceat(inc, idx)) + + # multi-index components + codes = self._grouper.reconstructed_codes + codes = [rep(level_codes) for level_codes in codes] + [llab(lab, inc)] + levels = [ping._group_index for ping in self._grouper.groupings] + [lev] + + if dropna: + mask = codes[-1] != -1 + if mask.all(): + dropna = False + else: + out, codes = out[mask], [level_codes[mask] for level_codes in codes] + + if normalize: + out = out.astype("float") + d = np.diff(np.r_[idx, len(ids)]) + if dropna: + m = ids[lab == -1] + np.add.at(d, m, -1) + acc = rep(d)[mask] + else: + acc = rep(d) + out /= acc + + if sort and bins is None: + cat = ids[inc][mask] if dropna else ids[inc] + sorter = np.lexsort((out if ascending else -out, cat)) + out, codes[-1] = out[sorter], codes[-1][sorter] + + if bins is not None: + # for compat. with libgroupby.value_counts need to ensure every + # bin is present at every index level, null filled with zeros + diff = np.zeros(len(out), dtype="bool") + for level_codes in codes[:-1]: + diff |= np.r_[True, level_codes[1:] != level_codes[:-1]] + + ncat, nbin = diff.sum(), len(levels[-1]) + + left = [np.repeat(np.arange(ncat), nbin), np.tile(np.arange(nbin), ncat)] + + right = [diff.cumsum() - 1, codes[-1]] + + # error: Argument 1 to "get_join_indexers" has incompatible type + # "List[ndarray[Any, Any]]"; expected "List[Union[Union[ExtensionArray, + # ndarray[Any, Any]], Index, Series]] + _, idx = get_join_indexers( + left, right, sort=False, how="left" # type: ignore[arg-type] + ) + if idx is not None: + out = np.where(idx != -1, out[idx], 0) + + if sort: + sorter = np.lexsort((out if ascending else -out, left[0])) + out, left[-1] = out[sorter], left[-1][sorter] + + # build the multi-index w/ full levels + def build_codes(lev_codes: np.ndarray) -> np.ndarray: + return np.repeat(lev_codes[diff], nbin) + + codes = [build_codes(lev_codes) for lev_codes in codes[:-1]] + codes.append(left[-1]) + + mi = MultiIndex( + levels=levels, codes=codes, names=index_names, verify_integrity=False + ) + + if is_integer_dtype(out.dtype): + out = ensure_int64(out) + result = self.obj._constructor(out, index=mi, name=name) + if not self.as_index: + result = result.reset_index() + return result + + def fillna( + self, + value: object | ArrayLike | None = None, + method: FillnaOptions | None = None, + axis: Axis | None | lib.NoDefault = lib.no_default, + inplace: bool = False, + limit: int | None = None, + downcast: dict | None | lib.NoDefault = lib.no_default, + ) -> Series | None: + """ + Fill NA/NaN values using the specified method within groups. + + .. deprecated:: 2.2.0 + This method is deprecated and will be removed in a future version. + Use the :meth:`.SeriesGroupBy.ffill` or :meth:`.SeriesGroupBy.bfill` + for forward or backward filling instead. If you want to fill with a + single value, use :meth:`Series.fillna` instead. + + Parameters + ---------- + value : scalar, dict, Series, or DataFrame + Value to use to fill holes (e.g. 0), alternately a + dict/Series/DataFrame of values specifying which value to use for + each index (for a Series) or column (for a DataFrame). Values not + in the dict/Series/DataFrame will not be filled. This value cannot + be a list. Users wanting to use the ``value`` argument and not ``method`` + should prefer :meth:`.Series.fillna` as this + will produce the same result and be more performant. + method : {{'bfill', 'ffill', None}}, default None + Method to use for filling holes. ``'ffill'`` will propagate + the last valid observation forward within a group. + ``'bfill'`` will use next valid observation to fill the gap. + axis : {0 or 'index', 1 or 'columns'} + Unused, only for compatibility with :meth:`DataFrameGroupBy.fillna`. + inplace : bool, default False + Broken. Do not set to True. + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill within a group. In other words, + if there is a gap with more than this number of consecutive NaNs, + it will only be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + Returns + ------- + Series + Object with missing values filled within groups. + + See Also + -------- + ffill : Forward fill values within a group. + bfill : Backward fill values within a group. + + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['cat', 'cat', 'cat', 'mouse', 'mouse'] + >>> ser = pd.Series([1, None, None, 2, None], index=lst) + >>> ser + cat 1.0 + cat NaN + cat NaN + mouse 2.0 + mouse NaN + dtype: float64 + >>> ser.groupby(level=0).fillna(0, limit=1) + cat 1.0 + cat 0.0 + cat NaN + mouse 2.0 + mouse 0.0 + dtype: float64 + """ + warnings.warn( + f"{type(self).__name__}.fillna is deprecated and " + "will be removed in a future version. Use obj.ffill() or obj.bfill() " + "for forward or backward filling instead. If you want to fill with a " + f"single value, use {type(self.obj).__name__}.fillna instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + result = self._op_via_apply( + "fillna", + value=value, + method=method, + axis=axis, + inplace=inplace, + limit=limit, + downcast=downcast, + ) + return result + + def take( + self, + indices: TakeIndexer, + axis: Axis | lib.NoDefault = lib.no_default, + **kwargs, + ) -> Series: + """ + Return the elements in the given *positional* indices in each group. + + This means that we are not indexing according to actual values in + the index attribute of the object. We are indexing according to the + actual position of the element in the object. + + If a requested index does not exist for some group, this method will raise. + To get similar behavior that ignores indices that don't exist, see + :meth:`.SeriesGroupBy.nth`. + + Parameters + ---------- + indices : array-like + An array of ints indicating which positions to take in each group. + axis : {0 or 'index', 1 or 'columns', None}, default 0 + The axis on which to select elements. ``0`` means that we are + selecting rows, ``1`` means that we are selecting columns. + For `SeriesGroupBy` this parameter is unused and defaults to 0. + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + **kwargs + For compatibility with :meth:`numpy.take`. Has no effect on the + output. + + Returns + ------- + Series + A Series containing the elements taken from each group. + + See Also + -------- + Series.take : Take elements from a Series along an axis. + Series.loc : Select a subset of a DataFrame by labels. + Series.iloc : Select a subset of a DataFrame by positions. + numpy.take : Take elements from an array along an axis. + SeriesGroupBy.nth : Similar to take, won't raise if indices don't exist. + + Examples + -------- + >>> df = pd.DataFrame([('falcon', 'bird', 389.0), + ... ('parrot', 'bird', 24.0), + ... ('lion', 'mammal', 80.5), + ... ('monkey', 'mammal', np.nan), + ... ('rabbit', 'mammal', 15.0)], + ... columns=['name', 'class', 'max_speed'], + ... index=[4, 3, 2, 1, 0]) + >>> df + name class max_speed + 4 falcon bird 389.0 + 3 parrot bird 24.0 + 2 lion mammal 80.5 + 1 monkey mammal NaN + 0 rabbit mammal 15.0 + >>> gb = df["name"].groupby([1, 1, 2, 2, 2]) + + Take elements at positions 0 and 1 along the axis 0 in each group (default). + + >>> gb.take([0, 1]) + 1 4 falcon + 3 parrot + 2 2 lion + 1 monkey + Name: name, dtype: object + + We may take elements using negative integers for positive indices, + starting from the end of the object, just like with Python lists. + + >>> gb.take([-1, -2]) + 1 3 parrot + 4 falcon + 2 0 rabbit + 1 monkey + Name: name, dtype: object + """ + result = self._op_via_apply("take", indices=indices, axis=axis, **kwargs) + return result + + def skew( + self, + axis: Axis | lib.NoDefault = lib.no_default, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ) -> Series: + """ + Return unbiased skew within groups. + + Normalized by N-1. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns', None}, default 0 + Axis for the function to be applied on. + This parameter is only for compatibility with DataFrame and is unused. + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + skipna : bool, default True + Exclude NA/null values when computing the result. + + numeric_only : bool, default False + Include only float, int, boolean columns. Not implemented for Series. + + **kwargs + Additional keyword arguments to be passed to the function. + + Returns + ------- + Series + + See Also + -------- + Series.skew : Return unbiased skew over requested axis. + + Examples + -------- + >>> ser = pd.Series([390., 350., 357., np.nan, 22., 20., 30.], + ... index=['Falcon', 'Falcon', 'Falcon', 'Falcon', + ... 'Parrot', 'Parrot', 'Parrot'], + ... name="Max Speed") + >>> ser + Falcon 390.0 + Falcon 350.0 + Falcon 357.0 + Falcon NaN + Parrot 22.0 + Parrot 20.0 + Parrot 30.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(level=0).skew() + Falcon 1.525174 + Parrot 1.457863 + Name: Max Speed, dtype: float64 + >>> ser.groupby(level=0).skew(skipna=False) + Falcon NaN + Parrot 1.457863 + Name: Max Speed, dtype: float64 + """ + if axis is lib.no_default: + axis = 0 + + if axis != 0: + result = self._op_via_apply( + "skew", + axis=axis, + skipna=skipna, + numeric_only=numeric_only, + **kwargs, + ) + return result + + def alt(obj): + # This should not be reached since the cython path should raise + # TypeError and not NotImplementedError. + raise TypeError(f"'skew' is not supported for dtype={obj.dtype}") + + return self._cython_agg_general( + "skew", alt=alt, skipna=skipna, numeric_only=numeric_only, **kwargs + ) + + @property + @doc(Series.plot.__doc__) + def plot(self) -> GroupByPlot: + result = GroupByPlot(self) + return result + + @doc(Series.nlargest.__doc__) + def nlargest( + self, n: int = 5, keep: Literal["first", "last", "all"] = "first" + ) -> Series: + f = partial(Series.nlargest, n=n, keep=keep) + data = self._obj_with_exclusions + # Don't change behavior if result index happens to be the same, i.e. + # already ordered and n >= all group sizes. + result = self._python_apply_general(f, data, not_indexed_same=True) + return result + + @doc(Series.nsmallest.__doc__) + def nsmallest( + self, n: int = 5, keep: Literal["first", "last", "all"] = "first" + ) -> Series: + f = partial(Series.nsmallest, n=n, keep=keep) + data = self._obj_with_exclusions + # Don't change behavior if result index happens to be the same, i.e. + # already ordered and n >= all group sizes. + result = self._python_apply_general(f, data, not_indexed_same=True) + return result + + @doc(Series.idxmin.__doc__) + def idxmin( + self, axis: Axis | lib.NoDefault = lib.no_default, skipna: bool = True + ) -> Series: + return self._idxmax_idxmin("idxmin", axis=axis, skipna=skipna) + + @doc(Series.idxmax.__doc__) + def idxmax( + self, axis: Axis | lib.NoDefault = lib.no_default, skipna: bool = True + ) -> Series: + return self._idxmax_idxmin("idxmax", axis=axis, skipna=skipna) + + @doc(Series.corr.__doc__) + def corr( + self, + other: Series, + method: CorrelationMethod = "pearson", + min_periods: int | None = None, + ) -> Series: + result = self._op_via_apply( + "corr", other=other, method=method, min_periods=min_periods + ) + return result + + @doc(Series.cov.__doc__) + def cov( + self, other: Series, min_periods: int | None = None, ddof: int | None = 1 + ) -> Series: + result = self._op_via_apply( + "cov", other=other, min_periods=min_periods, ddof=ddof + ) + return result + + @property + def is_monotonic_increasing(self) -> Series: + """ + Return whether each group's values are monotonically increasing. + + Returns + ------- + Series + + Examples + -------- + >>> s = pd.Series([2, 1, 3, 4], index=['Falcon', 'Falcon', 'Parrot', 'Parrot']) + >>> s.groupby(level=0).is_monotonic_increasing + Falcon False + Parrot True + dtype: bool + """ + return self.apply(lambda ser: ser.is_monotonic_increasing) + + @property + def is_monotonic_decreasing(self) -> Series: + """ + Return whether each group's values are monotonically decreasing. + + Returns + ------- + Series + + Examples + -------- + >>> s = pd.Series([2, 1, 3, 4], index=['Falcon', 'Falcon', 'Parrot', 'Parrot']) + >>> s.groupby(level=0).is_monotonic_decreasing + Falcon True + Parrot False + dtype: bool + """ + return self.apply(lambda ser: ser.is_monotonic_decreasing) + + @doc(Series.hist.__doc__) + def hist( + self, + by=None, + ax=None, + grid: bool = True, + xlabelsize: int | None = None, + xrot: float | None = None, + ylabelsize: int | None = None, + yrot: float | None = None, + figsize: tuple[int, int] | None = None, + bins: int | Sequence[int] = 10, + backend: str | None = None, + legend: bool = False, + **kwargs, + ): + result = self._op_via_apply( + "hist", + by=by, + ax=ax, + grid=grid, + xlabelsize=xlabelsize, + xrot=xrot, + ylabelsize=ylabelsize, + yrot=yrot, + figsize=figsize, + bins=bins, + backend=backend, + legend=legend, + **kwargs, + ) + return result + + @property + @doc(Series.dtype.__doc__) + def dtype(self) -> Series: + return self.apply(lambda ser: ser.dtype) + + def unique(self) -> Series: + """ + Return unique values for each group. + + It returns unique values for each of the grouped values. Returned in + order of appearance. Hash table-based unique, therefore does NOT sort. + + Returns + ------- + Series + Unique values for each of the grouped values. + + See Also + -------- + Series.unique : Return unique values of Series object. + + Examples + -------- + >>> df = pd.DataFrame([('Chihuahua', 'dog', 6.1), + ... ('Beagle', 'dog', 15.2), + ... ('Chihuahua', 'dog', 6.9), + ... ('Persian', 'cat', 9.2), + ... ('Chihuahua', 'dog', 7), + ... ('Persian', 'cat', 8.8)], + ... columns=['breed', 'animal', 'height_in']) + >>> df + breed animal height_in + 0 Chihuahua dog 6.1 + 1 Beagle dog 15.2 + 2 Chihuahua dog 6.9 + 3 Persian cat 9.2 + 4 Chihuahua dog 7.0 + 5 Persian cat 8.8 + >>> ser = df.groupby('animal')['breed'].unique() + >>> ser + animal + cat [Persian] + dog [Chihuahua, Beagle] + Name: breed, dtype: object + """ + result = self._op_via_apply("unique") + return result + + +class DataFrameGroupBy(GroupBy[DataFrame]): + _agg_examples_doc = dedent( + """ + Examples + -------- + >>> data = {"A": [1, 1, 2, 2], + ... "B": [1, 2, 3, 4], + ... "C": [0.362838, 0.227877, 1.267767, -0.562860]} + >>> df = pd.DataFrame(data) + >>> df + A B C + 0 1 1 0.362838 + 1 1 2 0.227877 + 2 2 3 1.267767 + 3 2 4 -0.562860 + + The aggregation is for each column. + + >>> df.groupby('A').agg('min') + B C + A + 1 1 0.227877 + 2 3 -0.562860 + + Multiple aggregations + + >>> df.groupby('A').agg(['min', 'max']) + B C + min max min max + A + 1 1 2 0.227877 0.362838 + 2 3 4 -0.562860 1.267767 + + Select a column for aggregation + + >>> df.groupby('A').B.agg(['min', 'max']) + min max + A + 1 1 2 + 2 3 4 + + User-defined function for aggregation + + >>> df.groupby('A').agg(lambda x: sum(x) + 2) + B C + A + 1 5 2.590715 + 2 9 2.704907 + + Different aggregations per column + + >>> df.groupby('A').agg({'B': ['min', 'max'], 'C': 'sum'}) + B C + min max sum + A + 1 1 2 0.590715 + 2 3 4 0.704907 + + To control the output names with different aggregations per column, + pandas supports "named aggregation" + + >>> df.groupby("A").agg( + ... b_min=pd.NamedAgg(column="B", aggfunc="min"), + ... c_sum=pd.NamedAgg(column="C", aggfunc="sum") + ... ) + b_min c_sum + A + 1 1 0.590715 + 2 3 0.704907 + + - The keywords are the *output* column names + - The values are tuples whose first element is the column to select + and the second element is the aggregation to apply to that column. + Pandas provides the ``pandas.NamedAgg`` namedtuple with the fields + ``['column', 'aggfunc']`` to make it clearer what the arguments are. + As usual, the aggregation can be a callable or a string alias. + + See :ref:`groupby.aggregate.named` for more. + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the aggregating function. + + >>> df.groupby("A")[["B"]].agg(lambda x: x.astype(float).min()) + B + A + 1 1.0 + 2 3.0 + """ + ) + + @doc(_agg_template_frame, examples=_agg_examples_doc, klass="DataFrame") + def aggregate(self, func=None, *args, engine=None, engine_kwargs=None, **kwargs): + relabeling, func, columns, order = reconstruct_func(func, **kwargs) + func = maybe_mangle_lambdas(func) + + if maybe_use_numba(engine): + # Not all agg functions support numba, only propagate numba kwargs + # if user asks for numba + kwargs["engine"] = engine + kwargs["engine_kwargs"] = engine_kwargs + + op = GroupByApply(self, func, args=args, kwargs=kwargs) + result = op.agg() + if not is_dict_like(func) and result is not None: + # GH #52849 + if not self.as_index and is_list_like(func): + return result.reset_index() + else: + return result + elif relabeling: + # this should be the only (non-raising) case with relabeling + # used reordered index of columns + result = cast(DataFrame, result) + result = result.iloc[:, order] + result = cast(DataFrame, result) + # error: Incompatible types in assignment (expression has type + # "Optional[List[str]]", variable has type + # "Union[Union[Union[ExtensionArray, ndarray[Any, Any]], + # Index, Series], Sequence[Any]]") + result.columns = columns # type: ignore[assignment] + + if result is None: + # Remove the kwargs we inserted + # (already stored in engine, engine_kwargs arguments) + if "engine" in kwargs: + del kwargs["engine"] + del kwargs["engine_kwargs"] + # at this point func is not a str, list-like, dict-like, + # or a known callable(e.g. sum) + if maybe_use_numba(engine): + return self._aggregate_with_numba( + func, *args, engine_kwargs=engine_kwargs, **kwargs + ) + # grouper specific aggregations + if self._grouper.nkeys > 1: + # test_groupby_as_index_series_scalar gets here with 'not self.as_index' + return self._python_agg_general(func, *args, **kwargs) + elif args or kwargs: + # test_pass_args_kwargs gets here (with and without as_index) + # can't return early + result = self._aggregate_frame(func, *args, **kwargs) + + elif self.axis == 1: + # _aggregate_multiple_funcs does not allow self.axis == 1 + # Note: axis == 1 precludes 'not self.as_index', see __init__ + result = self._aggregate_frame(func) + return result + + else: + # try to treat as if we are passing a list + gba = GroupByApply(self, [func], args=(), kwargs={}) + try: + result = gba.agg() + + except ValueError as err: + if "No objects to concatenate" not in str(err): + raise + # _aggregate_frame can fail with e.g. func=Series.mode, + # where it expects 1D values but would be getting 2D values + # In other tests, using aggregate_frame instead of GroupByApply + # would give correct values but incorrect dtypes + # object vs float64 in test_cython_agg_empty_buckets + # float64 vs int64 in test_category_order_apply + result = self._aggregate_frame(func) + + else: + # GH#32040, GH#35246 + # e.g. test_groupby_as_index_select_column_sum_empty_df + result = cast(DataFrame, result) + result.columns = self._obj_with_exclusions.columns.copy() + + if not self.as_index: + result = self._insert_inaxis_grouper(result) + result.index = default_index(len(result)) + + return result + + agg = aggregate + + def _python_agg_general(self, func, *args, **kwargs): + orig_func = func + func = com.is_builtin_func(func) + if orig_func != func: + alias = com._builtin_table_alias[func] + warn_alias_replacement(self, orig_func, alias) + f = lambda x: func(x, *args, **kwargs) + + if self.ngroups == 0: + # e.g. test_evaluate_with_empty_groups different path gets different + # result dtype in empty case. + return self._python_apply_general(f, self._selected_obj, is_agg=True) + + obj = self._obj_with_exclusions + if self.axis == 1: + obj = obj.T + + if not len(obj.columns): + # e.g. test_margins_no_values_no_cols + return self._python_apply_general(f, self._selected_obj) + + output: dict[int, ArrayLike] = {} + for idx, (name, ser) in enumerate(obj.items()): + result = self._grouper.agg_series(ser, f) + output[idx] = result + + res = self.obj._constructor(output) + res.columns = obj.columns.copy(deep=False) + return self._wrap_aggregated_output(res) + + def _aggregate_frame(self, func, *args, **kwargs) -> DataFrame: + if self._grouper.nkeys != 1: + raise AssertionError("Number of keys must be 1") + + obj = self._obj_with_exclusions + + result: dict[Hashable, NDFrame | np.ndarray] = {} + for name, grp_df in self._grouper.get_iterator(obj, self.axis): + fres = func(grp_df, *args, **kwargs) + result[name] = fres + + result_index = self._grouper.result_index + other_ax = obj.axes[1 - self.axis] + out = self.obj._constructor(result, index=other_ax, columns=result_index) + if self.axis == 0: + out = out.T + + return out + + def _wrap_applied_output( + self, + data: DataFrame, + values: list, + not_indexed_same: bool = False, + is_transform: bool = False, + ): + if len(values) == 0: + if is_transform: + # GH#47787 see test_group_on_empty_multiindex + res_index = data.index + else: + res_index = self._grouper.result_index + + result = self.obj._constructor(index=res_index, columns=data.columns) + result = result.astype(data.dtypes, copy=False) + return result + + # GH12824 + # using values[0] here breaks test_groupby_apply_none_first + first_not_none = next(com.not_none(*values), None) + + if first_not_none is None: + # GH9684 - All values are None, return an empty frame. + return self.obj._constructor() + elif isinstance(first_not_none, DataFrame): + return self._concat_objects( + values, + not_indexed_same=not_indexed_same, + is_transform=is_transform, + ) + + key_index = self._grouper.result_index if self.as_index else None + + if isinstance(first_not_none, (np.ndarray, Index)): + # GH#1738: values is list of arrays of unequal lengths + # fall through to the outer else clause + # TODO: sure this is right? we used to do this + # after raising AttributeError above + # GH 18930 + if not is_hashable(self._selection): + # error: Need type annotation for "name" + name = tuple(self._selection) # type: ignore[var-annotated, arg-type] + else: + # error: Incompatible types in assignment + # (expression has type "Hashable", variable + # has type "Tuple[Any, ...]") + name = self._selection # type: ignore[assignment] + return self.obj._constructor_sliced(values, index=key_index, name=name) + elif not isinstance(first_not_none, Series): + # values are not series or array-like but scalars + # self._selection not passed through to Series as the + # result should not take the name of original selection + # of columns + if self.as_index: + return self.obj._constructor_sliced(values, index=key_index) + else: + result = self.obj._constructor(values, columns=[self._selection]) + result = self._insert_inaxis_grouper(result) + return result + else: + # values are Series + return self._wrap_applied_output_series( + values, + not_indexed_same, + first_not_none, + key_index, + is_transform, + ) + + def _wrap_applied_output_series( + self, + values: list[Series], + not_indexed_same: bool, + first_not_none, + key_index: Index | None, + is_transform: bool, + ) -> DataFrame | Series: + kwargs = first_not_none._construct_axes_dict() + backup = Series(**kwargs) + values = [x if (x is not None) else backup for x in values] + + all_indexed_same = all_indexes_same(x.index for x in values) + + if not all_indexed_same: + # GH 8467 + return self._concat_objects( + values, + not_indexed_same=True, + is_transform=is_transform, + ) + + # Combine values + # vstack+constructor is faster than concat and handles MI-columns + stacked_values = np.vstack([np.asarray(v) for v in values]) + + if self.axis == 0: + index = key_index + columns = first_not_none.index.copy() + if columns.name is None: + # GH6124 - propagate name of Series when it's consistent + names = {v.name for v in values} + if len(names) == 1: + columns.name = next(iter(names)) + else: + index = first_not_none.index + columns = key_index + stacked_values = stacked_values.T + + if stacked_values.dtype == object: + # We'll have the DataFrame constructor do inference + stacked_values = stacked_values.tolist() + result = self.obj._constructor(stacked_values, index=index, columns=columns) + + if not self.as_index: + result = self._insert_inaxis_grouper(result) + + return self._reindex_output(result) + + def _cython_transform( + self, + how: str, + numeric_only: bool = False, + axis: AxisInt = 0, + **kwargs, + ) -> DataFrame: + assert axis == 0 # handled by caller + + # With self.axis == 0, we have multi-block tests + # e.g. test_rank_min_int, test_cython_transform_frame + # test_transform_numeric_ret + # With self.axis == 1, _get_data_to_aggregate does a transpose + # so we always have a single block. + mgr: Manager2D = self._get_data_to_aggregate( + numeric_only=numeric_only, name=how + ) + + def arr_func(bvalues: ArrayLike) -> ArrayLike: + return self._grouper._cython_operation( + "transform", bvalues, how, 1, **kwargs + ) + + # We could use `mgr.apply` here and not have to set_axis, but + # we would have to do shape gymnastics for ArrayManager compat + res_mgr = mgr.grouped_reduce(arr_func) + res_mgr.set_axis(1, mgr.axes[1]) + + res_df = self.obj._constructor_from_mgr(res_mgr, axes=res_mgr.axes) + res_df = self._maybe_transpose_result(res_df) + return res_df + + def _transform_general(self, func, engine, engine_kwargs, *args, **kwargs): + if maybe_use_numba(engine): + return self._transform_with_numba( + func, *args, engine_kwargs=engine_kwargs, **kwargs + ) + from pandas.core.reshape.concat import concat + + applied = [] + obj = self._obj_with_exclusions + gen = self._grouper.get_iterator(obj, axis=self.axis) + fast_path, slow_path = self._define_paths(func, *args, **kwargs) + + # Determine whether to use slow or fast path by evaluating on the first group. + # Need to handle the case of an empty generator and process the result so that + # it does not need to be computed again. + try: + name, group = next(gen) + except StopIteration: + pass + else: + # 2023-02-27 No tests broken by disabling this pinning + object.__setattr__(group, "name", name) + try: + path, res = self._choose_path(fast_path, slow_path, group) + except ValueError as err: + # e.g. test_transform_with_non_scalar_group + msg = "transform must return a scalar value for each group" + raise ValueError(msg) from err + if group.size > 0: + res = _wrap_transform_general_frame(self.obj, group, res) + applied.append(res) + + # Compute and process with the remaining groups + for name, group in gen: + if group.size == 0: + continue + # 2023-02-27 No tests broken by disabling this pinning + object.__setattr__(group, "name", name) + res = path(group) + + res = _wrap_transform_general_frame(self.obj, group, res) + applied.append(res) + + concat_index = obj.columns if self.axis == 0 else obj.index + other_axis = 1 if self.axis == 0 else 0 # switches between 0 & 1 + concatenated = concat(applied, axis=self.axis, verify_integrity=False) + concatenated = concatenated.reindex(concat_index, axis=other_axis, copy=False) + return self._set_result_index_ordered(concatenated) + + __examples_dataframe_doc = dedent( + """ + >>> df = pd.DataFrame({'A' : ['foo', 'bar', 'foo', 'bar', + ... 'foo', 'bar'], + ... 'B' : ['one', 'one', 'two', 'three', + ... 'two', 'two'], + ... 'C' : [1, 5, 5, 2, 5, 5], + ... 'D' : [2.0, 5., 8., 1., 2., 9.]}) + >>> grouped = df.groupby('A')[['C', 'D']] + >>> grouped.transform(lambda x: (x - x.mean()) / x.std()) + C D + 0 -1.154701 -0.577350 + 1 0.577350 0.000000 + 2 0.577350 1.154701 + 3 -1.154701 -1.000000 + 4 0.577350 -0.577350 + 5 0.577350 1.000000 + + Broadcast result of the transformation + + >>> grouped.transform(lambda x: x.max() - x.min()) + C D + 0 4.0 6.0 + 1 3.0 8.0 + 2 4.0 6.0 + 3 3.0 8.0 + 4 4.0 6.0 + 5 3.0 8.0 + + >>> grouped.transform("mean") + C D + 0 3.666667 4.0 + 1 4.000000 5.0 + 2 3.666667 4.0 + 3 4.000000 5.0 + 4 3.666667 4.0 + 5 4.000000 5.0 + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + for example: + + >>> grouped.transform(lambda x: x.astype(int).max()) + C D + 0 5 8 + 1 5 9 + 2 5 8 + 3 5 9 + 4 5 8 + 5 5 9 + """ + ) + + @Substitution(klass="DataFrame", example=__examples_dataframe_doc) + @Appender(_transform_template) + def transform(self, func, *args, engine=None, engine_kwargs=None, **kwargs): + return self._transform( + func, *args, engine=engine, engine_kwargs=engine_kwargs, **kwargs + ) + + def _define_paths(self, func, *args, **kwargs): + if isinstance(func, str): + fast_path = lambda group: getattr(group, func)(*args, **kwargs) + slow_path = lambda group: group.apply( + lambda x: getattr(x, func)(*args, **kwargs), axis=self.axis + ) + else: + fast_path = lambda group: func(group, *args, **kwargs) + slow_path = lambda group: group.apply( + lambda x: func(x, *args, **kwargs), axis=self.axis + ) + return fast_path, slow_path + + def _choose_path(self, fast_path: Callable, slow_path: Callable, group: DataFrame): + path = slow_path + res = slow_path(group) + + if self.ngroups == 1: + # no need to evaluate multiple paths when only + # a single group exists + return path, res + + # if we make it here, test if we can use the fast path + try: + res_fast = fast_path(group) + except AssertionError: + raise # pragma: no cover + except Exception: + # GH#29631 For user-defined function, we can't predict what may be + # raised; see test_transform.test_transform_fastpath_raises + return path, res + + # verify fast path returns either: + # a DataFrame with columns equal to group.columns + # OR a Series with index equal to group.columns + if isinstance(res_fast, DataFrame): + if not res_fast.columns.equals(group.columns): + return path, res + elif isinstance(res_fast, Series): + if not res_fast.index.equals(group.columns): + return path, res + else: + return path, res + + if res_fast.equals(res): + path = fast_path + + return path, res + + def filter(self, func, dropna: bool = True, *args, **kwargs): + """ + Filter elements from groups that don't satisfy a criterion. + + Elements from groups are filtered if they do not satisfy the + boolean criterion specified by func. + + Parameters + ---------- + func : function + Criterion to apply to each group. Should return True or False. + dropna : bool + Drop groups that do not pass the filter. True by default; if False, + groups that evaluate False are filled with NaNs. + + Returns + ------- + DataFrame + + Notes + ----- + Each subframe is endowed the attribute 'name' in case you need to know + which group you are working on. + + Functions that mutate the passed object can produce unexpected + behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` + for more details. + + Examples + -------- + >>> df = pd.DataFrame({'A' : ['foo', 'bar', 'foo', 'bar', + ... 'foo', 'bar'], + ... 'B' : [1, 2, 3, 4, 5, 6], + ... 'C' : [2.0, 5., 8., 1., 2., 9.]}) + >>> grouped = df.groupby('A') + >>> grouped.filter(lambda x: x['B'].mean() > 3.) + A B C + 1 bar 2 5.0 + 3 bar 4 1.0 + 5 bar 6 9.0 + """ + indices = [] + + obj = self._selected_obj + gen = self._grouper.get_iterator(obj, axis=self.axis) + + for name, group in gen: + # 2023-02-27 no tests are broken this pinning, but it is documented in the + # docstring above. + object.__setattr__(group, "name", name) + + res = func(group, *args, **kwargs) + + try: + res = res.squeeze() + except AttributeError: # allow e.g., scalars and frames to pass + pass + + # interpret the result of the filter + if is_bool(res) or (is_scalar(res) and isna(res)): + if notna(res) and res: + indices.append(self._get_index(name)) + else: + # non scalars aren't allowed + raise TypeError( + f"filter function returned a {type(res).__name__}, " + "but expected a scalar bool" + ) + + return self._apply_filter(indices, dropna) + + def __getitem__(self, key) -> DataFrameGroupBy | SeriesGroupBy: + if self.axis == 1: + # GH 37725 + raise ValueError("Cannot subset columns when using axis=1") + # per GH 23566 + if isinstance(key, tuple) and len(key) > 1: + # if len == 1, then it becomes a SeriesGroupBy and this is actually + # valid syntax, so don't raise + raise ValueError( + "Cannot subset columns with a tuple with more than one element. " + "Use a list instead." + ) + return super().__getitem__(key) + + def _gotitem(self, key, ndim: int, subset=None): + """ + sub-classes to define + return a sliced object + + Parameters + ---------- + key : string / list of selections + ndim : {1, 2} + requested ndim of result + subset : object, default None + subset to act on + """ + if ndim == 2: + if subset is None: + subset = self.obj + return DataFrameGroupBy( + subset, + self.keys, + axis=self.axis, + level=self.level, + grouper=self._grouper, + exclusions=self.exclusions, + selection=key, + as_index=self.as_index, + sort=self.sort, + group_keys=self.group_keys, + observed=self.observed, + dropna=self.dropna, + ) + elif ndim == 1: + if subset is None: + subset = self.obj[key] + return SeriesGroupBy( + subset, + self.keys, + level=self.level, + grouper=self._grouper, + exclusions=self.exclusions, + selection=key, + as_index=self.as_index, + sort=self.sort, + group_keys=self.group_keys, + observed=self.observed, + dropna=self.dropna, + ) + + raise AssertionError("invalid ndim for _gotitem") + + def _get_data_to_aggregate( + self, *, numeric_only: bool = False, name: str | None = None + ) -> Manager2D: + obj = self._obj_with_exclusions + if self.axis == 1: + mgr = obj.T._mgr + else: + mgr = obj._mgr + + if numeric_only: + mgr = mgr.get_numeric_data() + return mgr + + def _wrap_agged_manager(self, mgr: Manager2D) -> DataFrame: + return self.obj._constructor_from_mgr(mgr, axes=mgr.axes) + + def _apply_to_column_groupbys(self, func) -> DataFrame: + from pandas.core.reshape.concat import concat + + obj = self._obj_with_exclusions + columns = obj.columns + sgbs = [ + SeriesGroupBy( + obj.iloc[:, i], + selection=colname, + grouper=self._grouper, + exclusions=self.exclusions, + observed=self.observed, + ) + for i, colname in enumerate(obj.columns) + ] + results = [func(sgb) for sgb in sgbs] + + if not len(results): + # concat would raise + res_df = DataFrame([], columns=columns, index=self._grouper.result_index) + else: + res_df = concat(results, keys=columns, axis=1) + + if not self.as_index: + res_df.index = default_index(len(res_df)) + res_df = self._insert_inaxis_grouper(res_df) + return res_df + + def nunique(self, dropna: bool = True) -> DataFrame: + """ + Return DataFrame with counts of unique elements in each position. + + Parameters + ---------- + dropna : bool, default True + Don't include NaN in the counts. + + Returns + ------- + nunique: DataFrame + + Examples + -------- + >>> df = pd.DataFrame({'id': ['spam', 'egg', 'egg', 'spam', + ... 'ham', 'ham'], + ... 'value1': [1, 5, 5, 2, 5, 5], + ... 'value2': list('abbaxy')}) + >>> df + id value1 value2 + 0 spam 1 a + 1 egg 5 b + 2 egg 5 b + 3 spam 2 a + 4 ham 5 x + 5 ham 5 y + + >>> df.groupby('id').nunique() + value1 value2 + id + egg 1 1 + ham 1 2 + spam 2 1 + + Check for rows with the same id but conflicting values: + + >>> df.groupby('id').filter(lambda g: (g.nunique() > 1).any()) + id value1 value2 + 0 spam 1 a + 3 spam 2 a + 4 ham 5 x + 5 ham 5 y + """ + + if self.axis != 0: + # see test_groupby_crash_on_nunique + return self._python_apply_general( + lambda sgb: sgb.nunique(dropna), self._obj_with_exclusions, is_agg=True + ) + + return self._apply_to_column_groupbys(lambda sgb: sgb.nunique(dropna)) + + def idxmax( + self, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool = True, + numeric_only: bool = False, + ) -> DataFrame: + """ + Return index of first occurrence of maximum over requested axis. + + NA/null values are excluded. + + Parameters + ---------- + axis : {{0 or 'index', 1 or 'columns'}}, default None + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + If axis is not provided, grouper's axis is used. + + .. versionchanged:: 2.0.0 + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + Returns + ------- + Series + Indexes of maxima along the specified axis. + + Raises + ------ + ValueError + * If the row/column is empty + + See Also + -------- + Series.idxmax : Return index of the maximum element. + + Notes + ----- + This method is the DataFrame version of ``ndarray.argmax``. + + Examples + -------- + Consider a dataset containing food consumption in Argentina. + + >>> df = pd.DataFrame({'consumption': [10.51, 103.11, 55.48], + ... 'co2_emissions': [37.2, 19.66, 1712]}, + ... index=['Pork', 'Wheat Products', 'Beef']) + + >>> df + consumption co2_emissions + Pork 10.51 37.20 + Wheat Products 103.11 19.66 + Beef 55.48 1712.00 + + By default, it returns the index for the maximum value in each column. + + >>> df.idxmax() + consumption Wheat Products + co2_emissions Beef + dtype: object + + To return the index for the maximum value in each row, use ``axis="columns"``. + + >>> df.idxmax(axis="columns") + Pork co2_emissions + Wheat Products consumption + Beef co2_emissions + dtype: object + """ + return self._idxmax_idxmin( + "idxmax", axis=axis, numeric_only=numeric_only, skipna=skipna + ) + + def idxmin( + self, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool = True, + numeric_only: bool = False, + ) -> DataFrame: + """ + Return index of first occurrence of minimum over requested axis. + + NA/null values are excluded. + + Parameters + ---------- + axis : {{0 or 'index', 1 or 'columns'}}, default None + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + If axis is not provided, grouper's axis is used. + + .. versionchanged:: 2.0.0 + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + Returns + ------- + Series + Indexes of minima along the specified axis. + + Raises + ------ + ValueError + * If the row/column is empty + + See Also + -------- + Series.idxmin : Return index of the minimum element. + + Notes + ----- + This method is the DataFrame version of ``ndarray.argmin``. + + Examples + -------- + Consider a dataset containing food consumption in Argentina. + + >>> df = pd.DataFrame({'consumption': [10.51, 103.11, 55.48], + ... 'co2_emissions': [37.2, 19.66, 1712]}, + ... index=['Pork', 'Wheat Products', 'Beef']) + + >>> df + consumption co2_emissions + Pork 10.51 37.20 + Wheat Products 103.11 19.66 + Beef 55.48 1712.00 + + By default, it returns the index for the minimum value in each column. + + >>> df.idxmin() + consumption Pork + co2_emissions Wheat Products + dtype: object + + To return the index for the minimum value in each row, use ``axis="columns"``. + + >>> df.idxmin(axis="columns") + Pork consumption + Wheat Products co2_emissions + Beef consumption + dtype: object + """ + return self._idxmax_idxmin( + "idxmin", axis=axis, numeric_only=numeric_only, skipna=skipna + ) + + boxplot = boxplot_frame_groupby + + def value_counts( + self, + subset: Sequence[Hashable] | None = None, + normalize: bool = False, + sort: bool = True, + ascending: bool = False, + dropna: bool = True, + ) -> DataFrame | Series: + """ + Return a Series or DataFrame containing counts of unique rows. + + .. versionadded:: 1.4.0 + + Parameters + ---------- + subset : list-like, optional + Columns to use when counting unique combinations. + normalize : bool, default False + Return proportions rather than frequencies. + sort : bool, default True + Sort by frequencies. + ascending : bool, default False + Sort in ascending order. + dropna : bool, default True + Don't include counts of rows that contain NA values. + + Returns + ------- + Series or DataFrame + Series if the groupby as_index is True, otherwise DataFrame. + + See Also + -------- + Series.value_counts: Equivalent method on Series. + DataFrame.value_counts: Equivalent method on DataFrame. + SeriesGroupBy.value_counts: Equivalent method on SeriesGroupBy. + + Notes + ----- + - If the groupby as_index is True then the returned Series will have a + MultiIndex with one level per input column. + - If the groupby as_index is False then the returned DataFrame will have an + additional column with the value_counts. The column is labelled 'count' or + 'proportion', depending on the ``normalize`` parameter. + + By default, rows that contain any NA values are omitted from + the result. + + By default, the result will be in descending order so that the + first element of each group is the most frequently-occurring row. + + Examples + -------- + >>> df = pd.DataFrame({ + ... 'gender': ['male', 'male', 'female', 'male', 'female', 'male'], + ... 'education': ['low', 'medium', 'high', 'low', 'high', 'low'], + ... 'country': ['US', 'FR', 'US', 'FR', 'FR', 'FR'] + ... }) + + >>> df + gender education country + 0 male low US + 1 male medium FR + 2 female high US + 3 male low FR + 4 female high FR + 5 male low FR + + >>> df.groupby('gender').value_counts() + gender education country + female high FR 1 + US 1 + male low FR 2 + US 1 + medium FR 1 + Name: count, dtype: int64 + + >>> df.groupby('gender').value_counts(ascending=True) + gender education country + female high FR 1 + US 1 + male low US 1 + medium FR 1 + low FR 2 + Name: count, dtype: int64 + + >>> df.groupby('gender').value_counts(normalize=True) + gender education country + female high FR 0.50 + US 0.50 + male low FR 0.50 + US 0.25 + medium FR 0.25 + Name: proportion, dtype: float64 + + >>> df.groupby('gender', as_index=False).value_counts() + gender education country count + 0 female high FR 1 + 1 female high US 1 + 2 male low FR 2 + 3 male low US 1 + 4 male medium FR 1 + + >>> df.groupby('gender', as_index=False).value_counts(normalize=True) + gender education country proportion + 0 female high FR 0.50 + 1 female high US 0.50 + 2 male low FR 0.50 + 3 male low US 0.25 + 4 male medium FR 0.25 + """ + return self._value_counts(subset, normalize, sort, ascending, dropna) + + def fillna( + self, + value: Hashable | Mapping | Series | DataFrame | None = None, + method: FillnaOptions | None = None, + axis: Axis | None | lib.NoDefault = lib.no_default, + inplace: bool = False, + limit: int | None = None, + downcast=lib.no_default, + ) -> DataFrame | None: + """ + Fill NA/NaN values using the specified method within groups. + + .. deprecated:: 2.2.0 + This method is deprecated and will be removed in a future version. + Use the :meth:`.DataFrameGroupBy.ffill` or :meth:`.DataFrameGroupBy.bfill` + for forward or backward filling instead. If you want to fill with a + single value, use :meth:`DataFrame.fillna` instead. + + Parameters + ---------- + value : scalar, dict, Series, or DataFrame + Value to use to fill holes (e.g. 0), alternately a + dict/Series/DataFrame of values specifying which value to use for + each index (for a Series) or column (for a DataFrame). Values not + in the dict/Series/DataFrame will not be filled. This value cannot + be a list. Users wanting to use the ``value`` argument and not ``method`` + should prefer :meth:`.DataFrame.fillna` as this + will produce the same result and be more performant. + method : {{'bfill', 'ffill', None}}, default None + Method to use for filling holes. ``'ffill'`` will propagate + the last valid observation forward within a group. + ``'bfill'`` will use next valid observation to fill the gap. + axis : {0 or 'index', 1 or 'columns'} + Axis along which to fill missing values. When the :class:`DataFrameGroupBy` + ``axis`` argument is ``0``, using ``axis=1`` here will produce + the same results as :meth:`.DataFrame.fillna`. When the + :class:`DataFrameGroupBy` ``axis`` argument is ``1``, using ``axis=0`` + or ``axis=1`` here will produce the same results. + inplace : bool, default False + Broken. Do not set to True. + limit : int, default None + If method is specified, this is the maximum number of consecutive + NaN values to forward/backward fill within a group. In other words, + if there is a gap with more than this number of consecutive NaNs, + it will only be partially filled. If method is not specified, this is the + maximum number of entries along the entire axis where NaNs will be + filled. Must be greater than 0 if not None. + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + Returns + ------- + DataFrame + Object with missing values filled. + + See Also + -------- + ffill : Forward fill values within a group. + bfill : Backward fill values within a group. + + Examples + -------- + >>> df = pd.DataFrame( + ... { + ... "key": [0, 0, 1, 1, 1], + ... "A": [np.nan, 2, np.nan, 3, np.nan], + ... "B": [2, 3, np.nan, np.nan, np.nan], + ... "C": [np.nan, np.nan, 2, np.nan, np.nan], + ... } + ... ) + >>> df + key A B C + 0 0 NaN 2.0 NaN + 1 0 2.0 3.0 NaN + 2 1 NaN NaN 2.0 + 3 1 3.0 NaN NaN + 4 1 NaN NaN NaN + + Propagate non-null values forward or backward within each group along columns. + + >>> df.groupby("key").fillna(method="ffill") + A B C + 0 NaN 2.0 NaN + 1 2.0 3.0 NaN + 2 NaN NaN 2.0 + 3 3.0 NaN 2.0 + 4 3.0 NaN 2.0 + + >>> df.groupby("key").fillna(method="bfill") + A B C + 0 2.0 2.0 NaN + 1 2.0 3.0 NaN + 2 3.0 NaN 2.0 + 3 3.0 NaN NaN + 4 NaN NaN NaN + + Propagate non-null values forward or backward within each group along rows. + + >>> df.T.groupby(np.array([0, 0, 1, 1])).fillna(method="ffill").T + key A B C + 0 0.0 0.0 2.0 2.0 + 1 0.0 2.0 3.0 3.0 + 2 1.0 1.0 NaN 2.0 + 3 1.0 3.0 NaN NaN + 4 1.0 1.0 NaN NaN + + >>> df.T.groupby(np.array([0, 0, 1, 1])).fillna(method="bfill").T + key A B C + 0 0.0 NaN 2.0 NaN + 1 0.0 2.0 3.0 NaN + 2 1.0 NaN 2.0 2.0 + 3 1.0 3.0 NaN NaN + 4 1.0 NaN NaN NaN + + Only replace the first NaN element within a group along rows. + + >>> df.groupby("key").fillna(method="ffill", limit=1) + A B C + 0 NaN 2.0 NaN + 1 2.0 3.0 NaN + 2 NaN NaN 2.0 + 3 3.0 NaN 2.0 + 4 3.0 NaN NaN + """ + warnings.warn( + f"{type(self).__name__}.fillna is deprecated and " + "will be removed in a future version. Use obj.ffill() or obj.bfill() " + "for forward or backward filling instead. If you want to fill with a " + f"single value, use {type(self.obj).__name__}.fillna instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + result = self._op_via_apply( + "fillna", + value=value, + method=method, + axis=axis, + inplace=inplace, + limit=limit, + downcast=downcast, + ) + return result + + def take( + self, + indices: TakeIndexer, + axis: Axis | None | lib.NoDefault = lib.no_default, + **kwargs, + ) -> DataFrame: + """ + Return the elements in the given *positional* indices in each group. + + This means that we are not indexing according to actual values in + the index attribute of the object. We are indexing according to the + actual position of the element in the object. + + If a requested index does not exist for some group, this method will raise. + To get similar behavior that ignores indices that don't exist, see + :meth:`.DataFrameGroupBy.nth`. + + Parameters + ---------- + indices : array-like + An array of ints indicating which positions to take. + axis : {0 or 'index', 1 or 'columns', None}, default 0 + The axis on which to select elements. ``0`` means that we are + selecting rows, ``1`` means that we are selecting columns. + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + **kwargs + For compatibility with :meth:`numpy.take`. Has no effect on the + output. + + Returns + ------- + DataFrame + An DataFrame containing the elements taken from each group. + + See Also + -------- + DataFrame.take : Take elements from a Series along an axis. + DataFrame.loc : Select a subset of a DataFrame by labels. + DataFrame.iloc : Select a subset of a DataFrame by positions. + numpy.take : Take elements from an array along an axis. + + Examples + -------- + >>> df = pd.DataFrame([('falcon', 'bird', 389.0), + ... ('parrot', 'bird', 24.0), + ... ('lion', 'mammal', 80.5), + ... ('monkey', 'mammal', np.nan), + ... ('rabbit', 'mammal', 15.0)], + ... columns=['name', 'class', 'max_speed'], + ... index=[4, 3, 2, 1, 0]) + >>> df + name class max_speed + 4 falcon bird 389.0 + 3 parrot bird 24.0 + 2 lion mammal 80.5 + 1 monkey mammal NaN + 0 rabbit mammal 15.0 + >>> gb = df.groupby([1, 1, 2, 2, 2]) + + Take elements at positions 0 and 1 along the axis 0 (default). + + Note how the indices selected in the result do not correspond to + our input indices 0 and 1. That's because we are selecting the 0th + and 1st rows, not rows whose indices equal 0 and 1. + + >>> gb.take([0, 1]) + name class max_speed + 1 4 falcon bird 389.0 + 3 parrot bird 24.0 + 2 2 lion mammal 80.5 + 1 monkey mammal NaN + + The order of the specified indices influences the order in the result. + Here, the order is swapped from the previous example. + + >>> gb.take([1, 0]) + name class max_speed + 1 3 parrot bird 24.0 + 4 falcon bird 389.0 + 2 1 monkey mammal NaN + 2 lion mammal 80.5 + + Take elements at indices 1 and 2 along the axis 1 (column selection). + + We may take elements using negative integers for positive indices, + starting from the end of the object, just like with Python lists. + + >>> gb.take([-1, -2]) + name class max_speed + 1 3 parrot bird 24.0 + 4 falcon bird 389.0 + 2 0 rabbit mammal 15.0 + 1 monkey mammal NaN + """ + result = self._op_via_apply("take", indices=indices, axis=axis, **kwargs) + return result + + def skew( + self, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ) -> DataFrame: + """ + Return unbiased skew within groups. + + Normalized by N-1. + + Parameters + ---------- + axis : {0 or 'index', 1 or 'columns', None}, default 0 + Axis for the function to be applied on. + + Specifying ``axis=None`` will apply the aggregation across both axes. + + .. versionadded:: 2.0.0 + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + skipna : bool, default True + Exclude NA/null values when computing the result. + + numeric_only : bool, default False + Include only float, int, boolean columns. + + **kwargs + Additional keyword arguments to be passed to the function. + + Returns + ------- + DataFrame + + See Also + -------- + DataFrame.skew : Return unbiased skew over requested axis. + + Examples + -------- + >>> arrays = [['falcon', 'parrot', 'cockatoo', 'kiwi', + ... 'lion', 'monkey', 'rabbit'], + ... ['bird', 'bird', 'bird', 'bird', + ... 'mammal', 'mammal', 'mammal']] + >>> index = pd.MultiIndex.from_arrays(arrays, names=('name', 'class')) + >>> df = pd.DataFrame({'max_speed': [389.0, 24.0, 70.0, np.nan, + ... 80.5, 21.5, 15.0]}, + ... index=index) + >>> df + max_speed + name class + falcon bird 389.0 + parrot bird 24.0 + cockatoo bird 70.0 + kiwi bird NaN + lion mammal 80.5 + monkey mammal 21.5 + rabbit mammal 15.0 + >>> gb = df.groupby(["class"]) + >>> gb.skew() + max_speed + class + bird 1.628296 + mammal 1.669046 + >>> gb.skew(skipna=False) + max_speed + class + bird NaN + mammal 1.669046 + """ + if axis is lib.no_default: + axis = 0 + + if axis != 0: + result = self._op_via_apply( + "skew", + axis=axis, + skipna=skipna, + numeric_only=numeric_only, + **kwargs, + ) + return result + + def alt(obj): + # This should not be reached since the cython path should raise + # TypeError and not NotImplementedError. + raise TypeError(f"'skew' is not supported for dtype={obj.dtype}") + + return self._cython_agg_general( + "skew", alt=alt, skipna=skipna, numeric_only=numeric_only, **kwargs + ) + + @property + @doc(DataFrame.plot.__doc__) + def plot(self) -> GroupByPlot: + result = GroupByPlot(self) + return result + + @doc(DataFrame.corr.__doc__) + def corr( + self, + method: str | Callable[[np.ndarray, np.ndarray], float] = "pearson", + min_periods: int = 1, + numeric_only: bool = False, + ) -> DataFrame: + result = self._op_via_apply( + "corr", method=method, min_periods=min_periods, numeric_only=numeric_only + ) + return result + + @doc(DataFrame.cov.__doc__) + def cov( + self, + min_periods: int | None = None, + ddof: int | None = 1, + numeric_only: bool = False, + ) -> DataFrame: + result = self._op_via_apply( + "cov", min_periods=min_periods, ddof=ddof, numeric_only=numeric_only + ) + return result + + @doc(DataFrame.hist.__doc__) + def hist( + self, + column: IndexLabel | None = None, + by=None, + grid: bool = True, + xlabelsize: int | None = None, + xrot: float | None = None, + ylabelsize: int | None = None, + yrot: float | None = None, + ax=None, + sharex: bool = False, + sharey: bool = False, + figsize: tuple[int, int] | None = None, + layout: tuple[int, int] | None = None, + bins: int | Sequence[int] = 10, + backend: str | None = None, + legend: bool = False, + **kwargs, + ): + result = self._op_via_apply( + "hist", + column=column, + by=by, + grid=grid, + xlabelsize=xlabelsize, + xrot=xrot, + ylabelsize=ylabelsize, + yrot=yrot, + ax=ax, + sharex=sharex, + sharey=sharey, + figsize=figsize, + layout=layout, + bins=bins, + backend=backend, + legend=legend, + **kwargs, + ) + return result + + @property + @doc(DataFrame.dtypes.__doc__) + def dtypes(self) -> Series: + # GH#51045 + warnings.warn( + f"{type(self).__name__}.dtypes is deprecated and will be removed in " + "a future version. Check the dtypes on the base object instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + # error: Incompatible return value type (got "DataFrame", expected "Series") + return self._python_apply_general( # type: ignore[return-value] + lambda df: df.dtypes, self._selected_obj + ) + + @doc(DataFrame.corrwith.__doc__) + def corrwith( + self, + other: DataFrame | Series, + axis: Axis | lib.NoDefault = lib.no_default, + drop: bool = False, + method: CorrelationMethod = "pearson", + numeric_only: bool = False, + ) -> DataFrame: + result = self._op_via_apply( + "corrwith", + other=other, + axis=axis, + drop=drop, + method=method, + numeric_only=numeric_only, + ) + return result + + +def _wrap_transform_general_frame( + obj: DataFrame, group: DataFrame, res: DataFrame | Series +) -> DataFrame: + from pandas import concat + + if isinstance(res, Series): + # we need to broadcast across the + # other dimension; this will preserve dtypes + # GH14457 + if res.index.is_(obj.index): + res_frame = concat([res] * len(group.columns), axis=1) + res_frame.columns = group.columns + res_frame.index = group.index + else: + res_frame = obj._constructor( + np.tile(res.values, (len(group.index), 1)), + columns=group.columns, + index=group.index, + ) + assert isinstance(res_frame, DataFrame) + return res_frame + elif isinstance(res, DataFrame) and not res.index.is_(group.index): + return res._align_frame(group)[0] + else: + return res diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/groupby.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/groupby.py new file mode 100644 index 0000000000000000000000000000000000000000..3a28de5222d15ba73ff275e0bde6b632bc80d6c4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/groupby.py @@ -0,0 +1,6003 @@ +""" +Provide the groupby split-apply-combine paradigm. Define the GroupBy +class providing the base-class of operations. + +The SeriesGroupBy and DataFrameGroupBy sub-class +(defined in pandas.core.groupby.generic) +expose these user-facing objects to provide specific functionality. +""" +from __future__ import annotations + +from collections.abc import ( + Hashable, + Iterator, + Mapping, + Sequence, +) +import datetime +from functools import ( + partial, + wraps, +) +import inspect +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + TypeVar, + Union, + cast, + final, +) +import warnings + +import numpy as np + +from pandas._config.config import option_context + +from pandas._libs import ( + Timestamp, + lib, +) +from pandas._libs.algos import rank_1d +import pandas._libs.groupby as libgroupby +from pandas._libs.missing import NA +from pandas._typing import ( + AnyArrayLike, + ArrayLike, + Axis, + AxisInt, + DtypeObj, + FillnaOptions, + IndexLabel, + NDFrameT, + PositionalIndexer, + RandomState, + Scalar, + T, + npt, +) +from pandas.compat.numpy import function as nv +from pandas.errors import ( + AbstractMethodError, + DataError, +) +from pandas.util._decorators import ( + Appender, + Substitution, + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import ( + coerce_indexer_dtype, + ensure_dtype_can_hold_na, +) +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_float_dtype, + is_hashable, + is_integer, + is_integer_dtype, + is_list_like, + is_numeric_dtype, + is_object_dtype, + is_scalar, + is_string_dtype, + needs_i8_conversion, + pandas_dtype, +) +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, + notna, +) + +from pandas.core import ( + algorithms, + sample, +) +from pandas.core._numba import executor +from pandas.core.apply import warn_alias_replacement +from pandas.core.arrays import ( + ArrowExtensionArray, + BaseMaskedArray, + Categorical, + ExtensionArray, + FloatingArray, + IntegerArray, + SparseArray, +) +from pandas.core.arrays.string_ import StringDtype +from pandas.core.arrays.string_arrow import ( + ArrowStringArray, + ArrowStringArrayNumpySemantics, +) +from pandas.core.base import ( + PandasObject, + SelectionMixin, +) +import pandas.core.common as com +from pandas.core.frame import DataFrame +from pandas.core.generic import NDFrame +from pandas.core.groupby import ( + base, + numba_, + ops, +) +from pandas.core.groupby.grouper import get_grouper +from pandas.core.groupby.indexing import ( + GroupByIndexingMixin, + GroupByNthSelector, +) +from pandas.core.indexes.api import ( + CategoricalIndex, + Index, + MultiIndex, + RangeIndex, + default_index, +) +from pandas.core.internals.blocks import ensure_block_shape +from pandas.core.series import Series +from pandas.core.sorting import get_group_index_sorter +from pandas.core.util.numba_ import ( + get_jit_arguments, + maybe_use_numba, +) + +if TYPE_CHECKING: + from typing import Any + + from pandas.core.resample import Resampler + from pandas.core.window import ( + ExpandingGroupby, + ExponentialMovingWindowGroupby, + RollingGroupby, + ) + +_common_see_also = """ + See Also + -------- + Series.%(name)s : Apply a function %(name)s to a Series. + DataFrame.%(name)s : Apply a function %(name)s + to each row or column of a DataFrame. +""" + +_apply_docs = { + "template": """ + Apply function ``func`` group-wise and combine the results together. + + The function passed to ``apply`` must take a {input} as its first + argument and return a DataFrame, Series or scalar. ``apply`` will + then take care of combining the results back together into a single + dataframe or series. ``apply`` is therefore a highly flexible + grouping method. + + While ``apply`` is a very flexible method, its downside is that + using it can be quite a bit slower than using more specific methods + like ``agg`` or ``transform``. Pandas offers a wide range of method that will + be much faster than using ``apply`` for their specific purposes, so try to + use them before reaching for ``apply``. + + Parameters + ---------- + func : callable + A callable that takes a {input} as its first argument, and + returns a dataframe, a series or a scalar. In addition the + callable may take positional and keyword arguments. + include_groups : bool, default True + When True, will attempt to apply ``func`` to the groupings in + the case that they are columns of the DataFrame. If this raises a + TypeError, the result will be computed with the groupings excluded. + When False, the groupings will be excluded when applying ``func``. + + .. versionadded:: 2.2.0 + + .. deprecated:: 2.2.0 + + Setting include_groups to True is deprecated. Only the value + False will be allowed in a future version of pandas. + + args, kwargs : tuple and dict + Optional positional and keyword arguments to pass to ``func``. + + Returns + ------- + Series or DataFrame + + See Also + -------- + pipe : Apply function to the full GroupBy object instead of to each + group. + aggregate : Apply aggregate function to the GroupBy object. + transform : Apply function column-by-column to the GroupBy object. + Series.apply : Apply a function to a Series. + DataFrame.apply : Apply a function to each row or column of a DataFrame. + + Notes + ----- + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + see the examples below. + + Functions that mutate the passed object can produce unexpected + behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` + for more details. + + Examples + -------- + {examples} + """, + "dataframe_examples": """ + >>> df = pd.DataFrame({'A': 'a a b'.split(), + ... 'B': [1, 2, 3], + ... 'C': [4, 6, 5]}) + >>> g1 = df.groupby('A', group_keys=False) + >>> g2 = df.groupby('A', group_keys=True) + + Notice that ``g1`` and ``g2`` have two groups, ``a`` and ``b``, and only + differ in their ``group_keys`` argument. Calling `apply` in various ways, + we can get different grouping results: + + Example 1: below the function passed to `apply` takes a DataFrame as + its argument and returns a DataFrame. `apply` combines the result for + each group together into a new DataFrame: + + >>> g1[['B', 'C']].apply(lambda x: x / x.sum()) + B C + 0 0.333333 0.4 + 1 0.666667 0.6 + 2 1.000000 1.0 + + In the above, the groups are not part of the index. We can have them included + by using ``g2`` where ``group_keys=True``: + + >>> g2[['B', 'C']].apply(lambda x: x / x.sum()) + B C + A + a 0 0.333333 0.4 + 1 0.666667 0.6 + b 2 1.000000 1.0 + + Example 2: The function passed to `apply` takes a DataFrame as + its argument and returns a Series. `apply` combines the result for + each group together into a new DataFrame. + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``. + + >>> g1[['B', 'C']].apply(lambda x: x.astype(float).max() - x.min()) + B C + A + a 1.0 2.0 + b 0.0 0.0 + + >>> g2[['B', 'C']].apply(lambda x: x.astype(float).max() - x.min()) + B C + A + a 1.0 2.0 + b 0.0 0.0 + + The ``group_keys`` argument has no effect here because the result is not + like-indexed (i.e. :ref:`a transform `) when compared + to the input. + + Example 3: The function passed to `apply` takes a DataFrame as + its argument and returns a scalar. `apply` combines the result for + each group together into a Series, including setting the index as + appropriate: + + >>> g1.apply(lambda x: x.C.max() - x.B.min(), include_groups=False) + A + a 5 + b 2 + dtype: int64""", + "series_examples": """ + >>> s = pd.Series([0, 1, 2], index='a a b'.split()) + >>> g1 = s.groupby(s.index, group_keys=False) + >>> g2 = s.groupby(s.index, group_keys=True) + + From ``s`` above we can see that ``g`` has two groups, ``a`` and ``b``. + Notice that ``g1`` have ``g2`` have two groups, ``a`` and ``b``, and only + differ in their ``group_keys`` argument. Calling `apply` in various ways, + we can get different grouping results: + + Example 1: The function passed to `apply` takes a Series as + its argument and returns a Series. `apply` combines the result for + each group together into a new Series. + + .. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``. + + >>> g1.apply(lambda x: x * 2 if x.name == 'a' else x / 2) + a 0.0 + a 2.0 + b 1.0 + dtype: float64 + + In the above, the groups are not part of the index. We can have them included + by using ``g2`` where ``group_keys=True``: + + >>> g2.apply(lambda x: x * 2 if x.name == 'a' else x / 2) + a a 0.0 + a 2.0 + b b 1.0 + dtype: float64 + + Example 2: The function passed to `apply` takes a Series as + its argument and returns a scalar. `apply` combines the result for + each group together into a Series, including setting the index as + appropriate: + + >>> g1.apply(lambda x: x.max() - x.min()) + a 1 + b 0 + dtype: int64 + + The ``group_keys`` argument has no effect here because the result is not + like-indexed (i.e. :ref:`a transform `) when compared + to the input. + + >>> g2.apply(lambda x: x.max() - x.min()) + a 1 + b 0 + dtype: int64""", +} + +_groupby_agg_method_template = """ +Compute {fname} of group values. + +Parameters +---------- +numeric_only : bool, default {no} + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None``. + +min_count : int, default {mc} + The required number of valid values to perform the operation. If fewer + than ``min_count`` non-NA values are present the result will be NA. + +Returns +------- +Series or DataFrame + Computed {fname} of values within each group. + +Examples +-------- +{example} +""" + +_groupby_agg_method_engine_template = """ +Compute {fname} of group values. + +Parameters +---------- +numeric_only : bool, default {no} + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None``. + +min_count : int, default {mc} + The required number of valid values to perform the operation. If fewer + than ``min_count`` non-NA values are present the result will be NA. + +engine : str, default None {e} + * ``'cython'`` : Runs rolling apply through C-extensions from cython. + * ``'numba'`` : Runs rolling apply through JIT compiled code from numba. + Only available when ``raw`` is set to ``True``. + * ``None`` : Defaults to ``'cython'`` or globally setting ``compute.use_numba`` + +engine_kwargs : dict, default None {ek} + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` and will be + applied to both the ``func`` and the ``apply`` groupby aggregation. + +Returns +------- +Series or DataFrame + Computed {fname} of values within each group. + +Examples +-------- +{example} +""" + +_pipe_template = """ +Apply a ``func`` with arguments to this %(klass)s object and return its result. + +Use `.pipe` when you want to improve readability by chaining together +functions that expect Series, DataFrames, GroupBy or Resampler objects. +Instead of writing + +>>> h = lambda x, arg2, arg3: x + 1 - arg2 * arg3 +>>> g = lambda x, arg1: x * 5 / arg1 +>>> f = lambda x: x ** 4 +>>> df = pd.DataFrame([["a", 4], ["b", 5]], columns=["group", "value"]) +>>> h(g(f(df.groupby('group')), arg1=1), arg2=2, arg3=3) # doctest: +SKIP + +You can write + +>>> (df.groupby('group') +... .pipe(f) +... .pipe(g, arg1=1) +... .pipe(h, arg2=2, arg3=3)) # doctest: +SKIP + +which is much more readable. + +Parameters +---------- +func : callable or tuple of (callable, str) + Function to apply to this %(klass)s object or, alternatively, + a `(callable, data_keyword)` tuple where `data_keyword` is a + string indicating the keyword of `callable` that expects the + %(klass)s object. +args : iterable, optional + Positional arguments passed into `func`. +kwargs : dict, optional + A dictionary of keyword arguments passed into `func`. + +Returns +------- +the return type of `func`. + +See Also +-------- +Series.pipe : Apply a function with arguments to a series. +DataFrame.pipe: Apply a function with arguments to a dataframe. +apply : Apply function to each group instead of to the + full %(klass)s object. + +Notes +----- +See more `here +`_ + +Examples +-------- +%(examples)s +""" + +_transform_template = """ +Call function producing a same-indexed %(klass)s on each group. + +Returns a %(klass)s having the same indexes as the original object +filled with the transformed values. + +Parameters +---------- +f : function, str + Function to apply to each group. See the Notes section below for requirements. + + Accepted inputs are: + + - String + - Python function + - Numba JIT function with ``engine='numba'`` specified. + + Only passing a single function is supported with this engine. + If the ``'numba'`` engine is chosen, the function must be + a user defined function with ``values`` and ``index`` as the + first and second arguments respectively in the function signature. + Each group's index will be passed to the user defined function + and optionally available for use. + + If a string is chosen, then it needs to be the name + of the groupby method you want to use. +*args + Positional arguments to pass to func. +engine : str, default None + * ``'cython'`` : Runs the function through C-extensions from cython. + * ``'numba'`` : Runs the function through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or the global setting ``compute.use_numba`` + +engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{'nopython': True, 'nogil': False, 'parallel': False}`` and will be + applied to the function + +**kwargs + Keyword arguments to be passed into func. + +Returns +------- +%(klass)s + +See Also +-------- +%(klass)s.groupby.apply : Apply function ``func`` group-wise and combine + the results together. +%(klass)s.groupby.aggregate : Aggregate using one or more + operations over the specified axis. +%(klass)s.transform : Call ``func`` on self producing a %(klass)s with the + same axis shape as self. + +Notes +----- +Each group is endowed the attribute 'name' in case you need to know +which group you are working on. + +The current implementation imposes three requirements on f: + +* f must return a value that either has the same shape as the input + subframe or can be broadcast to the shape of the input subframe. + For example, if `f` returns a scalar it will be broadcast to have the + same shape as the input subframe. +* if this is a DataFrame, f must support application column-by-column + in the subframe. If f also supports application to the entire subframe, + then a fast path is used starting from the second chunk. +* f must not mutate groups. Mutation is not supported and may + produce unexpected results. See :ref:`gotchas.udf-mutation` for more details. + +When using ``engine='numba'``, there will be no "fall back" behavior internally. +The group data and group index will be passed as numpy arrays to the JITed +user defined function, and no alternative execution attempts will be tried. + +.. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + see the examples below. + +.. versionchanged:: 2.0.0 + + When using ``.transform`` on a grouped DataFrame and the transformation function + returns a DataFrame, pandas now aligns the result's index + with the input's index. You can call ``.to_numpy()`` on the + result of the transformation function to avoid alignment. + +Examples +-------- +%(example)s""" + +_agg_template_series = """ +Aggregate using one or more operations over the specified axis. + +Parameters +---------- +func : function, str, list, dict or None + Function to use for aggregating the data. If a function, must either + work when passed a {klass} or when passed to {klass}.apply. + + Accepted combinations are: + + - function + - string function name + - list of functions and/or function names, e.g. ``[np.sum, 'mean']`` + - None, in which case ``**kwargs`` are used with Named Aggregation. Here the + output has one column for each element in ``**kwargs``. The name of the + column is keyword, whereas the value determines the aggregation used to compute + the values in the column. + + Can also accept a Numba JIT function with + ``engine='numba'`` specified. Only passing a single function is supported + with this engine. + + If the ``'numba'`` engine is chosen, the function must be + a user defined function with ``values`` and ``index`` as the + first and second arguments respectively in the function signature. + Each group's index will be passed to the user defined function + and optionally available for use. + + .. deprecated:: 2.1.0 + + Passing a dictionary is deprecated and will raise in a future version + of pandas. Pass a list of aggregations instead. +*args + Positional arguments to pass to func. +engine : str, default None + * ``'cython'`` : Runs the function through C-extensions from cython. + * ``'numba'`` : Runs the function through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting ``compute.use_numba`` + +engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` and will be + applied to the function + +**kwargs + * If ``func`` is None, ``**kwargs`` are used to define the output names and + aggregations via Named Aggregation. See ``func`` entry. + * Otherwise, keyword arguments to be passed into func. + +Returns +------- +{klass} + +See Also +-------- +{klass}.groupby.apply : Apply function func group-wise + and combine the results together. +{klass}.groupby.transform : Transforms the Series on each group + based on the given function. +{klass}.aggregate : Aggregate using one or more + operations over the specified axis. + +Notes +----- +When using ``engine='numba'``, there will be no "fall back" behavior internally. +The group data and group index will be passed as numpy arrays to the JITed +user defined function, and no alternative execution attempts will be tried. + +Functions that mutate the passed object can produce unexpected +behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` +for more details. + +.. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + see the examples below. +{examples}""" + +_agg_template_frame = """ +Aggregate using one or more operations over the specified axis. + +Parameters +---------- +func : function, str, list, dict or None + Function to use for aggregating the data. If a function, must either + work when passed a {klass} or when passed to {klass}.apply. + + Accepted combinations are: + + - function + - string function name + - list of functions and/or function names, e.g. ``[np.sum, 'mean']`` + - dict of axis labels -> functions, function names or list of such. + - None, in which case ``**kwargs`` are used with Named Aggregation. Here the + output has one column for each element in ``**kwargs``. The name of the + column is keyword, whereas the value determines the aggregation used to compute + the values in the column. + + Can also accept a Numba JIT function with + ``engine='numba'`` specified. Only passing a single function is supported + with this engine. + + If the ``'numba'`` engine is chosen, the function must be + a user defined function with ``values`` and ``index`` as the + first and second arguments respectively in the function signature. + Each group's index will be passed to the user defined function + and optionally available for use. + +*args + Positional arguments to pass to func. +engine : str, default None + * ``'cython'`` : Runs the function through C-extensions from cython. + * ``'numba'`` : Runs the function through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting ``compute.use_numba`` + +engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` and will be + applied to the function + +**kwargs + * If ``func`` is None, ``**kwargs`` are used to define the output names and + aggregations via Named Aggregation. See ``func`` entry. + * Otherwise, keyword arguments to be passed into func. + +Returns +------- +{klass} + +See Also +-------- +{klass}.groupby.apply : Apply function func group-wise + and combine the results together. +{klass}.groupby.transform : Transforms the Series on each group + based on the given function. +{klass}.aggregate : Aggregate using one or more + operations over the specified axis. + +Notes +----- +When using ``engine='numba'``, there will be no "fall back" behavior internally. +The group data and group index will be passed as numpy arrays to the JITed +user defined function, and no alternative execution attempts will be tried. + +Functions that mutate the passed object can produce unexpected +behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` +for more details. + +.. versionchanged:: 1.3.0 + + The resulting dtype will reflect the return value of the passed ``func``, + see the examples below. +{examples}""" + + +@final +class GroupByPlot(PandasObject): + """ + Class implementing the .plot attribute for groupby objects. + """ + + def __init__(self, groupby: GroupBy) -> None: + self._groupby = groupby + + def __call__(self, *args, **kwargs): + def f(self): + return self.plot(*args, **kwargs) + + f.__name__ = "plot" + return self._groupby._python_apply_general(f, self._groupby._selected_obj) + + def __getattr__(self, name: str): + def attr(*args, **kwargs): + def f(self): + return getattr(self.plot, name)(*args, **kwargs) + + return self._groupby._python_apply_general(f, self._groupby._selected_obj) + + return attr + + +_KeysArgType = Union[ + Hashable, + list[Hashable], + Callable[[Hashable], Hashable], + list[Callable[[Hashable], Hashable]], + Mapping[Hashable, Hashable], +] + + +class BaseGroupBy(PandasObject, SelectionMixin[NDFrameT], GroupByIndexingMixin): + _hidden_attrs = PandasObject._hidden_attrs | { + "as_index", + "axis", + "dropna", + "exclusions", + "grouper", + "group_keys", + "keys", + "level", + "obj", + "observed", + "sort", + } + + axis: AxisInt + _grouper: ops.BaseGrouper + keys: _KeysArgType | None = None + level: IndexLabel | None = None + group_keys: bool + + @final + def __len__(self) -> int: + return len(self.groups) + + @final + def __repr__(self) -> str: + # TODO: Better repr for GroupBy object + return object.__repr__(self) + + @final + @property + def grouper(self) -> ops.BaseGrouper: + warnings.warn( + f"{type(self).__name__}.grouper is deprecated and will be removed in a " + "future version of pandas.", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + return self._grouper + + @final + @property + def groups(self) -> dict[Hashable, np.ndarray]: + """ + Dict {group name -> group labels}. + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + dtype: int64 + >>> ser.groupby(level=0).groups + {'a': ['a', 'a'], 'b': ['b']} + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"]) + >>> df + a b c + 0 1 2 3 + 1 1 5 6 + 2 7 8 9 + >>> df.groupby(by=["a"]).groups + {1: [0, 1], 7: [2]} + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').groups + {Timestamp('2023-01-01 00:00:00'): 2, Timestamp('2023-02-01 00:00:00'): 4} + """ + return self._grouper.groups + + @final + @property + def ngroups(self) -> int: + return self._grouper.ngroups + + @final + @property + def indices(self) -> dict[Hashable, npt.NDArray[np.intp]]: + """ + Dict {group name -> group indices}. + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + dtype: int64 + >>> ser.groupby(level=0).indices + {'a': array([0, 1]), 'b': array([2])} + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["owl", "toucan", "eagle"]) + >>> df + a b c + owl 1 2 3 + toucan 1 5 6 + eagle 7 8 9 + >>> df.groupby(by=["a"]).indices + {1: array([0, 1]), 7: array([2])} + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').indices + defaultdict(, {Timestamp('2023-01-01 00:00:00'): [0, 1], + Timestamp('2023-02-01 00:00:00'): [2, 3]}) + """ + return self._grouper.indices + + @final + def _get_indices(self, names): + """ + Safe get multiple indices, translate keys for + datelike to underlying repr. + """ + + def get_converter(s): + # possibly convert to the actual key types + # in the indices, could be a Timestamp or a np.datetime64 + if isinstance(s, datetime.datetime): + return lambda key: Timestamp(key) + elif isinstance(s, np.datetime64): + return lambda key: Timestamp(key).asm8 + else: + return lambda key: key + + if len(names) == 0: + return [] + + if len(self.indices) > 0: + index_sample = next(iter(self.indices)) + else: + index_sample = None # Dummy sample + + name_sample = names[0] + if isinstance(index_sample, tuple): + if not isinstance(name_sample, tuple): + msg = "must supply a tuple to get_group with multiple grouping keys" + raise ValueError(msg) + if not len(name_sample) == len(index_sample): + try: + # If the original grouper was a tuple + return [self.indices[name] for name in names] + except KeyError as err: + # turns out it wasn't a tuple + msg = ( + "must supply a same-length tuple to get_group " + "with multiple grouping keys" + ) + raise ValueError(msg) from err + + converters = [get_converter(s) for s in index_sample] + names = (tuple(f(n) for f, n in zip(converters, name)) for name in names) + + else: + converter = get_converter(index_sample) + names = (converter(name) for name in names) + + return [self.indices.get(name, []) for name in names] + + @final + def _get_index(self, name): + """ + Safe get index, translate keys for datelike to underlying repr. + """ + return self._get_indices([name])[0] + + @final + @cache_readonly + def _selected_obj(self): + # Note: _selected_obj is always just `self.obj` for SeriesGroupBy + if isinstance(self.obj, Series): + return self.obj + + if self._selection is not None: + if is_hashable(self._selection): + # i.e. a single key, so selecting it will return a Series. + # In this case, _obj_with_exclusions would wrap the key + # in a list and return a single-column DataFrame. + return self.obj[self._selection] + + # Otherwise _selection is equivalent to _selection_list, so + # _selected_obj matches _obj_with_exclusions, so we can reuse + # that and avoid making a copy. + return self._obj_with_exclusions + + return self.obj + + @final + def _dir_additions(self) -> set[str]: + return self.obj._dir_additions() + + @Substitution( + klass="GroupBy", + examples=dedent( + """\ + >>> df = pd.DataFrame({'A': 'a b a b'.split(), 'B': [1, 2, 3, 4]}) + >>> df + A B + 0 a 1 + 1 b 2 + 2 a 3 + 3 b 4 + + To get the difference between each groups maximum and minimum value in one + pass, you can do + + >>> df.groupby('A').pipe(lambda x: x.max() - x.min()) + B + A + a 2 + b 2""" + ), + ) + @Appender(_pipe_template) + def pipe( + self, + func: Callable[..., T] | tuple[Callable[..., T], str], + *args, + **kwargs, + ) -> T: + return com.pipe(self, func, *args, **kwargs) + + @final + def get_group(self, name, obj=None) -> DataFrame | Series: + """ + Construct DataFrame from group with provided name. + + Parameters + ---------- + name : object + The name of the group to get as a DataFrame. + obj : DataFrame, default None + The DataFrame to take the DataFrame out of. If + it is None, the object groupby was called on will + be used. + + .. deprecated:: 2.1.0 + The obj is deprecated and will be removed in a future version. + Do ``df.iloc[gb.indices.get(name)]`` + instead of ``gb.get_group(name, obj=df)``. + + Returns + ------- + same type as obj + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + dtype: int64 + >>> ser.groupby(level=0).get_group("a") + a 1 + a 2 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["owl", "toucan", "eagle"]) + >>> df + a b c + owl 1 2 3 + toucan 1 5 6 + eagle 7 8 9 + >>> df.groupby(by=["a"]).get_group((1,)) + a b c + owl 1 2 3 + toucan 1 5 6 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').get_group('2023-01-01') + 2023-01-01 1 + 2023-01-15 2 + dtype: int64 + """ + keys = self.keys + level = self.level + # mypy doesn't recognize level/keys as being sized when passed to len + if (is_list_like(level) and len(level) == 1) or ( # type: ignore[arg-type] + is_list_like(keys) and len(keys) == 1 # type: ignore[arg-type] + ): + # GH#25971 + if isinstance(name, tuple) and len(name) == 1: + # Allow users to pass tuples of length 1 to silence warning + name = name[0] + elif not isinstance(name, tuple): + warnings.warn( + "When grouping with a length-1 list-like, " + "you will need to pass a length-1 tuple to get_group in a future " + "version of pandas. Pass `(name,)` instead of `name` to silence " + "this warning.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + inds = self._get_index(name) + if not len(inds): + raise KeyError(name) + + if obj is None: + indexer = inds if self.axis == 0 else (slice(None), inds) + return self._selected_obj.iloc[indexer] + else: + warnings.warn( + "obj is deprecated and will be removed in a future version. " + "Do ``df.iloc[gb.indices.get(name)]`` " + "instead of ``gb.get_group(name, obj=df)``.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return obj._take_with_is_copy(inds, axis=self.axis) + + @final + def __iter__(self) -> Iterator[tuple[Hashable, NDFrameT]]: + """ + Groupby iterator. + + Returns + ------- + Generator yielding sequence of (name, subsetted object) + for each group + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + dtype: int64 + >>> for x, y in ser.groupby(level=0): + ... print(f'{x}\\n{y}\\n') + a + a 1 + a 2 + dtype: int64 + b + b 3 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"]) + >>> df + a b c + 0 1 2 3 + 1 1 5 6 + 2 7 8 9 + >>> for x, y in df.groupby(by=["a"]): + ... print(f'{x}\\n{y}\\n') + (1,) + a b c + 0 1 2 3 + 1 1 5 6 + (7,) + a b c + 2 7 8 9 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> for x, y in ser.resample('MS'): + ... print(f'{x}\\n{y}\\n') + 2023-01-01 00:00:00 + 2023-01-01 1 + 2023-01-15 2 + dtype: int64 + 2023-02-01 00:00:00 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + """ + keys = self.keys + level = self.level + result = self._grouper.get_iterator(self._selected_obj, axis=self.axis) + # error: Argument 1 to "len" has incompatible type "Hashable"; expected "Sized" + if is_list_like(level) and len(level) == 1: # type: ignore[arg-type] + # GH 51583 + warnings.warn( + "Creating a Groupby object with a length-1 list-like " + "level parameter will yield indexes as tuples in a future version. " + "To keep indexes as scalars, create Groupby objects with " + "a scalar level parameter instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if isinstance(keys, list) and len(keys) == 1: + # GH#42795 - when keys is a list, return tuples even when length is 1 + result = (((key,), group) for key, group in result) + return result + + +# To track operations that expand dimensions, like ohlc +OutputFrameOrSeries = TypeVar("OutputFrameOrSeries", bound=NDFrame) + + +class GroupBy(BaseGroupBy[NDFrameT]): + """ + Class for grouping and aggregating relational data. + + See aggregate, transform, and apply functions on this object. + + It's easiest to use obj.groupby(...) to use GroupBy, but you can also do: + + :: + + grouped = groupby(obj, ...) + + Parameters + ---------- + obj : pandas object + axis : int, default 0 + level : int, default None + Level of MultiIndex + groupings : list of Grouping objects + Most users should ignore this + exclusions : array-like, optional + List of columns to exclude + name : str + Most users should ignore this + + Returns + ------- + **Attributes** + groups : dict + {group name -> group labels} + len(grouped) : int + Number of groups + + Notes + ----- + After grouping, see aggregate, apply, and transform functions. Here are + some other brief notes about usage. When grouping by multiple groups, the + result index will be a MultiIndex (hierarchical) by default. + + Iteration produces (key, group) tuples, i.e. chunking the data by group. So + you can write code like: + + :: + + grouped = obj.groupby(keys, axis=axis) + for key, group in grouped: + # do something with the data + + Function calls on GroupBy, if not specially implemented, "dispatch" to the + grouped data. So if you group a DataFrame and wish to invoke the std() + method on each group, you can simply do: + + :: + + df.groupby(mapper).std() + + rather than + + :: + + df.groupby(mapper).aggregate(np.std) + + You can pass arguments to these "wrapped" functions, too. + + See the online documentation for full exposition on these topics and much + more + """ + + _grouper: ops.BaseGrouper + as_index: bool + + @final + def __init__( + self, + obj: NDFrameT, + keys: _KeysArgType | None = None, + axis: Axis = 0, + level: IndexLabel | None = None, + grouper: ops.BaseGrouper | None = None, + exclusions: frozenset[Hashable] | None = None, + selection: IndexLabel | None = None, + as_index: bool = True, + sort: bool = True, + group_keys: bool = True, + observed: bool | lib.NoDefault = lib.no_default, + dropna: bool = True, + ) -> None: + self._selection = selection + + assert isinstance(obj, NDFrame), type(obj) + + self.level = level + + if not as_index: + if axis != 0: + raise ValueError("as_index=False only valid for axis=0") + + self.as_index = as_index + self.keys = keys + self.sort = sort + self.group_keys = group_keys + self.dropna = dropna + + if grouper is None: + grouper, exclusions, obj = get_grouper( + obj, + keys, + axis=axis, + level=level, + sort=sort, + observed=False if observed is lib.no_default else observed, + dropna=self.dropna, + ) + + if observed is lib.no_default: + if any(ping._passed_categorical for ping in grouper.groupings): + warnings.warn( + "The default of observed=False is deprecated and will be changed " + "to True in a future version of pandas. Pass observed=False to " + "retain current behavior or observed=True to adopt the future " + "default and silence this warning.", + FutureWarning, + stacklevel=find_stack_level(), + ) + observed = False + self.observed = observed + + self.obj = obj + self.axis = obj._get_axis_number(axis) + self._grouper = grouper + self.exclusions = frozenset(exclusions) if exclusions else frozenset() + + def __getattr__(self, attr: str): + if attr in self._internal_names_set: + return object.__getattribute__(self, attr) + if attr in self.obj: + return self[attr] + + raise AttributeError( + f"'{type(self).__name__}' object has no attribute '{attr}'" + ) + + @final + def _deprecate_axis(self, axis: int, name: str) -> None: + if axis == 1: + warnings.warn( + f"{type(self).__name__}.{name} with axis=1 is deprecated and " + "will be removed in a future version. Operate on the un-grouped " + "DataFrame instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + f"The 'axis' keyword in {type(self).__name__}.{name} is deprecated " + "and will be removed in a future version. " + "Call without passing 'axis' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + @final + def _op_via_apply(self, name: str, *args, **kwargs): + """Compute the result of an operation by using GroupBy's apply.""" + f = getattr(type(self._obj_with_exclusions), name) + sig = inspect.signature(f) + + if "axis" in kwargs and kwargs["axis"] is not lib.no_default: + axis = self.obj._get_axis_number(kwargs["axis"]) + self._deprecate_axis(axis, name) + elif "axis" in kwargs: + # exclude skew here because that was already defaulting to lib.no_default + # before this deprecation was instituted + if name == "skew": + pass + elif name == "fillna": + # maintain the behavior from before the deprecation + kwargs["axis"] = None + else: + kwargs["axis"] = 0 + + # a little trickery for aggregation functions that need an axis + # argument + if "axis" in sig.parameters: + if kwargs.get("axis", None) is None or kwargs.get("axis") is lib.no_default: + kwargs["axis"] = self.axis + + def curried(x): + return f(x, *args, **kwargs) + + # preserve the name so we can detect it when calling plot methods, + # to avoid duplicates + curried.__name__ = name + + # special case otherwise extra plots are created when catching the + # exception below + if name in base.plotting_methods: + return self._python_apply_general(curried, self._selected_obj) + + is_transform = name in base.transformation_kernels + result = self._python_apply_general( + curried, + self._obj_with_exclusions, + is_transform=is_transform, + not_indexed_same=not is_transform, + ) + + if self._grouper.has_dropped_na and is_transform: + # result will have dropped rows due to nans, fill with null + # and ensure index is ordered same as the input + result = self._set_result_index_ordered(result) + return result + + # ----------------------------------------------------------------- + # Dispatch/Wrapping + + @final + def _concat_objects( + self, + values, + not_indexed_same: bool = False, + is_transform: bool = False, + ): + from pandas.core.reshape.concat import concat + + if self.group_keys and not is_transform: + if self.as_index: + # possible MI return case + group_keys = self._grouper.result_index + group_levels = self._grouper.levels + group_names = self._grouper.names + + result = concat( + values, + axis=self.axis, + keys=group_keys, + levels=group_levels, + names=group_names, + sort=False, + ) + else: + # GH5610, returns a MI, with the first level being a + # range index + keys = list(range(len(values))) + result = concat(values, axis=self.axis, keys=keys) + + elif not not_indexed_same: + result = concat(values, axis=self.axis) + + ax = self._selected_obj._get_axis(self.axis) + if self.dropna: + labels = self._grouper.group_info[0] + mask = labels != -1 + ax = ax[mask] + + # this is a very unfortunate situation + # we can't use reindex to restore the original order + # when the ax has duplicates + # so we resort to this + # GH 14776, 30667 + # TODO: can we reuse e.g. _reindex_non_unique? + if ax.has_duplicates and not result.axes[self.axis].equals(ax): + # e.g. test_category_order_transformer + target = algorithms.unique1d(ax._values) + indexer, _ = result.index.get_indexer_non_unique(target) + result = result.take(indexer, axis=self.axis) + else: + result = result.reindex(ax, axis=self.axis, copy=False) + + else: + result = concat(values, axis=self.axis) + + if self.obj.ndim == 1: + name = self.obj.name + elif is_hashable(self._selection): + name = self._selection + else: + name = None + + if isinstance(result, Series) and name is not None: + result.name = name + + return result + + @final + def _set_result_index_ordered( + self, result: OutputFrameOrSeries + ) -> OutputFrameOrSeries: + # set the result index on the passed values object and + # return the new object, xref 8046 + + obj_axis = self.obj._get_axis(self.axis) + + if self._grouper.is_monotonic and not self._grouper.has_dropped_na: + # shortcut if we have an already ordered grouper + result = result.set_axis(obj_axis, axis=self.axis, copy=False) + return result + + # row order is scrambled => sort the rows by position in original index + original_positions = Index(self._grouper.result_ilocs()) + result = result.set_axis(original_positions, axis=self.axis, copy=False) + result = result.sort_index(axis=self.axis) + if self._grouper.has_dropped_na: + # Add back in any missing rows due to dropna - index here is integral + # with values referring to the row of the input so can use RangeIndex + result = result.reindex(RangeIndex(len(obj_axis)), axis=self.axis) + result = result.set_axis(obj_axis, axis=self.axis, copy=False) + + return result + + @final + def _insert_inaxis_grouper(self, result: Series | DataFrame) -> DataFrame: + if isinstance(result, Series): + result = result.to_frame() + + # zip in reverse so we can always insert at loc 0 + columns = result.columns + for name, lev, in_axis in zip( + reversed(self._grouper.names), + reversed(self._grouper.get_group_levels()), + reversed([grp.in_axis for grp in self._grouper.groupings]), + ): + # GH #28549 + # When using .apply(-), name will be in columns already + if name not in columns: + if in_axis: + result.insert(0, name, lev) + else: + msg = ( + "A grouping was used that is not in the columns of the " + "DataFrame and so was excluded from the result. This grouping " + "will be included in a future version of pandas. Add the " + "grouping as a column of the DataFrame to silence this warning." + ) + warnings.warn( + message=msg, + category=FutureWarning, + stacklevel=find_stack_level(), + ) + + return result + + @final + def _maybe_transpose_result(self, result: NDFrameT) -> NDFrameT: + if self.axis == 1: + # Only relevant for DataFrameGroupBy, no-op for SeriesGroupBy + result = result.T + if result.index.equals(self.obj.index): + # Retain e.g. DatetimeIndex/TimedeltaIndex freq + # e.g. test_groupby_crash_on_nunique + result.index = self.obj.index.copy() + return result + + @final + def _wrap_aggregated_output( + self, + result: Series | DataFrame, + qs: npt.NDArray[np.float64] | None = None, + ): + """ + Wraps the output of GroupBy aggregations into the expected result. + + Parameters + ---------- + result : Series, DataFrame + + Returns + ------- + Series or DataFrame + """ + # ATM we do not get here for SeriesGroupBy; when we do, we will + # need to require that result.name already match self.obj.name + + if not self.as_index: + # `not self.as_index` is only relevant for DataFrameGroupBy, + # enforced in __init__ + result = self._insert_inaxis_grouper(result) + result = result._consolidate() + index = Index(range(self._grouper.ngroups)) + + else: + index = self._grouper.result_index + + if qs is not None: + # We get here with len(qs) != 1 and not self.as_index + # in test_pass_args_kwargs + index = _insert_quantile_level(index, qs) + + result.index = index + + # error: Argument 1 to "_maybe_transpose_result" of "GroupBy" has + # incompatible type "Union[Series, DataFrame]"; expected "NDFrameT" + res = self._maybe_transpose_result(result) # type: ignore[arg-type] + return self._reindex_output(res, qs=qs) + + def _wrap_applied_output( + self, + data, + values: list, + not_indexed_same: bool = False, + is_transform: bool = False, + ): + raise AbstractMethodError(self) + + # ----------------------------------------------------------------- + # numba + + @final + def _numba_prep(self, data: DataFrame): + ids, _, ngroups = self._grouper.group_info + sorted_index = self._grouper._sort_idx + sorted_ids = self._grouper._sorted_ids + + sorted_data = data.take(sorted_index, axis=self.axis).to_numpy() + # GH 46867 + index_data = data.index + if isinstance(index_data, MultiIndex): + if len(self._grouper.groupings) > 1: + raise NotImplementedError( + "Grouping with more than 1 grouping labels and " + "a MultiIndex is not supported with engine='numba'" + ) + group_key = self._grouper.groupings[0].name + index_data = index_data.get_level_values(group_key) + sorted_index_data = index_data.take(sorted_index).to_numpy() + + starts, ends = lib.generate_slices(sorted_ids, ngroups) + return ( + starts, + ends, + sorted_index_data, + sorted_data, + ) + + def _numba_agg_general( + self, + func: Callable, + dtype_mapping: dict[np.dtype, Any], + engine_kwargs: dict[str, bool] | None, + **aggregator_kwargs, + ): + """ + Perform groupby with a standard numerical aggregation function (e.g. mean) + with Numba. + """ + if not self.as_index: + raise NotImplementedError( + "as_index=False is not supported. Use .reset_index() instead." + ) + if self.axis == 1: + raise NotImplementedError("axis=1 is not supported.") + + data = self._obj_with_exclusions + df = data if data.ndim == 2 else data.to_frame() + + aggregator = executor.generate_shared_aggregator( + func, + dtype_mapping, + True, # is_grouped_kernel + **get_jit_arguments(engine_kwargs), + ) + # Pass group ids to kernel directly if it can handle it + # (This is faster since it doesn't require a sort) + ids, _, _ = self._grouper.group_info + ngroups = self._grouper.ngroups + + res_mgr = df._mgr.apply( + aggregator, labels=ids, ngroups=ngroups, **aggregator_kwargs + ) + res_mgr.axes[1] = self._grouper.result_index + result = df._constructor_from_mgr(res_mgr, axes=res_mgr.axes) + + if data.ndim == 1: + result = result.squeeze("columns") + result.name = data.name + else: + result.columns = data.columns + return result + + @final + def _transform_with_numba(self, func, *args, engine_kwargs=None, **kwargs): + """ + Perform groupby transform routine with the numba engine. + + This routine mimics the data splitting routine of the DataSplitter class + to generate the indices of each group in the sorted data and then passes the + data and indices into a Numba jitted function. + """ + data = self._obj_with_exclusions + df = data if data.ndim == 2 else data.to_frame() + + starts, ends, sorted_index, sorted_data = self._numba_prep(df) + numba_.validate_udf(func) + numba_transform_func = numba_.generate_numba_transform_func( + func, **get_jit_arguments(engine_kwargs, kwargs) + ) + result = numba_transform_func( + sorted_data, + sorted_index, + starts, + ends, + len(df.columns), + *args, + ) + # result values needs to be resorted to their original positions since we + # evaluated the data sorted by group + result = result.take(np.argsort(sorted_index), axis=0) + index = data.index + if data.ndim == 1: + result_kwargs = {"name": data.name} + result = result.ravel() + else: + result_kwargs = {"columns": data.columns} + return data._constructor(result, index=index, **result_kwargs) + + @final + def _aggregate_with_numba(self, func, *args, engine_kwargs=None, **kwargs): + """ + Perform groupby aggregation routine with the numba engine. + + This routine mimics the data splitting routine of the DataSplitter class + to generate the indices of each group in the sorted data and then passes the + data and indices into a Numba jitted function. + """ + data = self._obj_with_exclusions + df = data if data.ndim == 2 else data.to_frame() + + starts, ends, sorted_index, sorted_data = self._numba_prep(df) + numba_.validate_udf(func) + numba_agg_func = numba_.generate_numba_agg_func( + func, **get_jit_arguments(engine_kwargs, kwargs) + ) + result = numba_agg_func( + sorted_data, + sorted_index, + starts, + ends, + len(df.columns), + *args, + ) + index = self._grouper.result_index + if data.ndim == 1: + result_kwargs = {"name": data.name} + result = result.ravel() + else: + result_kwargs = {"columns": data.columns} + res = data._constructor(result, index=index, **result_kwargs) + if not self.as_index: + res = self._insert_inaxis_grouper(res) + res.index = default_index(len(res)) + return res + + # ----------------------------------------------------------------- + # apply/agg/transform + + @Appender( + _apply_docs["template"].format( + input="dataframe", examples=_apply_docs["dataframe_examples"] + ) + ) + def apply(self, func, *args, include_groups: bool = True, **kwargs) -> NDFrameT: + orig_func = func + func = com.is_builtin_func(func) + if orig_func != func: + alias = com._builtin_table_alias[orig_func] + warn_alias_replacement(self, orig_func, alias) + + if isinstance(func, str): + if hasattr(self, func): + res = getattr(self, func) + if callable(res): + return res(*args, **kwargs) + elif args or kwargs: + raise ValueError(f"Cannot pass arguments to property {func}") + return res + + else: + raise TypeError(f"apply func should be callable, not '{func}'") + + elif args or kwargs: + if callable(func): + + @wraps(func) + def f(g): + return func(g, *args, **kwargs) + + else: + raise ValueError( + "func must be a callable if args or kwargs are supplied" + ) + else: + f = func + + if not include_groups: + return self._python_apply_general(f, self._obj_with_exclusions) + + # ignore SettingWithCopy here in case the user mutates + with option_context("mode.chained_assignment", None): + try: + result = self._python_apply_general(f, self._selected_obj) + if ( + not isinstance(self.obj, Series) + and self._selection is None + and self._selected_obj.shape != self._obj_with_exclusions.shape + ): + warnings.warn( + message=_apply_groupings_depr.format( + type(self).__name__, "apply" + ), + category=FutureWarning, + stacklevel=find_stack_level(), + ) + except TypeError: + # gh-20949 + # try again, with .apply acting as a filtering + # operation, by excluding the grouping column + # This would normally not be triggered + # except if the udf is trying an operation that + # fails on *some* columns, e.g. a numeric operation + # on a string grouper column + + return self._python_apply_general(f, self._obj_with_exclusions) + + return result + + @final + def _python_apply_general( + self, + f: Callable, + data: DataFrame | Series, + not_indexed_same: bool | None = None, + is_transform: bool = False, + is_agg: bool = False, + ) -> NDFrameT: + """ + Apply function f in python space + + Parameters + ---------- + f : callable + Function to apply + data : Series or DataFrame + Data to apply f to + not_indexed_same: bool, optional + When specified, overrides the value of not_indexed_same. Apply behaves + differently when the result index is equal to the input index, but + this can be coincidental leading to value-dependent behavior. + is_transform : bool, default False + Indicator for whether the function is actually a transform + and should not have group keys prepended. + is_agg : bool, default False + Indicator for whether the function is an aggregation. When the + result is empty, we don't want to warn for this case. + See _GroupBy._python_agg_general. + + Returns + ------- + Series or DataFrame + data after applying f + """ + values, mutated = self._grouper.apply_groupwise(f, data, self.axis) + if not_indexed_same is None: + not_indexed_same = mutated + + return self._wrap_applied_output( + data, + values, + not_indexed_same, + is_transform, + ) + + @final + def _agg_general( + self, + numeric_only: bool = False, + min_count: int = -1, + *, + alias: str, + npfunc: Callable | None = None, + **kwargs, + ): + result = self._cython_agg_general( + how=alias, + alt=npfunc, + numeric_only=numeric_only, + min_count=min_count, + **kwargs, + ) + return result.__finalize__(self.obj, method="groupby") + + def _agg_py_fallback( + self, how: str, values: ArrayLike, ndim: int, alt: Callable + ) -> ArrayLike: + """ + Fallback to pure-python aggregation if _cython_operation raises + NotImplementedError. + """ + # We get here with a) EADtypes and b) object dtype + assert alt is not None + + if values.ndim == 1: + # For DataFrameGroupBy we only get here with ExtensionArray + ser = Series(values, copy=False) + else: + # We only get here with values.dtype == object + df = DataFrame(values.T, dtype=values.dtype) + # bc we split object blocks in grouped_reduce, we have only 1 col + # otherwise we'd have to worry about block-splitting GH#39329 + assert df.shape[1] == 1 + # Avoid call to self.values that can occur in DataFrame + # reductions; see GH#28949 + ser = df.iloc[:, 0] + + # We do not get here with UDFs, so we know that our dtype + # should always be preserved by the implemented aggregations + # TODO: Is this exactly right; see WrappedCythonOp get_result_dtype? + try: + res_values = self._grouper.agg_series(ser, alt, preserve_dtype=True) + except Exception as err: + msg = f"agg function failed [how->{how},dtype->{ser.dtype}]" + # preserve the kind of exception that raised + raise type(err)(msg) from err + + dtype = ser.dtype + if dtype == object: + res_values = res_values.astype(object, copy=False) + elif is_string_dtype(dtype): + # mypy doesn't infer dtype is an ExtensionDtype + string_array_cls = dtype.construct_array_type() # type: ignore[union-attr] + res_values = string_array_cls._from_sequence(res_values, dtype=dtype) + + # If we are DataFrameGroupBy and went through a SeriesGroupByPath + # then we need to reshape + # GH#32223 includes case with IntegerArray values, ndarray res_values + # test_groupby_duplicate_columns with object dtype values + return ensure_block_shape(res_values, ndim=ndim) + + @final + def _cython_agg_general( + self, + how: str, + alt: Callable | None = None, + numeric_only: bool = False, + min_count: int = -1, + **kwargs, + ): + # Note: we never get here with how="ohlc" for DataFrameGroupBy; + # that goes through SeriesGroupBy + + data = self._get_data_to_aggregate(numeric_only=numeric_only, name=how) + + def array_func(values: ArrayLike) -> ArrayLike: + try: + result = self._grouper._cython_operation( + "aggregate", + values, + how, + axis=data.ndim - 1, + min_count=min_count, + **kwargs, + ) + except NotImplementedError: + # generally if we have numeric_only=False + # and non-applicable functions + # try to python agg + # TODO: shouldn't min_count matter? + # TODO: avoid special casing SparseArray here + if how in ["any", "all"] and isinstance(values, SparseArray): + pass + elif alt is None or how in ["any", "all", "std", "sem"]: + raise # TODO: re-raise as TypeError? should not be reached + else: + return result + + assert alt is not None + result = self._agg_py_fallback(how, values, ndim=data.ndim, alt=alt) + return result + + new_mgr = data.grouped_reduce(array_func) + res = self._wrap_agged_manager(new_mgr) + if how in ["idxmin", "idxmax"]: + res = self._wrap_idxmax_idxmin(res) + out = self._wrap_aggregated_output(res) + if self.axis == 1: + out = out.infer_objects(copy=False) + return out + + def _cython_transform( + self, how: str, numeric_only: bool = False, axis: AxisInt = 0, **kwargs + ): + raise AbstractMethodError(self) + + @final + def _transform(self, func, *args, engine=None, engine_kwargs=None, **kwargs): + # optimized transforms + orig_func = func + func = com.get_cython_func(func) or func + if orig_func != func: + warn_alias_replacement(self, orig_func, func) + + if not isinstance(func, str): + return self._transform_general(func, engine, engine_kwargs, *args, **kwargs) + + elif func not in base.transform_kernel_allowlist: + msg = f"'{func}' is not a valid function name for transform(name)" + raise ValueError(msg) + elif func in base.cythonized_kernels or func in base.transformation_kernels: + # cythonized transform or canned "agg+broadcast" + if engine is not None: + kwargs["engine"] = engine + kwargs["engine_kwargs"] = engine_kwargs + return getattr(self, func)(*args, **kwargs) + + else: + # i.e. func in base.reduction_kernels + + # GH#30918 Use _transform_fast only when we know func is an aggregation + # If func is a reduction, we need to broadcast the + # result to the whole group. Compute func result + # and deal with possible broadcasting below. + with com.temp_setattr(self, "as_index", True): + # GH#49834 - result needs groups in the index for + # _wrap_transform_fast_result + if func in ["idxmin", "idxmax"]: + func = cast(Literal["idxmin", "idxmax"], func) + result = self._idxmax_idxmin(func, True, *args, **kwargs) + else: + if engine is not None: + kwargs["engine"] = engine + kwargs["engine_kwargs"] = engine_kwargs + result = getattr(self, func)(*args, **kwargs) + + return self._wrap_transform_fast_result(result) + + @final + def _wrap_transform_fast_result(self, result: NDFrameT) -> NDFrameT: + """ + Fast transform path for aggregations. + """ + obj = self._obj_with_exclusions + + # for each col, reshape to size of original frame by take operation + ids, _, _ = self._grouper.group_info + result = result.reindex(self._grouper.result_index, axis=self.axis, copy=False) + + if self.obj.ndim == 1: + # i.e. SeriesGroupBy + out = algorithms.take_nd(result._values, ids) + output = obj._constructor(out, index=obj.index, name=obj.name) + else: + # `.size()` gives Series output on DataFrame input, need axis 0 + axis = 0 if result.ndim == 1 else self.axis + # GH#46209 + # Don't convert indices: negative indices need to give rise + # to null values in the result + new_ax = result.axes[axis].take(ids) + output = result._reindex_with_indexers( + {axis: (new_ax, ids)}, allow_dups=True, copy=False + ) + output = output.set_axis(obj._get_axis(self.axis), axis=axis) + return output + + # ----------------------------------------------------------------- + # Utilities + + @final + def _apply_filter(self, indices, dropna): + if len(indices) == 0: + indices = np.array([], dtype="int64") + else: + indices = np.sort(np.concatenate(indices)) + if dropna: + filtered = self._selected_obj.take(indices, axis=self.axis) + else: + mask = np.empty(len(self._selected_obj.index), dtype=bool) + mask.fill(False) + mask[indices.astype(int)] = True + # mask fails to broadcast when passed to where; broadcast manually. + mask = np.tile(mask, list(self._selected_obj.shape[1:]) + [1]).T + filtered = self._selected_obj.where(mask) # Fill with NaNs. + return filtered + + @final + def _cumcount_array(self, ascending: bool = True) -> np.ndarray: + """ + Parameters + ---------- + ascending : bool, default True + If False, number in reverse, from length of group - 1 to 0. + + Notes + ----- + this is currently implementing sort=False + (though the default is sort=True) for groupby in general + """ + ids, _, ngroups = self._grouper.group_info + sorter = get_group_index_sorter(ids, ngroups) + ids, count = ids[sorter], len(ids) + + if count == 0: + return np.empty(0, dtype=np.int64) + + run = np.r_[True, ids[:-1] != ids[1:]] + rep = np.diff(np.r_[np.nonzero(run)[0], count]) + out = (~run).cumsum() + + if ascending: + out -= np.repeat(out[run], rep) + else: + out = np.repeat(out[np.r_[run[1:], True]], rep) - out + + if self._grouper.has_dropped_na: + out = np.where(ids == -1, np.nan, out.astype(np.float64, copy=False)) + else: + out = out.astype(np.int64, copy=False) + + rev = np.empty(count, dtype=np.intp) + rev[sorter] = np.arange(count, dtype=np.intp) + return out[rev] + + # ----------------------------------------------------------------- + + @final + @property + def _obj_1d_constructor(self) -> Callable: + # GH28330 preserve subclassed Series/DataFrames + if isinstance(self.obj, DataFrame): + return self.obj._constructor_sliced + assert isinstance(self.obj, Series) + return self.obj._constructor + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def any(self, skipna: bool = True) -> NDFrameT: + """ + Return True if any value in the group is truthful, else False. + + Parameters + ---------- + skipna : bool, default True + Flag to ignore nan values during truth testing. + + Returns + ------- + Series or DataFrame + DataFrame or Series of boolean values, where a value is True if any element + is True within its respective group, False otherwise. + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 0], index=lst) + >>> ser + a 1 + a 2 + b 0 + dtype: int64 + >>> ser.groupby(level=0).any() + a True + b False + dtype: bool + + For DataFrameGroupBy: + + >>> data = [[1, 0, 3], [1, 0, 6], [7, 1, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["ostrich", "penguin", "parrot"]) + >>> df + a b c + ostrich 1 0 3 + penguin 1 0 6 + parrot 7 1 9 + >>> df.groupby(by=["a"]).any() + b c + a + 1 False True + 7 True True + """ + return self._cython_agg_general( + "any", + alt=lambda x: Series(x, copy=False).any(skipna=skipna), + skipna=skipna, + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def all(self, skipna: bool = True) -> NDFrameT: + """ + Return True if all values in the group are truthful, else False. + + Parameters + ---------- + skipna : bool, default True + Flag to ignore nan values during truth testing. + + Returns + ------- + Series or DataFrame + DataFrame or Series of boolean values, where a value is True if all elements + are True within its respective group, False otherwise. + %(see_also)s + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 0], index=lst) + >>> ser + a 1 + a 2 + b 0 + dtype: int64 + >>> ser.groupby(level=0).all() + a True + b False + dtype: bool + + For DataFrameGroupBy: + + >>> data = [[1, 0, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["ostrich", "penguin", "parrot"]) + >>> df + a b c + ostrich 1 0 3 + penguin 1 5 6 + parrot 7 8 9 + >>> df.groupby(by=["a"]).all() + b c + a + 1 False True + 7 True True + """ + return self._cython_agg_general( + "all", + alt=lambda x: Series(x, copy=False).all(skipna=skipna), + skipna=skipna, + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def count(self) -> NDFrameT: + """ + Compute count of group, excluding missing values. + + Returns + ------- + Series or DataFrame + Count of values within each group. + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, np.nan], index=lst) + >>> ser + a 1.0 + a 2.0 + b NaN + dtype: float64 + >>> ser.groupby(level=0).count() + a 2 + b 0 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, np.nan, 3], [1, np.nan, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["cow", "horse", "bull"]) + >>> df + a b c + cow 1 NaN 3 + horse 1 NaN 6 + bull 7 8.0 9 + >>> df.groupby("a").count() + b c + a + 1 0 2 + 7 1 1 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').count() + 2023-01-01 2 + 2023-02-01 2 + Freq: MS, dtype: int64 + """ + data = self._get_data_to_aggregate() + ids, _, ngroups = self._grouper.group_info + mask = ids != -1 + + is_series = data.ndim == 1 + + def hfunc(bvalues: ArrayLike) -> ArrayLike: + # TODO(EA2D): reshape would not be necessary with 2D EAs + if bvalues.ndim == 1: + # EA + masked = mask & ~isna(bvalues).reshape(1, -1) + else: + masked = mask & ~isna(bvalues) + + counted = lib.count_level_2d(masked, labels=ids, max_bin=ngroups) + if isinstance(bvalues, BaseMaskedArray): + return IntegerArray( + counted[0], mask=np.zeros(counted.shape[1], dtype=np.bool_) + ) + elif isinstance(bvalues, ArrowExtensionArray) and not isinstance( + bvalues.dtype, StringDtype + ): + dtype = pandas_dtype("int64[pyarrow]") + return type(bvalues)._from_sequence(counted[0], dtype=dtype) + if is_series: + assert counted.ndim == 2 + assert counted.shape[0] == 1 + return counted[0] + return counted + + new_mgr = data.grouped_reduce(hfunc) + new_obj = self._wrap_agged_manager(new_mgr) + + # If we are grouping on categoricals we want unobserved categories to + # return zero, rather than the default of NaN which the reindexing in + # _wrap_aggregated_output() returns. GH 35028 + # e.g. test_dataframe_groupby_on_2_categoricals_when_observed_is_false + with com.temp_setattr(self, "observed", True): + result = self._wrap_aggregated_output(new_obj) + + return self._reindex_output(result, fill_value=0) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def mean( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + """ + Compute mean of groups, excluding missing values. + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None`` and defaults to ``False``. + + engine : str, default None + * ``'cython'`` : Runs the operation through C-extensions from cython. + * ``'numba'`` : Runs the operation through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting + ``compute.use_numba`` + + .. versionadded:: 1.4.0 + + engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` + + .. versionadded:: 1.4.0 + + Returns + ------- + pandas.Series or pandas.DataFrame + %(see_also)s + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 1, 2, 1, 2], + ... 'B': [np.nan, 2, 3, 4, 5], + ... 'C': [1, 2, 1, 1, 2]}, columns=['A', 'B', 'C']) + + Groupby one column and return the mean of the remaining columns in + each group. + + >>> df.groupby('A').mean() + B C + A + 1 3.0 1.333333 + 2 4.0 1.500000 + + Groupby two columns and return the mean of the remaining column. + + >>> df.groupby(['A', 'B']).mean() + C + A B + 1 2.0 2.0 + 4.0 1.0 + 2 3.0 1.0 + 5.0 2.0 + + Groupby one column and return the mean of only particular column in + the group. + + >>> df.groupby('A')['B'].mean() + A + 1 3.0 + 2 4.0 + Name: B, dtype: float64 + """ + + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_mean + + return self._numba_agg_general( + grouped_mean, + executor.float_dtype_mapping, + engine_kwargs, + min_periods=0, + ) + else: + result = self._cython_agg_general( + "mean", + alt=lambda x: Series(x, copy=False).mean(numeric_only=numeric_only), + numeric_only=numeric_only, + ) + return result.__finalize__(self.obj, method="groupby") + + @final + def median(self, numeric_only: bool = False) -> NDFrameT: + """ + Compute median of groups, excluding missing values. + + For multiple groupings, the result index will be a MultiIndex + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None`` and defaults to False. + + Returns + ------- + Series or DataFrame + Median of values within each group. + + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([7, 2, 8, 4, 3, 3], index=lst) + >>> ser + a 7 + a 2 + a 8 + b 4 + b 3 + b 3 + dtype: int64 + >>> ser.groupby(level=0).median() + a 7.0 + b 3.0 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = {'a': [1, 3, 5, 7, 7, 8, 3], 'b': [1, 4, 8, 4, 4, 2, 1]} + >>> df = pd.DataFrame(data, index=['dog', 'dog', 'dog', + ... 'mouse', 'mouse', 'mouse', 'mouse']) + >>> df + a b + dog 1 1 + dog 3 4 + dog 5 8 + mouse 7 4 + mouse 7 4 + mouse 8 2 + mouse 3 1 + >>> df.groupby(level=0).median() + a b + dog 3.0 4.0 + mouse 7.0 3.0 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3, 3, 4, 5], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').median() + 2023-01-01 2.0 + 2023-02-01 4.0 + Freq: MS, dtype: float64 + """ + result = self._cython_agg_general( + "median", + alt=lambda x: Series(x, copy=False).median(numeric_only=numeric_only), + numeric_only=numeric_only, + ) + return result.__finalize__(self.obj, method="groupby") + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def std( + self, + ddof: int = 1, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + numeric_only: bool = False, + ): + """ + Compute standard deviation of groups, excluding missing values. + + For multiple groupings, the result index will be a MultiIndex. + + Parameters + ---------- + ddof : int, default 1 + Degrees of freedom. + + engine : str, default None + * ``'cython'`` : Runs the operation through C-extensions from cython. + * ``'numba'`` : Runs the operation through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting + ``compute.use_numba`` + + .. versionadded:: 1.4.0 + + engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` + + .. versionadded:: 1.4.0 + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + Series or DataFrame + Standard deviation of values within each group. + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([7, 2, 8, 4, 3, 3], index=lst) + >>> ser + a 7 + a 2 + a 8 + b 4 + b 3 + b 3 + dtype: int64 + >>> ser.groupby(level=0).std() + a 3.21455 + b 0.57735 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = {'a': [1, 3, 5, 7, 7, 8, 3], 'b': [1, 4, 8, 4, 4, 2, 1]} + >>> df = pd.DataFrame(data, index=['dog', 'dog', 'dog', + ... 'mouse', 'mouse', 'mouse', 'mouse']) + >>> df + a b + dog 1 1 + dog 3 4 + dog 5 8 + mouse 7 4 + mouse 7 4 + mouse 8 2 + mouse 3 1 + >>> df.groupby(level=0).std() + a b + dog 2.000000 3.511885 + mouse 2.217356 1.500000 + """ + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_var + + return np.sqrt( + self._numba_agg_general( + grouped_var, + executor.float_dtype_mapping, + engine_kwargs, + min_periods=0, + ddof=ddof, + ) + ) + else: + return self._cython_agg_general( + "std", + alt=lambda x: Series(x, copy=False).std(ddof=ddof), + numeric_only=numeric_only, + ddof=ddof, + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def var( + self, + ddof: int = 1, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + numeric_only: bool = False, + ): + """ + Compute variance of groups, excluding missing values. + + For multiple groupings, the result index will be a MultiIndex. + + Parameters + ---------- + ddof : int, default 1 + Degrees of freedom. + + engine : str, default None + * ``'cython'`` : Runs the operation through C-extensions from cython. + * ``'numba'`` : Runs the operation through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting + ``compute.use_numba`` + + .. versionadded:: 1.4.0 + + engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` + + .. versionadded:: 1.4.0 + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + Series or DataFrame + Variance of values within each group. + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([7, 2, 8, 4, 3, 3], index=lst) + >>> ser + a 7 + a 2 + a 8 + b 4 + b 3 + b 3 + dtype: int64 + >>> ser.groupby(level=0).var() + a 10.333333 + b 0.333333 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = {'a': [1, 3, 5, 7, 7, 8, 3], 'b': [1, 4, 8, 4, 4, 2, 1]} + >>> df = pd.DataFrame(data, index=['dog', 'dog', 'dog', + ... 'mouse', 'mouse', 'mouse', 'mouse']) + >>> df + a b + dog 1 1 + dog 3 4 + dog 5 8 + mouse 7 4 + mouse 7 4 + mouse 8 2 + mouse 3 1 + >>> df.groupby(level=0).var() + a b + dog 4.000000 12.333333 + mouse 4.916667 2.250000 + """ + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_var + + return self._numba_agg_general( + grouped_var, + executor.float_dtype_mapping, + engine_kwargs, + min_periods=0, + ddof=ddof, + ) + else: + return self._cython_agg_general( + "var", + alt=lambda x: Series(x, copy=False).var(ddof=ddof), + numeric_only=numeric_only, + ddof=ddof, + ) + + @final + def _value_counts( + self, + subset: Sequence[Hashable] | None = None, + normalize: bool = False, + sort: bool = True, + ascending: bool = False, + dropna: bool = True, + ) -> DataFrame | Series: + """ + Shared implementation of value_counts for SeriesGroupBy and DataFrameGroupBy. + + SeriesGroupBy additionally supports a bins argument. See the docstring of + DataFrameGroupBy.value_counts for a description of arguments. + """ + if self.axis == 1: + raise NotImplementedError( + "DataFrameGroupBy.value_counts only handles axis=0" + ) + name = "proportion" if normalize else "count" + + df = self.obj + obj = self._obj_with_exclusions + + in_axis_names = { + grouping.name for grouping in self._grouper.groupings if grouping.in_axis + } + if isinstance(obj, Series): + _name = obj.name + keys = [] if _name in in_axis_names else [obj] + else: + unique_cols = set(obj.columns) + if subset is not None: + subsetted = set(subset) + clashing = subsetted & set(in_axis_names) + if clashing: + raise ValueError( + f"Keys {clashing} in subset cannot be in " + "the groupby column keys." + ) + doesnt_exist = subsetted - unique_cols + if doesnt_exist: + raise ValueError( + f"Keys {doesnt_exist} in subset do not " + f"exist in the DataFrame." + ) + else: + subsetted = unique_cols + + keys = [ + # Can't use .values because the column label needs to be preserved + obj.iloc[:, idx] + for idx, _name in enumerate(obj.columns) + if _name not in in_axis_names and _name in subsetted + ] + + groupings = list(self._grouper.groupings) + for key in keys: + grouper, _, _ = get_grouper( + df, + key=key, + axis=self.axis, + sort=self.sort, + observed=False, + dropna=dropna, + ) + groupings += list(grouper.groupings) + + # Take the size of the overall columns + gb = df.groupby( + groupings, + sort=self.sort, + observed=self.observed, + dropna=self.dropna, + ) + result_series = cast(Series, gb.size()) + result_series.name = name + + # GH-46357 Include non-observed categories + # of non-grouping columns regardless of `observed` + if any( + isinstance(grouping.grouping_vector, (Categorical, CategoricalIndex)) + and not grouping._observed + for grouping in groupings + ): + levels_list = [ping._result_index for ping in groupings] + multi_index = MultiIndex.from_product( + levels_list, names=[ping.name for ping in groupings] + ) + result_series = result_series.reindex(multi_index, fill_value=0) + + if sort: + # Sort by the values + result_series = result_series.sort_values( + ascending=ascending, kind="stable" + ) + if self.sort: + # Sort by the groupings + names = result_series.index.names + # GH#55951 - Temporarily replace names in case they are integers + result_series.index.names = range(len(names)) + index_level = list(range(len(self._grouper.groupings))) + result_series = result_series.sort_index( + level=index_level, sort_remaining=False + ) + result_series.index.names = names + + if normalize: + # Normalize the results by dividing by the original group sizes. + # We are guaranteed to have the first N levels be the + # user-requested grouping. + levels = list( + range(len(self._grouper.groupings), result_series.index.nlevels) + ) + indexed_group_size = result_series.groupby( + result_series.index.droplevel(levels), + sort=self.sort, + dropna=self.dropna, + # GH#43999 - deprecation of observed=False + observed=False, + ).transform("sum") + result_series /= indexed_group_size + + # Handle groups of non-observed categories + result_series = result_series.fillna(0.0) + + result: Series | DataFrame + if self.as_index: + result = result_series + else: + # Convert to frame + index = result_series.index + columns = com.fill_missing_names(index.names) + if name in columns: + raise ValueError(f"Column label '{name}' is duplicate of result column") + result_series.name = name + result_series.index = index.set_names(range(len(columns))) + result_frame = result_series.reset_index() + orig_dtype = self._grouper.groupings[0].obj.columns.dtype # type: ignore[union-attr] + cols = Index(columns, dtype=orig_dtype).insert(len(columns), name) + result_frame.columns = cols + result = result_frame + return result.__finalize__(self.obj, method="value_counts") + + @final + def sem(self, ddof: int = 1, numeric_only: bool = False) -> NDFrameT: + """ + Compute standard error of the mean of groups, excluding missing values. + + For multiple groupings, the result index will be a MultiIndex. + + Parameters + ---------- + ddof : int, default 1 + Degrees of freedom. + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + Series or DataFrame + Standard error of the mean of values within each group. + + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([5, 10, 8, 14], index=lst) + >>> ser + a 5 + a 10 + b 8 + b 14 + dtype: int64 + >>> ser.groupby(level=0).sem() + a 2.5 + b 3.0 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = [[1, 12, 11], [1, 15, 2], [2, 5, 8], [2, 6, 12]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tuna", "salmon", "catfish", "goldfish"]) + >>> df + a b c + tuna 1 12 11 + salmon 1 15 2 + catfish 2 5 8 + goldfish 2 6 12 + >>> df.groupby("a").sem() + b c + a + 1 1.5 4.5 + 2 0.5 2.0 + + For Resampler: + + >>> ser = pd.Series([1, 3, 2, 4, 3, 8], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').sem() + 2023-01-01 0.577350 + 2023-02-01 1.527525 + Freq: MS, dtype: float64 + """ + if numeric_only and self.obj.ndim == 1 and not is_numeric_dtype(self.obj.dtype): + raise TypeError( + f"{type(self).__name__}.sem called with " + f"numeric_only={numeric_only} and dtype {self.obj.dtype}" + ) + return self._cython_agg_general( + "sem", + alt=lambda x: Series(x, copy=False).sem(ddof=ddof), + numeric_only=numeric_only, + ddof=ddof, + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def size(self) -> DataFrame | Series: + """ + Compute group sizes. + + Returns + ------- + DataFrame or Series + Number of rows in each group as a Series if as_index is True + or a DataFrame if as_index is False. + %(see_also)s + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([1, 2, 3], index=lst) + >>> ser + a 1 + a 2 + b 3 + dtype: int64 + >>> ser.groupby(level=0).size() + a 2 + b 1 + dtype: int64 + + >>> data = [[1, 2, 3], [1, 5, 6], [7, 8, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["owl", "toucan", "eagle"]) + >>> df + a b c + owl 1 2 3 + toucan 1 5 6 + eagle 7 8 9 + >>> df.groupby("a").size() + a + 1 2 + 7 1 + dtype: int64 + + For Resampler: + + >>> ser = pd.Series([1, 2, 3], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + dtype: int64 + >>> ser.resample('MS').size() + 2023-01-01 2 + 2023-02-01 1 + Freq: MS, dtype: int64 + """ + result = self._grouper.size() + dtype_backend: None | Literal["pyarrow", "numpy_nullable"] = None + if isinstance(self.obj, Series): + if isinstance(self.obj.array, ArrowExtensionArray): + if isinstance(self.obj.array, ArrowStringArrayNumpySemantics): + dtype_backend = None + elif isinstance(self.obj.array, ArrowStringArray): + dtype_backend = "numpy_nullable" + else: + dtype_backend = "pyarrow" + elif isinstance(self.obj.array, BaseMaskedArray): + dtype_backend = "numpy_nullable" + # TODO: For DataFrames what if columns are mixed arrow/numpy/masked? + + # GH28330 preserve subclassed Series/DataFrames through calls + if isinstance(self.obj, Series): + result = self._obj_1d_constructor(result, name=self.obj.name) + else: + result = self._obj_1d_constructor(result) + + if dtype_backend is not None: + result = result.convert_dtypes( + infer_objects=False, + convert_string=False, + convert_boolean=False, + convert_floating=False, + dtype_backend=dtype_backend, + ) + + with com.temp_setattr(self, "as_index", True): + # size already has the desired behavior in GH#49519, but this makes the + # as_index=False path of _reindex_output fail on categorical groupers. + result = self._reindex_output(result, fill_value=0) + if not self.as_index: + # error: Incompatible types in assignment (expression has + # type "DataFrame", variable has type "Series") + result = result.rename("size").reset_index() # type: ignore[assignment] + return result + + @final + @doc( + _groupby_agg_method_engine_template, + fname="sum", + no=False, + mc=0, + e=None, + ek=None, + example=dedent( + """\ + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).sum() + a 3 + b 7 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tiger", "leopard", "cheetah", "lion"]) + >>> df + a b c + tiger 1 8 2 + leopard 1 2 5 + cheetah 2 5 8 + lion 2 6 9 + >>> df.groupby("a").sum() + b c + a + 1 10 7 + 2 11 17""" + ), + ) + def sum( + self, + numeric_only: bool = False, + min_count: int = 0, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_sum + + return self._numba_agg_general( + grouped_sum, + executor.default_dtype_mapping, + engine_kwargs, + min_periods=min_count, + ) + else: + # If we are grouping on categoricals we want unobserved categories to + # return zero, rather than the default of NaN which the reindexing in + # _agg_general() returns. GH #31422 + with com.temp_setattr(self, "observed", True): + result = self._agg_general( + numeric_only=numeric_only, + min_count=min_count, + alias="sum", + npfunc=np.sum, + ) + + return self._reindex_output(result, fill_value=0) + + @final + @doc( + _groupby_agg_method_template, + fname="prod", + no=False, + mc=0, + example=dedent( + """\ + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).prod() + a 2 + b 12 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tiger", "leopard", "cheetah", "lion"]) + >>> df + a b c + tiger 1 8 2 + leopard 1 2 5 + cheetah 2 5 8 + lion 2 6 9 + >>> df.groupby("a").prod() + b c + a + 1 16 10 + 2 30 72""" + ), + ) + def prod(self, numeric_only: bool = False, min_count: int = 0) -> NDFrameT: + return self._agg_general( + numeric_only=numeric_only, min_count=min_count, alias="prod", npfunc=np.prod + ) + + @final + @doc( + _groupby_agg_method_engine_template, + fname="min", + no=False, + mc=-1, + e=None, + ek=None, + example=dedent( + """\ + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).min() + a 1 + b 3 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tiger", "leopard", "cheetah", "lion"]) + >>> df + a b c + tiger 1 8 2 + leopard 1 2 5 + cheetah 2 5 8 + lion 2 6 9 + >>> df.groupby("a").min() + b c + a + 1 2 2 + 2 5 8""" + ), + ) + def min( + self, + numeric_only: bool = False, + min_count: int = -1, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_min_max + + return self._numba_agg_general( + grouped_min_max, + executor.identity_dtype_mapping, + engine_kwargs, + min_periods=min_count, + is_max=False, + ) + else: + return self._agg_general( + numeric_only=numeric_only, + min_count=min_count, + alias="min", + npfunc=np.min, + ) + + @final + @doc( + _groupby_agg_method_engine_template, + fname="max", + no=False, + mc=-1, + e=None, + ek=None, + example=dedent( + """\ + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).max() + a 2 + b 4 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tiger", "leopard", "cheetah", "lion"]) + >>> df + a b c + tiger 1 8 2 + leopard 1 2 5 + cheetah 2 5 8 + lion 2 6 9 + >>> df.groupby("a").max() + b c + a + 1 8 5 + 2 6 9""" + ), + ) + def max( + self, + numeric_only: bool = False, + min_count: int = -1, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + from pandas.core._numba.kernels import grouped_min_max + + return self._numba_agg_general( + grouped_min_max, + executor.identity_dtype_mapping, + engine_kwargs, + min_periods=min_count, + is_max=True, + ) + else: + return self._agg_general( + numeric_only=numeric_only, + min_count=min_count, + alias="max", + npfunc=np.max, + ) + + @final + def first( + self, numeric_only: bool = False, min_count: int = -1, skipna: bool = True + ) -> NDFrameT: + """ + Compute the first entry of each column within each group. + + Defaults to skipping NA elements. + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. + min_count : int, default -1 + The required number of valid values to perform the operation. If fewer + than ``min_count`` valid values are present the result will be NA. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + + .. versionadded:: 2.2.1 + + Returns + ------- + Series or DataFrame + First values within each group. + + See Also + -------- + DataFrame.groupby : Apply a function groupby to each row or column of a + DataFrame. + pandas.core.groupby.DataFrameGroupBy.last : Compute the last non-null entry + of each column. + pandas.core.groupby.DataFrameGroupBy.nth : Take the nth row from each group. + + Examples + -------- + >>> df = pd.DataFrame(dict(A=[1, 1, 3], B=[None, 5, 6], C=[1, 2, 3], + ... D=['3/11/2000', '3/12/2000', '3/13/2000'])) + >>> df['D'] = pd.to_datetime(df['D']) + >>> df.groupby("A").first() + B C D + A + 1 5.0 1 2000-03-11 + 3 6.0 3 2000-03-13 + >>> df.groupby("A").first(min_count=2) + B C D + A + 1 NaN 1.0 2000-03-11 + 3 NaN NaN NaT + >>> df.groupby("A").first(numeric_only=True) + B C + A + 1 5.0 1 + 3 6.0 3 + """ + + def first_compat(obj: NDFrameT, axis: AxisInt = 0): + def first(x: Series): + """Helper function for first item that isn't NA.""" + arr = x.array[notna(x.array)] + if not len(arr): + return x.array.dtype.na_value + return arr[0] + + if isinstance(obj, DataFrame): + return obj.apply(first, axis=axis) + elif isinstance(obj, Series): + return first(obj) + else: # pragma: no cover + raise TypeError(type(obj)) + + return self._agg_general( + numeric_only=numeric_only, + min_count=min_count, + alias="first", + npfunc=first_compat, + skipna=skipna, + ) + + @final + def last( + self, numeric_only: bool = False, min_count: int = -1, skipna: bool = True + ) -> NDFrameT: + """ + Compute the last entry of each column within each group. + + Defaults to skipping NA elements. + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. If None, will attempt to use + everything, then use only numeric data. + min_count : int, default -1 + The required number of valid values to perform the operation. If fewer + than ``min_count`` valid values are present the result will be NA. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + + .. versionadded:: 2.2.1 + + Returns + ------- + Series or DataFrame + Last of values within each group. + + See Also + -------- + DataFrame.groupby : Apply a function groupby to each row or column of a + DataFrame. + pandas.core.groupby.DataFrameGroupBy.first : Compute the first non-null entry + of each column. + pandas.core.groupby.DataFrameGroupBy.nth : Take the nth row from each group. + + Examples + -------- + >>> df = pd.DataFrame(dict(A=[1, 1, 3], B=[5, None, 6], C=[1, 2, 3])) + >>> df.groupby("A").last() + B C + A + 1 5.0 2 + 3 6.0 3 + """ + + def last_compat(obj: NDFrameT, axis: AxisInt = 0): + def last(x: Series): + """Helper function for last item that isn't NA.""" + arr = x.array[notna(x.array)] + if not len(arr): + return x.array.dtype.na_value + return arr[-1] + + if isinstance(obj, DataFrame): + return obj.apply(last, axis=axis) + elif isinstance(obj, Series): + return last(obj) + else: # pragma: no cover + raise TypeError(type(obj)) + + return self._agg_general( + numeric_only=numeric_only, + min_count=min_count, + alias="last", + npfunc=last_compat, + skipna=skipna, + ) + + @final + def ohlc(self) -> DataFrame: + """ + Compute open, high, low and close values of a group, excluding missing values. + + For multiple groupings, the result index will be a MultiIndex + + Returns + ------- + DataFrame + Open, high, low and close values within each group. + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['SPX', 'CAC', 'SPX', 'CAC', 'SPX', 'CAC', 'SPX', 'CAC',] + >>> ser = pd.Series([3.4, 9.0, 7.2, 5.2, 8.8, 9.4, 0.1, 0.5], index=lst) + >>> ser + SPX 3.4 + CAC 9.0 + SPX 7.2 + CAC 5.2 + SPX 8.8 + CAC 9.4 + SPX 0.1 + CAC 0.5 + dtype: float64 + >>> ser.groupby(level=0).ohlc() + open high low close + CAC 9.0 9.4 0.5 0.5 + SPX 3.4 8.8 0.1 0.1 + + For DataFrameGroupBy: + + >>> data = {2022: [1.2, 2.3, 8.9, 4.5, 4.4, 3, 2 , 1], + ... 2023: [3.4, 9.0, 7.2, 5.2, 8.8, 9.4, 8.2, 1.0]} + >>> df = pd.DataFrame(data, index=['SPX', 'CAC', 'SPX', 'CAC', + ... 'SPX', 'CAC', 'SPX', 'CAC']) + >>> df + 2022 2023 + SPX 1.2 3.4 + CAC 2.3 9.0 + SPX 8.9 7.2 + CAC 4.5 5.2 + SPX 4.4 8.8 + CAC 3.0 9.4 + SPX 2.0 8.2 + CAC 1.0 1.0 + >>> df.groupby(level=0).ohlc() + 2022 2023 + open high low close open high low close + CAC 2.3 4.5 1.0 1.0 9.0 9.4 1.0 1.0 + SPX 1.2 8.9 1.2 2.0 3.4 8.8 3.4 8.2 + + For Resampler: + + >>> ser = pd.Series([1, 3, 2, 4, 3, 5], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').ohlc() + open high low close + 2023-01-01 1 3 1 2 + 2023-02-01 4 5 3 5 + """ + if self.obj.ndim == 1: + obj = self._selected_obj + + is_numeric = is_numeric_dtype(obj.dtype) + if not is_numeric: + raise DataError("No numeric types to aggregate") + + res_values = self._grouper._cython_operation( + "aggregate", obj._values, "ohlc", axis=0, min_count=-1 + ) + + agg_names = ["open", "high", "low", "close"] + result = self.obj._constructor_expanddim( + res_values, index=self._grouper.result_index, columns=agg_names + ) + return self._reindex_output(result) + + result = self._apply_to_column_groupbys(lambda sgb: sgb.ohlc()) + return result + + @doc(DataFrame.describe) + def describe( + self, + percentiles=None, + include=None, + exclude=None, + ) -> NDFrameT: + obj = self._obj_with_exclusions + + if len(obj) == 0: + described = obj.describe( + percentiles=percentiles, include=include, exclude=exclude + ) + if obj.ndim == 1: + result = described + else: + result = described.unstack() + return result.to_frame().T.iloc[:0] + + with com.temp_setattr(self, "as_index", True): + result = self._python_apply_general( + lambda x: x.describe( + percentiles=percentiles, include=include, exclude=exclude + ), + obj, + not_indexed_same=True, + ) + if self.axis == 1: + return result.T + + # GH#49256 - properly handle the grouping column(s) + result = result.unstack() + if not self.as_index: + result = self._insert_inaxis_grouper(result) + result.index = default_index(len(result)) + + return result + + @final + def resample(self, rule, *args, include_groups: bool = True, **kwargs) -> Resampler: + """ + Provide resampling when using a TimeGrouper. + + Given a grouper, the function resamples it according to a string + "string" -> "frequency". + + See the :ref:`frequency aliases ` + documentation for more details. + + Parameters + ---------- + rule : str or DateOffset + The offset string or object representing target grouper conversion. + *args + Possible arguments are `how`, `fill_method`, `limit`, `kind` and + `on`, and other arguments of `TimeGrouper`. + include_groups : bool, default True + When True, will attempt to include the groupings in the operation in + the case that they are columns of the DataFrame. If this raises a + TypeError, the result will be computed with the groupings excluded. + When False, the groupings will be excluded when applying ``func``. + + .. versionadded:: 2.2.0 + + .. deprecated:: 2.2.0 + + Setting include_groups to True is deprecated. Only the value + False will be allowed in a future version of pandas. + + **kwargs + Possible arguments are `how`, `fill_method`, `limit`, `kind` and + `on`, and other arguments of `TimeGrouper`. + + Returns + ------- + pandas.api.typing.DatetimeIndexResamplerGroupby, + pandas.api.typing.PeriodIndexResamplerGroupby, or + pandas.api.typing.TimedeltaIndexResamplerGroupby + Return a new groupby object, with type depending on the data + being resampled. + + See Also + -------- + Grouper : Specify a frequency to resample with when + grouping by a key. + DatetimeIndex.resample : Frequency conversion and resampling of + time series. + + Examples + -------- + >>> idx = pd.date_range('1/1/2000', periods=4, freq='min') + >>> df = pd.DataFrame(data=4 * [range(2)], + ... index=idx, + ... columns=['a', 'b']) + >>> df.iloc[2, 0] = 5 + >>> df + a b + 2000-01-01 00:00:00 0 1 + 2000-01-01 00:01:00 0 1 + 2000-01-01 00:02:00 5 1 + 2000-01-01 00:03:00 0 1 + + Downsample the DataFrame into 3 minute bins and sum the values of + the timestamps falling into a bin. + + >>> df.groupby('a').resample('3min', include_groups=False).sum() + b + a + 0 2000-01-01 00:00:00 2 + 2000-01-01 00:03:00 1 + 5 2000-01-01 00:00:00 1 + + Upsample the series into 30 second bins. + + >>> df.groupby('a').resample('30s', include_groups=False).sum() + b + a + 0 2000-01-01 00:00:00 1 + 2000-01-01 00:00:30 0 + 2000-01-01 00:01:00 1 + 2000-01-01 00:01:30 0 + 2000-01-01 00:02:00 0 + 2000-01-01 00:02:30 0 + 2000-01-01 00:03:00 1 + 5 2000-01-01 00:02:00 1 + + Resample by month. Values are assigned to the month of the period. + + >>> df.groupby('a').resample('ME', include_groups=False).sum() + b + a + 0 2000-01-31 3 + 5 2000-01-31 1 + + Downsample the series into 3 minute bins as above, but close the right + side of the bin interval. + + >>> ( + ... df.groupby('a') + ... .resample('3min', closed='right', include_groups=False) + ... .sum() + ... ) + b + a + 0 1999-12-31 23:57:00 1 + 2000-01-01 00:00:00 2 + 5 2000-01-01 00:00:00 1 + + Downsample the series into 3 minute bins and close the right side of + the bin interval, but label each bin using the right edge instead of + the left. + + >>> ( + ... df.groupby('a') + ... .resample('3min', closed='right', label='right', include_groups=False) + ... .sum() + ... ) + b + a + 0 2000-01-01 00:00:00 1 + 2000-01-01 00:03:00 2 + 5 2000-01-01 00:03:00 1 + """ + from pandas.core.resample import get_resampler_for_grouping + + # mypy flags that include_groups could be specified via `*args` or `**kwargs` + # GH#54961 would resolve. + return get_resampler_for_grouping( # type: ignore[misc] + self, rule, *args, include_groups=include_groups, **kwargs + ) + + @final + def rolling(self, *args, **kwargs) -> RollingGroupby: + """ + Return a rolling grouper, providing rolling functionality per group. + + Parameters + ---------- + window : int, timedelta, str, offset, or BaseIndexer subclass + Size of the moving window. + + If an integer, the fixed number of observations used for + each window. + + If a timedelta, str, or offset, the time period of each window. Each + window will be a variable sized based on the observations included in + the time-period. This is only valid for datetimelike indexes. + To learn more about the offsets & frequency strings, please see `this link + `__. + + If a BaseIndexer subclass, the window boundaries + based on the defined ``get_window_bounds`` method. Additional rolling + keyword arguments, namely ``min_periods``, ``center``, ``closed`` and + ``step`` will be passed to ``get_window_bounds``. + + min_periods : int, default None + Minimum number of observations in window required to have a value; + otherwise, result is ``np.nan``. + + For a window that is specified by an offset, + ``min_periods`` will default to 1. + + For a window that is specified by an integer, ``min_periods`` will default + to the size of the window. + + center : bool, default False + If False, set the window labels as the right edge of the window index. + + If True, set the window labels as the center of the window index. + + win_type : str, default None + If ``None``, all points are evenly weighted. + + If a string, it must be a valid `scipy.signal window function + `__. + + Certain Scipy window types require additional parameters to be passed + in the aggregation function. The additional parameters must match + the keywords specified in the Scipy window type method signature. + + on : str, optional + For a DataFrame, a column label or Index level on which + to calculate the rolling window, rather than the DataFrame's index. + + Provided integer column is ignored and excluded from result since + an integer index is not used to calculate the rolling window. + + axis : int or str, default 0 + If ``0`` or ``'index'``, roll across the rows. + + If ``1`` or ``'columns'``, roll across the columns. + + For `Series` this parameter is unused and defaults to 0. + + closed : str, default None + If ``'right'``, the first point in the window is excluded from calculations. + + If ``'left'``, the last point in the window is excluded from calculations. + + If ``'both'``, no points in the window are excluded from calculations. + + If ``'neither'``, the first and last points in the window are excluded + from calculations. + + Default ``None`` (``'right'``). + + method : str {'single', 'table'}, default 'single' + Execute the rolling operation per single column or row (``'single'``) + or over the entire object (``'table'``). + + This argument is only implemented when specifying ``engine='numba'`` + in the method call. + + Returns + ------- + pandas.api.typing.RollingGroupby + Return a new grouper with our rolling appended. + + See Also + -------- + Series.rolling : Calling object with Series data. + DataFrame.rolling : Calling object with DataFrames. + Series.groupby : Apply a function groupby to a Series. + DataFrame.groupby : Apply a function groupby. + + Examples + -------- + >>> df = pd.DataFrame({'A': [1, 1, 2, 2], + ... 'B': [1, 2, 3, 4], + ... 'C': [0.362, 0.227, 1.267, -0.562]}) + >>> df + A B C + 0 1 1 0.362 + 1 1 2 0.227 + 2 2 3 1.267 + 3 2 4 -0.562 + + >>> df.groupby('A').rolling(2).sum() + B C + A + 1 0 NaN NaN + 1 3.0 0.589 + 2 2 NaN NaN + 3 7.0 0.705 + + >>> df.groupby('A').rolling(2, min_periods=1).sum() + B C + A + 1 0 1.0 0.362 + 1 3.0 0.589 + 2 2 3.0 1.267 + 3 7.0 0.705 + + >>> df.groupby('A').rolling(2, on='B').sum() + B C + A + 1 0 1 NaN + 1 2 0.589 + 2 2 3 NaN + 3 4 0.705 + """ + from pandas.core.window import RollingGroupby + + return RollingGroupby( + self._selected_obj, + *args, + _grouper=self._grouper, + _as_index=self.as_index, + **kwargs, + ) + + @final + @Substitution(name="groupby") + @Appender(_common_see_also) + def expanding(self, *args, **kwargs) -> ExpandingGroupby: + """ + Return an expanding grouper, providing expanding + functionality per group. + + Returns + ------- + pandas.api.typing.ExpandingGroupby + """ + from pandas.core.window import ExpandingGroupby + + return ExpandingGroupby( + self._selected_obj, + *args, + _grouper=self._grouper, + **kwargs, + ) + + @final + @Substitution(name="groupby") + @Appender(_common_see_also) + def ewm(self, *args, **kwargs) -> ExponentialMovingWindowGroupby: + """ + Return an ewm grouper, providing ewm functionality per group. + + Returns + ------- + pandas.api.typing.ExponentialMovingWindowGroupby + """ + from pandas.core.window import ExponentialMovingWindowGroupby + + return ExponentialMovingWindowGroupby( + self._selected_obj, + *args, + _grouper=self._grouper, + **kwargs, + ) + + @final + def _fill(self, direction: Literal["ffill", "bfill"], limit: int | None = None): + """ + Shared function for `pad` and `backfill` to call Cython method. + + Parameters + ---------- + direction : {'ffill', 'bfill'} + Direction passed to underlying Cython function. `bfill` will cause + values to be filled backwards. `ffill` and any other values will + default to a forward fill + limit : int, default None + Maximum number of consecutive values to fill. If `None`, this + method will convert to -1 prior to passing to Cython + + Returns + ------- + `Series` or `DataFrame` with filled values + + See Also + -------- + pad : Returns Series with minimum number of char in object. + backfill : Backward fill the missing values in the dataset. + """ + # Need int value for Cython + if limit is None: + limit = -1 + + ids, _, _ = self._grouper.group_info + sorted_labels = np.argsort(ids, kind="mergesort").astype(np.intp, copy=False) + if direction == "bfill": + sorted_labels = sorted_labels[::-1] + + col_func = partial( + libgroupby.group_fillna_indexer, + labels=ids, + sorted_labels=sorted_labels, + limit=limit, + dropna=self.dropna, + ) + + def blk_func(values: ArrayLike) -> ArrayLike: + mask = isna(values) + if values.ndim == 1: + indexer = np.empty(values.shape, dtype=np.intp) + col_func(out=indexer, mask=mask) + return algorithms.take_nd(values, indexer) + + else: + # We broadcast algorithms.take_nd analogous to + # np.take_along_axis + if isinstance(values, np.ndarray): + dtype = values.dtype + if self._grouper.has_dropped_na: + # dropped null groups give rise to nan in the result + dtype = ensure_dtype_can_hold_na(values.dtype) + out = np.empty(values.shape, dtype=dtype) + else: + # Note: we only get here with backfill/pad, + # so if we have a dtype that cannot hold NAs, + # then there will be no -1s in indexer, so we can use + # the original dtype (no need to ensure_dtype_can_hold_na) + out = type(values)._empty(values.shape, dtype=values.dtype) + + for i, value_element in enumerate(values): + # call group_fillna_indexer column-wise + indexer = np.empty(values.shape[1], dtype=np.intp) + col_func(out=indexer, mask=mask[i]) + out[i, :] = algorithms.take_nd(value_element, indexer) + return out + + mgr = self._get_data_to_aggregate() + res_mgr = mgr.apply(blk_func) + + new_obj = self._wrap_agged_manager(res_mgr) + + if self.axis == 1: + # Only relevant for DataFrameGroupBy + new_obj = new_obj.T + new_obj.columns = self.obj.columns + + new_obj.index = self.obj.index + return new_obj + + @final + @Substitution(name="groupby") + def ffill(self, limit: int | None = None): + """ + Forward fill the values. + + Parameters + ---------- + limit : int, optional + Limit of how many values to fill. + + Returns + ------- + Series or DataFrame + Object with missing values filled. + + See Also + -------- + Series.ffill: Returns Series with minimum number of char in object. + DataFrame.ffill: Object with missing values filled or None if inplace=True. + Series.fillna: Fill NaN values of a Series. + DataFrame.fillna: Fill NaN values of a DataFrame. + + Examples + -------- + + For SeriesGroupBy: + + >>> key = [0, 0, 1, 1] + >>> ser = pd.Series([np.nan, 2, 3, np.nan], index=key) + >>> ser + 0 NaN + 0 2.0 + 1 3.0 + 1 NaN + dtype: float64 + >>> ser.groupby(level=0).ffill() + 0 NaN + 0 2.0 + 1 3.0 + 1 3.0 + dtype: float64 + + For DataFrameGroupBy: + + >>> df = pd.DataFrame( + ... { + ... "key": [0, 0, 1, 1, 1], + ... "A": [np.nan, 2, np.nan, 3, np.nan], + ... "B": [2, 3, np.nan, np.nan, np.nan], + ... "C": [np.nan, np.nan, 2, np.nan, np.nan], + ... } + ... ) + >>> df + key A B C + 0 0 NaN 2.0 NaN + 1 0 2.0 3.0 NaN + 2 1 NaN NaN 2.0 + 3 1 3.0 NaN NaN + 4 1 NaN NaN NaN + + Propagate non-null values forward or backward within each group along columns. + + >>> df.groupby("key").ffill() + A B C + 0 NaN 2.0 NaN + 1 2.0 3.0 NaN + 2 NaN NaN 2.0 + 3 3.0 NaN 2.0 + 4 3.0 NaN 2.0 + + Propagate non-null values forward or backward within each group along rows. + + >>> df.T.groupby(np.array([0, 0, 1, 1])).ffill().T + key A B C + 0 0.0 0.0 2.0 2.0 + 1 0.0 2.0 3.0 3.0 + 2 1.0 1.0 NaN 2.0 + 3 1.0 3.0 NaN NaN + 4 1.0 1.0 NaN NaN + + Only replace the first NaN element within a group along rows. + + >>> df.groupby("key").ffill(limit=1) + A B C + 0 NaN 2.0 NaN + 1 2.0 3.0 NaN + 2 NaN NaN 2.0 + 3 3.0 NaN 2.0 + 4 3.0 NaN NaN + """ + return self._fill("ffill", limit=limit) + + @final + @Substitution(name="groupby") + def bfill(self, limit: int | None = None): + """ + Backward fill the values. + + Parameters + ---------- + limit : int, optional + Limit of how many values to fill. + + Returns + ------- + Series or DataFrame + Object with missing values filled. + + See Also + -------- + Series.bfill : Backward fill the missing values in the dataset. + DataFrame.bfill: Backward fill the missing values in the dataset. + Series.fillna: Fill NaN values of a Series. + DataFrame.fillna: Fill NaN values of a DataFrame. + + Examples + -------- + + With Series: + + >>> index = ['Falcon', 'Falcon', 'Parrot', 'Parrot', 'Parrot'] + >>> s = pd.Series([None, 1, None, None, 3], index=index) + >>> s + Falcon NaN + Falcon 1.0 + Parrot NaN + Parrot NaN + Parrot 3.0 + dtype: float64 + >>> s.groupby(level=0).bfill() + Falcon 1.0 + Falcon 1.0 + Parrot 3.0 + Parrot 3.0 + Parrot 3.0 + dtype: float64 + >>> s.groupby(level=0).bfill(limit=1) + Falcon 1.0 + Falcon 1.0 + Parrot NaN + Parrot 3.0 + Parrot 3.0 + dtype: float64 + + With DataFrame: + + >>> df = pd.DataFrame({'A': [1, None, None, None, 4], + ... 'B': [None, None, 5, None, 7]}, index=index) + >>> df + A B + Falcon 1.0 NaN + Falcon NaN NaN + Parrot NaN 5.0 + Parrot NaN NaN + Parrot 4.0 7.0 + >>> df.groupby(level=0).bfill() + A B + Falcon 1.0 NaN + Falcon NaN NaN + Parrot 4.0 5.0 + Parrot 4.0 7.0 + Parrot 4.0 7.0 + >>> df.groupby(level=0).bfill(limit=1) + A B + Falcon 1.0 NaN + Falcon NaN NaN + Parrot NaN 5.0 + Parrot 4.0 7.0 + Parrot 4.0 7.0 + """ + return self._fill("bfill", limit=limit) + + @final + @property + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def nth(self) -> GroupByNthSelector: + """ + Take the nth row from each group if n is an int, otherwise a subset of rows. + + Can be either a call or an index. dropna is not available with index notation. + Index notation accepts a comma separated list of integers and slices. + + If dropna, will take the nth non-null row, dropna is either + 'all' or 'any'; this is equivalent to calling dropna(how=dropna) + before the groupby. + + Parameters + ---------- + n : int, slice or list of ints and slices + A single nth value for the row or a list of nth values or slices. + + .. versionchanged:: 1.4.0 + Added slice and lists containing slices. + Added index notation. + + dropna : {'any', 'all', None}, default None + Apply the specified dropna operation before counting which row is + the nth row. Only supported if n is an int. + + Returns + ------- + Series or DataFrame + N-th value within each group. + %(see_also)s + Examples + -------- + + >>> df = pd.DataFrame({'A': [1, 1, 2, 1, 2], + ... 'B': [np.nan, 2, 3, 4, 5]}, columns=['A', 'B']) + >>> g = df.groupby('A') + >>> g.nth(0) + A B + 0 1 NaN + 2 2 3.0 + >>> g.nth(1) + A B + 1 1 2.0 + 4 2 5.0 + >>> g.nth(-1) + A B + 3 1 4.0 + 4 2 5.0 + >>> g.nth([0, 1]) + A B + 0 1 NaN + 1 1 2.0 + 2 2 3.0 + 4 2 5.0 + >>> g.nth(slice(None, -1)) + A B + 0 1 NaN + 1 1 2.0 + 2 2 3.0 + + Index notation may also be used + + >>> g.nth[0, 1] + A B + 0 1 NaN + 1 1 2.0 + 2 2 3.0 + 4 2 5.0 + >>> g.nth[:-1] + A B + 0 1 NaN + 1 1 2.0 + 2 2 3.0 + + Specifying `dropna` allows ignoring ``NaN`` values + + >>> g.nth(0, dropna='any') + A B + 1 1 2.0 + 2 2 3.0 + + When the specified ``n`` is larger than any of the groups, an + empty DataFrame is returned + + >>> g.nth(3, dropna='any') + Empty DataFrame + Columns: [A, B] + Index: [] + """ + return GroupByNthSelector(self) + + def _nth( + self, + n: PositionalIndexer | tuple, + dropna: Literal["any", "all", None] = None, + ) -> NDFrameT: + if not dropna: + mask = self._make_mask_from_positional_indexer(n) + + ids, _, _ = self._grouper.group_info + + # Drop NA values in grouping + mask = mask & (ids != -1) + + out = self._mask_selected_obj(mask) + return out + + # dropna is truthy + if not is_integer(n): + raise ValueError("dropna option only supported for an integer argument") + + if dropna not in ["any", "all"]: + # Note: when agg-ing picker doesn't raise this, just returns NaN + raise ValueError( + "For a DataFrame or Series groupby.nth, dropna must be " + "either None, 'any' or 'all', " + f"(was passed {dropna})." + ) + + # old behaviour, but with all and any support for DataFrames. + # modified in GH 7559 to have better perf + n = cast(int, n) + dropped = self._selected_obj.dropna(how=dropna, axis=self.axis) + + # get a new grouper for our dropped obj + grouper: np.ndarray | Index | ops.BaseGrouper + if len(dropped) == len(self._selected_obj): + # Nothing was dropped, can use the same grouper + grouper = self._grouper + else: + # we don't have the grouper info available + # (e.g. we have selected out + # a column that is not in the current object) + axis = self._grouper.axis + grouper = self._grouper.codes_info[axis.isin(dropped.index)] + if self._grouper.has_dropped_na: + # Null groups need to still be encoded as -1 when passed to groupby + nulls = grouper == -1 + # error: No overload variant of "where" matches argument types + # "Any", "NAType", "Any" + values = np.where(nulls, NA, grouper) # type: ignore[call-overload] + grouper = Index(values, dtype="Int64") + + if self.axis == 1: + grb = dropped.T.groupby(grouper, as_index=self.as_index, sort=self.sort) + else: + grb = dropped.groupby(grouper, as_index=self.as_index, sort=self.sort) + return grb.nth(n) + + @final + def quantile( + self, + q: float | AnyArrayLike = 0.5, + interpolation: str = "linear", + numeric_only: bool = False, + ): + """ + Return group values at the given quantile, a la numpy.percentile. + + Parameters + ---------- + q : float or array-like, default 0.5 (50% quantile) + Value(s) between 0 and 1 providing the quantile(s) to compute. + interpolation : {'linear', 'lower', 'higher', 'midpoint', 'nearest'} + Method to use when the desired quantile falls between two points. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + Series or DataFrame + Return type determined by caller of GroupBy object. + + See Also + -------- + Series.quantile : Similar method for Series. + DataFrame.quantile : Similar method for DataFrame. + numpy.percentile : NumPy method to compute qth percentile. + + Examples + -------- + >>> df = pd.DataFrame([ + ... ['a', 1], ['a', 2], ['a', 3], + ... ['b', 1], ['b', 3], ['b', 5] + ... ], columns=['key', 'val']) + >>> df.groupby('key').quantile() + val + key + a 2.0 + b 3.0 + """ + mgr = self._get_data_to_aggregate(numeric_only=numeric_only, name="quantile") + obj = self._wrap_agged_manager(mgr) + if self.axis == 1: + splitter = self._grouper._get_splitter(obj.T, axis=self.axis) + sdata = splitter._sorted_data.T + else: + splitter = self._grouper._get_splitter(obj, axis=self.axis) + sdata = splitter._sorted_data + + starts, ends = lib.generate_slices(splitter._slabels, splitter.ngroups) + + def pre_processor(vals: ArrayLike) -> tuple[np.ndarray, DtypeObj | None]: + if isinstance(vals.dtype, StringDtype) or is_object_dtype(vals.dtype): + raise TypeError( + f"dtype '{vals.dtype}' does not support operation 'quantile'" + ) + + inference: DtypeObj | None = None + if isinstance(vals, BaseMaskedArray) and is_numeric_dtype(vals.dtype): + out = vals.to_numpy(dtype=float, na_value=np.nan) + inference = vals.dtype + elif is_integer_dtype(vals.dtype): + if isinstance(vals, ExtensionArray): + out = vals.to_numpy(dtype=float, na_value=np.nan) + else: + out = vals + inference = np.dtype(np.int64) + elif is_bool_dtype(vals.dtype) and isinstance(vals, ExtensionArray): + out = vals.to_numpy(dtype=float, na_value=np.nan) + elif is_bool_dtype(vals.dtype): + # GH#51424 deprecate to match Series/DataFrame behavior + warnings.warn( + f"Allowing bool dtype in {type(self).__name__}.quantile is " + "deprecated and will raise in a future version, matching " + "the Series/DataFrame behavior. Cast to uint8 dtype before " + "calling quantile instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + out = np.asarray(vals) + elif needs_i8_conversion(vals.dtype): + inference = vals.dtype + # In this case we need to delay the casting until after the + # np.lexsort below. + # error: Incompatible return value type (got + # "Tuple[Union[ExtensionArray, ndarray[Any, Any]], Union[Any, + # ExtensionDtype]]", expected "Tuple[ndarray[Any, Any], + # Optional[Union[dtype[Any], ExtensionDtype]]]") + return vals, inference # type: ignore[return-value] + elif isinstance(vals, ExtensionArray) and is_float_dtype(vals.dtype): + inference = np.dtype(np.float64) + out = vals.to_numpy(dtype=float, na_value=np.nan) + else: + out = np.asarray(vals) + + return out, inference + + def post_processor( + vals: np.ndarray, + inference: DtypeObj | None, + result_mask: np.ndarray | None, + orig_vals: ArrayLike, + ) -> ArrayLike: + if inference: + # Check for edge case + if isinstance(orig_vals, BaseMaskedArray): + assert result_mask is not None # for mypy + + if interpolation in {"linear", "midpoint"} and not is_float_dtype( + orig_vals + ): + return FloatingArray(vals, result_mask) + else: + # Item "ExtensionDtype" of "Union[ExtensionDtype, str, + # dtype[Any], Type[object]]" has no attribute "numpy_dtype" + # [union-attr] + with warnings.catch_warnings(): + # vals.astype with nan can warn with numpy >1.24 + warnings.filterwarnings("ignore", category=RuntimeWarning) + return type(orig_vals)( + vals.astype( + inference.numpy_dtype # type: ignore[union-attr] + ), + result_mask, + ) + + elif not ( + is_integer_dtype(inference) + and interpolation in {"linear", "midpoint"} + ): + if needs_i8_conversion(inference): + # error: Item "ExtensionArray" of "Union[ExtensionArray, + # ndarray[Any, Any]]" has no attribute "_ndarray" + vals = vals.astype("i8").view( + orig_vals._ndarray.dtype # type: ignore[union-attr] + ) + # error: Item "ExtensionArray" of "Union[ExtensionArray, + # ndarray[Any, Any]]" has no attribute "_from_backing_data" + return orig_vals._from_backing_data( # type: ignore[union-attr] + vals + ) + + assert isinstance(inference, np.dtype) # for mypy + return vals.astype(inference) + + return vals + + qs = np.array(q, dtype=np.float64) + pass_qs: np.ndarray | None = qs + if is_scalar(q): + qs = np.array([q], dtype=np.float64) + pass_qs = None + + ids, _, ngroups = self._grouper.group_info + nqs = len(qs) + + func = partial( + libgroupby.group_quantile, + labels=ids, + qs=qs, + interpolation=interpolation, + starts=starts, + ends=ends, + ) + + def blk_func(values: ArrayLike) -> ArrayLike: + orig_vals = values + if isinstance(values, BaseMaskedArray): + mask = values._mask + result_mask = np.zeros((ngroups, nqs), dtype=np.bool_) + else: + mask = isna(values) + result_mask = None + + is_datetimelike = needs_i8_conversion(values.dtype) + + vals, inference = pre_processor(values) + + ncols = 1 + if vals.ndim == 2: + ncols = vals.shape[0] + + out = np.empty((ncols, ngroups, nqs), dtype=np.float64) + + if is_datetimelike: + vals = vals.view("i8") + + if vals.ndim == 1: + # EA is always 1d + func( + out[0], + values=vals, + mask=mask, + result_mask=result_mask, + is_datetimelike=is_datetimelike, + ) + else: + for i in range(ncols): + func( + out[i], + values=vals[i], + mask=mask[i], + result_mask=None, + is_datetimelike=is_datetimelike, + ) + + if vals.ndim == 1: + out = out.ravel("K") + if result_mask is not None: + result_mask = result_mask.ravel("K") + else: + out = out.reshape(ncols, ngroups * nqs) + + return post_processor(out, inference, result_mask, orig_vals) + + res_mgr = sdata._mgr.grouped_reduce(blk_func) + + res = self._wrap_agged_manager(res_mgr) + return self._wrap_aggregated_output(res, qs=pass_qs) + + @final + @Substitution(name="groupby") + def ngroup(self, ascending: bool = True): + """ + Number each group from 0 to the number of groups - 1. + + This is the enumerative complement of cumcount. Note that the + numbers given to the groups match the order in which the groups + would be seen when iterating over the groupby object, not the + order they are first observed. + + Groups with missing keys (where `pd.isna()` is True) will be labeled with `NaN` + and will be skipped from the count. + + Parameters + ---------- + ascending : bool, default True + If False, number in reverse, from number of group - 1 to 0. + + Returns + ------- + Series + Unique numbers for each group. + + See Also + -------- + .cumcount : Number the rows in each group. + + Examples + -------- + >>> df = pd.DataFrame({"color": ["red", None, "red", "blue", "blue", "red"]}) + >>> df + color + 0 red + 1 None + 2 red + 3 blue + 4 blue + 5 red + >>> df.groupby("color").ngroup() + 0 1.0 + 1 NaN + 2 1.0 + 3 0.0 + 4 0.0 + 5 1.0 + dtype: float64 + >>> df.groupby("color", dropna=False).ngroup() + 0 1 + 1 2 + 2 1 + 3 0 + 4 0 + 5 1 + dtype: int64 + >>> df.groupby("color", dropna=False).ngroup(ascending=False) + 0 1 + 1 0 + 2 1 + 3 2 + 4 2 + 5 1 + dtype: int64 + """ + obj = self._obj_with_exclusions + index = obj._get_axis(self.axis) + comp_ids = self._grouper.group_info[0] + + dtype: type + if self._grouper.has_dropped_na: + comp_ids = np.where(comp_ids == -1, np.nan, comp_ids) + dtype = np.float64 + else: + dtype = np.int64 + + if any(ping._passed_categorical for ping in self._grouper.groupings): + # comp_ids reflect non-observed groups, we need only observed + comp_ids = rank_1d(comp_ids, ties_method="dense") - 1 + + result = self._obj_1d_constructor(comp_ids, index, dtype=dtype) + if not ascending: + result = self.ngroups - 1 - result + return result + + @final + @Substitution(name="groupby") + def cumcount(self, ascending: bool = True): + """ + Number each item in each group from 0 to the length of that group - 1. + + Essentially this is equivalent to + + .. code-block:: python + + self.apply(lambda x: pd.Series(np.arange(len(x)), x.index)) + + Parameters + ---------- + ascending : bool, default True + If False, number in reverse, from length of group - 1 to 0. + + Returns + ------- + Series + Sequence number of each element within each group. + + See Also + -------- + .ngroup : Number the groups themselves. + + Examples + -------- + >>> df = pd.DataFrame([['a'], ['a'], ['a'], ['b'], ['b'], ['a']], + ... columns=['A']) + >>> df + A + 0 a + 1 a + 2 a + 3 b + 4 b + 5 a + >>> df.groupby('A').cumcount() + 0 0 + 1 1 + 2 2 + 3 0 + 4 1 + 5 3 + dtype: int64 + >>> df.groupby('A').cumcount(ascending=False) + 0 3 + 1 2 + 2 1 + 3 1 + 4 0 + 5 0 + dtype: int64 + """ + index = self._obj_with_exclusions._get_axis(self.axis) + cumcounts = self._cumcount_array(ascending=ascending) + return self._obj_1d_constructor(cumcounts, index) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def rank( + self, + method: str = "average", + ascending: bool = True, + na_option: str = "keep", + pct: bool = False, + axis: AxisInt | lib.NoDefault = lib.no_default, + ) -> NDFrameT: + """ + Provide the rank of values within each group. + + Parameters + ---------- + method : {'average', 'min', 'max', 'first', 'dense'}, default 'average' + * average: average rank of group. + * min: lowest rank in group. + * max: highest rank in group. + * first: ranks assigned in order they appear in the array. + * dense: like 'min', but rank always increases by 1 between groups. + ascending : bool, default True + False for ranks by high (1) to low (N). + na_option : {'keep', 'top', 'bottom'}, default 'keep' + * keep: leave NA values where they are. + * top: smallest rank if ascending. + * bottom: smallest rank if descending. + pct : bool, default False + Compute percentage rank of data within each group. + axis : int, default 0 + The axis of the object over which to compute the rank. + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + Returns + ------- + DataFrame with ranking of values within each group + %(see_also)s + Examples + -------- + >>> df = pd.DataFrame( + ... { + ... "group": ["a", "a", "a", "a", "a", "b", "b", "b", "b", "b"], + ... "value": [2, 4, 2, 3, 5, 1, 2, 4, 1, 5], + ... } + ... ) + >>> df + group value + 0 a 2 + 1 a 4 + 2 a 2 + 3 a 3 + 4 a 5 + 5 b 1 + 6 b 2 + 7 b 4 + 8 b 1 + 9 b 5 + >>> for method in ['average', 'min', 'max', 'dense', 'first']: + ... df[f'{method}_rank'] = df.groupby('group')['value'].rank(method) + >>> df + group value average_rank min_rank max_rank dense_rank first_rank + 0 a 2 1.5 1.0 2.0 1.0 1.0 + 1 a 4 4.0 4.0 4.0 3.0 4.0 + 2 a 2 1.5 1.0 2.0 1.0 2.0 + 3 a 3 3.0 3.0 3.0 2.0 3.0 + 4 a 5 5.0 5.0 5.0 4.0 5.0 + 5 b 1 1.5 1.0 2.0 1.0 1.0 + 6 b 2 3.0 3.0 3.0 2.0 3.0 + 7 b 4 4.0 4.0 4.0 3.0 4.0 + 8 b 1 1.5 1.0 2.0 1.0 2.0 + 9 b 5 5.0 5.0 5.0 4.0 5.0 + """ + if na_option not in {"keep", "top", "bottom"}: + msg = "na_option must be one of 'keep', 'top', or 'bottom'" + raise ValueError(msg) + + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "rank") + else: + axis = 0 + + kwargs = { + "ties_method": method, + "ascending": ascending, + "na_option": na_option, + "pct": pct, + } + if axis != 0: + # DataFrame uses different keyword name + kwargs["method"] = kwargs.pop("ties_method") + f = lambda x: x.rank(axis=axis, numeric_only=False, **kwargs) + result = self._python_apply_general( + f, self._selected_obj, is_transform=True + ) + return result + + return self._cython_transform( + "rank", + numeric_only=False, + axis=axis, + **kwargs, + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def cumprod( + self, axis: Axis | lib.NoDefault = lib.no_default, *args, **kwargs + ) -> NDFrameT: + """ + Cumulative product for each group. + + Returns + ------- + Series or DataFrame + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([6, 2, 0], index=lst) + >>> ser + a 6 + a 2 + b 0 + dtype: int64 + >>> ser.groupby(level=0).cumprod() + a 6 + a 12 + b 0 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["cow", "horse", "bull"]) + >>> df + a b c + cow 1 8 2 + horse 1 2 5 + bull 2 6 9 + >>> df.groupby("a").groups + {1: ['cow', 'horse'], 2: ['bull']} + >>> df.groupby("a").cumprod() + b c + cow 8 2 + horse 16 10 + bull 6 9 + """ + nv.validate_groupby_func("cumprod", args, kwargs, ["numeric_only", "skipna"]) + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "cumprod") + else: + axis = 0 + + if axis != 0: + f = lambda x: x.cumprod(axis=axis, **kwargs) + return self._python_apply_general(f, self._selected_obj, is_transform=True) + + return self._cython_transform("cumprod", **kwargs) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def cumsum( + self, axis: Axis | lib.NoDefault = lib.no_default, *args, **kwargs + ) -> NDFrameT: + """ + Cumulative sum for each group. + + Returns + ------- + Series or DataFrame + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b'] + >>> ser = pd.Series([6, 2, 0], index=lst) + >>> ser + a 6 + a 2 + b 0 + dtype: int64 + >>> ser.groupby(level=0).cumsum() + a 6 + a 8 + b 0 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 2, 5], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["fox", "gorilla", "lion"]) + >>> df + a b c + fox 1 8 2 + gorilla 1 2 5 + lion 2 6 9 + >>> df.groupby("a").groups + {1: ['fox', 'gorilla'], 2: ['lion']} + >>> df.groupby("a").cumsum() + b c + fox 8 2 + gorilla 10 7 + lion 6 9 + """ + nv.validate_groupby_func("cumsum", args, kwargs, ["numeric_only", "skipna"]) + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "cumsum") + else: + axis = 0 + + if axis != 0: + f = lambda x: x.cumsum(axis=axis, **kwargs) + return self._python_apply_general(f, self._selected_obj, is_transform=True) + + return self._cython_transform("cumsum", **kwargs) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def cummin( + self, + axis: AxisInt | lib.NoDefault = lib.no_default, + numeric_only: bool = False, + **kwargs, + ) -> NDFrameT: + """ + Cumulative min for each group. + + Returns + ------- + Series or DataFrame + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([1, 6, 2, 3, 0, 4], index=lst) + >>> ser + a 1 + a 6 + a 2 + b 3 + b 0 + b 4 + dtype: int64 + >>> ser.groupby(level=0).cummin() + a 1 + a 1 + a 1 + b 3 + b 0 + b 0 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 0, 2], [1, 1, 5], [6, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["snake", "rabbit", "turtle"]) + >>> df + a b c + snake 1 0 2 + rabbit 1 1 5 + turtle 6 6 9 + >>> df.groupby("a").groups + {1: ['snake', 'rabbit'], 6: ['turtle']} + >>> df.groupby("a").cummin() + b c + snake 0 2 + rabbit 0 2 + turtle 6 9 + """ + skipna = kwargs.get("skipna", True) + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "cummin") + else: + axis = 0 + + if axis != 0: + f = lambda x: np.minimum.accumulate(x, axis) + obj = self._selected_obj + if numeric_only: + obj = obj._get_numeric_data() + return self._python_apply_general(f, obj, is_transform=True) + + return self._cython_transform( + "cummin", numeric_only=numeric_only, skipna=skipna + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def cummax( + self, + axis: AxisInt | lib.NoDefault = lib.no_default, + numeric_only: bool = False, + **kwargs, + ) -> NDFrameT: + """ + Cumulative max for each group. + + Returns + ------- + Series or DataFrame + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([1, 6, 2, 3, 1, 4], index=lst) + >>> ser + a 1 + a 6 + a 2 + b 3 + b 1 + b 4 + dtype: int64 + >>> ser.groupby(level=0).cummax() + a 1 + a 6 + a 6 + b 3 + b 3 + b 4 + dtype: int64 + + For DataFrameGroupBy: + + >>> data = [[1, 8, 2], [1, 1, 0], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["cow", "horse", "bull"]) + >>> df + a b c + cow 1 8 2 + horse 1 1 0 + bull 2 6 9 + >>> df.groupby("a").groups + {1: ['cow', 'horse'], 2: ['bull']} + >>> df.groupby("a").cummax() + b c + cow 8 2 + horse 8 2 + bull 6 9 + """ + skipna = kwargs.get("skipna", True) + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "cummax") + else: + axis = 0 + + if axis != 0: + f = lambda x: np.maximum.accumulate(x, axis) + obj = self._selected_obj + if numeric_only: + obj = obj._get_numeric_data() + return self._python_apply_general(f, obj, is_transform=True) + + return self._cython_transform( + "cummax", numeric_only=numeric_only, skipna=skipna + ) + + @final + @Substitution(name="groupby") + def shift( + self, + periods: int | Sequence[int] = 1, + freq=None, + axis: Axis | lib.NoDefault = lib.no_default, + fill_value=lib.no_default, + suffix: str | None = None, + ): + """ + Shift each group by periods observations. + + If freq is passed, the index will be increased using the periods and the freq. + + Parameters + ---------- + periods : int | Sequence[int], default 1 + Number of periods to shift. If a list of values, shift each group by + each period. + freq : str, optional + Frequency string. + axis : axis to shift, default 0 + Shift direction. + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + fill_value : optional + The scalar value to use for newly introduced missing values. + + .. versionchanged:: 2.1.0 + Will raise a ``ValueError`` if ``freq`` is provided too. + + suffix : str, optional + A string to add to each shifted column if there are multiple periods. + Ignored otherwise. + + Returns + ------- + Series or DataFrame + Object shifted within each group. + + See Also + -------- + Index.shift : Shift values of Index. + + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).shift(1) + a NaN + a 1.0 + b NaN + b 3.0 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tuna", "salmon", "catfish", "goldfish"]) + >>> df + a b c + tuna 1 2 3 + salmon 1 5 6 + catfish 2 5 8 + goldfish 2 6 9 + >>> df.groupby("a").shift(1) + b c + tuna NaN NaN + salmon 2.0 3.0 + catfish NaN NaN + goldfish 5.0 8.0 + """ + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "shift") + else: + axis = 0 + + if is_list_like(periods): + if axis == 1: + raise ValueError( + "If `periods` contains multiple shifts, `axis` cannot be 1." + ) + periods = cast(Sequence, periods) + if len(periods) == 0: + raise ValueError("If `periods` is an iterable, it cannot be empty.") + from pandas.core.reshape.concat import concat + + add_suffix = True + else: + if not is_integer(periods): + raise TypeError( + f"Periods must be integer, but {periods} is {type(periods)}." + ) + if suffix: + raise ValueError("Cannot specify `suffix` if `periods` is an int.") + periods = [cast(int, periods)] + add_suffix = False + + shifted_dataframes = [] + for period in periods: + if not is_integer(period): + raise TypeError( + f"Periods must be integer, but {period} is {type(period)}." + ) + period = cast(int, period) + if freq is not None or axis != 0: + f = lambda x: x.shift( + period, freq, axis, fill_value # pylint: disable=cell-var-from-loop + ) + shifted = self._python_apply_general( + f, self._selected_obj, is_transform=True + ) + else: + if fill_value is lib.no_default: + fill_value = None + ids, _, ngroups = self._grouper.group_info + res_indexer = np.zeros(len(ids), dtype=np.int64) + + libgroupby.group_shift_indexer(res_indexer, ids, ngroups, period) + + obj = self._obj_with_exclusions + + shifted = obj._reindex_with_indexers( + {self.axis: (obj.axes[self.axis], res_indexer)}, + fill_value=fill_value, + allow_dups=True, + ) + + if add_suffix: + if isinstance(shifted, Series): + shifted = cast(NDFrameT, shifted.to_frame()) + shifted = shifted.add_suffix( + f"{suffix}_{period}" if suffix else f"_{period}" + ) + shifted_dataframes.append(cast(Union[Series, DataFrame], shifted)) + + return ( + shifted_dataframes[0] + if len(shifted_dataframes) == 1 + else concat(shifted_dataframes, axis=1) + ) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def diff( + self, periods: int = 1, axis: AxisInt | lib.NoDefault = lib.no_default + ) -> NDFrameT: + """ + First discrete difference of element. + + Calculates the difference of each element compared with another + element in the group (default is element in previous row). + + Parameters + ---------- + periods : int, default 1 + Periods to shift for calculating difference, accepts negative values. + axis : axis to shift, default 0 + Take difference over rows (0) or columns (1). + + .. deprecated:: 2.1.0 + For axis=1, operate on the underlying object instead. Otherwise + the axis keyword is not necessary. + + Returns + ------- + Series or DataFrame + First differences. + %(see_also)s + Examples + -------- + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'a', 'b', 'b', 'b'] + >>> ser = pd.Series([7, 2, 8, 4, 3, 3], index=lst) + >>> ser + a 7 + a 2 + a 8 + b 4 + b 3 + b 3 + dtype: int64 + >>> ser.groupby(level=0).diff() + a NaN + a -5.0 + a 6.0 + b NaN + b -1.0 + b 0.0 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = {'a': [1, 3, 5, 7, 7, 8, 3], 'b': [1, 4, 8, 4, 4, 2, 1]} + >>> df = pd.DataFrame(data, index=['dog', 'dog', 'dog', + ... 'mouse', 'mouse', 'mouse', 'mouse']) + >>> df + a b + dog 1 1 + dog 3 4 + dog 5 8 + mouse 7 4 + mouse 7 4 + mouse 8 2 + mouse 3 1 + >>> df.groupby(level=0).diff() + a b + dog NaN NaN + dog 2.0 3.0 + dog 2.0 4.0 + mouse NaN NaN + mouse 0.0 0.0 + mouse 1.0 -2.0 + mouse -5.0 -1.0 + """ + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "diff") + else: + axis = 0 + + if axis != 0: + return self.apply(lambda x: x.diff(periods=periods, axis=axis)) + + obj = self._obj_with_exclusions + shifted = self.shift(periods=periods) + + # GH45562 - to retain existing behavior and match behavior of Series.diff(), + # int8 and int16 are coerced to float32 rather than float64. + dtypes_to_f32 = ["int8", "int16"] + if obj.ndim == 1: + if obj.dtype in dtypes_to_f32: + shifted = shifted.astype("float32") + else: + to_coerce = [c for c, dtype in obj.dtypes.items() if dtype in dtypes_to_f32] + if len(to_coerce): + shifted = shifted.astype({c: "float32" for c in to_coerce}) + + return obj - shifted + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def pct_change( + self, + periods: int = 1, + fill_method: FillnaOptions | None | lib.NoDefault = lib.no_default, + limit: int | None | lib.NoDefault = lib.no_default, + freq=None, + axis: Axis | lib.NoDefault = lib.no_default, + ): + """ + Calculate pct_change of each value to previous entry in group. + + Returns + ------- + Series or DataFrame + Percentage changes within each group. + %(see_also)s + Examples + -------- + + For SeriesGroupBy: + + >>> lst = ['a', 'a', 'b', 'b'] + >>> ser = pd.Series([1, 2, 3, 4], index=lst) + >>> ser + a 1 + a 2 + b 3 + b 4 + dtype: int64 + >>> ser.groupby(level=0).pct_change() + a NaN + a 1.000000 + b NaN + b 0.333333 + dtype: float64 + + For DataFrameGroupBy: + + >>> data = [[1, 2, 3], [1, 5, 6], [2, 5, 8], [2, 6, 9]] + >>> df = pd.DataFrame(data, columns=["a", "b", "c"], + ... index=["tuna", "salmon", "catfish", "goldfish"]) + >>> df + a b c + tuna 1 2 3 + salmon 1 5 6 + catfish 2 5 8 + goldfish 2 6 9 + >>> df.groupby("a").pct_change() + b c + tuna NaN NaN + salmon 1.5 1.000 + catfish NaN NaN + goldfish 0.2 0.125 + """ + # GH#53491 + if fill_method not in (lib.no_default, None) or limit is not lib.no_default: + warnings.warn( + "The 'fill_method' keyword being not None and the 'limit' keyword in " + f"{type(self).__name__}.pct_change are deprecated and will be removed " + "in a future version. Either fill in any non-leading NA values prior " + "to calling pct_change or specify 'fill_method=None' to not fill NA " + "values.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if fill_method is lib.no_default: + if limit is lib.no_default and any( + grp.isna().values.any() for _, grp in self + ): + warnings.warn( + "The default fill_method='ffill' in " + f"{type(self).__name__}.pct_change is deprecated and will " + "be removed in a future version. Either fill in any " + "non-leading NA values prior to calling pct_change or " + "specify 'fill_method=None' to not fill NA values.", + FutureWarning, + stacklevel=find_stack_level(), + ) + fill_method = "ffill" + if limit is lib.no_default: + limit = None + + if axis is not lib.no_default: + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, "pct_change") + else: + axis = 0 + + # TODO(GH#23918): Remove this conditional for SeriesGroupBy when + # GH#23918 is fixed + if freq is not None or axis != 0: + f = lambda x: x.pct_change( + periods=periods, + fill_method=fill_method, + limit=limit, + freq=freq, + axis=axis, + ) + return self._python_apply_general(f, self._selected_obj, is_transform=True) + + if fill_method is None: # GH30463 + fill_method = "ffill" + limit = 0 + filled = getattr(self, fill_method)(limit=limit) + if self.axis == 0: + fill_grp = filled.groupby(self._grouper.codes, group_keys=self.group_keys) + else: + fill_grp = filled.T.groupby(self._grouper.codes, group_keys=self.group_keys) + shifted = fill_grp.shift(periods=periods, freq=freq) + if self.axis == 1: + shifted = shifted.T + return (filled / shifted) - 1 + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def head(self, n: int = 5) -> NDFrameT: + """ + Return first n rows of each group. + + Similar to ``.apply(lambda x: x.head(n))``, but it returns a subset of rows + from the original DataFrame with original index and order preserved + (``as_index`` flag is ignored). + + Parameters + ---------- + n : int + If positive: number of entries to include from start of each group. + If negative: number of entries to exclude from end of each group. + + Returns + ------- + Series or DataFrame + Subset of original Series or DataFrame as determined by n. + %(see_also)s + Examples + -------- + + >>> df = pd.DataFrame([[1, 2], [1, 4], [5, 6]], + ... columns=['A', 'B']) + >>> df.groupby('A').head(1) + A B + 0 1 2 + 2 5 6 + >>> df.groupby('A').head(-1) + A B + 0 1 2 + """ + mask = self._make_mask_from_positional_indexer(slice(None, n)) + return self._mask_selected_obj(mask) + + @final + @Substitution(name="groupby") + @Substitution(see_also=_common_see_also) + def tail(self, n: int = 5) -> NDFrameT: + """ + Return last n rows of each group. + + Similar to ``.apply(lambda x: x.tail(n))``, but it returns a subset of rows + from the original DataFrame with original index and order preserved + (``as_index`` flag is ignored). + + Parameters + ---------- + n : int + If positive: number of entries to include from end of each group. + If negative: number of entries to exclude from start of each group. + + Returns + ------- + Series or DataFrame + Subset of original Series or DataFrame as determined by n. + %(see_also)s + Examples + -------- + + >>> df = pd.DataFrame([['a', 1], ['a', 2], ['b', 1], ['b', 2]], + ... columns=['A', 'B']) + >>> df.groupby('A').tail(1) + A B + 1 a 2 + 3 b 2 + >>> df.groupby('A').tail(-1) + A B + 1 a 2 + 3 b 2 + """ + if n: + mask = self._make_mask_from_positional_indexer(slice(-n, None)) + else: + mask = self._make_mask_from_positional_indexer([]) + + return self._mask_selected_obj(mask) + + @final + def _mask_selected_obj(self, mask: npt.NDArray[np.bool_]) -> NDFrameT: + """ + Return _selected_obj with mask applied to the correct axis. + + Parameters + ---------- + mask : np.ndarray[bool] + Boolean mask to apply. + + Returns + ------- + Series or DataFrame + Filtered _selected_obj. + """ + ids = self._grouper.group_info[0] + mask = mask & (ids != -1) + + if self.axis == 0: + return self._selected_obj[mask] + else: + return self._selected_obj.iloc[:, mask] + + @final + def _reindex_output( + self, + output: OutputFrameOrSeries, + fill_value: Scalar = np.nan, + qs: npt.NDArray[np.float64] | None = None, + ) -> OutputFrameOrSeries: + """ + If we have categorical groupers, then we might want to make sure that + we have a fully re-indexed output to the levels. This means expanding + the output space to accommodate all values in the cartesian product of + our groups, regardless of whether they were observed in the data or + not. This will expand the output space if there are missing groups. + + The method returns early without modifying the input if the number of + groupings is less than 2, self.observed == True or none of the groupers + are categorical. + + Parameters + ---------- + output : Series or DataFrame + Object resulting from grouping and applying an operation. + fill_value : scalar, default np.nan + Value to use for unobserved categories if self.observed is False. + qs : np.ndarray[float64] or None, default None + quantile values, only relevant for quantile. + + Returns + ------- + Series or DataFrame + Object (potentially) re-indexed to include all possible groups. + """ + groupings = self._grouper.groupings + if len(groupings) == 1: + return output + + # if we only care about the observed values + # we are done + elif self.observed: + return output + + # reindexing only applies to a Categorical grouper + elif not any( + isinstance(ping.grouping_vector, (Categorical, CategoricalIndex)) + for ping in groupings + ): + return output + + levels_list = [ping._group_index for ping in groupings] + names = self._grouper.names + if qs is not None: + # error: Argument 1 to "append" of "list" has incompatible type + # "ndarray[Any, dtype[floating[_64Bit]]]"; expected "Index" + levels_list.append(qs) # type: ignore[arg-type] + names = names + [None] + index = MultiIndex.from_product(levels_list, names=names) + if self.sort: + index = index.sort_values() + + if self.as_index: + # Always holds for SeriesGroupBy unless GH#36507 is implemented + d = { + self.obj._get_axis_name(self.axis): index, + "copy": False, + "fill_value": fill_value, + } + return output.reindex(**d) # type: ignore[arg-type] + + # GH 13204 + # Here, the categorical in-axis groupers, which need to be fully + # expanded, are columns in `output`. An idea is to do: + # output = output.set_index(self._grouper.names) + # .reindex(index).reset_index() + # but special care has to be taken because of possible not-in-axis + # groupers. + # So, we manually select and drop the in-axis grouper columns, + # reindex `output`, and then reset the in-axis grouper columns. + + # Select in-axis groupers + in_axis_grps = [ + (i, ping.name) for (i, ping) in enumerate(groupings) if ping.in_axis + ] + if len(in_axis_grps) > 0: + g_nums, g_names = zip(*in_axis_grps) + output = output.drop(labels=list(g_names), axis=1) + + # Set a temp index and reindex (possibly expanding) + output = output.set_index(self._grouper.result_index).reindex( + index, copy=False, fill_value=fill_value + ) + + # Reset in-axis grouper columns + # (using level numbers `g_nums` because level names may not be unique) + if len(in_axis_grps) > 0: + output = output.reset_index(level=g_nums) + + return output.reset_index(drop=True) + + @final + def sample( + self, + n: int | None = None, + frac: float | None = None, + replace: bool = False, + weights: Sequence | Series | None = None, + random_state: RandomState | None = None, + ): + """ + Return a random sample of items from each group. + + You can use `random_state` for reproducibility. + + Parameters + ---------- + n : int, optional + Number of items to return for each group. Cannot be used with + `frac` and must be no larger than the smallest group unless + `replace` is True. Default is one if `frac` is None. + frac : float, optional + Fraction of items to return. Cannot be used with `n`. + replace : bool, default False + Allow or disallow sampling of the same row more than once. + weights : list-like, optional + Default None results in equal probability weighting. + If passed a list-like then values must have the same length as + the underlying DataFrame or Series object and will be used as + sampling probabilities after normalization within each group. + Values must be non-negative with at least one positive element + within each group. + random_state : int, array-like, BitGenerator, np.random.RandomState, np.random.Generator, optional + If int, array-like, or BitGenerator, seed for random number generator. + If np.random.RandomState or np.random.Generator, use as given. + + .. versionchanged:: 1.4.0 + + np.random.Generator objects now accepted + + Returns + ------- + Series or DataFrame + A new object of same type as caller containing items randomly + sampled within each group from the caller object. + + See Also + -------- + DataFrame.sample: Generate random samples from a DataFrame object. + numpy.random.choice: Generate a random sample from a given 1-D numpy + array. + + Examples + -------- + >>> df = pd.DataFrame( + ... {"a": ["red"] * 2 + ["blue"] * 2 + ["black"] * 2, "b": range(6)} + ... ) + >>> df + a b + 0 red 0 + 1 red 1 + 2 blue 2 + 3 blue 3 + 4 black 4 + 5 black 5 + + Select one row at random for each distinct value in column a. The + `random_state` argument can be used to guarantee reproducibility: + + >>> df.groupby("a").sample(n=1, random_state=1) + a b + 4 black 4 + 2 blue 2 + 1 red 1 + + Set `frac` to sample fixed proportions rather than counts: + + >>> df.groupby("a")["b"].sample(frac=0.5, random_state=2) + 5 5 + 2 2 + 0 0 + Name: b, dtype: int64 + + Control sample probabilities within groups by setting weights: + + >>> df.groupby("a").sample( + ... n=1, + ... weights=[1, 1, 1, 0, 0, 1], + ... random_state=1, + ... ) + a b + 5 black 5 + 2 blue 2 + 0 red 0 + """ # noqa: E501 + if self._selected_obj.empty: + # GH48459 prevent ValueError when object is empty + return self._selected_obj + size = sample.process_sampling_size(n, frac, replace) + if weights is not None: + weights_arr = sample.preprocess_weights( + self._selected_obj, weights, axis=self.axis + ) + + random_state = com.random_state(random_state) + + group_iterator = self._grouper.get_iterator(self._selected_obj, self.axis) + + sampled_indices = [] + for labels, obj in group_iterator: + grp_indices = self.indices[labels] + group_size = len(grp_indices) + if size is not None: + sample_size = size + else: + assert frac is not None + sample_size = round(frac * group_size) + + grp_sample = sample.sample( + group_size, + size=sample_size, + replace=replace, + weights=None if weights is None else weights_arr[grp_indices], + random_state=random_state, + ) + sampled_indices.append(grp_indices[grp_sample]) + + sampled_indices = np.concatenate(sampled_indices) + return self._selected_obj.take(sampled_indices, axis=self.axis) + + def _idxmax_idxmin( + self, + how: Literal["idxmax", "idxmin"], + ignore_unobserved: bool = False, + axis: Axis | None | lib.NoDefault = lib.no_default, + skipna: bool = True, + numeric_only: bool = False, + ) -> NDFrameT: + """Compute idxmax/idxmin. + + Parameters + ---------- + how : {'idxmin', 'idxmax'} + Whether to compute idxmin or idxmax. + axis : {{0 or 'index', 1 or 'columns'}}, default None + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + If axis is not provided, grouper's axis is used. + numeric_only : bool, default False + Include only float, int, boolean columns. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + ignore_unobserved : bool, default False + When True and an unobserved group is encountered, do not raise. This used + for transform where unobserved groups do not play an impact on the result. + + Returns + ------- + Series or DataFrame + idxmax or idxmin for the groupby operation. + """ + if axis is not lib.no_default: + if axis is None: + axis = self.axis + axis = self.obj._get_axis_number(axis) + self._deprecate_axis(axis, how) + else: + axis = self.axis + + if not self.observed and any( + ping._passed_categorical for ping in self._grouper.groupings + ): + expected_len = np.prod( + [len(ping._group_index) for ping in self._grouper.groupings] + ) + if len(self._grouper.groupings) == 1: + result_len = len(self._grouper.groupings[0].grouping_vector.unique()) + else: + # result_index only contains observed groups in this case + result_len = len(self._grouper.result_index) + assert result_len <= expected_len + has_unobserved = result_len < expected_len + + raise_err: bool | np.bool_ = not ignore_unobserved and has_unobserved + # Only raise an error if there are columns to compute; otherwise we return + # an empty DataFrame with an index (possibly including unobserved) but no + # columns + data = self._obj_with_exclusions + if raise_err and isinstance(data, DataFrame): + if numeric_only: + data = data._get_numeric_data() + raise_err = len(data.columns) > 0 + + if raise_err: + raise ValueError( + f"Can't get {how} of an empty group due to unobserved categories. " + "Specify observed=True in groupby instead." + ) + elif not skipna: + if self._obj_with_exclusions.isna().any(axis=None): + warnings.warn( + f"The behavior of {type(self).__name__}.{how} with all-NA " + "values, or any-NA and skipna=False, is deprecated. In a future " + "version this will raise ValueError", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if axis == 1: + try: + + def func(df): + method = getattr(df, how) + return method(axis=axis, skipna=skipna, numeric_only=numeric_only) + + func.__name__ = how + result = self._python_apply_general( + func, self._obj_with_exclusions, not_indexed_same=True + ) + except ValueError as err: + name = "argmax" if how == "idxmax" else "argmin" + if f"attempt to get {name} of an empty sequence" in str(err): + raise ValueError( + f"Can't get {how} of an empty group due to unobserved " + "categories. Specify observed=True in groupby instead." + ) from None + raise + return result + + result = self._agg_general( + numeric_only=numeric_only, + min_count=1, + alias=how, + skipna=skipna, + ) + return result + + def _wrap_idxmax_idxmin(self, res: NDFrameT) -> NDFrameT: + index = self.obj._get_axis(self.axis) + if res.size == 0: + result = res.astype(index.dtype) + else: + if isinstance(index, MultiIndex): + index = index.to_flat_index() + values = res._values + assert isinstance(values, np.ndarray) + na_value = na_value_for_dtype(index.dtype, compat=False) + if isinstance(res, Series): + # mypy: expression has type "Series", variable has type "NDFrameT" + result = res._constructor( # type: ignore[assignment] + index.array.take(values, allow_fill=True, fill_value=na_value), + index=res.index, + name=res.name, + ) + else: + data = {} + for k, column_values in enumerate(values.T): + data[k] = index.array.take( + column_values, allow_fill=True, fill_value=na_value + ) + result = self.obj._constructor(data, index=res.index) + result.columns = res.columns + return result + + +@doc(GroupBy) +def get_groupby( + obj: NDFrame, + by: _KeysArgType | None = None, + axis: AxisInt = 0, + grouper: ops.BaseGrouper | None = None, + group_keys: bool = True, +) -> GroupBy: + klass: type[GroupBy] + if isinstance(obj, Series): + from pandas.core.groupby.generic import SeriesGroupBy + + klass = SeriesGroupBy + elif isinstance(obj, DataFrame): + from pandas.core.groupby.generic import DataFrameGroupBy + + klass = DataFrameGroupBy + else: # pragma: no cover + raise TypeError(f"invalid type: {obj}") + + return klass( + obj=obj, + keys=by, + axis=axis, + grouper=grouper, + group_keys=group_keys, + ) + + +def _insert_quantile_level(idx: Index, qs: npt.NDArray[np.float64]) -> MultiIndex: + """ + Insert the sequence 'qs' of quantiles as the inner-most level of a MultiIndex. + + The quantile level in the MultiIndex is a repeated copy of 'qs'. + + Parameters + ---------- + idx : Index + qs : np.ndarray[float64] + + Returns + ------- + MultiIndex + """ + nqs = len(qs) + lev_codes, lev = Index(qs).factorize() + lev_codes = coerce_indexer_dtype(lev_codes, lev) + + if idx._is_multi: + idx = cast(MultiIndex, idx) + levels = list(idx.levels) + [lev] + codes = [np.repeat(x, nqs) for x in idx.codes] + [np.tile(lev_codes, len(idx))] + mi = MultiIndex(levels=levels, codes=codes, names=idx.names + [None]) + else: + nidx = len(idx) + idx_codes = coerce_indexer_dtype(np.arange(nidx), idx) + levels = [idx, lev] + codes = [np.repeat(idx_codes, nqs), np.tile(lev_codes, nidx)] + mi = MultiIndex(levels=levels, codes=codes, names=[idx.name, None]) + + return mi + + +# GH#7155 +_apply_groupings_depr = ( + "{}.{} operated on the grouping columns. This behavior is deprecated, " + "and in a future version of pandas the grouping columns will be excluded " + "from the operation. Either pass `include_groups=False` to exclude the " + "groupings or explicitly select the grouping columns after groupby to silence " + "this warning." +) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/grouper.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/grouper.py new file mode 100644 index 0000000000000000000000000000000000000000..4bf2e8b90a0b09146f41975aa801929c77fd5fce --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/grouper.py @@ -0,0 +1,1102 @@ +""" +Provide user facing operators for doing the split part of the +split-apply-combine paradigm. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + final, +) +import warnings + +import numpy as np + +from pandas._config import ( + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs import lib +from pandas._libs.tslibs import OutOfBoundsDatetime +from pandas.errors import InvalidIndexError +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_list_like, + is_scalar, +) +from pandas.core.dtypes.dtypes import CategoricalDtype + +from pandas.core import algorithms +from pandas.core.arrays import ( + Categorical, + ExtensionArray, +) +import pandas.core.common as com +from pandas.core.frame import DataFrame +from pandas.core.groupby import ops +from pandas.core.groupby.categorical import recode_for_groupby +from pandas.core.indexes.api import ( + CategoricalIndex, + Index, + MultiIndex, +) +from pandas.core.series import Series + +from pandas.io.formats.printing import pprint_thing + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + ) + + from pandas._typing import ( + ArrayLike, + Axis, + NDFrameT, + npt, + ) + + from pandas.core.generic import NDFrame + + +class Grouper: + """ + A Grouper allows the user to specify a groupby instruction for an object. + + This specification will select a column via the key parameter, or if the + level and/or axis parameters are given, a level of the index of the target + object. + + If `axis` and/or `level` are passed as keywords to both `Grouper` and + `groupby`, the values passed to `Grouper` take precedence. + + Parameters + ---------- + key : str, defaults to None + Groupby key, which selects the grouping column of the target. + level : name/number, defaults to None + The level for the target index. + freq : str / frequency object, defaults to None + This will groupby the specified frequency if the target selection + (via key or level) is a datetime-like object. For full specification + of available frequencies, please see `here + `_. + axis : str, int, defaults to 0 + Number/name of the axis. + sort : bool, default to False + Whether to sort the resulting labels. + closed : {'left' or 'right'} + Closed end of interval. Only when `freq` parameter is passed. + label : {'left' or 'right'} + Interval boundary to use for labeling. + Only when `freq` parameter is passed. + convention : {'start', 'end', 'e', 's'} + If grouper is PeriodIndex and `freq` parameter is passed. + + origin : Timestamp or str, default 'start_day' + The timestamp on which to adjust the grouping. The timezone of origin must + match the timezone of the index. + If string, must be one of the following: + + - 'epoch': `origin` is 1970-01-01 + - 'start': `origin` is the first value of the timeseries + - 'start_day': `origin` is the first day at midnight of the timeseries + + - 'end': `origin` is the last value of the timeseries + - 'end_day': `origin` is the ceiling midnight of the last day + + .. versionadded:: 1.3.0 + + offset : Timedelta or str, default is None + An offset timedelta added to the origin. + + dropna : bool, default True + If True, and if group keys contain NA values, NA values together with + row/column will be dropped. If False, NA values will also be treated as + the key in groups. + + Returns + ------- + Grouper or pandas.api.typing.TimeGrouper + A TimeGrouper is returned if ``freq`` is not ``None``. Otherwise, a Grouper + is returned. + + Examples + -------- + ``df.groupby(pd.Grouper(key="Animal"))`` is equivalent to ``df.groupby('Animal')`` + + >>> df = pd.DataFrame( + ... { + ... "Animal": ["Falcon", "Parrot", "Falcon", "Falcon", "Parrot"], + ... "Speed": [100, 5, 200, 300, 15], + ... } + ... ) + >>> df + Animal Speed + 0 Falcon 100 + 1 Parrot 5 + 2 Falcon 200 + 3 Falcon 300 + 4 Parrot 15 + >>> df.groupby(pd.Grouper(key="Animal")).mean() + Speed + Animal + Falcon 200.0 + Parrot 10.0 + + Specify a resample operation on the column 'Publish date' + + >>> df = pd.DataFrame( + ... { + ... "Publish date": [ + ... pd.Timestamp("2000-01-02"), + ... pd.Timestamp("2000-01-02"), + ... pd.Timestamp("2000-01-09"), + ... pd.Timestamp("2000-01-16") + ... ], + ... "ID": [0, 1, 2, 3], + ... "Price": [10, 20, 30, 40] + ... } + ... ) + >>> df + Publish date ID Price + 0 2000-01-02 0 10 + 1 2000-01-02 1 20 + 2 2000-01-09 2 30 + 3 2000-01-16 3 40 + >>> df.groupby(pd.Grouper(key="Publish date", freq="1W")).mean() + ID Price + Publish date + 2000-01-02 0.5 15.0 + 2000-01-09 2.0 30.0 + 2000-01-16 3.0 40.0 + + If you want to adjust the start of the bins based on a fixed timestamp: + + >>> start, end = '2000-10-01 23:30:00', '2000-10-02 00:30:00' + >>> rng = pd.date_range(start, end, freq='7min') + >>> ts = pd.Series(np.arange(len(rng)) * 3, index=rng) + >>> ts + 2000-10-01 23:30:00 0 + 2000-10-01 23:37:00 3 + 2000-10-01 23:44:00 6 + 2000-10-01 23:51:00 9 + 2000-10-01 23:58:00 12 + 2000-10-02 00:05:00 15 + 2000-10-02 00:12:00 18 + 2000-10-02 00:19:00 21 + 2000-10-02 00:26:00 24 + Freq: 7min, dtype: int64 + + >>> ts.groupby(pd.Grouper(freq='17min')).sum() + 2000-10-01 23:14:00 0 + 2000-10-01 23:31:00 9 + 2000-10-01 23:48:00 21 + 2000-10-02 00:05:00 54 + 2000-10-02 00:22:00 24 + Freq: 17min, dtype: int64 + + >>> ts.groupby(pd.Grouper(freq='17min', origin='epoch')).sum() + 2000-10-01 23:18:00 0 + 2000-10-01 23:35:00 18 + 2000-10-01 23:52:00 27 + 2000-10-02 00:09:00 39 + 2000-10-02 00:26:00 24 + Freq: 17min, dtype: int64 + + >>> ts.groupby(pd.Grouper(freq='17min', origin='2000-01-01')).sum() + 2000-10-01 23:24:00 3 + 2000-10-01 23:41:00 15 + 2000-10-01 23:58:00 45 + 2000-10-02 00:15:00 45 + Freq: 17min, dtype: int64 + + If you want to adjust the start of the bins with an `offset` Timedelta, the two + following lines are equivalent: + + >>> ts.groupby(pd.Grouper(freq='17min', origin='start')).sum() + 2000-10-01 23:30:00 9 + 2000-10-01 23:47:00 21 + 2000-10-02 00:04:00 54 + 2000-10-02 00:21:00 24 + Freq: 17min, dtype: int64 + + >>> ts.groupby(pd.Grouper(freq='17min', offset='23h30min')).sum() + 2000-10-01 23:30:00 9 + 2000-10-01 23:47:00 21 + 2000-10-02 00:04:00 54 + 2000-10-02 00:21:00 24 + Freq: 17min, dtype: int64 + + To replace the use of the deprecated `base` argument, you can now use `offset`, + in this example it is equivalent to have `base=2`: + + >>> ts.groupby(pd.Grouper(freq='17min', offset='2min')).sum() + 2000-10-01 23:16:00 0 + 2000-10-01 23:33:00 9 + 2000-10-01 23:50:00 36 + 2000-10-02 00:07:00 39 + 2000-10-02 00:24:00 24 + Freq: 17min, dtype: int64 + """ + + sort: bool + dropna: bool + _gpr_index: Index | None + _grouper: Index | None + + _attributes: tuple[str, ...] = ("key", "level", "freq", "axis", "sort", "dropna") + + def __new__(cls, *args, **kwargs): + if kwargs.get("freq") is not None: + from pandas.core.resample import TimeGrouper + + cls = TimeGrouper + return super().__new__(cls) + + def __init__( + self, + key=None, + level=None, + freq=None, + axis: Axis | lib.NoDefault = lib.no_default, + sort: bool = False, + dropna: bool = True, + ) -> None: + if type(self) is Grouper: + # i.e. not TimeGrouper + if axis is not lib.no_default: + warnings.warn( + "Grouper axis keyword is deprecated and will be removed in a " + "future version. To group on axis=1, use obj.T.groupby(...) " + "instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + axis = 0 + if axis is lib.no_default: + axis = 0 + + self.key = key + self.level = level + self.freq = freq + self.axis = axis + self.sort = sort + self.dropna = dropna + + self._grouper_deprecated = None + self._indexer_deprecated: npt.NDArray[np.intp] | None = None + self._obj_deprecated = None + self._gpr_index = None + self.binner = None + self._grouper = None + self._indexer: npt.NDArray[np.intp] | None = None + + def _get_grouper( + self, obj: NDFrameT, validate: bool = True + ) -> tuple[ops.BaseGrouper, NDFrameT]: + """ + Parameters + ---------- + obj : Series or DataFrame + validate : bool, default True + if True, validate the grouper + + Returns + ------- + a tuple of grouper, obj (possibly sorted) + """ + obj, _, _ = self._set_grouper(obj) + grouper, _, obj = get_grouper( + obj, + [self.key], + axis=self.axis, + level=self.level, + sort=self.sort, + validate=validate, + dropna=self.dropna, + ) + # Without setting this, subsequent lookups to .groups raise + # error: Incompatible types in assignment (expression has type "BaseGrouper", + # variable has type "None") + self._grouper_deprecated = grouper # type: ignore[assignment] + + return grouper, obj + + def _set_grouper( + self, obj: NDFrameT, sort: bool = False, *, gpr_index: Index | None = None + ) -> tuple[NDFrameT, Index, npt.NDArray[np.intp] | None]: + """ + given an object and the specifications, setup the internal grouper + for this particular specification + + Parameters + ---------- + obj : Series or DataFrame + sort : bool, default False + whether the resulting grouper should be sorted + gpr_index : Index or None, default None + + Returns + ------- + NDFrame + Index + np.ndarray[np.intp] | None + """ + assert obj is not None + + if self.key is not None and self.level is not None: + raise ValueError("The Grouper cannot specify both a key and a level!") + + # Keep self._grouper value before overriding + if self._grouper is None: + # TODO: What are we assuming about subsequent calls? + self._grouper = gpr_index + self._indexer = self._indexer_deprecated + + # the key must be a valid info item + if self.key is not None: + key = self.key + # The 'on' is already defined + if getattr(gpr_index, "name", None) == key and isinstance(obj, Series): + # Sometimes self._grouper will have been resorted while + # obj has not. In this case there is a mismatch when we + # call self._grouper.take(obj.index) so we need to undo the sorting + # before we call _grouper.take. + assert self._grouper is not None + if self._indexer is not None: + reverse_indexer = self._indexer.argsort() + unsorted_ax = self._grouper.take(reverse_indexer) + ax = unsorted_ax.take(obj.index) + else: + ax = self._grouper.take(obj.index) + else: + if key not in obj._info_axis: + raise KeyError(f"The grouper name {key} is not found") + ax = Index(obj[key], name=key) + + else: + ax = obj._get_axis(self.axis) + if self.level is not None: + level = self.level + + # if a level is given it must be a mi level or + # equivalent to the axis name + if isinstance(ax, MultiIndex): + level = ax._get_level_number(level) + ax = Index(ax._get_level_values(level), name=ax.names[level]) + + else: + if level not in (0, ax.name): + raise ValueError(f"The level {level} is not valid") + + # possibly sort + indexer: npt.NDArray[np.intp] | None = None + if (self.sort or sort) and not ax.is_monotonic_increasing: + # use stable sort to support first, last, nth + # TODO: why does putting na_position="first" fix datetimelike cases? + indexer = self._indexer_deprecated = ax.array.argsort( + kind="mergesort", na_position="first" + ) + ax = ax.take(indexer) + obj = obj.take(indexer, axis=self.axis) + + # error: Incompatible types in assignment (expression has type + # "NDFrameT", variable has type "None") + self._obj_deprecated = obj # type: ignore[assignment] + self._gpr_index = ax + return obj, ax, indexer + + @final + @property + def ax(self) -> Index: + warnings.warn( + f"{type(self).__name__}.ax is deprecated and will be removed in a " + "future version. Use Resampler.ax instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + index = self._gpr_index + if index is None: + raise ValueError("_set_grouper must be called before ax is accessed") + return index + + @final + @property + def indexer(self): + warnings.warn( + f"{type(self).__name__}.indexer is deprecated and will be removed " + "in a future version. Use Resampler.indexer instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._indexer_deprecated + + @final + @property + def obj(self): + # TODO(3.0): enforcing these deprecations on Grouper should close + # GH#25564, GH#41930 + warnings.warn( + f"{type(self).__name__}.obj is deprecated and will be removed " + "in a future version. Use GroupBy.indexer instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._obj_deprecated + + @final + @property + def grouper(self): + warnings.warn( + f"{type(self).__name__}.grouper is deprecated and will be removed " + "in a future version. Use GroupBy.grouper instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._grouper_deprecated + + @final + @property + def groups(self): + warnings.warn( + f"{type(self).__name__}.groups is deprecated and will be removed " + "in a future version. Use GroupBy.groups instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + # error: "None" has no attribute "groups" + return self._grouper_deprecated.groups # type: ignore[attr-defined] + + @final + def __repr__(self) -> str: + attrs_list = ( + f"{attr_name}={repr(getattr(self, attr_name))}" + for attr_name in self._attributes + if getattr(self, attr_name) is not None + ) + attrs = ", ".join(attrs_list) + cls_name = type(self).__name__ + return f"{cls_name}({attrs})" + + +@final +class Grouping: + """ + Holds the grouping information for a single key + + Parameters + ---------- + index : Index + grouper : + obj : DataFrame or Series + name : Label + level : + observed : bool, default False + If we are a Categorical, use the observed values + in_axis : if the Grouping is a column in self.obj and hence among + Groupby.exclusions list + dropna : bool, default True + Whether to drop NA groups. + uniques : Array-like, optional + When specified, will be used for unique values. Enables including empty groups + in the result for a BinGrouper. Must not contain duplicates. + + Attributes + ------- + indices : dict + Mapping of {group -> index_list} + codes : ndarray + Group codes + group_index : Index or None + unique groups + groups : dict + Mapping of {group -> label_list} + """ + + _codes: npt.NDArray[np.signedinteger] | None = None + _all_grouper: Categorical | None + _orig_cats: Index | None + _index: Index + + def __init__( + self, + index: Index, + grouper=None, + obj: NDFrame | None = None, + level=None, + sort: bool = True, + observed: bool = False, + in_axis: bool = False, + dropna: bool = True, + uniques: ArrayLike | None = None, + ) -> None: + self.level = level + self._orig_grouper = grouper + grouping_vector = _convert_grouper(index, grouper) + self._all_grouper = None + self._orig_cats = None + self._index = index + self._sort = sort + self.obj = obj + self._observed = observed + self.in_axis = in_axis + self._dropna = dropna + self._uniques = uniques + + # we have a single grouper which may be a myriad of things, + # some of which are dependent on the passing in level + + ilevel = self._ilevel + if ilevel is not None: + # In extant tests, the new self.grouping_vector matches + # `index.get_level_values(ilevel)` whenever + # mapper is None and isinstance(index, MultiIndex) + if isinstance(index, MultiIndex): + index_level = index.get_level_values(ilevel) + else: + index_level = index + + if grouping_vector is None: + grouping_vector = index_level + else: + mapper = grouping_vector + grouping_vector = index_level.map(mapper) + + # a passed Grouper like, directly get the grouper in the same way + # as single grouper groupby, use the group_info to get codes + elif isinstance(grouping_vector, Grouper): + # get the new grouper; we already have disambiguated + # what key/level refer to exactly, don't need to + # check again as we have by this point converted these + # to an actual value (rather than a pd.Grouper) + assert self.obj is not None # for mypy + newgrouper, newobj = grouping_vector._get_grouper(self.obj, validate=False) + self.obj = newobj + + if isinstance(newgrouper, ops.BinGrouper): + # TODO: can we unwrap this and get a tighter typing + # for self.grouping_vector? + grouping_vector = newgrouper + else: + # ops.BaseGrouper + # TODO: 2023-02-03 no test cases with len(newgrouper.groupings) > 1. + # If that were to occur, would we be throwing out information? + # error: Cannot determine type of "grouping_vector" [has-type] + ng = newgrouper.groupings[0].grouping_vector # type: ignore[has-type] + # use Index instead of ndarray so we can recover the name + grouping_vector = Index(ng, name=newgrouper.result_index.name) + + elif not isinstance( + grouping_vector, (Series, Index, ExtensionArray, np.ndarray) + ): + # no level passed + if getattr(grouping_vector, "ndim", 1) != 1: + t = str(type(grouping_vector)) + raise ValueError(f"Grouper for '{t}' not 1-dimensional") + + grouping_vector = index.map(grouping_vector) + + if not ( + hasattr(grouping_vector, "__len__") + and len(grouping_vector) == len(index) + ): + grper = pprint_thing(grouping_vector) + errmsg = ( + "Grouper result violates len(labels) == " + f"len(data)\nresult: {grper}" + ) + raise AssertionError(errmsg) + + if isinstance(grouping_vector, np.ndarray): + if grouping_vector.dtype.kind in "mM": + # if we have a date/time-like grouper, make sure that we have + # Timestamps like + # TODO 2022-10-08 we only have one test that gets here and + # values are already in nanoseconds in that case. + grouping_vector = Series(grouping_vector).to_numpy() + elif isinstance(getattr(grouping_vector, "dtype", None), CategoricalDtype): + # a passed Categorical + self._orig_cats = grouping_vector.categories + grouping_vector, self._all_grouper = recode_for_groupby( + grouping_vector, sort, observed + ) + + self.grouping_vector = grouping_vector + + def __repr__(self) -> str: + return f"Grouping({self.name})" + + def __iter__(self) -> Iterator: + return iter(self.indices) + + @cache_readonly + def _passed_categorical(self) -> bool: + dtype = getattr(self.grouping_vector, "dtype", None) + return isinstance(dtype, CategoricalDtype) + + @cache_readonly + def name(self) -> Hashable: + ilevel = self._ilevel + if ilevel is not None: + return self._index.names[ilevel] + + if isinstance(self._orig_grouper, (Index, Series)): + return self._orig_grouper.name + + elif isinstance(self.grouping_vector, ops.BaseGrouper): + return self.grouping_vector.result_index.name + + elif isinstance(self.grouping_vector, Index): + return self.grouping_vector.name + + # otherwise we have ndarray or ExtensionArray -> no name + return None + + @cache_readonly + def _ilevel(self) -> int | None: + """ + If necessary, converted index level name to index level position. + """ + level = self.level + if level is None: + return None + if not isinstance(level, int): + index = self._index + if level not in index.names: + raise AssertionError(f"Level {level} not in index") + return index.names.index(level) + return level + + @property + def ngroups(self) -> int: + return len(self._group_index) + + @cache_readonly + def indices(self) -> dict[Hashable, npt.NDArray[np.intp]]: + # we have a list of groupers + if isinstance(self.grouping_vector, ops.BaseGrouper): + return self.grouping_vector.indices + + values = Categorical(self.grouping_vector) + return values._reverse_indexer() + + @property + def codes(self) -> npt.NDArray[np.signedinteger]: + return self._codes_and_uniques[0] + + @cache_readonly + def _group_arraylike(self) -> ArrayLike: + """ + Analogous to result_index, but holding an ArrayLike to ensure + we can retain ExtensionDtypes. + """ + if self._all_grouper is not None: + # retain dtype for categories, including unobserved ones + return self._result_index._values + + elif self._passed_categorical: + return self._group_index._values + + return self._codes_and_uniques[1] + + @property + def group_arraylike(self) -> ArrayLike: + """ + Analogous to result_index, but holding an ArrayLike to ensure + we can retain ExtensionDtypes. + """ + warnings.warn( + "group_arraylike is deprecated and will be removed in a future " + "version of pandas", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + return self._group_arraylike + + @cache_readonly + def _result_index(self) -> Index: + # result_index retains dtype for categories, including unobserved ones, + # which group_index does not + if self._all_grouper is not None: + group_idx = self._group_index + assert isinstance(group_idx, CategoricalIndex) + cats = self._orig_cats + # set_categories is dynamically added + return group_idx.set_categories(cats) # type: ignore[attr-defined] + return self._group_index + + @property + def result_index(self) -> Index: + warnings.warn( + "result_index is deprecated and will be removed in a future " + "version of pandas", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + return self._result_index + + @cache_readonly + def _group_index(self) -> Index: + codes, uniques = self._codes_and_uniques + if not self._dropna and self._passed_categorical: + assert isinstance(uniques, Categorical) + if self._sort and (codes == len(uniques)).any(): + # Add NA value on the end when sorting + uniques = Categorical.from_codes( + np.append(uniques.codes, [-1]), uniques.categories, validate=False + ) + elif len(codes) > 0: + # Need to determine proper placement of NA value when not sorting + cat = self.grouping_vector + na_idx = (cat.codes < 0).argmax() + if cat.codes[na_idx] < 0: + # count number of unique codes that comes before the nan value + na_unique_idx = algorithms.nunique_ints(cat.codes[:na_idx]) + new_codes = np.insert(uniques.codes, na_unique_idx, -1) + uniques = Categorical.from_codes( + new_codes, uniques.categories, validate=False + ) + return Index._with_infer(uniques, name=self.name) + + @property + def group_index(self) -> Index: + warnings.warn( + "group_index is deprecated and will be removed in a future " + "version of pandas", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + return self._group_index + + @cache_readonly + def _codes_and_uniques(self) -> tuple[npt.NDArray[np.signedinteger], ArrayLike]: + uniques: ArrayLike + if self._passed_categorical: + # we make a CategoricalIndex out of the cat grouper + # preserving the categories / ordered attributes; + # doesn't (yet - GH#46909) handle dropna=False + cat = self.grouping_vector + categories = cat.categories + + if self._observed: + ucodes = algorithms.unique1d(cat.codes) + ucodes = ucodes[ucodes != -1] + if self._sort: + ucodes = np.sort(ucodes) + else: + ucodes = np.arange(len(categories)) + + uniques = Categorical.from_codes( + codes=ucodes, categories=categories, ordered=cat.ordered, validate=False + ) + + codes = cat.codes + if not self._dropna: + na_mask = codes < 0 + if np.any(na_mask): + if self._sort: + # Replace NA codes with `largest code + 1` + na_code = len(categories) + codes = np.where(na_mask, na_code, codes) + else: + # Insert NA code into the codes based on first appearance + # A negative code must exist, no need to check codes[na_idx] < 0 + na_idx = na_mask.argmax() + # count number of unique codes that comes before the nan value + na_code = algorithms.nunique_ints(codes[:na_idx]) + codes = np.where(codes >= na_code, codes + 1, codes) + codes = np.where(na_mask, na_code, codes) + + if not self._observed: + uniques = uniques.reorder_categories(self._orig_cats) + + return codes, uniques + + elif isinstance(self.grouping_vector, ops.BaseGrouper): + # we have a list of groupers + codes = self.grouping_vector.codes_info + uniques = self.grouping_vector.result_index._values + elif self._uniques is not None: + # GH#50486 Code grouping_vector using _uniques; allows + # including uniques that are not present in grouping_vector. + cat = Categorical(self.grouping_vector, categories=self._uniques) + codes = cat.codes + uniques = self._uniques + else: + # GH35667, replace dropna=False with use_na_sentinel=False + # error: Incompatible types in assignment (expression has type "Union[ + # ndarray[Any, Any], Index]", variable has type "Categorical") + codes, uniques = algorithms.factorize( # type: ignore[assignment] + self.grouping_vector, sort=self._sort, use_na_sentinel=self._dropna + ) + return codes, uniques + + @cache_readonly + def groups(self) -> dict[Hashable, np.ndarray]: + cats = Categorical.from_codes(self.codes, self._group_index, validate=False) + return self._index.groupby(cats) + + +def get_grouper( + obj: NDFrameT, + key=None, + axis: Axis = 0, + level=None, + sort: bool = True, + observed: bool = False, + validate: bool = True, + dropna: bool = True, +) -> tuple[ops.BaseGrouper, frozenset[Hashable], NDFrameT]: + """ + Create and return a BaseGrouper, which is an internal + mapping of how to create the grouper indexers. + This may be composed of multiple Grouping objects, indicating + multiple groupers + + Groupers are ultimately index mappings. They can originate as: + index mappings, keys to columns, functions, or Groupers + + Groupers enable local references to axis,level,sort, while + the passed in axis, level, and sort are 'global'. + + This routine tries to figure out what the passing in references + are and then creates a Grouping for each one, combined into + a BaseGrouper. + + If observed & we have a categorical grouper, only show the observed + values. + + If validate, then check for key/level overlaps. + + """ + group_axis = obj._get_axis(axis) + + # validate that the passed single level is compatible with the passed + # axis of the object + if level is not None: + # TODO: These if-block and else-block are almost same. + # MultiIndex instance check is removable, but it seems that there are + # some processes only for non-MultiIndex in else-block, + # eg. `obj.index.name != level`. We have to consider carefully whether + # these are applicable for MultiIndex. Even if these are applicable, + # we need to check if it makes no side effect to subsequent processes + # on the outside of this condition. + # (GH 17621) + if isinstance(group_axis, MultiIndex): + if is_list_like(level) and len(level) == 1: + level = level[0] + + if key is None and is_scalar(level): + # Get the level values from group_axis + key = group_axis.get_level_values(level) + level = None + + else: + # allow level to be a length-one list-like object + # (e.g., level=[0]) + # GH 13901 + if is_list_like(level): + nlevels = len(level) + if nlevels == 1: + level = level[0] + elif nlevels == 0: + raise ValueError("No group keys passed!") + else: + raise ValueError("multiple levels only valid with MultiIndex") + + if isinstance(level, str): + if obj._get_axis(axis).name != level: + raise ValueError( + f"level name {level} is not the name " + f"of the {obj._get_axis_name(axis)}" + ) + elif level > 0 or level < -1: + raise ValueError("level > 0 or level < -1 only valid with MultiIndex") + + # NOTE: `group_axis` and `group_axis.get_level_values(level)` + # are same in this section. + level = None + key = group_axis + + # a passed-in Grouper, directly convert + if isinstance(key, Grouper): + grouper, obj = key._get_grouper(obj, validate=False) + if key.key is None: + return grouper, frozenset(), obj + else: + return grouper, frozenset({key.key}), obj + + # already have a BaseGrouper, just return it + elif isinstance(key, ops.BaseGrouper): + return key, frozenset(), obj + + if not isinstance(key, list): + keys = [key] + match_axis_length = False + else: + keys = key + match_axis_length = len(keys) == len(group_axis) + + # what are we after, exactly? + any_callable = any(callable(g) or isinstance(g, dict) for g in keys) + any_groupers = any(isinstance(g, (Grouper, Grouping)) for g in keys) + any_arraylike = any( + isinstance(g, (list, tuple, Series, Index, np.ndarray)) for g in keys + ) + + # is this an index replacement? + if ( + not any_callable + and not any_arraylike + and not any_groupers + and match_axis_length + and level is None + ): + if isinstance(obj, DataFrame): + all_in_columns_index = all( + g in obj.columns or g in obj.index.names for g in keys + ) + else: + assert isinstance(obj, Series) + all_in_columns_index = all(g in obj.index.names for g in keys) + + if not all_in_columns_index: + keys = [com.asarray_tuplesafe(keys)] + + if isinstance(level, (tuple, list)): + if key is None: + keys = [None] * len(level) + levels = level + else: + levels = [level] * len(keys) + + groupings: list[Grouping] = [] + exclusions: set[Hashable] = set() + + # if the actual grouper should be obj[key] + def is_in_axis(key) -> bool: + if not _is_label_like(key): + if obj.ndim == 1: + return False + + # items -> .columns for DataFrame, .index for Series + items = obj.axes[-1] + try: + items.get_loc(key) + except (KeyError, TypeError, InvalidIndexError): + # TypeError shows up here if we pass e.g. an Index + return False + + return True + + # if the grouper is obj[name] + def is_in_obj(gpr) -> bool: + if not hasattr(gpr, "name"): + return False + if using_copy_on_write() or warn_copy_on_write(): + # For the CoW case, we check the references to determine if the + # series is part of the object + try: + obj_gpr_column = obj[gpr.name] + except (KeyError, IndexError, InvalidIndexError, OutOfBoundsDatetime): + return False + if isinstance(gpr, Series) and isinstance(obj_gpr_column, Series): + return gpr._mgr.references_same_values( # type: ignore[union-attr] + obj_gpr_column._mgr, 0 # type: ignore[arg-type] + ) + return False + try: + return gpr is obj[gpr.name] + except (KeyError, IndexError, InvalidIndexError, OutOfBoundsDatetime): + # IndexError reached in e.g. test_skip_group_keys when we pass + # lambda here + # InvalidIndexError raised on key-types inappropriate for index, + # e.g. DatetimeIndex.get_loc(tuple()) + # OutOfBoundsDatetime raised when obj is a Series with DatetimeIndex + # and gpr.name is month str + return False + + for gpr, level in zip(keys, levels): + if isinstance(obj, DataFrame) and is_in_obj(gpr): # df.groupby(df['name']) + in_axis = True + exclusions.add(gpr.name) + + elif is_in_axis(gpr): # df.groupby('name') + if obj.ndim != 1 and gpr in obj: + if validate: + obj._check_label_or_level_ambiguity(gpr, axis=axis) + in_axis, name, gpr = True, gpr, obj[gpr] + if gpr.ndim != 1: + # non-unique columns; raise here to get the name in the + # exception message + raise ValueError(f"Grouper for '{name}' not 1-dimensional") + exclusions.add(name) + elif obj._is_level_reference(gpr, axis=axis): + in_axis, level, gpr = False, gpr, None + else: + raise KeyError(gpr) + elif isinstance(gpr, Grouper) and gpr.key is not None: + # Add key to exclusions + exclusions.add(gpr.key) + in_axis = True + else: + in_axis = False + + # create the Grouping + # allow us to passing the actual Grouping as the gpr + ping = ( + Grouping( + group_axis, + gpr, + obj=obj, + level=level, + sort=sort, + observed=observed, + in_axis=in_axis, + dropna=dropna, + ) + if not isinstance(gpr, Grouping) + else gpr + ) + + groupings.append(ping) + + if len(groupings) == 0 and len(obj): + raise ValueError("No group keys passed!") + if len(groupings) == 0: + groupings.append(Grouping(Index([], dtype="int"), np.array([], dtype=np.intp))) + + # create the internals grouper + grouper = ops.BaseGrouper(group_axis, groupings, sort=sort, dropna=dropna) + return grouper, frozenset(exclusions), obj + + +def _is_label_like(val) -> bool: + return isinstance(val, (str, tuple)) or (val is not None and is_scalar(val)) + + +def _convert_grouper(axis: Index, grouper): + if isinstance(grouper, dict): + return grouper.get + elif isinstance(grouper, Series): + if grouper.index.equals(axis): + return grouper._values + else: + return grouper.reindex(axis)._values + elif isinstance(grouper, MultiIndex): + return grouper._values + elif isinstance(grouper, (list, tuple, Index, Categorical, np.ndarray)): + if len(grouper) != len(axis): + raise ValueError("Grouper and axis must be same length") + + if isinstance(grouper, (list, tuple)): + grouper = com.asarray_tuplesafe(grouper) + return grouper + else: + return grouper diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..a3c5ab8edc94e4f91175891282252d0e8cdfd3ec --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/indexing.py @@ -0,0 +1,304 @@ +from __future__ import annotations + +from collections.abc import Iterable +from typing import ( + TYPE_CHECKING, + Literal, + cast, +) + +import numpy as np + +from pandas.util._decorators import ( + cache_readonly, + doc, +) + +from pandas.core.dtypes.common import ( + is_integer, + is_list_like, +) + +if TYPE_CHECKING: + from pandas._typing import PositionalIndexer + + from pandas import ( + DataFrame, + Series, + ) + from pandas.core.groupby import groupby + + +class GroupByIndexingMixin: + """ + Mixin for adding ._positional_selector to GroupBy. + """ + + @cache_readonly + def _positional_selector(self) -> GroupByPositionalSelector: + """ + Return positional selection for each group. + + ``groupby._positional_selector[i:j]`` is similar to + ``groupby.apply(lambda x: x.iloc[i:j])`` + but much faster and preserves the original index and order. + + ``_positional_selector[]`` is compatible with and extends :meth:`~GroupBy.head` + and :meth:`~GroupBy.tail`. For example: + + - ``head(5)`` + - ``_positional_selector[5:-5]`` + - ``tail(5)`` + + together return all the rows. + + Allowed inputs for the index are: + + - An integer valued iterable, e.g. ``range(2, 4)``. + - A comma separated list of integers and slices, e.g. ``5``, ``2, 4``, ``2:4``. + + The output format is the same as :meth:`~GroupBy.head` and + :meth:`~GroupBy.tail`, namely + a subset of the ``DataFrame`` or ``Series`` with the index and order preserved. + + Returns + ------- + Series + The filtered subset of the original Series. + DataFrame + The filtered subset of the original DataFrame. + + See Also + -------- + DataFrame.iloc : Purely integer-location based indexing for selection by + position. + GroupBy.head : Return first n rows of each group. + GroupBy.tail : Return last n rows of each group. + GroupBy.nth : Take the nth row from each group if n is an int, or a + subset of rows, if n is a list of ints. + + Notes + ----- + - The slice step cannot be negative. + - If the index specification results in overlaps, the item is not duplicated. + - If the index specification changes the order of items, then + they are returned in their original order. + By contrast, ``DataFrame.iloc`` can change the row order. + - ``groupby()`` parameters such as as_index and dropna are ignored. + + The differences between ``_positional_selector[]`` and :meth:`~GroupBy.nth` + with ``as_index=False`` are: + + - Input to ``_positional_selector`` can include + one or more slices whereas ``nth`` + just handles an integer or a list of integers. + - ``_positional_selector`` can accept a slice relative to the + last row of each group. + - ``_positional_selector`` does not have an equivalent to the + ``nth()`` ``dropna`` parameter. + + Examples + -------- + >>> df = pd.DataFrame([["a", 1], ["a", 2], ["a", 3], ["b", 4], ["b", 5]], + ... columns=["A", "B"]) + >>> df.groupby("A")._positional_selector[1:2] + A B + 1 a 2 + 4 b 5 + + >>> df.groupby("A")._positional_selector[1, -1] + A B + 1 a 2 + 2 a 3 + 4 b 5 + """ + if TYPE_CHECKING: + # pylint: disable-next=used-before-assignment + groupby_self = cast(groupby.GroupBy, self) + else: + groupby_self = self + + return GroupByPositionalSelector(groupby_self) + + def _make_mask_from_positional_indexer( + self, + arg: PositionalIndexer | tuple, + ) -> np.ndarray: + if is_list_like(arg): + if all(is_integer(i) for i in cast(Iterable, arg)): + mask = self._make_mask_from_list(cast(Iterable[int], arg)) + else: + mask = self._make_mask_from_tuple(cast(tuple, arg)) + + elif isinstance(arg, slice): + mask = self._make_mask_from_slice(arg) + elif is_integer(arg): + mask = self._make_mask_from_int(cast(int, arg)) + else: + raise TypeError( + f"Invalid index {type(arg)}. " + "Must be integer, list-like, slice or a tuple of " + "integers and slices" + ) + + if isinstance(mask, bool): + if mask: + mask = self._ascending_count >= 0 + else: + mask = self._ascending_count < 0 + + return cast(np.ndarray, mask) + + def _make_mask_from_int(self, arg: int) -> np.ndarray: + if arg >= 0: + return self._ascending_count == arg + else: + return self._descending_count == (-arg - 1) + + def _make_mask_from_list(self, args: Iterable[int]) -> bool | np.ndarray: + positive = [arg for arg in args if arg >= 0] + negative = [-arg - 1 for arg in args if arg < 0] + + mask: bool | np.ndarray = False + + if positive: + mask |= np.isin(self._ascending_count, positive) + + if negative: + mask |= np.isin(self._descending_count, negative) + + return mask + + def _make_mask_from_tuple(self, args: tuple) -> bool | np.ndarray: + mask: bool | np.ndarray = False + + for arg in args: + if is_integer(arg): + mask |= self._make_mask_from_int(cast(int, arg)) + elif isinstance(arg, slice): + mask |= self._make_mask_from_slice(arg) + else: + raise ValueError( + f"Invalid argument {type(arg)}. Should be int or slice." + ) + + return mask + + def _make_mask_from_slice(self, arg: slice) -> bool | np.ndarray: + start = arg.start + stop = arg.stop + step = arg.step + + if step is not None and step < 0: + raise ValueError(f"Invalid step {step}. Must be non-negative") + + mask: bool | np.ndarray = True + + if step is None: + step = 1 + + if start is None: + if step > 1: + mask &= self._ascending_count % step == 0 + + elif start >= 0: + mask &= self._ascending_count >= start + + if step > 1: + mask &= (self._ascending_count - start) % step == 0 + + else: + mask &= self._descending_count < -start + + offset_array = self._descending_count + start + 1 + limit_array = ( + self._ascending_count + self._descending_count + (start + 1) + ) < 0 + offset_array = np.where(limit_array, self._ascending_count, offset_array) + + mask &= offset_array % step == 0 + + if stop is not None: + if stop >= 0: + mask &= self._ascending_count < stop + else: + mask &= self._descending_count >= -stop + + return mask + + @cache_readonly + def _ascending_count(self) -> np.ndarray: + if TYPE_CHECKING: + groupby_self = cast(groupby.GroupBy, self) + else: + groupby_self = self + + return groupby_self._cumcount_array() + + @cache_readonly + def _descending_count(self) -> np.ndarray: + if TYPE_CHECKING: + groupby_self = cast(groupby.GroupBy, self) + else: + groupby_self = self + + return groupby_self._cumcount_array(ascending=False) + + +@doc(GroupByIndexingMixin._positional_selector) +class GroupByPositionalSelector: + def __init__(self, groupby_object: groupby.GroupBy) -> None: + self.groupby_object = groupby_object + + def __getitem__(self, arg: PositionalIndexer | tuple) -> DataFrame | Series: + """ + Select by positional index per group. + + Implements GroupBy._positional_selector + + Parameters + ---------- + arg : PositionalIndexer | tuple + Allowed values are: + - int + - int valued iterable such as list or range + - slice with step either None or positive + - tuple of integers and slices + + Returns + ------- + Series + The filtered subset of the original groupby Series. + DataFrame + The filtered subset of the original groupby DataFrame. + + See Also + -------- + DataFrame.iloc : Integer-location based indexing for selection by position. + GroupBy.head : Return first n rows of each group. + GroupBy.tail : Return last n rows of each group. + GroupBy._positional_selector : Return positional selection for each group. + GroupBy.nth : Take the nth row from each group if n is an int, or a + subset of rows, if n is a list of ints. + """ + mask = self.groupby_object._make_mask_from_positional_indexer(arg) + return self.groupby_object._mask_selected_obj(mask) + + +class GroupByNthSelector: + """ + Dynamically substituted for GroupBy.nth to enable both call and index + """ + + def __init__(self, groupby_object: groupby.GroupBy) -> None: + self.groupby_object = groupby_object + + def __call__( + self, + n: PositionalIndexer | tuple, + dropna: Literal["any", "all", None] = None, + ) -> DataFrame | Series: + return self.groupby_object._nth(n, dropna) + + def __getitem__(self, n: PositionalIndexer | tuple) -> DataFrame | Series: + return self.groupby_object._nth(n) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/numba_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/numba_.py new file mode 100644 index 0000000000000000000000000000000000000000..3b7a58e87603e578216c4c80e8c88e06828d5dfa --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/numba_.py @@ -0,0 +1,181 @@ +"""Common utilities for Numba operations with groupby ops""" +from __future__ import annotations + +import functools +import inspect +from typing import ( + TYPE_CHECKING, + Any, + Callable, +) + +import numpy as np + +from pandas.compat._optional import import_optional_dependency + +from pandas.core.util.numba_ import ( + NumbaUtilError, + jit_user_function, +) + +if TYPE_CHECKING: + from pandas._typing import Scalar + + +def validate_udf(func: Callable) -> None: + """ + Validate user defined function for ops when using Numba with groupby ops. + + The first signature arguments should include: + + def f(values, index, ...): + ... + + Parameters + ---------- + func : function, default False + user defined function + + Returns + ------- + None + + Raises + ------ + NumbaUtilError + """ + if not callable(func): + raise NotImplementedError( + "Numba engine can only be used with a single function." + ) + udf_signature = list(inspect.signature(func).parameters.keys()) + expected_args = ["values", "index"] + min_number_args = len(expected_args) + if ( + len(udf_signature) < min_number_args + or udf_signature[:min_number_args] != expected_args + ): + raise NumbaUtilError( + f"The first {min_number_args} arguments to {func.__name__} must be " + f"{expected_args}" + ) + + +@functools.cache +def generate_numba_agg_func( + func: Callable[..., Scalar], + nopython: bool, + nogil: bool, + parallel: bool, +) -> Callable[[np.ndarray, np.ndarray, np.ndarray, np.ndarray, int, Any], np.ndarray]: + """ + Generate a numba jitted agg function specified by values from engine_kwargs. + + 1. jit the user's function + 2. Return a groupby agg function with the jitted function inline + + Configurations specified in engine_kwargs apply to both the user's + function _AND_ the groupby evaluation loop. + + Parameters + ---------- + func : function + function to be applied to each group and will be JITed + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + numba_func = jit_user_function(func) + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def group_agg( + values: np.ndarray, + index: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + num_columns: int, + *args: Any, + ) -> np.ndarray: + assert len(begin) == len(end) + num_groups = len(begin) + + result = np.empty((num_groups, num_columns)) + for i in numba.prange(num_groups): + group_index = index[begin[i] : end[i]] + for j in numba.prange(num_columns): + group = values[begin[i] : end[i], j] + result[i, j] = numba_func(group, group_index, *args) + return result + + return group_agg + + +@functools.cache +def generate_numba_transform_func( + func: Callable[..., np.ndarray], + nopython: bool, + nogil: bool, + parallel: bool, +) -> Callable[[np.ndarray, np.ndarray, np.ndarray, np.ndarray, int, Any], np.ndarray]: + """ + Generate a numba jitted transform function specified by values from engine_kwargs. + + 1. jit the user's function + 2. Return a groupby transform function with the jitted function inline + + Configurations specified in engine_kwargs apply to both the user's + function _AND_ the groupby evaluation loop. + + Parameters + ---------- + func : function + function to be applied to each window and will be JITed + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + numba_func = jit_user_function(func) + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def group_transform( + values: np.ndarray, + index: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + num_columns: int, + *args: Any, + ) -> np.ndarray: + assert len(begin) == len(end) + num_groups = len(begin) + + result = np.empty((len(values), num_columns)) + for i in numba.prange(num_groups): + group_index = index[begin[i] : end[i]] + for j in numba.prange(num_columns): + group = values[begin[i] : end[i], j] + result[begin[i] : end[i], j] = numba_func(group, group_index, *args) + return result + + return group_transform diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/ops.py new file mode 100644 index 0000000000000000000000000000000000000000..e2ddf9aa5c0c1752e1de9b81e2e72873db050e85 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/groupby/ops.py @@ -0,0 +1,1208 @@ +""" +Provide classes to perform the groupby aggregate operations. + +These are not exposed to the user and provide implementations of the grouping +operations, primarily in cython. These classes (BaseGrouper and BinGrouper) +are contained *in* the SeriesGroupBy and DataFrameGroupBy objects. +""" +from __future__ import annotations + +import collections +import functools +from typing import ( + TYPE_CHECKING, + Callable, + Generic, + final, +) + +import numpy as np + +from pandas._libs import ( + NaT, + lib, +) +import pandas._libs.groupby as libgroupby +from pandas._typing import ( + ArrayLike, + AxisInt, + NDFrameT, + Shape, + npt, +) +from pandas.errors import AbstractMethodError +from pandas.util._decorators import cache_readonly + +from pandas.core.dtypes.cast import ( + maybe_cast_pointwise_result, + maybe_downcast_to_dtype, +) +from pandas.core.dtypes.common import ( + ensure_float64, + ensure_int64, + ensure_platform_int, + ensure_uint64, + is_1d_only_ea_dtype, +) +from pandas.core.dtypes.missing import ( + isna, + maybe_fill, +) + +from pandas.core.frame import DataFrame +from pandas.core.groupby import grouper +from pandas.core.indexes.api import ( + CategoricalIndex, + Index, + MultiIndex, + ensure_index, +) +from pandas.core.series import Series +from pandas.core.sorting import ( + compress_group_index, + decons_obs_group_ids, + get_flattened_list, + get_group_index, + get_group_index_sorter, + get_indexer_dict, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + Sequence, + ) + + from pandas.core.generic import NDFrame + + +def check_result_array(obj, dtype) -> None: + # Our operation is supposed to be an aggregation/reduction. If + # it returns an ndarray, this likely means an invalid operation has + # been passed. See test_apply_without_aggregation, test_agg_must_agg + if isinstance(obj, np.ndarray): + if dtype != object: + # If it is object dtype, the function can be a reduction/aggregation + # and still return an ndarray e.g. test_agg_over_numpy_arrays + raise ValueError("Must produce aggregated value") + + +def extract_result(res): + """ + Extract the result object, it might be a 0-dim ndarray + or a len-1 0-dim, or a scalar + """ + if hasattr(res, "_values"): + # Preserve EA + res = res._values + if res.ndim == 1 and len(res) == 1: + # see test_agg_lambda_with_timezone, test_resampler_grouper.py::test_apply + res = res[0] + return res + + +class WrappedCythonOp: + """ + Dispatch logic for functions defined in _libs.groupby + + Parameters + ---------- + kind: str + Whether the operation is an aggregate or transform. + how: str + Operation name, e.g. "mean". + has_dropped_na: bool + True precisely when dropna=True and the grouper contains a null value. + """ + + # Functions for which we do _not_ attempt to cast the cython result + # back to the original dtype. + cast_blocklist = frozenset( + ["any", "all", "rank", "count", "size", "idxmin", "idxmax"] + ) + + def __init__(self, kind: str, how: str, has_dropped_na: bool) -> None: + self.kind = kind + self.how = how + self.has_dropped_na = has_dropped_na + + _CYTHON_FUNCTIONS: dict[str, dict] = { + "aggregate": { + "any": functools.partial(libgroupby.group_any_all, val_test="any"), + "all": functools.partial(libgroupby.group_any_all, val_test="all"), + "sum": "group_sum", + "prod": "group_prod", + "idxmin": functools.partial(libgroupby.group_idxmin_idxmax, name="idxmin"), + "idxmax": functools.partial(libgroupby.group_idxmin_idxmax, name="idxmax"), + "min": "group_min", + "max": "group_max", + "mean": "group_mean", + "median": "group_median_float64", + "var": "group_var", + "std": functools.partial(libgroupby.group_var, name="std"), + "sem": functools.partial(libgroupby.group_var, name="sem"), + "skew": "group_skew", + "first": "group_nth", + "last": "group_last", + "ohlc": "group_ohlc", + }, + "transform": { + "cumprod": "group_cumprod", + "cumsum": "group_cumsum", + "cummin": "group_cummin", + "cummax": "group_cummax", + "rank": "group_rank", + }, + } + + _cython_arity = {"ohlc": 4} # OHLC + + @classmethod + def get_kind_from_how(cls, how: str) -> str: + if how in cls._CYTHON_FUNCTIONS["aggregate"]: + return "aggregate" + return "transform" + + # Note: we make this a classmethod and pass kind+how so that caching + # works at the class level and not the instance level + @classmethod + @functools.cache + def _get_cython_function( + cls, kind: str, how: str, dtype: np.dtype, is_numeric: bool + ): + dtype_str = dtype.name + ftype = cls._CYTHON_FUNCTIONS[kind][how] + + # see if there is a fused-type version of function + # only valid for numeric + if callable(ftype): + f = ftype + else: + f = getattr(libgroupby, ftype) + if is_numeric: + return f + elif dtype == np.dtype(object): + if how in ["median", "cumprod"]: + # no fused types -> no __signatures__ + raise NotImplementedError( + f"function is not implemented for this dtype: " + f"[how->{how},dtype->{dtype_str}]" + ) + elif how in ["std", "sem", "idxmin", "idxmax"]: + # We have a partial object that does not have __signatures__ + return f + elif how == "skew": + # _get_cython_vals will convert to float64 + pass + elif "object" not in f.__signatures__: + # raise NotImplementedError here rather than TypeError later + raise NotImplementedError( + f"function is not implemented for this dtype: " + f"[how->{how},dtype->{dtype_str}]" + ) + return f + else: + raise NotImplementedError( + "This should not be reached. Please report a bug at " + "github.com/pandas-dev/pandas/", + dtype, + ) + + def _get_cython_vals(self, values: np.ndarray) -> np.ndarray: + """ + Cast numeric dtypes to float64 for functions that only support that. + + Parameters + ---------- + values : np.ndarray + + Returns + ------- + values : np.ndarray + """ + how = self.how + + if how in ["median", "std", "sem", "skew"]: + # median only has a float64 implementation + # We should only get here with is_numeric, as non-numeric cases + # should raise in _get_cython_function + values = ensure_float64(values) + + elif values.dtype.kind in "iu": + if how in ["var", "mean"] or ( + self.kind == "transform" and self.has_dropped_na + ): + # has_dropped_na check need for test_null_group_str_transformer + # result may still include NaN, so we have to cast + values = ensure_float64(values) + + elif how in ["sum", "ohlc", "prod", "cumsum", "cumprod"]: + # Avoid overflow during group op + if values.dtype.kind == "i": + values = ensure_int64(values) + else: + values = ensure_uint64(values) + + return values + + def _get_output_shape(self, ngroups: int, values: np.ndarray) -> Shape: + how = self.how + kind = self.kind + + arity = self._cython_arity.get(how, 1) + + out_shape: Shape + if how == "ohlc": + out_shape = (ngroups, arity) + elif arity > 1: + raise NotImplementedError( + "arity of more than 1 is not supported for the 'how' argument" + ) + elif kind == "transform": + out_shape = values.shape + else: + out_shape = (ngroups,) + values.shape[1:] + return out_shape + + def _get_out_dtype(self, dtype: np.dtype) -> np.dtype: + how = self.how + + if how == "rank": + out_dtype = "float64" + elif how in ["idxmin", "idxmax"]: + # The Cython implementation only produces the row number; we'll take + # from the index using this in post processing + out_dtype = "intp" + else: + if dtype.kind in "iufcb": + out_dtype = f"{dtype.kind}{dtype.itemsize}" + else: + out_dtype = "object" + return np.dtype(out_dtype) + + def _get_result_dtype(self, dtype: np.dtype) -> np.dtype: + """ + Get the desired dtype of a result based on the + input dtype and how it was computed. + + Parameters + ---------- + dtype : np.dtype + + Returns + ------- + np.dtype + The desired dtype of the result. + """ + how = self.how + + if how in ["sum", "cumsum", "sum", "prod", "cumprod"]: + if dtype == np.dtype(bool): + return np.dtype(np.int64) + elif how in ["mean", "median", "var", "std", "sem"]: + if dtype.kind in "fc": + return dtype + elif dtype.kind in "iub": + return np.dtype(np.float64) + return dtype + + @final + def _cython_op_ndim_compat( + self, + values: np.ndarray, + *, + min_count: int, + ngroups: int, + comp_ids: np.ndarray, + mask: npt.NDArray[np.bool_] | None = None, + result_mask: npt.NDArray[np.bool_] | None = None, + **kwargs, + ) -> np.ndarray: + if values.ndim == 1: + # expand to 2d, dispatch, then squeeze if appropriate + values2d = values[None, :] + if mask is not None: + mask = mask[None, :] + if result_mask is not None: + result_mask = result_mask[None, :] + res = self._call_cython_op( + values2d, + min_count=min_count, + ngroups=ngroups, + comp_ids=comp_ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + if res.shape[0] == 1: + return res[0] + + # otherwise we have OHLC + return res.T + + return self._call_cython_op( + values, + min_count=min_count, + ngroups=ngroups, + comp_ids=comp_ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + + @final + def _call_cython_op( + self, + values: np.ndarray, # np.ndarray[ndim=2] + *, + min_count: int, + ngroups: int, + comp_ids: np.ndarray, + mask: npt.NDArray[np.bool_] | None, + result_mask: npt.NDArray[np.bool_] | None, + **kwargs, + ) -> np.ndarray: # np.ndarray[ndim=2] + orig_values = values + + dtype = values.dtype + is_numeric = dtype.kind in "iufcb" + + is_datetimelike = dtype.kind in "mM" + + if is_datetimelike: + values = values.view("int64") + is_numeric = True + elif dtype.kind == "b": + values = values.view("uint8") + if values.dtype == "float16": + values = values.astype(np.float32) + + if self.how in ["any", "all"]: + if mask is None: + mask = isna(values) + if dtype == object: + if kwargs["skipna"]: + # GH#37501: don't raise on pd.NA when skipna=True + if mask.any(): + # mask on original values computed separately + values = values.copy() + values[mask] = True + values = values.astype(bool, copy=False).view(np.int8) + is_numeric = True + + values = values.T + if mask is not None: + mask = mask.T + if result_mask is not None: + result_mask = result_mask.T + + out_shape = self._get_output_shape(ngroups, values) + func = self._get_cython_function(self.kind, self.how, values.dtype, is_numeric) + values = self._get_cython_vals(values) + out_dtype = self._get_out_dtype(values.dtype) + + result = maybe_fill(np.empty(out_shape, dtype=out_dtype)) + if self.kind == "aggregate": + counts = np.zeros(ngroups, dtype=np.int64) + if self.how in [ + "idxmin", + "idxmax", + "min", + "max", + "mean", + "last", + "first", + "sum", + ]: + func( + out=result, + counts=counts, + values=values, + labels=comp_ids, + min_count=min_count, + mask=mask, + result_mask=result_mask, + is_datetimelike=is_datetimelike, + **kwargs, + ) + elif self.how in ["sem", "std", "var", "ohlc", "prod", "median"]: + if self.how in ["std", "sem"]: + kwargs["is_datetimelike"] = is_datetimelike + func( + result, + counts, + values, + comp_ids, + min_count=min_count, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + elif self.how in ["any", "all"]: + func( + out=result, + values=values, + labels=comp_ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + result = result.astype(bool, copy=False) + elif self.how in ["skew"]: + func( + out=result, + counts=counts, + values=values, + labels=comp_ids, + mask=mask, + result_mask=result_mask, + **kwargs, + ) + if dtype == object: + result = result.astype(object) + + else: + raise NotImplementedError(f"{self.how} is not implemented") + else: + # TODO: min_count + if self.how != "rank": + # TODO: should rank take result_mask? + kwargs["result_mask"] = result_mask + func( + out=result, + values=values, + labels=comp_ids, + ngroups=ngroups, + is_datetimelike=is_datetimelike, + mask=mask, + **kwargs, + ) + + if self.kind == "aggregate" and self.how not in ["idxmin", "idxmax"]: + # i.e. counts is defined. Locations where count None: + if values.ndim > 2: + raise NotImplementedError("number of dimensions is currently limited to 2") + if values.ndim == 2: + assert axis == 1, axis + elif not is_1d_only_ea_dtype(values.dtype): + # Note: it is *not* the case that axis is always 0 for 1-dim values, + # as we can have 1D ExtensionArrays that we need to treat as 2D + assert axis == 0 + + @final + def cython_operation( + self, + *, + values: ArrayLike, + axis: AxisInt, + min_count: int = -1, + comp_ids: np.ndarray, + ngroups: int, + **kwargs, + ) -> ArrayLike: + """ + Call our cython function, with appropriate pre- and post- processing. + """ + self._validate_axis(axis, values) + + if not isinstance(values, np.ndarray): + # i.e. ExtensionArray + return values._groupby_op( + how=self.how, + has_dropped_na=self.has_dropped_na, + min_count=min_count, + ngroups=ngroups, + ids=comp_ids, + **kwargs, + ) + + return self._cython_op_ndim_compat( + values, + min_count=min_count, + ngroups=ngroups, + comp_ids=comp_ids, + mask=None, + **kwargs, + ) + + +class BaseGrouper: + """ + This is an internal Grouper class, which actually holds + the generated groups + + Parameters + ---------- + axis : Index + groupings : Sequence[Grouping] + all the grouping instances to handle in this grouper + for example for grouper list to groupby, need to pass the list + sort : bool, default True + whether this grouper will give sorted result or not + + """ + + axis: Index + + def __init__( + self, + axis: Index, + groupings: Sequence[grouper.Grouping], + sort: bool = True, + dropna: bool = True, + ) -> None: + assert isinstance(axis, Index), axis + + self.axis = axis + self._groupings: list[grouper.Grouping] = list(groupings) + self._sort = sort + self.dropna = dropna + + @property + def groupings(self) -> list[grouper.Grouping]: + return self._groupings + + @property + def shape(self) -> Shape: + return tuple(ping.ngroups for ping in self.groupings) + + def __iter__(self) -> Iterator[Hashable]: + return iter(self.indices) + + @property + def nkeys(self) -> int: + return len(self.groupings) + + def get_iterator( + self, data: NDFrameT, axis: AxisInt = 0 + ) -> Iterator[tuple[Hashable, NDFrameT]]: + """ + Groupby iterator + + Returns + ------- + Generator yielding sequence of (name, subsetted object) + for each group + """ + splitter = self._get_splitter(data, axis=axis) + keys = self.group_keys_seq + yield from zip(keys, splitter) + + @final + def _get_splitter(self, data: NDFrame, axis: AxisInt = 0) -> DataSplitter: + """ + Returns + ------- + Generator yielding subsetted objects + """ + ids, _, ngroups = self.group_info + return _get_splitter( + data, + ids, + ngroups, + sorted_ids=self._sorted_ids, + sort_idx=self._sort_idx, + axis=axis, + ) + + @final + @cache_readonly + def group_keys_seq(self): + if len(self.groupings) == 1: + return self.levels[0] + else: + ids, _, ngroups = self.group_info + + # provide "flattened" iterator for multi-group setting + return get_flattened_list(ids, ngroups, self.levels, self.codes) + + @cache_readonly + def indices(self) -> dict[Hashable, npt.NDArray[np.intp]]: + """dict {group name -> group indices}""" + if len(self.groupings) == 1 and isinstance(self.result_index, CategoricalIndex): + # This shows unused categories in indices GH#38642 + return self.groupings[0].indices + codes_list = [ping.codes for ping in self.groupings] + keys = [ping._group_index for ping in self.groupings] + return get_indexer_dict(codes_list, keys) + + @final + def result_ilocs(self) -> npt.NDArray[np.intp]: + """ + Get the original integer locations of result_index in the input. + """ + # Original indices are where group_index would go via sorting. + # But when dropna is true, we need to remove null values while accounting for + # any gaps that then occur because of them. + group_index = get_group_index( + self.codes, self.shape, sort=self._sort, xnull=True + ) + group_index, _ = compress_group_index(group_index, sort=self._sort) + + if self.has_dropped_na: + mask = np.where(group_index >= 0) + # Count how many gaps are caused by previous null values for each position + null_gaps = np.cumsum(group_index == -1)[mask] + group_index = group_index[mask] + + result = get_group_index_sorter(group_index, self.ngroups) + + if self.has_dropped_na: + # Shift by the number of prior null gaps + result += np.take(null_gaps, result) + + return result + + @final + @property + def codes(self) -> list[npt.NDArray[np.signedinteger]]: + return [ping.codes for ping in self.groupings] + + @property + def levels(self) -> list[Index]: + return [ping._group_index for ping in self.groupings] + + @property + def names(self) -> list[Hashable]: + return [ping.name for ping in self.groupings] + + @final + def size(self) -> Series: + """ + Compute group sizes. + """ + ids, _, ngroups = self.group_info + out: np.ndarray | list + if ngroups: + out = np.bincount(ids[ids != -1], minlength=ngroups) + else: + out = [] + return Series(out, index=self.result_index, dtype="int64", copy=False) + + @cache_readonly + def groups(self) -> dict[Hashable, np.ndarray]: + """dict {group name -> group labels}""" + if len(self.groupings) == 1: + return self.groupings[0].groups + else: + to_groupby = [] + for ping in self.groupings: + gv = ping.grouping_vector + if not isinstance(gv, BaseGrouper): + to_groupby.append(gv) + else: + to_groupby.append(gv.groupings[0].grouping_vector) + index = MultiIndex.from_arrays(to_groupby) + return self.axis.groupby(index) + + @final + @cache_readonly + def is_monotonic(self) -> bool: + # return if my group orderings are monotonic + return Index(self.group_info[0]).is_monotonic_increasing + + @final + @cache_readonly + def has_dropped_na(self) -> bool: + """ + Whether grouper has null value(s) that are dropped. + """ + return bool((self.group_info[0] < 0).any()) + + @cache_readonly + def group_info(self) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp], int]: + comp_ids, obs_group_ids = self._get_compressed_codes() + + ngroups = len(obs_group_ids) + comp_ids = ensure_platform_int(comp_ids) + + return comp_ids, obs_group_ids, ngroups + + @cache_readonly + def codes_info(self) -> npt.NDArray[np.intp]: + # return the codes of items in original grouped axis + ids, _, _ = self.group_info + return ids + + @final + def _get_compressed_codes( + self, + ) -> tuple[npt.NDArray[np.signedinteger], npt.NDArray[np.intp]]: + # The first returned ndarray may have any signed integer dtype + if len(self.groupings) > 1: + group_index = get_group_index(self.codes, self.shape, sort=True, xnull=True) + return compress_group_index(group_index, sort=self._sort) + # FIXME: compress_group_index's second return value is int64, not intp + + ping = self.groupings[0] + return ping.codes, np.arange(len(ping._group_index), dtype=np.intp) + + @final + @cache_readonly + def ngroups(self) -> int: + return len(self.result_index) + + @property + def reconstructed_codes(self) -> list[npt.NDArray[np.intp]]: + codes = self.codes + ids, obs_ids, _ = self.group_info + return decons_obs_group_ids(ids, obs_ids, self.shape, codes, xnull=True) + + @cache_readonly + def result_index(self) -> Index: + if len(self.groupings) == 1: + return self.groupings[0]._result_index.rename(self.names[0]) + + codes = self.reconstructed_codes + levels = [ping._result_index for ping in self.groupings] + return MultiIndex( + levels=levels, codes=codes, verify_integrity=False, names=self.names + ) + + @final + def get_group_levels(self) -> list[ArrayLike]: + # Note: only called from _insert_inaxis_grouper, which + # is only called for BaseGrouper, never for BinGrouper + if len(self.groupings) == 1: + return [self.groupings[0]._group_arraylike] + + name_list = [] + for ping, codes in zip(self.groupings, self.reconstructed_codes): + codes = ensure_platform_int(codes) + levels = ping._group_arraylike.take(codes) + + name_list.append(levels) + + return name_list + + # ------------------------------------------------------------ + # Aggregation functions + + @final + def _cython_operation( + self, + kind: str, + values, + how: str, + axis: AxisInt, + min_count: int = -1, + **kwargs, + ) -> ArrayLike: + """ + Returns the values of a cython operation. + """ + assert kind in ["transform", "aggregate"] + + cy_op = WrappedCythonOp(kind=kind, how=how, has_dropped_na=self.has_dropped_na) + + ids, _, _ = self.group_info + ngroups = self.ngroups + return cy_op.cython_operation( + values=values, + axis=axis, + min_count=min_count, + comp_ids=ids, + ngroups=ngroups, + **kwargs, + ) + + @final + def agg_series( + self, obj: Series, func: Callable, preserve_dtype: bool = False + ) -> ArrayLike: + """ + Parameters + ---------- + obj : Series + func : function taking a Series and returning a scalar-like + preserve_dtype : bool + Whether the aggregation is known to be dtype-preserving. + + Returns + ------- + np.ndarray or ExtensionArray + """ + + if not isinstance(obj._values, np.ndarray): + # we can preserve a little bit more aggressively with EA dtype + # because maybe_cast_pointwise_result will do a try/except + # with _from_sequence. NB we are assuming here that _from_sequence + # is sufficiently strict that it casts appropriately. + preserve_dtype = True + + result = self._aggregate_series_pure_python(obj, func) + + npvalues = lib.maybe_convert_objects(result, try_float=False) + if preserve_dtype: + out = maybe_cast_pointwise_result(npvalues, obj.dtype, numeric_only=True) + else: + out = npvalues + return out + + @final + def _aggregate_series_pure_python( + self, obj: Series, func: Callable + ) -> npt.NDArray[np.object_]: + _, _, ngroups = self.group_info + + result = np.empty(ngroups, dtype="O") + initialized = False + + splitter = self._get_splitter(obj, axis=0) + + for i, group in enumerate(splitter): + res = func(group) + res = extract_result(res) + + if not initialized: + # We only do this validation on the first iteration + check_result_array(res, group.dtype) + initialized = True + + result[i] = res + + return result + + @final + def apply_groupwise( + self, f: Callable, data: DataFrame | Series, axis: AxisInt = 0 + ) -> tuple[list, bool]: + mutated = False + splitter = self._get_splitter(data, axis=axis) + group_keys = self.group_keys_seq + result_values = [] + + # This calls DataSplitter.__iter__ + zipped = zip(group_keys, splitter) + + for key, group in zipped: + # Pinning name is needed for + # test_group_apply_once_per_group, + # test_inconsistent_return_type, test_set_group_name, + # test_group_name_available_in_inference_pass, + # test_groupby_multi_timezone + object.__setattr__(group, "name", key) + + # group might be modified + group_axes = group.axes + res = f(group) + if not mutated and not _is_indexed_like(res, group_axes, axis): + mutated = True + result_values.append(res) + # getattr pattern for __name__ is needed for functools.partial objects + if len(group_keys) == 0 and getattr(f, "__name__", None) in [ + "skew", + "sum", + "prod", + ]: + # If group_keys is empty, then no function calls have been made, + # so we will not have raised even if this is an invalid dtype. + # So do one dummy call here to raise appropriate TypeError. + f(data.iloc[:0]) + + return result_values, mutated + + # ------------------------------------------------------------ + # Methods for sorting subsets of our GroupBy's object + + @final + @cache_readonly + def _sort_idx(self) -> npt.NDArray[np.intp]: + # Counting sort indexer + ids, _, ngroups = self.group_info + return get_group_index_sorter(ids, ngroups) + + @final + @cache_readonly + def _sorted_ids(self) -> npt.NDArray[np.intp]: + ids, _, _ = self.group_info + return ids.take(self._sort_idx) + + +class BinGrouper(BaseGrouper): + """ + This is an internal Grouper class + + Parameters + ---------- + bins : the split index of binlabels to group the item of axis + binlabels : the label list + indexer : np.ndarray[np.intp], optional + the indexer created by Grouper + some groupers (TimeGrouper) will sort its axis and its + group_info is also sorted, so need the indexer to reorder + + Examples + -------- + bins: [2, 4, 6, 8, 10] + binlabels: DatetimeIndex(['2005-01-01', '2005-01-03', + '2005-01-05', '2005-01-07', '2005-01-09'], + dtype='datetime64[ns]', freq='2D') + + the group_info, which contains the label of each item in grouped + axis, the index of label in label list, group number, is + + (array([0, 0, 1, 1, 2, 2, 3, 3, 4, 4]), array([0, 1, 2, 3, 4]), 5) + + means that, the grouped axis has 10 items, can be grouped into 5 + labels, the first and second items belong to the first label, the + third and forth items belong to the second label, and so on + + """ + + bins: npt.NDArray[np.int64] + binlabels: Index + + def __init__( + self, + bins, + binlabels, + indexer=None, + ) -> None: + self.bins = ensure_int64(bins) + self.binlabels = ensure_index(binlabels) + self.indexer = indexer + + # These lengths must match, otherwise we could call agg_series + # with empty self.bins, which would raise later. + assert len(self.binlabels) == len(self.bins) + + @cache_readonly + def groups(self): + """dict {group name -> group labels}""" + # this is mainly for compat + # GH 3881 + result = { + key: value + for key, value in zip(self.binlabels, self.bins) + if key is not NaT + } + return result + + @property + def nkeys(self) -> int: + # still matches len(self.groupings), but we can hard-code + return 1 + + @cache_readonly + def codes_info(self) -> npt.NDArray[np.intp]: + # return the codes of items in original grouped axis + ids, _, _ = self.group_info + if self.indexer is not None: + sorter = np.lexsort((ids, self.indexer)) + ids = ids[sorter] + return ids + + def get_iterator(self, data: NDFrame, axis: AxisInt = 0): + """ + Groupby iterator + + Returns + ------- + Generator yielding sequence of (name, subsetted object) + for each group + """ + if axis == 0: + slicer = lambda start, edge: data.iloc[start:edge] + else: + slicer = lambda start, edge: data.iloc[:, start:edge] + + length = len(data.axes[axis]) + + start = 0 + for edge, label in zip(self.bins, self.binlabels): + if label is not NaT: + yield label, slicer(start, edge) + start = edge + + if start < length: + yield self.binlabels[-1], slicer(start, None) + + @cache_readonly + def indices(self): + indices = collections.defaultdict(list) + + i = 0 + for label, bin in zip(self.binlabels, self.bins): + if i < bin: + if label is not NaT: + indices[label] = list(range(i, bin)) + i = bin + return indices + + @cache_readonly + def group_info(self) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp], int]: + ngroups = self.ngroups + obs_group_ids = np.arange(ngroups, dtype=np.intp) + rep = np.diff(np.r_[0, self.bins]) + + rep = ensure_platform_int(rep) + if ngroups == len(self.bins): + comp_ids = np.repeat(np.arange(ngroups), rep) + else: + comp_ids = np.repeat(np.r_[-1, np.arange(ngroups)], rep) + + return ( + ensure_platform_int(comp_ids), + obs_group_ids, + ngroups, + ) + + @cache_readonly + def reconstructed_codes(self) -> list[np.ndarray]: + # get unique result indices, and prepend 0 as groupby starts from the first + return [np.r_[0, np.flatnonzero(self.bins[1:] != self.bins[:-1]) + 1]] + + @cache_readonly + def result_index(self) -> Index: + if len(self.binlabels) != 0 and isna(self.binlabels[0]): + return self.binlabels[1:] + + return self.binlabels + + @property + def levels(self) -> list[Index]: + return [self.binlabels] + + @property + def names(self) -> list[Hashable]: + return [self.binlabels.name] + + @property + def groupings(self) -> list[grouper.Grouping]: + lev = self.binlabels + codes = self.group_info[0] + labels = lev.take(codes) + ping = grouper.Grouping( + labels, labels, in_axis=False, level=None, uniques=lev._values + ) + return [ping] + + +def _is_indexed_like(obj, axes, axis: AxisInt) -> bool: + if isinstance(obj, Series): + if len(axes) > 1: + return False + return obj.axes[axis].equals(axes[axis]) + elif isinstance(obj, DataFrame): + return obj.axes[axis].equals(axes[axis]) + + return False + + +# ---------------------------------------------------------------------- +# Splitting / application + + +class DataSplitter(Generic[NDFrameT]): + def __init__( + self, + data: NDFrameT, + labels: npt.NDArray[np.intp], + ngroups: int, + *, + sort_idx: npt.NDArray[np.intp], + sorted_ids: npt.NDArray[np.intp], + axis: AxisInt = 0, + ) -> None: + self.data = data + self.labels = ensure_platform_int(labels) # _should_ already be np.intp + self.ngroups = ngroups + + self._slabels = sorted_ids + self._sort_idx = sort_idx + + self.axis = axis + assert isinstance(axis, int), axis + + def __iter__(self) -> Iterator: + sdata = self._sorted_data + + if self.ngroups == 0: + # we are inside a generator, rather than raise StopIteration + # we merely return signal the end + return + + starts, ends = lib.generate_slices(self._slabels, self.ngroups) + + for start, end in zip(starts, ends): + yield self._chop(sdata, slice(start, end)) + + @cache_readonly + def _sorted_data(self) -> NDFrameT: + return self.data.take(self._sort_idx, axis=self.axis) + + def _chop(self, sdata, slice_obj: slice) -> NDFrame: + raise AbstractMethodError(self) + + +class SeriesSplitter(DataSplitter): + def _chop(self, sdata: Series, slice_obj: slice) -> Series: + # fastpath equivalent to `sdata.iloc[slice_obj]` + mgr = sdata._mgr.get_slice(slice_obj) + ser = sdata._constructor_from_mgr(mgr, axes=mgr.axes) + ser._name = sdata.name + return ser.__finalize__(sdata, method="groupby") + + +class FrameSplitter(DataSplitter): + def _chop(self, sdata: DataFrame, slice_obj: slice) -> DataFrame: + # Fastpath equivalent to: + # if self.axis == 0: + # return sdata.iloc[slice_obj] + # else: + # return sdata.iloc[:, slice_obj] + mgr = sdata._mgr.get_slice(slice_obj, axis=1 - self.axis) + df = sdata._constructor_from_mgr(mgr, axes=mgr.axes) + return df.__finalize__(sdata, method="groupby") + + +def _get_splitter( + data: NDFrame, + labels: npt.NDArray[np.intp], + ngroups: int, + *, + sort_idx: npt.NDArray[np.intp], + sorted_ids: npt.NDArray[np.intp], + axis: AxisInt = 0, +) -> DataSplitter: + if isinstance(data, Series): + klass: type[DataSplitter] = SeriesSplitter + else: + # i.e. DataFrame + klass = FrameSplitter + + return klass( + data, labels, ngroups, sort_idx=sort_idx, sorted_ids=sorted_ids, axis=axis + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..ba8a4f1d0ee7adb668c6b0ac49b2360d3c0dc356 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__init__.py @@ -0,0 +1,31 @@ +from pandas.core.indexers.utils import ( + check_array_indexer, + check_key_length, + check_setitem_lengths, + disallow_ndim_indexing, + is_empty_indexer, + is_list_like_indexer, + is_scalar_indexer, + is_valid_positional_slice, + length_of_indexer, + maybe_convert_indices, + unpack_1tuple, + unpack_tuple_and_ellipses, + validate_indices, +) + +__all__ = [ + "is_valid_positional_slice", + "is_list_like_indexer", + "is_scalar_indexer", + "is_empty_indexer", + "check_setitem_lengths", + "validate_indices", + "maybe_convert_indices", + "length_of_indexer", + "disallow_ndim_indexing", + "unpack_1tuple", + "check_key_length", + "check_array_indexer", + "unpack_tuple_and_ellipses", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..0eb7dc58bcdb22ba33ea380b2ae6c81fe749b765 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/__pycache__/__init__.cpython-310.pyc differ diff --git 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pandas.core.dtypes.common import ensure_platform_int + +from pandas.core.indexes.datetimes import DatetimeIndex + +from pandas.tseries.offsets import Nano + +get_window_bounds_doc = """ +Computes the bounds of a window. + +Parameters +---------- +num_values : int, default 0 + number of values that will be aggregated over +window_size : int, default 0 + the number of rows in a window +min_periods : int, default None + min_periods passed from the top level rolling API +center : bool, default None + center passed from the top level rolling API +closed : str, default None + closed passed from the top level rolling API +step : int, default None + step passed from the top level rolling API + .. versionadded:: 1.5 +win_type : str, default None + win_type passed from the top level rolling API + +Returns +------- +A tuple of ndarray[int64]s, indicating the boundaries of each +window +""" + + +class BaseIndexer: + """ + Base class for window bounds calculations. + + Examples + -------- + >>> from pandas.api.indexers import BaseIndexer + >>> class CustomIndexer(BaseIndexer): + ... def get_window_bounds(self, num_values, min_periods, center, closed, step): + ... start = np.empty(num_values, dtype=np.int64) + ... end = np.empty(num_values, dtype=np.int64) + ... for i in range(num_values): + ... start[i] = i + ... end[i] = i + self.window_size + ... return start, end + >>> df = pd.DataFrame({"values": range(5)}) + >>> indexer = CustomIndexer(window_size=2) + >>> df.rolling(indexer).sum() + values + 0 1.0 + 1 3.0 + 2 5.0 + 3 7.0 + 4 4.0 + """ + + def __init__( + self, index_array: np.ndarray | None = None, window_size: int = 0, **kwargs + ) -> None: + self.index_array = index_array + self.window_size = window_size + # Set user defined kwargs as attributes that can be used in get_window_bounds + for key, value in kwargs.items(): + setattr(self, key, value) + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + raise NotImplementedError + + +class FixedWindowIndexer(BaseIndexer): + """Creates window boundaries that are of fixed length.""" + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + if center or self.window_size == 0: + offset = (self.window_size - 1) // 2 + else: + offset = 0 + + end = np.arange(1 + offset, num_values + 1 + offset, step, dtype="int64") + start = end - self.window_size + if closed in ["left", "both"]: + start -= 1 + if closed in ["left", "neither"]: + end -= 1 + + end = np.clip(end, 0, num_values) + start = np.clip(start, 0, num_values) + + return start, end + + +class VariableWindowIndexer(BaseIndexer): + """Creates window boundaries that are of variable length, namely for time series.""" + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + # error: Argument 4 to "calculate_variable_window_bounds" has incompatible + # type "Optional[bool]"; expected "bool" + # error: Argument 6 to "calculate_variable_window_bounds" has incompatible + # type "Optional[ndarray]"; expected "ndarray" + return calculate_variable_window_bounds( + num_values, + self.window_size, + min_periods, + center, # type: ignore[arg-type] + closed, + self.index_array, # type: ignore[arg-type] + ) + + +class VariableOffsetWindowIndexer(BaseIndexer): + """ + Calculate window boundaries based on a non-fixed offset such as a BusinessDay. + + Examples + -------- + >>> from pandas.api.indexers import VariableOffsetWindowIndexer + >>> df = pd.DataFrame(range(10), index=pd.date_range("2020", periods=10)) + >>> offset = pd.offsets.BDay(1) + >>> indexer = VariableOffsetWindowIndexer(index=df.index, offset=offset) + >>> df + 0 + 2020-01-01 0 + 2020-01-02 1 + 2020-01-03 2 + 2020-01-04 3 + 2020-01-05 4 + 2020-01-06 5 + 2020-01-07 6 + 2020-01-08 7 + 2020-01-09 8 + 2020-01-10 9 + >>> df.rolling(indexer).sum() + 0 + 2020-01-01 0.0 + 2020-01-02 1.0 + 2020-01-03 2.0 + 2020-01-04 3.0 + 2020-01-05 7.0 + 2020-01-06 12.0 + 2020-01-07 6.0 + 2020-01-08 7.0 + 2020-01-09 8.0 + 2020-01-10 9.0 + """ + + def __init__( + self, + index_array: np.ndarray | None = None, + window_size: int = 0, + index: DatetimeIndex | None = None, + offset: BaseOffset | None = None, + **kwargs, + ) -> None: + super().__init__(index_array, window_size, **kwargs) + if not isinstance(index, DatetimeIndex): + raise ValueError("index must be a DatetimeIndex.") + self.index = index + if not isinstance(offset, BaseOffset): + raise ValueError("offset must be a DateOffset-like object.") + self.offset = offset + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + if step is not None: + raise NotImplementedError("step not implemented for variable offset window") + if num_values <= 0: + return np.empty(0, dtype="int64"), np.empty(0, dtype="int64") + + # if windows is variable, default is 'right', otherwise default is 'both' + if closed is None: + closed = "right" if self.index is not None else "both" + + right_closed = closed in ["right", "both"] + left_closed = closed in ["left", "both"] + + if self.index[num_values - 1] < self.index[0]: + index_growth_sign = -1 + else: + index_growth_sign = 1 + offset_diff = index_growth_sign * self.offset + + start = np.empty(num_values, dtype="int64") + start.fill(-1) + end = np.empty(num_values, dtype="int64") + end.fill(-1) + + start[0] = 0 + + # right endpoint is closed + if right_closed: + end[0] = 1 + # right endpoint is open + else: + end[0] = 0 + + zero = timedelta(0) + # start is start of slice interval (including) + # end is end of slice interval (not including) + for i in range(1, num_values): + end_bound = self.index[i] + start_bound = end_bound - offset_diff + + # left endpoint is closed + if left_closed: + start_bound -= Nano(1) + + # advance the start bound until we are + # within the constraint + start[i] = i + for j in range(start[i - 1], i): + start_diff = (self.index[j] - start_bound) * index_growth_sign + if start_diff > zero: + start[i] = j + break + + # end bound is previous end + # or current index + end_diff = (self.index[end[i - 1]] - end_bound) * index_growth_sign + if end_diff == zero and not right_closed: + end[i] = end[i - 1] + 1 + elif end_diff <= zero: + end[i] = i + 1 + else: + end[i] = end[i - 1] + + # right endpoint is open + if not right_closed: + end[i] -= 1 + + return start, end + + +class ExpandingIndexer(BaseIndexer): + """Calculate expanding window bounds, mimicking df.expanding()""" + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + return ( + np.zeros(num_values, dtype=np.int64), + np.arange(1, num_values + 1, dtype=np.int64), + ) + + +class FixedForwardWindowIndexer(BaseIndexer): + """ + Creates window boundaries for fixed-length windows that include the current row. + + Examples + -------- + >>> df = pd.DataFrame({'B': [0, 1, 2, np.nan, 4]}) + >>> df + B + 0 0.0 + 1 1.0 + 2 2.0 + 3 NaN + 4 4.0 + + >>> indexer = pd.api.indexers.FixedForwardWindowIndexer(window_size=2) + >>> df.rolling(window=indexer, min_periods=1).sum() + B + 0 1.0 + 1 3.0 + 2 2.0 + 3 4.0 + 4 4.0 + """ + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + if center: + raise ValueError("Forward-looking windows can't have center=True") + if closed is not None: + raise ValueError( + "Forward-looking windows don't support setting the closed argument" + ) + if step is None: + step = 1 + + start = np.arange(0, num_values, step, dtype="int64") + end = start + self.window_size + if self.window_size: + end = np.clip(end, 0, num_values) + + return start, end + + +class GroupbyIndexer(BaseIndexer): + """Calculate bounds to compute groupby rolling, mimicking df.groupby().rolling()""" + + def __init__( + self, + index_array: np.ndarray | None = None, + window_size: int | BaseIndexer = 0, + groupby_indices: dict | None = None, + window_indexer: type[BaseIndexer] = BaseIndexer, + indexer_kwargs: dict | None = None, + **kwargs, + ) -> None: + """ + Parameters + ---------- + index_array : np.ndarray or None + np.ndarray of the index of the original object that we are performing + a chained groupby operation over. This index has been pre-sorted relative to + the groups + window_size : int or BaseIndexer + window size during the windowing operation + groupby_indices : dict or None + dict of {group label: [positional index of rows belonging to the group]} + window_indexer : BaseIndexer + BaseIndexer class determining the start and end bounds of each group + indexer_kwargs : dict or None + Custom kwargs to be passed to window_indexer + **kwargs : + keyword arguments that will be available when get_window_bounds is called + """ + self.groupby_indices = groupby_indices or {} + self.window_indexer = window_indexer + self.indexer_kwargs = indexer_kwargs.copy() if indexer_kwargs else {} + super().__init__( + index_array=index_array, + window_size=self.indexer_kwargs.pop("window_size", window_size), + **kwargs, + ) + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + # 1) For each group, get the indices that belong to the group + # 2) Use the indices to calculate the start & end bounds of the window + # 3) Append the window bounds in group order + start_arrays = [] + end_arrays = [] + window_indices_start = 0 + for key, indices in self.groupby_indices.items(): + index_array: np.ndarray | None + + if self.index_array is not None: + index_array = self.index_array.take(ensure_platform_int(indices)) + else: + index_array = self.index_array + indexer = self.window_indexer( + index_array=index_array, + window_size=self.window_size, + **self.indexer_kwargs, + ) + start, end = indexer.get_window_bounds( + len(indices), min_periods, center, closed, step + ) + start = start.astype(np.int64) + end = end.astype(np.int64) + assert len(start) == len( + end + ), "these should be equal in length from get_window_bounds" + # Cannot use groupby_indices as they might not be monotonic with the object + # we're rolling over + window_indices = np.arange( + window_indices_start, window_indices_start + len(indices) + ) + window_indices_start += len(indices) + # Extend as we'll be slicing window like [start, end) + window_indices = np.append(window_indices, [window_indices[-1] + 1]).astype( + np.int64, copy=False + ) + start_arrays.append(window_indices.take(ensure_platform_int(start))) + end_arrays.append(window_indices.take(ensure_platform_int(end))) + if len(start_arrays) == 0: + return np.array([], dtype=np.int64), np.array([], dtype=np.int64) + start = np.concatenate(start_arrays) + end = np.concatenate(end_arrays) + return start, end + + +class ExponentialMovingWindowIndexer(BaseIndexer): + """Calculate ewm window bounds (the entire window)""" + + @Appender(get_window_bounds_doc) + def get_window_bounds( + self, + num_values: int = 0, + min_periods: int | None = None, + center: bool | None = None, + closed: str | None = None, + step: int | None = None, + ) -> tuple[np.ndarray, np.ndarray]: + return np.array([0], dtype=np.int64), np.array([num_values], dtype=np.int64) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/utils.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/utils.py new file mode 100644 index 0000000000000000000000000000000000000000..55bb58f3108c3d7004058494284ea6fb4b2fca7f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexers/utils.py @@ -0,0 +1,553 @@ +""" +Low-dependency indexing utilities. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np + +from pandas._libs import lib + +from pandas.core.dtypes.common import ( + is_array_like, + is_bool_dtype, + is_integer, + is_integer_dtype, + is_list_like, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) + +if TYPE_CHECKING: + from pandas._typing import AnyArrayLike + + from pandas.core.frame import DataFrame + from pandas.core.indexes.base import Index + +# ----------------------------------------------------------- +# Indexer Identification + + +def is_valid_positional_slice(slc: slice) -> bool: + """ + Check if a slice object can be interpreted as a positional indexer. + + Parameters + ---------- + slc : slice + + Returns + ------- + bool + + Notes + ----- + A valid positional slice may also be interpreted as a label-based slice + depending on the index being sliced. + """ + return ( + lib.is_int_or_none(slc.start) + and lib.is_int_or_none(slc.stop) + and lib.is_int_or_none(slc.step) + ) + + +def is_list_like_indexer(key) -> bool: + """ + Check if we have a list-like indexer that is *not* a NamedTuple. + + Parameters + ---------- + key : object + + Returns + ------- + bool + """ + # allow a list_like, but exclude NamedTuples which can be indexers + return is_list_like(key) and not (isinstance(key, tuple) and type(key) is not tuple) + + +def is_scalar_indexer(indexer, ndim: int) -> bool: + """ + Return True if we are all scalar indexers. + + Parameters + ---------- + indexer : object + ndim : int + Number of dimensions in the object being indexed. + + Returns + ------- + bool + """ + if ndim == 1 and is_integer(indexer): + # GH37748: allow indexer to be an integer for Series + return True + if isinstance(indexer, tuple) and len(indexer) == ndim: + return all(is_integer(x) for x in indexer) + return False + + +def is_empty_indexer(indexer) -> bool: + """ + Check if we have an empty indexer. + + Parameters + ---------- + indexer : object + + Returns + ------- + bool + """ + if is_list_like(indexer) and not len(indexer): + return True + if not isinstance(indexer, tuple): + indexer = (indexer,) + return any(isinstance(idx, np.ndarray) and len(idx) == 0 for idx in indexer) + + +# ----------------------------------------------------------- +# Indexer Validation + + +def check_setitem_lengths(indexer, value, values) -> bool: + """ + Validate that value and indexer are the same length. + + An special-case is allowed for when the indexer is a boolean array + and the number of true values equals the length of ``value``. In + this case, no exception is raised. + + Parameters + ---------- + indexer : sequence + Key for the setitem. + value : array-like + Value for the setitem. + values : array-like + Values being set into. + + Returns + ------- + bool + Whether this is an empty listlike setting which is a no-op. + + Raises + ------ + ValueError + When the indexer is an ndarray or list and the lengths don't match. + """ + no_op = False + + if isinstance(indexer, (np.ndarray, list)): + # We can ignore other listlikes because they are either + # a) not necessarily 1-D indexers, e.g. tuple + # b) boolean indexers e.g. BoolArray + if is_list_like(value): + if len(indexer) != len(value) and values.ndim == 1: + # boolean with truth values == len of the value is ok too + if isinstance(indexer, list): + indexer = np.array(indexer) + if not ( + isinstance(indexer, np.ndarray) + and indexer.dtype == np.bool_ + and indexer.sum() == len(value) + ): + raise ValueError( + "cannot set using a list-like indexer " + "with a different length than the value" + ) + if not len(indexer): + no_op = True + + elif isinstance(indexer, slice): + if is_list_like(value): + if len(value) != length_of_indexer(indexer, values) and values.ndim == 1: + # In case of two dimensional value is used row-wise and broadcasted + raise ValueError( + "cannot set using a slice indexer with a " + "different length than the value" + ) + if not len(value): + no_op = True + + return no_op + + +def validate_indices(indices: np.ndarray, n: int) -> None: + """ + Perform bounds-checking for an indexer. + + -1 is allowed for indicating missing values. + + Parameters + ---------- + indices : ndarray + n : int + Length of the array being indexed. + + Raises + ------ + ValueError + + Examples + -------- + >>> validate_indices(np.array([1, 2]), 3) # OK + + >>> validate_indices(np.array([1, -2]), 3) + Traceback (most recent call last): + ... + ValueError: negative dimensions are not allowed + + >>> validate_indices(np.array([1, 2, 3]), 3) + Traceback (most recent call last): + ... + IndexError: indices are out-of-bounds + + >>> validate_indices(np.array([-1, -1]), 0) # OK + + >>> validate_indices(np.array([0, 1]), 0) + Traceback (most recent call last): + ... + IndexError: indices are out-of-bounds + """ + if len(indices): + min_idx = indices.min() + if min_idx < -1: + msg = f"'indices' contains values less than allowed ({min_idx} < -1)" + raise ValueError(msg) + + max_idx = indices.max() + if max_idx >= n: + raise IndexError("indices are out-of-bounds") + + +# ----------------------------------------------------------- +# Indexer Conversion + + +def maybe_convert_indices(indices, n: int, verify: bool = True) -> np.ndarray: + """ + Attempt to convert indices into valid, positive indices. + + If we have negative indices, translate to positive here. + If we have indices that are out-of-bounds, raise an IndexError. + + Parameters + ---------- + indices : array-like + Array of indices that we are to convert. + n : int + Number of elements in the array that we are indexing. + verify : bool, default True + Check that all entries are between 0 and n - 1, inclusive. + + Returns + ------- + array-like + An array-like of positive indices that correspond to the ones + that were passed in initially to this function. + + Raises + ------ + IndexError + One of the converted indices either exceeded the number of, + elements (specified by `n`), or was still negative. + """ + if isinstance(indices, list): + indices = np.array(indices) + if len(indices) == 0: + # If `indices` is empty, np.array will return a float, + # and will cause indexing errors. + return np.empty(0, dtype=np.intp) + + mask = indices < 0 + if mask.any(): + indices = indices.copy() + indices[mask] += n + + if verify: + mask = (indices >= n) | (indices < 0) + if mask.any(): + raise IndexError("indices are out-of-bounds") + return indices + + +# ----------------------------------------------------------- +# Unsorted + + +def length_of_indexer(indexer, target=None) -> int: + """ + Return the expected length of target[indexer] + + Returns + ------- + int + """ + if target is not None and isinstance(indexer, slice): + target_len = len(target) + start = indexer.start + stop = indexer.stop + step = indexer.step + if start is None: + start = 0 + elif start < 0: + start += target_len + if stop is None or stop > target_len: + stop = target_len + elif stop < 0: + stop += target_len + if step is None: + step = 1 + elif step < 0: + start, stop = stop + 1, start + 1 + step = -step + return (stop - start + step - 1) // step + elif isinstance(indexer, (ABCSeries, ABCIndex, np.ndarray, list)): + if isinstance(indexer, list): + indexer = np.array(indexer) + + if indexer.dtype == bool: + # GH#25774 + return indexer.sum() + return len(indexer) + elif isinstance(indexer, range): + return (indexer.stop - indexer.start) // indexer.step + elif not is_list_like_indexer(indexer): + return 1 + raise AssertionError("cannot find the length of the indexer") + + +def disallow_ndim_indexing(result) -> None: + """ + Helper function to disallow multi-dimensional indexing on 1D Series/Index. + + GH#27125 indexer like idx[:, None] expands dim, but we cannot do that + and keep an index, so we used to return ndarray, which was deprecated + in GH#30588. + """ + if np.ndim(result) > 1: + raise ValueError( + "Multi-dimensional indexing (e.g. `obj[:, None]`) is no longer " + "supported. Convert to a numpy array before indexing instead." + ) + + +def unpack_1tuple(tup): + """ + If we have a length-1 tuple/list that contains a slice, unpack to just + the slice. + + Notes + ----- + The list case is deprecated. + """ + if len(tup) == 1 and isinstance(tup[0], slice): + # if we don't have a MultiIndex, we may still be able to handle + # a 1-tuple. see test_1tuple_without_multiindex + + if isinstance(tup, list): + # GH#31299 + raise ValueError( + "Indexing with a single-item list containing a " + "slice is not allowed. Pass a tuple instead.", + ) + + return tup[0] + return tup + + +def check_key_length(columns: Index, key, value: DataFrame) -> None: + """ + Checks if a key used as indexer has the same length as the columns it is + associated with. + + Parameters + ---------- + columns : Index The columns of the DataFrame to index. + key : A list-like of keys to index with. + value : DataFrame The value to set for the keys. + + Raises + ------ + ValueError: If the length of key is not equal to the number of columns in value + or if the number of columns referenced by key is not equal to number + of columns. + """ + if columns.is_unique: + if len(value.columns) != len(key): + raise ValueError("Columns must be same length as key") + else: + # Missing keys in columns are represented as -1 + if len(columns.get_indexer_non_unique(key)[0]) != len(value.columns): + raise ValueError("Columns must be same length as key") + + +def unpack_tuple_and_ellipses(item: tuple): + """ + Possibly unpack arr[..., n] to arr[n] + """ + if len(item) > 1: + # Note: we are assuming this indexing is being done on a 1D arraylike + if item[0] is Ellipsis: + item = item[1:] + elif item[-1] is Ellipsis: + item = item[:-1] + + if len(item) > 1: + raise IndexError("too many indices for array.") + + item = item[0] + return item + + +# ----------------------------------------------------------- +# Public indexer validation + + +def check_array_indexer(array: AnyArrayLike, indexer: Any) -> Any: + """ + Check if `indexer` is a valid array indexer for `array`. + + For a boolean mask, `array` and `indexer` are checked to have the same + length. The dtype is validated, and if it is an integer or boolean + ExtensionArray, it is checked if there are missing values present, and + it is converted to the appropriate numpy array. Other dtypes will raise + an error. + + Non-array indexers (integer, slice, Ellipsis, tuples, ..) are passed + through as is. + + Parameters + ---------- + array : array-like + The array that is being indexed (only used for the length). + indexer : array-like or list-like + The array-like that's used to index. List-like input that is not yet + a numpy array or an ExtensionArray is converted to one. Other input + types are passed through as is. + + Returns + ------- + numpy.ndarray + The validated indexer as a numpy array that can be used to index. + + Raises + ------ + IndexError + When the lengths don't match. + ValueError + When `indexer` cannot be converted to a numpy ndarray to index + (e.g. presence of missing values). + + See Also + -------- + api.types.is_bool_dtype : Check if `key` is of boolean dtype. + + Examples + -------- + When checking a boolean mask, a boolean ndarray is returned when the + arguments are all valid. + + >>> mask = pd.array([True, False]) + >>> arr = pd.array([1, 2]) + >>> pd.api.indexers.check_array_indexer(arr, mask) + array([ True, False]) + + An IndexError is raised when the lengths don't match. + + >>> mask = pd.array([True, False, True]) + >>> pd.api.indexers.check_array_indexer(arr, mask) + Traceback (most recent call last): + ... + IndexError: Boolean index has wrong length: 3 instead of 2. + + NA values in a boolean array are treated as False. + + >>> mask = pd.array([True, pd.NA]) + >>> pd.api.indexers.check_array_indexer(arr, mask) + array([ True, False]) + + A numpy boolean mask will get passed through (if the length is correct): + + >>> mask = np.array([True, False]) + >>> pd.api.indexers.check_array_indexer(arr, mask) + array([ True, False]) + + Similarly for integer indexers, an integer ndarray is returned when it is + a valid indexer, otherwise an error is (for integer indexers, a matching + length is not required): + + >>> indexer = pd.array([0, 2], dtype="Int64") + >>> arr = pd.array([1, 2, 3]) + >>> pd.api.indexers.check_array_indexer(arr, indexer) + array([0, 2]) + + >>> indexer = pd.array([0, pd.NA], dtype="Int64") + >>> pd.api.indexers.check_array_indexer(arr, indexer) + Traceback (most recent call last): + ... + ValueError: Cannot index with an integer indexer containing NA values + + For non-integer/boolean dtypes, an appropriate error is raised: + + >>> indexer = np.array([0., 2.], dtype="float64") + >>> pd.api.indexers.check_array_indexer(arr, indexer) + Traceback (most recent call last): + ... + IndexError: arrays used as indices must be of integer or boolean type + """ + from pandas.core.construction import array as pd_array + + # whatever is not an array-like is returned as-is (possible valid array + # indexers that are not array-like: integer, slice, Ellipsis, None) + # In this context, tuples are not considered as array-like, as they have + # a specific meaning in indexing (multi-dimensional indexing) + if is_list_like(indexer): + if isinstance(indexer, tuple): + return indexer + else: + return indexer + + # convert list-likes to array + if not is_array_like(indexer): + indexer = pd_array(indexer) + if len(indexer) == 0: + # empty list is converted to float array by pd.array + indexer = np.array([], dtype=np.intp) + + dtype = indexer.dtype + if is_bool_dtype(dtype): + if isinstance(dtype, ExtensionDtype): + indexer = indexer.to_numpy(dtype=bool, na_value=False) + else: + indexer = np.asarray(indexer, dtype=bool) + + # GH26658 + if len(indexer) != len(array): + raise IndexError( + f"Boolean index has wrong length: " + f"{len(indexer)} instead of {len(array)}" + ) + elif is_integer_dtype(dtype): + try: + indexer = np.asarray(indexer, dtype=np.intp) + except ValueError as err: + raise ValueError( + "Cannot index with an integer indexer containing NA values" + ) from err + else: + raise IndexError("arrays used as indices must be of integer or boolean type") + + return indexer diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git 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b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/accessors.py new file mode 100644 index 0000000000000000000000000000000000000000..7e3ba4089ff60e9ab226f7536c6be1843be8ea59 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/accessors.py @@ -0,0 +1,643 @@ +""" +datetimelike delegation +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + cast, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_integer_dtype, + is_list_like, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, + DatetimeTZDtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ABCSeries + +from pandas.core.accessor import ( + PandasDelegate, + delegate_names, +) +from pandas.core.arrays import ( + DatetimeArray, + PeriodArray, + TimedeltaArray, +) +from pandas.core.arrays.arrow.array import ArrowExtensionArray +from pandas.core.base import ( + NoNewAttributesMixin, + PandasObject, +) +from pandas.core.indexes.datetimes import DatetimeIndex +from pandas.core.indexes.timedeltas import TimedeltaIndex + +if TYPE_CHECKING: + from pandas import ( + DataFrame, + Series, + ) + + +class Properties(PandasDelegate, PandasObject, NoNewAttributesMixin): + _hidden_attrs = PandasObject._hidden_attrs | { + "orig", + "name", + } + + def __init__(self, data: Series, orig) -> None: + if not isinstance(data, ABCSeries): + raise TypeError( + f"cannot convert an object of type {type(data)} to a datetimelike index" + ) + + self._parent = data + self.orig = orig + self.name = getattr(data, "name", None) + self._freeze() + + def _get_values(self): + data = self._parent + if lib.is_np_dtype(data.dtype, "M"): + return DatetimeIndex(data, copy=False, name=self.name) + + elif isinstance(data.dtype, DatetimeTZDtype): + return DatetimeIndex(data, copy=False, name=self.name) + + elif lib.is_np_dtype(data.dtype, "m"): + return TimedeltaIndex(data, copy=False, name=self.name) + + elif isinstance(data.dtype, PeriodDtype): + return PeriodArray(data, copy=False) + + raise TypeError( + f"cannot convert an object of type {type(data)} to a datetimelike index" + ) + + def _delegate_property_get(self, name: str): + from pandas import Series + + values = self._get_values() + + result = getattr(values, name) + + # maybe need to upcast (ints) + if isinstance(result, np.ndarray): + if is_integer_dtype(result): + result = result.astype("int64") + elif not is_list_like(result): + return result + + result = np.asarray(result) + + if self.orig is not None: + index = self.orig.index + else: + index = self._parent.index + # return the result as a Series + result = Series(result, index=index, name=self.name).__finalize__(self._parent) + + # setting this object will show a SettingWithCopyWarning/Error + result._is_copy = ( + "modifications to a property of a datetimelike " + "object are not supported and are discarded. " + "Change values on the original." + ) + + return result + + def _delegate_property_set(self, name: str, value, *args, **kwargs): + raise ValueError( + "modifications to a property of a datetimelike object are not supported. " + "Change values on the original." + ) + + def _delegate_method(self, name: str, *args, **kwargs): + from pandas import Series + + values = self._get_values() + + method = getattr(values, name) + result = method(*args, **kwargs) + + if not is_list_like(result): + return result + + result = Series(result, index=self._parent.index, name=self.name).__finalize__( + self._parent + ) + + # setting this object will show a SettingWithCopyWarning/Error + result._is_copy = ( + "modifications to a method of a datetimelike " + "object are not supported and are discarded. " + "Change values on the original." + ) + + return result + + +@delegate_names( + delegate=ArrowExtensionArray, + accessors=TimedeltaArray._datetimelike_ops, + typ="property", + accessor_mapping=lambda x: f"_dt_{x}", + raise_on_missing=False, +) +@delegate_names( + delegate=ArrowExtensionArray, + accessors=TimedeltaArray._datetimelike_methods, + typ="method", + accessor_mapping=lambda x: f"_dt_{x}", + raise_on_missing=False, +) +@delegate_names( + delegate=ArrowExtensionArray, + accessors=DatetimeArray._datetimelike_ops, + typ="property", + accessor_mapping=lambda x: f"_dt_{x}", + raise_on_missing=False, +) +@delegate_names( + delegate=ArrowExtensionArray, + accessors=DatetimeArray._datetimelike_methods, + typ="method", + accessor_mapping=lambda x: f"_dt_{x}", + raise_on_missing=False, +) +class ArrowTemporalProperties(PandasDelegate, PandasObject, NoNewAttributesMixin): + def __init__(self, data: Series, orig) -> None: + if not isinstance(data, ABCSeries): + raise TypeError( + f"cannot convert an object of type {type(data)} to a datetimelike index" + ) + + self._parent = data + self._orig = orig + self._freeze() + + def _delegate_property_get(self, name: str): + if not hasattr(self._parent.array, f"_dt_{name}"): + raise NotImplementedError( + f"dt.{name} is not supported for {self._parent.dtype}" + ) + result = getattr(self._parent.array, f"_dt_{name}") + + if not is_list_like(result): + return result + + if self._orig is not None: + index = self._orig.index + else: + index = self._parent.index + # return the result as a Series, which is by definition a copy + result = type(self._parent)( + result, index=index, name=self._parent.name + ).__finalize__(self._parent) + + return result + + def _delegate_method(self, name: str, *args, **kwargs): + if not hasattr(self._parent.array, f"_dt_{name}"): + raise NotImplementedError( + f"dt.{name} is not supported for {self._parent.dtype}" + ) + + result = getattr(self._parent.array, f"_dt_{name}")(*args, **kwargs) + + if self._orig is not None: + index = self._orig.index + else: + index = self._parent.index + # return the result as a Series, which is by definition a copy + result = type(self._parent)( + result, index=index, name=self._parent.name + ).__finalize__(self._parent) + + return result + + def to_pytimedelta(self): + return cast(ArrowExtensionArray, self._parent.array)._dt_to_pytimedelta() + + def to_pydatetime(self): + # GH#20306 + warnings.warn( + f"The behavior of {type(self).__name__}.to_pydatetime is deprecated, " + "in a future version this will return a Series containing python " + "datetime objects instead of an ndarray. To retain the old behavior, " + "call `np.array` on the result", + FutureWarning, + stacklevel=find_stack_level(), + ) + return cast(ArrowExtensionArray, self._parent.array)._dt_to_pydatetime() + + def isocalendar(self) -> DataFrame: + from pandas import DataFrame + + result = ( + cast(ArrowExtensionArray, self._parent.array) + ._dt_isocalendar() + ._pa_array.combine_chunks() + ) + iso_calendar_df = DataFrame( + { + col: type(self._parent.array)(result.field(i)) # type: ignore[call-arg] + for i, col in enumerate(["year", "week", "day"]) + } + ) + return iso_calendar_df + + @property + def components(self) -> DataFrame: + from pandas import DataFrame + + components_df = DataFrame( + { + col: getattr(self._parent.array, f"_dt_{col}") + for col in [ + "days", + "hours", + "minutes", + "seconds", + "milliseconds", + "microseconds", + "nanoseconds", + ] + } + ) + return components_df + + +@delegate_names( + delegate=DatetimeArray, + accessors=DatetimeArray._datetimelike_ops + ["unit"], + typ="property", +) +@delegate_names( + delegate=DatetimeArray, + accessors=DatetimeArray._datetimelike_methods + ["as_unit"], + typ="method", +) +class DatetimeProperties(Properties): + """ + Accessor object for datetimelike properties of the Series values. + + Examples + -------- + >>> seconds_series = pd.Series(pd.date_range("2000-01-01", periods=3, freq="s")) + >>> seconds_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 00:00:01 + 2 2000-01-01 00:00:02 + dtype: datetime64[ns] + >>> seconds_series.dt.second + 0 0 + 1 1 + 2 2 + dtype: int32 + + >>> hours_series = pd.Series(pd.date_range("2000-01-01", periods=3, freq="h")) + >>> hours_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 01:00:00 + 2 2000-01-01 02:00:00 + dtype: datetime64[ns] + >>> hours_series.dt.hour + 0 0 + 1 1 + 2 2 + dtype: int32 + + >>> quarters_series = pd.Series(pd.date_range("2000-01-01", periods=3, freq="QE")) + >>> quarters_series + 0 2000-03-31 + 1 2000-06-30 + 2 2000-09-30 + dtype: datetime64[ns] + >>> quarters_series.dt.quarter + 0 1 + 1 2 + 2 3 + dtype: int32 + + Returns a Series indexed like the original Series. + Raises TypeError if the Series does not contain datetimelike values. + """ + + def to_pydatetime(self) -> np.ndarray: + """ + Return the data as an array of :class:`datetime.datetime` objects. + + .. deprecated:: 2.1.0 + + The current behavior of dt.to_pydatetime is deprecated. + In a future version this will return a Series containing python + datetime objects instead of a ndarray. + + Timezone information is retained if present. + + .. warning:: + + Python's datetime uses microsecond resolution, which is lower than + pandas (nanosecond). The values are truncated. + + Returns + ------- + numpy.ndarray + Object dtype array containing native Python datetime objects. + + See Also + -------- + datetime.datetime : Standard library value for a datetime. + + Examples + -------- + >>> s = pd.Series(pd.date_range('20180310', periods=2)) + >>> s + 0 2018-03-10 + 1 2018-03-11 + dtype: datetime64[ns] + + >>> s.dt.to_pydatetime() + array([datetime.datetime(2018, 3, 10, 0, 0), + datetime.datetime(2018, 3, 11, 0, 0)], dtype=object) + + pandas' nanosecond precision is truncated to microseconds. + + >>> s = pd.Series(pd.date_range('20180310', periods=2, freq='ns')) + >>> s + 0 2018-03-10 00:00:00.000000000 + 1 2018-03-10 00:00:00.000000001 + dtype: datetime64[ns] + + >>> s.dt.to_pydatetime() + array([datetime.datetime(2018, 3, 10, 0, 0), + datetime.datetime(2018, 3, 10, 0, 0)], dtype=object) + """ + # GH#20306 + warnings.warn( + f"The behavior of {type(self).__name__}.to_pydatetime is deprecated, " + "in a future version this will return a Series containing python " + "datetime objects instead of an ndarray. To retain the old behavior, " + "call `np.array` on the result", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._get_values().to_pydatetime() + + @property + def freq(self): + return self._get_values().inferred_freq + + def isocalendar(self) -> DataFrame: + """ + Calculate year, week, and day according to the ISO 8601 standard. + + Returns + ------- + DataFrame + With columns year, week and day. + + See Also + -------- + Timestamp.isocalendar : Function return a 3-tuple containing ISO year, + week number, and weekday for the given Timestamp object. + datetime.date.isocalendar : Return a named tuple object with + three components: year, week and weekday. + + Examples + -------- + >>> ser = pd.to_datetime(pd.Series(["2010-01-01", pd.NaT])) + >>> ser.dt.isocalendar() + year week day + 0 2009 53 5 + 1 + >>> ser.dt.isocalendar().week + 0 53 + 1 + Name: week, dtype: UInt32 + """ + return self._get_values().isocalendar().set_index(self._parent.index) + + +@delegate_names( + delegate=TimedeltaArray, accessors=TimedeltaArray._datetimelike_ops, typ="property" +) +@delegate_names( + delegate=TimedeltaArray, + accessors=TimedeltaArray._datetimelike_methods, + typ="method", +) +class TimedeltaProperties(Properties): + """ + Accessor object for datetimelike properties of the Series values. + + Returns a Series indexed like the original Series. + Raises TypeError if the Series does not contain datetimelike values. + + Examples + -------- + >>> seconds_series = pd.Series( + ... pd.timedelta_range(start="1 second", periods=3, freq="s") + ... ) + >>> seconds_series + 0 0 days 00:00:01 + 1 0 days 00:00:02 + 2 0 days 00:00:03 + dtype: timedelta64[ns] + >>> seconds_series.dt.seconds + 0 1 + 1 2 + 2 3 + dtype: int32 + """ + + def to_pytimedelta(self) -> np.ndarray: + """ + Return an array of native :class:`datetime.timedelta` objects. + + Python's standard `datetime` library uses a different representation + timedelta's. This method converts a Series of pandas Timedeltas + to `datetime.timedelta` format with the same length as the original + Series. + + Returns + ------- + numpy.ndarray + Array of 1D containing data with `datetime.timedelta` type. + + See Also + -------- + datetime.timedelta : A duration expressing the difference + between two date, time, or datetime. + + Examples + -------- + >>> s = pd.Series(pd.to_timedelta(np.arange(5), unit="d")) + >>> s + 0 0 days + 1 1 days + 2 2 days + 3 3 days + 4 4 days + dtype: timedelta64[ns] + + >>> s.dt.to_pytimedelta() + array([datetime.timedelta(0), datetime.timedelta(days=1), + datetime.timedelta(days=2), datetime.timedelta(days=3), + datetime.timedelta(days=4)], dtype=object) + """ + return self._get_values().to_pytimedelta() + + @property + def components(self): + """ + Return a Dataframe of the components of the Timedeltas. + + Returns + ------- + DataFrame + + Examples + -------- + >>> s = pd.Series(pd.to_timedelta(np.arange(5), unit='s')) + >>> s + 0 0 days 00:00:00 + 1 0 days 00:00:01 + 2 0 days 00:00:02 + 3 0 days 00:00:03 + 4 0 days 00:00:04 + dtype: timedelta64[ns] + >>> s.dt.components + days hours minutes seconds milliseconds microseconds nanoseconds + 0 0 0 0 0 0 0 0 + 1 0 0 0 1 0 0 0 + 2 0 0 0 2 0 0 0 + 3 0 0 0 3 0 0 0 + 4 0 0 0 4 0 0 0 + """ + return ( + self._get_values() + .components.set_index(self._parent.index) + .__finalize__(self._parent) + ) + + @property + def freq(self): + return self._get_values().inferred_freq + + +@delegate_names( + delegate=PeriodArray, accessors=PeriodArray._datetimelike_ops, typ="property" +) +@delegate_names( + delegate=PeriodArray, accessors=PeriodArray._datetimelike_methods, typ="method" +) +class PeriodProperties(Properties): + """ + Accessor object for datetimelike properties of the Series values. + + Returns a Series indexed like the original Series. + Raises TypeError if the Series does not contain datetimelike values. + + Examples + -------- + >>> seconds_series = pd.Series( + ... pd.period_range( + ... start="2000-01-01 00:00:00", end="2000-01-01 00:00:03", freq="s" + ... ) + ... ) + >>> seconds_series + 0 2000-01-01 00:00:00 + 1 2000-01-01 00:00:01 + 2 2000-01-01 00:00:02 + 3 2000-01-01 00:00:03 + dtype: period[s] + >>> seconds_series.dt.second + 0 0 + 1 1 + 2 2 + 3 3 + dtype: int64 + + >>> hours_series = pd.Series( + ... pd.period_range(start="2000-01-01 00:00", end="2000-01-01 03:00", freq="h") + ... ) + >>> hours_series + 0 2000-01-01 00:00 + 1 2000-01-01 01:00 + 2 2000-01-01 02:00 + 3 2000-01-01 03:00 + dtype: period[h] + >>> hours_series.dt.hour + 0 0 + 1 1 + 2 2 + 3 3 + dtype: int64 + + >>> quarters_series = pd.Series( + ... pd.period_range(start="2000-01-01", end="2000-12-31", freq="Q-DEC") + ... ) + >>> quarters_series + 0 2000Q1 + 1 2000Q2 + 2 2000Q3 + 3 2000Q4 + dtype: period[Q-DEC] + >>> quarters_series.dt.quarter + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + """ + + +class CombinedDatetimelikeProperties( + DatetimeProperties, TimedeltaProperties, PeriodProperties +): + def __new__(cls, data: Series): # pyright: ignore[reportInconsistentConstructor] + # CombinedDatetimelikeProperties isn't really instantiated. Instead + # we need to choose which parent (datetime or timedelta) is + # appropriate. Since we're checking the dtypes anyway, we'll just + # do all the validation here. + + if not isinstance(data, ABCSeries): + raise TypeError( + f"cannot convert an object of type {type(data)} to a datetimelike index" + ) + + orig = data if isinstance(data.dtype, CategoricalDtype) else None + if orig is not None: + data = data._constructor( + orig.array, + name=orig.name, + copy=False, + dtype=orig._values.categories.dtype, + index=orig.index, + ) + + if isinstance(data.dtype, ArrowDtype) and data.dtype.kind in "Mm": + return ArrowTemporalProperties(data, orig) + if lib.is_np_dtype(data.dtype, "M"): + return DatetimeProperties(data, orig) + elif isinstance(data.dtype, DatetimeTZDtype): + return DatetimeProperties(data, orig) + elif lib.is_np_dtype(data.dtype, "m"): + return TimedeltaProperties(data, orig) + elif isinstance(data.dtype, PeriodDtype): + return PeriodProperties(data, orig) + + raise AttributeError("Can only use .dt accessor with datetimelike values") diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/api.py new file mode 100644 index 0000000000000000000000000000000000000000..15292953e72d00a8f57c34d2e2cc8a43f6863d39 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/api.py @@ -0,0 +1,388 @@ +from __future__ import annotations + +import textwrap +from typing import ( + TYPE_CHECKING, + cast, +) + +import numpy as np + +from pandas._libs import ( + NaT, + lib, +) +from pandas.errors import InvalidIndexError + +from pandas.core.dtypes.cast import find_common_type + +from pandas.core.algorithms import safe_sort +from pandas.core.indexes.base import ( + Index, + _new_Index, + ensure_index, + ensure_index_from_sequences, + get_unanimous_names, +) +from pandas.core.indexes.category import CategoricalIndex +from pandas.core.indexes.datetimes import DatetimeIndex +from pandas.core.indexes.interval import IntervalIndex +from pandas.core.indexes.multi import MultiIndex +from pandas.core.indexes.period import PeriodIndex +from pandas.core.indexes.range import RangeIndex +from pandas.core.indexes.timedeltas import TimedeltaIndex + +if TYPE_CHECKING: + from pandas._typing import Axis +_sort_msg = textwrap.dedent( + """\ +Sorting because non-concatenation axis is not aligned. A future version +of pandas will change to not sort by default. + +To accept the future behavior, pass 'sort=False'. + +To retain the current behavior and silence the warning, pass 'sort=True'. +""" +) + + +__all__ = [ + "Index", + "MultiIndex", + "CategoricalIndex", + "IntervalIndex", + "RangeIndex", + "InvalidIndexError", + "TimedeltaIndex", + "PeriodIndex", + "DatetimeIndex", + "_new_Index", + "NaT", + "ensure_index", + "ensure_index_from_sequences", + "get_objs_combined_axis", + "union_indexes", + "get_unanimous_names", + "all_indexes_same", + "default_index", + "safe_sort_index", +] + + +def get_objs_combined_axis( + objs, + intersect: bool = False, + axis: Axis = 0, + sort: bool = True, + copy: bool = False, +) -> Index: + """ + Extract combined index: return intersection or union (depending on the + value of "intersect") of indexes on given axis, or None if all objects + lack indexes (e.g. they are numpy arrays). + + Parameters + ---------- + objs : list + Series or DataFrame objects, may be mix of the two. + intersect : bool, default False + If True, calculate the intersection between indexes. Otherwise, + calculate the union. + axis : {0 or 'index', 1 or 'outer'}, default 0 + The axis to extract indexes from. + sort : bool, default True + Whether the result index should come out sorted or not. + copy : bool, default False + If True, return a copy of the combined index. + + Returns + ------- + Index + """ + obs_idxes = [obj._get_axis(axis) for obj in objs] + return _get_combined_index(obs_idxes, intersect=intersect, sort=sort, copy=copy) + + +def _get_distinct_objs(objs: list[Index]) -> list[Index]: + """ + Return a list with distinct elements of "objs" (different ids). + Preserves order. + """ + ids: set[int] = set() + res = [] + for obj in objs: + if id(obj) not in ids: + ids.add(id(obj)) + res.append(obj) + return res + + +def _get_combined_index( + indexes: list[Index], + intersect: bool = False, + sort: bool = False, + copy: bool = False, +) -> Index: + """ + Return the union or intersection of indexes. + + Parameters + ---------- + indexes : list of Index or list objects + When intersect=True, do not accept list of lists. + intersect : bool, default False + If True, calculate the intersection between indexes. Otherwise, + calculate the union. + sort : bool, default False + Whether the result index should come out sorted or not. + copy : bool, default False + If True, return a copy of the combined index. + + Returns + ------- + Index + """ + # TODO: handle index names! + indexes = _get_distinct_objs(indexes) + if len(indexes) == 0: + index = Index([]) + elif len(indexes) == 1: + index = indexes[0] + elif intersect: + index = indexes[0] + for other in indexes[1:]: + index = index.intersection(other) + else: + index = union_indexes(indexes, sort=False) + index = ensure_index(index) + + if sort: + index = safe_sort_index(index) + # GH 29879 + if copy: + index = index.copy() + + return index + + +def safe_sort_index(index: Index) -> Index: + """ + Returns the sorted index + + We keep the dtypes and the name attributes. + + Parameters + ---------- + index : an Index + + Returns + ------- + Index + """ + if index.is_monotonic_increasing: + return index + + try: + array_sorted = safe_sort(index) + except TypeError: + pass + else: + if isinstance(array_sorted, Index): + return array_sorted + + array_sorted = cast(np.ndarray, array_sorted) + if isinstance(index, MultiIndex): + index = MultiIndex.from_tuples(array_sorted, names=index.names) + else: + index = Index(array_sorted, name=index.name, dtype=index.dtype) + + return index + + +def union_indexes(indexes, sort: bool | None = True) -> Index: + """ + Return the union of indexes. + + The behavior of sort and names is not consistent. + + Parameters + ---------- + indexes : list of Index or list objects + sort : bool, default True + Whether the result index should come out sorted or not. + + Returns + ------- + Index + """ + if len(indexes) == 0: + raise AssertionError("Must have at least 1 Index to union") + if len(indexes) == 1: + result = indexes[0] + if isinstance(result, list): + if not sort: + result = Index(result) + else: + result = Index(sorted(result)) + return result + + indexes, kind = _sanitize_and_check(indexes) + + def _unique_indices(inds, dtype) -> Index: + """ + Concatenate indices and remove duplicates. + + Parameters + ---------- + inds : list of Index or list objects + dtype : dtype to set for the resulting Index + + Returns + ------- + Index + """ + if all(isinstance(ind, Index) for ind in inds): + inds = [ind.astype(dtype, copy=False) for ind in inds] + result = inds[0].unique() + other = inds[1].append(inds[2:]) + diff = other[result.get_indexer_for(other) == -1] + if len(diff): + result = result.append(diff.unique()) + if sort: + result = result.sort_values() + return result + + def conv(i): + if isinstance(i, Index): + i = i.tolist() + return i + + return Index( + lib.fast_unique_multiple_list([conv(i) for i in inds], sort=sort), + dtype=dtype, + ) + + def _find_common_index_dtype(inds): + """ + Finds a common type for the indexes to pass through to resulting index. + + Parameters + ---------- + inds: list of Index or list objects + + Returns + ------- + The common type or None if no indexes were given + """ + dtypes = [idx.dtype for idx in indexes if isinstance(idx, Index)] + if dtypes: + dtype = find_common_type(dtypes) + else: + dtype = None + + return dtype + + if kind == "special": + result = indexes[0] + + dtis = [x for x in indexes if isinstance(x, DatetimeIndex)] + dti_tzs = [x for x in dtis if x.tz is not None] + if len(dti_tzs) not in [0, len(dtis)]: + # TODO: this behavior is not tested (so may not be desired), + # but is kept in order to keep behavior the same when + # deprecating union_many + # test_frame_from_dict_with_mixed_indexes + raise TypeError("Cannot join tz-naive with tz-aware DatetimeIndex") + + if len(dtis) == len(indexes): + sort = True + result = indexes[0] + + elif len(dtis) > 1: + # If we have mixed timezones, our casting behavior may depend on + # the order of indexes, which we don't want. + sort = False + + # TODO: what about Categorical[dt64]? + # test_frame_from_dict_with_mixed_indexes + indexes = [x.astype(object, copy=False) for x in indexes] + result = indexes[0] + + for other in indexes[1:]: + result = result.union(other, sort=None if sort else False) + return result + + elif kind == "array": + dtype = _find_common_index_dtype(indexes) + index = indexes[0] + if not all(index.equals(other) for other in indexes[1:]): + index = _unique_indices(indexes, dtype) + + name = get_unanimous_names(*indexes)[0] + if name != index.name: + index = index.rename(name) + return index + else: # kind='list' + dtype = _find_common_index_dtype(indexes) + return _unique_indices(indexes, dtype) + + +def _sanitize_and_check(indexes): + """ + Verify the type of indexes and convert lists to Index. + + Cases: + + - [list, list, ...]: Return ([list, list, ...], 'list') + - [list, Index, ...]: Return _sanitize_and_check([Index, Index, ...]) + Lists are sorted and converted to Index. + - [Index, Index, ...]: Return ([Index, Index, ...], TYPE) + TYPE = 'special' if at least one special type, 'array' otherwise. + + Parameters + ---------- + indexes : list of Index or list objects + + Returns + ------- + sanitized_indexes : list of Index or list objects + type : {'list', 'array', 'special'} + """ + kinds = list({type(index) for index in indexes}) + + if list in kinds: + if len(kinds) > 1: + indexes = [ + Index(list(x)) if not isinstance(x, Index) else x for x in indexes + ] + kinds.remove(list) + else: + return indexes, "list" + + if len(kinds) > 1 or Index not in kinds: + return indexes, "special" + else: + return indexes, "array" + + +def all_indexes_same(indexes) -> bool: + """ + Determine if all indexes contain the same elements. + + Parameters + ---------- + indexes : iterable of Index objects + + Returns + ------- + bool + True if all indexes contain the same elements, False otherwise. + """ + itr = iter(indexes) + first = next(itr) + return all(first.equals(index) for index in itr) + + +def default_index(n: int) -> RangeIndex: + rng = range(n) + return RangeIndex._simple_new(rng, name=None) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/base.py new file mode 100644 index 0000000000000000000000000000000000000000..ab3eaac852f7a506a35abab154dcc10321f8b5fb --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/base.py @@ -0,0 +1,7943 @@ +from __future__ import annotations + +from collections import abc +from datetime import datetime +import functools +from itertools import zip_longest +import operator +from typing import ( + TYPE_CHECKING, + Any, + Callable, + ClassVar, + Literal, + NoReturn, + cast, + final, + overload, +) +import warnings + +import numpy as np + +from pandas._config import ( + get_option, + using_copy_on_write, + using_string_dtype, +) + +from pandas._libs import ( + NaT, + algos as libalgos, + index as libindex, + lib, + writers, +) +from pandas._libs.internals import BlockValuesRefs +import pandas._libs.join as libjoin +from pandas._libs.lib import ( + is_datetime_array, + no_default, +) +from pandas._libs.tslibs import ( + IncompatibleFrequency, + OutOfBoundsDatetime, + Timestamp, + tz_compare, +) +from pandas._typing import ( + AnyAll, + ArrayLike, + Axes, + Axis, + DropKeep, + DtypeObj, + F, + IgnoreRaise, + IndexLabel, + JoinHow, + Level, + NaPosition, + ReindexMethod, + Self, + Shape, + npt, +) +from pandas.compat.numpy import function as nv +from pandas.errors import ( + DuplicateLabelError, + InvalidIndexError, +) +from pandas.util._decorators import ( + Appender, + cache_readonly, + deprecate_nonkeyword_arguments, + doc, +) +from pandas.util._exceptions import ( + find_stack_level, + rewrite_exception, +) + +from pandas.core.dtypes.astype import ( + astype_array, + astype_is_view, +) +from pandas.core.dtypes.cast import ( + LossySetitemError, + can_hold_element, + common_dtype_categorical_compat, + find_result_type, + infer_dtype_from, + maybe_cast_pointwise_result, + np_can_hold_element, +) +from pandas.core.dtypes.common import ( + ensure_int64, + ensure_object, + ensure_platform_int, + is_any_real_numeric_dtype, + is_bool_dtype, + is_ea_or_datetimelike_dtype, + is_float, + is_hashable, + is_integer, + is_iterator, + is_list_like, + is_numeric_dtype, + is_object_dtype, + is_scalar, + is_signed_integer_dtype, + is_string_dtype, + needs_i8_conversion, + pandas_dtype, + validate_all_hashable, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + PeriodDtype, + SparseDtype, +) +from pandas.core.dtypes.generic import ( + ABCCategoricalIndex, + ABCDataFrame, + ABCDatetimeIndex, + ABCIntervalIndex, + ABCMultiIndex, + ABCPeriodIndex, + ABCRangeIndex, + ABCSeries, + ABCTimedeltaIndex, +) +from pandas.core.dtypes.inference import is_dict_like +from pandas.core.dtypes.missing import ( + array_equivalent, + is_valid_na_for_dtype, + isna, +) + +from pandas.core import ( + arraylike, + nanops, + ops, +) +from pandas.core.accessor import CachedAccessor +import pandas.core.algorithms as algos +from pandas.core.array_algos.putmask import ( + setitem_datetimelike_compat, + validate_putmask, +) +from pandas.core.arrays import ( + ArrowExtensionArray, + BaseMaskedArray, + Categorical, + DatetimeArray, + ExtensionArray, + TimedeltaArray, +) +from pandas.core.arrays.string_ import ( + StringArray, + StringDtype, +) +from pandas.core.base import ( + IndexOpsMixin, + PandasObject, +) +import pandas.core.common as com +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, + sanitize_array, +) +from pandas.core.indexers import ( + disallow_ndim_indexing, + is_valid_positional_slice, +) +from pandas.core.indexes.frozen import FrozenList +from pandas.core.missing import clean_reindex_fill_method +from pandas.core.ops import get_op_result_name +from pandas.core.ops.invalid import make_invalid_op +from pandas.core.sorting import ( + ensure_key_mapped, + get_group_index_sorter, + nargsort, +) +from pandas.core.strings.accessor import StringMethods + +from pandas.io.formats.printing import ( + PrettyDict, + default_pprint, + format_object_summary, + pprint_thing, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterable, + Sequence, + ) + + from pandas import ( + CategoricalIndex, + DataFrame, + MultiIndex, + Series, + ) + from pandas.core.arrays import ( + IntervalArray, + PeriodArray, + ) + +__all__ = ["Index"] + +_unsortable_types = frozenset(("mixed", "mixed-integer")) + +_index_doc_kwargs: dict[str, str] = { + "klass": "Index", + "inplace": "", + "target_klass": "Index", + "raises_section": "", + "unique": "Index", + "duplicated": "np.ndarray", +} +_index_shared_docs: dict[str, str] = {} +str_t = str + +_dtype_obj = np.dtype("object") + +_masked_engines = { + "Complex128": libindex.MaskedComplex128Engine, + "Complex64": libindex.MaskedComplex64Engine, + "Float64": libindex.MaskedFloat64Engine, + "Float32": libindex.MaskedFloat32Engine, + "UInt64": libindex.MaskedUInt64Engine, + "UInt32": libindex.MaskedUInt32Engine, + "UInt16": libindex.MaskedUInt16Engine, + "UInt8": libindex.MaskedUInt8Engine, + "Int64": libindex.MaskedInt64Engine, + "Int32": libindex.MaskedInt32Engine, + "Int16": libindex.MaskedInt16Engine, + "Int8": libindex.MaskedInt8Engine, + "boolean": libindex.MaskedBoolEngine, + "double[pyarrow]": libindex.MaskedFloat64Engine, + "float64[pyarrow]": libindex.MaskedFloat64Engine, + "float32[pyarrow]": libindex.MaskedFloat32Engine, + "float[pyarrow]": libindex.MaskedFloat32Engine, + "uint64[pyarrow]": libindex.MaskedUInt64Engine, + "uint32[pyarrow]": libindex.MaskedUInt32Engine, + "uint16[pyarrow]": libindex.MaskedUInt16Engine, + "uint8[pyarrow]": libindex.MaskedUInt8Engine, + "int64[pyarrow]": libindex.MaskedInt64Engine, + "int32[pyarrow]": libindex.MaskedInt32Engine, + "int16[pyarrow]": libindex.MaskedInt16Engine, + "int8[pyarrow]": libindex.MaskedInt8Engine, + "bool[pyarrow]": libindex.MaskedBoolEngine, +} + + +def _maybe_return_indexers(meth: F) -> F: + """ + Decorator to simplify 'return_indexers' checks in Index.join. + """ + + @functools.wraps(meth) + def join( + self, + other: Index, + *, + how: JoinHow = "left", + level=None, + return_indexers: bool = False, + sort: bool = False, + ): + join_index, lidx, ridx = meth(self, other, how=how, level=level, sort=sort) + if not return_indexers: + return join_index + + if lidx is not None: + lidx = ensure_platform_int(lidx) + if ridx is not None: + ridx = ensure_platform_int(ridx) + return join_index, lidx, ridx + + return cast(F, join) + + +def _new_Index(cls, d): + """ + This is called upon unpickling, rather than the default which doesn't + have arguments and breaks __new__. + """ + # required for backward compat, because PI can't be instantiated with + # ordinals through __new__ GH #13277 + if issubclass(cls, ABCPeriodIndex): + from pandas.core.indexes.period import _new_PeriodIndex + + return _new_PeriodIndex(cls, **d) + + if issubclass(cls, ABCMultiIndex): + if "labels" in d and "codes" not in d: + # GH#23752 "labels" kwarg has been replaced with "codes" + d["codes"] = d.pop("labels") + + # Since this was a valid MultiIndex at pickle-time, we don't need to + # check validty at un-pickle time. + d["verify_integrity"] = False + + elif "dtype" not in d and "data" in d: + # Prevent Index.__new__ from conducting inference; + # "data" key not in RangeIndex + d["dtype"] = d["data"].dtype + return cls.__new__(cls, **d) + + +class Index(IndexOpsMixin, PandasObject): + """ + Immutable sequence used for indexing and alignment. + + The basic object storing axis labels for all pandas objects. + + .. versionchanged:: 2.0.0 + + Index can hold all numpy numeric dtypes (except float16). Previously only + int64/uint64/float64 dtypes were accepted. + + Parameters + ---------- + data : array-like (1-dimensional) + dtype : str, numpy.dtype, or ExtensionDtype, optional + Data type for the output Index. If not specified, this will be + inferred from `data`. + See the :ref:`user guide ` for more usages. + copy : bool, default False + Copy input data. + name : object + Name to be stored in the index. + tupleize_cols : bool (default: True) + When True, attempt to create a MultiIndex if possible. + + See Also + -------- + RangeIndex : Index implementing a monotonic integer range. + CategoricalIndex : Index of :class:`Categorical` s. + MultiIndex : A multi-level, or hierarchical Index. + IntervalIndex : An Index of :class:`Interval` s. + DatetimeIndex : Index of datetime64 data. + TimedeltaIndex : Index of timedelta64 data. + PeriodIndex : Index of Period data. + + Notes + ----- + An Index instance can **only** contain hashable objects. + An Index instance *can not* hold numpy float16 dtype. + + Examples + -------- + >>> pd.Index([1, 2, 3]) + Index([1, 2, 3], dtype='int64') + + >>> pd.Index(list('abc')) + Index(['a', 'b', 'c'], dtype='object') + + >>> pd.Index([1, 2, 3], dtype="uint8") + Index([1, 2, 3], dtype='uint8') + """ + + # similar to __array_priority__, positions Index after Series and DataFrame + # but before ExtensionArray. Should NOT be overridden by subclasses. + __pandas_priority__ = 2000 + + # Cython methods; see github.com/cython/cython/issues/2647 + # for why we need to wrap these instead of making them class attributes + # Moreover, cython will choose the appropriate-dtyped sub-function + # given the dtypes of the passed arguments + + @final + def _left_indexer_unique(self, other: Self) -> npt.NDArray[np.intp]: + # Caller is responsible for ensuring other.dtype == self.dtype + sv = self._get_join_target() + ov = other._get_join_target() + # similar but not identical to ov.searchsorted(sv) + return libjoin.left_join_indexer_unique(sv, ov) + + @final + def _left_indexer( + self, other: Self + ) -> tuple[ArrayLike, npt.NDArray[np.intp], npt.NDArray[np.intp]]: + # Caller is responsible for ensuring other.dtype == self.dtype + sv = self._get_join_target() + ov = other._get_join_target() + joined_ndarray, lidx, ridx = libjoin.left_join_indexer(sv, ov) + joined = self._from_join_target(joined_ndarray) + return joined, lidx, ridx + + @final + def _inner_indexer( + self, other: Self + ) -> tuple[ArrayLike, npt.NDArray[np.intp], npt.NDArray[np.intp]]: + # Caller is responsible for ensuring other.dtype == self.dtype + sv = self._get_join_target() + ov = other._get_join_target() + joined_ndarray, lidx, ridx = libjoin.inner_join_indexer(sv, ov) + joined = self._from_join_target(joined_ndarray) + return joined, lidx, ridx + + @final + def _outer_indexer( + self, other: Self + ) -> tuple[ArrayLike, npt.NDArray[np.intp], npt.NDArray[np.intp]]: + # Caller is responsible for ensuring other.dtype == self.dtype + sv = self._get_join_target() + ov = other._get_join_target() + joined_ndarray, lidx, ridx = libjoin.outer_join_indexer(sv, ov) + joined = self._from_join_target(joined_ndarray) + return joined, lidx, ridx + + _typ: str = "index" + _data: ExtensionArray | np.ndarray + _data_cls: type[ExtensionArray] | tuple[type[np.ndarray], type[ExtensionArray]] = ( + np.ndarray, + ExtensionArray, + ) + _id: object | None = None + _name: Hashable = None + # MultiIndex.levels previously allowed setting the index name. We + # don't allow this anymore, and raise if it happens rather than + # failing silently. + _no_setting_name: bool = False + _comparables: list[str] = ["name"] + _attributes: list[str] = ["name"] + + @cache_readonly + def _can_hold_strings(self) -> bool: + return not is_numeric_dtype(self.dtype) + + _engine_types: dict[np.dtype | ExtensionDtype, type[libindex.IndexEngine]] = { + np.dtype(np.int8): libindex.Int8Engine, + np.dtype(np.int16): libindex.Int16Engine, + np.dtype(np.int32): libindex.Int32Engine, + np.dtype(np.int64): libindex.Int64Engine, + np.dtype(np.uint8): libindex.UInt8Engine, + np.dtype(np.uint16): libindex.UInt16Engine, + np.dtype(np.uint32): libindex.UInt32Engine, + np.dtype(np.uint64): libindex.UInt64Engine, + np.dtype(np.float32): libindex.Float32Engine, + np.dtype(np.float64): libindex.Float64Engine, + np.dtype(np.complex64): libindex.Complex64Engine, + np.dtype(np.complex128): libindex.Complex128Engine, + } + + @property + def _engine_type( + self, + ) -> type[libindex.IndexEngine | libindex.ExtensionEngine]: + return self._engine_types.get(self.dtype, libindex.ObjectEngine) + + # whether we support partial string indexing. Overridden + # in DatetimeIndex and PeriodIndex + _supports_partial_string_indexing = False + + _accessors = {"str"} + + str = CachedAccessor("str", StringMethods) + + _references = None + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data=None, + dtype=None, + copy: bool = False, + name=None, + tupleize_cols: bool = True, + ) -> Self: + from pandas.core.indexes.range import RangeIndex + + name = maybe_extract_name(name, data, cls) + + if dtype is not None: + dtype = pandas_dtype(dtype) + + data_dtype = getattr(data, "dtype", None) + + refs = None + if not copy and isinstance(data, (ABCSeries, Index)): + refs = data._references + + is_pandas_object = isinstance(data, (ABCSeries, Index, ExtensionArray)) + + # range + if isinstance(data, (range, RangeIndex)): + result = RangeIndex(start=data, copy=copy, name=name) + if dtype is not None: + return result.astype(dtype, copy=False) + # error: Incompatible return value type (got "MultiIndex", + # expected "Self") + return result # type: ignore[return-value] + + elif is_ea_or_datetimelike_dtype(dtype): + # non-EA dtype indexes have special casting logic, so we punt here + if isinstance(data, (set, frozenset)): + data = list(data) + + elif is_ea_or_datetimelike_dtype(data_dtype): + pass + + elif isinstance(data, (np.ndarray, Index, ABCSeries)): + if isinstance(data, ABCMultiIndex): + data = data._values + + if data.dtype.kind not in "iufcbmM": + # GH#11836 we need to avoid having numpy coerce + # things that look like ints/floats to ints unless + # they are actually ints, e.g. '0' and 0.0 + # should not be coerced + data = com.asarray_tuplesafe(data, dtype=_dtype_obj) + + elif is_scalar(data): + raise cls._raise_scalar_data_error(data) + elif hasattr(data, "__array__"): + return cls(np.asarray(data), dtype=dtype, copy=copy, name=name) + elif not is_list_like(data) and not isinstance(data, memoryview): + # 2022-11-16 the memoryview check is only necessary on some CI + # builds, not clear why + raise cls._raise_scalar_data_error(data) + + else: + if tupleize_cols: + # GH21470: convert iterable to list before determining if empty + if is_iterator(data): + data = list(data) + + if data and all(isinstance(e, tuple) for e in data): + # we must be all tuples, otherwise don't construct + # 10697 + from pandas.core.indexes.multi import MultiIndex + + # error: Incompatible return value type (got "MultiIndex", + # expected "Self") + return MultiIndex.from_tuples( # type: ignore[return-value] + data, names=name + ) + # other iterable of some kind + + if not isinstance(data, (list, tuple)): + # we allow set/frozenset, which Series/sanitize_array does not, so + # cast to list here + data = list(data) + if len(data) == 0: + # unlike Series, we default to object dtype: + data = np.array(data, dtype=object) + + if len(data) and isinstance(data[0], tuple): + # Ensure we get 1-D array of tuples instead of 2D array. + data = com.asarray_tuplesafe(data, dtype=_dtype_obj) + + try: + arr = sanitize_array(data, None, dtype=dtype, copy=copy) + except ValueError as err: + if "index must be specified when data is not list-like" in str(err): + raise cls._raise_scalar_data_error(data) from err + if "Data must be 1-dimensional" in str(err): + raise ValueError("Index data must be 1-dimensional") from err + raise + arr = ensure_wrapped_if_datetimelike(arr) + + klass = cls._dtype_to_subclass(arr.dtype) + + arr = klass._ensure_array(arr, arr.dtype, copy=False) + result = klass._simple_new(arr, name, refs=refs) + if dtype is None and is_pandas_object and data_dtype == np.object_: + if result.dtype != data_dtype: + warnings.warn( + "Dtype inference on a pandas object " + "(Series, Index, ExtensionArray) is deprecated. The Index " + "constructor will keep the original dtype in the future. " + "Call `infer_objects` on the result to get the old " + "behavior.", + FutureWarning, + stacklevel=2, + ) + return result # type: ignore[return-value] + + @classmethod + def _ensure_array(cls, data, dtype, copy: bool): + """ + Ensure we have a valid array to pass to _simple_new. + """ + if data.ndim > 1: + # GH#13601, GH#20285, GH#27125 + raise ValueError("Index data must be 1-dimensional") + elif dtype == np.float16: + # float16 not supported (no indexing engine) + raise NotImplementedError("float16 indexes are not supported") + + if copy: + # asarray_tuplesafe does not always copy underlying data, + # so need to make sure that this happens + data = data.copy() + return data + + @final + @classmethod + def _dtype_to_subclass(cls, dtype: DtypeObj): + # Delay import for perf. https://github.com/pandas-dev/pandas/pull/31423 + + if isinstance(dtype, ExtensionDtype): + return dtype.index_class + + if dtype.kind == "M": + from pandas import DatetimeIndex + + return DatetimeIndex + + elif dtype.kind == "m": + from pandas import TimedeltaIndex + + return TimedeltaIndex + + elif dtype.kind == "O": + # NB: assuming away MultiIndex + return Index + + elif issubclass(dtype.type, str) or is_numeric_dtype(dtype): + return Index + + raise NotImplementedError(dtype) + + # NOTE for new Index creation: + + # - _simple_new: It returns new Index with the same type as the caller. + # All metadata (such as name) must be provided by caller's responsibility. + # Using _shallow_copy is recommended because it fills these metadata + # otherwise specified. + + # - _shallow_copy: It returns new Index with the same type (using + # _simple_new), but fills caller's metadata otherwise specified. Passed + # kwargs will overwrite corresponding metadata. + + # See each method's docstring. + + @classmethod + def _simple_new( + cls, values: ArrayLike, name: Hashable | None = None, refs=None + ) -> Self: + """ + We require that we have a dtype compat for the values. If we are passed + a non-dtype compat, then coerce using the constructor. + + Must be careful not to recurse. + """ + assert isinstance(values, cls._data_cls), type(values) + + result = object.__new__(cls) + result._data = values + result._name = name + result._cache = {} + result._reset_identity() + if refs is not None: + result._references = refs + else: + result._references = BlockValuesRefs() + result._references.add_index_reference(result) + + return result + + @classmethod + def _with_infer(cls, *args, **kwargs): + """ + Constructor that uses the 1.0.x behavior inferring numeric dtypes + for ndarray[object] inputs. + """ + result = cls(*args, **kwargs) + + if result.dtype == _dtype_obj and not result._is_multi: + # error: Argument 1 to "maybe_convert_objects" has incompatible type + # "Union[ExtensionArray, ndarray[Any, Any]]"; expected + # "ndarray[Any, Any]" + values = lib.maybe_convert_objects(result._values) # type: ignore[arg-type] + if values.dtype.kind in "iufb": + return Index(values, name=result.name) + + return result + + @cache_readonly + def _constructor(self) -> type[Self]: + return type(self) + + @final + def _maybe_check_unique(self) -> None: + """ + Check that an Index has no duplicates. + + This is typically only called via + `NDFrame.flags.allows_duplicate_labels.setter` when it's set to + True (duplicates aren't allowed). + + Raises + ------ + DuplicateLabelError + When the index is not unique. + """ + if not self.is_unique: + msg = """Index has duplicates.""" + duplicates = self._format_duplicate_message() + msg += f"\n{duplicates}" + + raise DuplicateLabelError(msg) + + @final + def _format_duplicate_message(self) -> DataFrame: + """ + Construct the DataFrame for a DuplicateLabelError. + + This returns a DataFrame indicating the labels and positions + of duplicates in an index. This should only be called when it's + already known that duplicates are present. + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'a']) + >>> idx._format_duplicate_message() + positions + label + a [0, 2] + """ + from pandas import Series + + duplicates = self[self.duplicated(keep="first")].unique() + assert len(duplicates) + + out = ( + Series(np.arange(len(self)), copy=False) + .groupby(self, observed=False) + .agg(list)[duplicates] + ) + if self._is_multi: + # test_format_duplicate_labels_message_multi + # error: "Type[Index]" has no attribute "from_tuples" [attr-defined] + out.index = type(self).from_tuples(out.index) # type: ignore[attr-defined] + + if self.nlevels == 1: + out = out.rename_axis("label") + return out.to_frame(name="positions") + + # -------------------------------------------------------------------- + # Index Internals Methods + + def _shallow_copy(self, values, name: Hashable = no_default) -> Self: + """ + Create a new Index with the same class as the caller, don't copy the + data, use the same object attributes with passed in attributes taking + precedence. + + *this is an internal non-public method* + + Parameters + ---------- + values : the values to create the new Index, optional + name : Label, defaults to self.name + """ + name = self._name if name is no_default else name + + return self._simple_new(values, name=name, refs=self._references) + + def _view(self) -> Self: + """ + fastpath to make a shallow copy, i.e. new object with same data. + """ + result = self._simple_new(self._values, name=self._name, refs=self._references) + + result._cache = self._cache + return result + + @final + def _rename(self, name: Hashable) -> Self: + """ + fastpath for rename if new name is already validated. + """ + result = self._view() + result._name = name + return result + + @final + def is_(self, other) -> bool: + """ + More flexible, faster check like ``is`` but that works through views. + + Note: this is *not* the same as ``Index.identical()``, which checks + that metadata is also the same. + + Parameters + ---------- + other : object + Other object to compare against. + + Returns + ------- + bool + True if both have same underlying data, False otherwise. + + See Also + -------- + Index.identical : Works like ``Index.is_`` but also checks metadata. + + Examples + -------- + >>> idx1 = pd.Index(['1', '2', '3']) + >>> idx1.is_(idx1.view()) + True + + >>> idx1.is_(idx1.copy()) + False + """ + if self is other: + return True + elif not hasattr(other, "_id"): + return False + elif self._id is None or other._id is None: + return False + else: + return self._id is other._id + + @final + def _reset_identity(self) -> None: + """ + Initializes or resets ``_id`` attribute with new object. + """ + self._id = object() + + @final + def _cleanup(self) -> None: + self._engine.clear_mapping() + + @cache_readonly + def _engine( + self, + ) -> libindex.IndexEngine | libindex.ExtensionEngine | libindex.MaskedIndexEngine: + # For base class (object dtype) we get ObjectEngine + target_values = self._get_engine_target() + + if isinstance(self._values, ArrowExtensionArray) and self.dtype.kind in "Mm": + import pyarrow as pa + + pa_type = self._values._pa_array.type + if pa.types.is_timestamp(pa_type): + target_values = self._values._to_datetimearray() + return libindex.DatetimeEngine(target_values._ndarray) + elif pa.types.is_duration(pa_type): + target_values = self._values._to_timedeltaarray() + return libindex.TimedeltaEngine(target_values._ndarray) + + if isinstance(target_values, ExtensionArray): + if isinstance(target_values, (BaseMaskedArray, ArrowExtensionArray)): + try: + return _masked_engines[target_values.dtype.name](target_values) + except KeyError: + # Not supported yet e.g. decimal + pass + elif self._engine_type is libindex.ObjectEngine: + return libindex.ExtensionEngine(target_values) + + target_values = cast(np.ndarray, target_values) + # to avoid a reference cycle, bind `target_values` to a local variable, so + # `self` is not passed into the lambda. + if target_values.dtype == bool: + return libindex.BoolEngine(target_values) + elif target_values.dtype == np.complex64: + return libindex.Complex64Engine(target_values) + elif target_values.dtype == np.complex128: + return libindex.Complex128Engine(target_values) + elif needs_i8_conversion(self.dtype): + # We need to keep M8/m8 dtype when initializing the Engine, + # but don't want to change _get_engine_target bc it is used + # elsewhere + # error: Item "ExtensionArray" of "Union[ExtensionArray, + # ndarray[Any, Any]]" has no attribute "_ndarray" [union-attr] + target_values = self._data._ndarray # type: ignore[union-attr] + elif is_string_dtype(self.dtype) and not is_object_dtype(self.dtype): + return libindex.StringObjectEngine(target_values, self.dtype.na_value) # type: ignore[union-attr] + + # error: Argument 1 to "ExtensionEngine" has incompatible type + # "ndarray[Any, Any]"; expected "ExtensionArray" + return self._engine_type(target_values) # type: ignore[arg-type] + + @final + @cache_readonly + def _dir_additions_for_owner(self) -> set[str_t]: + """ + Add the string-like labels to the owner dataframe/series dir output. + + If this is a MultiIndex, it's first level values are used. + """ + return { + c + for c in self.unique(level=0)[: get_option("display.max_dir_items")] + if isinstance(c, str) and c.isidentifier() + } + + # -------------------------------------------------------------------- + # Array-Like Methods + + # ndarray compat + def __len__(self) -> int: + """ + Return the length of the Index. + """ + return len(self._data) + + def __array__(self, dtype=None, copy=None) -> np.ndarray: + """ + The array interface, return my values. + """ + if copy is None: + # Note, that the if branch exists for NumPy 1.x support + return np.asarray(self._data, dtype=dtype) + + return np.array(self._data, dtype=dtype, copy=copy) + + def __array_ufunc__(self, ufunc: np.ufunc, method: str_t, *inputs, **kwargs): + if any(isinstance(other, (ABCSeries, ABCDataFrame)) for other in inputs): + return NotImplemented + + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + if "out" in kwargs: + # e.g. test_dti_isub_tdi + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + new_inputs = [x if x is not self else x._values for x in inputs] + result = getattr(ufunc, method)(*new_inputs, **kwargs) + if ufunc.nout == 2: + # i.e. np.divmod, np.modf, np.frexp + return tuple(self.__array_wrap__(x) for x in result) + elif method == "reduce": + result = lib.item_from_zerodim(result) + return result + + if result.dtype == np.float16: + result = result.astype(np.float32) + + return self.__array_wrap__(result) + + @final + def __array_wrap__(self, result, context=None, return_scalar=False): + """ + Gets called after a ufunc and other functions e.g. np.split. + """ + result = lib.item_from_zerodim(result) + if (not isinstance(result, Index) and is_bool_dtype(result.dtype)) or np.ndim( + result + ) > 1: + # exclude Index to avoid warning from is_bool_dtype deprecation; + # in the Index case it doesn't matter which path we go down. + # reached in plotting tests with e.g. np.nonzero(index) + return result + + return Index(result, name=self.name) + + @cache_readonly + def dtype(self) -> DtypeObj: + """ + Return the dtype object of the underlying data. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx + Index([1, 2, 3], dtype='int64') + >>> idx.dtype + dtype('int64') + """ + return self._data.dtype + + @final + def ravel(self, order: str_t = "C") -> Self: + """ + Return a view on self. + + Returns + ------- + Index + + See Also + -------- + numpy.ndarray.ravel : Return a flattened array. + + Examples + -------- + >>> s = pd.Series([1, 2, 3], index=['a', 'b', 'c']) + >>> s.index.ravel() + Index(['a', 'b', 'c'], dtype='object') + """ + return self[:] + + def view(self, cls=None): + # we need to see if we are subclassing an + # index type here + if cls is not None and not hasattr(cls, "_typ"): + dtype = cls + if isinstance(cls, str): + dtype = pandas_dtype(cls) + + if needs_i8_conversion(dtype): + idx_cls = self._dtype_to_subclass(dtype) + arr = self.array.view(dtype) + if isinstance(arr, ExtensionArray): + # here we exclude non-supported dt64/td64 dtypes + return idx_cls._simple_new( + arr, name=self.name, refs=self._references + ) + return arr + + result = self._data.view(cls) + else: + if cls is not None: + warnings.warn( + # GH#55709 + f"Passing a type in {type(self).__name__}.view is deprecated " + "and will raise in a future version. " + "Call view without any argument to retain the old behavior.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + result = self._view() + if isinstance(result, Index): + result._id = self._id + return result + + def astype(self, dtype, copy: bool = True): + """ + Create an Index with values cast to dtypes. + + The class of a new Index is determined by dtype. When conversion is + impossible, a TypeError exception is raised. + + Parameters + ---------- + dtype : numpy dtype or pandas type + Note that any signed integer `dtype` is treated as ``'int64'``, + and any unsigned integer `dtype` is treated as ``'uint64'``, + regardless of the size. + copy : bool, default True + By default, astype always returns a newly allocated object. + If copy is set to False and internal requirements on dtype are + satisfied, the original data is used to create a new Index + or the original Index is returned. + + Returns + ------- + Index + Index with values cast to specified dtype. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx + Index([1, 2, 3], dtype='int64') + >>> idx.astype('float') + Index([1.0, 2.0, 3.0], dtype='float64') + """ + if dtype is not None: + dtype = pandas_dtype(dtype) + + if self.dtype == dtype: + # Ensure that self.astype(self.dtype) is self + return self.copy() if copy else self + + values = self._data + if isinstance(values, ExtensionArray): + with rewrite_exception(type(values).__name__, type(self).__name__): + new_values = values.astype(dtype, copy=copy) + + elif isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + # Note: for RangeIndex and CategoricalDtype self vs self._values + # behaves differently here. + new_values = cls._from_sequence(self, dtype=dtype, copy=copy) + + else: + # GH#13149 specifically use astype_array instead of astype + new_values = astype_array(values, dtype=dtype, copy=copy) + + # pass copy=False because any copying will be done in the astype above + result = Index(new_values, name=self.name, dtype=new_values.dtype, copy=False) + if ( + not copy + and self._references is not None + and astype_is_view(self.dtype, dtype) + ): + result._references = self._references + result._references.add_index_reference(result) + return result + + _index_shared_docs[ + "take" + ] = """ + Return a new %(klass)s of the values selected by the indices. + + For internal compatibility with numpy arrays. + + Parameters + ---------- + indices : array-like + Indices to be taken. + axis : int, optional + The axis over which to select values, always 0. + allow_fill : bool, default True + fill_value : scalar, default None + If allow_fill=True and fill_value is not None, indices specified by + -1 are regarded as NA. If Index doesn't hold NA, raise ValueError. + + Returns + ------- + Index + An index formed of elements at the given indices. Will be the same + type as self, except for RangeIndex. + + See Also + -------- + numpy.ndarray.take: Return an array formed from the + elements of a at the given indices. + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.take([2, 2, 1, 2]) + Index(['c', 'c', 'b', 'c'], dtype='object') + """ + + @Appender(_index_shared_docs["take"] % _index_doc_kwargs) + def take( + self, + indices, + axis: Axis = 0, + allow_fill: bool = True, + fill_value=None, + **kwargs, + ) -> Self: + if kwargs: + nv.validate_take((), kwargs) + if is_scalar(indices): + raise TypeError("Expected indices to be array-like") + indices = ensure_platform_int(indices) + allow_fill = self._maybe_disallow_fill(allow_fill, fill_value, indices) + + # Note: we discard fill_value and use self._na_value, only relevant + # in the case where allow_fill is True and fill_value is not None + values = self._values + if isinstance(values, np.ndarray): + taken = algos.take( + values, indices, allow_fill=allow_fill, fill_value=self._na_value + ) + else: + # algos.take passes 'axis' keyword which not all EAs accept + taken = values.take( + indices, allow_fill=allow_fill, fill_value=self._na_value + ) + return self._constructor._simple_new(taken, name=self.name) + + @final + def _maybe_disallow_fill(self, allow_fill: bool, fill_value, indices) -> bool: + """ + We only use pandas-style take when allow_fill is True _and_ + fill_value is not None. + """ + if allow_fill and fill_value is not None: + # only fill if we are passing a non-None fill_value + if self._can_hold_na: + if (indices < -1).any(): + raise ValueError( + "When allow_fill=True and fill_value is not None, " + "all indices must be >= -1" + ) + else: + cls_name = type(self).__name__ + raise ValueError( + f"Unable to fill values because {cls_name} cannot contain NA" + ) + else: + allow_fill = False + return allow_fill + + _index_shared_docs[ + "repeat" + ] = """ + Repeat elements of a %(klass)s. + + Returns a new %(klass)s where each element of the current %(klass)s + is repeated consecutively a given number of times. + + Parameters + ---------- + repeats : int or array of ints + The number of repetitions for each element. This should be a + non-negative integer. Repeating 0 times will return an empty + %(klass)s. + axis : None + Must be ``None``. Has no effect but is accepted for compatibility + with numpy. + + Returns + ------- + %(klass)s + Newly created %(klass)s with repeated elements. + + See Also + -------- + Series.repeat : Equivalent function for Series. + numpy.repeat : Similar method for :class:`numpy.ndarray`. + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx + Index(['a', 'b', 'c'], dtype='object') + >>> idx.repeat(2) + Index(['a', 'a', 'b', 'b', 'c', 'c'], dtype='object') + >>> idx.repeat([1, 2, 3]) + Index(['a', 'b', 'b', 'c', 'c', 'c'], dtype='object') + """ + + @Appender(_index_shared_docs["repeat"] % _index_doc_kwargs) + def repeat(self, repeats, axis: None = None) -> Self: + repeats = ensure_platform_int(repeats) + nv.validate_repeat((), {"axis": axis}) + res_values = self._values.repeat(repeats) + + # _constructor so RangeIndex-> Index with an int64 dtype + return self._constructor._simple_new(res_values, name=self.name) + + # -------------------------------------------------------------------- + # Copying Methods + + def copy( + self, + name: Hashable | None = None, + deep: bool = False, + ) -> Self: + """ + Make a copy of this object. + + Name is set on the new object. + + Parameters + ---------- + name : Label, optional + Set name for new object. + deep : bool, default False + + Returns + ------- + Index + Index refer to new object which is a copy of this object. + + Notes + ----- + In most cases, there should be no functional difference from using + ``deep``, but if ``deep`` is passed it will attempt to deepcopy. + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> new_idx = idx.copy() + >>> idx is new_idx + False + """ + + name = self._validate_names(name=name, deep=deep)[0] + if deep: + new_data = self._data.copy() + new_index = type(self)._simple_new(new_data, name=name) + else: + new_index = self._rename(name=name) + return new_index + + @final + def __copy__(self, **kwargs) -> Self: + return self.copy(**kwargs) + + @final + def __deepcopy__(self, memo=None) -> Self: + """ + Parameters + ---------- + memo, default None + Standard signature. Unused + """ + return self.copy(deep=True) + + # -------------------------------------------------------------------- + # Rendering Methods + + @final + def __repr__(self) -> str_t: + """ + Return a string representation for this object. + """ + klass_name = type(self).__name__ + data = self._format_data() + attrs = self._format_attrs() + attrs_str = [f"{k}={v}" for k, v in attrs] + prepr = ", ".join(attrs_str) + + return f"{klass_name}({data}{prepr})" + + @property + def _formatter_func(self): + """ + Return the formatter function. + """ + return default_pprint + + @final + def _format_data(self, name=None) -> str_t: + """ + Return the formatted data as a unicode string. + """ + # do we want to justify (only do so for non-objects) + is_justify = True + + if self.inferred_type == "string": + is_justify = False + elif isinstance(self.dtype, CategoricalDtype): + self = cast("CategoricalIndex", self) + if is_object_dtype(self.categories.dtype): + is_justify = False + elif isinstance(self, ABCRangeIndex): + # We will do the relevant formatting via attrs + return "" + + return format_object_summary( + self, + self._formatter_func, + is_justify=is_justify, + name=name, + line_break_each_value=self._is_multi, + ) + + def _format_attrs(self) -> list[tuple[str_t, str_t | int | bool | None]]: + """ + Return a list of tuples of the (attr,formatted_value). + """ + attrs: list[tuple[str_t, str_t | int | bool | None]] = [] + + if not self._is_multi: + attrs.append(("dtype", f"'{self.dtype}'")) + + if self.name is not None: + attrs.append(("name", default_pprint(self.name))) + elif self._is_multi and any(x is not None for x in self.names): + attrs.append(("names", default_pprint(self.names))) + + max_seq_items = get_option("display.max_seq_items") or len(self) + if len(self) > max_seq_items: + attrs.append(("length", len(self))) + return attrs + + @final + def _get_level_names(self) -> Hashable | Sequence[Hashable]: + """ + Return a name or list of names with None replaced by the level number. + """ + if self._is_multi: + return [ + level if name is None else name for level, name in enumerate(self.names) + ] + else: + return 0 if self.name is None else self.name + + @final + def _mpl_repr(self) -> np.ndarray: + # how to represent ourselves to matplotlib + if isinstance(self.dtype, np.dtype) and self.dtype.kind != "M": + return cast(np.ndarray, self.values) + return self.astype(object, copy=False)._values + + def format( + self, + name: bool = False, + formatter: Callable | None = None, + na_rep: str_t = "NaN", + ) -> list[str_t]: + """ + Render a string representation of the Index. + """ + warnings.warn( + # GH#55413 + f"{type(self).__name__}.format is deprecated and will be removed " + "in a future version. Convert using index.astype(str) or " + "index.map(formatter) instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + header = [] + if name: + header.append( + pprint_thing(self.name, escape_chars=("\t", "\r", "\n")) + if self.name is not None + else "" + ) + + if formatter is not None: + return header + list(self.map(formatter)) + + return self._format_with_header(header=header, na_rep=na_rep) + + _default_na_rep = "NaN" + + @final + def _format_flat( + self, + *, + include_name: bool, + formatter: Callable | None = None, + ) -> list[str_t]: + """ + Render a string representation of the Index. + """ + header = [] + if include_name: + header.append( + pprint_thing(self.name, escape_chars=("\t", "\r", "\n")) + if self.name is not None + else "" + ) + + if formatter is not None: + return header + list(self.map(formatter)) + + return self._format_with_header(header=header, na_rep=self._default_na_rep) + + def _format_with_header(self, *, header: list[str_t], na_rep: str_t) -> list[str_t]: + from pandas.io.formats.format import format_array + + values = self._values + + if ( + is_object_dtype(values.dtype) + or is_string_dtype(values.dtype) + or isinstance(self.dtype, (IntervalDtype, CategoricalDtype)) + ): + # TODO: why do we need different justify for these cases? + justify = "all" + else: + justify = "left" + # passing leading_space=False breaks test_format_missing, + # test_index_repr_in_frame_with_nan, but would otherwise make + # trim_front unnecessary + formatted = format_array(values, None, justify=justify) + result = trim_front(formatted) + return header + result + + def _get_values_for_csv( + self, + *, + na_rep: str_t = "", + decimal: str_t = ".", + float_format=None, + date_format=None, + quoting=None, + ) -> npt.NDArray[np.object_]: + return get_values_for_csv( + self._values, + na_rep=na_rep, + decimal=decimal, + float_format=float_format, + date_format=date_format, + quoting=quoting, + ) + + def _summary(self, name=None) -> str_t: + """ + Return a summarized representation. + + Parameters + ---------- + name : str + name to use in the summary representation + + Returns + ------- + String with a summarized representation of the index + """ + if len(self) > 0: + head = self[0] + if hasattr(head, "format") and not isinstance(head, str): + head = head.format() + elif needs_i8_conversion(self.dtype): + # e.g. Timedelta, display as values, not quoted + head = self._formatter_func(head).replace("'", "") + tail = self[-1] + if hasattr(tail, "format") and not isinstance(tail, str): + tail = tail.format() + elif needs_i8_conversion(self.dtype): + # e.g. Timedelta, display as values, not quoted + tail = self._formatter_func(tail).replace("'", "") + + index_summary = f", {head} to {tail}" + else: + index_summary = "" + + if name is None: + name = type(self).__name__ + return f"{name}: {len(self)} entries{index_summary}" + + # -------------------------------------------------------------------- + # Conversion Methods + + def to_flat_index(self) -> Self: + """ + Identity method. + + This is implemented for compatibility with subclass implementations + when chaining. + + Returns + ------- + pd.Index + Caller. + + See Also + -------- + MultiIndex.to_flat_index : Subclass implementation. + """ + return self + + @final + def to_series(self, index=None, name: Hashable | None = None) -> Series: + """ + Create a Series with both index and values equal to the index keys. + + Useful with map for returning an indexer based on an index. + + Parameters + ---------- + index : Index, optional + Index of resulting Series. If None, defaults to original index. + name : str, optional + Name of resulting Series. If None, defaults to name of original + index. + + Returns + ------- + Series + The dtype will be based on the type of the Index values. + + See Also + -------- + Index.to_frame : Convert an Index to a DataFrame. + Series.to_frame : Convert Series to DataFrame. + + Examples + -------- + >>> idx = pd.Index(['Ant', 'Bear', 'Cow'], name='animal') + + By default, the original index and original name is reused. + + >>> idx.to_series() + animal + Ant Ant + Bear Bear + Cow Cow + Name: animal, dtype: object + + To enforce a new index, specify new labels to ``index``: + + >>> idx.to_series(index=[0, 1, 2]) + 0 Ant + 1 Bear + 2 Cow + Name: animal, dtype: object + + To override the name of the resulting column, specify ``name``: + + >>> idx.to_series(name='zoo') + animal + Ant Ant + Bear Bear + Cow Cow + Name: zoo, dtype: object + """ + from pandas import Series + + if index is None: + index = self._view() + if name is None: + name = self.name + + return Series(self._values.copy(), index=index, name=name) + + def to_frame( + self, index: bool = True, name: Hashable = lib.no_default + ) -> DataFrame: + """ + Create a DataFrame with a column containing the Index. + + Parameters + ---------- + index : bool, default True + Set the index of the returned DataFrame as the original Index. + + name : object, defaults to index.name + The passed name should substitute for the index name (if it has + one). + + Returns + ------- + DataFrame + DataFrame containing the original Index data. + + See Also + -------- + Index.to_series : Convert an Index to a Series. + Series.to_frame : Convert Series to DataFrame. + + Examples + -------- + >>> idx = pd.Index(['Ant', 'Bear', 'Cow'], name='animal') + >>> idx.to_frame() + animal + animal + Ant Ant + Bear Bear + Cow Cow + + By default, the original Index is reused. To enforce a new Index: + + >>> idx.to_frame(index=False) + animal + 0 Ant + 1 Bear + 2 Cow + + To override the name of the resulting column, specify `name`: + + >>> idx.to_frame(index=False, name='zoo') + zoo + 0 Ant + 1 Bear + 2 Cow + """ + from pandas import DataFrame + + if name is lib.no_default: + name = self._get_level_names() + result = DataFrame({name: self}, copy=not using_copy_on_write()) + + if index: + result.index = self + return result + + # -------------------------------------------------------------------- + # Name-Centric Methods + + @property + def name(self) -> Hashable: + """ + Return Index or MultiIndex name. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3], name='x') + >>> idx + Index([1, 2, 3], dtype='int64', name='x') + >>> idx.name + 'x' + """ + return self._name + + @name.setter + def name(self, value: Hashable) -> None: + if self._no_setting_name: + # Used in MultiIndex.levels to avoid silently ignoring name updates. + raise RuntimeError( + "Cannot set name on a level of a MultiIndex. Use " + "'MultiIndex.set_names' instead." + ) + maybe_extract_name(value, None, type(self)) + self._name = value + + @final + def _validate_names( + self, name=None, names=None, deep: bool = False + ) -> list[Hashable]: + """ + Handles the quirks of having a singular 'name' parameter for general + Index and plural 'names' parameter for MultiIndex. + """ + from copy import deepcopy + + if names is not None and name is not None: + raise TypeError("Can only provide one of `names` and `name`") + if names is None and name is None: + new_names = deepcopy(self.names) if deep else self.names + elif names is not None: + if not is_list_like(names): + raise TypeError("Must pass list-like as `names`.") + new_names = names + elif not is_list_like(name): + new_names = [name] + else: + new_names = name + + if len(new_names) != len(self.names): + raise ValueError( + f"Length of new names must be {len(self.names)}, got {len(new_names)}" + ) + + # All items in 'new_names' need to be hashable + validate_all_hashable(*new_names, error_name=f"{type(self).__name__}.name") + + return new_names + + def _get_default_index_names( + self, names: Hashable | Sequence[Hashable] | None = None, default=None + ) -> list[Hashable]: + """ + Get names of index. + + Parameters + ---------- + names : int, str or 1-dimensional list, default None + Index names to set. + default : str + Default name of index. + + Raises + ------ + TypeError + if names not str or list-like + """ + from pandas.core.indexes.multi import MultiIndex + + if names is not None: + if isinstance(names, (int, str)): + names = [names] + + if not isinstance(names, list) and names is not None: + raise ValueError("Index names must be str or 1-dimensional list") + + if not names: + if isinstance(self, MultiIndex): + names = com.fill_missing_names(self.names) + else: + names = [default] if self.name is None else [self.name] + + return names + + def _get_names(self) -> FrozenList: + return FrozenList((self.name,)) + + def _set_names(self, values, *, level=None) -> None: + """ + Set new names on index. Each name has to be a hashable type. + + Parameters + ---------- + values : str or sequence + name(s) to set + level : int, level name, or sequence of int/level names (default None) + If the index is a MultiIndex (hierarchical), level(s) to set (None + for all levels). Otherwise level must be None + + Raises + ------ + TypeError if each name is not hashable. + """ + if not is_list_like(values): + raise ValueError("Names must be a list-like") + if len(values) != 1: + raise ValueError(f"Length of new names must be 1, got {len(values)}") + + # GH 20527 + # All items in 'name' need to be hashable: + validate_all_hashable(*values, error_name=f"{type(self).__name__}.name") + + self._name = values[0] + + names = property(fset=_set_names, fget=_get_names) + + @overload + def set_names(self, names, *, level=..., inplace: Literal[False] = ...) -> Self: + ... + + @overload + def set_names(self, names, *, level=..., inplace: Literal[True]) -> None: + ... + + @overload + def set_names(self, names, *, level=..., inplace: bool = ...) -> Self | None: + ... + + def set_names(self, names, *, level=None, inplace: bool = False) -> Self | None: + """ + Set Index or MultiIndex name. + + Able to set new names partially and by level. + + Parameters + ---------- + + names : label or list of label or dict-like for MultiIndex + Name(s) to set. + + .. versionchanged:: 1.3.0 + + level : int, label or list of int or label, optional + If the index is a MultiIndex and names is not dict-like, level(s) to set + (None for all levels). Otherwise level must be None. + + .. versionchanged:: 1.3.0 + + inplace : bool, default False + Modifies the object directly, instead of creating a new Index or + MultiIndex. + + Returns + ------- + Index or None + The same type as the caller or None if ``inplace=True``. + + See Also + -------- + Index.rename : Able to set new names without level. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3, 4]) + >>> idx + Index([1, 2, 3, 4], dtype='int64') + >>> idx.set_names('quarter') + Index([1, 2, 3, 4], dtype='int64', name='quarter') + + >>> idx = pd.MultiIndex.from_product([['python', 'cobra'], + ... [2018, 2019]]) + >>> idx + MultiIndex([('python', 2018), + ('python', 2019), + ( 'cobra', 2018), + ( 'cobra', 2019)], + ) + >>> idx = idx.set_names(['kind', 'year']) + >>> idx.set_names('species', level=0) + MultiIndex([('python', 2018), + ('python', 2019), + ( 'cobra', 2018), + ( 'cobra', 2019)], + names=['species', 'year']) + + When renaming levels with a dict, levels can not be passed. + + >>> idx.set_names({'kind': 'snake'}) + MultiIndex([('python', 2018), + ('python', 2019), + ( 'cobra', 2018), + ( 'cobra', 2019)], + names=['snake', 'year']) + """ + if level is not None and not isinstance(self, ABCMultiIndex): + raise ValueError("Level must be None for non-MultiIndex") + + if level is not None and not is_list_like(level) and is_list_like(names): + raise TypeError("Names must be a string when a single level is provided.") + + if not is_list_like(names) and level is None and self.nlevels > 1: + raise TypeError("Must pass list-like as `names`.") + + if is_dict_like(names) and not isinstance(self, ABCMultiIndex): + raise TypeError("Can only pass dict-like as `names` for MultiIndex.") + + if is_dict_like(names) and level is not None: + raise TypeError("Can not pass level for dictlike `names`.") + + if isinstance(self, ABCMultiIndex) and is_dict_like(names) and level is None: + # Transform dict to list of new names and corresponding levels + level, names_adjusted = [], [] + for i, name in enumerate(self.names): + if name in names.keys(): + level.append(i) + names_adjusted.append(names[name]) + names = names_adjusted + + if not is_list_like(names): + names = [names] + if level is not None and not is_list_like(level): + level = [level] + + if inplace: + idx = self + else: + idx = self._view() + + idx._set_names(names, level=level) + if not inplace: + return idx + return None + + @overload + def rename(self, name, *, inplace: Literal[False] = ...) -> Self: + ... + + @overload + def rename(self, name, *, inplace: Literal[True]) -> None: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self", "name"], name="rename" + ) + def rename(self, name, inplace: bool = False) -> Self | None: + """ + Alter Index or MultiIndex name. + + Able to set new names without level. Defaults to returning new index. + Length of names must match number of levels in MultiIndex. + + Parameters + ---------- + name : label or list of labels + Name(s) to set. + inplace : bool, default False + Modifies the object directly, instead of creating a new Index or + MultiIndex. + + Returns + ------- + Index or None + The same type as the caller or None if ``inplace=True``. + + See Also + -------- + Index.set_names : Able to set new names partially and by level. + + Examples + -------- + >>> idx = pd.Index(['A', 'C', 'A', 'B'], name='score') + >>> idx.rename('grade') + Index(['A', 'C', 'A', 'B'], dtype='object', name='grade') + + >>> idx = pd.MultiIndex.from_product([['python', 'cobra'], + ... [2018, 2019]], + ... names=['kind', 'year']) + >>> idx + MultiIndex([('python', 2018), + ('python', 2019), + ( 'cobra', 2018), + ( 'cobra', 2019)], + names=['kind', 'year']) + >>> idx.rename(['species', 'year']) + MultiIndex([('python', 2018), + ('python', 2019), + ( 'cobra', 2018), + ( 'cobra', 2019)], + names=['species', 'year']) + >>> idx.rename('species') + Traceback (most recent call last): + TypeError: Must pass list-like as `names`. + """ + return self.set_names([name], inplace=inplace) + + # -------------------------------------------------------------------- + # Level-Centric Methods + + @property + def nlevels(self) -> int: + """ + Number of levels. + """ + return 1 + + def _sort_levels_monotonic(self) -> Self: + """ + Compat with MultiIndex. + """ + return self + + @final + def _validate_index_level(self, level) -> None: + """ + Validate index level. + + For single-level Index getting level number is a no-op, but some + verification must be done like in MultiIndex. + + """ + if isinstance(level, int): + if level < 0 and level != -1: + raise IndexError( + "Too many levels: Index has only 1 level, " + f"{level} is not a valid level number" + ) + if level > 0: + raise IndexError( + f"Too many levels: Index has only 1 level, not {level + 1}" + ) + elif level != self.name: + raise KeyError( + f"Requested level ({level}) does not match index name ({self.name})" + ) + + def _get_level_number(self, level) -> int: + self._validate_index_level(level) + return 0 + + def sortlevel( + self, + level=None, + ascending: bool | list[bool] = True, + sort_remaining=None, + na_position: NaPosition = "first", + ): + """ + For internal compatibility with the Index API. + + Sort the Index. This is for compat with MultiIndex + + Parameters + ---------- + ascending : bool, default True + False to sort in descending order + na_position : {'first' or 'last'}, default 'first' + Argument 'first' puts NaNs at the beginning, 'last' puts NaNs at + the end. + + .. versionadded:: 2.1.0 + + level, sort_remaining are compat parameters + + Returns + ------- + Index + """ + if not isinstance(ascending, (list, bool)): + raise TypeError( + "ascending must be a single bool value or" + "a list of bool values of length 1" + ) + + if isinstance(ascending, list): + if len(ascending) != 1: + raise TypeError("ascending must be a list of bool values of length 1") + ascending = ascending[0] + + if not isinstance(ascending, bool): + raise TypeError("ascending must be a bool value") + + return self.sort_values( + return_indexer=True, ascending=ascending, na_position=na_position + ) + + def _get_level_values(self, level) -> Index: + """ + Return an Index of values for requested level. + + This is primarily useful to get an individual level of values from a + MultiIndex, but is provided on Index as well for compatibility. + + Parameters + ---------- + level : int or str + It is either the integer position or the name of the level. + + Returns + ------- + Index + Calling object, as there is only one level in the Index. + + See Also + -------- + MultiIndex.get_level_values : Get values for a level of a MultiIndex. + + Notes + ----- + For Index, level should be 0, since there are no multiple levels. + + Examples + -------- + >>> idx = pd.Index(list('abc')) + >>> idx + Index(['a', 'b', 'c'], dtype='object') + + Get level values by supplying `level` as integer: + + >>> idx.get_level_values(0) + Index(['a', 'b', 'c'], dtype='object') + """ + self._validate_index_level(level) + return self + + get_level_values = _get_level_values + + @final + def droplevel(self, level: IndexLabel = 0): + """ + Return index with requested level(s) removed. + + If resulting index has only 1 level left, the result will be + of Index type, not MultiIndex. The original index is not modified inplace. + + Parameters + ---------- + level : int, str, or list-like, default 0 + If a string is given, must be the name of a level + If list-like, elements must be names or indexes of levels. + + Returns + ------- + Index or MultiIndex + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays( + ... [[1, 2], [3, 4], [5, 6]], names=['x', 'y', 'z']) + >>> mi + MultiIndex([(1, 3, 5), + (2, 4, 6)], + names=['x', 'y', 'z']) + + >>> mi.droplevel() + MultiIndex([(3, 5), + (4, 6)], + names=['y', 'z']) + + >>> mi.droplevel(2) + MultiIndex([(1, 3), + (2, 4)], + names=['x', 'y']) + + >>> mi.droplevel('z') + MultiIndex([(1, 3), + (2, 4)], + names=['x', 'y']) + + >>> mi.droplevel(['x', 'y']) + Index([5, 6], dtype='int64', name='z') + """ + if not isinstance(level, (tuple, list)): + level = [level] + + levnums = sorted(self._get_level_number(lev) for lev in level)[::-1] + + return self._drop_level_numbers(levnums) + + @final + def _drop_level_numbers(self, levnums: list[int]): + """ + Drop MultiIndex levels by level _number_, not name. + """ + + if not levnums and not isinstance(self, ABCMultiIndex): + return self + if len(levnums) >= self.nlevels: + raise ValueError( + f"Cannot remove {len(levnums)} levels from an index with " + f"{self.nlevels} levels: at least one level must be left." + ) + # The two checks above guarantee that here self is a MultiIndex + self = cast("MultiIndex", self) + + new_levels = list(self.levels) + new_codes = list(self.codes) + new_names = list(self.names) + + for i in levnums: + new_levels.pop(i) + new_codes.pop(i) + new_names.pop(i) + + if len(new_levels) == 1: + lev = new_levels[0] + + if len(lev) == 0: + # If lev is empty, lev.take will fail GH#42055 + if len(new_codes[0]) == 0: + # GH#45230 preserve RangeIndex here + # see test_reset_index_empty_rangeindex + result = lev[:0] + else: + res_values = algos.take(lev._values, new_codes[0], allow_fill=True) + # _constructor instead of type(lev) for RangeIndex compat GH#35230 + result = lev._constructor._simple_new(res_values, name=new_names[0]) + else: + # set nan if needed + mask = new_codes[0] == -1 + result = new_levels[0].take(new_codes[0]) + if mask.any(): + result = result.putmask(mask, np.nan) + + result._name = new_names[0] + + return result + else: + from pandas.core.indexes.multi import MultiIndex + + return MultiIndex( + levels=new_levels, + codes=new_codes, + names=new_names, + verify_integrity=False, + ) + + # -------------------------------------------------------------------- + # Introspection Methods + + @cache_readonly + @final + def _can_hold_na(self) -> bool: + if isinstance(self.dtype, ExtensionDtype): + return self.dtype._can_hold_na + if self.dtype.kind in "iub": + return False + return True + + @property + def is_monotonic_increasing(self) -> bool: + """ + Return a boolean if the values are equal or increasing. + + Returns + ------- + bool + + See Also + -------- + Index.is_monotonic_decreasing : Check if the values are equal or decreasing. + + Examples + -------- + >>> pd.Index([1, 2, 3]).is_monotonic_increasing + True + >>> pd.Index([1, 2, 2]).is_monotonic_increasing + True + >>> pd.Index([1, 3, 2]).is_monotonic_increasing + False + """ + return self._engine.is_monotonic_increasing + + @property + def is_monotonic_decreasing(self) -> bool: + """ + Return a boolean if the values are equal or decreasing. + + Returns + ------- + bool + + See Also + -------- + Index.is_monotonic_increasing : Check if the values are equal or increasing. + + Examples + -------- + >>> pd.Index([3, 2, 1]).is_monotonic_decreasing + True + >>> pd.Index([3, 2, 2]).is_monotonic_decreasing + True + >>> pd.Index([3, 1, 2]).is_monotonic_decreasing + False + """ + return self._engine.is_monotonic_decreasing + + @final + @property + def _is_strictly_monotonic_increasing(self) -> bool: + """ + Return if the index is strictly monotonic increasing + (only increasing) values. + + Examples + -------- + >>> Index([1, 2, 3])._is_strictly_monotonic_increasing + True + >>> Index([1, 2, 2])._is_strictly_monotonic_increasing + False + >>> Index([1, 3, 2])._is_strictly_monotonic_increasing + False + """ + return self.is_unique and self.is_monotonic_increasing + + @final + @property + def _is_strictly_monotonic_decreasing(self) -> bool: + """ + Return if the index is strictly monotonic decreasing + (only decreasing) values. + + Examples + -------- + >>> Index([3, 2, 1])._is_strictly_monotonic_decreasing + True + >>> Index([3, 2, 2])._is_strictly_monotonic_decreasing + False + >>> Index([3, 1, 2])._is_strictly_monotonic_decreasing + False + """ + return self.is_unique and self.is_monotonic_decreasing + + @cache_readonly + def is_unique(self) -> bool: + """ + Return if the index has unique values. + + Returns + ------- + bool + + See Also + -------- + Index.has_duplicates : Inverse method that checks if it has duplicate values. + + Examples + -------- + >>> idx = pd.Index([1, 5, 7, 7]) + >>> idx.is_unique + False + + >>> idx = pd.Index([1, 5, 7]) + >>> idx.is_unique + True + + >>> idx = pd.Index(["Watermelon", "Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.is_unique + False + + >>> idx = pd.Index(["Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.is_unique + True + """ + return self._engine.is_unique + + @final + @property + def has_duplicates(self) -> bool: + """ + Check if the Index has duplicate values. + + Returns + ------- + bool + Whether or not the Index has duplicate values. + + See Also + -------- + Index.is_unique : Inverse method that checks if it has unique values. + + Examples + -------- + >>> idx = pd.Index([1, 5, 7, 7]) + >>> idx.has_duplicates + True + + >>> idx = pd.Index([1, 5, 7]) + >>> idx.has_duplicates + False + + >>> idx = pd.Index(["Watermelon", "Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.has_duplicates + True + + >>> idx = pd.Index(["Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.has_duplicates + False + """ + return not self.is_unique + + @final + def is_boolean(self) -> bool: + """ + Check if the Index only consists of booleans. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.is_bool_dtype` instead. + + Returns + ------- + bool + Whether or not the Index only consists of booleans. + + See Also + -------- + is_integer : Check if the Index only consists of integers (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_object : Check if the Index is of the object dtype (deprecated). + is_categorical : Check if the Index holds categorical data. + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index([True, False, True]) + >>> idx.is_boolean() # doctest: +SKIP + True + + >>> idx = pd.Index(["True", "False", "True"]) + >>> idx.is_boolean() # doctest: +SKIP + False + + >>> idx = pd.Index([True, False, "True"]) + >>> idx.is_boolean() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_boolean is deprecated. " + "Use pandas.api.types.is_bool_type instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.inferred_type in ["boolean"] + + @final + def is_integer(self) -> bool: + """ + Check if the Index only consists of integers. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.is_integer_dtype` instead. + + Returns + ------- + bool + Whether or not the Index only consists of integers. + + See Also + -------- + is_boolean : Check if the Index only consists of booleans (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_object : Check if the Index is of the object dtype. (deprecated). + is_categorical : Check if the Index holds categorical data (deprecated). + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index([1, 2, 3, 4]) + >>> idx.is_integer() # doctest: +SKIP + True + + >>> idx = pd.Index([1.0, 2.0, 3.0, 4.0]) + >>> idx.is_integer() # doctest: +SKIP + False + + >>> idx = pd.Index(["Apple", "Mango", "Watermelon"]) + >>> idx.is_integer() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_integer is deprecated. " + "Use pandas.api.types.is_integer_dtype instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.inferred_type in ["integer"] + + @final + def is_floating(self) -> bool: + """ + Check if the Index is a floating type. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.is_float_dtype` instead + + The Index may consist of only floats, NaNs, or a mix of floats, + integers, or NaNs. + + Returns + ------- + bool + Whether or not the Index only consists of only consists of floats, NaNs, or + a mix of floats, integers, or NaNs. + + See Also + -------- + is_boolean : Check if the Index only consists of booleans (deprecated). + is_integer : Check if the Index only consists of integers (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_object : Check if the Index is of the object dtype. (deprecated). + is_categorical : Check if the Index holds categorical data (deprecated). + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index([1.0, 2.0, 3.0, 4.0]) + >>> idx.is_floating() # doctest: +SKIP + True + + >>> idx = pd.Index([1.0, 2.0, np.nan, 4.0]) + >>> idx.is_floating() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4, np.nan]) + >>> idx.is_floating() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4]) + >>> idx.is_floating() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_floating is deprecated. " + "Use pandas.api.types.is_float_dtype instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.inferred_type in ["floating", "mixed-integer-float", "integer-na"] + + @final + def is_numeric(self) -> bool: + """ + Check if the Index only consists of numeric data. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.is_numeric_dtype` instead. + + Returns + ------- + bool + Whether or not the Index only consists of numeric data. + + See Also + -------- + is_boolean : Check if the Index only consists of booleans (deprecated). + is_integer : Check if the Index only consists of integers (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_object : Check if the Index is of the object dtype. (deprecated). + is_categorical : Check if the Index holds categorical data (deprecated). + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index([1.0, 2.0, 3.0, 4.0]) + >>> idx.is_numeric() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4.0]) + >>> idx.is_numeric() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4]) + >>> idx.is_numeric() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4.0, np.nan]) + >>> idx.is_numeric() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 2, 3, 4.0, np.nan, "Apple"]) + >>> idx.is_numeric() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_numeric is deprecated. " + "Use pandas.api.types.is_any_real_numeric_dtype instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.inferred_type in ["integer", "floating"] + + @final + def is_object(self) -> bool: + """ + Check if the Index is of the object dtype. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.is_object_dtype` instead. + + Returns + ------- + bool + Whether or not the Index is of the object dtype. + + See Also + -------- + is_boolean : Check if the Index only consists of booleans (deprecated). + is_integer : Check if the Index only consists of integers (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_categorical : Check if the Index holds categorical data (deprecated). + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index(["Apple", "Mango", "Watermelon"]) + >>> idx.is_object() # doctest: +SKIP + True + + >>> idx = pd.Index(["Apple", "Mango", 2.0]) + >>> idx.is_object() # doctest: +SKIP + True + + >>> idx = pd.Index(["Watermelon", "Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.is_object() # doctest: +SKIP + False + + >>> idx = pd.Index([1.0, 2.0, 3.0, 4.0]) + >>> idx.is_object() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_object is deprecated." + "Use pandas.api.types.is_object_dtype instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return is_object_dtype(self.dtype) + + @final + def is_categorical(self) -> bool: + """ + Check if the Index holds categorical data. + + .. deprecated:: 2.0.0 + Use `isinstance(index.dtype, pd.CategoricalDtype)` instead. + + Returns + ------- + bool + True if the Index is categorical. + + See Also + -------- + CategoricalIndex : Index for categorical data. + is_boolean : Check if the Index only consists of booleans (deprecated). + is_integer : Check if the Index only consists of integers (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_object : Check if the Index is of the object dtype. (deprecated). + is_interval : Check if the Index holds Interval objects (deprecated). + + Examples + -------- + >>> idx = pd.Index(["Watermelon", "Orange", "Apple", + ... "Watermelon"]).astype("category") + >>> idx.is_categorical() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 3, 5, 7]) + >>> idx.is_categorical() # doctest: +SKIP + False + + >>> s = pd.Series(["Peter", "Victor", "Elisabeth", "Mar"]) + >>> s + 0 Peter + 1 Victor + 2 Elisabeth + 3 Mar + dtype: object + >>> s.index.is_categorical() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_categorical is deprecated." + "Use pandas.api.types.is_categorical_dtype instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + return self.inferred_type in ["categorical"] + + @final + def is_interval(self) -> bool: + """ + Check if the Index holds Interval objects. + + .. deprecated:: 2.0.0 + Use `isinstance(index.dtype, pd.IntervalDtype)` instead. + + Returns + ------- + bool + Whether or not the Index holds Interval objects. + + See Also + -------- + IntervalIndex : Index for Interval objects. + is_boolean : Check if the Index only consists of booleans (deprecated). + is_integer : Check if the Index only consists of integers (deprecated). + is_floating : Check if the Index is a floating type (deprecated). + is_numeric : Check if the Index only consists of numeric data (deprecated). + is_object : Check if the Index is of the object dtype. (deprecated). + is_categorical : Check if the Index holds categorical data (deprecated). + + Examples + -------- + >>> idx = pd.Index([pd.Interval(left=0, right=5), + ... pd.Interval(left=5, right=10)]) + >>> idx.is_interval() # doctest: +SKIP + True + + >>> idx = pd.Index([1, 3, 5, 7]) + >>> idx.is_interval() # doctest: +SKIP + False + """ + warnings.warn( + f"{type(self).__name__}.is_interval is deprecated." + "Use pandas.api.types.is_interval_dtype instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.inferred_type in ["interval"] + + @final + def _holds_integer(self) -> bool: + """ + Whether the type is an integer type. + """ + return self.inferred_type in ["integer", "mixed-integer"] + + @final + def holds_integer(self) -> bool: + """ + Whether the type is an integer type. + + .. deprecated:: 2.0.0 + Use `pandas.api.types.infer_dtype` instead + """ + warnings.warn( + f"{type(self).__name__}.holds_integer is deprecated. " + "Use pandas.api.types.infer_dtype instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._holds_integer() + + @cache_readonly + def inferred_type(self) -> str_t: + """ + Return a string of the type inferred from the values. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx + Index([1, 2, 3], dtype='int64') + >>> idx.inferred_type + 'integer' + """ + return lib.infer_dtype(self._values, skipna=False) + + @cache_readonly + @final + def _is_all_dates(self) -> bool: + """ + Whether or not the index values only consist of dates. + """ + if needs_i8_conversion(self.dtype): + return True + elif self.dtype != _dtype_obj: + # TODO(ExtensionIndex): 3rd party EA might override? + # Note: this includes IntervalIndex, even when the left/right + # contain datetime-like objects. + return False + elif self._is_multi: + return False + return is_datetime_array(ensure_object(self._values)) + + @final + @cache_readonly + def _is_multi(self) -> bool: + """ + Cached check equivalent to isinstance(self, MultiIndex) + """ + return isinstance(self, ABCMultiIndex) + + # -------------------------------------------------------------------- + # Pickle Methods + + def __reduce__(self): + d = {"data": self._data, "name": self.name} + return _new_Index, (type(self), d), None + + # -------------------------------------------------------------------- + # Null Handling Methods + + @cache_readonly + def _na_value(self): + """The expected NA value to use with this index.""" + dtype = self.dtype + if isinstance(dtype, np.dtype): + if dtype.kind in "mM": + return NaT + return np.nan + return dtype.na_value + + @cache_readonly + def _isnan(self) -> npt.NDArray[np.bool_]: + """ + Return if each value is NaN. + """ + if self._can_hold_na: + return isna(self) + else: + # shouldn't reach to this condition by checking hasnans beforehand + values = np.empty(len(self), dtype=np.bool_) + values.fill(False) + return values + + @cache_readonly + def hasnans(self) -> bool: + """ + Return True if there are any NaNs. + + Enables various performance speedups. + + Returns + ------- + bool + + Examples + -------- + >>> s = pd.Series([1, 2, 3], index=['a', 'b', None]) + >>> s + a 1 + b 2 + None 3 + dtype: int64 + >>> s.index.hasnans + True + """ + if self._can_hold_na: + return bool(self._isnan.any()) + else: + return False + + @final + def isna(self) -> npt.NDArray[np.bool_]: + """ + Detect missing values. + + Return a boolean same-sized object indicating if the values are NA. + NA values, such as ``None``, :attr:`numpy.NaN` or :attr:`pd.NaT`, get + mapped to ``True`` values. + Everything else get mapped to ``False`` values. Characters such as + empty strings `''` or :attr:`numpy.inf` are not considered NA values. + + Returns + ------- + numpy.ndarray[bool] + A boolean array of whether my values are NA. + + See Also + -------- + Index.notna : Boolean inverse of isna. + Index.dropna : Omit entries with missing values. + isna : Top-level isna. + Series.isna : Detect missing values in Series object. + + Examples + -------- + Show which entries in a pandas.Index are NA. The result is an + array. + + >>> idx = pd.Index([5.2, 6.0, np.nan]) + >>> idx + Index([5.2, 6.0, nan], dtype='float64') + >>> idx.isna() + array([False, False, True]) + + Empty strings are not considered NA values. None is considered an NA + value. + + >>> idx = pd.Index(['black', '', 'red', None]) + >>> idx + Index(['black', '', 'red', None], dtype='object') + >>> idx.isna() + array([False, False, False, True]) + + For datetimes, `NaT` (Not a Time) is considered as an NA value. + + >>> idx = pd.DatetimeIndex([pd.Timestamp('1940-04-25'), + ... pd.Timestamp(''), None, pd.NaT]) + >>> idx + DatetimeIndex(['1940-04-25', 'NaT', 'NaT', 'NaT'], + dtype='datetime64[ns]', freq=None) + >>> idx.isna() + array([False, True, True, True]) + """ + return self._isnan + + isnull = isna + + @final + def notna(self) -> npt.NDArray[np.bool_]: + """ + Detect existing (non-missing) values. + + Return a boolean same-sized object indicating if the values are not NA. + Non-missing values get mapped to ``True``. Characters such as empty + strings ``''`` or :attr:`numpy.inf` are not considered NA values. + NA values, such as None or :attr:`numpy.NaN`, get mapped to ``False`` + values. + + Returns + ------- + numpy.ndarray[bool] + Boolean array to indicate which entries are not NA. + + See Also + -------- + Index.notnull : Alias of notna. + Index.isna: Inverse of notna. + notna : Top-level notna. + + Examples + -------- + Show which entries in an Index are not NA. The result is an + array. + + >>> idx = pd.Index([5.2, 6.0, np.nan]) + >>> idx + Index([5.2, 6.0, nan], dtype='float64') + >>> idx.notna() + array([ True, True, False]) + + Empty strings are not considered NA values. None is considered a NA + value. + + >>> idx = pd.Index(['black', '', 'red', None]) + >>> idx + Index(['black', '', 'red', None], dtype='object') + >>> idx.notna() + array([ True, True, True, False]) + """ + return ~self.isna() + + notnull = notna + + def fillna(self, value=None, downcast=lib.no_default): + """ + Fill NA/NaN values with the specified value. + + Parameters + ---------- + value : scalar + Scalar value to use to fill holes (e.g. 0). + This value cannot be a list-likes. + downcast : dict, default is None + A dict of item->dtype of what to downcast if possible, + or the string 'infer' which will try to downcast to an appropriate + equal type (e.g. float64 to int64 if possible). + + .. deprecated:: 2.1.0 + + Returns + ------- + Index + + See Also + -------- + DataFrame.fillna : Fill NaN values of a DataFrame. + Series.fillna : Fill NaN Values of a Series. + + Examples + -------- + >>> idx = pd.Index([np.nan, np.nan, 3]) + >>> idx.fillna(0) + Index([0.0, 0.0, 3.0], dtype='float64') + """ + if not is_scalar(value): + raise TypeError(f"'value' must be a scalar, passed: {type(value).__name__}") + if downcast is not lib.no_default: + warnings.warn( + f"The 'downcast' keyword in {type(self).__name__}.fillna is " + "deprecated and will be removed in a future version. " + "It was previously silently ignored.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + downcast = None + + if self.hasnans: + result = self.putmask(self._isnan, value) + if downcast is None: + # no need to care metadata other than name + # because it can't have freq if it has NaTs + # _with_infer needed for test_fillna_categorical + return Index._with_infer(result, name=self.name) + raise NotImplementedError( + f"{type(self).__name__}.fillna does not support 'downcast' " + "argument values other than 'None'." + ) + return self._view() + + def dropna(self, how: AnyAll = "any") -> Self: + """ + Return Index without NA/NaN values. + + Parameters + ---------- + how : {'any', 'all'}, default 'any' + If the Index is a MultiIndex, drop the value when any or all levels + are NaN. + + Returns + ------- + Index + + Examples + -------- + >>> idx = pd.Index([1, np.nan, 3]) + >>> idx.dropna() + Index([1.0, 3.0], dtype='float64') + """ + if how not in ("any", "all"): + raise ValueError(f"invalid how option: {how}") + + if self.hasnans: + res_values = self._values[~self._isnan] + return type(self)._simple_new(res_values, name=self.name) + return self._view() + + # -------------------------------------------------------------------- + # Uniqueness Methods + + def unique(self, level: Hashable | None = None) -> Self: + """ + Return unique values in the index. + + Unique values are returned in order of appearance, this does NOT sort. + + Parameters + ---------- + level : int or hashable, optional + Only return values from specified level (for MultiIndex). + If int, gets the level by integer position, else by level name. + + Returns + ------- + Index + + See Also + -------- + unique : Numpy array of unique values in that column. + Series.unique : Return unique values of Series object. + + Examples + -------- + >>> idx = pd.Index([1, 1, 2, 3, 3]) + >>> idx.unique() + Index([1, 2, 3], dtype='int64') + """ + if level is not None: + self._validate_index_level(level) + + if self.is_unique: + return self._view() + + result = super().unique() + return self._shallow_copy(result) + + def drop_duplicates(self, *, keep: DropKeep = "first") -> Self: + """ + Return Index with duplicate values removed. + + Parameters + ---------- + keep : {'first', 'last', ``False``}, default 'first' + - 'first' : Drop duplicates except for the first occurrence. + - 'last' : Drop duplicates except for the last occurrence. + - ``False`` : Drop all duplicates. + + Returns + ------- + Index + + See Also + -------- + Series.drop_duplicates : Equivalent method on Series. + DataFrame.drop_duplicates : Equivalent method on DataFrame. + Index.duplicated : Related method on Index, indicating duplicate + Index values. + + Examples + -------- + Generate an pandas.Index with duplicate values. + + >>> idx = pd.Index(['lama', 'cow', 'lama', 'beetle', 'lama', 'hippo']) + + The `keep` parameter controls which duplicate values are removed. + The value 'first' keeps the first occurrence for each + set of duplicated entries. The default value of keep is 'first'. + + >>> idx.drop_duplicates(keep='first') + Index(['lama', 'cow', 'beetle', 'hippo'], dtype='object') + + The value 'last' keeps the last occurrence for each set of duplicated + entries. + + >>> idx.drop_duplicates(keep='last') + Index(['cow', 'beetle', 'lama', 'hippo'], dtype='object') + + The value ``False`` discards all sets of duplicated entries. + + >>> idx.drop_duplicates(keep=False) + Index(['cow', 'beetle', 'hippo'], dtype='object') + """ + if self.is_unique: + return self._view() + + return super().drop_duplicates(keep=keep) + + def duplicated(self, keep: DropKeep = "first") -> npt.NDArray[np.bool_]: + """ + Indicate duplicate index values. + + Duplicated values are indicated as ``True`` values in the resulting + array. Either all duplicates, all except the first, or all except the + last occurrence of duplicates can be indicated. + + Parameters + ---------- + keep : {'first', 'last', False}, default 'first' + The value or values in a set of duplicates to mark as missing. + + - 'first' : Mark duplicates as ``True`` except for the first + occurrence. + - 'last' : Mark duplicates as ``True`` except for the last + occurrence. + - ``False`` : Mark all duplicates as ``True``. + + Returns + ------- + np.ndarray[bool] + + See Also + -------- + Series.duplicated : Equivalent method on pandas.Series. + DataFrame.duplicated : Equivalent method on pandas.DataFrame. + Index.drop_duplicates : Remove duplicate values from Index. + + Examples + -------- + By default, for each set of duplicated values, the first occurrence is + set to False and all others to True: + + >>> idx = pd.Index(['lama', 'cow', 'lama', 'beetle', 'lama']) + >>> idx.duplicated() + array([False, False, True, False, True]) + + which is equivalent to + + >>> idx.duplicated(keep='first') + array([False, False, True, False, True]) + + By using 'last', the last occurrence of each set of duplicated values + is set on False and all others on True: + + >>> idx.duplicated(keep='last') + array([ True, False, True, False, False]) + + By setting keep on ``False``, all duplicates are True: + + >>> idx.duplicated(keep=False) + array([ True, False, True, False, True]) + """ + if self.is_unique: + # fastpath available bc we are immutable + return np.zeros(len(self), dtype=bool) + return self._duplicated(keep=keep) + + # -------------------------------------------------------------------- + # Arithmetic & Logical Methods + + def __iadd__(self, other): + # alias for __add__ + return self + other + + @final + def __nonzero__(self) -> NoReturn: + raise ValueError( + f"The truth value of a {type(self).__name__} is ambiguous. " + "Use a.empty, a.bool(), a.item(), a.any() or a.all()." + ) + + __bool__ = __nonzero__ + + # -------------------------------------------------------------------- + # Set Operation Methods + + def _get_reconciled_name_object(self, other): + """ + If the result of a set operation will be self, + return self, unless the name changes, in which + case make a shallow copy of self. + """ + name = get_op_result_name(self, other) + if self.name is not name: + return self.rename(name) + return self + + @final + def _validate_sort_keyword(self, sort): + if sort not in [None, False, True]: + raise ValueError( + "The 'sort' keyword only takes the values of " + f"None, True, or False; {sort} was passed." + ) + + @final + def _dti_setop_align_tzs(self, other: Index, setop: str_t) -> tuple[Index, Index]: + """ + With mismatched timezones, cast both to UTC. + """ + # Caller is responsibelf or checking + # `self.dtype != other.dtype` + if ( + isinstance(self, ABCDatetimeIndex) + and isinstance(other, ABCDatetimeIndex) + and self.tz is not None + and other.tz is not None + ): + # GH#39328, GH#45357 + left = self.tz_convert("UTC") + right = other.tz_convert("UTC") + return left, right + return self, other + + @final + def union(self, other, sort=None): + """ + Form the union of two Index objects. + + If the Index objects are incompatible, both Index objects will be + cast to dtype('object') first. + + Parameters + ---------- + other : Index or array-like + sort : bool or None, default None + Whether to sort the resulting Index. + + * None : Sort the result, except when + + 1. `self` and `other` are equal. + 2. `self` or `other` has length 0. + 3. Some values in `self` or `other` cannot be compared. + A RuntimeWarning is issued in this case. + + * False : do not sort the result. + * True : Sort the result (which may raise TypeError). + + Returns + ------- + Index + + Examples + -------- + Union matching dtypes + + >>> idx1 = pd.Index([1, 2, 3, 4]) + >>> idx2 = pd.Index([3, 4, 5, 6]) + >>> idx1.union(idx2) + Index([1, 2, 3, 4, 5, 6], dtype='int64') + + Union mismatched dtypes + + >>> idx1 = pd.Index(['a', 'b', 'c', 'd']) + >>> idx2 = pd.Index([1, 2, 3, 4]) + >>> idx1.union(idx2) + Index(['a', 'b', 'c', 'd', 1, 2, 3, 4], dtype='object') + + MultiIndex case + + >>> idx1 = pd.MultiIndex.from_arrays( + ... [[1, 1, 2, 2], ["Red", "Blue", "Red", "Blue"]] + ... ) + >>> idx1 + MultiIndex([(1, 'Red'), + (1, 'Blue'), + (2, 'Red'), + (2, 'Blue')], + ) + >>> idx2 = pd.MultiIndex.from_arrays( + ... [[3, 3, 2, 2], ["Red", "Green", "Red", "Green"]] + ... ) + >>> idx2 + MultiIndex([(3, 'Red'), + (3, 'Green'), + (2, 'Red'), + (2, 'Green')], + ) + >>> idx1.union(idx2) + MultiIndex([(1, 'Blue'), + (1, 'Red'), + (2, 'Blue'), + (2, 'Green'), + (2, 'Red'), + (3, 'Green'), + (3, 'Red')], + ) + >>> idx1.union(idx2, sort=False) + MultiIndex([(1, 'Red'), + (1, 'Blue'), + (2, 'Red'), + (2, 'Blue'), + (3, 'Red'), + (3, 'Green'), + (2, 'Green')], + ) + """ + self._validate_sort_keyword(sort) + self._assert_can_do_setop(other) + other, result_name = self._convert_can_do_setop(other) + + if self.dtype != other.dtype: + if ( + isinstance(self, ABCMultiIndex) + and not is_object_dtype(_unpack_nested_dtype(other)) + and len(other) > 0 + ): + raise NotImplementedError( + "Can only union MultiIndex with MultiIndex or Index of tuples, " + "try mi.to_flat_index().union(other) instead." + ) + self, other = self._dti_setop_align_tzs(other, "union") + + dtype = self._find_common_type_compat(other) + left = self.astype(dtype, copy=False) + right = other.astype(dtype, copy=False) + return left.union(right, sort=sort) + + elif not len(other) or self.equals(other): + # NB: whether this (and the `if not len(self)` check below) come before + # or after the dtype equality check above affects the returned dtype + result = self._get_reconciled_name_object(other) + if sort is True: + return result.sort_values() + return result + + elif not len(self): + result = other._get_reconciled_name_object(self) + if sort is True: + return result.sort_values() + return result + + result = self._union(other, sort=sort) + + return self._wrap_setop_result(other, result) + + def _union(self, other: Index, sort: bool | None): + """ + Specific union logic should go here. In subclasses, union behavior + should be overwritten here rather than in `self.union`. + + Parameters + ---------- + other : Index or array-like + sort : False or None, default False + Whether to sort the resulting index. + + * True : sort the result + * False : do not sort the result. + * None : sort the result, except when `self` and `other` are equal + or when the values cannot be compared. + + Returns + ------- + Index + """ + lvals = self._values + rvals = other._values + + if ( + sort in (None, True) + and self.is_monotonic_increasing + and other.is_monotonic_increasing + and not (self.has_duplicates and other.has_duplicates) + and self._can_use_libjoin + and other._can_use_libjoin + ): + # Both are monotonic and at least one is unique, so can use outer join + # (actually don't need either unique, but without this restriction + # test_union_same_value_duplicated_in_both fails) + try: + return self._outer_indexer(other)[0] + except (TypeError, IncompatibleFrequency): + # incomparable objects; should only be for object dtype + value_list = list(lvals) + + # worth making this faster? a very unusual case + value_set = set(lvals) + value_list.extend([x for x in rvals if x not in value_set]) + # If objects are unorderable, we must have object dtype. + return np.array(value_list, dtype=object) + + elif not other.is_unique: + # other has duplicates + result_dups = algos.union_with_duplicates(self, other) + return _maybe_try_sort(result_dups, sort) + + # The rest of this method is analogous to Index._intersection_via_get_indexer + + # Self may have duplicates; other already checked as unique + # find indexes of things in "other" that are not in "self" + if self._index_as_unique: + indexer = self.get_indexer(other) + missing = (indexer == -1).nonzero()[0] + else: + missing = algos.unique1d(self.get_indexer_non_unique(other)[1]) + + result: Index | MultiIndex | ArrayLike + if self._is_multi: + # Preserve MultiIndex to avoid losing dtypes + result = self.append(other.take(missing)) + + else: + if len(missing) > 0: + other_diff = rvals.take(missing) + result = concat_compat((lvals, other_diff)) + else: + result = lvals + + if not self.is_monotonic_increasing or not other.is_monotonic_increasing: + # if both are monotonic then result should already be sorted + result = _maybe_try_sort(result, sort) + + return result + + @final + def _wrap_setop_result(self, other: Index, result) -> Index: + name = get_op_result_name(self, other) + if isinstance(result, Index): + if result.name != name: + result = result.rename(name) + else: + result = self._shallow_copy(result, name=name) + return result + + @final + def intersection(self, other, sort: bool = False): + # default sort keyword is different here from other setops intentionally + # done in GH#25063 + """ + Form the intersection of two Index objects. + + This returns a new Index with elements common to the index and `other`. + + Parameters + ---------- + other : Index or array-like + sort : True, False or None, default False + Whether to sort the resulting index. + + * None : sort the result, except when `self` and `other` are equal + or when the values cannot be compared. + * False : do not sort the result. + * True : Sort the result (which may raise TypeError). + + Returns + ------- + Index + + Examples + -------- + >>> idx1 = pd.Index([1, 2, 3, 4]) + >>> idx2 = pd.Index([3, 4, 5, 6]) + >>> idx1.intersection(idx2) + Index([3, 4], dtype='int64') + """ + self._validate_sort_keyword(sort) + self._assert_can_do_setop(other) + other, result_name = self._convert_can_do_setop(other) + + if self.dtype != other.dtype: + self, other = self._dti_setop_align_tzs(other, "intersection") + + if self.equals(other): + if not self.is_unique: + result = self.unique()._get_reconciled_name_object(other) + else: + result = self._get_reconciled_name_object(other) + if sort is True: + result = result.sort_values() + return result + + if len(self) == 0 or len(other) == 0: + # fastpath; we need to be careful about having commutativity + + if self._is_multi or other._is_multi: + # _convert_can_do_setop ensures that we have both or neither + # We retain self.levels + return self[:0].rename(result_name) + + dtype = self._find_common_type_compat(other) + if self.dtype == dtype: + # Slicing allows us to retain DTI/TDI.freq, RangeIndex + + # Note: self[:0] vs other[:0] affects + # 1) which index's `freq` we get in DTI/TDI cases + # This may be a historical artifact, i.e. no documented + # reason for this choice. + # 2) The `step` we get in RangeIndex cases + if len(self) == 0: + return self[:0].rename(result_name) + else: + return other[:0].rename(result_name) + + return Index([], dtype=dtype, name=result_name) + + elif not self._should_compare(other): + # We can infer that the intersection is empty. + if isinstance(self, ABCMultiIndex): + return self[:0].rename(result_name) + return Index([], name=result_name) + + elif self.dtype != other.dtype: + dtype = self._find_common_type_compat(other) + this = self.astype(dtype, copy=False) + other = other.astype(dtype, copy=False) + return this.intersection(other, sort=sort) + + result = self._intersection(other, sort=sort) + return self._wrap_intersection_result(other, result) + + def _intersection(self, other: Index, sort: bool = False): + """ + intersection specialized to the case with matching dtypes. + """ + if ( + self.is_monotonic_increasing + and other.is_monotonic_increasing + and self._can_use_libjoin + and other._can_use_libjoin + ): + try: + res_indexer, indexer, _ = self._inner_indexer(other) + except TypeError: + # non-comparable; should only be for object dtype + pass + else: + # TODO: algos.unique1d should preserve DTA/TDA + if is_numeric_dtype(self.dtype): + # This is faster, because Index.unique() checks for uniqueness + # before calculating the unique values. + res = algos.unique1d(res_indexer) + else: + result = self.take(indexer) + res = result.drop_duplicates() + return ensure_wrapped_if_datetimelike(res) + + res_values = self._intersection_via_get_indexer(other, sort=sort) + res_values = _maybe_try_sort(res_values, sort) + return res_values + + def _wrap_intersection_result(self, other, result): + # We will override for MultiIndex to handle empty results + return self._wrap_setop_result(other, result) + + @final + def _intersection_via_get_indexer( + self, other: Index | MultiIndex, sort + ) -> ArrayLike | MultiIndex: + """ + Find the intersection of two Indexes using get_indexer. + + Returns + ------- + np.ndarray or ExtensionArray or MultiIndex + The returned array will be unique. + """ + left_unique = self.unique() + right_unique = other.unique() + + # even though we are unique, we need get_indexer_for for IntervalIndex + indexer = left_unique.get_indexer_for(right_unique) + + mask = indexer != -1 + + taker = indexer.take(mask.nonzero()[0]) + if sort is False: + # sort bc we want the elements in the same order they are in self + # unnecessary in the case with sort=None bc we will sort later + taker = np.sort(taker) + + result: MultiIndex | ExtensionArray | np.ndarray + if isinstance(left_unique, ABCMultiIndex): + result = left_unique.take(taker) + else: + result = left_unique.take(taker)._values + return result + + @final + def difference(self, other, sort=None): + """ + Return a new Index with elements of index not in `other`. + + This is the set difference of two Index objects. + + Parameters + ---------- + other : Index or array-like + sort : bool or None, default None + Whether to sort the resulting index. By default, the + values are attempted to be sorted, but any TypeError from + incomparable elements is caught by pandas. + + * None : Attempt to sort the result, but catch any TypeErrors + from comparing incomparable elements. + * False : Do not sort the result. + * True : Sort the result (which may raise TypeError). + + Returns + ------- + Index + + Examples + -------- + >>> idx1 = pd.Index([2, 1, 3, 4]) + >>> idx2 = pd.Index([3, 4, 5, 6]) + >>> idx1.difference(idx2) + Index([1, 2], dtype='int64') + >>> idx1.difference(idx2, sort=False) + Index([2, 1], dtype='int64') + """ + self._validate_sort_keyword(sort) + self._assert_can_do_setop(other) + other, result_name = self._convert_can_do_setop(other) + + # Note: we do NOT call _dti_setop_align_tzs here, as there + # is no requirement that .difference be commutative, so it does + # not cast to object. + + if self.equals(other): + # Note: we do not (yet) sort even if sort=None GH#24959 + return self[:0].rename(result_name) + + if len(other) == 0: + # Note: we do not (yet) sort even if sort=None GH#24959 + result = self.unique().rename(result_name) + if sort is True: + return result.sort_values() + return result + + if not self._should_compare(other): + # Nothing matches -> difference is everything + result = self.unique().rename(result_name) + if sort is True: + return result.sort_values() + return result + + result = self._difference(other, sort=sort) + return self._wrap_difference_result(other, result) + + def _difference(self, other, sort): + # overridden by RangeIndex + this = self + if isinstance(self, ABCCategoricalIndex) and self.hasnans and other.hasnans: + this = this.dropna() + other = other.unique() + the_diff = this[other.get_indexer_for(this) == -1] + the_diff = the_diff if this.is_unique else the_diff.unique() + the_diff = _maybe_try_sort(the_diff, sort) + return the_diff + + def _wrap_difference_result(self, other, result): + # We will override for MultiIndex to handle empty results + return self._wrap_setop_result(other, result) + + def symmetric_difference(self, other, result_name=None, sort=None): + """ + Compute the symmetric difference of two Index objects. + + Parameters + ---------- + other : Index or array-like + result_name : str + sort : bool or None, default None + Whether to sort the resulting index. By default, the + values are attempted to be sorted, but any TypeError from + incomparable elements is caught by pandas. + + * None : Attempt to sort the result, but catch any TypeErrors + from comparing incomparable elements. + * False : Do not sort the result. + * True : Sort the result (which may raise TypeError). + + Returns + ------- + Index + + Notes + ----- + ``symmetric_difference`` contains elements that appear in either + ``idx1`` or ``idx2`` but not both. Equivalent to the Index created by + ``idx1.difference(idx2) | idx2.difference(idx1)`` with duplicates + dropped. + + Examples + -------- + >>> idx1 = pd.Index([1, 2, 3, 4]) + >>> idx2 = pd.Index([2, 3, 4, 5]) + >>> idx1.symmetric_difference(idx2) + Index([1, 5], dtype='int64') + """ + self._validate_sort_keyword(sort) + self._assert_can_do_setop(other) + other, result_name_update = self._convert_can_do_setop(other) + if result_name is None: + result_name = result_name_update + + if self.dtype != other.dtype: + self, other = self._dti_setop_align_tzs(other, "symmetric_difference") + + if not self._should_compare(other): + return self.union(other, sort=sort).rename(result_name) + + elif self.dtype != other.dtype: + dtype = self._find_common_type_compat(other) + this = self.astype(dtype, copy=False) + that = other.astype(dtype, copy=False) + return this.symmetric_difference(that, sort=sort).rename(result_name) + + this = self.unique() + other = other.unique() + indexer = this.get_indexer_for(other) + + # {this} minus {other} + common_indexer = indexer.take((indexer != -1).nonzero()[0]) + left_indexer = np.setdiff1d( + np.arange(this.size), common_indexer, assume_unique=True + ) + left_diff = this.take(left_indexer) + + # {other} minus {this} + right_indexer = (indexer == -1).nonzero()[0] + right_diff = other.take(right_indexer) + + res_values = left_diff.append(right_diff) + result = _maybe_try_sort(res_values, sort) + + if not self._is_multi: + return Index(result, name=result_name, dtype=res_values.dtype) + else: + left_diff = cast("MultiIndex", left_diff) + if len(result) == 0: + # result might be an Index, if other was an Index + return left_diff.remove_unused_levels().set_names(result_name) + return result.set_names(result_name) + + @final + def _assert_can_do_setop(self, other) -> bool: + if not is_list_like(other): + raise TypeError("Input must be Index or array-like") + return True + + def _convert_can_do_setop(self, other) -> tuple[Index, Hashable]: + if not isinstance(other, Index): + other = Index(other, name=self.name) + result_name = self.name + else: + result_name = get_op_result_name(self, other) + return other, result_name + + # -------------------------------------------------------------------- + # Indexing Methods + + def get_loc(self, key): + """ + Get integer location, slice or boolean mask for requested label. + + Parameters + ---------- + key : label + + Returns + ------- + int if unique index, slice if monotonic index, else mask + + Examples + -------- + >>> unique_index = pd.Index(list('abc')) + >>> unique_index.get_loc('b') + 1 + + >>> monotonic_index = pd.Index(list('abbc')) + >>> monotonic_index.get_loc('b') + slice(1, 3, None) + + >>> non_monotonic_index = pd.Index(list('abcb')) + >>> non_monotonic_index.get_loc('b') + array([False, True, False, True]) + """ + casted_key = self._maybe_cast_indexer(key) + try: + return self._engine.get_loc(casted_key) + except KeyError as err: + if isinstance(casted_key, slice) or ( + isinstance(casted_key, abc.Iterable) + and any(isinstance(x, slice) for x in casted_key) + ): + raise InvalidIndexError(key) + raise KeyError(key) from err + except TypeError: + # If we have a listlike key, _check_indexing_error will raise + # InvalidIndexError. Otherwise we fall through and re-raise + # the TypeError. + self._check_indexing_error(key) + raise + + @final + def get_indexer( + self, + target, + method: ReindexMethod | None = None, + limit: int | None = None, + tolerance=None, + ) -> npt.NDArray[np.intp]: + """ + Compute indexer and mask for new index given the current index. + + The indexer should be then used as an input to ndarray.take to align the + current data to the new index. + + Parameters + ---------- + target : Index + method : {None, 'pad'/'ffill', 'backfill'/'bfill', 'nearest'}, optional + * default: exact matches only. + * pad / ffill: find the PREVIOUS index value if no exact match. + * backfill / bfill: use NEXT index value if no exact match + * nearest: use the NEAREST index value if no exact match. Tied + distances are broken by preferring the larger index value. + limit : int, optional + Maximum number of consecutive labels in ``target`` to match for + inexact matches. + tolerance : optional + Maximum distance between original and new labels for inexact + matches. The values of the index at the matching locations must + satisfy the equation ``abs(index[indexer] - target) <= tolerance``. + + Tolerance may be a scalar value, which applies the same tolerance + to all values, or list-like, which applies variable tolerance per + element. List-like includes list, tuple, array, Series, and must be + the same size as the index and its dtype must exactly match the + index's type. + + Returns + ------- + np.ndarray[np.intp] + Integers from 0 to n - 1 indicating that the index at these + positions matches the corresponding target values. Missing values + in the target are marked by -1. + + Notes + ----- + Returns -1 for unmatched values, for further explanation see the + example below. + + Examples + -------- + >>> index = pd.Index(['c', 'a', 'b']) + >>> index.get_indexer(['a', 'b', 'x']) + array([ 1, 2, -1]) + + Notice that the return value is an array of locations in ``index`` + and ``x`` is marked by -1, as it is not in ``index``. + """ + method = clean_reindex_fill_method(method) + orig_target = target + target = self._maybe_cast_listlike_indexer(target) + + self._check_indexing_method(method, limit, tolerance) + + if not self._index_as_unique: + raise InvalidIndexError(self._requires_unique_msg) + + if len(target) == 0: + return np.array([], dtype=np.intp) + + if not self._should_compare(target) and not self._should_partial_index(target): + # IntervalIndex get special treatment bc numeric scalars can be + # matched to Interval scalars + return self._get_indexer_non_comparable(target, method=method, unique=True) + + if isinstance(self.dtype, CategoricalDtype): + # _maybe_cast_listlike_indexer ensures target has our dtype + # (could improve perf by doing _should_compare check earlier?) + assert self.dtype == target.dtype + + indexer = self._engine.get_indexer(target.codes) + if self.hasnans and target.hasnans: + # After _maybe_cast_listlike_indexer, target elements which do not + # belong to some category are changed to NaNs + # Mask to track actual NaN values compared to inserted NaN values + # GH#45361 + target_nans = isna(orig_target) + loc = self.get_loc(np.nan) + mask = target.isna() + indexer[target_nans] = loc + indexer[mask & ~target_nans] = -1 + return indexer + + if isinstance(target.dtype, CategoricalDtype): + # potential fastpath + # get an indexer for unique categories then propagate to codes via take_nd + # get_indexer instead of _get_indexer needed for MultiIndex cases + # e.g. test_append_different_columns_types + categories_indexer = self.get_indexer(target.categories) + + indexer = algos.take_nd(categories_indexer, target.codes, fill_value=-1) + + if (not self._is_multi and self.hasnans) and target.hasnans: + # Exclude MultiIndex because hasnans raises NotImplementedError + # we should only get here if we are unique, so loc is an integer + # GH#41934 + loc = self.get_loc(np.nan) + mask = target.isna() + indexer[mask] = loc + + return ensure_platform_int(indexer) + + pself, ptarget = self._maybe_downcast_for_indexing(target) + if pself is not self or ptarget is not target: + return pself.get_indexer( + ptarget, method=method, limit=limit, tolerance=tolerance + ) + + if self.dtype == target.dtype and self.equals(target): + # Only call equals if we have same dtype to avoid inference/casting + return np.arange(len(target), dtype=np.intp) + + if self.dtype != target.dtype and not self._should_partial_index(target): + # _should_partial_index e.g. IntervalIndex with numeric scalars + # that can be matched to Interval scalars. + dtype = self._find_common_type_compat(target) + + this = self.astype(dtype, copy=False) + target = target.astype(dtype, copy=False) + return this._get_indexer( + target, method=method, limit=limit, tolerance=tolerance + ) + + return self._get_indexer(target, method, limit, tolerance) + + def _get_indexer( + self, + target: Index, + method: str_t | None = None, + limit: int | None = None, + tolerance=None, + ) -> npt.NDArray[np.intp]: + if tolerance is not None: + tolerance = self._convert_tolerance(tolerance, target) + + if method in ["pad", "backfill"]: + indexer = self._get_fill_indexer(target, method, limit, tolerance) + elif method == "nearest": + indexer = self._get_nearest_indexer(target, limit, tolerance) + else: + if target._is_multi and self._is_multi: + engine = self._engine + # error: Item "IndexEngine" of "Union[IndexEngine, ExtensionEngine]" + # has no attribute "_extract_level_codes" + tgt_values = engine._extract_level_codes( # type: ignore[union-attr] + target + ) + else: + tgt_values = target._get_engine_target() + + indexer = self._engine.get_indexer(tgt_values) + + return ensure_platform_int(indexer) + + @final + def _should_partial_index(self, target: Index) -> bool: + """ + Should we attempt partial-matching indexing? + """ + if isinstance(self.dtype, IntervalDtype): + if isinstance(target.dtype, IntervalDtype): + return False + # "Index" has no attribute "left" + return self.left._should_compare(target) # type: ignore[attr-defined] + return False + + @final + def _check_indexing_method( + self, + method: str_t | None, + limit: int | None = None, + tolerance=None, + ) -> None: + """ + Raise if we have a get_indexer `method` that is not supported or valid. + """ + if method not in [None, "bfill", "backfill", "pad", "ffill", "nearest"]: + # in practice the clean_reindex_fill_method call would raise + # before we get here + raise ValueError("Invalid fill method") # pragma: no cover + + if self._is_multi: + if method == "nearest": + raise NotImplementedError( + "method='nearest' not implemented yet " + "for MultiIndex; see GitHub issue 9365" + ) + if method in ("pad", "backfill"): + if tolerance is not None: + raise NotImplementedError( + "tolerance not implemented yet for MultiIndex" + ) + + if isinstance(self.dtype, (IntervalDtype, CategoricalDtype)): + # GH#37871 for now this is only for IntervalIndex and CategoricalIndex + if method is not None: + raise NotImplementedError( + f"method {method} not yet implemented for {type(self).__name__}" + ) + + if method is None: + if tolerance is not None: + raise ValueError( + "tolerance argument only valid if doing pad, " + "backfill or nearest reindexing" + ) + if limit is not None: + raise ValueError( + "limit argument only valid if doing pad, " + "backfill or nearest reindexing" + ) + + def _convert_tolerance(self, tolerance, target: np.ndarray | Index) -> np.ndarray: + # override this method on subclasses + tolerance = np.asarray(tolerance) + if target.size != tolerance.size and tolerance.size > 1: + raise ValueError("list-like tolerance size must match target index size") + elif is_numeric_dtype(self) and not np.issubdtype(tolerance.dtype, np.number): + if tolerance.ndim > 0: + raise ValueError( + f"tolerance argument for {type(self).__name__} with dtype " + f"{self.dtype} must contain numeric elements if it is list type" + ) + + raise ValueError( + f"tolerance argument for {type(self).__name__} with dtype {self.dtype} " + f"must be numeric if it is a scalar: {repr(tolerance)}" + ) + return tolerance + + @final + def _get_fill_indexer( + self, target: Index, method: str_t, limit: int | None = None, tolerance=None + ) -> npt.NDArray[np.intp]: + if self._is_multi: + if not (self.is_monotonic_increasing or self.is_monotonic_decreasing): + raise ValueError("index must be monotonic increasing or decreasing") + encoded = self.append(target)._engine.values # type: ignore[union-attr] + self_encoded = Index(encoded[: len(self)]) + target_encoded = Index(encoded[len(self) :]) + return self_encoded._get_fill_indexer( + target_encoded, method, limit, tolerance + ) + + if self.is_monotonic_increasing and target.is_monotonic_increasing: + target_values = target._get_engine_target() + own_values = self._get_engine_target() + if not isinstance(target_values, np.ndarray) or not isinstance( + own_values, np.ndarray + ): + raise NotImplementedError + + if method == "pad": + indexer = libalgos.pad(own_values, target_values, limit=limit) + else: + # i.e. "backfill" + indexer = libalgos.backfill(own_values, target_values, limit=limit) + else: + indexer = self._get_fill_indexer_searchsorted(target, method, limit) + if tolerance is not None and len(self): + indexer = self._filter_indexer_tolerance(target, indexer, tolerance) + return indexer + + @final + def _get_fill_indexer_searchsorted( + self, target: Index, method: str_t, limit: int | None = None + ) -> npt.NDArray[np.intp]: + """ + Fallback pad/backfill get_indexer that works for monotonic decreasing + indexes and non-monotonic targets. + """ + if limit is not None: + raise ValueError( + f"limit argument for {repr(method)} method only well-defined " + "if index and target are monotonic" + ) + + side: Literal["left", "right"] = "left" if method == "pad" else "right" + + # find exact matches first (this simplifies the algorithm) + indexer = self.get_indexer(target) + nonexact = indexer == -1 + indexer[nonexact] = self._searchsorted_monotonic(target[nonexact], side) + if side == "left": + # searchsorted returns "indices into a sorted array such that, + # if the corresponding elements in v were inserted before the + # indices, the order of a would be preserved". + # Thus, we need to subtract 1 to find values to the left. + indexer[nonexact] -= 1 + # This also mapped not found values (values of 0 from + # np.searchsorted) to -1, which conveniently is also our + # sentinel for missing values + else: + # Mark indices to the right of the largest value as not found + indexer[indexer == len(self)] = -1 + return indexer + + @final + def _get_nearest_indexer( + self, target: Index, limit: int | None, tolerance + ) -> npt.NDArray[np.intp]: + """ + Get the indexer for the nearest index labels; requires an index with + values that can be subtracted from each other (e.g., not strings or + tuples). + """ + if not len(self): + return self._get_fill_indexer(target, "pad") + + left_indexer = self.get_indexer(target, "pad", limit=limit) + right_indexer = self.get_indexer(target, "backfill", limit=limit) + + left_distances = self._difference_compat(target, left_indexer) + right_distances = self._difference_compat(target, right_indexer) + + op = operator.lt if self.is_monotonic_increasing else operator.le + indexer = np.where( + # error: Argument 1&2 has incompatible type "Union[ExtensionArray, + # ndarray[Any, Any]]"; expected "Union[SupportsDunderLE, + # SupportsDunderGE, SupportsDunderGT, SupportsDunderLT]" + op(left_distances, right_distances) # type: ignore[arg-type] + | (right_indexer == -1), + left_indexer, + right_indexer, + ) + if tolerance is not None: + indexer = self._filter_indexer_tolerance(target, indexer, tolerance) + return indexer + + @final + def _filter_indexer_tolerance( + self, + target: Index, + indexer: npt.NDArray[np.intp], + tolerance, + ) -> npt.NDArray[np.intp]: + distance = self._difference_compat(target, indexer) + + return np.where(distance <= tolerance, indexer, -1) + + @final + def _difference_compat( + self, target: Index, indexer: npt.NDArray[np.intp] + ) -> ArrayLike: + # Compatibility for PeriodArray, for which __sub__ returns an ndarray[object] + # of DateOffset objects, which do not support __abs__ (and would be slow + # if they did) + + if isinstance(self.dtype, PeriodDtype): + # Note: we only get here with matching dtypes + own_values = cast("PeriodArray", self._data)._ndarray + target_values = cast("PeriodArray", target._data)._ndarray + diff = own_values[indexer] - target_values + else: + # error: Unsupported left operand type for - ("ExtensionArray") + diff = self._values[indexer] - target._values # type: ignore[operator] + return abs(diff) + + # -------------------------------------------------------------------- + # Indexer Conversion Methods + + @final + def _validate_positional_slice(self, key: slice) -> None: + """ + For positional indexing, a slice must have either int or None + for each of start, stop, and step. + """ + self._validate_indexer("positional", key.start, "iloc") + self._validate_indexer("positional", key.stop, "iloc") + self._validate_indexer("positional", key.step, "iloc") + + def _convert_slice_indexer(self, key: slice, kind: Literal["loc", "getitem"]): + """ + Convert a slice indexer. + + By definition, these are labels unless 'iloc' is passed in. + Floats are not allowed as the start, step, or stop of the slice. + + Parameters + ---------- + key : label of the slice bound + kind : {'loc', 'getitem'} + """ + + # potentially cast the bounds to integers + start, stop, step = key.start, key.stop, key.step + + # figure out if this is a positional indexer + is_index_slice = is_valid_positional_slice(key) + + # TODO(GH#50617): once Series.__[gs]etitem__ is removed we should be able + # to simplify this. + if lib.is_np_dtype(self.dtype, "f"): + # We always treat __getitem__ slicing as label-based + # translate to locations + if kind == "getitem" and is_index_slice and not start == stop and step != 0: + # exclude step=0 from the warning because it will raise anyway + # start/stop both None e.g. [:] or [::-1] won't change. + # exclude start==stop since it will be empty either way, or + # will be [:] or [::-1] which won't change + warnings.warn( + # GH#49612 + "The behavior of obj[i:j] with a float-dtype index is " + "deprecated. In a future version, this will be treated as " + "positional instead of label-based. For label-based slicing, " + "use obj.loc[i:j] instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.slice_indexer(start, stop, step) + + if kind == "getitem": + # called from the getitem slicers, validate that we are in fact integers + if is_index_slice: + # In this case the _validate_indexer checks below are redundant + return key + elif self.dtype.kind in "iu": + # Note: these checks are redundant if we know is_index_slice + self._validate_indexer("slice", key.start, "getitem") + self._validate_indexer("slice", key.stop, "getitem") + self._validate_indexer("slice", key.step, "getitem") + return key + + # convert the slice to an indexer here; checking that the user didn't + # pass a positional slice to loc + is_positional = is_index_slice and self._should_fallback_to_positional + + # if we are mixed and have integers + if is_positional: + try: + # Validate start & stop + if start is not None: + self.get_loc(start) + if stop is not None: + self.get_loc(stop) + is_positional = False + except KeyError: + pass + + if com.is_null_slice(key): + # It doesn't matter if we are positional or label based + indexer = key + elif is_positional: + if kind == "loc": + # GH#16121, GH#24612, GH#31810 + raise TypeError( + "Slicing a positional slice with .loc is not allowed, " + "Use .loc with labels or .iloc with positions instead.", + ) + indexer = key + else: + indexer = self.slice_indexer(start, stop, step) + + return indexer + + @final + def _raise_invalid_indexer( + self, + form: Literal["slice", "positional"], + key, + reraise: lib.NoDefault | None | Exception = lib.no_default, + ) -> None: + """ + Raise consistent invalid indexer message. + """ + msg = ( + f"cannot do {form} indexing on {type(self).__name__} with these " + f"indexers [{key}] of type {type(key).__name__}" + ) + if reraise is not lib.no_default: + raise TypeError(msg) from reraise + raise TypeError(msg) + + # -------------------------------------------------------------------- + # Reindex Methods + + @final + def _validate_can_reindex(self, indexer: np.ndarray) -> None: + """ + Check if we are allowing reindexing with this particular indexer. + + Parameters + ---------- + indexer : an integer ndarray + + Raises + ------ + ValueError if its a duplicate axis + """ + # trying to reindex on an axis with duplicates + if not self._index_as_unique and len(indexer): + raise ValueError("cannot reindex on an axis with duplicate labels") + + def reindex( + self, + target, + method: ReindexMethod | None = None, + level=None, + limit: int | None = None, + tolerance: float | None = None, + ) -> tuple[Index, npt.NDArray[np.intp] | None]: + """ + Create index with target's values. + + Parameters + ---------- + target : an iterable + method : {None, 'pad'/'ffill', 'backfill'/'bfill', 'nearest'}, optional + * default: exact matches only. + * pad / ffill: find the PREVIOUS index value if no exact match. + * backfill / bfill: use NEXT index value if no exact match + * nearest: use the NEAREST index value if no exact match. Tied + distances are broken by preferring the larger index value. + level : int, optional + Level of multiindex. + limit : int, optional + Maximum number of consecutive labels in ``target`` to match for + inexact matches. + tolerance : int or float, optional + Maximum distance between original and new labels for inexact + matches. The values of the index at the matching locations must + satisfy the equation ``abs(index[indexer] - target) <= tolerance``. + + Tolerance may be a scalar value, which applies the same tolerance + to all values, or list-like, which applies variable tolerance per + element. List-like includes list, tuple, array, Series, and must be + the same size as the index and its dtype must exactly match the + index's type. + + Returns + ------- + new_index : pd.Index + Resulting index. + indexer : np.ndarray[np.intp] or None + Indices of output values in original index. + + Raises + ------ + TypeError + If ``method`` passed along with ``level``. + ValueError + If non-unique multi-index + ValueError + If non-unique index and ``method`` or ``limit`` passed. + + See Also + -------- + Series.reindex : Conform Series to new index with optional filling logic. + DataFrame.reindex : Conform DataFrame to new index with optional filling logic. + + Examples + -------- + >>> idx = pd.Index(['car', 'bike', 'train', 'tractor']) + >>> idx + Index(['car', 'bike', 'train', 'tractor'], dtype='object') + >>> idx.reindex(['car', 'bike']) + (Index(['car', 'bike'], dtype='object'), array([0, 1])) + """ + # GH6552: preserve names when reindexing to non-named target + # (i.e. neither Index nor Series). + preserve_names = not hasattr(target, "name") + + # GH7774: preserve dtype/tz if target is empty and not an Index. + target = ensure_has_len(target) # target may be an iterator + + if not isinstance(target, Index) and len(target) == 0: + if level is not None and self._is_multi: + # "Index" has no attribute "levels"; maybe "nlevels"? + idx = self.levels[level] # type: ignore[attr-defined] + else: + idx = self + target = idx[:0] + else: + target = ensure_index(target) + + if level is not None and ( + isinstance(self, ABCMultiIndex) or isinstance(target, ABCMultiIndex) + ): + if method is not None: + raise TypeError("Fill method not supported if level passed") + + # TODO: tests where passing `keep_order=not self._is_multi` + # makes a difference for non-MultiIndex case + target, indexer, _ = self._join_level( + target, level, how="right", keep_order=not self._is_multi + ) + + else: + if self.equals(target): + indexer = None + else: + if self._index_as_unique: + indexer = self.get_indexer( + target, method=method, limit=limit, tolerance=tolerance + ) + elif self._is_multi: + raise ValueError("cannot handle a non-unique multi-index!") + elif not self.is_unique: + # GH#42568 + raise ValueError("cannot reindex on an axis with duplicate labels") + else: + indexer, _ = self.get_indexer_non_unique(target) + + target = self._wrap_reindex_result(target, indexer, preserve_names) + return target, indexer + + def _wrap_reindex_result(self, target, indexer, preserve_names: bool): + target = self._maybe_preserve_names(target, preserve_names) + return target + + def _maybe_preserve_names(self, target: Index, preserve_names: bool): + if preserve_names and target.nlevels == 1 and target.name != self.name: + target = target.copy(deep=False) + target.name = self.name + return target + + @final + def _reindex_non_unique( + self, target: Index + ) -> tuple[Index, npt.NDArray[np.intp], npt.NDArray[np.intp] | None]: + """ + Create a new index with target's values (move/add/delete values as + necessary) use with non-unique Index and a possibly non-unique target. + + Parameters + ---------- + target : an iterable + + Returns + ------- + new_index : pd.Index + Resulting index. + indexer : np.ndarray[np.intp] + Indices of output values in original index. + new_indexer : np.ndarray[np.intp] or None + + """ + target = ensure_index(target) + if len(target) == 0: + # GH#13691 + return self[:0], np.array([], dtype=np.intp), None + + indexer, missing = self.get_indexer_non_unique(target) + check = indexer != -1 + new_labels: Index | np.ndarray = self.take(indexer[check]) + new_indexer = None + + if len(missing): + length = np.arange(len(indexer), dtype=np.intp) + + missing = ensure_platform_int(missing) + missing_labels = target.take(missing) + missing_indexer = length[~check] + cur_labels = self.take(indexer[check]).values + cur_indexer = length[check] + + # Index constructor below will do inference + new_labels = np.empty((len(indexer),), dtype=object) + new_labels[cur_indexer] = cur_labels + new_labels[missing_indexer] = missing_labels + + # GH#38906 + if not len(self): + new_indexer = np.arange(0, dtype=np.intp) + + # a unique indexer + elif target.is_unique: + # see GH5553, make sure we use the right indexer + new_indexer = np.arange(len(indexer), dtype=np.intp) + new_indexer[cur_indexer] = np.arange(len(cur_labels)) + new_indexer[missing_indexer] = -1 + + # we have a non_unique selector, need to use the original + # indexer here + else: + # need to retake to have the same size as the indexer + indexer[~check] = -1 + + # reset the new indexer to account for the new size + new_indexer = np.arange(len(self.take(indexer)), dtype=np.intp) + new_indexer[~check] = -1 + + if not isinstance(self, ABCMultiIndex): + new_index = Index(new_labels, name=self.name) + else: + new_index = type(self).from_tuples(new_labels, names=self.names) + return new_index, indexer, new_indexer + + # -------------------------------------------------------------------- + # Join Methods + + @overload + def join( + self, + other: Index, + *, + how: JoinHow = ..., + level: Level = ..., + return_indexers: Literal[True], + sort: bool = ..., + ) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + ... + + @overload + def join( + self, + other: Index, + *, + how: JoinHow = ..., + level: Level = ..., + return_indexers: Literal[False] = ..., + sort: bool = ..., + ) -> Index: + ... + + @overload + def join( + self, + other: Index, + *, + how: JoinHow = ..., + level: Level = ..., + return_indexers: bool = ..., + sort: bool = ..., + ) -> Index | tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + ... + + @final + @_maybe_return_indexers + def join( + self, + other: Index, + *, + how: JoinHow = "left", + level: Level | None = None, + return_indexers: bool = False, + sort: bool = False, + ) -> Index | tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + """ + Compute join_index and indexers to conform data structures to the new index. + + Parameters + ---------- + other : Index + how : {'left', 'right', 'inner', 'outer'} + level : int or level name, default None + return_indexers : bool, default False + sort : bool, default False + Sort the join keys lexicographically in the result Index. If False, + the order of the join keys depends on the join type (how keyword). + + Returns + ------- + join_index, (left_indexer, right_indexer) + + Examples + -------- + >>> idx1 = pd.Index([1, 2, 3]) + >>> idx2 = pd.Index([4, 5, 6]) + >>> idx1.join(idx2, how='outer') + Index([1, 2, 3, 4, 5, 6], dtype='int64') + """ + other = ensure_index(other) + sort = sort or how == "outer" + + if isinstance(self, ABCDatetimeIndex) and isinstance(other, ABCDatetimeIndex): + if (self.tz is None) ^ (other.tz is None): + # Raise instead of casting to object below. + raise TypeError("Cannot join tz-naive with tz-aware DatetimeIndex") + + if not self._is_multi and not other._is_multi: + # We have specific handling for MultiIndex below + pself, pother = self._maybe_downcast_for_indexing(other) + if pself is not self or pother is not other: + return pself.join( + pother, how=how, level=level, return_indexers=True, sort=sort + ) + + # try to figure out the join level + # GH3662 + if level is None and (self._is_multi or other._is_multi): + # have the same levels/names so a simple join + if self.names == other.names: + pass + else: + return self._join_multi(other, how=how) + + # join on the level + if level is not None and (self._is_multi or other._is_multi): + return self._join_level(other, level, how=how) + + if len(self) == 0 or len(other) == 0: + try: + return self._join_empty(other, how, sort) + except TypeError: + # object dtype; non-comparable objects + pass + + if self.dtype != other.dtype: + dtype = self._find_common_type_compat(other) + this = self.astype(dtype, copy=False) + other = other.astype(dtype, copy=False) + return this.join(other, how=how, return_indexers=True) + elif ( + isinstance(self, ABCCategoricalIndex) + and isinstance(other, ABCCategoricalIndex) + and not self.ordered + and not self.categories.equals(other.categories) + ): + # dtypes are "equal" but categories are in different order + other = Index(other._values.reorder_categories(self.categories)) + + _validate_join_method(how) + + if ( + self.is_monotonic_increasing + and other.is_monotonic_increasing + and self._can_use_libjoin + and other._can_use_libjoin + and (self.is_unique or other.is_unique) + ): + try: + return self._join_monotonic(other, how=how) + except TypeError: + # object dtype; non-comparable objects + pass + elif not self.is_unique or not other.is_unique: + return self._join_non_unique(other, how=how, sort=sort) + + return self._join_via_get_indexer(other, how, sort) + + @final + def _join_empty( + self, other: Index, how: JoinHow, sort: bool + ) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + assert len(self) == 0 or len(other) == 0 + _validate_join_method(how) + + lidx: np.ndarray | None + ridx: np.ndarray | None + + if len(other): + how = cast(JoinHow, {"left": "right", "right": "left"}.get(how, how)) + join_index, ridx, lidx = other._join_empty(self, how, sort) + elif how in ["left", "outer"]: + if sort and not self.is_monotonic_increasing: + lidx = self.argsort() + join_index = self.take(lidx) + else: + lidx = None + join_index = self._view() + ridx = np.broadcast_to(np.intp(-1), len(join_index)) + else: + join_index = other._view() + lidx = np.array([], dtype=np.intp) + ridx = None + return join_index, lidx, ridx + + @final + def _join_via_get_indexer( + self, other: Index, how: JoinHow, sort: bool + ) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + # Fallback if we do not have any fastpaths available based on + # uniqueness/monotonicity + + # Note: at this point we have checked matching dtypes + + if how == "left": + join_index = self.sort_values() if sort else self + elif how == "right": + join_index = other.sort_values() if sort else other + elif how == "inner": + join_index = self.intersection(other, sort=sort) + elif how == "outer": + try: + join_index = self.union(other, sort=sort) + except TypeError: + join_index = self.union(other) + try: + join_index = _maybe_try_sort(join_index, sort) + except TypeError: + pass + + if join_index is self: + lindexer = None + else: + lindexer = self.get_indexer_for(join_index) + if join_index is other: + rindexer = None + else: + rindexer = other.get_indexer_for(join_index) + return join_index, lindexer, rindexer + + @final + def _join_multi(self, other: Index, how: JoinHow): + from pandas.core.indexes.multi import MultiIndex + from pandas.core.reshape.merge import restore_dropped_levels_multijoin + + # figure out join names + self_names_list = list(com.not_none(*self.names)) + other_names_list = list(com.not_none(*other.names)) + self_names_order = self_names_list.index + other_names_order = other_names_list.index + self_names = set(self_names_list) + other_names = set(other_names_list) + overlap = self_names & other_names + + # need at least 1 in common + if not overlap: + raise ValueError("cannot join with no overlapping index names") + + if isinstance(self, MultiIndex) and isinstance(other, MultiIndex): + # Drop the non-matching levels from left and right respectively + ldrop_names = sorted(self_names - overlap, key=self_names_order) + rdrop_names = sorted(other_names - overlap, key=other_names_order) + + # if only the order differs + if not len(ldrop_names + rdrop_names): + self_jnlevels = self + other_jnlevels = other.reorder_levels(self.names) + else: + self_jnlevels = self.droplevel(ldrop_names) + other_jnlevels = other.droplevel(rdrop_names) + + # Join left and right + # Join on same leveled multi-index frames is supported + join_idx, lidx, ridx = self_jnlevels.join( + other_jnlevels, how=how, return_indexers=True + ) + + # Restore the dropped levels + # Returned index level order is + # common levels, ldrop_names, rdrop_names + dropped_names = ldrop_names + rdrop_names + + # error: Argument 5/6 to "restore_dropped_levels_multijoin" has + # incompatible type "Optional[ndarray[Any, dtype[signedinteger[Any + # ]]]]"; expected "ndarray[Any, dtype[signedinteger[Any]]]" + levels, codes, names = restore_dropped_levels_multijoin( + self, + other, + dropped_names, + join_idx, + lidx, # type: ignore[arg-type] + ridx, # type: ignore[arg-type] + ) + + # Re-create the multi-index + multi_join_idx = MultiIndex( + levels=levels, codes=codes, names=names, verify_integrity=False + ) + + multi_join_idx = multi_join_idx.remove_unused_levels() + + # maintain the order of the index levels + if how == "right": + level_order = other_names_list + ldrop_names + else: + level_order = self_names_list + rdrop_names + multi_join_idx = multi_join_idx.reorder_levels(level_order) + + return multi_join_idx, lidx, ridx + + jl = next(iter(overlap)) + + # Case where only one index is multi + # make the indices into mi's that match + flip_order = False + if isinstance(self, MultiIndex): + self, other = other, self + flip_order = True + # flip if join method is right or left + flip: dict[JoinHow, JoinHow] = {"right": "left", "left": "right"} + how = flip.get(how, how) + + level = other.names.index(jl) + result = self._join_level(other, level, how=how) + + if flip_order: + return result[0], result[2], result[1] + return result + + @final + def _join_non_unique( + self, other: Index, how: JoinHow = "left", sort: bool = False + ) -> tuple[Index, npt.NDArray[np.intp], npt.NDArray[np.intp]]: + from pandas.core.reshape.merge import get_join_indexers_non_unique + + # We only get here if dtypes match + assert self.dtype == other.dtype + + left_idx, right_idx = get_join_indexers_non_unique( + self._values, other._values, how=how, sort=sort + ) + mask = left_idx == -1 + + join_idx = self.take(left_idx) + right = other.take(right_idx) + join_index = join_idx.putmask(mask, right) + if isinstance(join_index, ABCMultiIndex) and how == "outer": + # test_join_index_levels + join_index = join_index._sort_levels_monotonic() + return join_index, left_idx, right_idx + + @final + def _join_level( + self, other: Index, level, how: JoinHow = "left", keep_order: bool = True + ) -> tuple[MultiIndex, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + """ + The join method *only* affects the level of the resulting + MultiIndex. Otherwise it just exactly aligns the Index data to the + labels of the level in the MultiIndex. + + If ```keep_order == True```, the order of the data indexed by the + MultiIndex will not be changed; otherwise, it will tie out + with `other`. + """ + from pandas.core.indexes.multi import MultiIndex + + def _get_leaf_sorter(labels: list[np.ndarray]) -> npt.NDArray[np.intp]: + """ + Returns sorter for the inner most level while preserving the + order of higher levels. + + Parameters + ---------- + labels : list[np.ndarray] + Each ndarray has signed integer dtype, not necessarily identical. + + Returns + ------- + np.ndarray[np.intp] + """ + if labels[0].size == 0: + return np.empty(0, dtype=np.intp) + + if len(labels) == 1: + return get_group_index_sorter(ensure_platform_int(labels[0])) + + # find indexers of beginning of each set of + # same-key labels w.r.t all but last level + tic = labels[0][:-1] != labels[0][1:] + for lab in labels[1:-1]: + tic |= lab[:-1] != lab[1:] + + starts = np.hstack(([True], tic, [True])).nonzero()[0] + lab = ensure_int64(labels[-1]) + return lib.get_level_sorter(lab, ensure_platform_int(starts)) + + if isinstance(self, MultiIndex) and isinstance(other, MultiIndex): + raise TypeError("Join on level between two MultiIndex objects is ambiguous") + + left, right = self, other + + flip_order = not isinstance(self, MultiIndex) + if flip_order: + left, right = right, left + flip: dict[JoinHow, JoinHow] = {"right": "left", "left": "right"} + how = flip.get(how, how) + + assert isinstance(left, MultiIndex) + + level = left._get_level_number(level) + old_level = left.levels[level] + + if not right.is_unique: + raise NotImplementedError( + "Index._join_level on non-unique index is not implemented" + ) + + new_level, left_lev_indexer, right_lev_indexer = old_level.join( + right, how=how, return_indexers=True + ) + + if left_lev_indexer is None: + if keep_order or len(left) == 0: + left_indexer = None + join_index = left + else: # sort the leaves + left_indexer = _get_leaf_sorter(left.codes[: level + 1]) + join_index = left[left_indexer] + + else: + left_lev_indexer = ensure_platform_int(left_lev_indexer) + rev_indexer = lib.get_reverse_indexer(left_lev_indexer, len(old_level)) + old_codes = left.codes[level] + + taker = old_codes[old_codes != -1] + new_lev_codes = rev_indexer.take(taker) + + new_codes = list(left.codes) + new_codes[level] = new_lev_codes + + new_levels = list(left.levels) + new_levels[level] = new_level + + if keep_order: # just drop missing values. o.w. keep order + left_indexer = np.arange(len(left), dtype=np.intp) + left_indexer = cast(np.ndarray, left_indexer) + mask = new_lev_codes != -1 + if not mask.all(): + new_codes = [lab[mask] for lab in new_codes] + left_indexer = left_indexer[mask] + + else: # tie out the order with other + if level == 0: # outer most level, take the fast route + max_new_lev = 0 if len(new_lev_codes) == 0 else new_lev_codes.max() + ngroups = 1 + max_new_lev + left_indexer, counts = libalgos.groupsort_indexer( + new_lev_codes, ngroups + ) + + # missing values are placed first; drop them! + left_indexer = left_indexer[counts[0] :] + new_codes = [lab[left_indexer] for lab in new_codes] + + else: # sort the leaves + mask = new_lev_codes != -1 + mask_all = mask.all() + if not mask_all: + new_codes = [lab[mask] for lab in new_codes] + + left_indexer = _get_leaf_sorter(new_codes[: level + 1]) + new_codes = [lab[left_indexer] for lab in new_codes] + + # left_indexers are w.r.t masked frame. + # reverse to original frame! + if not mask_all: + left_indexer = mask.nonzero()[0][left_indexer] + + join_index = MultiIndex( + levels=new_levels, + codes=new_codes, + names=left.names, + verify_integrity=False, + ) + + if right_lev_indexer is not None: + right_indexer = right_lev_indexer.take(join_index.codes[level]) + else: + right_indexer = join_index.codes[level] + + if flip_order: + left_indexer, right_indexer = right_indexer, left_indexer + + left_indexer = ( + None if left_indexer is None else ensure_platform_int(left_indexer) + ) + right_indexer = ( + None if right_indexer is None else ensure_platform_int(right_indexer) + ) + return join_index, left_indexer, right_indexer + + @final + def _join_monotonic( + self, other: Index, how: JoinHow = "left" + ) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + # We only get here with matching dtypes and both monotonic increasing + assert other.dtype == self.dtype + assert self._can_use_libjoin and other._can_use_libjoin + + if self.equals(other): + # This is a convenient place for this check, but its correctness + # does not depend on monotonicity, so it could go earlier + # in the calling method. + ret_index = other if how == "right" else self + return ret_index, None, None + + ridx: npt.NDArray[np.intp] | None + lidx: npt.NDArray[np.intp] | None + + if self.is_unique and other.is_unique: + # We can perform much better than the general case + if how == "left": + join_index = self + lidx = None + ridx = self._left_indexer_unique(other) + elif how == "right": + join_index = other + lidx = other._left_indexer_unique(self) + ridx = None + elif how == "inner": + join_array, lidx, ridx = self._inner_indexer(other) + join_index = self._wrap_joined_index(join_array, other, lidx, ridx) + elif how == "outer": + join_array, lidx, ridx = self._outer_indexer(other) + join_index = self._wrap_joined_index(join_array, other, lidx, ridx) + else: + if how == "left": + join_array, lidx, ridx = self._left_indexer(other) + elif how == "right": + join_array, ridx, lidx = other._left_indexer(self) + elif how == "inner": + join_array, lidx, ridx = self._inner_indexer(other) + elif how == "outer": + join_array, lidx, ridx = self._outer_indexer(other) + + assert lidx is not None + assert ridx is not None + + join_index = self._wrap_joined_index(join_array, other, lidx, ridx) + + lidx = None if lidx is None else ensure_platform_int(lidx) + ridx = None if ridx is None else ensure_platform_int(ridx) + return join_index, lidx, ridx + + def _wrap_joined_index( + self, + joined: ArrayLike, + other: Self, + lidx: npt.NDArray[np.intp], + ridx: npt.NDArray[np.intp], + ) -> Self: + assert other.dtype == self.dtype + + if isinstance(self, ABCMultiIndex): + name = self.names if self.names == other.names else None + # error: Incompatible return value type (got "MultiIndex", + # expected "Self") + mask = lidx == -1 + join_idx = self.take(lidx) + right = cast("MultiIndex", other.take(ridx)) + join_index = join_idx.putmask(mask, right)._sort_levels_monotonic() + return join_index.set_names(name) # type: ignore[return-value] + else: + name = get_op_result_name(self, other) + return self._constructor._with_infer(joined, name=name, dtype=self.dtype) + + @final + @cache_readonly + def _can_use_libjoin(self) -> bool: + """ + Whether we can use the fastpaths implemented in _libs.join. + + This is driven by whether (in monotonic increasing cases that are + guaranteed not to have NAs) we can convert to a np.ndarray without + making a copy. If we cannot, this negates the performance benefit + of using libjoin. + """ + if type(self) is Index: + # excludes EAs, but include masks, we get here with monotonic + # values only, meaning no NA + return ( + isinstance(self.dtype, np.dtype) + or isinstance(self._values, (ArrowExtensionArray, BaseMaskedArray)) + or ( + isinstance(self.dtype, StringDtype) + and self.dtype.storage == "python" + ) + ) + # Exclude index types where the conversion to numpy converts to object dtype, + # which negates the performance benefit of libjoin + # Subclasses should override to return False if _get_join_target is + # not zero-copy. + # TODO: exclude RangeIndex (which allocates memory)? + # Doing so seems to break test_concat_datetime_timezone + return not isinstance(self, (ABCIntervalIndex, ABCMultiIndex)) + + # -------------------------------------------------------------------- + # Uncategorized Methods + + @property + def values(self) -> ArrayLike: + """ + Return an array representing the data in the Index. + + .. warning:: + + We recommend using :attr:`Index.array` or + :meth:`Index.to_numpy`, depending on whether you need + a reference to the underlying data or a NumPy array. + + Returns + ------- + array: numpy.ndarray or ExtensionArray + + See Also + -------- + Index.array : Reference to the underlying data. + Index.to_numpy : A NumPy array representing the underlying data. + + Examples + -------- + For :class:`pandas.Index`: + + >>> idx = pd.Index([1, 2, 3]) + >>> idx + Index([1, 2, 3], dtype='int64') + >>> idx.values + array([1, 2, 3]) + + For :class:`pandas.IntervalIndex`: + + >>> idx = pd.interval_range(start=0, end=5) + >>> idx.values + + [(0, 1], (1, 2], (2, 3], (3, 4], (4, 5]] + Length: 5, dtype: interval[int64, right] + """ + if using_copy_on_write(): + data = self._data + if isinstance(data, np.ndarray): + data = data.view() + data.flags.writeable = False + return data + return self._data + + @cache_readonly + @doc(IndexOpsMixin.array) + def array(self) -> ExtensionArray: + array = self._data + if isinstance(array, np.ndarray): + from pandas.core.arrays.numpy_ import NumpyExtensionArray + + array = NumpyExtensionArray(array) + return array + + @property + def _values(self) -> ExtensionArray | np.ndarray: + """ + The best array representation. + + This is an ndarray or ExtensionArray. + + ``_values`` are consistent between ``Series`` and ``Index``. + + It may differ from the public '.values' method. + + index | values | _values | + ----------------- | --------------- | ------------- | + Index | ndarray | ndarray | + CategoricalIndex | Categorical | Categorical | + DatetimeIndex | ndarray[M8ns] | DatetimeArray | + DatetimeIndex[tz] | ndarray[M8ns] | DatetimeArray | + PeriodIndex | ndarray[object] | PeriodArray | + IntervalIndex | IntervalArray | IntervalArray | + + See Also + -------- + values : Values + """ + return self._data + + def _get_engine_target(self) -> ArrayLike: + """ + Get the ndarray or ExtensionArray that we can pass to the IndexEngine + constructor. + """ + vals = self._values + if isinstance(vals, StringArray): + # GH#45652 much more performant than ExtensionEngine + return vals._ndarray + if isinstance(vals, ArrowExtensionArray) and self.dtype.kind in "Mm": + import pyarrow as pa + + pa_type = vals._pa_array.type + if pa.types.is_timestamp(pa_type): + vals = vals._to_datetimearray() + return vals._ndarray.view("i8") + elif pa.types.is_duration(pa_type): + vals = vals._to_timedeltaarray() + return vals._ndarray.view("i8") + if ( + type(self) is Index + and isinstance(self._values, ExtensionArray) + and not isinstance(self._values, BaseMaskedArray) + and not ( + isinstance(self._values, ArrowExtensionArray) + and is_numeric_dtype(self.dtype) + # Exclude decimal + and self.dtype.kind != "O" + ) + ): + # TODO(ExtensionIndex): remove special-case, just use self._values + return self._values.astype(object) + return vals + + @final + def _get_join_target(self) -> np.ndarray: + """ + Get the ndarray or ExtensionArray that we can pass to the join + functions. + """ + if isinstance(self._values, BaseMaskedArray): + # This is only used if our array is monotonic, so no NAs present + return self._values._data + elif isinstance(self._values, ArrowExtensionArray): + # This is only used if our array is monotonic, so no missing values + # present + return self._values.to_numpy() + + # TODO: exclude ABCRangeIndex case here as it copies + target = self._get_engine_target() + if not isinstance(target, np.ndarray): + raise ValueError("_can_use_libjoin should return False.") + return target + + def _from_join_target(self, result: np.ndarray) -> ArrayLike: + """ + Cast the ndarray returned from one of the libjoin.foo_indexer functions + back to type(self._data). + """ + if isinstance(self.values, BaseMaskedArray): + return type(self.values)(result, np.zeros(result.shape, dtype=np.bool_)) + elif isinstance(self.values, (ArrowExtensionArray, StringArray)): + return type(self.values)._from_sequence(result, dtype=self.dtype) + return result + + @doc(IndexOpsMixin._memory_usage) + def memory_usage(self, deep: bool = False) -> int: + result = self._memory_usage(deep=deep) + + # include our engine hashtable + result += self._engine.sizeof(deep=deep) + return result + + @final + def where(self, cond, other=None) -> Index: + """ + Replace values where the condition is False. + + The replacement is taken from other. + + Parameters + ---------- + cond : bool array-like with the same length as self + Condition to select the values on. + other : scalar, or array-like, default None + Replacement if the condition is False. + + Returns + ------- + pandas.Index + A copy of self with values replaced from other + where the condition is False. + + See Also + -------- + Series.where : Same method for Series. + DataFrame.where : Same method for DataFrame. + + Examples + -------- + >>> idx = pd.Index(['car', 'bike', 'train', 'tractor']) + >>> idx + Index(['car', 'bike', 'train', 'tractor'], dtype='object') + >>> idx.where(idx.isin(['car', 'train']), 'other') + Index(['car', 'other', 'train', 'other'], dtype='object') + """ + if isinstance(self, ABCMultiIndex): + raise NotImplementedError( + ".where is not supported for MultiIndex operations" + ) + cond = np.asarray(cond, dtype=bool) + return self.putmask(~cond, other) + + # construction helpers + @final + @classmethod + def _raise_scalar_data_error(cls, data): + # We return the TypeError so that we can raise it from the constructor + # in order to keep mypy happy + raise TypeError( + f"{cls.__name__}(...) must be called with a collection of some " + f"kind, {repr(data) if not isinstance(data, np.generic) else str(data)} " + "was passed" + ) + + def _validate_fill_value(self, value): + """ + Check if the value can be inserted into our array without casting, + and convert it to an appropriate native type if necessary. + + Raises + ------ + TypeError + If the value cannot be inserted into an array of this dtype. + """ + dtype = self.dtype + if isinstance(dtype, np.dtype) and dtype.kind not in "mM": + # return np_can_hold_element(dtype, value) + try: + return np_can_hold_element(dtype, value) + except LossySetitemError as err: + # re-raise as TypeError for consistency + raise TypeError from err + elif not can_hold_element(self._values, value): + raise TypeError + return value + + def _is_memory_usage_qualified(self) -> bool: + """ + Return a boolean if we need a qualified .info display. + """ + return is_object_dtype(self.dtype) or ( + is_string_dtype(self.dtype) and self.dtype.storage == "python" # type: ignore[union-attr] + ) + + def __contains__(self, key: Any) -> bool: + """ + Return a boolean indicating whether the provided key is in the index. + + Parameters + ---------- + key : label + The key to check if it is present in the index. + + Returns + ------- + bool + Whether the key search is in the index. + + Raises + ------ + TypeError + If the key is not hashable. + + See Also + -------- + Index.isin : Returns an ndarray of boolean dtype indicating whether the + list-like key is in the index. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3, 4]) + >>> idx + Index([1, 2, 3, 4], dtype='int64') + + >>> 2 in idx + True + >>> 6 in idx + False + """ + hash(key) + try: + return key in self._engine + except (OverflowError, TypeError, ValueError): + return False + + # https://github.com/python/typeshed/issues/2148#issuecomment-520783318 + # Incompatible types in assignment (expression has type "None", base class + # "object" defined the type as "Callable[[object], int]") + __hash__: ClassVar[None] # type: ignore[assignment] + + @final + def __setitem__(self, key, value) -> None: + raise TypeError("Index does not support mutable operations") + + def __getitem__(self, key): + """ + Override numpy.ndarray's __getitem__ method to work as desired. + + This function adds lists and Series as valid boolean indexers + (ndarrays only supports ndarray with dtype=bool). + + If resulting ndim != 1, plain ndarray is returned instead of + corresponding `Index` subclass. + + """ + getitem = self._data.__getitem__ + + if is_integer(key) or is_float(key): + # GH#44051 exclude bool, which would return a 2d ndarray + key = com.cast_scalar_indexer(key) + return getitem(key) + + if isinstance(key, slice): + # This case is separated from the conditional above to avoid + # pessimization com.is_bool_indexer and ndim checks. + return self._getitem_slice(key) + + if com.is_bool_indexer(key): + # if we have list[bools, length=1e5] then doing this check+convert + # takes 166 µs + 2.1 ms and cuts the ndarray.__getitem__ + # time below from 3.8 ms to 496 µs + # if we already have ndarray[bool], the overhead is 1.4 µs or .25% + if isinstance(getattr(key, "dtype", None), ExtensionDtype): + key = key.to_numpy(dtype=bool, na_value=False) + else: + key = np.asarray(key, dtype=bool) + + if not isinstance(self.dtype, ExtensionDtype): + if len(key) == 0 and len(key) != len(self): + warnings.warn( + "Using a boolean indexer with length 0 on an Index with " + "length greater than 0 is deprecated and will raise in a " + "future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + result = getitem(key) + # Because we ruled out integer above, we always get an arraylike here + if result.ndim > 1: + disallow_ndim_indexing(result) + + # NB: Using _constructor._simple_new would break if MultiIndex + # didn't override __getitem__ + return self._constructor._simple_new(result, name=self._name) + + def _getitem_slice(self, slobj: slice) -> Self: + """ + Fastpath for __getitem__ when we know we have a slice. + """ + res = self._data[slobj] + result = type(self)._simple_new(res, name=self._name, refs=self._references) + if "_engine" in self._cache: + reverse = slobj.step is not None and slobj.step < 0 + result._engine._update_from_sliced(self._engine, reverse=reverse) # type: ignore[union-attr] + + return result + + @final + def _can_hold_identifiers_and_holds_name(self, name) -> bool: + """ + Faster check for ``name in self`` when we know `name` is a Python + identifier (e.g. in NDFrame.__getattr__, which hits this to support + . key lookup). For indexes that can't hold identifiers (everything + but object & categorical) we just return False. + + https://github.com/pandas-dev/pandas/issues/19764 + """ + if ( + is_object_dtype(self.dtype) + or is_string_dtype(self.dtype) + or isinstance(self.dtype, CategoricalDtype) + ): + return name in self + return False + + def append(self, other: Index | Sequence[Index]) -> Index: + """ + Append a collection of Index options together. + + Parameters + ---------- + other : Index or list/tuple of indices + + Returns + ------- + Index + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx.append(pd.Index([4])) + Index([1, 2, 3, 4], dtype='int64') + """ + to_concat = [self] + + if isinstance(other, (list, tuple)): + to_concat += list(other) + else: + # error: Argument 1 to "append" of "list" has incompatible type + # "Union[Index, Sequence[Index]]"; expected "Index" + to_concat.append(other) # type: ignore[arg-type] + + for obj in to_concat: + if not isinstance(obj, Index): + raise TypeError("all inputs must be Index") + + names = {obj.name for obj in to_concat} + name = None if len(names) > 1 else self.name + + return self._concat(to_concat, name) + + def _concat(self, to_concat: list[Index], name: Hashable) -> Index: + """ + Concatenate multiple Index objects. + """ + to_concat_vals = [x._values for x in to_concat] + + result = concat_compat(to_concat_vals) + + return Index._with_infer(result, name=name) + + def putmask(self, mask, value) -> Index: + """ + Return a new Index of the values set with the mask. + + Returns + ------- + Index + + See Also + -------- + numpy.ndarray.putmask : Changes elements of an array + based on conditional and input values. + + Examples + -------- + >>> idx1 = pd.Index([1, 2, 3]) + >>> idx2 = pd.Index([5, 6, 7]) + >>> idx1.putmask([True, False, False], idx2) + Index([5, 2, 3], dtype='int64') + """ + mask, noop = validate_putmask(self._values, mask) + if noop: + return self.copy() + + if self.dtype != object and is_valid_na_for_dtype(value, self.dtype): + # e.g. None -> np.nan, see also Block._standardize_fill_value + value = self._na_value + + try: + converted = self._validate_fill_value(value) + except (LossySetitemError, ValueError, TypeError) as err: + if is_object_dtype(self.dtype): # pragma: no cover + raise err + + # See also: Block.coerce_to_target_dtype + dtype = self._find_common_type_compat(value) + return self.astype(dtype).putmask(mask, value) + + values = self._values.copy() + + if isinstance(values, np.ndarray): + converted = setitem_datetimelike_compat(values, mask.sum(), converted) + np.putmask(values, mask, converted) + + else: + # Note: we use the original value here, not converted, as + # _validate_fill_value is not idempotent + values._putmask(mask, value) + + return self._shallow_copy(values) + + def equals(self, other: Any) -> bool: + """ + Determine if two Index object are equal. + + The things that are being compared are: + + * The elements inside the Index object. + * The order of the elements inside the Index object. + + Parameters + ---------- + other : Any + The other object to compare against. + + Returns + ------- + bool + True if "other" is an Index and it has the same elements and order + as the calling index; False otherwise. + + Examples + -------- + >>> idx1 = pd.Index([1, 2, 3]) + >>> idx1 + Index([1, 2, 3], dtype='int64') + >>> idx1.equals(pd.Index([1, 2, 3])) + True + + The elements inside are compared + + >>> idx2 = pd.Index(["1", "2", "3"]) + >>> idx2 + Index(['1', '2', '3'], dtype='object') + + >>> idx1.equals(idx2) + False + + The order is compared + + >>> ascending_idx = pd.Index([1, 2, 3]) + >>> ascending_idx + Index([1, 2, 3], dtype='int64') + >>> descending_idx = pd.Index([3, 2, 1]) + >>> descending_idx + Index([3, 2, 1], dtype='int64') + >>> ascending_idx.equals(descending_idx) + False + + The dtype is *not* compared + + >>> int64_idx = pd.Index([1, 2, 3], dtype='int64') + >>> int64_idx + Index([1, 2, 3], dtype='int64') + >>> uint64_idx = pd.Index([1, 2, 3], dtype='uint64') + >>> uint64_idx + Index([1, 2, 3], dtype='uint64') + >>> int64_idx.equals(uint64_idx) + True + """ + if self.is_(other): + return True + + if not isinstance(other, Index): + return False + + if len(self) != len(other): + # quickly return if the lengths are different + return False + + if ( + isinstance(self.dtype, StringDtype) + and self.dtype.na_value is np.nan + and other.dtype != self.dtype + ): + # TODO(infer_string) can we avoid this special case? + # special case for object behavior + return other.equals(self.astype(object)) + + if is_object_dtype(self.dtype) and not is_object_dtype(other.dtype): + # if other is not object, use other's logic for coercion + return other.equals(self) + + if isinstance(other, ABCMultiIndex): + # d-level MultiIndex can equal d-tuple Index + return other.equals(self) + + if isinstance(self._values, ExtensionArray): + # Dispatch to the ExtensionArray's .equals method. + if not isinstance(other, type(self)): + return False + + earr = cast(ExtensionArray, self._data) + return earr.equals(other._data) + + if isinstance(other.dtype, ExtensionDtype): + # All EA-backed Index subclasses override equals + return other.equals(self) + + return array_equivalent(self._values, other._values) + + @final + def identical(self, other) -> bool: + """ + Similar to equals, but checks that object attributes and types are also equal. + + Returns + ------- + bool + If two Index objects have equal elements and same type True, + otherwise False. + + Examples + -------- + >>> idx1 = pd.Index(['1', '2', '3']) + >>> idx2 = pd.Index(['1', '2', '3']) + >>> idx2.identical(idx1) + True + + >>> idx1 = pd.Index(['1', '2', '3'], name="A") + >>> idx2 = pd.Index(['1', '2', '3'], name="B") + >>> idx2.identical(idx1) + False + """ + return ( + self.equals(other) + and all( + getattr(self, c, None) == getattr(other, c, None) + for c in self._comparables + ) + and type(self) == type(other) + and self.dtype == other.dtype + ) + + @final + def asof(self, label): + """ + Return the label from the index, or, if not present, the previous one. + + Assuming that the index is sorted, return the passed index label if it + is in the index, or return the previous index label if the passed one + is not in the index. + + Parameters + ---------- + label : object + The label up to which the method returns the latest index label. + + Returns + ------- + object + The passed label if it is in the index. The previous label if the + passed label is not in the sorted index or `NaN` if there is no + such label. + + See Also + -------- + Series.asof : Return the latest value in a Series up to the + passed index. + merge_asof : Perform an asof merge (similar to left join but it + matches on nearest key rather than equal key). + Index.get_loc : An `asof` is a thin wrapper around `get_loc` + with method='pad'. + + Examples + -------- + `Index.asof` returns the latest index label up to the passed label. + + >>> idx = pd.Index(['2013-12-31', '2014-01-02', '2014-01-03']) + >>> idx.asof('2014-01-01') + '2013-12-31' + + If the label is in the index, the method returns the passed label. + + >>> idx.asof('2014-01-02') + '2014-01-02' + + If all of the labels in the index are later than the passed label, + NaN is returned. + + >>> idx.asof('1999-01-02') + nan + + If the index is not sorted, an error is raised. + + >>> idx_not_sorted = pd.Index(['2013-12-31', '2015-01-02', + ... '2014-01-03']) + >>> idx_not_sorted.asof('2013-12-31') + Traceback (most recent call last): + ValueError: index must be monotonic increasing or decreasing + """ + self._searchsorted_monotonic(label) # validate sortedness + try: + loc = self.get_loc(label) + except (KeyError, TypeError): + # KeyError -> No exact match, try for padded + # TypeError -> passed e.g. non-hashable, fall through to get + # the tested exception message + indexer = self.get_indexer([label], method="pad") + if indexer.ndim > 1 or indexer.size > 1: + raise TypeError("asof requires scalar valued input") + loc = indexer.item() + if loc == -1: + return self._na_value + else: + if isinstance(loc, slice): + loc = loc.indices(len(self))[-1] + + return self[loc] + + def asof_locs( + self, where: Index, mask: npt.NDArray[np.bool_] + ) -> npt.NDArray[np.intp]: + """ + Return the locations (indices) of labels in the index. + + As in the :meth:`pandas.Index.asof`, if the label (a particular entry in + ``where``) is not in the index, the latest index label up to the + passed label is chosen and its index returned. + + If all of the labels in the index are later than a label in ``where``, + -1 is returned. + + ``mask`` is used to ignore ``NA`` values in the index during calculation. + + Parameters + ---------- + where : Index + An Index consisting of an array of timestamps. + mask : np.ndarray[bool] + Array of booleans denoting where values in the original + data are not ``NA``. + + Returns + ------- + np.ndarray[np.intp] + An array of locations (indices) of the labels from the index + which correspond to the return values of :meth:`pandas.Index.asof` + for every element in ``where``. + + See Also + -------- + Index.asof : Return the label from the index, or, if not present, the + previous one. + + Examples + -------- + >>> idx = pd.date_range('2023-06-01', periods=3, freq='D') + >>> where = pd.DatetimeIndex(['2023-05-30 00:12:00', '2023-06-01 00:00:00', + ... '2023-06-02 23:59:59']) + >>> mask = np.ones(3, dtype=bool) + >>> idx.asof_locs(where, mask) + array([-1, 0, 1]) + + We can use ``mask`` to ignore certain values in the index during calculation. + + >>> mask[1] = False + >>> idx.asof_locs(where, mask) + array([-1, 0, 0]) + """ + # error: No overload variant of "searchsorted" of "ndarray" matches argument + # types "Union[ExtensionArray, ndarray[Any, Any]]", "str" + # TODO: will be fixed when ExtensionArray.searchsorted() is fixed + locs = self._values[mask].searchsorted( + where._values, side="right" # type: ignore[call-overload] + ) + locs = np.where(locs > 0, locs - 1, 0) + + result = np.arange(len(self), dtype=np.intp)[mask].take(locs) + + first_value = self._values[mask.argmax()] + result[(locs == 0) & (where._values < first_value)] = -1 + + return result + + @overload + def sort_values( + self, + *, + return_indexer: Literal[False] = ..., + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> Self: + ... + + @overload + def sort_values( + self, + *, + return_indexer: Literal[True], + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> tuple[Self, np.ndarray]: + ... + + @overload + def sort_values( + self, + *, + return_indexer: bool = ..., + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> Self | tuple[Self, np.ndarray]: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self"], name="sort_values" + ) + def sort_values( + self, + return_indexer: bool = False, + ascending: bool = True, + na_position: NaPosition = "last", + key: Callable | None = None, + ) -> Self | tuple[Self, np.ndarray]: + """ + Return a sorted copy of the index. + + Return a sorted copy of the index, and optionally return the indices + that sorted the index itself. + + Parameters + ---------- + return_indexer : bool, default False + Should the indices that would sort the index be returned. + ascending : bool, default True + Should the index values be sorted in an ascending order. + na_position : {'first' or 'last'}, default 'last' + Argument 'first' puts NaNs at the beginning, 'last' puts NaNs at + the end. + key : callable, optional + If not None, apply the key function to the index values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect an + ``Index`` and return an ``Index`` of the same shape. + + Returns + ------- + sorted_index : pandas.Index + Sorted copy of the index. + indexer : numpy.ndarray, optional + The indices that the index itself was sorted by. + + See Also + -------- + Series.sort_values : Sort values of a Series. + DataFrame.sort_values : Sort values in a DataFrame. + + Examples + -------- + >>> idx = pd.Index([10, 100, 1, 1000]) + >>> idx + Index([10, 100, 1, 1000], dtype='int64') + + Sort values in ascending order (default behavior). + + >>> idx.sort_values() + Index([1, 10, 100, 1000], dtype='int64') + + Sort values in descending order, and also get the indices `idx` was + sorted by. + + >>> idx.sort_values(ascending=False, return_indexer=True) + (Index([1000, 100, 10, 1], dtype='int64'), array([3, 1, 0, 2])) + """ + if key is None and ( + (ascending and self.is_monotonic_increasing) + or (not ascending and self.is_monotonic_decreasing) + ): + if return_indexer: + indexer = np.arange(len(self), dtype=np.intp) + return self.copy(), indexer + else: + return self.copy() + + # GH 35584. Sort missing values according to na_position kwarg + # ignore na_position for MultiIndex + if not isinstance(self, ABCMultiIndex): + _as = nargsort( + items=self, ascending=ascending, na_position=na_position, key=key + ) + else: + idx = cast(Index, ensure_key_mapped(self, key)) + _as = idx.argsort(na_position=na_position) + if not ascending: + _as = _as[::-1] + + sorted_index = self.take(_as) + + if return_indexer: + return sorted_index, _as + else: + return sorted_index + + @final + def sort(self, *args, **kwargs): + """ + Use sort_values instead. + """ + raise TypeError("cannot sort an Index object in-place, use sort_values instead") + + def shift(self, periods: int = 1, freq=None): + """ + Shift index by desired number of time frequency increments. + + This method is for shifting the values of datetime-like indexes + by a specified time increment a given number of times. + + Parameters + ---------- + periods : int, default 1 + Number of periods (or increments) to shift by, + can be positive or negative. + freq : pandas.DateOffset, pandas.Timedelta or str, optional + Frequency increment to shift by. + If None, the index is shifted by its own `freq` attribute. + Offset aliases are valid strings, e.g., 'D', 'W', 'M' etc. + + Returns + ------- + pandas.Index + Shifted index. + + See Also + -------- + Series.shift : Shift values of Series. + + Notes + ----- + This method is only implemented for datetime-like index classes, + i.e., DatetimeIndex, PeriodIndex and TimedeltaIndex. + + Examples + -------- + Put the first 5 month starts of 2011 into an index. + + >>> month_starts = pd.date_range('1/1/2011', periods=5, freq='MS') + >>> month_starts + DatetimeIndex(['2011-01-01', '2011-02-01', '2011-03-01', '2011-04-01', + '2011-05-01'], + dtype='datetime64[ns]', freq='MS') + + Shift the index by 10 days. + + >>> month_starts.shift(10, freq='D') + DatetimeIndex(['2011-01-11', '2011-02-11', '2011-03-11', '2011-04-11', + '2011-05-11'], + dtype='datetime64[ns]', freq=None) + + The default value of `freq` is the `freq` attribute of the index, + which is 'MS' (month start) in this example. + + >>> month_starts.shift(10) + DatetimeIndex(['2011-11-01', '2011-12-01', '2012-01-01', '2012-02-01', + '2012-03-01'], + dtype='datetime64[ns]', freq='MS') + """ + raise NotImplementedError( + f"This method is only implemented for DatetimeIndex, PeriodIndex and " + f"TimedeltaIndex; Got type {type(self).__name__}" + ) + + def argsort(self, *args, **kwargs) -> npt.NDArray[np.intp]: + """ + Return the integer indices that would sort the index. + + Parameters + ---------- + *args + Passed to `numpy.ndarray.argsort`. + **kwargs + Passed to `numpy.ndarray.argsort`. + + Returns + ------- + np.ndarray[np.intp] + Integer indices that would sort the index if used as + an indexer. + + See Also + -------- + numpy.argsort : Similar method for NumPy arrays. + Index.sort_values : Return sorted copy of Index. + + Examples + -------- + >>> idx = pd.Index(['b', 'a', 'd', 'c']) + >>> idx + Index(['b', 'a', 'd', 'c'], dtype='object') + + >>> order = idx.argsort() + >>> order + array([1, 0, 3, 2]) + + >>> idx[order] + Index(['a', 'b', 'c', 'd'], dtype='object') + """ + # This works for either ndarray or EA, is overridden + # by RangeIndex, MultIIndex + return self._data.argsort(*args, **kwargs) + + def _check_indexing_error(self, key): + if not is_scalar(key): + # if key is not a scalar, directly raise an error (the code below + # would convert to numpy arrays and raise later any way) - GH29926 + raise InvalidIndexError(key) + + @cache_readonly + def _should_fallback_to_positional(self) -> bool: + """ + Should an integer key be treated as positional? + """ + return self.inferred_type not in { + "integer", + "mixed-integer", + "floating", + "complex", + } + + _index_shared_docs[ + "get_indexer_non_unique" + ] = """ + Compute indexer and mask for new index given the current index. + + The indexer should be then used as an input to ndarray.take to align the + current data to the new index. + + Parameters + ---------- + target : %(target_klass)s + + Returns + ------- + indexer : np.ndarray[np.intp] + Integers from 0 to n - 1 indicating that the index at these + positions matches the corresponding target values. Missing values + in the target are marked by -1. + missing : np.ndarray[np.intp] + An indexer into the target of the values not found. + These correspond to the -1 in the indexer array. + + Examples + -------- + >>> index = pd.Index(['c', 'b', 'a', 'b', 'b']) + >>> index.get_indexer_non_unique(['b', 'b']) + (array([1, 3, 4, 1, 3, 4]), array([], dtype=int64)) + + In the example below there are no matched values. + + >>> index = pd.Index(['c', 'b', 'a', 'b', 'b']) + >>> index.get_indexer_non_unique(['q', 'r', 't']) + (array([-1, -1, -1]), array([0, 1, 2])) + + For this reason, the returned ``indexer`` contains only integers equal to -1. + It demonstrates that there's no match between the index and the ``target`` + values at these positions. The mask [0, 1, 2] in the return value shows that + the first, second, and third elements are missing. + + Notice that the return value is a tuple contains two items. In the example + below the first item is an array of locations in ``index``. The second + item is a mask shows that the first and third elements are missing. + + >>> index = pd.Index(['c', 'b', 'a', 'b', 'b']) + >>> index.get_indexer_non_unique(['f', 'b', 's']) + (array([-1, 1, 3, 4, -1]), array([0, 2])) + """ + + @Appender(_index_shared_docs["get_indexer_non_unique"] % _index_doc_kwargs) + def get_indexer_non_unique( + self, target + ) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + target = self._maybe_cast_listlike_indexer(target) + + if not self._should_compare(target) and not self._should_partial_index(target): + # _should_partial_index e.g. IntervalIndex with numeric scalars + # that can be matched to Interval scalars. + return self._get_indexer_non_comparable(target, method=None, unique=False) + + pself, ptarget = self._maybe_downcast_for_indexing(target) + if pself is not self or ptarget is not target: + return pself.get_indexer_non_unique(ptarget) + + if self.dtype != target.dtype: + # TODO: if object, could use infer_dtype to preempt costly + # conversion if still non-comparable? + dtype = self._find_common_type_compat(target) + + this = self.astype(dtype, copy=False) + that = target.astype(dtype, copy=False) + return this.get_indexer_non_unique(that) + + # TODO: get_indexer has fastpaths for both Categorical-self and + # Categorical-target. Can we do something similar here? + + # Note: _maybe_downcast_for_indexing ensures we never get here + # with MultiIndex self and non-Multi target + if self._is_multi and target._is_multi: + engine = self._engine + # Item "IndexEngine" of "Union[IndexEngine, ExtensionEngine]" has + # no attribute "_extract_level_codes" + tgt_values = engine._extract_level_codes(target) # type: ignore[union-attr] + else: + tgt_values = target._get_engine_target() + + indexer, missing = self._engine.get_indexer_non_unique(tgt_values) + return ensure_platform_int(indexer), ensure_platform_int(missing) + + @final + def get_indexer_for(self, target) -> npt.NDArray[np.intp]: + """ + Guaranteed return of an indexer even when non-unique. + + This dispatches to get_indexer or get_indexer_non_unique + as appropriate. + + Returns + ------- + np.ndarray[np.intp] + List of indices. + + Examples + -------- + >>> idx = pd.Index([np.nan, 'var1', np.nan]) + >>> idx.get_indexer_for([np.nan]) + array([0, 2]) + """ + if self._index_as_unique: + return self.get_indexer(target) + indexer, _ = self.get_indexer_non_unique(target) + return indexer + + def _get_indexer_strict(self, key, axis_name: str_t) -> tuple[Index, np.ndarray]: + """ + Analogue to get_indexer that raises if any elements are missing. + """ + keyarr = key + if not isinstance(keyarr, Index): + keyarr = com.asarray_tuplesafe(keyarr) + + if self._index_as_unique: + indexer = self.get_indexer_for(keyarr) + keyarr = self.reindex(keyarr)[0] + else: + keyarr, indexer, new_indexer = self._reindex_non_unique(keyarr) + + self._raise_if_missing(keyarr, indexer, axis_name) + + keyarr = self.take(indexer) + if isinstance(key, Index): + # GH 42790 - Preserve name from an Index + keyarr.name = key.name + if lib.is_np_dtype(keyarr.dtype, "mM") or isinstance( + keyarr.dtype, DatetimeTZDtype + ): + # DTI/TDI.take can infer a freq in some cases when we dont want one + if isinstance(key, list) or ( + isinstance(key, type(self)) + # "Index" has no attribute "freq" + and key.freq is None # type: ignore[attr-defined] + ): + keyarr = keyarr._with_freq(None) + + return keyarr, indexer + + def _raise_if_missing(self, key, indexer, axis_name: str_t) -> None: + """ + Check that indexer can be used to return a result. + + e.g. at least one element was found, + unless the list of keys was actually empty. + + Parameters + ---------- + key : list-like + Targeted labels (only used to show correct error message). + indexer: array-like of booleans + Indices corresponding to the key, + (with -1 indicating not found). + axis_name : str + + Raises + ------ + KeyError + If at least one key was requested but none was found. + """ + if len(key) == 0: + return + + # Count missing values + missing_mask = indexer < 0 + nmissing = missing_mask.sum() + + if nmissing: + if nmissing == len(indexer): + raise KeyError(f"None of [{key}] are in the [{axis_name}]") + + not_found = list(ensure_index(key)[missing_mask.nonzero()[0]].unique()) + raise KeyError(f"{not_found} not in index") + + @overload + def _get_indexer_non_comparable( + self, target: Index, method, unique: Literal[True] = ... + ) -> npt.NDArray[np.intp]: + ... + + @overload + def _get_indexer_non_comparable( + self, target: Index, method, unique: Literal[False] + ) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + ... + + @overload + def _get_indexer_non_comparable( + self, target: Index, method, unique: bool = True + ) -> npt.NDArray[np.intp] | tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + ... + + @final + def _get_indexer_non_comparable( + self, target: Index, method, unique: bool = True + ) -> npt.NDArray[np.intp] | tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """ + Called from get_indexer or get_indexer_non_unique when the target + is of a non-comparable dtype. + + For get_indexer lookups with method=None, get_indexer is an _equality_ + check, so non-comparable dtypes mean we will always have no matches. + + For get_indexer lookups with a method, get_indexer is an _inequality_ + check, so non-comparable dtypes mean we will always raise TypeError. + + Parameters + ---------- + target : Index + method : str or None + unique : bool, default True + * True if called from get_indexer. + * False if called from get_indexer_non_unique. + + Raises + ------ + TypeError + If doing an inequality check, i.e. method is not None. + """ + if method is not None: + other_dtype = _unpack_nested_dtype(target) + raise TypeError(f"Cannot compare dtypes {self.dtype} and {other_dtype}") + + no_matches = -1 * np.ones(target.shape, dtype=np.intp) + if unique: + # This is for get_indexer + return no_matches + else: + # This is for get_indexer_non_unique + missing = np.arange(len(target), dtype=np.intp) + return no_matches, missing + + @property + def _index_as_unique(self) -> bool: + """ + Whether we should treat this as unique for the sake of + get_indexer vs get_indexer_non_unique. + + For IntervalIndex compat. + """ + return self.is_unique + + _requires_unique_msg = "Reindexing only valid with uniquely valued Index objects" + + @final + def _maybe_downcast_for_indexing(self, other: Index) -> tuple[Index, Index]: + """ + When dealing with an object-dtype Index and a non-object Index, see + if we can upcast the object-dtype one to improve performance. + """ + + if isinstance(self, ABCDatetimeIndex) and isinstance(other, ABCDatetimeIndex): + if ( + self.tz is not None + and other.tz is not None + and not tz_compare(self.tz, other.tz) + ): + # standardize on UTC + return self.tz_convert("UTC"), other.tz_convert("UTC") + + elif self.inferred_type == "date" and isinstance(other, ABCDatetimeIndex): + try: + return type(other)(self), other + except OutOfBoundsDatetime: + return self, other + elif self.inferred_type == "timedelta" and isinstance(other, ABCTimedeltaIndex): + # TODO: we dont have tests that get here + return type(other)(self), other + + elif self.dtype.kind == "u" and other.dtype.kind == "i": + # GH#41873 + if other.min() >= 0: + # lookup min as it may be cached + # TODO: may need itemsize check if we have non-64-bit Indexes + return self, other.astype(self.dtype) + + elif self._is_multi and not other._is_multi: + try: + # "Type[Index]" has no attribute "from_tuples" + other = type(self).from_tuples(other) # type: ignore[attr-defined] + except (TypeError, ValueError): + # let's instead try with a straight Index + self = Index(self._values) + + if not is_object_dtype(self.dtype) and is_object_dtype(other.dtype): + # Reverse op so we dont need to re-implement on the subclasses + other, self = other._maybe_downcast_for_indexing(self) + + return self, other + + @final + def _find_common_type_compat(self, target) -> DtypeObj: + """ + Implementation of find_common_type that adjusts for Index-specific + special cases. + """ + target_dtype, _ = infer_dtype_from(target) + + if using_string_dtype(): + # special case: if left or right is a zero-length RangeIndex or + # Index[object], those can be created by the default empty constructors + # -> for that case ignore this dtype and always return the other + # (https://github.com/pandas-dev/pandas/pull/60797) + from pandas.core.indexes.range import RangeIndex + + if len(self) == 0 and ( + isinstance(self, RangeIndex) or self.dtype == np.object_ + ): + if target_dtype.kind == "M": + if hasattr(target_dtype, "tz"): + target_dtype_ns = DatetimeTZDtype("ns", tz=target_dtype.tz) + else: + target_dtype_ns = np.dtype("datetime64[ns]") # type: ignore[assignment] + try: + Index(target, dtype=target_dtype_ns, copy=False) + except OutOfBoundsDatetime: + return np.dtype(object) + except Exception: + pass + return target_dtype_ns + return target_dtype + if ( + isinstance(target, Index) + and len(target) == 0 + and (isinstance(target, RangeIndex) or target_dtype == np.object_) + ): + return self.dtype + + # special case: if one dtype is uint64 and the other a signed int, return object + # See https://github.com/pandas-dev/pandas/issues/26778 for discussion + # Now it's: + # * float | [u]int -> float + # * uint64 | signed int -> object + # We may change union(float | [u]int) to go to object. + if self.dtype == "uint64" or target_dtype == "uint64": + if is_signed_integer_dtype(self.dtype) or is_signed_integer_dtype( + target_dtype + ): + return _dtype_obj + + dtype = find_result_type(self.dtype, target) + dtype = common_dtype_categorical_compat([self, target], dtype) + return dtype + + @final + def _should_compare(self, other: Index) -> bool: + """ + Check if `self == other` can ever have non-False entries. + """ + + # NB: we use inferred_type rather than is_bool_dtype to catch + # object_dtype_of_bool and categorical[object_dtype_of_bool] cases + if ( + other.inferred_type == "boolean" and is_any_real_numeric_dtype(self.dtype) + ) or ( + self.inferred_type == "boolean" and is_any_real_numeric_dtype(other.dtype) + ): + # GH#16877 Treat boolean labels passed to a numeric index as not + # found. Without this fix False and True would be treated as 0 and 1 + # respectively. + return False + + dtype = _unpack_nested_dtype(other) + return ( + self._is_comparable_dtype(dtype) + or is_object_dtype(dtype) + or is_string_dtype(dtype) + ) + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + """ + Can we compare values of the given dtype to our own? + """ + if self.dtype.kind == "b": + return dtype.kind == "b" + elif is_numeric_dtype(self.dtype): + return is_numeric_dtype(dtype) + # TODO: this was written assuming we only get here with object-dtype, + # which is no longer correct. Can we specialize for EA? + return True + + @final + def groupby(self, values) -> PrettyDict[Hashable, np.ndarray]: + """ + Group the index labels by a given array of values. + + Parameters + ---------- + values : array + Values used to determine the groups. + + Returns + ------- + dict + {group name -> group labels} + """ + # TODO: if we are a MultiIndex, we can do better + # that converting to tuples + if isinstance(values, ABCMultiIndex): + values = values._values + values = Categorical(values) + result = values._reverse_indexer() + + # map to the label + result = {k: self.take(v) for k, v in result.items()} + + return PrettyDict(result) + + def map(self, mapper, na_action: Literal["ignore"] | None = None): + """ + Map values using an input mapping or function. + + Parameters + ---------- + mapper : function, dict, or Series + Mapping correspondence. + na_action : {None, 'ignore'} + If 'ignore', propagate NA values, without passing them to the + mapping correspondence. + + Returns + ------- + Union[Index, MultiIndex] + The output of the mapping function applied to the index. + If the function returns a tuple with more than one element + a MultiIndex will be returned. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx.map({1: 'a', 2: 'b', 3: 'c'}) + Index(['a', 'b', 'c'], dtype='object') + + Using `map` with a function: + + >>> idx = pd.Index([1, 2, 3]) + >>> idx.map('I am a {}'.format) + Index(['I am a 1', 'I am a 2', 'I am a 3'], dtype='object') + + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.map(lambda x: x.upper()) + Index(['A', 'B', 'C'], dtype='object') + """ + from pandas.core.indexes.multi import MultiIndex + + new_values = self._map_values(mapper, na_action=na_action) + + # we can return a MultiIndex + if new_values.size and isinstance(new_values[0], tuple): + if isinstance(self, MultiIndex): + names = self.names + elif self.name: + names = [self.name] * len(new_values[0]) + else: + names = None + return MultiIndex.from_tuples(new_values, names=names) + + dtype = None + if not new_values.size: + # empty + dtype = self.dtype + + # e.g. if we are floating and new_values is all ints, then we + # don't want to cast back to floating. But if we are UInt64 + # and new_values is all ints, we want to try. + same_dtype = lib.infer_dtype(new_values, skipna=False) == self.inferred_type + if same_dtype: + new_values = maybe_cast_pointwise_result( + new_values, self.dtype, same_dtype=same_dtype + ) + + return Index._with_infer(new_values, dtype=dtype, copy=False, name=self.name) + + # TODO: De-duplicate with map, xref GH#32349 + @final + def _transform_index(self, func, *, level=None) -> Index: + """ + Apply function to all values found in index. + + This includes transforming multiindex entries separately. + Only apply function to one level of the MultiIndex if level is specified. + """ + if isinstance(self, ABCMultiIndex): + values = [ + self.get_level_values(i).map(func) + if i == level or level is None + else self.get_level_values(i) + for i in range(self.nlevels) + ] + return type(self).from_arrays(values) + else: + items = [func(x) for x in self] + return Index(items, name=self.name, tupleize_cols=False) + + def isin(self, values, level=None) -> npt.NDArray[np.bool_]: + """ + Return a boolean array where the index values are in `values`. + + Compute boolean array of whether each index value is found in the + passed set of values. The length of the returned boolean array matches + the length of the index. + + Parameters + ---------- + values : set or list-like + Sought values. + level : str or int, optional + Name or position of the index level to use (if the index is a + `MultiIndex`). + + Returns + ------- + np.ndarray[bool] + NumPy array of boolean values. + + See Also + -------- + Series.isin : Same for Series. + DataFrame.isin : Same method for DataFrames. + + Notes + ----- + In the case of `MultiIndex` you must either specify `values` as a + list-like object containing tuples that are the same length as the + number of levels, or specify `level`. Otherwise it will raise a + ``ValueError``. + + If `level` is specified: + + - if it is the name of one *and only one* index level, use that level; + - otherwise it should be a number indicating level position. + + Examples + -------- + >>> idx = pd.Index([1,2,3]) + >>> idx + Index([1, 2, 3], dtype='int64') + + Check whether each index value in a list of values. + + >>> idx.isin([1, 4]) + array([ True, False, False]) + + >>> midx = pd.MultiIndex.from_arrays([[1,2,3], + ... ['red', 'blue', 'green']], + ... names=('number', 'color')) + >>> midx + MultiIndex([(1, 'red'), + (2, 'blue'), + (3, 'green')], + names=['number', 'color']) + + Check whether the strings in the 'color' level of the MultiIndex + are in a list of colors. + + >>> midx.isin(['red', 'orange', 'yellow'], level='color') + array([ True, False, False]) + + To check across the levels of a MultiIndex, pass a list of tuples: + + >>> midx.isin([(1, 'red'), (3, 'red')]) + array([ True, False, False]) + """ + if level is not None: + self._validate_index_level(level) + return algos.isin(self._values, values) + + def _get_string_slice(self, key: str_t): + # this is for partial string indexing, + # overridden in DatetimeIndex, TimedeltaIndex and PeriodIndex + raise NotImplementedError + + def slice_indexer( + self, + start: Hashable | None = None, + end: Hashable | None = None, + step: int | None = None, + ) -> slice: + """ + Compute the slice indexer for input labels and step. + + Index needs to be ordered and unique. + + Parameters + ---------- + start : label, default None + If None, defaults to the beginning. + end : label, default None + If None, defaults to the end. + step : int, default None + + Returns + ------- + slice + + Raises + ------ + KeyError : If key does not exist, or key is not unique and index is + not ordered. + + Notes + ----- + This function assumes that the data is sorted, so use at your own peril + + Examples + -------- + This is a method on all index types. For example you can do: + + >>> idx = pd.Index(list('abcd')) + >>> idx.slice_indexer(start='b', end='c') + slice(1, 3, None) + + >>> idx = pd.MultiIndex.from_arrays([list('abcd'), list('efgh')]) + >>> idx.slice_indexer(start='b', end=('c', 'g')) + slice(1, 3, None) + """ + start_slice, end_slice = self.slice_locs(start, end, step=step) + + # return a slice + if not is_scalar(start_slice): + raise AssertionError("Start slice bound is non-scalar") + if not is_scalar(end_slice): + raise AssertionError("End slice bound is non-scalar") + + return slice(start_slice, end_slice, step) + + def _maybe_cast_indexer(self, key): + """ + If we have a float key and are not a floating index, then try to cast + to an int if equivalent. + """ + return key + + def _maybe_cast_listlike_indexer(self, target) -> Index: + """ + Analogue to maybe_cast_indexer for get_indexer instead of get_loc. + """ + target_index = ensure_index(target) + if ( + not hasattr(target, "dtype") + and self.dtype == object + and target_index.dtype == "string" + ): + # If we started with a list-like, avoid inference to string dtype if self + # is object dtype (coercing to string dtype will alter the missing values) + target_index = Index(target, dtype=self.dtype) + return target_index + + @final + def _validate_indexer( + self, + form: Literal["positional", "slice"], + key, + kind: Literal["getitem", "iloc"], + ) -> None: + """ + If we are positional indexer, validate that we have appropriate + typed bounds must be an integer. + """ + if not lib.is_int_or_none(key): + self._raise_invalid_indexer(form, key) + + def _maybe_cast_slice_bound(self, label, side: str_t): + """ + This function should be overloaded in subclasses that allow non-trivial + casting on label-slice bounds, e.g. datetime-like indices allowing + strings containing formatted datetimes. + + Parameters + ---------- + label : object + side : {'left', 'right'} + + Returns + ------- + label : object + + Notes + ----- + Value of `side` parameter should be validated in caller. + """ + + # We are a plain index here (sub-class override this method if they + # wish to have special treatment for floats/ints, e.g. datetimelike Indexes + + if is_numeric_dtype(self.dtype): + return self._maybe_cast_indexer(label) + + # reject them, if index does not contain label + if (is_float(label) or is_integer(label)) and label not in self: + self._raise_invalid_indexer("slice", label) + + return label + + def _searchsorted_monotonic(self, label, side: Literal["left", "right"] = "left"): + if self.is_monotonic_increasing: + return self.searchsorted(label, side=side) + elif self.is_monotonic_decreasing: + # np.searchsorted expects ascending sort order, have to reverse + # everything for it to work (element ordering, search side and + # resulting value). + pos = self[::-1].searchsorted( + label, side="right" if side == "left" else "left" + ) + return len(self) - pos + + raise ValueError("index must be monotonic increasing or decreasing") + + def get_slice_bound(self, label, side: Literal["left", "right"]) -> int: + """ + Calculate slice bound that corresponds to given label. + + Returns leftmost (one-past-the-rightmost if ``side=='right'``) position + of given label. + + Parameters + ---------- + label : object + side : {'left', 'right'} + + Returns + ------- + int + Index of label. + + See Also + -------- + Index.get_loc : Get integer location, slice or boolean mask for requested + label. + + Examples + -------- + >>> idx = pd.RangeIndex(5) + >>> idx.get_slice_bound(3, 'left') + 3 + + >>> idx.get_slice_bound(3, 'right') + 4 + + If ``label`` is non-unique in the index, an error will be raised. + + >>> idx_duplicate = pd.Index(['a', 'b', 'a', 'c', 'd']) + >>> idx_duplicate.get_slice_bound('a', 'left') + Traceback (most recent call last): + KeyError: Cannot get left slice bound for non-unique label: 'a' + """ + + if side not in ("left", "right"): + raise ValueError( + "Invalid value for side kwarg, must be either " + f"'left' or 'right': {side}" + ) + + original_label = label + + # For datetime indices label may be a string that has to be converted + # to datetime boundary according to its resolution. + label = self._maybe_cast_slice_bound(label, side) + + # we need to look up the label + try: + slc = self.get_loc(label) + except KeyError as err: + try: + return self._searchsorted_monotonic(label, side) + except ValueError: + # raise the original KeyError + raise err + + if isinstance(slc, np.ndarray): + # get_loc may return a boolean array, which + # is OK as long as they are representable by a slice. + assert is_bool_dtype(slc.dtype) + slc = lib.maybe_booleans_to_slice(slc.view("u1")) + if isinstance(slc, np.ndarray): + raise KeyError( + f"Cannot get {side} slice bound for non-unique " + f"label: {repr(original_label)}" + ) + + if isinstance(slc, slice): + if side == "left": + return slc.start + else: + return slc.stop + else: + if side == "right": + return slc + 1 + else: + return slc + + def slice_locs(self, start=None, end=None, step=None) -> tuple[int, int]: + """ + Compute slice locations for input labels. + + Parameters + ---------- + start : label, default None + If None, defaults to the beginning. + end : label, default None + If None, defaults to the end. + step : int, defaults None + If None, defaults to 1. + + Returns + ------- + tuple[int, int] + + See Also + -------- + Index.get_loc : Get location for a single label. + + Notes + ----- + This method only works if the index is monotonic or unique. + + Examples + -------- + >>> idx = pd.Index(list('abcd')) + >>> idx.slice_locs(start='b', end='c') + (1, 3) + """ + inc = step is None or step >= 0 + + if not inc: + # If it's a reverse slice, temporarily swap bounds. + start, end = end, start + + # GH 16785: If start and end happen to be date strings with UTC offsets + # attempt to parse and check that the offsets are the same + if isinstance(start, (str, datetime)) and isinstance(end, (str, datetime)): + try: + ts_start = Timestamp(start) + ts_end = Timestamp(end) + except (ValueError, TypeError): + pass + else: + if not tz_compare(ts_start.tzinfo, ts_end.tzinfo): + raise ValueError("Both dates must have the same UTC offset") + + start_slice = None + if start is not None: + start_slice = self.get_slice_bound(start, "left") + if start_slice is None: + start_slice = 0 + + end_slice = None + if end is not None: + end_slice = self.get_slice_bound(end, "right") + if end_slice is None: + end_slice = len(self) + + if not inc: + # Bounds at this moment are swapped, swap them back and shift by 1. + # + # slice_locs('B', 'A', step=-1): s='B', e='A' + # + # s='A' e='B' + # AFTER SWAP: | | + # v ------------------> V + # ----------------------------------- + # | | |A|A|A|A| | | | | |B|B| | | | | + # ----------------------------------- + # ^ <------------------ ^ + # SHOULD BE: | | + # end=s-1 start=e-1 + # + end_slice, start_slice = start_slice - 1, end_slice - 1 + + # i == -1 triggers ``len(self) + i`` selection that points to the + # last element, not before-the-first one, subtracting len(self) + # compensates that. + if end_slice == -1: + end_slice -= len(self) + if start_slice == -1: + start_slice -= len(self) + + return start_slice, end_slice + + def delete(self, loc) -> Self: + """ + Make new Index with passed location(-s) deleted. + + Parameters + ---------- + loc : int or list of int + Location of item(-s) which will be deleted. + Use a list of locations to delete more than one value at the same time. + + Returns + ------- + Index + Will be same type as self, except for RangeIndex. + + See Also + -------- + numpy.delete : Delete any rows and column from NumPy array (ndarray). + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.delete(1) + Index(['a', 'c'], dtype='object') + + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.delete([0, 2]) + Index(['b'], dtype='object') + """ + values = self._values + res_values: ArrayLike + if isinstance(values, np.ndarray): + # TODO(__array_function__): special casing will be unnecessary + res_values = np.delete(values, loc) + else: + res_values = values.delete(loc) + + # _constructor so RangeIndex-> Index with an int64 dtype + return self._constructor._simple_new(res_values, name=self.name) + + def insert(self, loc: int, item) -> Index: + """ + Make new Index inserting new item at location. + + Follows Python numpy.insert semantics for negative values. + + Parameters + ---------- + loc : int + item : object + + Returns + ------- + Index + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.insert(1, 'x') + Index(['a', 'x', 'b', 'c'], dtype='object') + """ + item = lib.item_from_zerodim(item) + if is_valid_na_for_dtype(item, self.dtype) and self.dtype != object: + item = self._na_value + + arr = self._values + + if using_string_dtype() and len(self) == 0 and self.dtype == np.object_: + # special case: if we are an empty object-dtype Index, also + # take into account the inserted item for the resulting dtype + # (https://github.com/pandas-dev/pandas/pull/60797) + dtype = self._find_common_type_compat(item) + if dtype != self.dtype: + return self.astype(dtype).insert(loc, item) + + try: + if isinstance(arr, ExtensionArray): + res_values = arr.insert(loc, item) + return type(self)._simple_new(res_values, name=self.name) + else: + item = self._validate_fill_value(item) + except (TypeError, ValueError, LossySetitemError): + # e.g. trying to insert an integer into a DatetimeIndex + # We cannot keep the same dtype, so cast to the (often object) + # minimal shared dtype before doing the insert. + dtype = self._find_common_type_compat(item) + if dtype == self.dtype: + # EA's might run into recursion errors if loc is invalid + raise + return self.astype(dtype).insert(loc, item) + + if arr.dtype != object or not isinstance( + item, (tuple, np.datetime64, np.timedelta64) + ): + # with object-dtype we need to worry about numpy incorrectly casting + # dt64/td64 to integer, also about treating tuples as sequences + # special-casing dt64/td64 https://github.com/numpy/numpy/issues/12550 + casted = arr.dtype.type(item) + new_values = np.insert(arr, loc, casted) + + else: + # error: No overload variant of "insert" matches argument types + # "ndarray[Any, Any]", "int", "None" + new_values = np.insert(arr, loc, None) # type: ignore[call-overload] + loc = loc if loc >= 0 else loc - 1 + new_values[loc] = item + + out = Index._with_infer(new_values, name=self.name) + if ( + using_string_dtype() + and is_string_dtype(out.dtype) + and new_values.dtype == object + ): + out = out.astype(new_values.dtype) + if self.dtype == object and out.dtype != object: + # GH#51363 + warnings.warn( + "The behavior of Index.insert with object-dtype is deprecated, " + "in a future version this will return an object-dtype Index " + "instead of inferring a non-object dtype. To retain the old " + "behavior, do `idx.insert(loc, item).infer_objects(copy=False)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + return out + + def drop( + self, + labels: Index | np.ndarray | Iterable[Hashable], + errors: IgnoreRaise = "raise", + ) -> Index: + """ + Make new Index with passed list of labels deleted. + + Parameters + ---------- + labels : array-like or scalar + errors : {'ignore', 'raise'}, default 'raise' + If 'ignore', suppress error and existing labels are dropped. + + Returns + ------- + Index + Will be same type as self, except for RangeIndex. + + Raises + ------ + KeyError + If not all of the labels are found in the selected axis + + Examples + -------- + >>> idx = pd.Index(['a', 'b', 'c']) + >>> idx.drop(['a']) + Index(['b', 'c'], dtype='object') + """ + if not isinstance(labels, Index): + # avoid materializing e.g. RangeIndex + arr_dtype = "object" if self.dtype == "object" else None + labels = com.index_labels_to_array(labels, dtype=arr_dtype) + + indexer = self.get_indexer_for(labels) + mask = indexer == -1 + if mask.any(): + if errors != "ignore": + raise KeyError(f"{labels[mask].tolist()} not found in axis") + indexer = indexer[~mask] + return self.delete(indexer) + + @final + def infer_objects(self, copy: bool = True) -> Index: + """ + If we have an object dtype, try to infer a non-object dtype. + + Parameters + ---------- + copy : bool, default True + Whether to make a copy in cases where no inference occurs. + """ + if self._is_multi: + raise NotImplementedError( + "infer_objects is not implemented for MultiIndex. " + "Use index.to_frame().infer_objects() instead." + ) + if self.dtype != object: + return self.copy() if copy else self + + values = self._values + values = cast("npt.NDArray[np.object_]", values) + res_values = lib.maybe_convert_objects( + values, + convert_non_numeric=True, + ) + if copy and res_values is values: + return self.copy() + result = Index(res_values, name=self.name) + if not copy and res_values is values and self._references is not None: + result._references = self._references + result._references.add_index_reference(result) + return result + + @final + def diff(self, periods: int = 1) -> Index: + """ + Computes the difference between consecutive values in the Index object. + + If periods is greater than 1, computes the difference between values that + are `periods` number of positions apart. + + Parameters + ---------- + periods : int, optional + The number of positions between the current and previous + value to compute the difference with. Default is 1. + + Returns + ------- + Index + A new Index object with the computed differences. + + Examples + -------- + >>> import pandas as pd + >>> idx = pd.Index([10, 20, 30, 40, 50]) + >>> idx.diff() + Index([nan, 10.0, 10.0, 10.0, 10.0], dtype='float64') + + """ + return Index(self.to_series().diff(periods)) + + @final + def round(self, decimals: int = 0) -> Self: + """ + Round each value in the Index to the given number of decimals. + + Parameters + ---------- + decimals : int, optional + Number of decimal places to round to. If decimals is negative, + it specifies the number of positions to the left of the decimal point. + + Returns + ------- + Index + A new Index with the rounded values. + + Examples + -------- + >>> import pandas as pd + >>> idx = pd.Index([10.1234, 20.5678, 30.9123, 40.4567, 50.7890]) + >>> idx.round(decimals=2) + Index([10.12, 20.57, 30.91, 40.46, 50.79], dtype='float64') + + """ + return self._constructor(self.to_series().round(decimals)) + + # -------------------------------------------------------------------- + # Generated Arithmetic, Comparison, and Unary Methods + + def _cmp_method(self, other, op): + """ + Wrapper used to dispatch comparison operations. + """ + if self.is_(other): + # fastpath + if op in {operator.eq, operator.le, operator.ge}: + arr = np.ones(len(self), dtype=bool) + if self._can_hold_na and not isinstance(self, ABCMultiIndex): + # TODO: should set MultiIndex._can_hold_na = False? + arr[self.isna()] = False + return arr + elif op is operator.ne: + arr = np.zeros(len(self), dtype=bool) + if self._can_hold_na and not isinstance(self, ABCMultiIndex): + arr[self.isna()] = True + return arr + + if isinstance(other, (np.ndarray, Index, ABCSeries, ExtensionArray)) and len( + self + ) != len(other): + raise ValueError("Lengths must match to compare") + + if not isinstance(other, ABCMultiIndex): + other = extract_array(other, extract_numpy=True) + else: + other = np.asarray(other) + + if is_object_dtype(self.dtype) and isinstance(other, ExtensionArray): + # e.g. PeriodArray, Categorical + result = op(self._values, other) + + elif isinstance(self._values, ExtensionArray): + result = op(self._values, other) + + elif is_object_dtype(self.dtype) and not isinstance(self, ABCMultiIndex): + # don't pass MultiIndex + result = ops.comp_method_OBJECT_ARRAY(op, self._values, other) + + else: + result = ops.comparison_op(self._values, other, op) + + return result + + @final + def _logical_method(self, other, op): + res_name = ops.get_op_result_name(self, other) + + lvalues = self._values + rvalues = extract_array(other, extract_numpy=True, extract_range=True) + + res_values = ops.logical_op(lvalues, rvalues, op) + return self._construct_result(res_values, name=res_name) + + @final + def _construct_result(self, result, name): + if isinstance(result, tuple): + return ( + Index(result[0], name=name, dtype=result[0].dtype), + Index(result[1], name=name, dtype=result[1].dtype), + ) + return Index(result, name=name, dtype=result.dtype) + + def _arith_method(self, other, op): + if ( + isinstance(other, Index) + and is_object_dtype(other.dtype) + and type(other) is not Index + ): + # We return NotImplemented for object-dtype index *subclasses* so they have + # a chance to implement ops before we unwrap them. + # See https://github.com/pandas-dev/pandas/issues/31109 + return NotImplemented + + return super()._arith_method(other, op) + + @final + def _unary_method(self, op): + result = op(self._values) + return Index(result, name=self.name) + + def __abs__(self) -> Index: + return self._unary_method(operator.abs) + + def __neg__(self) -> Index: + return self._unary_method(operator.neg) + + def __pos__(self) -> Index: + return self._unary_method(operator.pos) + + def __invert__(self) -> Index: + # GH#8875 + return self._unary_method(operator.inv) + + # -------------------------------------------------------------------- + # Reductions + + def any(self, *args, **kwargs): + """ + Return whether any element is Truthy. + + Parameters + ---------- + *args + Required for compatibility with numpy. + **kwargs + Required for compatibility with numpy. + + Returns + ------- + bool or array-like (if axis is specified) + A single element array-like may be converted to bool. + + See Also + -------- + Index.all : Return whether all elements are True. + Series.all : Return whether all elements are True. + + Notes + ----- + Not a Number (NaN), positive infinity and negative infinity + evaluate to True because these are not equal to zero. + + Examples + -------- + >>> index = pd.Index([0, 1, 2]) + >>> index.any() + True + + >>> index = pd.Index([0, 0, 0]) + >>> index.any() + False + """ + nv.validate_any(args, kwargs) + self._maybe_disable_logical_methods("any") + vals = self._values + if not isinstance(vals, np.ndarray): + # i.e. EA, call _reduce instead of "any" to get TypeError instead + # of AttributeError + return vals._reduce("any") + return np.any(vals) + + def all(self, *args, **kwargs): + """ + Return whether all elements are Truthy. + + Parameters + ---------- + *args + Required for compatibility with numpy. + **kwargs + Required for compatibility with numpy. + + Returns + ------- + bool or array-like (if axis is specified) + A single element array-like may be converted to bool. + + See Also + -------- + Index.any : Return whether any element in an Index is True. + Series.any : Return whether any element in a Series is True. + Series.all : Return whether all elements in a Series are True. + + Notes + ----- + Not a Number (NaN), positive infinity and negative infinity + evaluate to True because these are not equal to zero. + + Examples + -------- + True, because nonzero integers are considered True. + + >>> pd.Index([1, 2, 3]).all() + True + + False, because ``0`` is considered False. + + >>> pd.Index([0, 1, 2]).all() + False + """ + nv.validate_all(args, kwargs) + self._maybe_disable_logical_methods("all") + vals = self._values + if not isinstance(vals, np.ndarray): + # i.e. EA, call _reduce instead of "all" to get TypeError instead + # of AttributeError + return vals._reduce("all") + return np.all(vals) + + @final + def _maybe_disable_logical_methods(self, opname: str_t) -> None: + """ + raise if this Index subclass does not support any or all. + """ + if ( + isinstance(self, ABCMultiIndex) + # TODO(3.0): PeriodArray and DatetimeArray any/all will raise, + # so checking needs_i8_conversion will be unnecessary + or (needs_i8_conversion(self.dtype) and self.dtype.kind != "m") + ): + # This call will raise + make_invalid_op(opname)(self) + + @Appender(IndexOpsMixin.argmin.__doc__) + def argmin(self, axis=None, skipna: bool = True, *args, **kwargs) -> int: + nv.validate_argmin(args, kwargs) + nv.validate_minmax_axis(axis) + + if not self._is_multi and self.hasnans: + # Take advantage of cache + mask = self._isnan + if not skipna or mask.all(): + warnings.warn( + f"The behavior of {type(self).__name__}.argmax/argmin " + "with skipna=False and NAs, or with all-NAs is deprecated. " + "In a future version this will raise ValueError.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return -1 + return super().argmin(skipna=skipna) + + @Appender(IndexOpsMixin.argmax.__doc__) + def argmax(self, axis=None, skipna: bool = True, *args, **kwargs) -> int: + nv.validate_argmax(args, kwargs) + nv.validate_minmax_axis(axis) + + if not self._is_multi and self.hasnans: + # Take advantage of cache + mask = self._isnan + if not skipna or mask.all(): + warnings.warn( + f"The behavior of {type(self).__name__}.argmax/argmin " + "with skipna=False and NAs, or with all-NAs is deprecated. " + "In a future version this will raise ValueError.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return -1 + return super().argmax(skipna=skipna) + + def min(self, axis=None, skipna: bool = True, *args, **kwargs): + """ + Return the minimum value of the Index. + + Parameters + ---------- + axis : {None} + Dummy argument for consistency with Series. + skipna : bool, default True + Exclude NA/null values when showing the result. + *args, **kwargs + Additional arguments and keywords for compatibility with NumPy. + + Returns + ------- + scalar + Minimum value. + + See Also + -------- + Index.max : Return the maximum value of the object. + Series.min : Return the minimum value in a Series. + DataFrame.min : Return the minimum values in a DataFrame. + + Examples + -------- + >>> idx = pd.Index([3, 2, 1]) + >>> idx.min() + 1 + + >>> idx = pd.Index(['c', 'b', 'a']) + >>> idx.min() + 'a' + + For a MultiIndex, the minimum is determined lexicographically. + + >>> idx = pd.MultiIndex.from_product([('a', 'b'), (2, 1)]) + >>> idx.min() + ('a', 1) + """ + nv.validate_min(args, kwargs) + nv.validate_minmax_axis(axis) + + if not len(self): + return self._na_value + + if len(self) and self.is_monotonic_increasing: + # quick check + first = self[0] + if not isna(first): + return first + + if not self._is_multi and self.hasnans: + # Take advantage of cache + mask = self._isnan + if not skipna or mask.all(): + return self._na_value + + if not self._is_multi and not isinstance(self._values, np.ndarray): + return self._values._reduce(name="min", skipna=skipna) + + return nanops.nanmin(self._values, skipna=skipna) + + def max(self, axis=None, skipna: bool = True, *args, **kwargs): + """ + Return the maximum value of the Index. + + Parameters + ---------- + axis : int, optional + For compatibility with NumPy. Only 0 or None are allowed. + skipna : bool, default True + Exclude NA/null values when showing the result. + *args, **kwargs + Additional arguments and keywords for compatibility with NumPy. + + Returns + ------- + scalar + Maximum value. + + See Also + -------- + Index.min : Return the minimum value in an Index. + Series.max : Return the maximum value in a Series. + DataFrame.max : Return the maximum values in a DataFrame. + + Examples + -------- + >>> idx = pd.Index([3, 2, 1]) + >>> idx.max() + 3 + + >>> idx = pd.Index(['c', 'b', 'a']) + >>> idx.max() + 'c' + + For a MultiIndex, the maximum is determined lexicographically. + + >>> idx = pd.MultiIndex.from_product([('a', 'b'), (2, 1)]) + >>> idx.max() + ('b', 2) + """ + + nv.validate_max(args, kwargs) + nv.validate_minmax_axis(axis) + + if not len(self): + return self._na_value + + if len(self) and self.is_monotonic_increasing: + # quick check + last = self[-1] + if not isna(last): + return last + + if not self._is_multi and self.hasnans: + # Take advantage of cache + mask = self._isnan + if not skipna or mask.all(): + return self._na_value + + if not self._is_multi and not isinstance(self._values, np.ndarray): + return self._values._reduce(name="max", skipna=skipna) + + return nanops.nanmax(self._values, skipna=skipna) + + # -------------------------------------------------------------------- + + @final + @property + def shape(self) -> Shape: + """ + Return a tuple of the shape of the underlying data. + + Examples + -------- + >>> idx = pd.Index([1, 2, 3]) + >>> idx + Index([1, 2, 3], dtype='int64') + >>> idx.shape + (3,) + """ + # See GH#27775, GH#27384 for history/reasoning in how this is defined. + return (len(self),) + + +def ensure_index_from_sequences(sequences, names=None) -> Index: + """ + Construct an index from sequences of data. + + A single sequence returns an Index. Many sequences returns a + MultiIndex. + + Parameters + ---------- + sequences : sequence of sequences + names : sequence of str + + Returns + ------- + index : Index or MultiIndex + + Examples + -------- + >>> ensure_index_from_sequences([[1, 2, 3]], names=["name"]) + Index([1, 2, 3], dtype='int64', name='name') + + >>> ensure_index_from_sequences([["a", "a"], ["a", "b"]], names=["L1", "L2"]) + MultiIndex([('a', 'a'), + ('a', 'b')], + names=['L1', 'L2']) + + See Also + -------- + ensure_index + """ + from pandas.core.indexes.multi import MultiIndex + + if len(sequences) == 1: + if names is not None: + names = names[0] + return Index(sequences[0], name=names) + else: + return MultiIndex.from_arrays(sequences, names=names) + + +def ensure_index(index_like: Axes, copy: bool = False) -> Index: + """ + Ensure that we have an index from some index-like object. + + Parameters + ---------- + index_like : sequence + An Index or other sequence + copy : bool, default False + + Returns + ------- + index : Index or MultiIndex + + See Also + -------- + ensure_index_from_sequences + + Examples + -------- + >>> ensure_index(['a', 'b']) + Index(['a', 'b'], dtype='object') + + >>> ensure_index([('a', 'a'), ('b', 'c')]) + Index([('a', 'a'), ('b', 'c')], dtype='object') + + >>> ensure_index([['a', 'a'], ['b', 'c']]) + MultiIndex([('a', 'b'), + ('a', 'c')], + ) + """ + if isinstance(index_like, Index): + if copy: + index_like = index_like.copy() + return index_like + + if isinstance(index_like, ABCSeries): + name = index_like.name + return Index(index_like, name=name, copy=copy) + + if is_iterator(index_like): + index_like = list(index_like) + + if isinstance(index_like, list): + if type(index_like) is not list: # noqa: E721 + # must check for exactly list here because of strict type + # check in clean_index_list + index_like = list(index_like) + + if len(index_like) and lib.is_all_arraylike(index_like): + from pandas.core.indexes.multi import MultiIndex + + return MultiIndex.from_arrays(index_like) + else: + return Index(index_like, copy=copy, tupleize_cols=False) + else: + return Index(index_like, copy=copy) + + +def ensure_has_len(seq): + """ + If seq is an iterator, put its values into a list. + """ + try: + len(seq) + except TypeError: + return list(seq) + else: + return seq + + +def trim_front(strings: list[str]) -> list[str]: + """ + Trims zeros and decimal points. + + Examples + -------- + >>> trim_front([" a", " b"]) + ['a', 'b'] + + >>> trim_front([" a", " "]) + ['a', ''] + """ + if not strings: + return strings + while all(strings) and all(x[0] == " " for x in strings): + strings = [x[1:] for x in strings] + return strings + + +def _validate_join_method(method: str) -> None: + if method not in ["left", "right", "inner", "outer"]: + raise ValueError(f"do not recognize join method {method}") + + +def maybe_extract_name(name, obj, cls) -> Hashable: + """ + If no name is passed, then extract it from data, validating hashability. + """ + if name is None and isinstance(obj, (Index, ABCSeries)): + # Note we don't just check for "name" attribute since that would + # pick up e.g. dtype.name + name = obj.name + + # GH#29069 + if not is_hashable(name): + raise TypeError(f"{cls.__name__}.name must be a hashable type") + + return name + + +def get_unanimous_names(*indexes: Index) -> tuple[Hashable, ...]: + """ + Return common name if all indices agree, otherwise None (level-by-level). + + Parameters + ---------- + indexes : list of Index objects + + Returns + ------- + list + A list representing the unanimous 'names' found. + """ + name_tups = [tuple(i.names) for i in indexes] + name_sets = [{*ns} for ns in zip_longest(*name_tups)] + names = tuple(ns.pop() if len(ns) == 1 else None for ns in name_sets) + return names + + +def _unpack_nested_dtype(other: Index) -> DtypeObj: + """ + When checking if our dtype is comparable with another, we need + to unpack CategoricalDtype to look at its categories.dtype. + + Parameters + ---------- + other : Index + + Returns + ------- + np.dtype or ExtensionDtype + """ + dtype = other.dtype + if isinstance(dtype, CategoricalDtype): + # If there is ever a SparseIndex, this could get dispatched + # here too. + return dtype.categories.dtype + elif isinstance(dtype, ArrowDtype): + # GH 53617 + import pyarrow as pa + + if pa.types.is_dictionary(dtype.pyarrow_dtype): + other = other[:0].astype(ArrowDtype(dtype.pyarrow_dtype.value_type)) + return other.dtype + + +def _maybe_try_sort(result: Index | ArrayLike, sort: bool | None): + if sort is not False: + try: + # error: Incompatible types in assignment (expression has type + # "Union[ExtensionArray, ndarray[Any, Any], Index, Series, + # Tuple[Union[Union[ExtensionArray, ndarray[Any, Any]], Index, Series], + # ndarray[Any, Any]]]", variable has type "Union[Index, + # Union[ExtensionArray, ndarray[Any, Any]]]") + result = algos.safe_sort(result) # type: ignore[assignment] + except TypeError as err: + if sort is True: + raise + warnings.warn( + f"{err}, sort order is undefined for incomparable objects.", + RuntimeWarning, + stacklevel=find_stack_level(), + ) + return result + + +def get_values_for_csv( + values: ArrayLike, + *, + date_format, + na_rep: str = "nan", + quoting=None, + float_format=None, + decimal: str = ".", +) -> npt.NDArray[np.object_]: + """ + Convert to types which can be consumed by the standard library's + csv.writer.writerows. + """ + if isinstance(values, Categorical) and values.categories.dtype.kind in "Mm": + # GH#40754 Convert categorical datetimes to datetime array + values = algos.take_nd( + values.categories._values, + ensure_platform_int(values._codes), + fill_value=na_rep, + ) + + values = ensure_wrapped_if_datetimelike(values) + + if isinstance(values, (DatetimeArray, TimedeltaArray)): + if values.ndim == 1: + result = values._format_native_types(na_rep=na_rep, date_format=date_format) + result = result.astype(object, copy=False) + return result + + # GH#21734 Process every column separately, they might have different formats + results_converted = [] + for i in range(len(values)): + result = values[i, :]._format_native_types( + na_rep=na_rep, date_format=date_format + ) + results_converted.append(result.astype(object, copy=False)) + return np.vstack(results_converted) + + elif isinstance(values.dtype, PeriodDtype): + # TODO: tests that get here in column path + values = cast("PeriodArray", values) + res = values._format_native_types(na_rep=na_rep, date_format=date_format) + return res + + elif isinstance(values.dtype, IntervalDtype): + # TODO: tests that get here in column path + values = cast("IntervalArray", values) + mask = values.isna() + if not quoting: + result = np.asarray(values).astype(str) + else: + result = np.array(values, dtype=object, copy=True) + + result[mask] = na_rep + return result + + elif values.dtype.kind == "f" and not isinstance(values.dtype, SparseDtype): + # see GH#13418: no special formatting is desired at the + # output (important for appropriate 'quoting' behaviour), + # so do not pass it through the FloatArrayFormatter + if float_format is None and decimal == ".": + mask = isna(values) + + if not quoting: + values = values.astype(str) + else: + values = np.array(values, dtype="object") + + values[mask] = na_rep + values = values.astype(object, copy=False) + return values + + from pandas.io.formats.format import FloatArrayFormatter + + formatter = FloatArrayFormatter( + values, + na_rep=na_rep, + float_format=float_format, + decimal=decimal, + quoting=quoting, + fixed_width=False, + ) + res = formatter.get_result_as_array() + res = res.astype(object, copy=False) + return res + + elif isinstance(values, ExtensionArray): + mask = isna(values) + + new_values = np.asarray(values.astype(object)) + new_values[mask] = na_rep + return new_values + + else: + mask = isna(values) + itemsize = writers.word_len(na_rep) + + if values.dtype != _dtype_obj and not quoting and itemsize: + values = values.astype(str) + if values.dtype.itemsize / np.dtype("U1").itemsize < itemsize: + # enlarge for the na_rep + values = values.astype(f"`__ + for more. + + Examples + -------- + >>> pd.CategoricalIndex(["a", "b", "c", "a", "b", "c"]) + CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'], + categories=['a', 'b', 'c'], ordered=False, dtype='category') + + ``CategoricalIndex`` can also be instantiated from a ``Categorical``: + + >>> c = pd.Categorical(["a", "b", "c", "a", "b", "c"]) + >>> pd.CategoricalIndex(c) + CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'], + categories=['a', 'b', 'c'], ordered=False, dtype='category') + + Ordered ``CategoricalIndex`` can have a min and max value. + + >>> ci = pd.CategoricalIndex( + ... ["a", "b", "c", "a", "b", "c"], ordered=True, categories=["c", "b", "a"] + ... ) + >>> ci + CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'], + categories=['c', 'b', 'a'], ordered=True, dtype='category') + >>> ci.min() + 'c' + """ + + _typ = "categoricalindex" + _data_cls = Categorical + + @property + def _can_hold_strings(self): + return self.categories._can_hold_strings + + @cache_readonly + def _should_fallback_to_positional(self) -> bool: + return self.categories._should_fallback_to_positional + + codes: np.ndarray + categories: Index + ordered: bool | None + _data: Categorical + _values: Categorical + + @property + def _engine_type(self) -> type[libindex.IndexEngine]: + # self.codes can have dtype int8, int16, int32 or int64, so we need + # to return the corresponding engine type (libindex.Int8Engine, etc.). + return { + np.int8: libindex.Int8Engine, + np.int16: libindex.Int16Engine, + np.int32: libindex.Int32Engine, + np.int64: libindex.Int64Engine, + }[self.codes.dtype.type] + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data=None, + categories=None, + ordered=None, + dtype: Dtype | None = None, + copy: bool = False, + name: Hashable | None = None, + ) -> Self: + name = maybe_extract_name(name, data, cls) + + if is_scalar(data): + # GH#38944 include None here, which pre-2.0 subbed in [] + cls._raise_scalar_data_error(data) + + data = Categorical( + data, categories=categories, ordered=ordered, dtype=dtype, copy=copy + ) + + return cls._simple_new(data, name=name) + + # -------------------------------------------------------------------- + + def _is_dtype_compat(self, other: Index) -> Categorical: + """ + *this is an internal non-public method* + + provide a comparison between the dtype of self and other (coercing if + needed) + + Parameters + ---------- + other : Index + + Returns + ------- + Categorical + + Raises + ------ + TypeError if the dtypes are not compatible + """ + if isinstance(other.dtype, CategoricalDtype): + cat = extract_array(other) + cat = cast(Categorical, cat) + if not cat._categories_match_up_to_permutation(self._values): + raise TypeError( + "categories must match existing categories when appending" + ) + + elif other._is_multi: + # preempt raising NotImplementedError in isna call + raise TypeError("MultiIndex is not dtype-compatible with CategoricalIndex") + else: + values = other + + cat = Categorical(other, dtype=self.dtype) + other = CategoricalIndex(cat) + if not other.isin(values).all(): + raise TypeError( + "cannot append a non-category item to a CategoricalIndex" + ) + cat = other._values + + if not ((cat == values) | (isna(cat) & isna(values))).all(): + # GH#37667 see test_equals_non_category + raise TypeError( + "categories must match existing categories when appending" + ) + + return cat + + def equals(self, other: object) -> bool: + """ + Determine if two CategoricalIndex objects contain the same elements. + + Returns + ------- + bool + ``True`` if two :class:`pandas.CategoricalIndex` objects have equal + elements, ``False`` otherwise. + + Examples + -------- + >>> ci = pd.CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c']) + >>> ci2 = pd.CategoricalIndex(pd.Categorical(['a', 'b', 'c', 'a', 'b', 'c'])) + >>> ci.equals(ci2) + True + + The order of elements matters. + + >>> ci3 = pd.CategoricalIndex(['c', 'b', 'a', 'a', 'b', 'c']) + >>> ci.equals(ci3) + False + + The orderedness also matters. + + >>> ci4 = ci.as_ordered() + >>> ci.equals(ci4) + False + + The categories matter, but the order of the categories matters only when + ``ordered=True``. + + >>> ci5 = ci.set_categories(['a', 'b', 'c', 'd']) + >>> ci.equals(ci5) + False + + >>> ci6 = ci.set_categories(['b', 'c', 'a']) + >>> ci.equals(ci6) + True + >>> ci_ordered = pd.CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'], + ... ordered=True) + >>> ci2_ordered = ci_ordered.set_categories(['b', 'c', 'a']) + >>> ci_ordered.equals(ci2_ordered) + False + """ + if self.is_(other): + return True + + if not isinstance(other, Index): + return False + + try: + other = self._is_dtype_compat(other) + except (TypeError, ValueError): + return False + + return self._data.equals(other) + + # -------------------------------------------------------------------- + # Rendering Methods + + @property + def _formatter_func(self): + return self.categories._formatter_func + + def _format_attrs(self): + """ + Return a list of tuples of the (attr,formatted_value) + """ + attrs: list[tuple[str, str | int | bool | None]] + + attrs = [ + ( + "categories", + f"[{', '.join(self._data._repr_categories())}]", + ), + ("ordered", self.ordered), + ] + extra = super()._format_attrs() + return attrs + extra + + # -------------------------------------------------------------------- + + @property + def inferred_type(self) -> str: + return "categorical" + + @doc(Index.__contains__) + def __contains__(self, key: Any) -> bool: + # if key is a NaN, check if any NaN is in self. + if is_valid_na_for_dtype(key, self.categories.dtype): + return self.hasnans + + return contains(self, key, container=self._engine) + + def reindex( + self, target, method=None, level=None, limit: int | None = None, tolerance=None + ) -> tuple[Index, npt.NDArray[np.intp] | None]: + """ + Create index with target's values (move/add/delete values as necessary) + + Returns + ------- + new_index : pd.Index + Resulting index + indexer : np.ndarray[np.intp] or None + Indices of output values in original index + + """ + if method is not None: + raise NotImplementedError( + "argument method is not implemented for CategoricalIndex.reindex" + ) + if level is not None: + raise NotImplementedError( + "argument level is not implemented for CategoricalIndex.reindex" + ) + if limit is not None: + raise NotImplementedError( + "argument limit is not implemented for CategoricalIndex.reindex" + ) + return super().reindex(target) + + # -------------------------------------------------------------------- + # Indexing Methods + + def _maybe_cast_indexer(self, key) -> int: + # GH#41933: we have to do this instead of self._data._validate_scalar + # because this will correctly get partial-indexing on Interval categories + try: + return self._data._unbox_scalar(key) + except KeyError: + if is_valid_na_for_dtype(key, self.categories.dtype): + return -1 + raise + + def _maybe_cast_listlike_indexer(self, values) -> CategoricalIndex: + if isinstance(values, CategoricalIndex): + values = values._data + if isinstance(values, Categorical): + # Indexing on codes is more efficient if categories are the same, + # so we can apply some optimizations based on the degree of + # dtype-matching. + cat = self._data._encode_with_my_categories(values) + codes = cat._codes + else: + codes = self.categories.get_indexer(values) + codes = codes.astype(self.codes.dtype, copy=False) + cat = self._data._from_backing_data(codes) + return type(self)._simple_new(cat) + + # -------------------------------------------------------------------- + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + return self.categories._is_comparable_dtype(dtype) + + def map(self, mapper, na_action: Literal["ignore"] | None = None): + """ + Map values using input an input mapping or function. + + Maps the values (their categories, not the codes) of the index to new + categories. If the mapping correspondence is one-to-one the result is a + :class:`~pandas.CategoricalIndex` which has the same order property as + the original, otherwise an :class:`~pandas.Index` is returned. + + If a `dict` or :class:`~pandas.Series` is used any unmapped category is + mapped to `NaN`. Note that if this happens an :class:`~pandas.Index` + will be returned. + + Parameters + ---------- + mapper : function, dict, or Series + Mapping correspondence. + + Returns + ------- + pandas.CategoricalIndex or pandas.Index + Mapped index. + + See Also + -------- + Index.map : Apply a mapping correspondence on an + :class:`~pandas.Index`. + Series.map : Apply a mapping correspondence on a + :class:`~pandas.Series`. + Series.apply : Apply more complex functions on a + :class:`~pandas.Series`. + + Examples + -------- + >>> idx = pd.CategoricalIndex(['a', 'b', 'c']) + >>> idx + CategoricalIndex(['a', 'b', 'c'], categories=['a', 'b', 'c'], + ordered=False, dtype='category') + >>> idx.map(lambda x: x.upper()) + CategoricalIndex(['A', 'B', 'C'], categories=['A', 'B', 'C'], + ordered=False, dtype='category') + >>> idx.map({'a': 'first', 'b': 'second', 'c': 'third'}) + CategoricalIndex(['first', 'second', 'third'], categories=['first', + 'second', 'third'], ordered=False, dtype='category') + + If the mapping is one-to-one the ordering of the categories is + preserved: + + >>> idx = pd.CategoricalIndex(['a', 'b', 'c'], ordered=True) + >>> idx + CategoricalIndex(['a', 'b', 'c'], categories=['a', 'b', 'c'], + ordered=True, dtype='category') + >>> idx.map({'a': 3, 'b': 2, 'c': 1}) + CategoricalIndex([3, 2, 1], categories=[3, 2, 1], ordered=True, + dtype='category') + + If the mapping is not one-to-one an :class:`~pandas.Index` is returned: + + >>> idx.map({'a': 'first', 'b': 'second', 'c': 'first'}) + Index(['first', 'second', 'first'], dtype='object') + + If a `dict` is used, all unmapped categories are mapped to `NaN` and + the result is an :class:`~pandas.Index`: + + >>> idx.map({'a': 'first', 'b': 'second'}) + Index(['first', 'second', nan], dtype='object') + """ + mapped = self._values.map(mapper, na_action=na_action) + return Index(mapped, name=self.name) + + def _concat(self, to_concat: list[Index], name: Hashable) -> Index: + # if calling index is category, don't check dtype of others + try: + cat = Categorical._concat_same_type( + [self._is_dtype_compat(c) for c in to_concat] + ) + except TypeError: + # not all to_concat elements are among our categories (or NA) + + res = concat_compat([x._values for x in to_concat]) + return Index(res, name=name) + else: + return type(self)._simple_new(cat, name=name) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimelike.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimelike.py new file mode 100644 index 0000000000000000000000000000000000000000..cad8737a987d44f23518a8b6fa88e9a686755c65 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimelike.py @@ -0,0 +1,843 @@ +""" +Base and utility classes for tseries type pandas objects. +""" +from __future__ import annotations + +from abc import ( + ABC, + abstractmethod, +) +from typing import ( + TYPE_CHECKING, + Any, + Callable, + cast, + final, +) +import warnings + +import numpy as np + +from pandas._config import using_copy_on_write + +from pandas._libs import ( + NaT, + Timedelta, + lib, +) +from pandas._libs.tslibs import ( + BaseOffset, + Resolution, + Tick, + parsing, + to_offset, +) +from pandas._libs.tslibs.dtypes import freq_to_period_freqstr +from pandas.compat.numpy import function as nv +from pandas.errors import ( + InvalidIndexError, + NullFrequencyError, +) +from pandas.util._decorators import ( + Appender, + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_integer, + is_list_like, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.dtypes import CategoricalDtype + +from pandas.core.arrays import ( + DatetimeArray, + ExtensionArray, + PeriodArray, + TimedeltaArray, +) +from pandas.core.arrays.datetimelike import DatetimeLikeArrayMixin +import pandas.core.common as com +import pandas.core.indexes.base as ibase +from pandas.core.indexes.base import ( + Index, + _index_shared_docs, +) +from pandas.core.indexes.extension import NDArrayBackedExtensionIndex +from pandas.core.indexes.range import RangeIndex +from pandas.core.tools.timedeltas import to_timedelta + +if TYPE_CHECKING: + from collections.abc import Sequence + from datetime import datetime + + from pandas._typing import ( + Axis, + Self, + npt, + ) + + from pandas import CategoricalIndex + +_index_doc_kwargs = dict(ibase._index_doc_kwargs) + + +class DatetimeIndexOpsMixin(NDArrayBackedExtensionIndex, ABC): + """ + Common ops mixin to support a unified interface datetimelike Index. + """ + + _can_hold_strings = False + _data: DatetimeArray | TimedeltaArray | PeriodArray + + @doc(DatetimeLikeArrayMixin.mean) + def mean(self, *, skipna: bool = True, axis: int | None = 0): + return self._data.mean(skipna=skipna, axis=axis) + + @property + def freq(self) -> BaseOffset | None: + return self._data.freq + + @freq.setter + def freq(self, value) -> None: + # error: Property "freq" defined in "PeriodArray" is read-only [misc] + self._data.freq = value # type: ignore[misc] + + @property + def asi8(self) -> npt.NDArray[np.int64]: + return self._data.asi8 + + @property + @doc(DatetimeLikeArrayMixin.freqstr) + def freqstr(self) -> str: + from pandas import PeriodIndex + + if self._data.freqstr is not None and isinstance( + self._data, (PeriodArray, PeriodIndex) + ): + freq = freq_to_period_freqstr(self._data.freq.n, self._data.freq.name) + return freq + else: + return self._data.freqstr # type: ignore[return-value] + + @cache_readonly + @abstractmethod + def _resolution_obj(self) -> Resolution: + ... + + @cache_readonly + @doc(DatetimeLikeArrayMixin.resolution) + def resolution(self) -> str: + return self._data.resolution + + # ------------------------------------------------------------------------ + + @cache_readonly + def hasnans(self) -> bool: + return self._data._hasna + + def equals(self, other: Any) -> bool: + """ + Determines if two Index objects contain the same elements. + """ + if self.is_(other): + return True + + if not isinstance(other, Index): + return False + elif other.dtype.kind in "iufc": + return False + elif not isinstance(other, type(self)): + should_try = False + inferable = self._data._infer_matches + if other.dtype == object: + should_try = other.inferred_type in inferable + elif isinstance(other.dtype, CategoricalDtype): + other = cast("CategoricalIndex", other) + should_try = other.categories.inferred_type in inferable + + if should_try: + try: + other = type(self)(other) + except (ValueError, TypeError, OverflowError): + # e.g. + # ValueError -> cannot parse str entry, or OutOfBoundsDatetime + # TypeError -> trying to convert IntervalIndex to DatetimeIndex + # OverflowError -> Index([very_large_timedeltas]) + return False + + if self.dtype != other.dtype: + # have different timezone + return False + + return np.array_equal(self.asi8, other.asi8) + + @Appender(Index.__contains__.__doc__) + def __contains__(self, key: Any) -> bool: + hash(key) + try: + self.get_loc(key) + except (KeyError, TypeError, ValueError, InvalidIndexError): + return False + return True + + def _convert_tolerance(self, tolerance, target): + tolerance = np.asarray(to_timedelta(tolerance).to_numpy()) + return super()._convert_tolerance(tolerance, target) + + # -------------------------------------------------------------------- + # Rendering Methods + _default_na_rep = "NaT" + + def format( + self, + name: bool = False, + formatter: Callable | None = None, + na_rep: str = "NaT", + date_format: str | None = None, + ) -> list[str]: + """ + Render a string representation of the Index. + """ + warnings.warn( + # GH#55413 + f"{type(self).__name__}.format is deprecated and will be removed " + "in a future version. Convert using index.astype(str) or " + "index.map(formatter) instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + header = [] + if name: + header.append( + ibase.pprint_thing(self.name, escape_chars=("\t", "\r", "\n")) + if self.name is not None + else "" + ) + + if formatter is not None: + return header + list(self.map(formatter)) + + return self._format_with_header( + header=header, na_rep=na_rep, date_format=date_format + ) + + def _format_with_header( + self, *, header: list[str], na_rep: str, date_format: str | None = None + ) -> list[str]: + # TODO: not reached in tests 2023-10-11 + # matches base class except for whitespace padding and date_format + return header + list( + self._get_values_for_csv(na_rep=na_rep, date_format=date_format) + ) + + @property + def _formatter_func(self): + return self._data._formatter() + + def _format_attrs(self): + """ + Return a list of tuples of the (attr,formatted_value). + """ + attrs = super()._format_attrs() + for attrib in self._attributes: + # iterating over _attributes prevents us from doing this for PeriodIndex + if attrib == "freq": + freq = self.freqstr + if freq is not None: + freq = repr(freq) # e.g. D -> 'D' + attrs.append(("freq", freq)) + return attrs + + @Appender(Index._summary.__doc__) + def _summary(self, name=None) -> str: + result = super()._summary(name=name) + if self.freq: + result += f"\nFreq: {self.freqstr}" + + return result + + # -------------------------------------------------------------------- + # Indexing Methods + + @final + def _can_partial_date_slice(self, reso: Resolution) -> bool: + # e.g. test_getitem_setitem_periodindex + # History of conversation GH#3452, GH#3931, GH#2369, GH#14826 + return reso > self._resolution_obj + # NB: for DTI/PI, not TDI + + def _parsed_string_to_bounds(self, reso: Resolution, parsed): + raise NotImplementedError + + def _parse_with_reso(self, label: str): + # overridden by TimedeltaIndex + try: + if self.freq is None or hasattr(self.freq, "rule_code"): + freq = self.freq + except NotImplementedError: + freq = getattr(self, "freqstr", getattr(self, "inferred_freq", None)) + + freqstr: str | None + if freq is not None and not isinstance(freq, str): + freqstr = freq.rule_code + else: + freqstr = freq + + if isinstance(label, np.str_): + # GH#45580 + label = str(label) + + parsed, reso_str = parsing.parse_datetime_string_with_reso(label, freqstr) + reso = Resolution.from_attrname(reso_str) + return parsed, reso + + def _get_string_slice(self, key: str): + # overridden by TimedeltaIndex + parsed, reso = self._parse_with_reso(key) + try: + return self._partial_date_slice(reso, parsed) + except KeyError as err: + raise KeyError(key) from err + + @final + def _partial_date_slice( + self, + reso: Resolution, + parsed: datetime, + ) -> slice | npt.NDArray[np.intp]: + """ + Parameters + ---------- + reso : Resolution + parsed : datetime + + Returns + ------- + slice or ndarray[intp] + """ + if not self._can_partial_date_slice(reso): + raise ValueError + + t1, t2 = self._parsed_string_to_bounds(reso, parsed) + vals = self._data._ndarray + unbox = self._data._unbox + + if self.is_monotonic_increasing: + if len(self) and ( + (t1 < self[0] and t2 < self[0]) or (t1 > self[-1] and t2 > self[-1]) + ): + # we are out of range + raise KeyError + + # TODO: does this depend on being monotonic _increasing_? + + # a monotonic (sorted) series can be sliced + left = vals.searchsorted(unbox(t1), side="left") + right = vals.searchsorted(unbox(t2), side="right") + return slice(left, right) + + else: + lhs_mask = vals >= unbox(t1) + rhs_mask = vals <= unbox(t2) + + # try to find the dates + return (lhs_mask & rhs_mask).nonzero()[0] + + def _maybe_cast_slice_bound(self, label, side: str): + """ + If label is a string, cast it to scalar type according to resolution. + + Parameters + ---------- + label : object + side : {'left', 'right'} + + Returns + ------- + label : object + + Notes + ----- + Value of `side` parameter should be validated in caller. + """ + if isinstance(label, str): + try: + parsed, reso = self._parse_with_reso(label) + except ValueError as err: + # DTI -> parsing.DateParseError + # TDI -> 'unit abbreviation w/o a number' + # PI -> string cannot be parsed as datetime-like + self._raise_invalid_indexer("slice", label, err) + + lower, upper = self._parsed_string_to_bounds(reso, parsed) + return lower if side == "left" else upper + elif not isinstance(label, self._data._recognized_scalars): + self._raise_invalid_indexer("slice", label) + + return label + + # -------------------------------------------------------------------- + # Arithmetic Methods + + def shift(self, periods: int = 1, freq=None) -> Self: + """ + Shift index by desired number of time frequency increments. + + This method is for shifting the values of datetime-like indexes + by a specified time increment a given number of times. + + Parameters + ---------- + periods : int, default 1 + Number of periods (or increments) to shift by, + can be positive or negative. + freq : pandas.DateOffset, pandas.Timedelta or string, optional + Frequency increment to shift by. + If None, the index is shifted by its own `freq` attribute. + Offset aliases are valid strings, e.g., 'D', 'W', 'M' etc. + + Returns + ------- + pandas.DatetimeIndex + Shifted index. + + See Also + -------- + Index.shift : Shift values of Index. + PeriodIndex.shift : Shift values of PeriodIndex. + """ + raise NotImplementedError + + # -------------------------------------------------------------------- + + @doc(Index._maybe_cast_listlike_indexer) + def _maybe_cast_listlike_indexer(self, keyarr): + try: + res = self._data._validate_listlike(keyarr, allow_object=True) + except (ValueError, TypeError): + if not isinstance(keyarr, ExtensionArray): + # e.g. we don't want to cast DTA to ndarray[object] + res = com.asarray_tuplesafe(keyarr) + # TODO: com.asarray_tuplesafe shouldn't cast e.g. DatetimeArray + else: + res = keyarr + return Index(res, dtype=res.dtype) + + +class DatetimeTimedeltaMixin(DatetimeIndexOpsMixin, ABC): + """ + Mixin class for methods shared by DatetimeIndex and TimedeltaIndex, + but not PeriodIndex + """ + + _data: DatetimeArray | TimedeltaArray + _comparables = ["name", "freq"] + _attributes = ["name", "freq"] + + # Compat for frequency inference, see GH#23789 + _is_monotonic_increasing = Index.is_monotonic_increasing + _is_monotonic_decreasing = Index.is_monotonic_decreasing + _is_unique = Index.is_unique + + @property + def unit(self) -> str: + return self._data.unit + + def as_unit(self, unit: str) -> Self: + """ + Convert to a dtype with the given unit resolution. + + Parameters + ---------- + unit : {'s', 'ms', 'us', 'ns'} + + Returns + ------- + same type as self + + Examples + -------- + For :class:`pandas.DatetimeIndex`: + + >>> idx = pd.DatetimeIndex(['2020-01-02 01:02:03.004005006']) + >>> idx + DatetimeIndex(['2020-01-02 01:02:03.004005006'], + dtype='datetime64[ns]', freq=None) + >>> idx.as_unit('s') + DatetimeIndex(['2020-01-02 01:02:03'], dtype='datetime64[s]', freq=None) + + For :class:`pandas.TimedeltaIndex`: + + >>> tdelta_idx = pd.to_timedelta(['1 day 3 min 2 us 42 ns']) + >>> tdelta_idx + TimedeltaIndex(['1 days 00:03:00.000002042'], + dtype='timedelta64[ns]', freq=None) + >>> tdelta_idx.as_unit('s') + TimedeltaIndex(['1 days 00:03:00'], dtype='timedelta64[s]', freq=None) + """ + arr = self._data.as_unit(unit) + return type(self)._simple_new(arr, name=self.name) + + def _with_freq(self, freq): + arr = self._data._with_freq(freq) + return type(self)._simple_new(arr, name=self._name) + + @property + def values(self) -> np.ndarray: + # NB: For Datetime64TZ this is lossy + data = self._data._ndarray + if using_copy_on_write(): + data = data.view() + data.flags.writeable = False + return data + + @doc(DatetimeIndexOpsMixin.shift) + def shift(self, periods: int = 1, freq=None) -> Self: + if freq is not None and freq != self.freq: + if isinstance(freq, str): + freq = to_offset(freq) + offset = periods * freq + return self + offset + + if periods == 0 or len(self) == 0: + # GH#14811 empty case + return self.copy() + + if self.freq is None: + raise NullFrequencyError("Cannot shift with no freq") + + start = self[0] + periods * self.freq + end = self[-1] + periods * self.freq + + # Note: in the DatetimeTZ case, _generate_range will infer the + # appropriate timezone from `start` and `end`, so tz does not need + # to be passed explicitly. + result = self._data._generate_range( + start=start, end=end, periods=None, freq=self.freq, unit=self.unit + ) + return type(self)._simple_new(result, name=self.name) + + @cache_readonly + @doc(DatetimeLikeArrayMixin.inferred_freq) + def inferred_freq(self) -> str | None: + return self._data.inferred_freq + + # -------------------------------------------------------------------- + # Set Operation Methods + + @cache_readonly + def _as_range_index(self) -> RangeIndex: + # Convert our i8 representations to RangeIndex + # Caller is responsible for checking isinstance(self.freq, Tick) + freq = cast(Tick, self.freq) + tick = Timedelta(freq).as_unit("ns")._value + rng = range(self[0]._value, self[-1]._value + tick, tick) + return RangeIndex(rng) + + def _can_range_setop(self, other) -> bool: + return isinstance(self.freq, Tick) and isinstance(other.freq, Tick) + + def _wrap_range_setop(self, other, res_i8) -> Self: + new_freq = None + if not len(res_i8): + # RangeIndex defaults to step=1, which we don't want. + new_freq = self.freq + elif isinstance(res_i8, RangeIndex): + new_freq = to_offset(Timedelta(res_i8.step)) + + # TODO(GH#41493): we cannot just do + # type(self._data)(res_i8.values, dtype=self.dtype, freq=new_freq) + # because test_setops_preserve_freq fails with _validate_frequency raising. + # This raising is incorrect, as 'on_freq' is incorrect. This will + # be fixed by GH#41493 + res_values = res_i8.values.view(self._data._ndarray.dtype) + result = type(self._data)._simple_new( + # error: Argument "dtype" to "_simple_new" of "DatetimeArray" has + # incompatible type "Union[dtype[Any], ExtensionDtype]"; expected + # "Union[dtype[datetime64], DatetimeTZDtype]" + res_values, + dtype=self.dtype, # type: ignore[arg-type] + freq=new_freq, # type: ignore[arg-type] + ) + return cast("Self", self._wrap_setop_result(other, result)) + + def _range_intersect(self, other, sort) -> Self: + # Dispatch to RangeIndex intersection logic. + left = self._as_range_index + right = other._as_range_index + res_i8 = left.intersection(right, sort=sort) + return self._wrap_range_setop(other, res_i8) + + def _range_union(self, other, sort) -> Self: + # Dispatch to RangeIndex union logic. + left = self._as_range_index + right = other._as_range_index + res_i8 = left.union(right, sort=sort) + return self._wrap_range_setop(other, res_i8) + + def _intersection(self, other: Index, sort: bool = False) -> Index: + """ + intersection specialized to the case with matching dtypes and both non-empty. + """ + other = cast("DatetimeTimedeltaMixin", other) + + if self._can_range_setop(other): + return self._range_intersect(other, sort=sort) + + if not self._can_fast_intersect(other): + result = Index._intersection(self, other, sort=sort) + # We need to invalidate the freq because Index._intersection + # uses _shallow_copy on a view of self._data, which will preserve + # self.freq if we're not careful. + # At this point we should have result.dtype == self.dtype + # and type(result) is type(self._data) + result = self._wrap_setop_result(other, result) + return result._with_freq(None)._with_freq("infer") + + else: + return self._fast_intersect(other, sort) + + def _fast_intersect(self, other, sort): + # to make our life easier, "sort" the two ranges + if self[0] <= other[0]: + left, right = self, other + else: + left, right = other, self + + # after sorting, the intersection always starts with the right index + # and ends with the index of which the last elements is smallest + end = min(left[-1], right[-1]) + start = right[0] + + if end < start: + result = self[:0] + else: + lslice = slice(*left.slice_locs(start, end)) + result = left._values[lslice] + + return result + + def _can_fast_intersect(self, other: Self) -> bool: + # Note: we only get here with len(self) > 0 and len(other) > 0 + if self.freq is None: + return False + + elif other.freq != self.freq: + return False + + elif not self.is_monotonic_increasing: + # Because freq is not None, we must then be monotonic decreasing + return False + + # this along with matching freqs ensure that we "line up", + # so intersection will preserve freq + # Note we are assuming away Ticks, as those go through _range_intersect + # GH#42104 + return self.freq.n == 1 + + def _can_fast_union(self, other: Self) -> bool: + # Assumes that type(self) == type(other), as per the annotation + # The ability to fast_union also implies that `freq` should be + # retained on union. + freq = self.freq + + if freq is None or freq != other.freq: + return False + + if not self.is_monotonic_increasing: + # Because freq is not None, we must then be monotonic decreasing + # TODO: do union on the reversed indexes? + return False + + if len(self) == 0 or len(other) == 0: + # only reached via union_many + return True + + # to make our life easier, "sort" the two ranges + if self[0] <= other[0]: + left, right = self, other + else: + left, right = other, self + + right_start = right[0] + left_end = left[-1] + + # Only need to "adjoin", not overlap + return (right_start == left_end + freq) or right_start in left + + def _fast_union(self, other: Self, sort=None) -> Self: + # Caller is responsible for ensuring self and other are non-empty + + # to make our life easier, "sort" the two ranges + if self[0] <= other[0]: + left, right = self, other + elif sort is False: + # TDIs are not in the "correct" order and we don't want + # to sort but want to remove overlaps + left, right = self, other + left_start = left[0] + loc = right.searchsorted(left_start, side="left") + right_chunk = right._values[:loc] + dates = concat_compat((left._values, right_chunk)) + result = type(self)._simple_new(dates, name=self.name) + return result + else: + left, right = other, self + + left_end = left[-1] + right_end = right[-1] + + # concatenate + if left_end < right_end: + loc = right.searchsorted(left_end, side="right") + right_chunk = right._values[loc:] + dates = concat_compat([left._values, right_chunk]) + # The can_fast_union check ensures that the result.freq + # should match self.freq + assert isinstance(dates, type(self._data)) + # error: Item "ExtensionArray" of "ExtensionArray | + # ndarray[Any, Any]" has no attribute "_freq" + assert dates._freq == self.freq # type: ignore[union-attr] + result = type(self)._simple_new(dates) + return result + else: + return left + + def _union(self, other, sort): + # We are called by `union`, which is responsible for this validation + assert isinstance(other, type(self)) + assert self.dtype == other.dtype + + if self._can_range_setop(other): + return self._range_union(other, sort=sort) + + if self._can_fast_union(other): + result = self._fast_union(other, sort=sort) + # in the case with sort=None, the _can_fast_union check ensures + # that result.freq == self.freq + return result + else: + return super()._union(other, sort)._with_freq("infer") + + # -------------------------------------------------------------------- + # Join Methods + + def _get_join_freq(self, other): + """ + Get the freq to attach to the result of a join operation. + """ + freq = None + if self._can_fast_union(other): + freq = self.freq + return freq + + def _wrap_joined_index( + self, joined, other, lidx: npt.NDArray[np.intp], ridx: npt.NDArray[np.intp] + ): + assert other.dtype == self.dtype, (other.dtype, self.dtype) + result = super()._wrap_joined_index(joined, other, lidx, ridx) + result._data._freq = self._get_join_freq(other) + return result + + def _get_engine_target(self) -> np.ndarray: + # engine methods and libjoin methods need dt64/td64 values cast to i8 + return self._data._ndarray.view("i8") + + def _from_join_target(self, result: np.ndarray): + # view e.g. i8 back to M8[ns] + result = result.view(self._data._ndarray.dtype) + return self._data._from_backing_data(result) + + # -------------------------------------------------------------------- + # List-like Methods + + def _get_delete_freq(self, loc: int | slice | Sequence[int]): + """ + Find the `freq` for self.delete(loc). + """ + freq = None + if self.freq is not None: + if is_integer(loc): + if loc in (0, -len(self), -1, len(self) - 1): + freq = self.freq + else: + if is_list_like(loc): + # error: Incompatible types in assignment (expression has + # type "Union[slice, ndarray]", variable has type + # "Union[int, slice, Sequence[int]]") + loc = lib.maybe_indices_to_slice( # type: ignore[assignment] + np.asarray(loc, dtype=np.intp), len(self) + ) + if isinstance(loc, slice) and loc.step in (1, None): + if loc.start in (0, None) or loc.stop in (len(self), None): + freq = self.freq + return freq + + def _get_insert_freq(self, loc: int, item): + """ + Find the `freq` for self.insert(loc, item). + """ + value = self._data._validate_scalar(item) + item = self._data._box_func(value) + + freq = None + if self.freq is not None: + # freq can be preserved on edge cases + if self.size: + if item is NaT: + pass + elif loc in (0, -len(self)) and item + self.freq == self[0]: + freq = self.freq + elif (loc == len(self)) and item - self.freq == self[-1]: + freq = self.freq + else: + # Adding a single item to an empty index may preserve freq + if isinstance(self.freq, Tick): + # all TimedeltaIndex cases go through here; is_on_offset + # would raise TypeError + freq = self.freq + elif self.freq.is_on_offset(item): + freq = self.freq + return freq + + @doc(NDArrayBackedExtensionIndex.delete) + def delete(self, loc) -> Self: + result = super().delete(loc) + result._data._freq = self._get_delete_freq(loc) + return result + + @doc(NDArrayBackedExtensionIndex.insert) + def insert(self, loc: int, item): + result = super().insert(loc, item) + if isinstance(result, type(self)): + # i.e. parent class method did not cast + result._data._freq = self._get_insert_freq(loc, item) + return result + + # -------------------------------------------------------------------- + # NDArray-Like Methods + + @Appender(_index_shared_docs["take"] % _index_doc_kwargs) + def take( + self, + indices, + axis: Axis = 0, + allow_fill: bool = True, + fill_value=None, + **kwargs, + ) -> Self: + nv.validate_take((), kwargs) + indices = np.asarray(indices, dtype=np.intp) + + result = NDArrayBackedExtensionIndex.take( + self, indices, axis, allow_fill, fill_value, **kwargs + ) + + maybe_slice = lib.maybe_indices_to_slice(indices, len(self)) + if isinstance(maybe_slice, slice): + freq = self._data._get_getitem_freq(maybe_slice) + result._data._freq = freq + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimes.py new file mode 100644 index 0000000000000000000000000000000000000000..3204a9c97ee73fa873a4cbe461e2f3c4690c781f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/datetimes.py @@ -0,0 +1,1127 @@ +from __future__ import annotations + +import datetime as dt +import operator +from typing import TYPE_CHECKING +import warnings + +import numpy as np +import pytz + +from pandas._libs import ( + NaT, + Period, + Timestamp, + index as libindex, + lib, +) +from pandas._libs.tslibs import ( + Resolution, + Tick, + Timedelta, + periods_per_day, + timezones, + to_offset, +) +from pandas._libs.tslibs.offsets import prefix_mapping +from pandas.util._decorators import ( + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import is_scalar +from pandas.core.dtypes.dtypes import DatetimeTZDtype +from pandas.core.dtypes.generic import ABCSeries +from pandas.core.dtypes.missing import is_valid_na_for_dtype + +from pandas.core.arrays.datetimes import ( + DatetimeArray, + tz_to_dtype, +) +import pandas.core.common as com +from pandas.core.indexes.base import ( + Index, + maybe_extract_name, +) +from pandas.core.indexes.datetimelike import DatetimeTimedeltaMixin +from pandas.core.indexes.extension import inherit_names +from pandas.core.tools.times import to_time + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import ( + Dtype, + DtypeObj, + Frequency, + IntervalClosedType, + Self, + TimeAmbiguous, + TimeNonexistent, + npt, + ) + + from pandas.core.api import ( + DataFrame, + PeriodIndex, + ) + +from pandas._libs.tslibs.dtypes import OFFSET_TO_PERIOD_FREQSTR + + +def _new_DatetimeIndex(cls, d): + """ + This is called upon unpickling, rather than the default which doesn't + have arguments and breaks __new__ + """ + if "data" in d and not isinstance(d["data"], DatetimeIndex): + # Avoid need to verify integrity by calling simple_new directly + data = d.pop("data") + if not isinstance(data, DatetimeArray): + # For backward compat with older pickles, we may need to construct + # a DatetimeArray to adapt to the newer _simple_new signature + tz = d.pop("tz") + freq = d.pop("freq") + dta = DatetimeArray._simple_new(data, dtype=tz_to_dtype(tz), freq=freq) + else: + dta = data + for key in ["tz", "freq"]: + # These are already stored in our DatetimeArray; if they are + # also in the pickle and don't match, we have a problem. + if key in d: + assert d[key] == getattr(dta, key) + d.pop(key) + result = cls._simple_new(dta, **d) + else: + with warnings.catch_warnings(): + # TODO: If we knew what was going in to **d, we might be able to + # go through _simple_new instead + warnings.simplefilter("ignore") + result = cls.__new__(cls, **d) + + return result + + +@inherit_names( + DatetimeArray._field_ops + + [ + method + for method in DatetimeArray._datetimelike_methods + if method not in ("tz_localize", "tz_convert", "strftime") + ], + DatetimeArray, + wrap=True, +) +@inherit_names(["is_normalized"], DatetimeArray, cache=True) +@inherit_names( + [ + "tz", + "tzinfo", + "dtype", + "to_pydatetime", + "date", + "time", + "timetz", + "std", + ] + + DatetimeArray._bool_ops, + DatetimeArray, +) +class DatetimeIndex(DatetimeTimedeltaMixin): + """ + Immutable ndarray-like of datetime64 data. + + Represented internally as int64, and which can be boxed to Timestamp objects + that are subclasses of datetime and carry metadata. + + .. versionchanged:: 2.0.0 + The various numeric date/time attributes (:attr:`~DatetimeIndex.day`, + :attr:`~DatetimeIndex.month`, :attr:`~DatetimeIndex.year` etc.) now have dtype + ``int32``. Previously they had dtype ``int64``. + + Parameters + ---------- + data : array-like (1-dimensional) + Datetime-like data to construct index with. + freq : str or pandas offset object, optional + One of pandas date offset strings or corresponding objects. The string + 'infer' can be passed in order to set the frequency of the index as the + inferred frequency upon creation. + tz : pytz.timezone or dateutil.tz.tzfile or datetime.tzinfo or str + Set the Timezone of the data. + normalize : bool, default False + Normalize start/end dates to midnight before generating date range. + + .. deprecated:: 2.1.0 + + closed : {'left', 'right'}, optional + Set whether to include `start` and `end` that are on the + boundary. The default includes boundary points on either end. + + .. deprecated:: 2.1.0 + + ambiguous : 'infer', bool-ndarray, 'NaT', default 'raise' + When clocks moved backward due to DST, ambiguous times may arise. + For example in Central European Time (UTC+01), when going from 03:00 + DST to 02:00 non-DST, 02:30:00 local time occurs both at 00:30:00 UTC + and at 01:30:00 UTC. In such a situation, the `ambiguous` parameter + dictates how ambiguous times should be handled. + + - 'infer' will attempt to infer fall dst-transition hours based on + order + - bool-ndarray where True signifies a DST time, False signifies a + non-DST time (note that this flag is only applicable for ambiguous + times) + - 'NaT' will return NaT where there are ambiguous times + - 'raise' will raise an AmbiguousTimeError if there are ambiguous times. + dayfirst : bool, default False + If True, parse dates in `data` with the day first order. + yearfirst : bool, default False + If True parse dates in `data` with the year first order. + dtype : numpy.dtype or DatetimeTZDtype or str, default None + Note that the only NumPy dtype allowed is `datetime64[ns]`. + copy : bool, default False + Make a copy of input ndarray. + name : label, default None + Name to be stored in the index. + + Attributes + ---------- + year + month + day + hour + minute + second + microsecond + nanosecond + date + time + timetz + dayofyear + day_of_year + dayofweek + day_of_week + weekday + quarter + tz + freq + freqstr + is_month_start + is_month_end + is_quarter_start + is_quarter_end + is_year_start + is_year_end + is_leap_year + inferred_freq + + Methods + ------- + normalize + strftime + snap + tz_convert + tz_localize + round + floor + ceil + to_period + to_pydatetime + to_series + to_frame + month_name + day_name + mean + std + + See Also + -------- + Index : The base pandas Index type. + TimedeltaIndex : Index of timedelta64 data. + PeriodIndex : Index of Period data. + to_datetime : Convert argument to datetime. + date_range : Create a fixed-frequency DatetimeIndex. + + Notes + ----- + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00:00+00:00", "2/1/2020 11:00:00+00:00"]) + >>> idx + DatetimeIndex(['2020-01-01 10:00:00+00:00', '2020-02-01 11:00:00+00:00'], + dtype='datetime64[ns, UTC]', freq=None) + """ + + _typ = "datetimeindex" + + _data_cls = DatetimeArray + _supports_partial_string_indexing = True + + @property + def _engine_type(self) -> type[libindex.DatetimeEngine]: + return libindex.DatetimeEngine + + _data: DatetimeArray + _values: DatetimeArray + tz: dt.tzinfo | None + + # -------------------------------------------------------------------- + # methods that dispatch to DatetimeArray and wrap result + + @doc(DatetimeArray.strftime) + def strftime(self, date_format) -> Index: + arr = self._data.strftime(date_format) + return Index(arr, name=self.name, dtype=arr.dtype) + + @doc(DatetimeArray.tz_convert) + def tz_convert(self, tz) -> Self: + arr = self._data.tz_convert(tz) + return type(self)._simple_new(arr, name=self.name, refs=self._references) + + @doc(DatetimeArray.tz_localize) + def tz_localize( + self, + tz, + ambiguous: TimeAmbiguous = "raise", + nonexistent: TimeNonexistent = "raise", + ) -> Self: + arr = self._data.tz_localize(tz, ambiguous, nonexistent) + return type(self)._simple_new(arr, name=self.name) + + @doc(DatetimeArray.to_period) + def to_period(self, freq=None) -> PeriodIndex: + from pandas.core.indexes.api import PeriodIndex + + arr = self._data.to_period(freq) + return PeriodIndex._simple_new(arr, name=self.name) + + @doc(DatetimeArray.to_julian_date) + def to_julian_date(self) -> Index: + arr = self._data.to_julian_date() + return Index._simple_new(arr, name=self.name) + + @doc(DatetimeArray.isocalendar) + def isocalendar(self) -> DataFrame: + df = self._data.isocalendar() + return df.set_index(self) + + @cache_readonly + def _resolution_obj(self) -> Resolution: + return self._data._resolution_obj + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data=None, + freq: Frequency | lib.NoDefault = lib.no_default, + tz=lib.no_default, + normalize: bool | lib.NoDefault = lib.no_default, + closed=lib.no_default, + ambiguous: TimeAmbiguous = "raise", + dayfirst: bool = False, + yearfirst: bool = False, + dtype: Dtype | None = None, + copy: bool = False, + name: Hashable | None = None, + ) -> Self: + if closed is not lib.no_default: + # GH#52628 + warnings.warn( + f"The 'closed' keyword in {cls.__name__} construction is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if normalize is not lib.no_default: + # GH#52628 + warnings.warn( + f"The 'normalize' keyword in {cls.__name__} construction is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if is_scalar(data): + cls._raise_scalar_data_error(data) + + # - Cases checked above all return/raise before reaching here - # + + name = maybe_extract_name(name, data, cls) + + if ( + isinstance(data, DatetimeArray) + and freq is lib.no_default + and tz is lib.no_default + and dtype is None + ): + # fastpath, similar logic in TimedeltaIndex.__new__; + # Note in this particular case we retain non-nano. + if copy: + data = data.copy() + return cls._simple_new(data, name=name) + + dtarr = DatetimeArray._from_sequence_not_strict( + data, + dtype=dtype, + copy=copy, + tz=tz, + freq=freq, + dayfirst=dayfirst, + yearfirst=yearfirst, + ambiguous=ambiguous, + ) + refs = None + if not copy and isinstance(data, (Index, ABCSeries)): + refs = data._references + + subarr = cls._simple_new(dtarr, name=name, refs=refs) + return subarr + + # -------------------------------------------------------------------- + + @cache_readonly + def _is_dates_only(self) -> bool: + """ + Return a boolean if we are only dates (and don't have a timezone) + + Returns + ------- + bool + """ + if isinstance(self.freq, Tick): + delta = Timedelta(self.freq) + + if delta % dt.timedelta(days=1) != dt.timedelta(days=0): + return False + + return self._values._is_dates_only + + def __reduce__(self): + d = {"data": self._data, "name": self.name} + return _new_DatetimeIndex, (type(self), d), None + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + """ + Can we compare values of the given dtype to our own? + """ + if self.tz is not None: + # If we have tz, we can compare to tzaware + return isinstance(dtype, DatetimeTZDtype) + # if we dont have tz, we can only compare to tznaive + return lib.is_np_dtype(dtype, "M") + + # -------------------------------------------------------------------- + # Rendering Methods + + @cache_readonly + def _formatter_func(self): + # Note this is equivalent to the DatetimeIndexOpsMixin method but + # uses the maybe-cached self._is_dates_only instead of re-computing it. + from pandas.io.formats.format import get_format_datetime64 + + formatter = get_format_datetime64(is_dates_only=self._is_dates_only) + return lambda x: f"'{formatter(x)}'" + + # -------------------------------------------------------------------- + # Set Operation Methods + + def _can_range_setop(self, other) -> bool: + # GH 46702: If self or other have non-UTC tzs, DST transitions prevent + # range representation due to no singular step + if ( + self.tz is not None + and not timezones.is_utc(self.tz) + and not timezones.is_fixed_offset(self.tz) + ): + return False + if ( + other.tz is not None + and not timezones.is_utc(other.tz) + and not timezones.is_fixed_offset(other.tz) + ): + return False + return super()._can_range_setop(other) + + # -------------------------------------------------------------------- + + def _get_time_micros(self) -> npt.NDArray[np.int64]: + """ + Return the number of microseconds since midnight. + + Returns + ------- + ndarray[int64_t] + """ + values = self._data._local_timestamps() + + ppd = periods_per_day(self._data._creso) + + frac = values % ppd + if self.unit == "ns": + micros = frac // 1000 + elif self.unit == "us": + micros = frac + elif self.unit == "ms": + micros = frac * 1000 + elif self.unit == "s": + micros = frac * 1_000_000 + else: # pragma: no cover + raise NotImplementedError(self.unit) + + micros[self._isnan] = -1 + return micros + + def snap(self, freq: Frequency = "S") -> DatetimeIndex: + """ + Snap time stamps to nearest occurring frequency. + + Returns + ------- + DatetimeIndex + + Examples + -------- + >>> idx = pd.DatetimeIndex(['2023-01-01', '2023-01-02', + ... '2023-02-01', '2023-02-02']) + >>> idx + DatetimeIndex(['2023-01-01', '2023-01-02', '2023-02-01', '2023-02-02'], + dtype='datetime64[ns]', freq=None) + >>> idx.snap('MS') + DatetimeIndex(['2023-01-01', '2023-01-01', '2023-02-01', '2023-02-01'], + dtype='datetime64[ns]', freq=None) + """ + # Superdumb, punting on any optimizing + freq = to_offset(freq) + + dta = self._data.copy() + + for i, v in enumerate(self): + s = v + if not freq.is_on_offset(s): + t0 = freq.rollback(s) + t1 = freq.rollforward(s) + if abs(s - t0) < abs(t1 - s): + s = t0 + else: + s = t1 + dta[i] = s + + return DatetimeIndex._simple_new(dta, name=self.name) + + # -------------------------------------------------------------------- + # Indexing Methods + + def _parsed_string_to_bounds(self, reso: Resolution, parsed: dt.datetime): + """ + Calculate datetime bounds for parsed time string and its resolution. + + Parameters + ---------- + reso : Resolution + Resolution provided by parsed string. + parsed : datetime + Datetime from parsed string. + + Returns + ------- + lower, upper: pd.Timestamp + """ + freq = OFFSET_TO_PERIOD_FREQSTR.get(reso.attr_abbrev, reso.attr_abbrev) + per = Period(parsed, freq=freq) + start, end = per.start_time, per.end_time + + # GH 24076 + # If an incoming date string contained a UTC offset, need to localize + # the parsed date to this offset first before aligning with the index's + # timezone + start = start.tz_localize(parsed.tzinfo) + end = end.tz_localize(parsed.tzinfo) + + if parsed.tzinfo is not None: + if self.tz is None: + raise ValueError( + "The index must be timezone aware when indexing " + "with a date string with a UTC offset" + ) + # The flipped case with parsed.tz is None and self.tz is not None + # is ruled out bc parsed and reso are produced by _parse_with_reso, + # which localizes parsed. + return start, end + + def _parse_with_reso(self, label: str): + parsed, reso = super()._parse_with_reso(label) + + parsed = Timestamp(parsed) + + if self.tz is not None and parsed.tzinfo is None: + # we special-case timezone-naive strings and timezone-aware + # DatetimeIndex + # https://github.com/pandas-dev/pandas/pull/36148#issuecomment-687883081 + parsed = parsed.tz_localize(self.tz) + + return parsed, reso + + def _disallow_mismatched_indexing(self, key) -> None: + """ + Check for mismatched-tzawareness indexing and re-raise as KeyError. + """ + # we get here with isinstance(key, self._data._recognized_scalars) + try: + # GH#36148 + self._data._assert_tzawareness_compat(key) + except TypeError as err: + raise KeyError(key) from err + + def get_loc(self, key): + """ + Get integer location for requested label + + Returns + ------- + loc : int + """ + self._check_indexing_error(key) + + orig_key = key + if is_valid_na_for_dtype(key, self.dtype): + key = NaT + + if isinstance(key, self._data._recognized_scalars): + # needed to localize naive datetimes + self._disallow_mismatched_indexing(key) + key = Timestamp(key) + + elif isinstance(key, str): + try: + parsed, reso = self._parse_with_reso(key) + except (ValueError, pytz.NonExistentTimeError) as err: + raise KeyError(key) from err + self._disallow_mismatched_indexing(parsed) + + if self._can_partial_date_slice(reso): + try: + return self._partial_date_slice(reso, parsed) + except KeyError as err: + raise KeyError(key) from err + + key = parsed + + elif isinstance(key, dt.timedelta): + # GH#20464 + raise TypeError( + f"Cannot index {type(self).__name__} with {type(key).__name__}" + ) + + elif isinstance(key, dt.time): + return self.indexer_at_time(key) + + else: + # unrecognized type + raise KeyError(key) + + try: + return Index.get_loc(self, key) + except KeyError as err: + raise KeyError(orig_key) from err + + @doc(DatetimeTimedeltaMixin._maybe_cast_slice_bound) + def _maybe_cast_slice_bound(self, label, side: str): + # GH#42855 handle date here instead of get_slice_bound + if isinstance(label, dt.date) and not isinstance(label, dt.datetime): + # Pandas supports slicing with dates, treated as datetimes at midnight. + # https://github.com/pandas-dev/pandas/issues/31501 + label = Timestamp(label).to_pydatetime() + + label = super()._maybe_cast_slice_bound(label, side) + self._data._assert_tzawareness_compat(label) + return Timestamp(label) + + def slice_indexer(self, start=None, end=None, step=None): + """ + Return indexer for specified label slice. + Index.slice_indexer, customized to handle time slicing. + + In addition to functionality provided by Index.slice_indexer, does the + following: + + - if both `start` and `end` are instances of `datetime.time`, it + invokes `indexer_between_time` + - if `start` and `end` are both either string or None perform + value-based selection in non-monotonic cases. + + """ + # For historical reasons DatetimeIndex supports slices between two + # instances of datetime.time as if it were applying a slice mask to + # an array of (self.hour, self.minute, self.seconds, self.microsecond). + if isinstance(start, dt.time) and isinstance(end, dt.time): + if step is not None and step != 1: + raise ValueError("Must have step size of 1 with time slices") + return self.indexer_between_time(start, end) + + if isinstance(start, dt.time) or isinstance(end, dt.time): + raise KeyError("Cannot mix time and non-time slice keys") + + def check_str_or_none(point) -> bool: + return point is not None and not isinstance(point, str) + + # GH#33146 if start and end are combinations of str and None and Index is not + # monotonic, we can not use Index.slice_indexer because it does not honor the + # actual elements, is only searching for start and end + if ( + check_str_or_none(start) + or check_str_or_none(end) + or self.is_monotonic_increasing + ): + return Index.slice_indexer(self, start, end, step) + + mask = np.array(True) + in_index = True + if start is not None: + start_casted = self._maybe_cast_slice_bound(start, "left") + mask = start_casted <= self + in_index &= (start_casted == self).any() + + if end is not None: + end_casted = self._maybe_cast_slice_bound(end, "right") + mask = (self <= end_casted) & mask + in_index &= (end_casted == self).any() + + if not in_index: + raise KeyError( + "Value based partial slicing on non-monotonic DatetimeIndexes " + "with non-existing keys is not allowed.", + ) + indexer = mask.nonzero()[0][::step] + if len(indexer) == len(self): + return slice(None) + else: + return indexer + + # -------------------------------------------------------------------- + + @property + def inferred_type(self) -> str: + # b/c datetime is represented as microseconds since the epoch, make + # sure we can't have ambiguous indexing + return "datetime64" + + def indexer_at_time(self, time, asof: bool = False) -> npt.NDArray[np.intp]: + """ + Return index locations of values at particular time of day. + + Parameters + ---------- + time : datetime.time or str + Time passed in either as object (datetime.time) or as string in + appropriate format ("%H:%M", "%H%M", "%I:%M%p", "%I%M%p", + "%H:%M:%S", "%H%M%S", "%I:%M:%S%p", "%I%M%S%p"). + + Returns + ------- + np.ndarray[np.intp] + + See Also + -------- + indexer_between_time : Get index locations of values between particular + times of day. + DataFrame.at_time : Select values at particular time of day. + + Examples + -------- + >>> idx = pd.DatetimeIndex(["1/1/2020 10:00", "2/1/2020 11:00", + ... "3/1/2020 10:00"]) + >>> idx.indexer_at_time("10:00") + array([0, 2]) + """ + if asof: + raise NotImplementedError("'asof' argument is not supported") + + if isinstance(time, str): + from dateutil.parser import parse + + time = parse(time).time() + + if time.tzinfo: + if self.tz is None: + raise ValueError("Index must be timezone aware.") + time_micros = self.tz_convert(time.tzinfo)._get_time_micros() + else: + time_micros = self._get_time_micros() + micros = _time_to_micros(time) + return (time_micros == micros).nonzero()[0] + + def indexer_between_time( + self, start_time, end_time, include_start: bool = True, include_end: bool = True + ) -> npt.NDArray[np.intp]: + """ + Return index locations of values between particular times of day. + + Parameters + ---------- + start_time, end_time : datetime.time, str + Time passed either as object (datetime.time) or as string in + appropriate format ("%H:%M", "%H%M", "%I:%M%p", "%I%M%p", + "%H:%M:%S", "%H%M%S", "%I:%M:%S%p","%I%M%S%p"). + include_start : bool, default True + include_end : bool, default True + + Returns + ------- + np.ndarray[np.intp] + + See Also + -------- + indexer_at_time : Get index locations of values at particular time of day. + DataFrame.between_time : Select values between particular times of day. + + Examples + -------- + >>> idx = pd.date_range("2023-01-01", periods=4, freq="h") + >>> idx + DatetimeIndex(['2023-01-01 00:00:00', '2023-01-01 01:00:00', + '2023-01-01 02:00:00', '2023-01-01 03:00:00'], + dtype='datetime64[ns]', freq='h') + >>> idx.indexer_between_time("00:00", "2:00", include_end=False) + array([0, 1]) + """ + start_time = to_time(start_time) + end_time = to_time(end_time) + time_micros = self._get_time_micros() + start_micros = _time_to_micros(start_time) + end_micros = _time_to_micros(end_time) + + if include_start and include_end: + lop = rop = operator.le + elif include_start: + lop = operator.le + rop = operator.lt + elif include_end: + lop = operator.lt + rop = operator.le + else: + lop = rop = operator.lt + + if start_time <= end_time: + join_op = operator.and_ + else: + join_op = operator.or_ + + mask = join_op(lop(start_micros, time_micros), rop(time_micros, end_micros)) + + return mask.nonzero()[0] + + +def date_range( + start=None, + end=None, + periods=None, + freq=None, + tz=None, + normalize: bool = False, + name: Hashable | None = None, + inclusive: IntervalClosedType = "both", + *, + unit: str | None = None, + **kwargs, +) -> DatetimeIndex: + """ + Return a fixed frequency DatetimeIndex. + + Returns the range of equally spaced time points (where the difference between any + two adjacent points is specified by the given frequency) such that they all + satisfy `start <[=] x <[=] end`, where the first one and the last one are, resp., + the first and last time points in that range that fall on the boundary of ``freq`` + (if given as a frequency string) or that are valid for ``freq`` (if given as a + :class:`pandas.tseries.offsets.DateOffset`). (If exactly one of ``start``, + ``end``, or ``freq`` is *not* specified, this missing parameter can be computed + given ``periods``, the number of timesteps in the range. See the note below.) + + Parameters + ---------- + start : str or datetime-like, optional + Left bound for generating dates. + end : str or datetime-like, optional + Right bound for generating dates. + periods : int, optional + Number of periods to generate. + freq : str, Timedelta, datetime.timedelta, or DateOffset, default 'D' + Frequency strings can have multiples, e.g. '5h'. See + :ref:`here ` for a list of + frequency aliases. + tz : str or tzinfo, optional + Time zone name for returning localized DatetimeIndex, for example + 'Asia/Hong_Kong'. By default, the resulting DatetimeIndex is + timezone-naive unless timezone-aware datetime-likes are passed. + normalize : bool, default False + Normalize start/end dates to midnight before generating date range. + name : str, default None + Name of the resulting DatetimeIndex. + inclusive : {"both", "neither", "left", "right"}, default "both" + Include boundaries; Whether to set each bound as closed or open. + + .. versionadded:: 1.4.0 + unit : str, default None + Specify the desired resolution of the result. + + .. versionadded:: 2.0.0 + **kwargs + For compatibility. Has no effect on the result. + + Returns + ------- + DatetimeIndex + + See Also + -------- + DatetimeIndex : An immutable container for datetimes. + timedelta_range : Return a fixed frequency TimedeltaIndex. + period_range : Return a fixed frequency PeriodIndex. + interval_range : Return a fixed frequency IntervalIndex. + + Notes + ----- + Of the four parameters ``start``, ``end``, ``periods``, and ``freq``, + exactly three must be specified. If ``freq`` is omitted, the resulting + ``DatetimeIndex`` will have ``periods`` linearly spaced elements between + ``start`` and ``end`` (closed on both sides). + + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + **Specifying the values** + + The next four examples generate the same `DatetimeIndex`, but vary + the combination of `start`, `end` and `periods`. + + Specify `start` and `end`, with the default daily frequency. + + >>> pd.date_range(start='1/1/2018', end='1/08/2018') + DatetimeIndex(['2018-01-01', '2018-01-02', '2018-01-03', '2018-01-04', + '2018-01-05', '2018-01-06', '2018-01-07', '2018-01-08'], + dtype='datetime64[ns]', freq='D') + + Specify timezone-aware `start` and `end`, with the default daily frequency. + + >>> pd.date_range( + ... start=pd.to_datetime("1/1/2018").tz_localize("Europe/Berlin"), + ... end=pd.to_datetime("1/08/2018").tz_localize("Europe/Berlin"), + ... ) + DatetimeIndex(['2018-01-01 00:00:00+01:00', '2018-01-02 00:00:00+01:00', + '2018-01-03 00:00:00+01:00', '2018-01-04 00:00:00+01:00', + '2018-01-05 00:00:00+01:00', '2018-01-06 00:00:00+01:00', + '2018-01-07 00:00:00+01:00', '2018-01-08 00:00:00+01:00'], + dtype='datetime64[ns, Europe/Berlin]', freq='D') + + Specify `start` and `periods`, the number of periods (days). + + >>> pd.date_range(start='1/1/2018', periods=8) + DatetimeIndex(['2018-01-01', '2018-01-02', '2018-01-03', '2018-01-04', + '2018-01-05', '2018-01-06', '2018-01-07', '2018-01-08'], + dtype='datetime64[ns]', freq='D') + + Specify `end` and `periods`, the number of periods (days). + + >>> pd.date_range(end='1/1/2018', periods=8) + DatetimeIndex(['2017-12-25', '2017-12-26', '2017-12-27', '2017-12-28', + '2017-12-29', '2017-12-30', '2017-12-31', '2018-01-01'], + dtype='datetime64[ns]', freq='D') + + Specify `start`, `end`, and `periods`; the frequency is generated + automatically (linearly spaced). + + >>> pd.date_range(start='2018-04-24', end='2018-04-27', periods=3) + DatetimeIndex(['2018-04-24 00:00:00', '2018-04-25 12:00:00', + '2018-04-27 00:00:00'], + dtype='datetime64[ns]', freq=None) + + **Other Parameters** + + Changed the `freq` (frequency) to ``'ME'`` (month end frequency). + + >>> pd.date_range(start='1/1/2018', periods=5, freq='ME') + DatetimeIndex(['2018-01-31', '2018-02-28', '2018-03-31', '2018-04-30', + '2018-05-31'], + dtype='datetime64[ns]', freq='ME') + + Multiples are allowed + + >>> pd.date_range(start='1/1/2018', periods=5, freq='3ME') + DatetimeIndex(['2018-01-31', '2018-04-30', '2018-07-31', '2018-10-31', + '2019-01-31'], + dtype='datetime64[ns]', freq='3ME') + + `freq` can also be specified as an Offset object. + + >>> pd.date_range(start='1/1/2018', periods=5, freq=pd.offsets.MonthEnd(3)) + DatetimeIndex(['2018-01-31', '2018-04-30', '2018-07-31', '2018-10-31', + '2019-01-31'], + dtype='datetime64[ns]', freq='3ME') + + Specify `tz` to set the timezone. + + >>> pd.date_range(start='1/1/2018', periods=5, tz='Asia/Tokyo') + DatetimeIndex(['2018-01-01 00:00:00+09:00', '2018-01-02 00:00:00+09:00', + '2018-01-03 00:00:00+09:00', '2018-01-04 00:00:00+09:00', + '2018-01-05 00:00:00+09:00'], + dtype='datetime64[ns, Asia/Tokyo]', freq='D') + + `inclusive` controls whether to include `start` and `end` that are on the + boundary. The default, "both", includes boundary points on either end. + + >>> pd.date_range(start='2017-01-01', end='2017-01-04', inclusive="both") + DatetimeIndex(['2017-01-01', '2017-01-02', '2017-01-03', '2017-01-04'], + dtype='datetime64[ns]', freq='D') + + Use ``inclusive='left'`` to exclude `end` if it falls on the boundary. + + >>> pd.date_range(start='2017-01-01', end='2017-01-04', inclusive='left') + DatetimeIndex(['2017-01-01', '2017-01-02', '2017-01-03'], + dtype='datetime64[ns]', freq='D') + + Use ``inclusive='right'`` to exclude `start` if it falls on the boundary, and + similarly ``inclusive='neither'`` will exclude both `start` and `end`. + + >>> pd.date_range(start='2017-01-01', end='2017-01-04', inclusive='right') + DatetimeIndex(['2017-01-02', '2017-01-03', '2017-01-04'], + dtype='datetime64[ns]', freq='D') + + **Specify a unit** + + >>> pd.date_range(start="2017-01-01", periods=10, freq="100YS", unit="s") + DatetimeIndex(['2017-01-01', '2117-01-01', '2217-01-01', '2317-01-01', + '2417-01-01', '2517-01-01', '2617-01-01', '2717-01-01', + '2817-01-01', '2917-01-01'], + dtype='datetime64[s]', freq='100YS-JAN') + """ + if freq is None and com.any_none(periods, start, end): + freq = "D" + + dtarr = DatetimeArray._generate_range( + start=start, + end=end, + periods=periods, + freq=freq, + tz=tz, + normalize=normalize, + inclusive=inclusive, + unit=unit, + **kwargs, + ) + return DatetimeIndex._simple_new(dtarr, name=name) + + +def bdate_range( + start=None, + end=None, + periods: int | None = None, + freq: Frequency | dt.timedelta = "B", + tz=None, + normalize: bool = True, + name: Hashable | None = None, + weekmask=None, + holidays=None, + inclusive: IntervalClosedType = "both", + **kwargs, +) -> DatetimeIndex: + """ + Return a fixed frequency DatetimeIndex with business day as the default. + + Parameters + ---------- + start : str or datetime-like, default None + Left bound for generating dates. + end : str or datetime-like, default None + Right bound for generating dates. + periods : int, default None + Number of periods to generate. + freq : str, Timedelta, datetime.timedelta, or DateOffset, default 'B' + Frequency strings can have multiples, e.g. '5h'. The default is + business daily ('B'). + tz : str or None + Time zone name for returning localized DatetimeIndex, for example + Asia/Beijing. + normalize : bool, default False + Normalize start/end dates to midnight before generating date range. + name : str, default None + Name of the resulting DatetimeIndex. + weekmask : str or None, default None + Weekmask of valid business days, passed to ``numpy.busdaycalendar``, + only used when custom frequency strings are passed. The default + value None is equivalent to 'Mon Tue Wed Thu Fri'. + holidays : list-like or None, default None + Dates to exclude from the set of valid business days, passed to + ``numpy.busdaycalendar``, only used when custom frequency strings + are passed. + inclusive : {"both", "neither", "left", "right"}, default "both" + Include boundaries; Whether to set each bound as closed or open. + + .. versionadded:: 1.4.0 + **kwargs + For compatibility. Has no effect on the result. + + Returns + ------- + DatetimeIndex + + Notes + ----- + Of the four parameters: ``start``, ``end``, ``periods``, and ``freq``, + exactly three must be specified. Specifying ``freq`` is a requirement + for ``bdate_range``. Use ``date_range`` if specifying ``freq`` is not + desired. + + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + Note how the two weekend days are skipped in the result. + + >>> pd.bdate_range(start='1/1/2018', end='1/08/2018') + DatetimeIndex(['2018-01-01', '2018-01-02', '2018-01-03', '2018-01-04', + '2018-01-05', '2018-01-08'], + dtype='datetime64[ns]', freq='B') + """ + if freq is None: + msg = "freq must be specified for bdate_range; use date_range instead" + raise TypeError(msg) + + if isinstance(freq, str) and freq.startswith("C"): + try: + weekmask = weekmask or "Mon Tue Wed Thu Fri" + freq = prefix_mapping[freq](holidays=holidays, weekmask=weekmask) + except (KeyError, TypeError) as err: + msg = f"invalid custom frequency string: {freq}" + raise ValueError(msg) from err + elif holidays or weekmask: + msg = ( + "a custom frequency string is required when holidays or " + f"weekmask are passed, got frequency {freq}" + ) + raise ValueError(msg) + + return date_range( + start=start, + end=end, + periods=periods, + freq=freq, + tz=tz, + normalize=normalize, + name=name, + inclusive=inclusive, + **kwargs, + ) + + +def _time_to_micros(time_obj: dt.time) -> int: + seconds = time_obj.hour * 60 * 60 + 60 * time_obj.minute + time_obj.second + return 1_000_000 * seconds + time_obj.microsecond diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/extension.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/extension.py new file mode 100644 index 0000000000000000000000000000000000000000..371d3c811e772ba10af5071e6cc9cb97ba9f3f58 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/extension.py @@ -0,0 +1,172 @@ +""" +Shared methods for Index subclasses backed by ExtensionArray. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Callable, + TypeVar, +) + +from pandas.util._decorators import cache_readonly + +from pandas.core.dtypes.generic import ABCDataFrame + +from pandas.core.indexes.base import Index + +if TYPE_CHECKING: + import numpy as np + + from pandas._typing import ( + ArrayLike, + npt, + ) + + from pandas.core.arrays import IntervalArray + from pandas.core.arrays._mixins import NDArrayBackedExtensionArray + +_ExtensionIndexT = TypeVar("_ExtensionIndexT", bound="ExtensionIndex") + + +def _inherit_from_data( + name: str, delegate: type, cache: bool = False, wrap: bool = False +): + """ + Make an alias for a method of the underlying ExtensionArray. + + Parameters + ---------- + name : str + Name of an attribute the class should inherit from its EA parent. + delegate : class + cache : bool, default False + Whether to convert wrapped properties into cache_readonly + wrap : bool, default False + Whether to wrap the inherited result in an Index. + + Returns + ------- + attribute, method, property, or cache_readonly + """ + attr = getattr(delegate, name) + + if isinstance(attr, property) or type(attr).__name__ == "getset_descriptor": + # getset_descriptor i.e. property defined in cython class + if cache: + + def cached(self): + return getattr(self._data, name) + + cached.__name__ = name + cached.__doc__ = attr.__doc__ + method = cache_readonly(cached) + + else: + + def fget(self): + result = getattr(self._data, name) + if wrap: + if isinstance(result, type(self._data)): + return type(self)._simple_new(result, name=self.name) + elif isinstance(result, ABCDataFrame): + return result.set_index(self) + return Index(result, name=self.name, dtype=result.dtype) + return result + + def fset(self, value) -> None: + setattr(self._data, name, value) + + fget.__name__ = name + fget.__doc__ = attr.__doc__ + + method = property(fget, fset) + + elif not callable(attr): + # just a normal attribute, no wrapping + method = attr + + else: + # error: Incompatible redefinition (redefinition with type "Callable[[Any, + # VarArg(Any), KwArg(Any)], Any]", original type "property") + def method(self, *args, **kwargs): # type: ignore[misc] + if "inplace" in kwargs: + raise ValueError(f"cannot use inplace with {type(self).__name__}") + result = attr(self._data, *args, **kwargs) + if wrap: + if isinstance(result, type(self._data)): + return type(self)._simple_new(result, name=self.name) + elif isinstance(result, ABCDataFrame): + return result.set_index(self) + return Index(result, name=self.name, dtype=result.dtype) + return result + + # error: "property" has no attribute "__name__" + method.__name__ = name # type: ignore[attr-defined] + method.__doc__ = attr.__doc__ + return method + + +def inherit_names( + names: list[str], delegate: type, cache: bool = False, wrap: bool = False +) -> Callable[[type[_ExtensionIndexT]], type[_ExtensionIndexT]]: + """ + Class decorator to pin attributes from an ExtensionArray to a Index subclass. + + Parameters + ---------- + names : List[str] + delegate : class + cache : bool, default False + wrap : bool, default False + Whether to wrap the inherited result in an Index. + """ + + def wrapper(cls: type[_ExtensionIndexT]) -> type[_ExtensionIndexT]: + for name in names: + meth = _inherit_from_data(name, delegate, cache=cache, wrap=wrap) + setattr(cls, name, meth) + + return cls + + return wrapper + + +class ExtensionIndex(Index): + """ + Index subclass for indexes backed by ExtensionArray. + """ + + # The base class already passes through to _data: + # size, __len__, dtype + + _data: IntervalArray | NDArrayBackedExtensionArray + + # --------------------------------------------------------------------- + + def _validate_fill_value(self, value): + """ + Convert value to be insertable to underlying array. + """ + return self._data._validate_setitem_value(value) + + @cache_readonly + def _isnan(self) -> npt.NDArray[np.bool_]: + # error: Incompatible return value type (got "ExtensionArray", expected + # "ndarray") + return self._data.isna() # type: ignore[return-value] + + +class NDArrayBackedExtensionIndex(ExtensionIndex): + """ + Index subclass for indexes backed by NDArrayBackedExtensionArray. + """ + + _data: NDArrayBackedExtensionArray + + def _get_engine_target(self) -> np.ndarray: + return self._data._ndarray + + def _from_join_target(self, result: np.ndarray) -> ArrayLike: + assert result.dtype == self._data._ndarray.dtype + return self._data._from_backing_data(result) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/frozen.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/frozen.py new file mode 100644 index 0000000000000000000000000000000000000000..9d528d34e36845efd44126c087cd15cd81e1e02e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/frozen.py @@ -0,0 +1,120 @@ +""" +frozen (immutable) data structures to support MultiIndexing + +These are used for: + +- .names (FrozenList) + +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + NoReturn, +) + +from pandas.core.base import PandasObject + +from pandas.io.formats.printing import pprint_thing + +if TYPE_CHECKING: + from pandas._typing import Self + + +class FrozenList(PandasObject, list): + """ + Container that doesn't allow setting item *but* + because it's technically hashable, will be used + for lookups, appropriately, etc. + """ + + # Side note: This has to be of type list. Otherwise, + # it messes up PyTables type checks. + + def union(self, other) -> FrozenList: + """ + Returns a FrozenList with other concatenated to the end of self. + + Parameters + ---------- + other : array-like + The array-like whose elements we are concatenating. + + Returns + ------- + FrozenList + The collection difference between self and other. + """ + if isinstance(other, tuple): + other = list(other) + return type(self)(super().__add__(other)) + + def difference(self, other) -> FrozenList: + """ + Returns a FrozenList with elements from other removed from self. + + Parameters + ---------- + other : array-like + The array-like whose elements we are removing self. + + Returns + ------- + FrozenList + The collection difference between self and other. + """ + other = set(other) + temp = [x for x in self if x not in other] + return type(self)(temp) + + # TODO: Consider deprecating these in favor of `union` (xref gh-15506) + # error: Incompatible types in assignment (expression has type + # "Callable[[FrozenList, Any], FrozenList]", base class "list" defined the + # type as overloaded function) + __add__ = __iadd__ = union # type: ignore[assignment] + + def __getitem__(self, n): + if isinstance(n, slice): + return type(self)(super().__getitem__(n)) + return super().__getitem__(n) + + def __radd__(self, other) -> Self: + if isinstance(other, tuple): + other = list(other) + return type(self)(other + list(self)) + + def __eq__(self, other: object) -> bool: + if isinstance(other, (tuple, FrozenList)): + other = list(other) + return super().__eq__(other) + + __req__ = __eq__ + + def __mul__(self, other) -> Self: + return type(self)(super().__mul__(other)) + + __imul__ = __mul__ + + def __reduce__(self): + return type(self), (list(self),) + + # error: Signature of "__hash__" incompatible with supertype "list" + def __hash__(self) -> int: # type: ignore[override] + return hash(tuple(self)) + + def _disabled(self, *args, **kwargs) -> NoReturn: + """ + This method will not function because object is immutable. + """ + raise TypeError(f"'{type(self).__name__}' does not support mutable operations.") + + def __str__(self) -> str: + return pprint_thing(self, quote_strings=True, escape_chars=("\t", "\r", "\n")) + + def __repr__(self) -> str: + return f"{type(self).__name__}({str(self)})" + + __setitem__ = __setslice__ = _disabled # type: ignore[assignment] + __delitem__ = __delslice__ = _disabled + pop = append = extend = _disabled + remove = sort = insert = _disabled # type: ignore[assignment] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/interval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/interval.py new file mode 100644 index 0000000000000000000000000000000000000000..635924674d9f4aec5537f77e5fbcf5e81180e2d4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/interval.py @@ -0,0 +1,1137 @@ +""" define the IntervalIndex """ +from __future__ import annotations + +from operator import ( + le, + lt, +) +import textwrap +from typing import ( + TYPE_CHECKING, + Any, + Literal, +) + +import numpy as np + +from pandas._libs import lib +from pandas._libs.interval import ( + Interval, + IntervalMixin, + IntervalTree, +) +from pandas._libs.tslibs import ( + BaseOffset, + Period, + Timedelta, + Timestamp, + to_offset, +) +from pandas.errors import InvalidIndexError +from pandas.util._decorators import ( + Appender, + cache_readonly, +) +from pandas.util._exceptions import rewrite_exception + +from pandas.core.dtypes.cast import ( + find_common_type, + infer_dtype_from_scalar, + maybe_box_datetimelike, + maybe_downcast_numeric, + maybe_upcast_numeric_to_64bit, +) +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_float_dtype, + is_integer, + is_integer_dtype, + is_list_like, + is_number, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + IntervalDtype, +) +from pandas.core.dtypes.missing import is_valid_na_for_dtype + +from pandas.core.algorithms import unique +from pandas.core.arrays.datetimelike import validate_periods +from pandas.core.arrays.interval import ( + IntervalArray, + _interval_shared_docs, +) +import pandas.core.common as com +from pandas.core.indexers import is_valid_positional_slice +import pandas.core.indexes.base as ibase +from pandas.core.indexes.base import ( + Index, + _index_shared_docs, + ensure_index, + maybe_extract_name, +) +from pandas.core.indexes.datetimes import ( + DatetimeIndex, + date_range, +) +from pandas.core.indexes.extension import ( + ExtensionIndex, + inherit_names, +) +from pandas.core.indexes.multi import MultiIndex +from pandas.core.indexes.timedeltas import ( + TimedeltaIndex, + timedelta_range, +) + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import ( + Dtype, + DtypeObj, + IntervalClosedType, + Self, + npt, + ) +_index_doc_kwargs = dict(ibase._index_doc_kwargs) + +_index_doc_kwargs.update( + { + "klass": "IntervalIndex", + "qualname": "IntervalIndex", + "target_klass": "IntervalIndex or list of Intervals", + "name": textwrap.dedent( + """\ + name : object, optional + Name to be stored in the index. + """ + ), + } +) + + +def _get_next_label(label): + # see test_slice_locs_with_ints_and_floats_succeeds + dtype = getattr(label, "dtype", type(label)) + if isinstance(label, (Timestamp, Timedelta)): + dtype = "datetime64[ns]" + dtype = pandas_dtype(dtype) + + if lib.is_np_dtype(dtype, "mM") or isinstance(dtype, DatetimeTZDtype): + return label + np.timedelta64(1, "ns") + elif is_integer_dtype(dtype): + return label + 1 + elif is_float_dtype(dtype): + return np.nextafter(label, np.inf) + else: + raise TypeError(f"cannot determine next label for type {repr(type(label))}") + + +def _get_prev_label(label): + # see test_slice_locs_with_ints_and_floats_succeeds + dtype = getattr(label, "dtype", type(label)) + if isinstance(label, (Timestamp, Timedelta)): + dtype = "datetime64[ns]" + dtype = pandas_dtype(dtype) + + if lib.is_np_dtype(dtype, "mM") or isinstance(dtype, DatetimeTZDtype): + return label - np.timedelta64(1, "ns") + elif is_integer_dtype(dtype): + return label - 1 + elif is_float_dtype(dtype): + return np.nextafter(label, -np.inf) + else: + raise TypeError(f"cannot determine next label for type {repr(type(label))}") + + +def _new_IntervalIndex(cls, d): + """ + This is called upon unpickling, rather than the default which doesn't have + arguments and breaks __new__. + """ + return cls.from_arrays(**d) + + +@Appender( + _interval_shared_docs["class"] + % { + "klass": "IntervalIndex", + "summary": "Immutable index of intervals that are closed on the same side.", + "name": _index_doc_kwargs["name"], + "extra_attributes": "is_overlapping\nvalues\n", + "extra_methods": "", + "examples": textwrap.dedent( + """\ + Examples + -------- + A new ``IntervalIndex`` is typically constructed using + :func:`interval_range`: + + >>> pd.interval_range(start=0, end=5) + IntervalIndex([(0, 1], (1, 2], (2, 3], (3, 4], (4, 5]], + dtype='interval[int64, right]') + + It may also be constructed using one of the constructor + methods: :meth:`IntervalIndex.from_arrays`, + :meth:`IntervalIndex.from_breaks`, and :meth:`IntervalIndex.from_tuples`. + + See further examples in the doc strings of ``interval_range`` and the + mentioned constructor methods. + """ + ), + } +) +@inherit_names(["set_closed", "to_tuples"], IntervalArray, wrap=True) +@inherit_names( + [ + "__array__", + "overlaps", + "contains", + "closed_left", + "closed_right", + "open_left", + "open_right", + "is_empty", + ], + IntervalArray, +) +@inherit_names(["is_non_overlapping_monotonic", "closed"], IntervalArray, cache=True) +class IntervalIndex(ExtensionIndex): + _typ = "intervalindex" + + # annotate properties pinned via inherit_names + closed: IntervalClosedType + is_non_overlapping_monotonic: bool + closed_left: bool + closed_right: bool + open_left: bool + open_right: bool + + _data: IntervalArray + _values: IntervalArray + _can_hold_strings = False + _data_cls = IntervalArray + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data, + closed: IntervalClosedType | None = None, + dtype: Dtype | None = None, + copy: bool = False, + name: Hashable | None = None, + verify_integrity: bool = True, + ) -> Self: + name = maybe_extract_name(name, data, cls) + + with rewrite_exception("IntervalArray", cls.__name__): + array = IntervalArray( + data, + closed=closed, + copy=copy, + dtype=dtype, + verify_integrity=verify_integrity, + ) + + return cls._simple_new(array, name) + + @classmethod + @Appender( + _interval_shared_docs["from_breaks"] + % { + "klass": "IntervalIndex", + "name": textwrap.dedent( + """ + name : str, optional + Name of the resulting IntervalIndex.""" + ), + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.IntervalIndex.from_breaks([0, 1, 2, 3]) + IntervalIndex([(0, 1], (1, 2], (2, 3]], + dtype='interval[int64, right]') + """ + ), + } + ) + def from_breaks( + cls, + breaks, + closed: IntervalClosedType | None = "right", + name: Hashable | None = None, + copy: bool = False, + dtype: Dtype | None = None, + ) -> IntervalIndex: + with rewrite_exception("IntervalArray", cls.__name__): + array = IntervalArray.from_breaks( + breaks, closed=closed, copy=copy, dtype=dtype + ) + return cls._simple_new(array, name=name) + + @classmethod + @Appender( + _interval_shared_docs["from_arrays"] + % { + "klass": "IntervalIndex", + "name": textwrap.dedent( + """ + name : str, optional + Name of the resulting IntervalIndex.""" + ), + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.IntervalIndex.from_arrays([0, 1, 2], [1, 2, 3]) + IntervalIndex([(0, 1], (1, 2], (2, 3]], + dtype='interval[int64, right]') + """ + ), + } + ) + def from_arrays( + cls, + left, + right, + closed: IntervalClosedType = "right", + name: Hashable | None = None, + copy: bool = False, + dtype: Dtype | None = None, + ) -> IntervalIndex: + with rewrite_exception("IntervalArray", cls.__name__): + array = IntervalArray.from_arrays( + left, right, closed, copy=copy, dtype=dtype + ) + return cls._simple_new(array, name=name) + + @classmethod + @Appender( + _interval_shared_docs["from_tuples"] + % { + "klass": "IntervalIndex", + "name": textwrap.dedent( + """ + name : str, optional + Name of the resulting IntervalIndex.""" + ), + "examples": textwrap.dedent( + """\ + Examples + -------- + >>> pd.IntervalIndex.from_tuples([(0, 1), (1, 2)]) + IntervalIndex([(0, 1], (1, 2]], + dtype='interval[int64, right]') + """ + ), + } + ) + def from_tuples( + cls, + data, + closed: IntervalClosedType = "right", + name: Hashable | None = None, + copy: bool = False, + dtype: Dtype | None = None, + ) -> IntervalIndex: + with rewrite_exception("IntervalArray", cls.__name__): + arr = IntervalArray.from_tuples(data, closed=closed, copy=copy, dtype=dtype) + return cls._simple_new(arr, name=name) + + # -------------------------------------------------------------------- + # error: Return type "IntervalTree" of "_engine" incompatible with return type + # "Union[IndexEngine, ExtensionEngine]" in supertype "Index" + @cache_readonly + def _engine(self) -> IntervalTree: # type: ignore[override] + # IntervalTree does not supports numpy array unless they are 64 bit + left = self._maybe_convert_i8(self.left) + left = maybe_upcast_numeric_to_64bit(left) + right = self._maybe_convert_i8(self.right) + right = maybe_upcast_numeric_to_64bit(right) + return IntervalTree(left, right, closed=self.closed) + + def __contains__(self, key: Any) -> bool: + """ + return a boolean if this key is IN the index + We *only* accept an Interval + + Parameters + ---------- + key : Interval + + Returns + ------- + bool + """ + hash(key) + if not isinstance(key, Interval): + if is_valid_na_for_dtype(key, self.dtype): + return self.hasnans + return False + + try: + self.get_loc(key) + return True + except KeyError: + return False + + def _getitem_slice(self, slobj: slice) -> IntervalIndex: + """ + Fastpath for __getitem__ when we know we have a slice. + """ + res = self._data[slobj] + return type(self)._simple_new(res, name=self._name) + + @cache_readonly + def _multiindex(self) -> MultiIndex: + return MultiIndex.from_arrays([self.left, self.right], names=["left", "right"]) + + def __reduce__(self): + d = { + "left": self.left, + "right": self.right, + "closed": self.closed, + "name": self.name, + } + return _new_IntervalIndex, (type(self), d), None + + @property + def inferred_type(self) -> str: + """Return a string of the type inferred from the values""" + return "interval" + + # Cannot determine type of "memory_usage" + @Appender(Index.memory_usage.__doc__) # type: ignore[has-type] + def memory_usage(self, deep: bool = False) -> int: + # we don't use an explicit engine + # so return the bytes here + return self.left.memory_usage(deep=deep) + self.right.memory_usage(deep=deep) + + # IntervalTree doesn't have a is_monotonic_decreasing, so have to override + # the Index implementation + @cache_readonly + def is_monotonic_decreasing(self) -> bool: + """ + Return True if the IntervalIndex is monotonic decreasing (only equal or + decreasing values), else False + """ + return self[::-1].is_monotonic_increasing + + @cache_readonly + def is_unique(self) -> bool: + """ + Return True if the IntervalIndex contains unique elements, else False. + """ + left = self.left + right = self.right + + if self.isna().sum() > 1: + return False + + if left.is_unique or right.is_unique: + return True + + seen_pairs = set() + check_idx = np.where(left.duplicated(keep=False))[0] + for idx in check_idx: + pair = (left[idx], right[idx]) + if pair in seen_pairs: + return False + seen_pairs.add(pair) + + return True + + @property + def is_overlapping(self) -> bool: + """ + Return True if the IntervalIndex has overlapping intervals, else False. + + Two intervals overlap if they share a common point, including closed + endpoints. Intervals that only have an open endpoint in common do not + overlap. + + Returns + ------- + bool + Boolean indicating if the IntervalIndex has overlapping intervals. + + See Also + -------- + Interval.overlaps : Check whether two Interval objects overlap. + IntervalIndex.overlaps : Check an IntervalIndex elementwise for + overlaps. + + Examples + -------- + >>> index = pd.IntervalIndex.from_tuples([(0, 2), (1, 3), (4, 5)]) + >>> index + IntervalIndex([(0, 2], (1, 3], (4, 5]], + dtype='interval[int64, right]') + >>> index.is_overlapping + True + + Intervals that share closed endpoints overlap: + + >>> index = pd.interval_range(0, 3, closed='both') + >>> index + IntervalIndex([[0, 1], [1, 2], [2, 3]], + dtype='interval[int64, both]') + >>> index.is_overlapping + True + + Intervals that only have an open endpoint in common do not overlap: + + >>> index = pd.interval_range(0, 3, closed='left') + >>> index + IntervalIndex([[0, 1), [1, 2), [2, 3)], + dtype='interval[int64, left]') + >>> index.is_overlapping + False + """ + # GH 23309 + return self._engine.is_overlapping + + def _needs_i8_conversion(self, key) -> bool: + """ + Check if a given key needs i8 conversion. Conversion is necessary for + Timestamp, Timedelta, DatetimeIndex, and TimedeltaIndex keys. An + Interval-like requires conversion if its endpoints are one of the + aforementioned types. + + Assumes that any list-like data has already been cast to an Index. + + Parameters + ---------- + key : scalar or Index-like + The key that should be checked for i8 conversion + + Returns + ------- + bool + """ + key_dtype = getattr(key, "dtype", None) + if isinstance(key_dtype, IntervalDtype) or isinstance(key, Interval): + return self._needs_i8_conversion(key.left) + + i8_types = (Timestamp, Timedelta, DatetimeIndex, TimedeltaIndex) + return isinstance(key, i8_types) + + def _maybe_convert_i8(self, key): + """ + Maybe convert a given key to its equivalent i8 value(s). Used as a + preprocessing step prior to IntervalTree queries (self._engine), which + expects numeric data. + + Parameters + ---------- + key : scalar or list-like + The key that should maybe be converted to i8. + + Returns + ------- + scalar or list-like + The original key if no conversion occurred, int if converted scalar, + Index with an int64 dtype if converted list-like. + """ + if is_list_like(key): + key = ensure_index(key) + key = maybe_upcast_numeric_to_64bit(key) + + if not self._needs_i8_conversion(key): + return key + + scalar = is_scalar(key) + key_dtype = getattr(key, "dtype", None) + if isinstance(key_dtype, IntervalDtype) or isinstance(key, Interval): + # convert left/right and reconstruct + left = self._maybe_convert_i8(key.left) + right = self._maybe_convert_i8(key.right) + constructor = Interval if scalar else IntervalIndex.from_arrays + # error: "object" not callable + return constructor( + left, right, closed=self.closed + ) # type: ignore[operator] + + if scalar: + # Timestamp/Timedelta + key_dtype, key_i8 = infer_dtype_from_scalar(key) + if isinstance(key, Period): + key_i8 = key.ordinal + elif isinstance(key_i8, Timestamp): + key_i8 = key_i8._value + elif isinstance(key_i8, (np.datetime64, np.timedelta64)): + key_i8 = key_i8.view("i8") + else: + # DatetimeIndex/TimedeltaIndex + key_dtype, key_i8 = key.dtype, Index(key.asi8) + if key.hasnans: + # convert NaT from its i8 value to np.nan so it's not viewed + # as a valid value, maybe causing errors (e.g. is_overlapping) + key_i8 = key_i8.where(~key._isnan) + + # ensure consistency with IntervalIndex subtype + # error: Item "ExtensionDtype"/"dtype[Any]" of "Union[dtype[Any], + # ExtensionDtype]" has no attribute "subtype" + subtype = self.dtype.subtype # type: ignore[union-attr] + + if subtype != key_dtype: + raise ValueError( + f"Cannot index an IntervalIndex of subtype {subtype} with " + f"values of dtype {key_dtype}" + ) + + return key_i8 + + def _searchsorted_monotonic(self, label, side: Literal["left", "right"] = "left"): + if not self.is_non_overlapping_monotonic: + raise KeyError( + "can only get slices from an IntervalIndex if bounds are " + "non-overlapping and all monotonic increasing or decreasing" + ) + + if isinstance(label, (IntervalMixin, IntervalIndex)): + raise NotImplementedError("Interval objects are not currently supported") + + # GH 20921: "not is_monotonic_increasing" for the second condition + # instead of "is_monotonic_decreasing" to account for single element + # indexes being both increasing and decreasing + if (side == "left" and self.left.is_monotonic_increasing) or ( + side == "right" and not self.left.is_monotonic_increasing + ): + sub_idx = self.right + if self.open_right: + label = _get_next_label(label) + else: + sub_idx = self.left + if self.open_left: + label = _get_prev_label(label) + + return sub_idx._searchsorted_monotonic(label, side) + + # -------------------------------------------------------------------- + # Indexing Methods + + def get_loc(self, key) -> int | slice | np.ndarray: + """ + Get integer location, slice or boolean mask for requested label. + + Parameters + ---------- + key : label + + Returns + ------- + int if unique index, slice if monotonic index, else mask + + Examples + -------- + >>> i1, i2 = pd.Interval(0, 1), pd.Interval(1, 2) + >>> index = pd.IntervalIndex([i1, i2]) + >>> index.get_loc(1) + 0 + + You can also supply a point inside an interval. + + >>> index.get_loc(1.5) + 1 + + If a label is in several intervals, you get the locations of all the + relevant intervals. + + >>> i3 = pd.Interval(0, 2) + >>> overlapping_index = pd.IntervalIndex([i1, i2, i3]) + >>> overlapping_index.get_loc(0.5) + array([ True, False, True]) + + Only exact matches will be returned if an interval is provided. + + >>> index.get_loc(pd.Interval(0, 1)) + 0 + """ + self._check_indexing_error(key) + + if isinstance(key, Interval): + if self.closed != key.closed: + raise KeyError(key) + mask = (self.left == key.left) & (self.right == key.right) + elif is_valid_na_for_dtype(key, self.dtype): + mask = self.isna() + else: + # assume scalar + op_left = le if self.closed_left else lt + op_right = le if self.closed_right else lt + try: + mask = op_left(self.left, key) & op_right(key, self.right) + except TypeError as err: + # scalar is not comparable to II subtype --> invalid label + raise KeyError(key) from err + + matches = mask.sum() + if matches == 0: + raise KeyError(key) + if matches == 1: + return mask.argmax() + + res = lib.maybe_booleans_to_slice(mask.view("u1")) + if isinstance(res, slice) and res.stop is None: + # TODO: DO this in maybe_booleans_to_slice? + res = slice(res.start, len(self), res.step) + return res + + def _get_indexer( + self, + target: Index, + method: str | None = None, + limit: int | None = None, + tolerance: Any | None = None, + ) -> npt.NDArray[np.intp]: + if isinstance(target, IntervalIndex): + # We only get here with not self.is_overlapping + # -> at most one match per interval in target + # want exact matches -> need both left/right to match, so defer to + # left/right get_indexer, compare elementwise, equality -> match + indexer = self._get_indexer_unique_sides(target) + + elif not (is_object_dtype(target.dtype) or is_string_dtype(target.dtype)): + # homogeneous scalar index: use IntervalTree + # we should always have self._should_partial_index(target) here + target = self._maybe_convert_i8(target) + indexer = self._engine.get_indexer(target.values) + else: + # heterogeneous scalar index: defer elementwise to get_loc + # we should always have self._should_partial_index(target) here + return self._get_indexer_pointwise(target)[0] + + return ensure_platform_int(indexer) + + @Appender(_index_shared_docs["get_indexer_non_unique"] % _index_doc_kwargs) + def get_indexer_non_unique( + self, target: Index + ) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + target = ensure_index(target) + + if not self._should_compare(target) and not self._should_partial_index(target): + # e.g. IntervalIndex with different closed or incompatible subtype + # -> no matches + return self._get_indexer_non_comparable(target, None, unique=False) + + elif isinstance(target, IntervalIndex): + if self.left.is_unique and self.right.is_unique: + # fastpath available even if we don't have self._index_as_unique + indexer = self._get_indexer_unique_sides(target) + missing = (indexer == -1).nonzero()[0] + else: + return self._get_indexer_pointwise(target) + + elif is_object_dtype(target.dtype) or not self._should_partial_index(target): + # target might contain intervals: defer elementwise to get_loc + return self._get_indexer_pointwise(target) + + else: + # Note: this case behaves differently from other Index subclasses + # because IntervalIndex does partial-int indexing + target = self._maybe_convert_i8(target) + indexer, missing = self._engine.get_indexer_non_unique(target.values) + + return ensure_platform_int(indexer), ensure_platform_int(missing) + + def _get_indexer_unique_sides(self, target: IntervalIndex) -> npt.NDArray[np.intp]: + """ + _get_indexer specialized to the case where both of our sides are unique. + """ + # Caller is responsible for checking + # `self.left.is_unique and self.right.is_unique` + + left_indexer = self.left.get_indexer(target.left) + right_indexer = self.right.get_indexer(target.right) + indexer = np.where(left_indexer == right_indexer, left_indexer, -1) + return indexer + + def _get_indexer_pointwise( + self, target: Index + ) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """ + pointwise implementation for get_indexer and get_indexer_non_unique. + """ + indexer, missing = [], [] + for i, key in enumerate(target): + try: + locs = self.get_loc(key) + if isinstance(locs, slice): + # Only needed for get_indexer_non_unique + locs = np.arange(locs.start, locs.stop, locs.step, dtype="intp") + elif lib.is_integer(locs): + locs = np.array(locs, ndmin=1) + else: + # otherwise we have ndarray[bool] + locs = np.where(locs)[0] + except KeyError: + missing.append(i) + locs = np.array([-1]) + except InvalidIndexError: + # i.e. non-scalar key e.g. a tuple. + # see test_append_different_columns_types_raises + missing.append(i) + locs = np.array([-1]) + + indexer.append(locs) + + indexer = np.concatenate(indexer) + return ensure_platform_int(indexer), ensure_platform_int(missing) + + @cache_readonly + def _index_as_unique(self) -> bool: + return not self.is_overlapping and self._engine._na_count < 2 + + _requires_unique_msg = ( + "cannot handle overlapping indices; use IntervalIndex.get_indexer_non_unique" + ) + + def _convert_slice_indexer(self, key: slice, kind: Literal["loc", "getitem"]): + if not (key.step is None or key.step == 1): + # GH#31658 if label-based, we require step == 1, + # if positional, we disallow float start/stop + msg = "label-based slicing with step!=1 is not supported for IntervalIndex" + if kind == "loc": + raise ValueError(msg) + if kind == "getitem": + if not is_valid_positional_slice(key): + # i.e. this cannot be interpreted as a positional slice + raise ValueError(msg) + + return super()._convert_slice_indexer(key, kind) + + @cache_readonly + def _should_fallback_to_positional(self) -> bool: + # integer lookups in Series.__getitem__ are unambiguously + # positional in this case + # error: Item "ExtensionDtype"/"dtype[Any]" of "Union[dtype[Any], + # ExtensionDtype]" has no attribute "subtype" + return self.dtype.subtype.kind in "mM" # type: ignore[union-attr] + + def _maybe_cast_slice_bound(self, label, side: str): + return getattr(self, side)._maybe_cast_slice_bound(label, side) + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + if not isinstance(dtype, IntervalDtype): + return False + common_subtype = find_common_type([self.dtype, dtype]) + return not is_object_dtype(common_subtype) + + # -------------------------------------------------------------------- + + @cache_readonly + def left(self) -> Index: + return Index(self._data.left, copy=False) + + @cache_readonly + def right(self) -> Index: + return Index(self._data.right, copy=False) + + @cache_readonly + def mid(self) -> Index: + return Index(self._data.mid, copy=False) + + @property + def length(self) -> Index: + return Index(self._data.length, copy=False) + + # -------------------------------------------------------------------- + # Set Operations + + def _intersection(self, other, sort): + """ + intersection specialized to the case with matching dtypes. + """ + # For IntervalIndex we also know other.closed == self.closed + if self.left.is_unique and self.right.is_unique: + taken = self._intersection_unique(other) + elif other.left.is_unique and other.right.is_unique and self.isna().sum() <= 1: + # Swap other/self if other is unique and self does not have + # multiple NaNs + taken = other._intersection_unique(self) + else: + # duplicates + taken = self._intersection_non_unique(other) + + if sort is None: + taken = taken.sort_values() + + return taken + + def _intersection_unique(self, other: IntervalIndex) -> IntervalIndex: + """ + Used when the IntervalIndex does not have any common endpoint, + no matter left or right. + Return the intersection with another IntervalIndex. + Parameters + ---------- + other : IntervalIndex + Returns + ------- + IntervalIndex + """ + # Note: this is much more performant than super()._intersection(other) + lindexer = self.left.get_indexer(other.left) + rindexer = self.right.get_indexer(other.right) + + match = (lindexer == rindexer) & (lindexer != -1) + indexer = lindexer.take(match.nonzero()[0]) + indexer = unique(indexer) + + return self.take(indexer) + + def _intersection_non_unique(self, other: IntervalIndex) -> IntervalIndex: + """ + Used when the IntervalIndex does have some common endpoints, + on either sides. + Return the intersection with another IntervalIndex. + + Parameters + ---------- + other : IntervalIndex + + Returns + ------- + IntervalIndex + """ + # Note: this is about 3.25x faster than super()._intersection(other) + # in IntervalIndexMethod.time_intersection_both_duplicate(1000) + mask = np.zeros(len(self), dtype=bool) + + if self.hasnans and other.hasnans: + first_nan_loc = np.arange(len(self))[self.isna()][0] + mask[first_nan_loc] = True + + other_tups = set(zip(other.left, other.right)) + for i, tup in enumerate(zip(self.left, self.right)): + if tup in other_tups: + mask[i] = True + + return self[mask] + + # -------------------------------------------------------------------- + + def _get_engine_target(self) -> np.ndarray: + # Note: we _could_ use libjoin functions by either casting to object + # dtype or constructing tuples (faster than constructing Intervals) + # but the libjoin fastpaths are no longer fast in these cases. + raise NotImplementedError( + "IntervalIndex does not use libjoin fastpaths or pass values to " + "IndexEngine objects" + ) + + def _from_join_target(self, result): + raise NotImplementedError("IntervalIndex does not use libjoin fastpaths") + + # TODO: arithmetic operations + + +def _is_valid_endpoint(endpoint) -> bool: + """ + Helper for interval_range to check if start/end are valid types. + """ + return any( + [ + is_number(endpoint), + isinstance(endpoint, Timestamp), + isinstance(endpoint, Timedelta), + endpoint is None, + ] + ) + + +def _is_type_compatible(a, b) -> bool: + """ + Helper for interval_range to check type compat of start/end/freq. + """ + is_ts_compat = lambda x: isinstance(x, (Timestamp, BaseOffset)) + is_td_compat = lambda x: isinstance(x, (Timedelta, BaseOffset)) + return ( + (is_number(a) and is_number(b)) + or (is_ts_compat(a) and is_ts_compat(b)) + or (is_td_compat(a) and is_td_compat(b)) + or com.any_none(a, b) + ) + + +def interval_range( + start=None, + end=None, + periods=None, + freq=None, + name: Hashable | None = None, + closed: IntervalClosedType = "right", +) -> IntervalIndex: + """ + Return a fixed frequency IntervalIndex. + + Parameters + ---------- + start : numeric or datetime-like, default None + Left bound for generating intervals. + end : numeric or datetime-like, default None + Right bound for generating intervals. + periods : int, default None + Number of periods to generate. + freq : numeric, str, Timedelta, datetime.timedelta, or DateOffset, default None + The length of each interval. Must be consistent with the type of start + and end, e.g. 2 for numeric, or '5H' for datetime-like. Default is 1 + for numeric and 'D' for datetime-like. + name : str, default None + Name of the resulting IntervalIndex. + closed : {'left', 'right', 'both', 'neither'}, default 'right' + Whether the intervals are closed on the left-side, right-side, both + or neither. + + Returns + ------- + IntervalIndex + + See Also + -------- + IntervalIndex : An Index of intervals that are all closed on the same side. + + Notes + ----- + Of the four parameters ``start``, ``end``, ``periods``, and ``freq``, + exactly three must be specified. If ``freq`` is omitted, the resulting + ``IntervalIndex`` will have ``periods`` linearly spaced elements between + ``start`` and ``end``, inclusively. + + To learn more about datetime-like frequency strings, please see `this link + `__. + + Examples + -------- + Numeric ``start`` and ``end`` is supported. + + >>> pd.interval_range(start=0, end=5) + IntervalIndex([(0, 1], (1, 2], (2, 3], (3, 4], (4, 5]], + dtype='interval[int64, right]') + + Additionally, datetime-like input is also supported. + + >>> pd.interval_range(start=pd.Timestamp('2017-01-01'), + ... end=pd.Timestamp('2017-01-04')) + IntervalIndex([(2017-01-01 00:00:00, 2017-01-02 00:00:00], + (2017-01-02 00:00:00, 2017-01-03 00:00:00], + (2017-01-03 00:00:00, 2017-01-04 00:00:00]], + dtype='interval[datetime64[ns], right]') + + The ``freq`` parameter specifies the frequency between the left and right. + endpoints of the individual intervals within the ``IntervalIndex``. For + numeric ``start`` and ``end``, the frequency must also be numeric. + + >>> pd.interval_range(start=0, periods=4, freq=1.5) + IntervalIndex([(0.0, 1.5], (1.5, 3.0], (3.0, 4.5], (4.5, 6.0]], + dtype='interval[float64, right]') + + Similarly, for datetime-like ``start`` and ``end``, the frequency must be + convertible to a DateOffset. + + >>> pd.interval_range(start=pd.Timestamp('2017-01-01'), + ... periods=3, freq='MS') + IntervalIndex([(2017-01-01 00:00:00, 2017-02-01 00:00:00], + (2017-02-01 00:00:00, 2017-03-01 00:00:00], + (2017-03-01 00:00:00, 2017-04-01 00:00:00]], + dtype='interval[datetime64[ns], right]') + + Specify ``start``, ``end``, and ``periods``; the frequency is generated + automatically (linearly spaced). + + >>> pd.interval_range(start=0, end=6, periods=4) + IntervalIndex([(0.0, 1.5], (1.5, 3.0], (3.0, 4.5], (4.5, 6.0]], + dtype='interval[float64, right]') + + The ``closed`` parameter specifies which endpoints of the individual + intervals within the ``IntervalIndex`` are closed. + + >>> pd.interval_range(end=5, periods=4, closed='both') + IntervalIndex([[1, 2], [2, 3], [3, 4], [4, 5]], + dtype='interval[int64, both]') + """ + start = maybe_box_datetimelike(start) + end = maybe_box_datetimelike(end) + endpoint = start if start is not None else end + + if freq is None and com.any_none(periods, start, end): + freq = 1 if is_number(endpoint) else "D" + + if com.count_not_none(start, end, periods, freq) != 3: + raise ValueError( + "Of the four parameters: start, end, periods, and " + "freq, exactly three must be specified" + ) + + if not _is_valid_endpoint(start): + raise ValueError(f"start must be numeric or datetime-like, got {start}") + if not _is_valid_endpoint(end): + raise ValueError(f"end must be numeric or datetime-like, got {end}") + + periods = validate_periods(periods) + + if freq is not None and not is_number(freq): + try: + freq = to_offset(freq) + except ValueError as err: + raise ValueError( + f"freq must be numeric or convertible to DateOffset, got {freq}" + ) from err + + # verify type compatibility + if not all( + [ + _is_type_compatible(start, end), + _is_type_compatible(start, freq), + _is_type_compatible(end, freq), + ] + ): + raise TypeError("start, end, freq need to be type compatible") + + # +1 to convert interval count to breaks count (n breaks = n-1 intervals) + if periods is not None: + periods += 1 + + breaks: np.ndarray | TimedeltaIndex | DatetimeIndex + + if is_number(endpoint): + if com.all_not_none(start, end, freq): + # 0.1 ensures we capture end + breaks = np.arange(start, end + (freq * 0.1), freq) + else: + # compute the period/start/end if unspecified (at most one) + if periods is None: + periods = int((end - start) // freq) + 1 + elif start is None: + start = end - (periods - 1) * freq + elif end is None: + end = start + (periods - 1) * freq + + breaks = np.linspace(start, end, periods) + if all(is_integer(x) for x in com.not_none(start, end, freq)): + # np.linspace always produces float output + + # error: Argument 1 to "maybe_downcast_numeric" has incompatible type + # "Union[ndarray[Any, Any], TimedeltaIndex, DatetimeIndex]"; + # expected "ndarray[Any, Any]" [ + breaks = maybe_downcast_numeric( + breaks, # type: ignore[arg-type] + np.dtype("int64"), + ) + else: + # delegate to the appropriate range function + if isinstance(endpoint, Timestamp): + breaks = date_range(start=start, end=end, periods=periods, freq=freq) + else: + breaks = timedelta_range(start=start, end=end, periods=periods, freq=freq) + + return IntervalIndex.from_breaks(breaks, name=name, closed=closed) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/multi.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/multi.py new file mode 100644 index 0000000000000000000000000000000000000000..8954d49649a2b132927980f5874a9006a65301f4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/multi.py @@ -0,0 +1,4176 @@ +from __future__ import annotations + +from collections.abc import ( + Collection, + Generator, + Hashable, + Iterable, + Sequence, +) +from functools import wraps +from sys import getsizeof +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, +) +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas._libs import ( + algos as libalgos, + index as libindex, + lib, +) +from pandas._libs.hashtable import duplicated +from pandas._typing import ( + AnyAll, + AnyArrayLike, + Axis, + DropKeep, + DtypeObj, + F, + IgnoreRaise, + IndexLabel, + Scalar, + Self, + Shape, + npt, +) +from pandas.compat.numpy import function as nv +from pandas.errors import ( + InvalidIndexError, + PerformanceWarning, + UnsortedIndexError, +) +from pandas.util._decorators import ( + Appender, + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import coerce_indexer_dtype +from pandas.core.dtypes.common import ( + ensure_int64, + ensure_platform_int, + is_hashable, + is_integer, + is_iterator, + is_list_like, + is_object_dtype, + is_scalar, + is_string_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + ExtensionDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.inference import is_array_like +from pandas.core.dtypes.missing import ( + array_equivalent, + isna, +) + +import pandas.core.algorithms as algos +from pandas.core.array_algos.putmask import validate_putmask +from pandas.core.arrays import ( + Categorical, + ExtensionArray, +) +from pandas.core.arrays.categorical import ( + factorize_from_iterables, + recode_for_categories, +) +import pandas.core.common as com +from pandas.core.construction import sanitize_array +import pandas.core.indexes.base as ibase +from pandas.core.indexes.base import ( + Index, + _index_shared_docs, + ensure_index, + get_unanimous_names, +) +from pandas.core.indexes.frozen import FrozenList +from pandas.core.ops.invalid import make_invalid_op +from pandas.core.sorting import ( + get_group_index, + lexsort_indexer, +) + +from pandas.io.formats.printing import ( + get_adjustment, + pprint_thing, +) + +if TYPE_CHECKING: + from pandas import ( + CategoricalIndex, + DataFrame, + Series, + ) + +_index_doc_kwargs = dict(ibase._index_doc_kwargs) +_index_doc_kwargs.update( + {"klass": "MultiIndex", "target_klass": "MultiIndex or list of tuples"} +) + + +class MultiIndexUIntEngine(libindex.BaseMultiIndexCodesEngine, libindex.UInt64Engine): + """ + This class manages a MultiIndex by mapping label combinations to positive + integers. + """ + + _base = libindex.UInt64Engine + + def _codes_to_ints(self, codes): + """ + Transform combination(s) of uint64 in one uint64 (each), in a strictly + monotonic way (i.e. respecting the lexicographic order of integer + combinations): see BaseMultiIndexCodesEngine documentation. + + Parameters + ---------- + codes : 1- or 2-dimensional array of dtype uint64 + Combinations of integers (one per row) + + Returns + ------- + scalar or 1-dimensional array, of dtype uint64 + Integer(s) representing one combination (each). + """ + # Shift the representation of each level by the pre-calculated number + # of bits: + codes <<= self.offsets + + # Now sum and OR are in fact interchangeable. This is a simple + # composition of the (disjunct) significant bits of each level (i.e. + # each column in "codes") in a single positive integer: + if codes.ndim == 1: + # Single key + return np.bitwise_or.reduce(codes) + + # Multiple keys + return np.bitwise_or.reduce(codes, axis=1) + + +class MultiIndexPyIntEngine(libindex.BaseMultiIndexCodesEngine, libindex.ObjectEngine): + """ + This class manages those (extreme) cases in which the number of possible + label combinations overflows the 64 bits integers, and uses an ObjectEngine + containing Python integers. + """ + + _base = libindex.ObjectEngine + + def _codes_to_ints(self, codes): + """ + Transform combination(s) of uint64 in one Python integer (each), in a + strictly monotonic way (i.e. respecting the lexicographic order of + integer combinations): see BaseMultiIndexCodesEngine documentation. + + Parameters + ---------- + codes : 1- or 2-dimensional array of dtype uint64 + Combinations of integers (one per row) + + Returns + ------- + int, or 1-dimensional array of dtype object + Integer(s) representing one combination (each). + """ + # Shift the representation of each level by the pre-calculated number + # of bits. Since this can overflow uint64, first make sure we are + # working with Python integers: + codes = codes.astype("object") << self.offsets + + # Now sum and OR are in fact interchangeable. This is a simple + # composition of the (disjunct) significant bits of each level (i.e. + # each column in "codes") in a single positive integer (per row): + if codes.ndim == 1: + # Single key + return np.bitwise_or.reduce(codes) + + # Multiple keys + return np.bitwise_or.reduce(codes, axis=1) + + +def names_compat(meth: F) -> F: + """ + A decorator to allow either `name` or `names` keyword but not both. + + This makes it easier to share code with base class. + """ + + @wraps(meth) + def new_meth(self_or_cls, *args, **kwargs): + if "name" in kwargs and "names" in kwargs: + raise TypeError("Can only provide one of `names` and `name`") + if "name" in kwargs: + kwargs["names"] = kwargs.pop("name") + + return meth(self_or_cls, *args, **kwargs) + + return cast(F, new_meth) + + +class MultiIndex(Index): + """ + A multi-level, or hierarchical, index object for pandas objects. + + Parameters + ---------- + levels : sequence of arrays + The unique labels for each level. + codes : sequence of arrays + Integers for each level designating which label at each location. + sortorder : optional int + Level of sortedness (must be lexicographically sorted by that + level). + names : optional sequence of objects + Names for each of the index levels. (name is accepted for compat). + copy : bool, default False + Copy the meta-data. + verify_integrity : bool, default True + Check that the levels/codes are consistent and valid. + + Attributes + ---------- + names + levels + codes + nlevels + levshape + dtypes + + Methods + ------- + from_arrays + from_tuples + from_product + from_frame + set_levels + set_codes + to_frame + to_flat_index + sortlevel + droplevel + swaplevel + reorder_levels + remove_unused_levels + get_level_values + get_indexer + get_loc + get_locs + get_loc_level + drop + + See Also + -------- + MultiIndex.from_arrays : Convert list of arrays to MultiIndex. + MultiIndex.from_product : Create a MultiIndex from the cartesian product + of iterables. + MultiIndex.from_tuples : Convert list of tuples to a MultiIndex. + MultiIndex.from_frame : Make a MultiIndex from a DataFrame. + Index : The base pandas Index type. + + Notes + ----- + See the `user guide + `__ + for more. + + Examples + -------- + A new ``MultiIndex`` is typically constructed using one of the helper + methods :meth:`MultiIndex.from_arrays`, :meth:`MultiIndex.from_product` + and :meth:`MultiIndex.from_tuples`. For example (using ``.from_arrays``): + + >>> arrays = [[1, 1, 2, 2], ['red', 'blue', 'red', 'blue']] + >>> pd.MultiIndex.from_arrays(arrays, names=('number', 'color')) + MultiIndex([(1, 'red'), + (1, 'blue'), + (2, 'red'), + (2, 'blue')], + names=['number', 'color']) + + See further examples for how to construct a MultiIndex in the doc strings + of the mentioned helper methods. + """ + + _hidden_attrs = Index._hidden_attrs | frozenset() + + # initialize to zero-length tuples to make everything work + _typ = "multiindex" + _names: list[Hashable | None] = [] + _levels = FrozenList() + _codes = FrozenList() + _comparables = ["names"] + + sortorder: int | None + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + levels=None, + codes=None, + sortorder=None, + names=None, + dtype=None, + copy: bool = False, + name=None, + verify_integrity: bool = True, + ) -> Self: + # compat with Index + if name is not None: + names = name + if levels is None or codes is None: + raise TypeError("Must pass both levels and codes") + if len(levels) != len(codes): + raise ValueError("Length of levels and codes must be the same.") + if len(levels) == 0: + raise ValueError("Must pass non-zero number of levels/codes") + + result = object.__new__(cls) + result._cache = {} + + # we've already validated levels and codes, so shortcut here + result._set_levels(levels, copy=copy, validate=False) + result._set_codes(codes, copy=copy, validate=False) + + result._names = [None] * len(levels) + if names is not None: + # handles name validation + result._set_names(names) + + if sortorder is not None: + result.sortorder = int(sortorder) + else: + result.sortorder = sortorder + + if verify_integrity: + new_codes = result._verify_integrity() + result._codes = new_codes + + result._reset_identity() + result._references = None + + return result + + def _validate_codes(self, level: list, code: list): + """ + Reassign code values as -1 if their corresponding levels are NaN. + + Parameters + ---------- + code : list + Code to reassign. + level : list + Level to check for missing values (NaN, NaT, None). + + Returns + ------- + new code where code value = -1 if it corresponds + to a level with missing values (NaN, NaT, None). + """ + null_mask = isna(level) + if np.any(null_mask): + # error: Incompatible types in assignment + # (expression has type "ndarray[Any, dtype[Any]]", + # variable has type "List[Any]") + code = np.where(null_mask[code], -1, code) # type: ignore[assignment] + return code + + def _verify_integrity( + self, + codes: list | None = None, + levels: list | None = None, + levels_to_verify: list[int] | range | None = None, + ): + """ + Parameters + ---------- + codes : optional list + Codes to check for validity. Defaults to current codes. + levels : optional list + Levels to check for validity. Defaults to current levels. + levels_to_validate: optional list + Specifies the levels to verify. + + Raises + ------ + ValueError + If length of levels and codes don't match, if the codes for any + level would exceed level bounds, or there are any duplicate levels. + + Returns + ------- + new codes where code value = -1 if it corresponds to a + NaN level. + """ + # NOTE: Currently does not check, among other things, that cached + # nlevels matches nor that sortorder matches actually sortorder. + codes = codes or self.codes + levels = levels or self.levels + if levels_to_verify is None: + levels_to_verify = range(len(levels)) + + if len(levels) != len(codes): + raise ValueError( + "Length of levels and codes must match. NOTE: " + "this index is in an inconsistent state." + ) + codes_length = len(codes[0]) + for i in levels_to_verify: + level = levels[i] + level_codes = codes[i] + + if len(level_codes) != codes_length: + raise ValueError( + f"Unequal code lengths: {[len(code_) for code_ in codes]}" + ) + if len(level_codes) and level_codes.max() >= len(level): + raise ValueError( + f"On level {i}, code max ({level_codes.max()}) >= length of " + f"level ({len(level)}). NOTE: this index is in an " + "inconsistent state" + ) + if len(level_codes) and level_codes.min() < -1: + raise ValueError(f"On level {i}, code value ({level_codes.min()}) < -1") + if not level.is_unique: + raise ValueError( + f"Level values must be unique: {list(level)} on level {i}" + ) + if self.sortorder is not None: + if self.sortorder > _lexsort_depth(self.codes, self.nlevels): + raise ValueError( + "Value for sortorder must be inferior or equal to actual " + f"lexsort_depth: sortorder {self.sortorder} " + f"with lexsort_depth {_lexsort_depth(self.codes, self.nlevels)}" + ) + + result_codes = [] + for i in range(len(levels)): + if i in levels_to_verify: + result_codes.append(self._validate_codes(levels[i], codes[i])) + else: + result_codes.append(codes[i]) + + new_codes = FrozenList(result_codes) + return new_codes + + @classmethod + def from_arrays( + cls, + arrays, + sortorder: int | None = None, + names: Sequence[Hashable] | Hashable | lib.NoDefault = lib.no_default, + ) -> MultiIndex: + """ + Convert arrays to MultiIndex. + + Parameters + ---------- + arrays : list / sequence of array-likes + Each array-like gives one level's value for each data point. + len(arrays) is the number of levels. + sortorder : int or None + Level of sortedness (must be lexicographically sorted by that + level). + names : list / sequence of str, optional + Names for the levels in the index. + + Returns + ------- + MultiIndex + + See Also + -------- + MultiIndex.from_tuples : Convert list of tuples to MultiIndex. + MultiIndex.from_product : Make a MultiIndex from cartesian product + of iterables. + MultiIndex.from_frame : Make a MultiIndex from a DataFrame. + + Examples + -------- + >>> arrays = [[1, 1, 2, 2], ['red', 'blue', 'red', 'blue']] + >>> pd.MultiIndex.from_arrays(arrays, names=('number', 'color')) + MultiIndex([(1, 'red'), + (1, 'blue'), + (2, 'red'), + (2, 'blue')], + names=['number', 'color']) + """ + error_msg = "Input must be a list / sequence of array-likes." + if not is_list_like(arrays): + raise TypeError(error_msg) + if is_iterator(arrays): + arrays = list(arrays) + + # Check if elements of array are list-like + for array in arrays: + if not is_list_like(array): + raise TypeError(error_msg) + + # Check if lengths of all arrays are equal or not, + # raise ValueError, if not + for i in range(1, len(arrays)): + if len(arrays[i]) != len(arrays[i - 1]): + raise ValueError("all arrays must be same length") + + codes, levels = factorize_from_iterables(arrays) + if names is lib.no_default: + names = [getattr(arr, "name", None) for arr in arrays] + + return cls( + levels=levels, + codes=codes, + sortorder=sortorder, + names=names, + verify_integrity=False, + ) + + @classmethod + @names_compat + def from_tuples( + cls, + tuples: Iterable[tuple[Hashable, ...]], + sortorder: int | None = None, + names: Sequence[Hashable] | Hashable | None = None, + ) -> MultiIndex: + """ + Convert list of tuples to MultiIndex. + + Parameters + ---------- + tuples : list / sequence of tuple-likes + Each tuple is the index of one row/column. + sortorder : int or None + Level of sortedness (must be lexicographically sorted by that + level). + names : list / sequence of str, optional + Names for the levels in the index. + + Returns + ------- + MultiIndex + + See Also + -------- + MultiIndex.from_arrays : Convert list of arrays to MultiIndex. + MultiIndex.from_product : Make a MultiIndex from cartesian product + of iterables. + MultiIndex.from_frame : Make a MultiIndex from a DataFrame. + + Examples + -------- + >>> tuples = [(1, 'red'), (1, 'blue'), + ... (2, 'red'), (2, 'blue')] + >>> pd.MultiIndex.from_tuples(tuples, names=('number', 'color')) + MultiIndex([(1, 'red'), + (1, 'blue'), + (2, 'red'), + (2, 'blue')], + names=['number', 'color']) + """ + if not is_list_like(tuples): + raise TypeError("Input must be a list / sequence of tuple-likes.") + if is_iterator(tuples): + tuples = list(tuples) + tuples = cast(Collection[tuple[Hashable, ...]], tuples) + + # handling the empty tuple cases + if len(tuples) and all(isinstance(e, tuple) and not e for e in tuples): + codes = [np.zeros(len(tuples))] + levels = [Index(com.asarray_tuplesafe(tuples, dtype=np.dtype("object")))] + return cls( + levels=levels, + codes=codes, + sortorder=sortorder, + names=names, + verify_integrity=False, + ) + + arrays: list[Sequence[Hashable]] + if len(tuples) == 0: + if names is None: + raise TypeError("Cannot infer number of levels from empty list") + # error: Argument 1 to "len" has incompatible type "Hashable"; + # expected "Sized" + arrays = [[]] * len(names) # type: ignore[arg-type] + elif isinstance(tuples, (np.ndarray, Index)): + if isinstance(tuples, Index): + tuples = np.asarray(tuples._values) + + arrays = list(lib.tuples_to_object_array(tuples).T) + elif isinstance(tuples, list): + arrays = list(lib.to_object_array_tuples(tuples).T) + else: + arrs = zip(*tuples) + arrays = cast(list[Sequence[Hashable]], arrs) + + return cls.from_arrays(arrays, sortorder=sortorder, names=names) + + @classmethod + def from_product( + cls, + iterables: Sequence[Iterable[Hashable]], + sortorder: int | None = None, + names: Sequence[Hashable] | Hashable | lib.NoDefault = lib.no_default, + ) -> MultiIndex: + """ + Make a MultiIndex from the cartesian product of multiple iterables. + + Parameters + ---------- + iterables : list / sequence of iterables + Each iterable has unique labels for each level of the index. + sortorder : int or None + Level of sortedness (must be lexicographically sorted by that + level). + names : list / sequence of str, optional + Names for the levels in the index. + If not explicitly provided, names will be inferred from the + elements of iterables if an element has a name attribute. + + Returns + ------- + MultiIndex + + See Also + -------- + MultiIndex.from_arrays : Convert list of arrays to MultiIndex. + MultiIndex.from_tuples : Convert list of tuples to MultiIndex. + MultiIndex.from_frame : Make a MultiIndex from a DataFrame. + + Examples + -------- + >>> numbers = [0, 1, 2] + >>> colors = ['green', 'purple'] + >>> pd.MultiIndex.from_product([numbers, colors], + ... names=['number', 'color']) + MultiIndex([(0, 'green'), + (0, 'purple'), + (1, 'green'), + (1, 'purple'), + (2, 'green'), + (2, 'purple')], + names=['number', 'color']) + """ + from pandas.core.reshape.util import cartesian_product + + if not is_list_like(iterables): + raise TypeError("Input must be a list / sequence of iterables.") + if is_iterator(iterables): + iterables = list(iterables) + + codes, levels = factorize_from_iterables(iterables) + if names is lib.no_default: + names = [getattr(it, "name", None) for it in iterables] + + # codes are all ndarrays, so cartesian_product is lossless + codes = cartesian_product(codes) + return cls(levels, codes, sortorder=sortorder, names=names) + + @classmethod + def from_frame( + cls, + df: DataFrame, + sortorder: int | None = None, + names: Sequence[Hashable] | Hashable | None = None, + ) -> MultiIndex: + """ + Make a MultiIndex from a DataFrame. + + Parameters + ---------- + df : DataFrame + DataFrame to be converted to MultiIndex. + sortorder : int, optional + Level of sortedness (must be lexicographically sorted by that + level). + names : list-like, optional + If no names are provided, use the column names, or tuple of column + names if the columns is a MultiIndex. If a sequence, overwrite + names with the given sequence. + + Returns + ------- + MultiIndex + The MultiIndex representation of the given DataFrame. + + See Also + -------- + MultiIndex.from_arrays : Convert list of arrays to MultiIndex. + MultiIndex.from_tuples : Convert list of tuples to MultiIndex. + MultiIndex.from_product : Make a MultiIndex from cartesian product + of iterables. + + Examples + -------- + >>> df = pd.DataFrame([['HI', 'Temp'], ['HI', 'Precip'], + ... ['NJ', 'Temp'], ['NJ', 'Precip']], + ... columns=['a', 'b']) + >>> df + a b + 0 HI Temp + 1 HI Precip + 2 NJ Temp + 3 NJ Precip + + >>> pd.MultiIndex.from_frame(df) + MultiIndex([('HI', 'Temp'), + ('HI', 'Precip'), + ('NJ', 'Temp'), + ('NJ', 'Precip')], + names=['a', 'b']) + + Using explicit names, instead of the column names + + >>> pd.MultiIndex.from_frame(df, names=['state', 'observation']) + MultiIndex([('HI', 'Temp'), + ('HI', 'Precip'), + ('NJ', 'Temp'), + ('NJ', 'Precip')], + names=['state', 'observation']) + """ + if not isinstance(df, ABCDataFrame): + raise TypeError("Input must be a DataFrame") + + column_names, columns = zip(*df.items()) + names = column_names if names is None else names + return cls.from_arrays(columns, sortorder=sortorder, names=names) + + # -------------------------------------------------------------------- + + @cache_readonly + def _values(self) -> np.ndarray: + # We override here, since our parent uses _data, which we don't use. + values = [] + + for i in range(self.nlevels): + index = self.levels[i] + codes = self.codes[i] + + vals = index + if isinstance(vals.dtype, CategoricalDtype): + vals = cast("CategoricalIndex", vals) + vals = vals._data._internal_get_values() + + if isinstance(vals.dtype, ExtensionDtype) or lib.is_np_dtype( + vals.dtype, "mM" + ): + vals = vals.astype(object) + + vals = np.asarray(vals) + vals = algos.take_nd(vals, codes, fill_value=index._na_value) + values.append(vals) + + arr = lib.fast_zip(values) + return arr + + @property + def values(self) -> np.ndarray: + return self._values + + @property + def array(self): + """ + Raises a ValueError for `MultiIndex` because there's no single + array backing a MultiIndex. + + Raises + ------ + ValueError + """ + raise ValueError( + "MultiIndex has no single backing array. Use " + "'MultiIndex.to_numpy()' to get a NumPy array of tuples." + ) + + @cache_readonly + def dtypes(self) -> Series: + """ + Return the dtypes as a Series for the underlying MultiIndex. + + Examples + -------- + >>> idx = pd.MultiIndex.from_product([(0, 1, 2), ('green', 'purple')], + ... names=['number', 'color']) + >>> idx + MultiIndex([(0, 'green'), + (0, 'purple'), + (1, 'green'), + (1, 'purple'), + (2, 'green'), + (2, 'purple')], + names=['number', 'color']) + >>> idx.dtypes + number int64 + color object + dtype: object + """ + from pandas import Series + + names = com.fill_missing_names([level.name for level in self.levels]) + return Series([level.dtype for level in self.levels], index=Index(names)) + + def __len__(self) -> int: + return len(self.codes[0]) + + @property + def size(self) -> int: + """ + Return the number of elements in the underlying data. + """ + # override Index.size to avoid materializing _values + return len(self) + + # -------------------------------------------------------------------- + # Levels Methods + + @cache_readonly + def levels(self) -> FrozenList: + """ + Levels of the MultiIndex. + + Levels refer to the different hierarchical levels or layers in a MultiIndex. + In a MultiIndex, each level represents a distinct dimension or category of + the index. + + To access the levels, you can use the levels attribute of the MultiIndex, + which returns a tuple of Index objects. Each Index object represents a + level in the MultiIndex and contains the unique values found in that + specific level. + + If a MultiIndex is created with levels A, B, C, and the DataFrame using + it filters out all rows of the level C, MultiIndex.levels will still + return A, B, C. + + Examples + -------- + >>> index = pd.MultiIndex.from_product([['mammal'], + ... ('goat', 'human', 'cat', 'dog')], + ... names=['Category', 'Animals']) + >>> leg_num = pd.DataFrame(data=(4, 2, 4, 4), index=index, columns=['Legs']) + >>> leg_num + Legs + Category Animals + mammal goat 4 + human 2 + cat 4 + dog 4 + + >>> leg_num.index.levels + FrozenList([['mammal'], ['cat', 'dog', 'goat', 'human']]) + + MultiIndex levels will not change even if the DataFrame using the MultiIndex + does not contain all them anymore. + See how "human" is not in the DataFrame, but it is still in levels: + + >>> large_leg_num = leg_num[leg_num.Legs > 2] + >>> large_leg_num + Legs + Category Animals + mammal goat 4 + cat 4 + dog 4 + + >>> large_leg_num.index.levels + FrozenList([['mammal'], ['cat', 'dog', 'goat', 'human']]) + """ + # Use cache_readonly to ensure that self.get_locs doesn't repeatedly + # create new IndexEngine + # https://github.com/pandas-dev/pandas/issues/31648 + result = [x._rename(name=name) for x, name in zip(self._levels, self._names)] + for level in result: + # disallow midx.levels[0].name = "foo" + level._no_setting_name = True + return FrozenList(result) + + def _set_levels( + self, + levels, + *, + level=None, + copy: bool = False, + validate: bool = True, + verify_integrity: bool = False, + ) -> None: + # This is NOT part of the levels property because it should be + # externally not allowed to set levels. User beware if you change + # _levels directly + if validate: + if len(levels) == 0: + raise ValueError("Must set non-zero number of levels.") + if level is None and len(levels) != self.nlevels: + raise ValueError("Length of levels must match number of levels.") + if level is not None and len(levels) != len(level): + raise ValueError("Length of levels must match length of level.") + + if level is None: + new_levels = FrozenList( + ensure_index(lev, copy=copy)._view() for lev in levels + ) + level_numbers = list(range(len(new_levels))) + else: + level_numbers = [self._get_level_number(lev) for lev in level] + new_levels_list = list(self._levels) + for lev_num, lev in zip(level_numbers, levels): + new_levels_list[lev_num] = ensure_index(lev, copy=copy)._view() + new_levels = FrozenList(new_levels_list) + + if verify_integrity: + new_codes = self._verify_integrity( + levels=new_levels, levels_to_verify=level_numbers + ) + self._codes = new_codes + + names = self.names + self._levels = new_levels + if any(names): + self._set_names(names) + + self._reset_cache() + + def set_levels( + self, levels, *, level=None, verify_integrity: bool = True + ) -> MultiIndex: + """ + Set new levels on MultiIndex. Defaults to returning new index. + + Parameters + ---------- + levels : sequence or list of sequence + New level(s) to apply. + level : int, level name, or sequence of int/level names (default None) + Level(s) to set (None for all levels). + verify_integrity : bool, default True + If True, checks that levels and codes are compatible. + + Returns + ------- + MultiIndex + + Examples + -------- + >>> idx = pd.MultiIndex.from_tuples( + ... [ + ... (1, "one"), + ... (1, "two"), + ... (2, "one"), + ... (2, "two"), + ... (3, "one"), + ... (3, "two") + ... ], + ... names=["foo", "bar"] + ... ) + >>> idx + MultiIndex([(1, 'one'), + (1, 'two'), + (2, 'one'), + (2, 'two'), + (3, 'one'), + (3, 'two')], + names=['foo', 'bar']) + + >>> idx.set_levels([['a', 'b', 'c'], [1, 2]]) + MultiIndex([('a', 1), + ('a', 2), + ('b', 1), + ('b', 2), + ('c', 1), + ('c', 2)], + names=['foo', 'bar']) + >>> idx.set_levels(['a', 'b', 'c'], level=0) + MultiIndex([('a', 'one'), + ('a', 'two'), + ('b', 'one'), + ('b', 'two'), + ('c', 'one'), + ('c', 'two')], + names=['foo', 'bar']) + >>> idx.set_levels(['a', 'b'], level='bar') + MultiIndex([(1, 'a'), + (1, 'b'), + (2, 'a'), + (2, 'b'), + (3, 'a'), + (3, 'b')], + names=['foo', 'bar']) + + If any of the levels passed to ``set_levels()`` exceeds the + existing length, all of the values from that argument will + be stored in the MultiIndex levels, though the values will + be truncated in the MultiIndex output. + + >>> idx.set_levels([['a', 'b', 'c'], [1, 2, 3, 4]], level=[0, 1]) + MultiIndex([('a', 1), + ('a', 2), + ('b', 1), + ('b', 2), + ('c', 1), + ('c', 2)], + names=['foo', 'bar']) + >>> idx.set_levels([['a', 'b', 'c'], [1, 2, 3, 4]], level=[0, 1]).levels + FrozenList([['a', 'b', 'c'], [1, 2, 3, 4]]) + """ + + if isinstance(levels, Index): + pass + elif is_array_like(levels): + levels = Index(levels) + elif is_list_like(levels): + levels = list(levels) + + level, levels = _require_listlike(level, levels, "Levels") + idx = self._view() + idx._reset_identity() + idx._set_levels( + levels, level=level, validate=True, verify_integrity=verify_integrity + ) + return idx + + @property + def nlevels(self) -> int: + """ + Integer number of levels in this MultiIndex. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a'], ['b'], ['c']]) + >>> mi + MultiIndex([('a', 'b', 'c')], + ) + >>> mi.nlevels + 3 + """ + return len(self._levels) + + @property + def levshape(self) -> Shape: + """ + A tuple with the length of each level. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a'], ['b'], ['c']]) + >>> mi + MultiIndex([('a', 'b', 'c')], + ) + >>> mi.levshape + (1, 1, 1) + """ + return tuple(len(x) for x in self.levels) + + # -------------------------------------------------------------------- + # Codes Methods + + @property + def codes(self) -> FrozenList: + return self._codes + + def _set_codes( + self, + codes, + *, + level=None, + copy: bool = False, + validate: bool = True, + verify_integrity: bool = False, + ) -> None: + if validate: + if level is None and len(codes) != self.nlevels: + raise ValueError("Length of codes must match number of levels") + if level is not None and len(codes) != len(level): + raise ValueError("Length of codes must match length of levels.") + + level_numbers: list[int] | range + if level is None: + new_codes = FrozenList( + _coerce_indexer_frozen(level_codes, lev, copy=copy).view() + for lev, level_codes in zip(self._levels, codes) + ) + level_numbers = range(len(new_codes)) + else: + level_numbers = [self._get_level_number(lev) for lev in level] + new_codes_list = list(self._codes) + for lev_num, level_codes in zip(level_numbers, codes): + lev = self.levels[lev_num] + new_codes_list[lev_num] = _coerce_indexer_frozen( + level_codes, lev, copy=copy + ) + new_codes = FrozenList(new_codes_list) + + if verify_integrity: + new_codes = self._verify_integrity( + codes=new_codes, levels_to_verify=level_numbers + ) + + self._codes = new_codes + + self._reset_cache() + + def set_codes( + self, codes, *, level=None, verify_integrity: bool = True + ) -> MultiIndex: + """ + Set new codes on MultiIndex. Defaults to returning new index. + + Parameters + ---------- + codes : sequence or list of sequence + New codes to apply. + level : int, level name, or sequence of int/level names (default None) + Level(s) to set (None for all levels). + verify_integrity : bool, default True + If True, checks that levels and codes are compatible. + + Returns + ------- + new index (of same type and class...etc) or None + The same type as the caller or None if ``inplace=True``. + + Examples + -------- + >>> idx = pd.MultiIndex.from_tuples( + ... [(1, "one"), (1, "two"), (2, "one"), (2, "two")], names=["foo", "bar"] + ... ) + >>> idx + MultiIndex([(1, 'one'), + (1, 'two'), + (2, 'one'), + (2, 'two')], + names=['foo', 'bar']) + + >>> idx.set_codes([[1, 0, 1, 0], [0, 0, 1, 1]]) + MultiIndex([(2, 'one'), + (1, 'one'), + (2, 'two'), + (1, 'two')], + names=['foo', 'bar']) + >>> idx.set_codes([1, 0, 1, 0], level=0) + MultiIndex([(2, 'one'), + (1, 'two'), + (2, 'one'), + (1, 'two')], + names=['foo', 'bar']) + >>> idx.set_codes([0, 0, 1, 1], level='bar') + MultiIndex([(1, 'one'), + (1, 'one'), + (2, 'two'), + (2, 'two')], + names=['foo', 'bar']) + >>> idx.set_codes([[1, 0, 1, 0], [0, 0, 1, 1]], level=[0, 1]) + MultiIndex([(2, 'one'), + (1, 'one'), + (2, 'two'), + (1, 'two')], + names=['foo', 'bar']) + """ + + level, codes = _require_listlike(level, codes, "Codes") + idx = self._view() + idx._reset_identity() + idx._set_codes(codes, level=level, verify_integrity=verify_integrity) + return idx + + # -------------------------------------------------------------------- + # Index Internals + + @cache_readonly + def _engine(self): + # Calculate the number of bits needed to represent labels in each + # level, as log2 of their sizes: + # NaN values are shifted to 1 and missing values in other while + # calculating the indexer are shifted to 0 + sizes = np.ceil( + np.log2( + [len(level) + libindex.multiindex_nulls_shift for level in self.levels] + ) + ) + + # Sum bit counts, starting from the _right_.... + lev_bits = np.cumsum(sizes[::-1])[::-1] + + # ... in order to obtain offsets such that sorting the combination of + # shifted codes (one for each level, resulting in a unique integer) is + # equivalent to sorting lexicographically the codes themselves. Notice + # that each level needs to be shifted by the number of bits needed to + # represent the _previous_ ones: + offsets = np.concatenate([lev_bits[1:], [0]]).astype("uint64") + + # Check the total number of bits needed for our representation: + if lev_bits[0] > 64: + # The levels would overflow a 64 bit uint - use Python integers: + return MultiIndexPyIntEngine(self.levels, self.codes, offsets) + return MultiIndexUIntEngine(self.levels, self.codes, offsets) + + # Return type "Callable[..., MultiIndex]" of "_constructor" incompatible with return + # type "Type[MultiIndex]" in supertype "Index" + @property + def _constructor(self) -> Callable[..., MultiIndex]: # type: ignore[override] + return type(self).from_tuples + + @doc(Index._shallow_copy) + def _shallow_copy(self, values: np.ndarray, name=lib.no_default) -> MultiIndex: + names = name if name is not lib.no_default else self.names + + return type(self).from_tuples(values, sortorder=None, names=names) + + def _view(self) -> MultiIndex: + result = type(self)( + levels=self.levels, + codes=self.codes, + sortorder=self.sortorder, + names=self.names, + verify_integrity=False, + ) + result._cache = self._cache.copy() + result._cache.pop("levels", None) # GH32669 + return result + + # -------------------------------------------------------------------- + + # error: Signature of "copy" incompatible with supertype "Index" + def copy( # type: ignore[override] + self, + names=None, + deep: bool = False, + name=None, + ) -> Self: + """ + Make a copy of this object. + + Names, dtype, levels and codes can be passed and will be set on new copy. + + Parameters + ---------- + names : sequence, optional + deep : bool, default False + name : Label + Kept for compatibility with 1-dimensional Index. Should not be used. + + Returns + ------- + MultiIndex + + Notes + ----- + In most cases, there should be no functional difference from using + ``deep``, but if ``deep`` is passed it will attempt to deepcopy. + This could be potentially expensive on large MultiIndex objects. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a'], ['b'], ['c']]) + >>> mi + MultiIndex([('a', 'b', 'c')], + ) + >>> mi.copy() + MultiIndex([('a', 'b', 'c')], + ) + """ + names = self._validate_names(name=name, names=names, deep=deep) + keep_id = not deep + levels, codes = None, None + + if deep: + from copy import deepcopy + + levels = deepcopy(self.levels) + codes = deepcopy(self.codes) + + levels = levels if levels is not None else self.levels + codes = codes if codes is not None else self.codes + + new_index = type(self)( + levels=levels, + codes=codes, + sortorder=self.sortorder, + names=names, + verify_integrity=False, + ) + new_index._cache = self._cache.copy() + new_index._cache.pop("levels", None) # GH32669 + if keep_id: + new_index._id = self._id + return new_index + + def __array__(self, dtype=None, copy=None) -> np.ndarray: + """the array interface, return my values""" + if copy is False: + # self.values is always a newly construct array, so raise. + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if copy is True: + # explicit np.array call to ensure a copy is made and unique objects + # are returned, because self.values is cached + return np.array(self.values, dtype=dtype) + return self.values + + def view(self, cls=None) -> Self: + """this is defined as a copy with the same identity""" + result = self.copy() + result._id = self._id + return result + + @doc(Index.__contains__) + def __contains__(self, key: Any) -> bool: + hash(key) + try: + self.get_loc(key) + return True + except (LookupError, TypeError, ValueError): + return False + + @cache_readonly + def dtype(self) -> np.dtype: + return np.dtype("O") + + def _is_memory_usage_qualified(self) -> bool: + """return a boolean if we need a qualified .info display""" + + def f(dtype) -> bool: + return is_object_dtype(dtype) or ( + is_string_dtype(dtype) and dtype.storage == "python" + ) + + return any(f(level.dtype) for level in self.levels) + + # Cannot determine type of "memory_usage" + @doc(Index.memory_usage) # type: ignore[has-type] + def memory_usage(self, deep: bool = False) -> int: + # we are overwriting our base class to avoid + # computing .values here which could materialize + # a tuple representation unnecessarily + return self._nbytes(deep) + + @cache_readonly + def nbytes(self) -> int: + """return the number of bytes in the underlying data""" + return self._nbytes(False) + + def _nbytes(self, deep: bool = False) -> int: + """ + return the number of bytes in the underlying data + deeply introspect the level data if deep=True + + include the engine hashtable + + *this is in internal routine* + + """ + # for implementations with no useful getsizeof (PyPy) + objsize = 24 + + level_nbytes = sum(i.memory_usage(deep=deep) for i in self.levels) + label_nbytes = sum(i.nbytes for i in self.codes) + names_nbytes = sum(getsizeof(i, objsize) for i in self.names) + result = level_nbytes + label_nbytes + names_nbytes + + # include our engine hashtable + result += self._engine.sizeof(deep=deep) + return result + + # -------------------------------------------------------------------- + # Rendering Methods + + def _formatter_func(self, tup): + """ + Formats each item in tup according to its level's formatter function. + """ + formatter_funcs = [level._formatter_func for level in self.levels] + return tuple(func(val) for func, val in zip(formatter_funcs, tup)) + + def _get_values_for_csv( + self, *, na_rep: str = "nan", **kwargs + ) -> npt.NDArray[np.object_]: + new_levels = [] + new_codes = [] + + # go through the levels and format them + for level, level_codes in zip(self.levels, self.codes): + level_strs = level._get_values_for_csv(na_rep=na_rep, **kwargs) + # add nan values, if there are any + mask = level_codes == -1 + if mask.any(): + nan_index = len(level_strs) + # numpy 1.21 deprecated implicit string casting + level_strs = level_strs.astype(str) + level_strs = np.append(level_strs, na_rep) + assert not level_codes.flags.writeable # i.e. copy is needed + level_codes = level_codes.copy() # make writeable + level_codes[mask] = nan_index + new_levels.append(level_strs) + new_codes.append(level_codes) + + if len(new_levels) == 1: + # a single-level multi-index + return Index(new_levels[0].take(new_codes[0]))._get_values_for_csv() + else: + # reconstruct the multi-index + mi = MultiIndex( + levels=new_levels, + codes=new_codes, + names=self.names, + sortorder=self.sortorder, + verify_integrity=False, + ) + return mi._values + + def format( + self, + name: bool | None = None, + formatter: Callable | None = None, + na_rep: str | None = None, + names: bool = False, + space: int = 2, + sparsify=None, + adjoin: bool = True, + ) -> list: + warnings.warn( + # GH#55413 + f"{type(self).__name__}.format is deprecated and will be removed " + "in a future version. Convert using index.astype(str) or " + "index.map(formatter) instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if name is not None: + names = name + + if len(self) == 0: + return [] + + stringified_levels = [] + for lev, level_codes in zip(self.levels, self.codes): + na = na_rep if na_rep is not None else _get_na_rep(lev.dtype) + + if len(lev) > 0: + formatted = lev.take(level_codes).format(formatter=formatter) + + # we have some NA + mask = level_codes == -1 + if mask.any(): + formatted = np.array(formatted, dtype=object) + formatted[mask] = na + formatted = formatted.tolist() + + else: + # weird all NA case + formatted = [ + pprint_thing(na if isna(x) else x, escape_chars=("\t", "\r", "\n")) + for x in algos.take_nd(lev._values, level_codes) + ] + stringified_levels.append(formatted) + + result_levels = [] + for lev, lev_name in zip(stringified_levels, self.names): + level = [] + + if names: + level.append( + pprint_thing(lev_name, escape_chars=("\t", "\r", "\n")) + if lev_name is not None + else "" + ) + + level.extend(np.array(lev, dtype=object)) + result_levels.append(level) + + if sparsify is None: + sparsify = get_option("display.multi_sparse") + + if sparsify: + sentinel: Literal[""] | bool | lib.NoDefault = "" + # GH3547 use value of sparsify as sentinel if it's "Falsey" + assert isinstance(sparsify, bool) or sparsify is lib.no_default + if sparsify in [False, lib.no_default]: + sentinel = sparsify + # little bit of a kludge job for #1217 + result_levels = sparsify_labels( + result_levels, start=int(names), sentinel=sentinel + ) + + if adjoin: + adj = get_adjustment() + return adj.adjoin(space, *result_levels).split("\n") + else: + return result_levels + + def _format_multi( + self, + *, + include_names: bool, + sparsify: bool | None | lib.NoDefault, + formatter: Callable | None = None, + ) -> list: + if len(self) == 0: + return [] + + stringified_levels = [] + for lev, level_codes in zip(self.levels, self.codes): + na = _get_na_rep(lev.dtype) + + if len(lev) > 0: + taken = formatted = lev.take(level_codes) + formatted = taken._format_flat(include_name=False, formatter=formatter) + + # we have some NA + mask = level_codes == -1 + if mask.any(): + formatted = np.array(formatted, dtype=object) + formatted[mask] = na + formatted = formatted.tolist() + + else: + # weird all NA case + formatted = [ + pprint_thing(na if isna(x) else x, escape_chars=("\t", "\r", "\n")) + for x in algos.take_nd(lev._values, level_codes) + ] + stringified_levels.append(formatted) + + result_levels = [] + for lev, lev_name in zip(stringified_levels, self.names): + level = [] + + if include_names: + level.append( + pprint_thing(lev_name, escape_chars=("\t", "\r", "\n")) + if lev_name is not None + else "" + ) + + level.extend(np.array(lev, dtype=object)) + result_levels.append(level) + + if sparsify is None: + sparsify = get_option("display.multi_sparse") + + if sparsify: + sentinel: Literal[""] | bool | lib.NoDefault = "" + # GH3547 use value of sparsify as sentinel if it's "Falsey" + assert isinstance(sparsify, bool) or sparsify is lib.no_default + if sparsify is lib.no_default: + sentinel = sparsify + # little bit of a kludge job for #1217 + result_levels = sparsify_labels( + result_levels, start=int(include_names), sentinel=sentinel + ) + + return result_levels + + # -------------------------------------------------------------------- + # Names Methods + + def _get_names(self) -> FrozenList: + return FrozenList(self._names) + + def _set_names(self, names, *, level=None, validate: bool = True): + """ + Set new names on index. Each name has to be a hashable type. + + Parameters + ---------- + values : str or sequence + name(s) to set + level : int, level name, or sequence of int/level names (default None) + If the index is a MultiIndex (hierarchical), level(s) to set (None + for all levels). Otherwise level must be None + validate : bool, default True + validate that the names match level lengths + + Raises + ------ + TypeError if each name is not hashable. + + Notes + ----- + sets names on levels. WARNING: mutates! + + Note that you generally want to set this *after* changing levels, so + that it only acts on copies + """ + # GH 15110 + # Don't allow a single string for names in a MultiIndex + if names is not None and not is_list_like(names): + raise ValueError("Names should be list-like for a MultiIndex") + names = list(names) + + if validate: + if level is not None and len(names) != len(level): + raise ValueError("Length of names must match length of level.") + if level is None and len(names) != self.nlevels: + raise ValueError( + "Length of names must match number of levels in MultiIndex." + ) + + if level is None: + level = range(self.nlevels) + else: + level = [self._get_level_number(lev) for lev in level] + + # set the name + for lev, name in zip(level, names): + if name is not None: + # GH 20527 + # All items in 'names' need to be hashable: + if not is_hashable(name): + raise TypeError( + f"{type(self).__name__}.name must be a hashable type" + ) + self._names[lev] = name + + # If .levels has been accessed, the names in our cache will be stale. + self._reset_cache() + + names = property( + fset=_set_names, + fget=_get_names, + doc=""" + Names of levels in MultiIndex. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays( + ... [[1, 2], [3, 4], [5, 6]], names=['x', 'y', 'z']) + >>> mi + MultiIndex([(1, 3, 5), + (2, 4, 6)], + names=['x', 'y', 'z']) + >>> mi.names + FrozenList(['x', 'y', 'z']) + """, + ) + + # -------------------------------------------------------------------- + + @cache_readonly + def inferred_type(self) -> str: + return "mixed" + + def _get_level_number(self, level) -> int: + count = self.names.count(level) + if (count > 1) and not is_integer(level): + raise ValueError( + f"The name {level} occurs multiple times, use a level number" + ) + try: + level = self.names.index(level) + except ValueError as err: + if not is_integer(level): + raise KeyError(f"Level {level} not found") from err + if level < 0: + level += self.nlevels + if level < 0: + orig_level = level - self.nlevels + raise IndexError( + f"Too many levels: Index has only {self.nlevels} levels, " + f"{orig_level} is not a valid level number" + ) from err + # Note: levels are zero-based + elif level >= self.nlevels: + raise IndexError( + f"Too many levels: Index has only {self.nlevels} levels, " + f"not {level + 1}" + ) from err + return level + + @cache_readonly + def is_monotonic_increasing(self) -> bool: + """ + Return a boolean if the values are equal or increasing. + """ + if any(-1 in code for code in self.codes): + return False + + if all(level.is_monotonic_increasing for level in self.levels): + # If each level is sorted, we can operate on the codes directly. GH27495 + return libalgos.is_lexsorted( + [x.astype("int64", copy=False) for x in self.codes] + ) + + # reversed() because lexsort() wants the most significant key last. + values = [ + self._get_level_values(i)._values for i in reversed(range(len(self.levels))) + ] + try: + # error: Argument 1 to "lexsort" has incompatible type + # "List[Union[ExtensionArray, ndarray[Any, Any]]]"; + # expected "Union[_SupportsArray[dtype[Any]], + # _NestedSequence[_SupportsArray[dtype[Any]]], bool, + # int, float, complex, str, bytes, _NestedSequence[Union + # [bool, int, float, complex, str, bytes]]]" + sort_order = np.lexsort(values) # type: ignore[arg-type] + return Index(sort_order).is_monotonic_increasing + except TypeError: + # we have mixed types and np.lexsort is not happy + return Index(self._values).is_monotonic_increasing + + @cache_readonly + def is_monotonic_decreasing(self) -> bool: + """ + Return a boolean if the values are equal or decreasing. + """ + # monotonic decreasing if and only if reverse is monotonic increasing + return self[::-1].is_monotonic_increasing + + @cache_readonly + def _inferred_type_levels(self) -> list[str]: + """return a list of the inferred types, one for each level""" + return [i.inferred_type for i in self.levels] + + @doc(Index.duplicated) + def duplicated(self, keep: DropKeep = "first") -> npt.NDArray[np.bool_]: + shape = tuple(len(lev) for lev in self.levels) + ids = get_group_index(self.codes, shape, sort=False, xnull=False) + + return duplicated(ids, keep) + + # error: Cannot override final attribute "_duplicated" + # (previously declared in base class "IndexOpsMixin") + _duplicated = duplicated # type: ignore[misc] + + def fillna(self, value=None, downcast=None): + """ + fillna is not implemented for MultiIndex + """ + raise NotImplementedError("isna is not defined for MultiIndex") + + @doc(Index.dropna) + def dropna(self, how: AnyAll = "any") -> MultiIndex: + nans = [level_codes == -1 for level_codes in self.codes] + if how == "any": + indexer = np.any(nans, axis=0) + elif how == "all": + indexer = np.all(nans, axis=0) + else: + raise ValueError(f"invalid how option: {how}") + + new_codes = [level_codes[~indexer] for level_codes in self.codes] + return self.set_codes(codes=new_codes) + + def _get_level_values(self, level: int, unique: bool = False) -> Index: + """ + Return vector of label values for requested level, + equal to the length of the index + + **this is an internal method** + + Parameters + ---------- + level : int + unique : bool, default False + if True, drop duplicated values + + Returns + ------- + Index + """ + lev = self.levels[level] + level_codes = self.codes[level] + name = self._names[level] + if unique: + level_codes = algos.unique(level_codes) + filled = algos.take_nd(lev._values, level_codes, fill_value=lev._na_value) + return lev._shallow_copy(filled, name=name) + + # error: Signature of "get_level_values" incompatible with supertype "Index" + def get_level_values(self, level) -> Index: # type: ignore[override] + """ + Return vector of label values for requested level. + + Length of returned vector is equal to the length of the index. + + Parameters + ---------- + level : int or str + ``level`` is either the integer position of the level in the + MultiIndex, or the name of the level. + + Returns + ------- + Index + Values is a level of this MultiIndex converted to + a single :class:`Index` (or subclass thereof). + + Notes + ----- + If the level contains missing values, the result may be casted to + ``float`` with missing values specified as ``NaN``. This is because + the level is converted to a regular ``Index``. + + Examples + -------- + Create a MultiIndex: + + >>> mi = pd.MultiIndex.from_arrays((list('abc'), list('def'))) + >>> mi.names = ['level_1', 'level_2'] + + Get level values by supplying level as either integer or name: + + >>> mi.get_level_values(0) + Index(['a', 'b', 'c'], dtype='object', name='level_1') + >>> mi.get_level_values('level_2') + Index(['d', 'e', 'f'], dtype='object', name='level_2') + + If a level contains missing values, the return type of the level + may be cast to ``float``. + + >>> pd.MultiIndex.from_arrays([[1, None, 2], [3, 4, 5]]).dtypes + level_0 int64 + level_1 int64 + dtype: object + >>> pd.MultiIndex.from_arrays([[1, None, 2], [3, 4, 5]]).get_level_values(0) + Index([1.0, nan, 2.0], dtype='float64') + """ + level = self._get_level_number(level) + values = self._get_level_values(level) + return values + + @doc(Index.unique) + def unique(self, level=None): + if level is None: + return self.drop_duplicates() + else: + level = self._get_level_number(level) + return self._get_level_values(level=level, unique=True) + + def to_frame( + self, + index: bool = True, + name=lib.no_default, + allow_duplicates: bool = False, + ) -> DataFrame: + """ + Create a DataFrame with the levels of the MultiIndex as columns. + + Column ordering is determined by the DataFrame constructor with data as + a dict. + + Parameters + ---------- + index : bool, default True + Set the index of the returned DataFrame as the original MultiIndex. + + name : list / sequence of str, optional + The passed names should substitute index level names. + + allow_duplicates : bool, optional default False + Allow duplicate column labels to be created. + + .. versionadded:: 1.5.0 + + Returns + ------- + DataFrame + + See Also + -------- + DataFrame : Two-dimensional, size-mutable, potentially heterogeneous + tabular data. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a', 'b'], ['c', 'd']]) + >>> mi + MultiIndex([('a', 'c'), + ('b', 'd')], + ) + + >>> df = mi.to_frame() + >>> df + 0 1 + a c a c + b d b d + + >>> df = mi.to_frame(index=False) + >>> df + 0 1 + 0 a c + 1 b d + + >>> df = mi.to_frame(name=['x', 'y']) + >>> df + x y + a c a c + b d b d + """ + from pandas import DataFrame + + if name is not lib.no_default: + if not is_list_like(name): + raise TypeError("'name' must be a list / sequence of column names.") + + if len(name) != len(self.levels): + raise ValueError( + "'name' should have same length as number of levels on index." + ) + idx_names = name + else: + idx_names = self._get_level_names() + + if not allow_duplicates and len(set(idx_names)) != len(idx_names): + raise ValueError( + "Cannot create duplicate column labels if allow_duplicates is False" + ) + + # Guarantee resulting column order - PY36+ dict maintains insertion order + result = DataFrame( + {level: self._get_level_values(level) for level in range(len(self.levels))}, + copy=False, + ) + result.columns = idx_names + + if index: + result.index = self + return result + + # error: Return type "Index" of "to_flat_index" incompatible with return type + # "MultiIndex" in supertype "Index" + def to_flat_index(self) -> Index: # type: ignore[override] + """ + Convert a MultiIndex to an Index of Tuples containing the level values. + + Returns + ------- + pd.Index + Index with the MultiIndex data represented in Tuples. + + See Also + -------- + MultiIndex.from_tuples : Convert flat index back to MultiIndex. + + Notes + ----- + This method will simply return the caller if called by anything other + than a MultiIndex. + + Examples + -------- + >>> index = pd.MultiIndex.from_product( + ... [['foo', 'bar'], ['baz', 'qux']], + ... names=['a', 'b']) + >>> index.to_flat_index() + Index([('foo', 'baz'), ('foo', 'qux'), + ('bar', 'baz'), ('bar', 'qux')], + dtype='object') + """ + return Index(self._values, tupleize_cols=False) + + def _is_lexsorted(self) -> bool: + """ + Return True if the codes are lexicographically sorted. + + Returns + ------- + bool + + Examples + -------- + In the below examples, the first level of the MultiIndex is sorted because + a>> pd.MultiIndex.from_arrays([['a', 'b', 'c'], + ... ['d', 'e', 'f']])._is_lexsorted() + True + >>> pd.MultiIndex.from_arrays([['a', 'b', 'c'], + ... ['d', 'f', 'e']])._is_lexsorted() + True + + In case there is a tie, the lexicographical sorting looks + at the next level of the MultiIndex. + + >>> pd.MultiIndex.from_arrays([[0, 1, 1], ['a', 'b', 'c']])._is_lexsorted() + True + >>> pd.MultiIndex.from_arrays([[0, 1, 1], ['a', 'c', 'b']])._is_lexsorted() + False + >>> pd.MultiIndex.from_arrays([['a', 'a', 'b', 'b'], + ... ['aa', 'bb', 'aa', 'bb']])._is_lexsorted() + True + >>> pd.MultiIndex.from_arrays([['a', 'a', 'b', 'b'], + ... ['bb', 'aa', 'aa', 'bb']])._is_lexsorted() + False + """ + return self._lexsort_depth == self.nlevels + + @cache_readonly + def _lexsort_depth(self) -> int: + """ + Compute and return the lexsort_depth, the number of levels of the + MultiIndex that are sorted lexically + + Returns + ------- + int + """ + if self.sortorder is not None: + return self.sortorder + return _lexsort_depth(self.codes, self.nlevels) + + def _sort_levels_monotonic(self, raise_if_incomparable: bool = False) -> MultiIndex: + """ + This is an *internal* function. + + Create a new MultiIndex from the current to monotonically sorted + items IN the levels. This does not actually make the entire MultiIndex + monotonic, JUST the levels. + + The resulting MultiIndex will have the same outward + appearance, meaning the same .values and ordering. It will also + be .equals() to the original. + + Returns + ------- + MultiIndex + + Examples + -------- + >>> mi = pd.MultiIndex(levels=[['a', 'b'], ['bb', 'aa']], + ... codes=[[0, 0, 1, 1], [0, 1, 0, 1]]) + >>> mi + MultiIndex([('a', 'bb'), + ('a', 'aa'), + ('b', 'bb'), + ('b', 'aa')], + ) + + >>> mi.sort_values() + MultiIndex([('a', 'aa'), + ('a', 'bb'), + ('b', 'aa'), + ('b', 'bb')], + ) + """ + if self._is_lexsorted() and self.is_monotonic_increasing: + return self + + new_levels = [] + new_codes = [] + + for lev, level_codes in zip(self.levels, self.codes): + if not lev.is_monotonic_increasing: + try: + # indexer to reorder the levels + indexer = lev.argsort() + except TypeError: + if raise_if_incomparable: + raise + else: + lev = lev.take(indexer) + + # indexer to reorder the level codes + indexer = ensure_platform_int(indexer) + ri = lib.get_reverse_indexer(indexer, len(indexer)) + level_codes = algos.take_nd(ri, level_codes, fill_value=-1) + + new_levels.append(lev) + new_codes.append(level_codes) + + return MultiIndex( + new_levels, + new_codes, + names=self.names, + sortorder=self.sortorder, + verify_integrity=False, + ) + + def remove_unused_levels(self) -> MultiIndex: + """ + Create new MultiIndex from current that removes unused levels. + + Unused level(s) means levels that are not expressed in the + labels. The resulting MultiIndex will have the same outward + appearance, meaning the same .values and ordering. It will + also be .equals() to the original. + + Returns + ------- + MultiIndex + + Examples + -------- + >>> mi = pd.MultiIndex.from_product([range(2), list('ab')]) + >>> mi + MultiIndex([(0, 'a'), + (0, 'b'), + (1, 'a'), + (1, 'b')], + ) + + >>> mi[2:] + MultiIndex([(1, 'a'), + (1, 'b')], + ) + + The 0 from the first level is not represented + and can be removed + + >>> mi2 = mi[2:].remove_unused_levels() + >>> mi2.levels + FrozenList([[1], ['a', 'b']]) + """ + new_levels = [] + new_codes = [] + + changed = False + for lev, level_codes in zip(self.levels, self.codes): + # Since few levels are typically unused, bincount() is more + # efficient than unique() - however it only accepts positive values + # (and drops order): + uniques = np.where(np.bincount(level_codes + 1) > 0)[0] - 1 + has_na = int(len(uniques) and (uniques[0] == -1)) + + if len(uniques) != len(lev) + has_na: + if lev.isna().any() and len(uniques) == len(lev): + break + # We have unused levels + changed = True + + # Recalculate uniques, now preserving order. + # Can easily be cythonized by exploiting the already existing + # "uniques" and stop parsing "level_codes" when all items + # are found: + uniques = algos.unique(level_codes) + if has_na: + na_idx = np.where(uniques == -1)[0] + # Just ensure that -1 is in first position: + uniques[[0, na_idx[0]]] = uniques[[na_idx[0], 0]] + + # codes get mapped from uniques to 0:len(uniques) + # -1 (if present) is mapped to last position + code_mapping = np.zeros(len(lev) + has_na) + # ... and reassigned value -1: + code_mapping[uniques] = np.arange(len(uniques)) - has_na + + level_codes = code_mapping[level_codes] + + # new levels are simple + lev = lev.take(uniques[has_na:]) + + new_levels.append(lev) + new_codes.append(level_codes) + + result = self.view() + + if changed: + result._reset_identity() + result._set_levels(new_levels, validate=False) + result._set_codes(new_codes, validate=False) + + return result + + # -------------------------------------------------------------------- + # Pickling Methods + + def __reduce__(self): + """Necessary for making this object picklable""" + d = { + "levels": list(self.levels), + "codes": list(self.codes), + "sortorder": self.sortorder, + "names": list(self.names), + } + return ibase._new_Index, (type(self), d), None + + # -------------------------------------------------------------------- + + def __getitem__(self, key): + if is_scalar(key): + key = com.cast_scalar_indexer(key) + + retval = [] + for lev, level_codes in zip(self.levels, self.codes): + if level_codes[key] == -1: + retval.append(np.nan) + else: + retval.append(lev[level_codes[key]]) + + return tuple(retval) + else: + # in general cannot be sure whether the result will be sorted + sortorder = None + if com.is_bool_indexer(key): + key = np.asarray(key, dtype=bool) + sortorder = self.sortorder + elif isinstance(key, slice): + if key.step is None or key.step > 0: + sortorder = self.sortorder + elif isinstance(key, Index): + key = np.asarray(key) + + new_codes = [level_codes[key] for level_codes in self.codes] + + return MultiIndex( + levels=self.levels, + codes=new_codes, + names=self.names, + sortorder=sortorder, + verify_integrity=False, + ) + + def _getitem_slice(self: MultiIndex, slobj: slice) -> MultiIndex: + """ + Fastpath for __getitem__ when we know we have a slice. + """ + sortorder = None + if slobj.step is None or slobj.step > 0: + sortorder = self.sortorder + + new_codes = [level_codes[slobj] for level_codes in self.codes] + + return type(self)( + levels=self.levels, + codes=new_codes, + names=self._names, + sortorder=sortorder, + verify_integrity=False, + ) + + @Appender(_index_shared_docs["take"] % _index_doc_kwargs) + def take( + self: MultiIndex, + indices, + axis: Axis = 0, + allow_fill: bool = True, + fill_value=None, + **kwargs, + ) -> MultiIndex: + nv.validate_take((), kwargs) + indices = ensure_platform_int(indices) + + # only fill if we are passing a non-None fill_value + allow_fill = self._maybe_disallow_fill(allow_fill, fill_value, indices) + + na_value = -1 + + taken = [lab.take(indices) for lab in self.codes] + if allow_fill: + mask = indices == -1 + if mask.any(): + masked = [] + for new_label in taken: + label_values = new_label + label_values[mask] = na_value + masked.append(np.asarray(label_values)) + taken = masked + + return MultiIndex( + levels=self.levels, codes=taken, names=self.names, verify_integrity=False + ) + + def append(self, other): + """ + Append a collection of Index options together. + + Parameters + ---------- + other : Index or list/tuple of indices + + Returns + ------- + Index + The combined index. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a'], ['b']]) + >>> mi + MultiIndex([('a', 'b')], + ) + >>> mi.append(mi) + MultiIndex([('a', 'b'), ('a', 'b')], + ) + """ + if not isinstance(other, (list, tuple)): + other = [other] + + if all( + (isinstance(o, MultiIndex) and o.nlevels >= self.nlevels) for o in other + ): + codes = [] + levels = [] + names = [] + for i in range(self.nlevels): + level_values = self.levels[i] + for mi in other: + level_values = level_values.union(mi.levels[i]) + level_codes = [ + recode_for_categories( + mi.codes[i], mi.levels[i], level_values, copy=False + ) + for mi in ([self, *other]) + ] + level_name = self.names[i] + if any(mi.names[i] != level_name for mi in other): + level_name = None + codes.append(np.concatenate(level_codes)) + levels.append(level_values) + names.append(level_name) + return MultiIndex( + codes=codes, levels=levels, names=names, verify_integrity=False + ) + + to_concat = (self._values,) + tuple(k._values for k in other) + new_tuples = np.concatenate(to_concat) + + # if all(isinstance(x, MultiIndex) for x in other): + try: + # We only get here if other contains at least one index with tuples, + # setting names to None automatically + return MultiIndex.from_tuples(new_tuples) + except (TypeError, IndexError): + return Index(new_tuples) + + def argsort( + self, *args, na_position: str = "last", **kwargs + ) -> npt.NDArray[np.intp]: + target = self._sort_levels_monotonic(raise_if_incomparable=True) + keys = [lev.codes for lev in target._get_codes_for_sorting()] + return lexsort_indexer(keys, na_position=na_position, codes_given=True) + + @Appender(_index_shared_docs["repeat"] % _index_doc_kwargs) + def repeat(self, repeats: int, axis=None) -> MultiIndex: + nv.validate_repeat((), {"axis": axis}) + # error: Incompatible types in assignment (expression has type "ndarray", + # variable has type "int") + repeats = ensure_platform_int(repeats) # type: ignore[assignment] + return MultiIndex( + levels=self.levels, + codes=[ + level_codes.view(np.ndarray).astype(np.intp, copy=False).repeat(repeats) + for level_codes in self.codes + ], + names=self.names, + sortorder=self.sortorder, + verify_integrity=False, + ) + + # error: Signature of "drop" incompatible with supertype "Index" + def drop( # type: ignore[override] + self, + codes, + level: Index | np.ndarray | Iterable[Hashable] | None = None, + errors: IgnoreRaise = "raise", + ) -> MultiIndex: + """ + Make a new :class:`pandas.MultiIndex` with the passed list of codes deleted. + + Parameters + ---------- + codes : array-like + Must be a list of tuples when ``level`` is not specified. + level : int or level name, default None + errors : str, default 'raise' + + Returns + ------- + MultiIndex + + Examples + -------- + >>> idx = pd.MultiIndex.from_product([(0, 1, 2), ('green', 'purple')], + ... names=["number", "color"]) + >>> idx + MultiIndex([(0, 'green'), + (0, 'purple'), + (1, 'green'), + (1, 'purple'), + (2, 'green'), + (2, 'purple')], + names=['number', 'color']) + >>> idx.drop([(1, 'green'), (2, 'purple')]) + MultiIndex([(0, 'green'), + (0, 'purple'), + (1, 'purple'), + (2, 'green')], + names=['number', 'color']) + + We can also drop from a specific level. + + >>> idx.drop('green', level='color') + MultiIndex([(0, 'purple'), + (1, 'purple'), + (2, 'purple')], + names=['number', 'color']) + + >>> idx.drop([1, 2], level=0) + MultiIndex([(0, 'green'), + (0, 'purple')], + names=['number', 'color']) + """ + if level is not None: + return self._drop_from_level(codes, level, errors) + + if not isinstance(codes, (np.ndarray, Index)): + try: + codes = com.index_labels_to_array(codes, dtype=np.dtype("object")) + except ValueError: + pass + + inds = [] + for level_codes in codes: + try: + loc = self.get_loc(level_codes) + # get_loc returns either an integer, a slice, or a boolean + # mask + if isinstance(loc, int): + inds.append(loc) + elif isinstance(loc, slice): + step = loc.step if loc.step is not None else 1 + inds.extend(range(loc.start, loc.stop, step)) + elif com.is_bool_indexer(loc): + if self._lexsort_depth == 0: + warnings.warn( + "dropping on a non-lexsorted multi-index " + "without a level parameter may impact performance.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + loc = loc.nonzero()[0] + inds.extend(loc) + else: + msg = f"unsupported indexer of type {type(loc)}" + raise AssertionError(msg) + except KeyError: + if errors != "ignore": + raise + + return self.delete(inds) + + def _drop_from_level( + self, codes, level, errors: IgnoreRaise = "raise" + ) -> MultiIndex: + codes = com.index_labels_to_array(codes) + i = self._get_level_number(level) + index = self.levels[i] + values = index.get_indexer(codes) + # If nan should be dropped it will equal -1 here. We have to check which values + # are not nan and equal -1, this means they are missing in the index + nan_codes = isna(codes) + values[(np.equal(nan_codes, False)) & (values == -1)] = -2 + if index.shape[0] == self.shape[0]: + values[np.equal(nan_codes, True)] = -2 + + not_found = codes[values == -2] + if len(not_found) != 0 and errors != "ignore": + raise KeyError(f"labels {not_found} not found in level") + mask = ~algos.isin(self.codes[i], values) + + return self[mask] + + def swaplevel(self, i=-2, j=-1) -> MultiIndex: + """ + Swap level i with level j. + + Calling this method does not change the ordering of the values. + + Parameters + ---------- + i : int, str, default -2 + First level of index to be swapped. Can pass level name as string. + Type of parameters can be mixed. + j : int, str, default -1 + Second level of index to be swapped. Can pass level name as string. + Type of parameters can be mixed. + + Returns + ------- + MultiIndex + A new MultiIndex. + + See Also + -------- + Series.swaplevel : Swap levels i and j in a MultiIndex. + DataFrame.swaplevel : Swap levels i and j in a MultiIndex on a + particular axis. + + Examples + -------- + >>> mi = pd.MultiIndex(levels=[['a', 'b'], ['bb', 'aa']], + ... codes=[[0, 0, 1, 1], [0, 1, 0, 1]]) + >>> mi + MultiIndex([('a', 'bb'), + ('a', 'aa'), + ('b', 'bb'), + ('b', 'aa')], + ) + >>> mi.swaplevel(0, 1) + MultiIndex([('bb', 'a'), + ('aa', 'a'), + ('bb', 'b'), + ('aa', 'b')], + ) + """ + new_levels = list(self.levels) + new_codes = list(self.codes) + new_names = list(self.names) + + i = self._get_level_number(i) + j = self._get_level_number(j) + + new_levels[i], new_levels[j] = new_levels[j], new_levels[i] + new_codes[i], new_codes[j] = new_codes[j], new_codes[i] + new_names[i], new_names[j] = new_names[j], new_names[i] + + return MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + + def reorder_levels(self, order) -> MultiIndex: + """ + Rearrange levels using input order. May not drop or duplicate levels. + + Parameters + ---------- + order : list of int or list of str + List representing new level order. Reference level by number + (position) or by key (label). + + Returns + ------- + MultiIndex + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([[1, 2], [3, 4]], names=['x', 'y']) + >>> mi + MultiIndex([(1, 3), + (2, 4)], + names=['x', 'y']) + + >>> mi.reorder_levels(order=[1, 0]) + MultiIndex([(3, 1), + (4, 2)], + names=['y', 'x']) + + >>> mi.reorder_levels(order=['y', 'x']) + MultiIndex([(3, 1), + (4, 2)], + names=['y', 'x']) + """ + order = [self._get_level_number(i) for i in order] + result = self._reorder_ilevels(order) + return result + + def _reorder_ilevels(self, order) -> MultiIndex: + if len(order) != self.nlevels: + raise AssertionError( + f"Length of order must be same as number of levels ({self.nlevels}), " + f"got {len(order)}" + ) + new_levels = [self.levels[i] for i in order] + new_codes = [self.codes[i] for i in order] + new_names = [self.names[i] for i in order] + + return MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + + def _recode_for_new_levels( + self, new_levels, copy: bool = True + ) -> Generator[np.ndarray, None, None]: + if len(new_levels) > self.nlevels: + raise AssertionError( + f"Length of new_levels ({len(new_levels)}) " + f"must be <= self.nlevels ({self.nlevels})" + ) + for i in range(len(new_levels)): + yield recode_for_categories( + self.codes[i], self.levels[i], new_levels[i], copy=copy + ) + + def _get_codes_for_sorting(self) -> list[Categorical]: + """ + we are categorizing our codes by using the + available categories (all, not just observed) + excluding any missing ones (-1); this is in preparation + for sorting, where we need to disambiguate that -1 is not + a valid valid + """ + + def cats(level_codes): + return np.arange( + np.array(level_codes).max() + 1 if len(level_codes) else 0, + dtype=level_codes.dtype, + ) + + return [ + Categorical.from_codes(level_codes, cats(level_codes), True, validate=False) + for level_codes in self.codes + ] + + def sortlevel( + self, + level: IndexLabel = 0, + ascending: bool | list[bool] = True, + sort_remaining: bool = True, + na_position: str = "first", + ) -> tuple[MultiIndex, npt.NDArray[np.intp]]: + """ + Sort MultiIndex at the requested level. + + The result will respect the original ordering of the associated + factor at that level. + + Parameters + ---------- + level : list-like, int or str, default 0 + If a string is given, must be a name of the level. + If list-like must be names or ints of levels. + ascending : bool, default True + False to sort in descending order. + Can also be a list to specify a directed ordering. + sort_remaining : sort by the remaining levels after level + na_position : {'first' or 'last'}, default 'first' + Argument 'first' puts NaNs at the beginning, 'last' puts NaNs at + the end. + + .. versionadded:: 2.1.0 + + Returns + ------- + sorted_index : pd.MultiIndex + Resulting index. + indexer : np.ndarray[np.intp] + Indices of output values in original index. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([[0, 0], [2, 1]]) + >>> mi + MultiIndex([(0, 2), + (0, 1)], + ) + + >>> mi.sortlevel() + (MultiIndex([(0, 1), + (0, 2)], + ), array([1, 0])) + + >>> mi.sortlevel(sort_remaining=False) + (MultiIndex([(0, 2), + (0, 1)], + ), array([0, 1])) + + >>> mi.sortlevel(1) + (MultiIndex([(0, 1), + (0, 2)], + ), array([1, 0])) + + >>> mi.sortlevel(1, ascending=False) + (MultiIndex([(0, 2), + (0, 1)], + ), array([0, 1])) + """ + if not is_list_like(level): + level = [level] + # error: Item "Hashable" of "Union[Hashable, Sequence[Hashable]]" has + # no attribute "__iter__" (not iterable) + level = [ + self._get_level_number(lev) for lev in level # type: ignore[union-attr] + ] + sortorder = None + + codes = [self.codes[lev] for lev in level] + # we have a directed ordering via ascending + if isinstance(ascending, list): + if not len(level) == len(ascending): + raise ValueError("level must have same length as ascending") + elif sort_remaining: + codes.extend( + [self.codes[lev] for lev in range(len(self.levels)) if lev not in level] + ) + else: + sortorder = level[0] + + indexer = lexsort_indexer( + codes, orders=ascending, na_position=na_position, codes_given=True + ) + + indexer = ensure_platform_int(indexer) + new_codes = [level_codes.take(indexer) for level_codes in self.codes] + + new_index = MultiIndex( + codes=new_codes, + levels=self.levels, + names=self.names, + sortorder=sortorder, + verify_integrity=False, + ) + + return new_index, indexer + + def _wrap_reindex_result(self, target, indexer, preserve_names: bool): + if not isinstance(target, MultiIndex): + if indexer is None: + target = self + elif (indexer >= 0).all(): + target = self.take(indexer) + else: + try: + target = MultiIndex.from_tuples(target) + except TypeError: + # not all tuples, see test_constructor_dict_multiindex_reindex_flat + return target + + target = self._maybe_preserve_names(target, preserve_names) + return target + + def _maybe_preserve_names(self, target: Index, preserve_names: bool) -> Index: + if ( + preserve_names + and target.nlevels == self.nlevels + and target.names != self.names + ): + target = target.copy(deep=False) + target.names = self.names + return target + + # -------------------------------------------------------------------- + # Indexing Methods + + def _check_indexing_error(self, key) -> None: + if not is_hashable(key) or is_iterator(key): + # We allow tuples if they are hashable, whereas other Index + # subclasses require scalar. + # We have to explicitly exclude generators, as these are hashable. + raise InvalidIndexError(key) + + @cache_readonly + def _should_fallback_to_positional(self) -> bool: + """ + Should integer key(s) be treated as positional? + """ + # GH#33355 + return self.levels[0]._should_fallback_to_positional + + def _get_indexer_strict( + self, key, axis_name: str + ) -> tuple[Index, npt.NDArray[np.intp]]: + keyarr = key + if not isinstance(keyarr, Index): + keyarr = com.asarray_tuplesafe(keyarr) + + if len(keyarr) and not isinstance(keyarr[0], tuple): + indexer = self._get_indexer_level_0(keyarr) + + self._raise_if_missing(key, indexer, axis_name) + return self[indexer], indexer + + return super()._get_indexer_strict(key, axis_name) + + def _raise_if_missing(self, key, indexer, axis_name: str) -> None: + keyarr = key + if not isinstance(key, Index): + keyarr = com.asarray_tuplesafe(key) + + if len(keyarr) and not isinstance(keyarr[0], tuple): + # i.e. same condition for special case in MultiIndex._get_indexer_strict + + mask = indexer == -1 + if mask.any(): + check = self.levels[0].get_indexer(keyarr) + cmask = check == -1 + if cmask.any(): + raise KeyError(f"{keyarr[cmask]} not in index") + # We get here when levels still contain values which are not + # actually in Index anymore + raise KeyError(f"{keyarr} not in index") + else: + return super()._raise_if_missing(key, indexer, axis_name) + + def _get_indexer_level_0(self, target) -> npt.NDArray[np.intp]: + """ + Optimized equivalent to `self.get_level_values(0).get_indexer_for(target)`. + """ + lev = self.levels[0] + codes = self._codes[0] + cat = Categorical.from_codes(codes=codes, categories=lev, validate=False) + ci = Index(cat) + return ci.get_indexer_for(target) + + def get_slice_bound( + self, + label: Hashable | Sequence[Hashable], + side: Literal["left", "right"], + ) -> int: + """ + For an ordered MultiIndex, compute slice bound + that corresponds to given label. + + Returns leftmost (one-past-the-rightmost if `side=='right') position + of given label. + + Parameters + ---------- + label : object or tuple of objects + side : {'left', 'right'} + + Returns + ------- + int + Index of label. + + Notes + ----- + This method only works if level 0 index of the MultiIndex is lexsorted. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([list('abbc'), list('gefd')]) + + Get the locations from the leftmost 'b' in the first level + until the end of the multiindex: + + >>> mi.get_slice_bound('b', side="left") + 1 + + Like above, but if you get the locations from the rightmost + 'b' in the first level and 'f' in the second level: + + >>> mi.get_slice_bound(('b','f'), side="right") + 3 + + See Also + -------- + MultiIndex.get_loc : Get location for a label or a tuple of labels. + MultiIndex.get_locs : Get location for a label/slice/list/mask or a + sequence of such. + """ + if not isinstance(label, tuple): + label = (label,) + return self._partial_tup_index(label, side=side) + + # pylint: disable-next=useless-parent-delegation + def slice_locs(self, start=None, end=None, step=None) -> tuple[int, int]: + """ + For an ordered MultiIndex, compute the slice locations for input + labels. + + The input labels can be tuples representing partial levels, e.g. for a + MultiIndex with 3 levels, you can pass a single value (corresponding to + the first level), or a 1-, 2-, or 3-tuple. + + Parameters + ---------- + start : label or tuple, default None + If None, defaults to the beginning + end : label or tuple + If None, defaults to the end + step : int or None + Slice step + + Returns + ------- + (start, end) : (int, int) + + Notes + ----- + This method only works if the MultiIndex is properly lexsorted. So, + if only the first 2 levels of a 3-level MultiIndex are lexsorted, + you can only pass two levels to ``.slice_locs``. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([list('abbd'), list('deff')], + ... names=['A', 'B']) + + Get the slice locations from the beginning of 'b' in the first level + until the end of the multiindex: + + >>> mi.slice_locs(start='b') + (1, 4) + + Like above, but stop at the end of 'b' in the first level and 'f' in + the second level: + + >>> mi.slice_locs(start='b', end=('b', 'f')) + (1, 3) + + See Also + -------- + MultiIndex.get_loc : Get location for a label or a tuple of labels. + MultiIndex.get_locs : Get location for a label/slice/list/mask or a + sequence of such. + """ + # This function adds nothing to its parent implementation (the magic + # happens in get_slice_bound method), but it adds meaningful doc. + return super().slice_locs(start, end, step) + + def _partial_tup_index(self, tup: tuple, side: Literal["left", "right"] = "left"): + if len(tup) > self._lexsort_depth: + raise UnsortedIndexError( + f"Key length ({len(tup)}) was greater than MultiIndex lexsort depth " + f"({self._lexsort_depth})" + ) + + n = len(tup) + start, end = 0, len(self) + zipped = zip(tup, self.levels, self.codes) + for k, (lab, lev, level_codes) in enumerate(zipped): + section = level_codes[start:end] + + loc: npt.NDArray[np.intp] | np.intp | int + if lab not in lev and not isna(lab): + # short circuit + try: + loc = algos.searchsorted(lev, lab, side=side) + except TypeError as err: + # non-comparable e.g. test_slice_locs_with_type_mismatch + raise TypeError(f"Level type mismatch: {lab}") from err + if not is_integer(loc): + # non-comparable level, e.g. test_groupby_example + raise TypeError(f"Level type mismatch: {lab}") + if side == "right" and loc >= 0: + loc -= 1 + return start + algos.searchsorted(section, loc, side=side) + + idx = self._get_loc_single_level_index(lev, lab) + if isinstance(idx, slice) and k < n - 1: + # Get start and end value from slice, necessary when a non-integer + # interval is given as input GH#37707 + start = idx.start + end = idx.stop + elif k < n - 1: + # error: Incompatible types in assignment (expression has type + # "Union[ndarray[Any, dtype[signedinteger[Any]]] + end = start + algos.searchsorted( # type: ignore[assignment] + section, idx, side="right" + ) + # error: Incompatible types in assignment (expression has type + # "Union[ndarray[Any, dtype[signedinteger[Any]]] + start = start + algos.searchsorted( # type: ignore[assignment] + section, idx, side="left" + ) + elif isinstance(idx, slice): + idx = idx.start + return start + algos.searchsorted(section, idx, side=side) + else: + return start + algos.searchsorted(section, idx, side=side) + + def _get_loc_single_level_index(self, level_index: Index, key: Hashable) -> int: + """ + If key is NA value, location of index unify as -1. + + Parameters + ---------- + level_index: Index + key : label + + Returns + ------- + loc : int + If key is NA value, loc is -1 + Else, location of key in index. + + See Also + -------- + Index.get_loc : The get_loc method for (single-level) index. + """ + if is_scalar(key) and isna(key): + # TODO: need is_valid_na_for_dtype(key, level_index.dtype) + return -1 + else: + return level_index.get_loc(key) + + def get_loc(self, key): + """ + Get location for a label or a tuple of labels. + + The location is returned as an integer/slice or boolean + mask. + + Parameters + ---------- + key : label or tuple of labels (one for each level) + + Returns + ------- + int, slice object or boolean mask + If the key is past the lexsort depth, the return may be a + boolean mask array, otherwise it is always a slice or int. + + See Also + -------- + Index.get_loc : The get_loc method for (single-level) index. + MultiIndex.slice_locs : Get slice location given start label(s) and + end label(s). + MultiIndex.get_locs : Get location for a label/slice/list/mask or a + sequence of such. + + Notes + ----- + The key cannot be a slice, list of same-level labels, a boolean mask, + or a sequence of such. If you want to use those, use + :meth:`MultiIndex.get_locs` instead. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([list('abb'), list('def')]) + + >>> mi.get_loc('b') + slice(1, 3, None) + + >>> mi.get_loc(('b', 'e')) + 1 + """ + self._check_indexing_error(key) + + def _maybe_to_slice(loc): + """convert integer indexer to boolean mask or slice if possible""" + if not isinstance(loc, np.ndarray) or loc.dtype != np.intp: + return loc + + loc = lib.maybe_indices_to_slice(loc, len(self)) + if isinstance(loc, slice): + return loc + + mask = np.empty(len(self), dtype="bool") + mask.fill(False) + mask[loc] = True + return mask + + if not isinstance(key, tuple): + loc = self._get_level_indexer(key, level=0) + return _maybe_to_slice(loc) + + keylen = len(key) + if self.nlevels < keylen: + raise KeyError( + f"Key length ({keylen}) exceeds index depth ({self.nlevels})" + ) + + if keylen == self.nlevels and self.is_unique: + # TODO: what if we have an IntervalIndex level? + # i.e. do we need _index_as_unique on that level? + try: + return self._engine.get_loc(key) + except KeyError as err: + raise KeyError(key) from err + except TypeError: + # e.g. test_partial_slicing_with_multiindex partial string slicing + loc, _ = self.get_loc_level(key, list(range(self.nlevels))) + return loc + + # -- partial selection or non-unique index + # break the key into 2 parts based on the lexsort_depth of the index; + # the first part returns a continuous slice of the index; the 2nd part + # needs linear search within the slice + i = self._lexsort_depth + lead_key, follow_key = key[:i], key[i:] + + if not lead_key: + start = 0 + stop = len(self) + else: + try: + start, stop = self.slice_locs(lead_key, lead_key) + except TypeError as err: + # e.g. test_groupby_example key = ((0, 0, 1, 2), "new_col") + # when self has 5 integer levels + raise KeyError(key) from err + + if start == stop: + raise KeyError(key) + + if not follow_key: + return slice(start, stop) + + warnings.warn( + "indexing past lexsort depth may impact performance.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + + loc = np.arange(start, stop, dtype=np.intp) + + for i, k in enumerate(follow_key, len(lead_key)): + mask = self.codes[i][loc] == self._get_loc_single_level_index( + self.levels[i], k + ) + if not mask.all(): + loc = loc[mask] + if not len(loc): + raise KeyError(key) + + return _maybe_to_slice(loc) if len(loc) != stop - start else slice(start, stop) + + def get_loc_level(self, key, level: IndexLabel = 0, drop_level: bool = True): + """ + Get location and sliced index for requested label(s)/level(s). + + Parameters + ---------- + key : label or sequence of labels + level : int/level name or list thereof, optional + drop_level : bool, default True + If ``False``, the resulting index will not drop any level. + + Returns + ------- + tuple + A 2-tuple where the elements : + + Element 0: int, slice object or boolean array. + + Element 1: The resulting sliced multiindex/index. If the key + contains all levels, this will be ``None``. + + See Also + -------- + MultiIndex.get_loc : Get location for a label or a tuple of labels. + MultiIndex.get_locs : Get location for a label/slice/list/mask or a + sequence of such. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([list('abb'), list('def')], + ... names=['A', 'B']) + + >>> mi.get_loc_level('b') + (slice(1, 3, None), Index(['e', 'f'], dtype='object', name='B')) + + >>> mi.get_loc_level('e', level='B') + (array([False, True, False]), Index(['b'], dtype='object', name='A')) + + >>> mi.get_loc_level(['b', 'e']) + (1, None) + """ + if not isinstance(level, (list, tuple)): + level = self._get_level_number(level) + else: + level = [self._get_level_number(lev) for lev in level] + + loc, mi = self._get_loc_level(key, level=level) + if not drop_level: + if lib.is_integer(loc): + # Slice index must be an integer or None + mi = self[loc : loc + 1] + else: + mi = self[loc] + return loc, mi + + def _get_loc_level(self, key, level: int | list[int] = 0): + """ + get_loc_level but with `level` known to be positional, not name-based. + """ + + # different name to distinguish from maybe_droplevels + def maybe_mi_droplevels(indexer, levels): + """ + If level does not exist or all levels were dropped, the exception + has to be handled outside. + """ + new_index = self[indexer] + + for i in sorted(levels, reverse=True): + new_index = new_index._drop_level_numbers([i]) + + return new_index + + if isinstance(level, (tuple, list)): + if len(key) != len(level): + raise AssertionError( + "Key for location must have same length as number of levels" + ) + result = None + for lev, k in zip(level, key): + loc, new_index = self._get_loc_level(k, level=lev) + if isinstance(loc, slice): + mask = np.zeros(len(self), dtype=bool) + mask[loc] = True + loc = mask + result = loc if result is None else result & loc + + try: + # FIXME: we should be only dropping levels on which we are + # scalar-indexing + mi = maybe_mi_droplevels(result, level) + except ValueError: + # droplevel failed because we tried to drop all levels, + # i.e. len(level) == self.nlevels + mi = self[result] + + return result, mi + + # kludge for #1796 + if isinstance(key, list): + key = tuple(key) + + if isinstance(key, tuple) and level == 0: + try: + # Check if this tuple is a single key in our first level + if key in self.levels[0]: + indexer = self._get_level_indexer(key, level=level) + new_index = maybe_mi_droplevels(indexer, [0]) + return indexer, new_index + except (TypeError, InvalidIndexError): + pass + + if not any(isinstance(k, slice) for k in key): + if len(key) == self.nlevels and self.is_unique: + # Complete key in unique index -> standard get_loc + try: + return (self._engine.get_loc(key), None) + except KeyError as err: + raise KeyError(key) from err + except TypeError: + # e.g. partial string indexing + # test_partial_string_timestamp_multiindex + pass + + # partial selection + indexer = self.get_loc(key) + ilevels = [i for i in range(len(key)) if key[i] != slice(None, None)] + if len(ilevels) == self.nlevels: + if is_integer(indexer): + # we are dropping all levels + return indexer, None + + # TODO: in some cases we still need to drop some levels, + # e.g. test_multiindex_perf_warn + # test_partial_string_timestamp_multiindex + ilevels = [ + i + for i in range(len(key)) + if ( + not isinstance(key[i], str) + or not self.levels[i]._supports_partial_string_indexing + ) + and key[i] != slice(None, None) + ] + if len(ilevels) == self.nlevels: + # TODO: why? + ilevels = [] + return indexer, maybe_mi_droplevels(indexer, ilevels) + + else: + indexer = None + for i, k in enumerate(key): + if not isinstance(k, slice): + loc_level = self._get_level_indexer(k, level=i) + if isinstance(loc_level, slice): + if com.is_null_slice(loc_level) or com.is_full_slice( + loc_level, len(self) + ): + # everything + continue + + # e.g. test_xs_IndexSlice_argument_not_implemented + k_index = np.zeros(len(self), dtype=bool) + k_index[loc_level] = True + + else: + k_index = loc_level + + elif com.is_null_slice(k): + # taking everything, does not affect `indexer` below + continue + + else: + # FIXME: this message can be inaccurate, e.g. + # test_series_varied_multiindex_alignment + raise TypeError(f"Expected label or tuple of labels, got {key}") + + if indexer is None: + indexer = k_index + else: + indexer &= k_index + if indexer is None: + indexer = slice(None, None) + ilevels = [i for i in range(len(key)) if key[i] != slice(None, None)] + return indexer, maybe_mi_droplevels(indexer, ilevels) + else: + indexer = self._get_level_indexer(key, level=level) + if ( + isinstance(key, str) + and self.levels[level]._supports_partial_string_indexing + ): + # check to see if we did an exact lookup vs sliced + check = self.levels[level].get_loc(key) + if not is_integer(check): + # e.g. test_partial_string_timestamp_multiindex + return indexer, self[indexer] + + try: + result_index = maybe_mi_droplevels(indexer, [level]) + except ValueError: + result_index = self[indexer] + + return indexer, result_index + + def _get_level_indexer( + self, key, level: int = 0, indexer: npt.NDArray[np.bool_] | None = None + ): + # `level` kwarg is _always_ positional, never name + # return a boolean array or slice showing where the key is + # in the totality of values + # if the indexer is provided, then use this + + level_index = self.levels[level] + level_codes = self.codes[level] + + def convert_indexer(start, stop, step, indexer=indexer, codes=level_codes): + # Compute a bool indexer to identify the positions to take. + # If we have an existing indexer, we only need to examine the + # subset of positions where the existing indexer is True. + if indexer is not None: + # we only need to look at the subset of codes where the + # existing indexer equals True + codes = codes[indexer] + + if step is None or step == 1: + new_indexer = (codes >= start) & (codes < stop) + else: + r = np.arange(start, stop, step, dtype=codes.dtype) + new_indexer = algos.isin(codes, r) + + if indexer is None: + return new_indexer + + indexer = indexer.copy() + indexer[indexer] = new_indexer + return indexer + + if isinstance(key, slice): + # handle a slice, returning a slice if we can + # otherwise a boolean indexer + step = key.step + is_negative_step = step is not None and step < 0 + + try: + if key.start is not None: + start = level_index.get_loc(key.start) + elif is_negative_step: + start = len(level_index) - 1 + else: + start = 0 + + if key.stop is not None: + stop = level_index.get_loc(key.stop) + elif is_negative_step: + stop = 0 + elif isinstance(start, slice): + stop = len(level_index) + else: + stop = len(level_index) - 1 + except KeyError: + # we have a partial slice (like looking up a partial date + # string) + start = stop = level_index.slice_indexer(key.start, key.stop, key.step) + step = start.step + + if isinstance(start, slice) or isinstance(stop, slice): + # we have a slice for start and/or stop + # a partial date slicer on a DatetimeIndex generates a slice + # note that the stop ALREADY includes the stopped point (if + # it was a string sliced) + start = getattr(start, "start", start) + stop = getattr(stop, "stop", stop) + return convert_indexer(start, stop, step) + + elif level > 0 or self._lexsort_depth == 0 or step is not None: + # need to have like semantics here to right + # searching as when we are using a slice + # so adjust the stop by 1 (so we include stop) + stop = (stop - 1) if is_negative_step else (stop + 1) + return convert_indexer(start, stop, step) + else: + # sorted, so can return slice object -> view + i = algos.searchsorted(level_codes, start, side="left") + j = algos.searchsorted(level_codes, stop, side="right") + return slice(i, j, step) + + else: + idx = self._get_loc_single_level_index(level_index, key) + + if level > 0 or self._lexsort_depth == 0: + # Desired level is not sorted + if isinstance(idx, slice): + # test_get_loc_partial_timestamp_multiindex + locs = (level_codes >= idx.start) & (level_codes < idx.stop) + return locs + + locs = np.asarray(level_codes == idx, dtype=bool) + + if not locs.any(): + # The label is present in self.levels[level] but unused: + raise KeyError(key) + return locs + + if isinstance(idx, slice): + # e.g. test_partial_string_timestamp_multiindex + start = algos.searchsorted(level_codes, idx.start, side="left") + # NB: "left" here bc of slice semantics + end = algos.searchsorted(level_codes, idx.stop, side="left") + else: + start = algos.searchsorted(level_codes, idx, side="left") + end = algos.searchsorted(level_codes, idx, side="right") + + if start == end: + # The label is present in self.levels[level] but unused: + raise KeyError(key) + return slice(start, end) + + def get_locs(self, seq) -> npt.NDArray[np.intp]: + """ + Get location for a sequence of labels. + + Parameters + ---------- + seq : label, slice, list, mask or a sequence of such + You should use one of the above for each level. + If a level should not be used, set it to ``slice(None)``. + + Returns + ------- + numpy.ndarray + NumPy array of integers suitable for passing to iloc. + + See Also + -------- + MultiIndex.get_loc : Get location for a label or a tuple of labels. + MultiIndex.slice_locs : Get slice location given start label(s) and + end label(s). + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([list('abb'), list('def')]) + + >>> mi.get_locs('b') # doctest: +SKIP + array([1, 2], dtype=int64) + + >>> mi.get_locs([slice(None), ['e', 'f']]) # doctest: +SKIP + array([1, 2], dtype=int64) + + >>> mi.get_locs([[True, False, True], slice('e', 'f')]) # doctest: +SKIP + array([2], dtype=int64) + """ + + # must be lexsorted to at least as many levels + true_slices = [i for (i, s) in enumerate(com.is_true_slices(seq)) if s] + if true_slices and true_slices[-1] >= self._lexsort_depth: + raise UnsortedIndexError( + "MultiIndex slicing requires the index to be lexsorted: slicing " + f"on levels {true_slices}, lexsort depth {self._lexsort_depth}" + ) + + if any(x is Ellipsis for x in seq): + raise NotImplementedError( + "MultiIndex does not support indexing with Ellipsis" + ) + + n = len(self) + + def _to_bool_indexer(indexer) -> npt.NDArray[np.bool_]: + if isinstance(indexer, slice): + new_indexer = np.zeros(n, dtype=np.bool_) + new_indexer[indexer] = True + return new_indexer + return indexer + + # a bool indexer for the positions we want to take + indexer: npt.NDArray[np.bool_] | None = None + + for i, k in enumerate(seq): + lvl_indexer: npt.NDArray[np.bool_] | slice | None = None + + if com.is_bool_indexer(k): + if len(k) != n: + raise ValueError( + "cannot index with a boolean indexer that " + "is not the same length as the index" + ) + lvl_indexer = np.asarray(k) + if indexer is None: + lvl_indexer = lvl_indexer.copy() + + elif is_list_like(k): + # a collection of labels to include from this level (these are or'd) + + # GH#27591 check if this is a single tuple key in the level + try: + lvl_indexer = self._get_level_indexer(k, level=i, indexer=indexer) + except (InvalidIndexError, TypeError, KeyError) as err: + # InvalidIndexError e.g. non-hashable, fall back to treating + # this as a sequence of labels + # KeyError it can be ambiguous if this is a label or sequence + # of labels + # github.com/pandas-dev/pandas/issues/39424#issuecomment-871626708 + for x in k: + if not is_hashable(x): + # e.g. slice + raise err + # GH 39424: Ignore not founds + # GH 42351: No longer ignore not founds & enforced in 2.0 + # TODO: how to handle IntervalIndex level? (no test cases) + item_indexer = self._get_level_indexer( + x, level=i, indexer=indexer + ) + if lvl_indexer is None: + lvl_indexer = _to_bool_indexer(item_indexer) + elif isinstance(item_indexer, slice): + lvl_indexer[item_indexer] = True # type: ignore[index] + else: + lvl_indexer |= item_indexer + + if lvl_indexer is None: + # no matches we are done + # test_loc_getitem_duplicates_multiindex_empty_indexer + return np.array([], dtype=np.intp) + + elif com.is_null_slice(k): + # empty slice + if indexer is None and i == len(seq) - 1: + return np.arange(n, dtype=np.intp) + continue + + else: + # a slice or a single label + lvl_indexer = self._get_level_indexer(k, level=i, indexer=indexer) + + # update indexer + lvl_indexer = _to_bool_indexer(lvl_indexer) + if indexer is None: + indexer = lvl_indexer + else: + indexer &= lvl_indexer + if not np.any(indexer) and np.any(lvl_indexer): + raise KeyError(seq) + + # empty indexer + if indexer is None: + return np.array([], dtype=np.intp) + + pos_indexer = indexer.nonzero()[0] + return self._reorder_indexer(seq, pos_indexer) + + # -------------------------------------------------------------------- + + def _reorder_indexer( + self, + seq: tuple[Scalar | Iterable | AnyArrayLike, ...], + indexer: npt.NDArray[np.intp], + ) -> npt.NDArray[np.intp]: + """ + Reorder an indexer of a MultiIndex (self) so that the labels are in the + same order as given in seq + + Parameters + ---------- + seq : label/slice/list/mask or a sequence of such + indexer: a position indexer of self + + Returns + ------- + indexer : a sorted position indexer of self ordered as seq + """ + + # check if sorting is necessary + need_sort = False + for i, k in enumerate(seq): + if com.is_null_slice(k) or com.is_bool_indexer(k) or is_scalar(k): + pass + elif is_list_like(k): + if len(k) <= 1: # type: ignore[arg-type] + pass + elif self._is_lexsorted(): + # If the index is lexsorted and the list_like label + # in seq are sorted then we do not need to sort + k_codes = self.levels[i].get_indexer(k) + k_codes = k_codes[k_codes >= 0] # Filter absent keys + # True if the given codes are not ordered + need_sort = (k_codes[:-1] > k_codes[1:]).any() + else: + need_sort = True + elif isinstance(k, slice): + if self._is_lexsorted(): + need_sort = k.step is not None and k.step < 0 + else: + need_sort = True + else: + need_sort = True + if need_sort: + break + if not need_sort: + return indexer + + n = len(self) + keys: tuple[np.ndarray, ...] = () + # For each level of the sequence in seq, map the level codes with the + # order they appears in a list-like sequence + # This mapping is then use to reorder the indexer + for i, k in enumerate(seq): + if is_scalar(k): + # GH#34603 we want to treat a scalar the same as an all equal list + k = [k] + if com.is_bool_indexer(k): + new_order = np.arange(n)[indexer] + elif is_list_like(k): + # Generate a map with all level codes as sorted initially + if not isinstance(k, (np.ndarray, ExtensionArray, Index, ABCSeries)): + k = sanitize_array(k, None) + k = algos.unique(k) + key_order_map = np.ones(len(self.levels[i]), dtype=np.uint64) * len( + self.levels[i] + ) + # Set order as given in the indexer list + level_indexer = self.levels[i].get_indexer(k) + level_indexer = level_indexer[level_indexer >= 0] # Filter absent keys + key_order_map[level_indexer] = np.arange(len(level_indexer)) + + new_order = key_order_map[self.codes[i][indexer]] + elif isinstance(k, slice) and k.step is not None and k.step < 0: + # flip order for negative step + new_order = np.arange(n)[::-1][indexer] + elif isinstance(k, slice) and k.start is None and k.stop is None: + # slice(None) should not determine order GH#31330 + new_order = np.ones((n,), dtype=np.intp)[indexer] + else: + # For all other case, use the same order as the level + new_order = np.arange(n)[indexer] + keys = (new_order,) + keys + + # Find the reordering using lexsort on the keys mapping + ind = np.lexsort(keys) + return indexer[ind] + + def truncate(self, before=None, after=None) -> MultiIndex: + """ + Slice index between two labels / tuples, return new MultiIndex. + + Parameters + ---------- + before : label or tuple, can be partial. Default None + None defaults to start. + after : label or tuple, can be partial. Default None + None defaults to end. + + Returns + ------- + MultiIndex + The truncated MultiIndex. + + Examples + -------- + >>> mi = pd.MultiIndex.from_arrays([['a', 'b', 'c'], ['x', 'y', 'z']]) + >>> mi + MultiIndex([('a', 'x'), ('b', 'y'), ('c', 'z')], + ) + >>> mi.truncate(before='a', after='b') + MultiIndex([('a', 'x'), ('b', 'y')], + ) + """ + if after and before and after < before: + raise ValueError("after < before") + + i, j = self.levels[0].slice_locs(before, after) + left, right = self.slice_locs(before, after) + + new_levels = list(self.levels) + new_levels[0] = new_levels[0][i:j] + + new_codes = [level_codes[left:right] for level_codes in self.codes] + new_codes[0] = new_codes[0] - i + + return MultiIndex( + levels=new_levels, + codes=new_codes, + names=self._names, + verify_integrity=False, + ) + + def equals(self, other: object) -> bool: + """ + Determines if two MultiIndex objects have the same labeling information + (the levels themselves do not necessarily have to be the same) + + See Also + -------- + equal_levels + """ + if self.is_(other): + return True + + if not isinstance(other, Index): + return False + + if len(self) != len(other): + return False + + if not isinstance(other, MultiIndex): + # d-level MultiIndex can equal d-tuple Index + if not self._should_compare(other): + # object Index or Categorical[object] may contain tuples + return False + return array_equivalent(self._values, other._values) + + if self.nlevels != other.nlevels: + return False + + for i in range(self.nlevels): + self_codes = self.codes[i] + other_codes = other.codes[i] + self_mask = self_codes == -1 + other_mask = other_codes == -1 + if not np.array_equal(self_mask, other_mask): + return False + self_codes = self_codes[~self_mask] + self_values = self.levels[i]._values.take(self_codes) + + other_codes = other_codes[~other_mask] + other_values = other.levels[i]._values.take(other_codes) + + # since we use NaT both datetime64 and timedelta64 we can have a + # situation where a level is typed say timedelta64 in self (IOW it + # has other values than NaT) but types datetime64 in other (where + # its all NaT) but these are equivalent + if len(self_values) == 0 and len(other_values) == 0: + continue + + if not isinstance(self_values, np.ndarray): + # i.e. ExtensionArray + if not self_values.equals(other_values): + return False + elif not isinstance(other_values, np.ndarray): + # i.e. other is ExtensionArray + if not other_values.equals(self_values): + return False + else: + if not array_equivalent(self_values, other_values): + return False + + return True + + def equal_levels(self, other: MultiIndex) -> bool: + """ + Return True if the levels of both MultiIndex objects are the same + + """ + if self.nlevels != other.nlevels: + return False + + for i in range(self.nlevels): + if not self.levels[i].equals(other.levels[i]): + return False + return True + + # -------------------------------------------------------------------- + # Set Methods + + def _union(self, other, sort) -> MultiIndex: + other, result_names = self._convert_can_do_setop(other) + if other.has_duplicates: + # This is only necessary if other has dupes, + # otherwise difference is faster + result = super()._union(other, sort) + + if isinstance(result, MultiIndex): + return result + return MultiIndex.from_arrays( + zip(*result), sortorder=None, names=result_names + ) + + else: + right_missing = other.difference(self, sort=False) + if len(right_missing): + result = self.append(right_missing) + else: + result = self._get_reconciled_name_object(other) + + if sort is not False: + try: + result = result.sort_values() + except TypeError: + if sort is True: + raise + warnings.warn( + "The values in the array are unorderable. " + "Pass `sort=False` to suppress this warning.", + RuntimeWarning, + stacklevel=find_stack_level(), + ) + return result + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + return is_object_dtype(dtype) + + def _get_reconciled_name_object(self, other) -> MultiIndex: + """ + If the result of a set operation will be self, + return self, unless the names change, in which + case make a shallow copy of self. + """ + names = self._maybe_match_names(other) + if self.names != names: + # error: Cannot determine type of "rename" + return self.rename(names) # type: ignore[has-type] + return self + + def _maybe_match_names(self, other): + """ + Try to find common names to attach to the result of an operation between + a and b. Return a consensus list of names if they match at least partly + or list of None if they have completely different names. + """ + if len(self.names) != len(other.names): + return [None] * len(self.names) + names = [] + for a_name, b_name in zip(self.names, other.names): + if a_name == b_name: + names.append(a_name) + else: + # TODO: what if they both have np.nan for their names? + names.append(None) + return names + + def _wrap_intersection_result(self, other, result) -> MultiIndex: + _, result_names = self._convert_can_do_setop(other) + return result.set_names(result_names) + + def _wrap_difference_result(self, other, result: MultiIndex) -> MultiIndex: + _, result_names = self._convert_can_do_setop(other) + + if len(result) == 0: + return result.remove_unused_levels().set_names(result_names) + else: + return result.set_names(result_names) + + def _convert_can_do_setop(self, other): + result_names = self.names + + if not isinstance(other, Index): + if len(other) == 0: + return self[:0], self.names + else: + msg = "other must be a MultiIndex or a list of tuples" + try: + other = MultiIndex.from_tuples(other, names=self.names) + except (ValueError, TypeError) as err: + # ValueError raised by tuples_to_object_array if we + # have non-object dtype + raise TypeError(msg) from err + else: + result_names = get_unanimous_names(self, other) + + return other, result_names + + # -------------------------------------------------------------------- + + @doc(Index.astype) + def astype(self, dtype, copy: bool = True): + dtype = pandas_dtype(dtype) + if isinstance(dtype, CategoricalDtype): + msg = "> 1 ndim Categorical are not supported at this time" + raise NotImplementedError(msg) + if not is_object_dtype(dtype): + raise TypeError( + "Setting a MultiIndex dtype to anything other than object " + "is not supported" + ) + if copy is True: + return self._view() + return self + + def _validate_fill_value(self, item): + if isinstance(item, MultiIndex): + # GH#43212 + if item.nlevels != self.nlevels: + raise ValueError("Item must have length equal to number of levels.") + return item._values + elif not isinstance(item, tuple): + # Pad the key with empty strings if lower levels of the key + # aren't specified: + item = (item,) + ("",) * (self.nlevels - 1) + elif len(item) != self.nlevels: + raise ValueError("Item must have length equal to number of levels.") + return item + + def putmask(self, mask, value: MultiIndex) -> MultiIndex: + """ + Return a new MultiIndex of the values set with the mask. + + Parameters + ---------- + mask : array like + value : MultiIndex + Must either be the same length as self or length one + + Returns + ------- + MultiIndex + """ + mask, noop = validate_putmask(self, mask) + if noop: + return self.copy() + + if len(mask) == len(value): + subset = value[mask].remove_unused_levels() + else: + subset = value.remove_unused_levels() + + new_levels = [] + new_codes = [] + + for i, (value_level, level, level_codes) in enumerate( + zip(subset.levels, self.levels, self.codes) + ): + new_level = level.union(value_level, sort=False) + value_codes = new_level.get_indexer_for(subset.get_level_values(i)) + new_code = ensure_int64(level_codes) + new_code[mask] = value_codes + new_levels.append(new_level) + new_codes.append(new_code) + + return MultiIndex( + levels=new_levels, codes=new_codes, names=self.names, verify_integrity=False + ) + + def insert(self, loc: int, item) -> MultiIndex: + """ + Make new MultiIndex inserting new item at location + + Parameters + ---------- + loc : int + item : tuple + Must be same length as number of levels in the MultiIndex + + Returns + ------- + new_index : Index + """ + item = self._validate_fill_value(item) + + new_levels = [] + new_codes = [] + for k, level, level_codes in zip(item, self.levels, self.codes): + if k not in level: + # have to insert into level + # must insert at end otherwise you have to recompute all the + # other codes + lev_loc = len(level) + level = level.insert(lev_loc, k) + else: + lev_loc = level.get_loc(k) + + new_levels.append(level) + new_codes.append(np.insert(ensure_int64(level_codes), loc, lev_loc)) + + return MultiIndex( + levels=new_levels, codes=new_codes, names=self.names, verify_integrity=False + ) + + def delete(self, loc) -> MultiIndex: + """ + Make new index with passed location deleted + + Returns + ------- + new_index : MultiIndex + """ + new_codes = [np.delete(level_codes, loc) for level_codes in self.codes] + return MultiIndex( + levels=self.levels, + codes=new_codes, + names=self.names, + verify_integrity=False, + ) + + @doc(Index.isin) + def isin(self, values, level=None) -> npt.NDArray[np.bool_]: + if isinstance(values, Generator): + values = list(values) + + if level is None: + if len(values) == 0: + return np.zeros((len(self),), dtype=np.bool_) + if not isinstance(values, MultiIndex): + values = MultiIndex.from_tuples(values) + return values.unique().get_indexer_for(self) != -1 + else: + num = self._get_level_number(level) + levs = self.get_level_values(num) + + if levs.size == 0: + return np.zeros(len(levs), dtype=np.bool_) + return levs.isin(values) + + # error: Incompatible types in assignment (expression has type overloaded function, + # base class "Index" defined the type as "Callable[[Index, Any, bool], Any]") + rename = Index.set_names # type: ignore[assignment] + + # --------------------------------------------------------------- + # Arithmetic/Numeric Methods - Disabled + + __add__ = make_invalid_op("__add__") + __radd__ = make_invalid_op("__radd__") + __iadd__ = make_invalid_op("__iadd__") + __sub__ = make_invalid_op("__sub__") + __rsub__ = make_invalid_op("__rsub__") + __isub__ = make_invalid_op("__isub__") + __pow__ = make_invalid_op("__pow__") + __rpow__ = make_invalid_op("__rpow__") + __mul__ = make_invalid_op("__mul__") + __rmul__ = make_invalid_op("__rmul__") + __floordiv__ = make_invalid_op("__floordiv__") + __rfloordiv__ = make_invalid_op("__rfloordiv__") + __truediv__ = make_invalid_op("__truediv__") + __rtruediv__ = make_invalid_op("__rtruediv__") + __mod__ = make_invalid_op("__mod__") + __rmod__ = make_invalid_op("__rmod__") + __divmod__ = make_invalid_op("__divmod__") + __rdivmod__ = make_invalid_op("__rdivmod__") + # Unary methods disabled + __neg__ = make_invalid_op("__neg__") + __pos__ = make_invalid_op("__pos__") + __abs__ = make_invalid_op("__abs__") + __invert__ = make_invalid_op("__invert__") + + +def _lexsort_depth(codes: list[np.ndarray], nlevels: int) -> int: + """Count depth (up to a maximum of `nlevels`) with which codes are lexsorted.""" + int64_codes = [ensure_int64(level_codes) for level_codes in codes] + for k in range(nlevels, 0, -1): + if libalgos.is_lexsorted(int64_codes[:k]): + return k + return 0 + + +def sparsify_labels(label_list, start: int = 0, sentinel: object = ""): + pivoted = list(zip(*label_list)) + k = len(label_list) + + result = pivoted[: start + 1] + prev = pivoted[start] + + for cur in pivoted[start + 1 :]: + sparse_cur = [] + + for i, (p, t) in enumerate(zip(prev, cur)): + if i == k - 1: + sparse_cur.append(t) + # error: Argument 1 to "append" of "list" has incompatible + # type "list[Any]"; expected "tuple[Any, ...]" + result.append(sparse_cur) # type: ignore[arg-type] + break + + if p == t: + sparse_cur.append(sentinel) + else: + sparse_cur.extend(cur[i:]) + # error: Argument 1 to "append" of "list" has incompatible + # type "list[Any]"; expected "tuple[Any, ...]" + result.append(sparse_cur) # type: ignore[arg-type] + break + + prev = cur + + return list(zip(*result)) + + +def _get_na_rep(dtype: DtypeObj) -> str: + if isinstance(dtype, ExtensionDtype): + return f"{dtype.na_value}" + else: + dtype_type = dtype.type + + return {np.datetime64: "NaT", np.timedelta64: "NaT"}.get(dtype_type, "NaN") + + +def maybe_droplevels(index: Index, key) -> Index: + """ + Attempt to drop level or levels from the given index. + + Parameters + ---------- + index: Index + key : scalar or tuple + + Returns + ------- + Index + """ + # drop levels + original_index = index + if isinstance(key, tuple): + # Caller is responsible for ensuring the key is not an entry in the first + # level of the MultiIndex. + for _ in key: + try: + index = index._drop_level_numbers([0]) + except ValueError: + # we have dropped too much, so back out + return original_index + else: + try: + index = index._drop_level_numbers([0]) + except ValueError: + pass + + return index + + +def _coerce_indexer_frozen(array_like, categories, copy: bool = False) -> np.ndarray: + """ + Coerce the array-like indexer to the smallest integer dtype that can encode all + of the given categories. + + Parameters + ---------- + array_like : array-like + categories : array-like + copy : bool + + Returns + ------- + np.ndarray + Non-writeable. + """ + array_like = coerce_indexer_dtype(array_like, categories) + if copy: + array_like = array_like.copy() + array_like.flags.writeable = False + return array_like + + +def _require_listlike(level, arr, arrname: str): + """ + Ensure that level is either None or listlike, and arr is list-of-listlike. + """ + if level is not None and not is_list_like(level): + if not is_list_like(arr): + raise TypeError(f"{arrname} must be list-like") + if len(arr) > 0 and is_list_like(arr[0]): + raise TypeError(f"{arrname} must be list-like") + level = [level] + arr = [arr] + elif level is None or is_list_like(level): + if not is_list_like(arr) or not is_list_like(arr[0]): + raise TypeError(f"{arrname} must be list of lists-like") + return level, arr diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/period.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/period.py new file mode 100644 index 0000000000000000000000000000000000000000..b2f1933800fd383df9dc52a211b54190985fc32e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/period.py @@ -0,0 +1,614 @@ +from __future__ import annotations + +from datetime import ( + datetime, + timedelta, +) +from typing import TYPE_CHECKING +import warnings + +import numpy as np + +from pandas._libs import index as libindex +from pandas._libs.tslibs import ( + BaseOffset, + NaT, + Period, + Resolution, + Tick, +) +from pandas._libs.tslibs.dtypes import OFFSET_TO_PERIOD_FREQSTR +from pandas.util._decorators import ( + cache_readonly, + doc, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import is_integer +from pandas.core.dtypes.dtypes import PeriodDtype +from pandas.core.dtypes.generic import ABCSeries +from pandas.core.dtypes.missing import is_valid_na_for_dtype + +from pandas.core.arrays.period import ( + PeriodArray, + period_array, + raise_on_incompatible, + validate_dtype_freq, +) +import pandas.core.common as com +import pandas.core.indexes.base as ibase +from pandas.core.indexes.base import maybe_extract_name +from pandas.core.indexes.datetimelike import DatetimeIndexOpsMixin +from pandas.core.indexes.datetimes import ( + DatetimeIndex, + Index, +) +from pandas.core.indexes.extension import inherit_names + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import ( + Dtype, + DtypeObj, + Self, + npt, + ) + + +_index_doc_kwargs = dict(ibase._index_doc_kwargs) +_index_doc_kwargs.update({"target_klass": "PeriodIndex or list of Periods"}) +_shared_doc_kwargs = { + "klass": "PeriodArray", +} + +# --- Period index sketch + + +def _new_PeriodIndex(cls, **d): + # GH13277 for unpickling + values = d.pop("data") + if values.dtype == "int64": + freq = d.pop("freq", None) + dtype = PeriodDtype(freq) + values = PeriodArray(values, dtype=dtype) + return cls._simple_new(values, **d) + else: + return cls(values, **d) + + +@inherit_names( + ["strftime", "start_time", "end_time"] + PeriodArray._field_ops, + PeriodArray, + wrap=True, +) +@inherit_names(["is_leap_year"], PeriodArray) +class PeriodIndex(DatetimeIndexOpsMixin): + """ + Immutable ndarray holding ordinal values indicating regular periods in time. + + Index keys are boxed to Period objects which carries the metadata (eg, + frequency information). + + Parameters + ---------- + data : array-like (1d int np.ndarray or PeriodArray), optional + Optional period-like data to construct index with. + copy : bool + Make a copy of input ndarray. + freq : str or period object, optional + One of pandas period strings or corresponding objects. + year : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + month : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + quarter : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + day : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + hour : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + minute : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + second : int, array, or Series, default None + + .. deprecated:: 2.2.0 + Use PeriodIndex.from_fields instead. + dtype : str or PeriodDtype, default None + + Attributes + ---------- + day + dayofweek + day_of_week + dayofyear + day_of_year + days_in_month + daysinmonth + end_time + freq + freqstr + hour + is_leap_year + minute + month + quarter + qyear + second + start_time + week + weekday + weekofyear + year + + Methods + ------- + asfreq + strftime + to_timestamp + from_fields + from_ordinals + + See Also + -------- + Index : The base pandas Index type. + Period : Represents a period of time. + DatetimeIndex : Index with datetime64 data. + TimedeltaIndex : Index of timedelta64 data. + period_range : Create a fixed-frequency PeriodIndex. + + Examples + -------- + >>> idx = pd.PeriodIndex.from_fields(year=[2000, 2002], quarter=[1, 3]) + >>> idx + PeriodIndex(['2000Q1', '2002Q3'], dtype='period[Q-DEC]') + """ + + _typ = "periodindex" + + _data: PeriodArray + freq: BaseOffset + dtype: PeriodDtype + + _data_cls = PeriodArray + _supports_partial_string_indexing = True + + @property + def _engine_type(self) -> type[libindex.PeriodEngine]: + return libindex.PeriodEngine + + @cache_readonly + def _resolution_obj(self) -> Resolution: + # for compat with DatetimeIndex + return self.dtype._resolution_obj + + # -------------------------------------------------------------------- + # methods that dispatch to array and wrap result in Index + # These are defined here instead of via inherit_names for mypy + + @doc( + PeriodArray.asfreq, + other="pandas.arrays.PeriodArray", + other_name="PeriodArray", + **_shared_doc_kwargs, + ) + def asfreq(self, freq=None, how: str = "E") -> Self: + arr = self._data.asfreq(freq, how) + return type(self)._simple_new(arr, name=self.name) + + @doc(PeriodArray.to_timestamp) + def to_timestamp(self, freq=None, how: str = "start") -> DatetimeIndex: + arr = self._data.to_timestamp(freq, how) + return DatetimeIndex._simple_new(arr, name=self.name) + + @property + @doc(PeriodArray.hour.fget) + def hour(self) -> Index: + return Index(self._data.hour, name=self.name) + + @property + @doc(PeriodArray.minute.fget) + def minute(self) -> Index: + return Index(self._data.minute, name=self.name) + + @property + @doc(PeriodArray.second.fget) + def second(self) -> Index: + return Index(self._data.second, name=self.name) + + # ------------------------------------------------------------------------ + # Index Constructors + + def __new__( + cls, + data=None, + ordinal=None, + freq=None, + dtype: Dtype | None = None, + copy: bool = False, + name: Hashable | None = None, + **fields, + ) -> Self: + valid_field_set = { + "year", + "month", + "day", + "quarter", + "hour", + "minute", + "second", + } + + refs = None + if not copy and isinstance(data, (Index, ABCSeries)): + refs = data._references + + if not set(fields).issubset(valid_field_set): + argument = next(iter(set(fields) - valid_field_set)) + raise TypeError(f"__new__() got an unexpected keyword argument {argument}") + elif len(fields): + # GH#55960 + warnings.warn( + "Constructing PeriodIndex from fields is deprecated. Use " + "PeriodIndex.from_fields instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if ordinal is not None: + # GH#55960 + warnings.warn( + "The 'ordinal' keyword in PeriodIndex is deprecated and will " + "be removed in a future version. Use PeriodIndex.from_ordinals " + "instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + name = maybe_extract_name(name, data, cls) + + if data is None and ordinal is None: + # range-based. + if not fields: + # test_pickle_compat_construction + cls._raise_scalar_data_error(None) + data = cls.from_fields(**fields, freq=freq)._data + copy = False + + elif fields: + if data is not None: + raise ValueError("Cannot pass both data and fields") + raise ValueError("Cannot pass both ordinal and fields") + + else: + freq = validate_dtype_freq(dtype, freq) + + # PeriodIndex allow PeriodIndex(period_index, freq=different) + # Let's not encourage that kind of behavior in PeriodArray. + + if freq and isinstance(data, cls) and data.freq != freq: + # TODO: We can do some of these with no-copy / coercion? + # e.g. D -> 2D seems to be OK + data = data.asfreq(freq) + + if data is None and ordinal is not None: + ordinal = np.asarray(ordinal, dtype=np.int64) + dtype = PeriodDtype(freq) + data = PeriodArray(ordinal, dtype=dtype) + elif data is not None and ordinal is not None: + raise ValueError("Cannot pass both data and ordinal") + else: + # don't pass copy here, since we copy later. + data = period_array(data=data, freq=freq) + + if copy: + data = data.copy() + + return cls._simple_new(data, name=name, refs=refs) + + @classmethod + def from_fields( + cls, + *, + year=None, + quarter=None, + month=None, + day=None, + hour=None, + minute=None, + second=None, + freq=None, + ) -> Self: + fields = { + "year": year, + "quarter": quarter, + "month": month, + "day": day, + "hour": hour, + "minute": minute, + "second": second, + } + fields = {key: value for key, value in fields.items() if value is not None} + arr = PeriodArray._from_fields(fields=fields, freq=freq) + return cls._simple_new(arr) + + @classmethod + def from_ordinals(cls, ordinals, *, freq, name=None) -> Self: + ordinals = np.asarray(ordinals, dtype=np.int64) + dtype = PeriodDtype(freq) + data = PeriodArray._simple_new(ordinals, dtype=dtype) + return cls._simple_new(data, name=name) + + # ------------------------------------------------------------------------ + # Data + + @property + def values(self) -> npt.NDArray[np.object_]: + return np.asarray(self, dtype=object) + + def _maybe_convert_timedelta(self, other) -> int | npt.NDArray[np.int64]: + """ + Convert timedelta-like input to an integer multiple of self.freq + + Parameters + ---------- + other : timedelta, np.timedelta64, DateOffset, int, np.ndarray + + Returns + ------- + converted : int, np.ndarray[int64] + + Raises + ------ + IncompatibleFrequency : if the input cannot be written as a multiple + of self.freq. Note IncompatibleFrequency subclasses ValueError. + """ + if isinstance(other, (timedelta, np.timedelta64, Tick, np.ndarray)): + if isinstance(self.freq, Tick): + # _check_timedeltalike_freq_compat will raise if incompatible + delta = self._data._check_timedeltalike_freq_compat(other) + return delta + elif isinstance(other, BaseOffset): + if other.base == self.freq.base: + return other.n + + raise raise_on_incompatible(self, other) + elif is_integer(other): + assert isinstance(other, int) + return other + + # raise when input doesn't have freq + raise raise_on_incompatible(self, None) + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + """ + Can we compare values of the given dtype to our own? + """ + return self.dtype == dtype + + # ------------------------------------------------------------------------ + # Index Methods + + def asof_locs(self, where: Index, mask: npt.NDArray[np.bool_]) -> np.ndarray: + """ + where : array of timestamps + mask : np.ndarray[bool] + Array of booleans where data is not NA. + """ + if isinstance(where, DatetimeIndex): + where = PeriodIndex(where._values, freq=self.freq) + elif not isinstance(where, PeriodIndex): + raise TypeError("asof_locs `where` must be DatetimeIndex or PeriodIndex") + + return super().asof_locs(where, mask) + + @property + def is_full(self) -> bool: + """ + Returns True if this PeriodIndex is range-like in that all Periods + between start and end are present, in order. + """ + if len(self) == 0: + return True + if not self.is_monotonic_increasing: + raise ValueError("Index is not monotonic") + values = self.asi8 + return bool(((values[1:] - values[:-1]) < 2).all()) + + @property + def inferred_type(self) -> str: + # b/c data is represented as ints make sure we can't have ambiguous + # indexing + return "period" + + # ------------------------------------------------------------------------ + # Indexing Methods + + def _convert_tolerance(self, tolerance, target): + # Returned tolerance must be in dtype/units so that + # `|self._get_engine_target() - target._engine_target()| <= tolerance` + # is meaningful. Since PeriodIndex returns int64 for engine_target, + # we may need to convert timedelta64 tolerance to int64. + tolerance = super()._convert_tolerance(tolerance, target) + + if self.dtype == target.dtype: + # convert tolerance to i8 + tolerance = self._maybe_convert_timedelta(tolerance) + + return tolerance + + def get_loc(self, key): + """ + Get integer location for requested label. + + Parameters + ---------- + key : Period, NaT, str, or datetime + String or datetime key must be parsable as Period. + + Returns + ------- + loc : int or ndarray[int64] + + Raises + ------ + KeyError + Key is not present in the index. + TypeError + If key is listlike or otherwise not hashable. + """ + orig_key = key + + self._check_indexing_error(key) + + if is_valid_na_for_dtype(key, self.dtype): + key = NaT + + elif isinstance(key, str): + try: + parsed, reso = self._parse_with_reso(key) + except ValueError as err: + # A string with invalid format + raise KeyError(f"Cannot interpret '{key}' as period") from err + + if self._can_partial_date_slice(reso): + try: + return self._partial_date_slice(reso, parsed) + except KeyError as err: + raise KeyError(key) from err + + if reso == self._resolution_obj: + # the reso < self._resolution_obj case goes + # through _get_string_slice + key = self._cast_partial_indexing_scalar(parsed) + else: + raise KeyError(key) + + elif isinstance(key, Period): + self._disallow_mismatched_indexing(key) + + elif isinstance(key, datetime): + key = self._cast_partial_indexing_scalar(key) + + else: + # in particular integer, which Period constructor would cast to string + raise KeyError(key) + + try: + return Index.get_loc(self, key) + except KeyError as err: + raise KeyError(orig_key) from err + + def _disallow_mismatched_indexing(self, key: Period) -> None: + if key._dtype != self.dtype: + raise KeyError(key) + + def _cast_partial_indexing_scalar(self, label: datetime) -> Period: + try: + period = Period(label, freq=self.freq) + except ValueError as err: + # we cannot construct the Period + raise KeyError(label) from err + return period + + @doc(DatetimeIndexOpsMixin._maybe_cast_slice_bound) + def _maybe_cast_slice_bound(self, label, side: str): + if isinstance(label, datetime): + label = self._cast_partial_indexing_scalar(label) + + return super()._maybe_cast_slice_bound(label, side) + + def _parsed_string_to_bounds(self, reso: Resolution, parsed: datetime): + freq = OFFSET_TO_PERIOD_FREQSTR.get(reso.attr_abbrev, reso.attr_abbrev) + iv = Period(parsed, freq=freq) + return (iv.asfreq(self.freq, how="start"), iv.asfreq(self.freq, how="end")) + + @doc(DatetimeIndexOpsMixin.shift) + def shift(self, periods: int = 1, freq=None) -> Self: + if freq is not None: + raise TypeError( + f"`freq` argument is not supported for {type(self).__name__}.shift" + ) + return self + periods + + +def period_range( + start=None, + end=None, + periods: int | None = None, + freq=None, + name: Hashable | None = None, +) -> PeriodIndex: + """ + Return a fixed frequency PeriodIndex. + + The day (calendar) is the default frequency. + + Parameters + ---------- + start : str, datetime, date, pandas.Timestamp, or period-like, default None + Left bound for generating periods. + end : str, datetime, date, pandas.Timestamp, or period-like, default None + Right bound for generating periods. + periods : int, default None + Number of periods to generate. + freq : str or DateOffset, optional + Frequency alias. By default the freq is taken from `start` or `end` + if those are Period objects. Otherwise, the default is ``"D"`` for + daily frequency. + name : str, default None + Name of the resulting PeriodIndex. + + Returns + ------- + PeriodIndex + + Notes + ----- + Of the three parameters: ``start``, ``end``, and ``periods``, exactly two + must be specified. + + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + >>> pd.period_range(start='2017-01-01', end='2018-01-01', freq='M') + PeriodIndex(['2017-01', '2017-02', '2017-03', '2017-04', '2017-05', '2017-06', + '2017-07', '2017-08', '2017-09', '2017-10', '2017-11', '2017-12', + '2018-01'], + dtype='period[M]') + + If ``start`` or ``end`` are ``Period`` objects, they will be used as anchor + endpoints for a ``PeriodIndex`` with frequency matching that of the + ``period_range`` constructor. + + >>> pd.period_range(start=pd.Period('2017Q1', freq='Q'), + ... end=pd.Period('2017Q2', freq='Q'), freq='M') + PeriodIndex(['2017-03', '2017-04', '2017-05', '2017-06'], + dtype='period[M]') + """ + if com.count_not_none(start, end, periods) != 2: + raise ValueError( + "Of the three parameters: start, end, and periods, " + "exactly two must be specified" + ) + if freq is None and (not isinstance(start, Period) and not isinstance(end, Period)): + freq = "D" + + data, freq = PeriodArray._generate_range(start, end, periods, freq) + dtype = PeriodDtype(freq) + data = PeriodArray(data, dtype=dtype) + return PeriodIndex(data, name=name) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/range.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/range.py new file mode 100644 index 0000000000000000000000000000000000000000..62afcf8badb50d95f2cc006bf8d89e79f6fe8615 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/range.py @@ -0,0 +1,1187 @@ +from __future__ import annotations + +from collections.abc import ( + Hashable, + Iterator, +) +from datetime import timedelta +import operator +from sys import getsizeof +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, + overload, +) + +import numpy as np + +from pandas._libs import ( + index as libindex, + lib, +) +from pandas._libs.algos import unique_deltas +from pandas._libs.lib import no_default +from pandas.compat.numpy import function as nv +from pandas.util._decorators import ( + cache_readonly, + deprecate_nonkeyword_arguments, + doc, +) + +from pandas.core.dtypes.common import ( + ensure_platform_int, + ensure_python_int, + is_float, + is_integer, + is_scalar, + is_signed_integer_dtype, +) +from pandas.core.dtypes.generic import ABCTimedeltaIndex + +from pandas.core import ops +import pandas.core.common as com +from pandas.core.construction import extract_array +import pandas.core.indexes.base as ibase +from pandas.core.indexes.base import ( + Index, + maybe_extract_name, +) +from pandas.core.ops.common import unpack_zerodim_and_defer + +if TYPE_CHECKING: + from pandas._typing import ( + Axis, + Dtype, + NaPosition, + Self, + npt, + ) +_empty_range = range(0) +_dtype_int64 = np.dtype(np.int64) + + +class RangeIndex(Index): + """ + Immutable Index implementing a monotonic integer range. + + RangeIndex is a memory-saving special case of an Index limited to representing + monotonic ranges with a 64-bit dtype. Using RangeIndex may in some instances + improve computing speed. + + This is the default index type used + by DataFrame and Series when no explicit index is provided by the user. + + Parameters + ---------- + start : int (default: 0), range, or other RangeIndex instance + If int and "stop" is not given, interpreted as "stop" instead. + stop : int (default: 0) + step : int (default: 1) + dtype : np.int64 + Unused, accepted for homogeneity with other index types. + copy : bool, default False + Unused, accepted for homogeneity with other index types. + name : object, optional + Name to be stored in the index. + + Attributes + ---------- + start + stop + step + + Methods + ------- + from_range + + See Also + -------- + Index : The base pandas Index type. + + Examples + -------- + >>> list(pd.RangeIndex(5)) + [0, 1, 2, 3, 4] + + >>> list(pd.RangeIndex(-2, 4)) + [-2, -1, 0, 1, 2, 3] + + >>> list(pd.RangeIndex(0, 10, 2)) + [0, 2, 4, 6, 8] + + >>> list(pd.RangeIndex(2, -10, -3)) + [2, -1, -4, -7] + + >>> list(pd.RangeIndex(0)) + [] + + >>> list(pd.RangeIndex(1, 0)) + [] + """ + + _typ = "rangeindex" + _dtype_validation_metadata = (is_signed_integer_dtype, "signed integer") + _range: range + _values: np.ndarray + + @property + def _engine_type(self) -> type[libindex.Int64Engine]: + return libindex.Int64Engine + + # -------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + start=None, + stop=None, + step=None, + dtype: Dtype | None = None, + copy: bool = False, + name: Hashable | None = None, + ) -> Self: + cls._validate_dtype(dtype) + name = maybe_extract_name(name, start, cls) + + # RangeIndex + if isinstance(start, cls): + return start.copy(name=name) + elif isinstance(start, range): + return cls._simple_new(start, name=name) + + # validate the arguments + if com.all_none(start, stop, step): + raise TypeError("RangeIndex(...) must be called with integers") + + start = ensure_python_int(start) if start is not None else 0 + + if stop is None: + start, stop = 0, start + else: + stop = ensure_python_int(stop) + + step = ensure_python_int(step) if step is not None else 1 + if step == 0: + raise ValueError("Step must not be zero") + + rng = range(start, stop, step) + return cls._simple_new(rng, name=name) + + @classmethod + def from_range(cls, data: range, name=None, dtype: Dtype | None = None) -> Self: + """ + Create :class:`pandas.RangeIndex` from a ``range`` object. + + Returns + ------- + RangeIndex + + Examples + -------- + >>> pd.RangeIndex.from_range(range(5)) + RangeIndex(start=0, stop=5, step=1) + + >>> pd.RangeIndex.from_range(range(2, -10, -3)) + RangeIndex(start=2, stop=-10, step=-3) + """ + if not isinstance(data, range): + raise TypeError( + f"{cls.__name__}(...) must be called with object coercible to a " + f"range, {repr(data)} was passed" + ) + cls._validate_dtype(dtype) + return cls._simple_new(data, name=name) + + # error: Argument 1 of "_simple_new" is incompatible with supertype "Index"; + # supertype defines the argument type as + # "Union[ExtensionArray, ndarray[Any, Any]]" [override] + @classmethod + def _simple_new( # type: ignore[override] + cls, values: range, name: Hashable | None = None + ) -> Self: + result = object.__new__(cls) + + assert isinstance(values, range) + + result._range = values + result._name = name + result._cache = {} + result._reset_identity() + result._references = None + return result + + @classmethod + def _validate_dtype(cls, dtype: Dtype | None) -> None: + if dtype is None: + return + + validation_func, expected = cls._dtype_validation_metadata + if not validation_func(dtype): + raise ValueError( + f"Incorrect `dtype` passed: expected {expected}, received {dtype}" + ) + + # -------------------------------------------------------------------- + + # error: Return type "Type[Index]" of "_constructor" incompatible with return + # type "Type[RangeIndex]" in supertype "Index" + @cache_readonly + def _constructor(self) -> type[Index]: # type: ignore[override] + """return the class to use for construction""" + return Index + + # error: Signature of "_data" incompatible with supertype "Index" + @cache_readonly + def _data(self) -> np.ndarray: # type: ignore[override] + """ + An int array that for performance reasons is created only when needed. + + The constructed array is saved in ``_cache``. + """ + return np.arange(self.start, self.stop, self.step, dtype=np.int64) + + def _get_data_as_items(self) -> list[tuple[str, int]]: + """return a list of tuples of start, stop, step""" + rng = self._range + return [("start", rng.start), ("stop", rng.stop), ("step", rng.step)] + + def __reduce__(self): + d = {"name": self._name} + d.update(dict(self._get_data_as_items())) + return ibase._new_Index, (type(self), d), None + + # -------------------------------------------------------------------- + # Rendering Methods + + def _format_attrs(self): + """ + Return a list of tuples of the (attr, formatted_value) + """ + attrs = cast("list[tuple[str, str | int]]", self._get_data_as_items()) + if self._name is not None: + attrs.append(("name", ibase.default_pprint(self._name))) + return attrs + + def _format_with_header(self, *, header: list[str], na_rep: str) -> list[str]: + # Equivalent to Index implementation, but faster + if not len(self._range): + return header + first_val_str = str(self._range[0]) + last_val_str = str(self._range[-1]) + max_length = max(len(first_val_str), len(last_val_str)) + + return header + [f"{x:<{max_length}}" for x in self._range] + + # -------------------------------------------------------------------- + + @property + def start(self) -> int: + """ + The value of the `start` parameter (``0`` if this was not supplied). + + Examples + -------- + >>> idx = pd.RangeIndex(5) + >>> idx.start + 0 + + >>> idx = pd.RangeIndex(2, -10, -3) + >>> idx.start + 2 + """ + # GH 25710 + return self._range.start + + @property + def stop(self) -> int: + """ + The value of the `stop` parameter. + + Examples + -------- + >>> idx = pd.RangeIndex(5) + >>> idx.stop + 5 + + >>> idx = pd.RangeIndex(2, -10, -3) + >>> idx.stop + -10 + """ + return self._range.stop + + @property + def step(self) -> int: + """ + The value of the `step` parameter (``1`` if this was not supplied). + + Examples + -------- + >>> idx = pd.RangeIndex(5) + >>> idx.step + 1 + + >>> idx = pd.RangeIndex(2, -10, -3) + >>> idx.step + -3 + + Even if :class:`pandas.RangeIndex` is empty, ``step`` is still ``1`` if + not supplied. + + >>> idx = pd.RangeIndex(1, 0) + >>> idx.step + 1 + """ + # GH 25710 + return self._range.step + + @cache_readonly + def nbytes(self) -> int: + """ + Return the number of bytes in the underlying data. + """ + rng = self._range + return getsizeof(rng) + sum( + getsizeof(getattr(rng, attr_name)) + for attr_name in ["start", "stop", "step"] + ) + + def memory_usage(self, deep: bool = False) -> int: + """ + Memory usage of my values + + Parameters + ---------- + deep : bool + Introspect the data deeply, interrogate + `object` dtypes for system-level memory consumption + + Returns + ------- + bytes used + + Notes + ----- + Memory usage does not include memory consumed by elements that + are not components of the array if deep=False + + See Also + -------- + numpy.ndarray.nbytes + """ + return self.nbytes + + @property + def dtype(self) -> np.dtype: + return _dtype_int64 + + @property + def is_unique(self) -> bool: + """return if the index has unique values""" + return True + + @cache_readonly + def is_monotonic_increasing(self) -> bool: + return self._range.step > 0 or len(self) <= 1 + + @cache_readonly + def is_monotonic_decreasing(self) -> bool: + return self._range.step < 0 or len(self) <= 1 + + def __contains__(self, key: Any) -> bool: + hash(key) + try: + key = ensure_python_int(key) + except TypeError: + return False + return key in self._range + + @property + def inferred_type(self) -> str: + return "integer" + + # -------------------------------------------------------------------- + # Indexing Methods + + @doc(Index.get_loc) + def get_loc(self, key) -> int: + if is_integer(key) or (is_float(key) and key.is_integer()): + new_key = int(key) + try: + return self._range.index(new_key) + except ValueError as err: + raise KeyError(key) from err + if isinstance(key, Hashable): + raise KeyError(key) + self._check_indexing_error(key) + raise KeyError(key) + + def _get_indexer( + self, + target: Index, + method: str | None = None, + limit: int | None = None, + tolerance=None, + ) -> npt.NDArray[np.intp]: + if com.any_not_none(method, tolerance, limit): + return super()._get_indexer( + target, method=method, tolerance=tolerance, limit=limit + ) + + if self.step > 0: + start, stop, step = self.start, self.stop, self.step + else: + # GH 28678: work on reversed range for simplicity + reverse = self._range[::-1] + start, stop, step = reverse.start, reverse.stop, reverse.step + + target_array = np.asarray(target) + locs = target_array - start + valid = (locs % step == 0) & (locs >= 0) & (target_array < stop) + locs[~valid] = -1 + locs[valid] = locs[valid] / step + + if step != self.step: + # We reversed this range: transform to original locs + locs[valid] = len(self) - 1 - locs[valid] + return ensure_platform_int(locs) + + @cache_readonly + def _should_fallback_to_positional(self) -> bool: + """ + Should an integer key be treated as positional? + """ + return False + + # -------------------------------------------------------------------- + + def tolist(self) -> list[int]: + return list(self._range) + + @doc(Index.__iter__) + def __iter__(self) -> Iterator[int]: + yield from self._range + + @doc(Index._shallow_copy) + def _shallow_copy(self, values, name: Hashable = no_default): + name = self._name if name is no_default else name + + if values.dtype.kind == "f": + return Index(values, name=name, dtype=np.float64) + # GH 46675 & 43885: If values is equally spaced, return a + # more memory-compact RangeIndex instead of Index with 64-bit dtype + unique_diffs = unique_deltas(values) + if len(unique_diffs) == 1 and unique_diffs[0] != 0: + diff = unique_diffs[0] + new_range = range(values[0], values[-1] + diff, diff) + return type(self)._simple_new(new_range, name=name) + else: + return self._constructor._simple_new(values, name=name) + + def _view(self) -> Self: + result = type(self)._simple_new(self._range, name=self._name) + result._cache = self._cache + return result + + @doc(Index.copy) + def copy(self, name: Hashable | None = None, deep: bool = False) -> Self: + name = self._validate_names(name=name, deep=deep)[0] + new_index = self._rename(name=name) + return new_index + + def _minmax(self, meth: str): + no_steps = len(self) - 1 + if no_steps == -1: + return np.nan + elif (meth == "min" and self.step > 0) or (meth == "max" and self.step < 0): + return self.start + + return self.start + self.step * no_steps + + def min(self, axis=None, skipna: bool = True, *args, **kwargs) -> int: + """The minimum value of the RangeIndex""" + nv.validate_minmax_axis(axis) + nv.validate_min(args, kwargs) + return self._minmax("min") + + def max(self, axis=None, skipna: bool = True, *args, **kwargs) -> int: + """The maximum value of the RangeIndex""" + nv.validate_minmax_axis(axis) + nv.validate_max(args, kwargs) + return self._minmax("max") + + def argsort(self, *args, **kwargs) -> npt.NDArray[np.intp]: + """ + Returns the indices that would sort the index and its + underlying data. + + Returns + ------- + np.ndarray[np.intp] + + See Also + -------- + numpy.ndarray.argsort + """ + ascending = kwargs.pop("ascending", True) # EA compat + kwargs.pop("kind", None) # e.g. "mergesort" is irrelevant + nv.validate_argsort(args, kwargs) + + if self._range.step > 0: + result = np.arange(len(self), dtype=np.intp) + else: + result = np.arange(len(self) - 1, -1, -1, dtype=np.intp) + + if not ascending: + result = result[::-1] + return result + + def factorize( + self, + sort: bool = False, + use_na_sentinel: bool = True, + ) -> tuple[npt.NDArray[np.intp], RangeIndex]: + codes = np.arange(len(self), dtype=np.intp) + uniques = self + if sort and self.step < 0: + codes = codes[::-1] + uniques = uniques[::-1] + return codes, uniques + + def equals(self, other: object) -> bool: + """ + Determines if two Index objects contain the same elements. + """ + if isinstance(other, RangeIndex): + return self._range == other._range + return super().equals(other) + + # error: Signature of "sort_values" incompatible with supertype "Index" + @overload # type: ignore[override] + def sort_values( + self, + *, + return_indexer: Literal[False] = ..., + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> Self: + ... + + @overload + def sort_values( + self, + *, + return_indexer: Literal[True], + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> tuple[Self, np.ndarray | RangeIndex]: + ... + + @overload + def sort_values( + self, + *, + return_indexer: bool = ..., + ascending: bool = ..., + na_position: NaPosition = ..., + key: Callable | None = ..., + ) -> Self | tuple[Self, np.ndarray | RangeIndex]: + ... + + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self"], name="sort_values" + ) + def sort_values( + self, + return_indexer: bool = False, + ascending: bool = True, + na_position: NaPosition = "last", + key: Callable | None = None, + ) -> Self | tuple[Self, np.ndarray | RangeIndex]: + if key is not None: + return super().sort_values( + return_indexer=return_indexer, + ascending=ascending, + na_position=na_position, + key=key, + ) + else: + sorted_index = self + inverse_indexer = False + if ascending: + if self.step < 0: + sorted_index = self[::-1] + inverse_indexer = True + else: + if self.step > 0: + sorted_index = self[::-1] + inverse_indexer = True + + if return_indexer: + if inverse_indexer: + rng = range(len(self) - 1, -1, -1) + else: + rng = range(len(self)) + return sorted_index, RangeIndex(rng) + else: + return sorted_index + + # -------------------------------------------------------------------- + # Set Operations + + def _intersection(self, other: Index, sort: bool = False): + # caller is responsible for checking self and other are both non-empty + + if not isinstance(other, RangeIndex): + return super()._intersection(other, sort=sort) + + first = self._range[::-1] if self.step < 0 else self._range + second = other._range[::-1] if other.step < 0 else other._range + + # check whether intervals intersect + # deals with in- and decreasing ranges + int_low = max(first.start, second.start) + int_high = min(first.stop, second.stop) + if int_high <= int_low: + return self._simple_new(_empty_range) + + # Method hint: linear Diophantine equation + # solve intersection problem + # performance hint: for identical step sizes, could use + # cheaper alternative + gcd, s, _ = self._extended_gcd(first.step, second.step) + + # check whether element sets intersect + if (first.start - second.start) % gcd: + return self._simple_new(_empty_range) + + # calculate parameters for the RangeIndex describing the + # intersection disregarding the lower bounds + tmp_start = first.start + (second.start - first.start) * first.step // gcd * s + new_step = first.step * second.step // gcd + new_range = range(tmp_start, int_high, new_step) + new_index = self._simple_new(new_range) + + # adjust index to limiting interval + new_start = new_index._min_fitting_element(int_low) + new_range = range(new_start, new_index.stop, new_index.step) + new_index = self._simple_new(new_range) + + if (self.step < 0 and other.step < 0) is not (new_index.step < 0): + new_index = new_index[::-1] + + if sort is None: + new_index = new_index.sort_values() + + return new_index + + def _min_fitting_element(self, lower_limit: int) -> int: + """Returns the smallest element greater than or equal to the limit""" + no_steps = -(-(lower_limit - self.start) // abs(self.step)) + return self.start + abs(self.step) * no_steps + + def _extended_gcd(self, a: int, b: int) -> tuple[int, int, int]: + """ + Extended Euclidean algorithms to solve Bezout's identity: + a*x + b*y = gcd(x, y) + Finds one particular solution for x, y: s, t + Returns: gcd, s, t + """ + s, old_s = 0, 1 + t, old_t = 1, 0 + r, old_r = b, a + while r: + quotient = old_r // r + old_r, r = r, old_r - quotient * r + old_s, s = s, old_s - quotient * s + old_t, t = t, old_t - quotient * t + return old_r, old_s, old_t + + def _range_in_self(self, other: range) -> bool: + """Check if other range is contained in self""" + # https://stackoverflow.com/a/32481015 + if not other: + return True + if not self._range: + return False + if len(other) > 1 and other.step % self._range.step: + return False + return other.start in self._range and other[-1] in self._range + + def _union(self, other: Index, sort: bool | None): + """ + Form the union of two Index objects and sorts if possible + + Parameters + ---------- + other : Index or array-like + + sort : bool or None, default None + Whether to sort (monotonically increasing) the resulting index. + ``sort=None|True`` returns a ``RangeIndex`` if possible or a sorted + ``Index`` with a int64 dtype if not. + ``sort=False`` can return a ``RangeIndex`` if self is monotonically + increasing and other is fully contained in self. Otherwise, returns + an unsorted ``Index`` with an int64 dtype. + + Returns + ------- + union : Index + """ + if isinstance(other, RangeIndex): + if sort in (None, True) or ( + sort is False and self.step > 0 and self._range_in_self(other._range) + ): + # GH 47557: Can still return a RangeIndex + # if other range in self and sort=False + start_s, step_s = self.start, self.step + end_s = self.start + self.step * (len(self) - 1) + start_o, step_o = other.start, other.step + end_o = other.start + other.step * (len(other) - 1) + if self.step < 0: + start_s, step_s, end_s = end_s, -step_s, start_s + if other.step < 0: + start_o, step_o, end_o = end_o, -step_o, start_o + if len(self) == 1 and len(other) == 1: + step_s = step_o = abs(self.start - other.start) + elif len(self) == 1: + step_s = step_o + elif len(other) == 1: + step_o = step_s + start_r = min(start_s, start_o) + end_r = max(end_s, end_o) + if step_o == step_s: + if ( + (start_s - start_o) % step_s == 0 + and (start_s - end_o) <= step_s + and (start_o - end_s) <= step_s + ): + return type(self)(start_r, end_r + step_s, step_s) + if ( + (step_s % 2 == 0) + and (abs(start_s - start_o) == step_s / 2) + and (abs(end_s - end_o) == step_s / 2) + ): + # e.g. range(0, 10, 2) and range(1, 11, 2) + # but not range(0, 20, 4) and range(1, 21, 4) GH#44019 + return type(self)(start_r, end_r + step_s / 2, step_s / 2) + + elif step_o % step_s == 0: + if ( + (start_o - start_s) % step_s == 0 + and (start_o + step_s >= start_s) + and (end_o - step_s <= end_s) + ): + return type(self)(start_r, end_r + step_s, step_s) + elif step_s % step_o == 0: + if ( + (start_s - start_o) % step_o == 0 + and (start_s + step_o >= start_o) + and (end_s - step_o <= end_o) + ): + return type(self)(start_r, end_r + step_o, step_o) + + return super()._union(other, sort=sort) + + def _difference(self, other, sort=None): + # optimized set operation if we have another RangeIndex + self._validate_sort_keyword(sort) + self._assert_can_do_setop(other) + other, result_name = self._convert_can_do_setop(other) + + if not isinstance(other, RangeIndex): + return super()._difference(other, sort=sort) + + if sort is not False and self.step < 0: + return self[::-1]._difference(other) + + res_name = ops.get_op_result_name(self, other) + + first = self._range[::-1] if self.step < 0 else self._range + overlap = self.intersection(other) + if overlap.step < 0: + overlap = overlap[::-1] + + if len(overlap) == 0: + return self.rename(name=res_name) + if len(overlap) == len(self): + return self[:0].rename(res_name) + + # overlap.step will always be a multiple of self.step (see _intersection) + + if len(overlap) == 1: + if overlap[0] == self[0]: + return self[1:] + + elif overlap[0] == self[-1]: + return self[:-1] + + elif len(self) == 3 and overlap[0] == self[1]: + return self[::2] + + else: + return super()._difference(other, sort=sort) + + elif len(overlap) == 2 and overlap[0] == first[0] and overlap[-1] == first[-1]: + # e.g. range(-8, 20, 7) and range(13, -9, -3) + return self[1:-1] + + if overlap.step == first.step: + if overlap[0] == first.start: + # The difference is everything after the intersection + new_rng = range(overlap[-1] + first.step, first.stop, first.step) + elif overlap[-1] == first[-1]: + # The difference is everything before the intersection + new_rng = range(first.start, overlap[0], first.step) + elif overlap._range == first[1:-1]: + # e.g. range(4) and range(1, 3) + step = len(first) - 1 + new_rng = first[::step] + else: + # The difference is not range-like + # e.g. range(1, 10, 1) and range(3, 7, 1) + return super()._difference(other, sort=sort) + + else: + # We must have len(self) > 1, bc we ruled out above + # len(overlap) == 0 and len(overlap) == len(self) + assert len(self) > 1 + + if overlap.step == first.step * 2: + if overlap[0] == first[0] and overlap[-1] in (first[-1], first[-2]): + # e.g. range(1, 10, 1) and range(1, 10, 2) + new_rng = first[1::2] + + elif overlap[0] == first[1] and overlap[-1] in (first[-1], first[-2]): + # e.g. range(1, 10, 1) and range(2, 10, 2) + new_rng = first[::2] + + else: + # We can get here with e.g. range(20) and range(0, 10, 2) + return super()._difference(other, sort=sort) + + else: + # e.g. range(10) and range(0, 10, 3) + return super()._difference(other, sort=sort) + + new_index = type(self)._simple_new(new_rng, name=res_name) + if first is not self._range: + new_index = new_index[::-1] + + return new_index + + def symmetric_difference( + self, other, result_name: Hashable | None = None, sort=None + ): + if not isinstance(other, RangeIndex) or sort is not None: + return super().symmetric_difference(other, result_name, sort) + + left = self.difference(other) + right = other.difference(self) + result = left.union(right) + + if result_name is not None: + result = result.rename(result_name) + return result + + # -------------------------------------------------------------------- + + # error: Return type "Index" of "delete" incompatible with return type + # "RangeIndex" in supertype "Index" + def delete(self, loc) -> Index: # type: ignore[override] + # In some cases we can retain RangeIndex, see also + # DatetimeTimedeltaMixin._get_delete_Freq + if is_integer(loc): + if loc in (0, -len(self)): + return self[1:] + if loc in (-1, len(self) - 1): + return self[:-1] + if len(self) == 3 and loc in (1, -2): + return self[::2] + + elif lib.is_list_like(loc): + slc = lib.maybe_indices_to_slice(np.asarray(loc, dtype=np.intp), len(self)) + + if isinstance(slc, slice): + # defer to RangeIndex._difference, which is optimized to return + # a RangeIndex whenever possible + other = self[slc] + return self.difference(other, sort=False) + + return super().delete(loc) + + def insert(self, loc: int, item) -> Index: + if len(self) and (is_integer(item) or is_float(item)): + # We can retain RangeIndex is inserting at the beginning or end, + # or right in the middle. + rng = self._range + if loc == 0 and item == self[0] - self.step: + new_rng = range(rng.start - rng.step, rng.stop, rng.step) + return type(self)._simple_new(new_rng, name=self._name) + + elif loc == len(self) and item == self[-1] + self.step: + new_rng = range(rng.start, rng.stop + rng.step, rng.step) + return type(self)._simple_new(new_rng, name=self._name) + + elif len(self) == 2 and item == self[0] + self.step / 2: + # e.g. inserting 1 into [0, 2] + step = int(self.step / 2) + new_rng = range(self.start, self.stop, step) + return type(self)._simple_new(new_rng, name=self._name) + + return super().insert(loc, item) + + def _concat(self, indexes: list[Index], name: Hashable) -> Index: + """ + Overriding parent method for the case of all RangeIndex instances. + + When all members of "indexes" are of type RangeIndex: result will be + RangeIndex if possible, Index with a int64 dtype otherwise. E.g.: + indexes = [RangeIndex(3), RangeIndex(3, 6)] -> RangeIndex(6) + indexes = [RangeIndex(3), RangeIndex(4, 6)] -> Index([0,1,2,4,5], dtype='int64') + """ + if not all(isinstance(x, RangeIndex) for x in indexes): + return super()._concat(indexes, name) + + elif len(indexes) == 1: + return indexes[0] + + rng_indexes = cast(list[RangeIndex], indexes) + + start = step = next_ = None + + # Filter the empty indexes + non_empty_indexes = [obj for obj in rng_indexes if len(obj)] + + for obj in non_empty_indexes: + rng = obj._range + + if start is None: + # This is set by the first non-empty index + start = rng.start + if step is None and len(rng) > 1: + step = rng.step + elif step is None: + # First non-empty index had only one element + if rng.start == start: + values = np.concatenate([x._values for x in rng_indexes]) + result = self._constructor(values) + return result.rename(name) + + step = rng.start - start + + non_consecutive = (step != rng.step and len(rng) > 1) or ( + next_ is not None and rng.start != next_ + ) + if non_consecutive: + result = self._constructor( + np.concatenate([x._values for x in rng_indexes]) + ) + return result.rename(name) + + if step is not None: + next_ = rng[-1] + step + + if non_empty_indexes: + # Get the stop value from "next" or alternatively + # from the last non-empty index + stop = non_empty_indexes[-1].stop if next_ is None else next_ + return RangeIndex(start, stop, step).rename(name) + + # Here all "indexes" had 0 length, i.e. were empty. + # In this case return an empty range index. + return RangeIndex(0, 0).rename(name) + + def __len__(self) -> int: + """ + return the length of the RangeIndex + """ + return len(self._range) + + @property + def size(self) -> int: + return len(self) + + def __getitem__(self, key): + """ + Conserve RangeIndex type for scalar and slice keys. + """ + if isinstance(key, slice): + return self._getitem_slice(key) + elif is_integer(key): + new_key = int(key) + try: + return self._range[new_key] + except IndexError as err: + raise IndexError( + f"index {key} is out of bounds for axis 0 with size {len(self)}" + ) from err + elif is_scalar(key): + raise IndexError( + "only integers, slices (`:`), " + "ellipsis (`...`), numpy.newaxis (`None`) " + "and integer or boolean " + "arrays are valid indices" + ) + return super().__getitem__(key) + + def _getitem_slice(self, slobj: slice) -> Self: + """ + Fastpath for __getitem__ when we know we have a slice. + """ + res = self._range[slobj] + return type(self)._simple_new(res, name=self._name) + + @unpack_zerodim_and_defer("__floordiv__") + def __floordiv__(self, other): + if is_integer(other) and other != 0: + if len(self) == 0 or self.start % other == 0 and self.step % other == 0: + start = self.start // other + step = self.step // other + stop = start + len(self) * step + new_range = range(start, stop, step or 1) + return self._simple_new(new_range, name=self._name) + if len(self) == 1: + start = self.start // other + new_range = range(start, start + 1, 1) + return self._simple_new(new_range, name=self._name) + + return super().__floordiv__(other) + + # -------------------------------------------------------------------- + # Reductions + + def all(self, *args, **kwargs) -> bool: + return 0 not in self._range + + def any(self, *args, **kwargs) -> bool: + return any(self._range) + + # -------------------------------------------------------------------- + + def _cmp_method(self, other, op): + if isinstance(other, RangeIndex) and self._range == other._range: + # Both are immutable so if ._range attr. are equal, shortcut is possible + return super()._cmp_method(self, op) + return super()._cmp_method(other, op) + + def _arith_method(self, other, op): + """ + Parameters + ---------- + other : Any + op : callable that accepts 2 params + perform the binary op + """ + + if isinstance(other, ABCTimedeltaIndex): + # Defer to TimedeltaIndex implementation + return NotImplemented + elif isinstance(other, (timedelta, np.timedelta64)): + # GH#19333 is_integer evaluated True on timedelta64, + # so we need to catch these explicitly + return super()._arith_method(other, op) + elif lib.is_np_dtype(getattr(other, "dtype", None), "m"): + # Must be an np.ndarray; GH#22390 + return super()._arith_method(other, op) + + if op in [ + operator.pow, + ops.rpow, + operator.mod, + ops.rmod, + operator.floordiv, + ops.rfloordiv, + divmod, + ops.rdivmod, + ]: + return super()._arith_method(other, op) + + step: Callable | None = None + if op in [operator.mul, ops.rmul, operator.truediv, ops.rtruediv]: + step = op + + # TODO: if other is a RangeIndex we may have more efficient options + right = extract_array(other, extract_numpy=True, extract_range=True) + left = self + + try: + # apply if we have an override + if step: + with np.errstate(all="ignore"): + rstep = step(left.step, right) + + # we don't have a representable op + # so return a base index + if not is_integer(rstep) or not rstep: + raise ValueError + + # GH#53255 + else: + rstep = -left.step if op == ops.rsub else left.step + + with np.errstate(all="ignore"): + rstart = op(left.start, right) + rstop = op(left.stop, right) + + res_name = ops.get_op_result_name(self, other) + result = type(self)(rstart, rstop, rstep, name=res_name) + + # for compat with numpy / Index with int64 dtype + # even if we can represent as a RangeIndex, return + # as a float64 Index if we have float-like descriptors + if not all(is_integer(x) for x in [rstart, rstop, rstep]): + result = result.astype("float64") + + return result + + except (ValueError, TypeError, ZeroDivisionError): + # test_arithmetic_explicit_conversions + return super()._arith_method(other, op) + + # error: Return type "Index" of "take" incompatible with return type + # "RangeIndex" in supertype "Index" + def take( # type: ignore[override] + self, + indices, + axis: Axis = 0, + allow_fill: bool = True, + fill_value=None, + **kwargs, + ) -> Index: + if kwargs: + nv.validate_take((), kwargs) + if is_scalar(indices): + raise TypeError("Expected indices to be array-like") + indices = ensure_platform_int(indices) + + # raise an exception if allow_fill is True and fill_value is not None + self._maybe_disallow_fill(allow_fill, fill_value, indices) + + if len(indices) == 0: + taken = np.array([], dtype=self.dtype) + else: + ind_max = indices.max() + if ind_max >= len(self): + raise IndexError( + f"index {ind_max} is out of bounds for axis 0 with size {len(self)}" + ) + ind_min = indices.min() + if ind_min < -len(self): + raise IndexError( + f"index {ind_min} is out of bounds for axis 0 with size {len(self)}" + ) + taken = indices.astype(self.dtype, casting="safe") + if ind_min < 0: + taken %= len(self) + if self.step != 1: + taken *= self.step + if self.start != 0: + taken += self.start + + # _constructor so RangeIndex-> Index with an int64 dtype + return self._constructor._simple_new(taken, name=self.name) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/timedeltas.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/timedeltas.py new file mode 100644 index 0000000000000000000000000000000000000000..08a265ba4764892fde0bc50670b6706ff788c8bc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexes/timedeltas.py @@ -0,0 +1,356 @@ +""" implement the TimedeltaIndex """ +from __future__ import annotations + +from typing import TYPE_CHECKING +import warnings + +from pandas._libs import ( + index as libindex, + lib, +) +from pandas._libs.tslibs import ( + Resolution, + Timedelta, + to_offset, +) +from pandas._libs.tslibs.timedeltas import disallow_ambiguous_unit +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_scalar, + pandas_dtype, +) +from pandas.core.dtypes.generic import ABCSeries + +from pandas.core.arrays.timedeltas import TimedeltaArray +import pandas.core.common as com +from pandas.core.indexes.base import ( + Index, + maybe_extract_name, +) +from pandas.core.indexes.datetimelike import DatetimeTimedeltaMixin +from pandas.core.indexes.extension import inherit_names + +if TYPE_CHECKING: + from pandas._typing import DtypeObj + + +@inherit_names( + ["__neg__", "__pos__", "__abs__", "total_seconds", "round", "floor", "ceil"] + + TimedeltaArray._field_ops, + TimedeltaArray, + wrap=True, +) +@inherit_names( + [ + "components", + "to_pytimedelta", + "sum", + "std", + "median", + ], + TimedeltaArray, +) +class TimedeltaIndex(DatetimeTimedeltaMixin): + """ + Immutable Index of timedelta64 data. + + Represented internally as int64, and scalars returned Timedelta objects. + + Parameters + ---------- + data : array-like (1-dimensional), optional + Optional timedelta-like data to construct index with. + unit : {'D', 'h', 'm', 's', 'ms', 'us', 'ns'}, optional + The unit of ``data``. + + .. deprecated:: 2.2.0 + Use ``pd.to_timedelta`` instead. + + freq : str or pandas offset object, optional + One of pandas date offset strings or corresponding objects. The string + ``'infer'`` can be passed in order to set the frequency of the index as + the inferred frequency upon creation. + dtype : numpy.dtype or str, default None + Valid ``numpy`` dtypes are ``timedelta64[ns]``, ``timedelta64[us]``, + ``timedelta64[ms]``, and ``timedelta64[s]``. + copy : bool + Make a copy of input array. + name : object + Name to be stored in the index. + + Attributes + ---------- + days + seconds + microseconds + nanoseconds + components + inferred_freq + + Methods + ------- + to_pytimedelta + to_series + round + floor + ceil + to_frame + mean + + See Also + -------- + Index : The base pandas Index type. + Timedelta : Represents a duration between two dates or times. + DatetimeIndex : Index of datetime64 data. + PeriodIndex : Index of Period data. + timedelta_range : Create a fixed-frequency TimedeltaIndex. + + Notes + ----- + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + >>> pd.TimedeltaIndex(['0 days', '1 days', '2 days', '3 days', '4 days']) + TimedeltaIndex(['0 days', '1 days', '2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq=None) + + We can also let pandas infer the frequency when possible. + + >>> pd.TimedeltaIndex(np.arange(5) * 24 * 3600 * 1e9, freq='infer') + TimedeltaIndex(['0 days', '1 days', '2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq='D') + """ + + _typ = "timedeltaindex" + + _data_cls = TimedeltaArray + + @property + def _engine_type(self) -> type[libindex.TimedeltaEngine]: + return libindex.TimedeltaEngine + + _data: TimedeltaArray + + # Use base class method instead of DatetimeTimedeltaMixin._get_string_slice + _get_string_slice = Index._get_string_slice + + # error: Signature of "_resolution_obj" incompatible with supertype + # "DatetimeIndexOpsMixin" + @property + def _resolution_obj(self) -> Resolution | None: # type: ignore[override] + return self._data._resolution_obj + + # ------------------------------------------------------------------- + # Constructors + + def __new__( + cls, + data=None, + unit=lib.no_default, + freq=lib.no_default, + closed=lib.no_default, + dtype=None, + copy: bool = False, + name=None, + ): + if closed is not lib.no_default: + # GH#52628 + warnings.warn( + f"The 'closed' keyword in {cls.__name__} construction is " + "deprecated and will be removed in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if unit is not lib.no_default: + # GH#55499 + warnings.warn( + f"The 'unit' keyword in {cls.__name__} construction is " + "deprecated and will be removed in a future version. " + "Use pd.to_timedelta instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + unit = None + + name = maybe_extract_name(name, data, cls) + + if is_scalar(data): + cls._raise_scalar_data_error(data) + + disallow_ambiguous_unit(unit) + if dtype is not None: + dtype = pandas_dtype(dtype) + + if ( + isinstance(data, TimedeltaArray) + and freq is lib.no_default + and (dtype is None or dtype == data.dtype) + ): + if copy: + data = data.copy() + return cls._simple_new(data, name=name) + + if ( + isinstance(data, TimedeltaIndex) + and freq is lib.no_default + and name is None + and (dtype is None or dtype == data.dtype) + ): + if copy: + return data.copy() + else: + return data._view() + + # - Cases checked above all return/raise before reaching here - # + + tdarr = TimedeltaArray._from_sequence_not_strict( + data, freq=freq, unit=unit, dtype=dtype, copy=copy + ) + refs = None + if not copy and isinstance(data, (ABCSeries, Index)): + refs = data._references + + return cls._simple_new(tdarr, name=name, refs=refs) + + # ------------------------------------------------------------------- + + def _is_comparable_dtype(self, dtype: DtypeObj) -> bool: + """ + Can we compare values of the given dtype to our own? + """ + return lib.is_np_dtype(dtype, "m") # aka self._data._is_recognized_dtype + + # ------------------------------------------------------------------- + # Indexing Methods + + def get_loc(self, key): + """ + Get integer location for requested label + + Returns + ------- + loc : int, slice, or ndarray[int] + """ + self._check_indexing_error(key) + + try: + key = self._data._validate_scalar(key, unbox=False) + except TypeError as err: + raise KeyError(key) from err + + return Index.get_loc(self, key) + + def _parse_with_reso(self, label: str): + # the "with_reso" is a no-op for TimedeltaIndex + parsed = Timedelta(label) + return parsed, None + + def _parsed_string_to_bounds(self, reso, parsed: Timedelta): + # reso is unused, included to match signature of DTI/PI + lbound = parsed.round(parsed.resolution_string) + rbound = lbound + to_offset(parsed.resolution_string) - Timedelta(1, "ns") + return lbound, rbound + + # ------------------------------------------------------------------- + + @property + def inferred_type(self) -> str: + return "timedelta64" + + +def timedelta_range( + start=None, + end=None, + periods: int | None = None, + freq=None, + name=None, + closed=None, + *, + unit: str | None = None, +) -> TimedeltaIndex: + """ + Return a fixed frequency TimedeltaIndex with day as the default. + + Parameters + ---------- + start : str or timedelta-like, default None + Left bound for generating timedeltas. + end : str or timedelta-like, default None + Right bound for generating timedeltas. + periods : int, default None + Number of periods to generate. + freq : str, Timedelta, datetime.timedelta, or DateOffset, default 'D' + Frequency strings can have multiples, e.g. '5h'. + name : str, default None + Name of the resulting TimedeltaIndex. + closed : str, default None + Make the interval closed with respect to the given frequency to + the 'left', 'right', or both sides (None). + unit : str, default None + Specify the desired resolution of the result. + + .. versionadded:: 2.0.0 + + Returns + ------- + TimedeltaIndex + + Notes + ----- + Of the four parameters ``start``, ``end``, ``periods``, and ``freq``, + exactly three must be specified. If ``freq`` is omitted, the resulting + ``TimedeltaIndex`` will have ``periods`` linearly spaced elements between + ``start`` and ``end`` (closed on both sides). + + To learn more about the frequency strings, please see `this link + `__. + + Examples + -------- + >>> pd.timedelta_range(start='1 day', periods=4) + TimedeltaIndex(['1 days', '2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq='D') + + The ``closed`` parameter specifies which endpoint is included. The default + behavior is to include both endpoints. + + >>> pd.timedelta_range(start='1 day', periods=4, closed='right') + TimedeltaIndex(['2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq='D') + + The ``freq`` parameter specifies the frequency of the TimedeltaIndex. + Only fixed frequencies can be passed, non-fixed frequencies such as + 'M' (month end) will raise. + + >>> pd.timedelta_range(start='1 day', end='2 days', freq='6h') + TimedeltaIndex(['1 days 00:00:00', '1 days 06:00:00', '1 days 12:00:00', + '1 days 18:00:00', '2 days 00:00:00'], + dtype='timedelta64[ns]', freq='6h') + + Specify ``start``, ``end``, and ``periods``; the frequency is generated + automatically (linearly spaced). + + >>> pd.timedelta_range(start='1 day', end='5 days', periods=4) + TimedeltaIndex(['1 days 00:00:00', '2 days 08:00:00', '3 days 16:00:00', + '5 days 00:00:00'], + dtype='timedelta64[ns]', freq=None) + + **Specify a unit** + + >>> pd.timedelta_range("1 Day", periods=3, freq="100000D", unit="s") + TimedeltaIndex(['1 days', '100001 days', '200001 days'], + dtype='timedelta64[s]', freq='100000D') + """ + if freq is None and com.any_none(periods, start, end): + freq = "D" + + freq = to_offset(freq) + tdarr = TimedeltaArray._generate_range( + start, end, periods, freq, closed=closed, unit=unit + ) + return TimedeltaIndex._simple_new(tdarr, name=name) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..869e511fc0720c1d98c0baadbf648914d2500fed --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/indexing.py @@ -0,0 +1,2785 @@ +from __future__ import annotations + +from contextlib import suppress +import sys +from typing import ( + TYPE_CHECKING, + Any, + TypeVar, + cast, + final, +) +import warnings + +import numpy as np + +from pandas._config import ( + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs.indexing import NDFrameIndexerBase +from pandas._libs.lib import item_from_zerodim +from pandas.compat import PYPY +from pandas.errors import ( + AbstractMethodError, + ChainedAssignmentError, + IndexingError, + InvalidIndexError, + LossySetitemError, + _chained_assignment_msg, + _chained_assignment_warning_msg, + _check_cacher, +) +from pandas.util._decorators import doc +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import ( + can_hold_element, + maybe_promote, +) +from pandas.core.dtypes.common import ( + is_array_like, + is_bool_dtype, + is_hashable, + is_integer, + is_iterator, + is_list_like, + is_numeric_dtype, + is_object_dtype, + is_scalar, + is_sequence, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + construct_1d_array_from_inferred_fill_value, + infer_fill_value, + is_valid_na_for_dtype, + isna, + na_value_for_dtype, +) + +from pandas.core import algorithms as algos +import pandas.core.common as com +from pandas.core.construction import ( + array as pd_array, + extract_array, +) +from pandas.core.indexers import ( + check_array_indexer, + is_list_like_indexer, + is_scalar_indexer, + length_of_indexer, +) +from pandas.core.indexes.api import ( + Index, + MultiIndex, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Sequence, + ) + + from pandas._typing import ( + Axis, + AxisInt, + Self, + npt, + ) + + from pandas import ( + DataFrame, + Series, + ) + +T = TypeVar("T") +# "null slice" +_NS = slice(None, None) +_one_ellipsis_message = "indexer may only contain one '...' entry" + + +# the public IndexSlicerMaker +class _IndexSlice: + """ + Create an object to more easily perform multi-index slicing. + + See Also + -------- + MultiIndex.remove_unused_levels : New MultiIndex with no unused levels. + + Notes + ----- + See :ref:`Defined Levels ` + for further info on slicing a MultiIndex. + + Examples + -------- + >>> midx = pd.MultiIndex.from_product([['A0','A1'], ['B0','B1','B2','B3']]) + >>> columns = ['foo', 'bar'] + >>> dfmi = pd.DataFrame(np.arange(16).reshape((len(midx), len(columns))), + ... index=midx, columns=columns) + + Using the default slice command: + + >>> dfmi.loc[(slice(None), slice('B0', 'B1')), :] + foo bar + A0 B0 0 1 + B1 2 3 + A1 B0 8 9 + B1 10 11 + + Using the IndexSlice class for a more intuitive command: + + >>> idx = pd.IndexSlice + >>> dfmi.loc[idx[:, 'B0':'B1'], :] + foo bar + A0 B0 0 1 + B1 2 3 + A1 B0 8 9 + B1 10 11 + """ + + def __getitem__(self, arg): + return arg + + +IndexSlice = _IndexSlice() + + +class IndexingMixin: + """ + Mixin for adding .loc/.iloc/.at/.iat to Dataframes and Series. + """ + + @property + def iloc(self) -> _iLocIndexer: + """ + Purely integer-location based indexing for selection by position. + + .. deprecated:: 2.2.0 + + Returning a tuple from a callable is deprecated. + + ``.iloc[]`` is primarily integer position based (from ``0`` to + ``length-1`` of the axis), but may also be used with a boolean + array. + + Allowed inputs are: + + - An integer, e.g. ``5``. + - A list or array of integers, e.g. ``[4, 3, 0]``. + - A slice object with ints, e.g. ``1:7``. + - A boolean array. + - A ``callable`` function with one argument (the calling Series or + DataFrame) and that returns valid output for indexing (one of the above). + This is useful in method chains, when you don't have a reference to the + calling object, but would like to base your selection on + some value. + - A tuple of row and column indexes. The tuple elements consist of one of the + above inputs, e.g. ``(0, 1)``. + + ``.iloc`` will raise ``IndexError`` if a requested indexer is + out-of-bounds, except *slice* indexers which allow out-of-bounds + indexing (this conforms with python/numpy *slice* semantics). + + See more at :ref:`Selection by Position `. + + See Also + -------- + DataFrame.iat : Fast integer location scalar accessor. + DataFrame.loc : Purely label-location based indexer for selection by label. + Series.iloc : Purely integer-location based indexing for + selection by position. + + Examples + -------- + >>> mydict = [{'a': 1, 'b': 2, 'c': 3, 'd': 4}, + ... {'a': 100, 'b': 200, 'c': 300, 'd': 400}, + ... {'a': 1000, 'b': 2000, 'c': 3000, 'd': 4000}] + >>> df = pd.DataFrame(mydict) + >>> df + a b c d + 0 1 2 3 4 + 1 100 200 300 400 + 2 1000 2000 3000 4000 + + **Indexing just the rows** + + With a scalar integer. + + >>> type(df.iloc[0]) + + >>> df.iloc[0] + a 1 + b 2 + c 3 + d 4 + Name: 0, dtype: int64 + + With a list of integers. + + >>> df.iloc[[0]] + a b c d + 0 1 2 3 4 + >>> type(df.iloc[[0]]) + + + >>> df.iloc[[0, 1]] + a b c d + 0 1 2 3 4 + 1 100 200 300 400 + + With a `slice` object. + + >>> df.iloc[:3] + a b c d + 0 1 2 3 4 + 1 100 200 300 400 + 2 1000 2000 3000 4000 + + With a boolean mask the same length as the index. + + >>> df.iloc[[True, False, True]] + a b c d + 0 1 2 3 4 + 2 1000 2000 3000 4000 + + With a callable, useful in method chains. The `x` passed + to the ``lambda`` is the DataFrame being sliced. This selects + the rows whose index label even. + + >>> df.iloc[lambda x: x.index % 2 == 0] + a b c d + 0 1 2 3 4 + 2 1000 2000 3000 4000 + + **Indexing both axes** + + You can mix the indexer types for the index and columns. Use ``:`` to + select the entire axis. + + With scalar integers. + + >>> df.iloc[0, 1] + 2 + + With lists of integers. + + >>> df.iloc[[0, 2], [1, 3]] + b d + 0 2 4 + 2 2000 4000 + + With `slice` objects. + + >>> df.iloc[1:3, 0:3] + a b c + 1 100 200 300 + 2 1000 2000 3000 + + With a boolean array whose length matches the columns. + + >>> df.iloc[:, [True, False, True, False]] + a c + 0 1 3 + 1 100 300 + 2 1000 3000 + + With a callable function that expects the Series or DataFrame. + + >>> df.iloc[:, lambda df: [0, 2]] + a c + 0 1 3 + 1 100 300 + 2 1000 3000 + """ + return _iLocIndexer("iloc", self) + + @property + def loc(self) -> _LocIndexer: + """ + Access a group of rows and columns by label(s) or a boolean array. + + ``.loc[]`` is primarily label based, but may also be used with a + boolean array. + + Allowed inputs are: + + - A single label, e.g. ``5`` or ``'a'``, (note that ``5`` is + interpreted as a *label* of the index, and **never** as an + integer position along the index). + - A list or array of labels, e.g. ``['a', 'b', 'c']``. + - A slice object with labels, e.g. ``'a':'f'``. + + .. warning:: Note that contrary to usual python slices, **both** the + start and the stop are included + + - A boolean array of the same length as the axis being sliced, + e.g. ``[True, False, True]``. + - An alignable boolean Series. The index of the key will be aligned before + masking. + - An alignable Index. The Index of the returned selection will be the input. + - A ``callable`` function with one argument (the calling Series or + DataFrame) and that returns valid output for indexing (one of the above) + + See more at :ref:`Selection by Label `. + + Raises + ------ + KeyError + If any items are not found. + IndexingError + If an indexed key is passed and its index is unalignable to the frame index. + + See Also + -------- + DataFrame.at : Access a single value for a row/column label pair. + DataFrame.iloc : Access group of rows and columns by integer position(s). + DataFrame.xs : Returns a cross-section (row(s) or column(s)) from the + Series/DataFrame. + Series.loc : Access group of values using labels. + + Examples + -------- + **Getting values** + + >>> df = pd.DataFrame([[1, 2], [4, 5], [7, 8]], + ... index=['cobra', 'viper', 'sidewinder'], + ... columns=['max_speed', 'shield']) + >>> df + max_speed shield + cobra 1 2 + viper 4 5 + sidewinder 7 8 + + Single label. Note this returns the row as a Series. + + >>> df.loc['viper'] + max_speed 4 + shield 5 + Name: viper, dtype: int64 + + List of labels. Note using ``[[]]`` returns a DataFrame. + + >>> df.loc[['viper', 'sidewinder']] + max_speed shield + viper 4 5 + sidewinder 7 8 + + Single label for row and column + + >>> df.loc['cobra', 'shield'] + 2 + + Slice with labels for row and single label for column. As mentioned + above, note that both the start and stop of the slice are included. + + >>> df.loc['cobra':'viper', 'max_speed'] + cobra 1 + viper 4 + Name: max_speed, dtype: int64 + + Boolean list with the same length as the row axis + + >>> df.loc[[False, False, True]] + max_speed shield + sidewinder 7 8 + + Alignable boolean Series: + + >>> df.loc[pd.Series([False, True, False], + ... index=['viper', 'sidewinder', 'cobra'])] + max_speed shield + sidewinder 7 8 + + Index (same behavior as ``df.reindex``) + + >>> df.loc[pd.Index(["cobra", "viper"], name="foo")] + max_speed shield + foo + cobra 1 2 + viper 4 5 + + Conditional that returns a boolean Series + + >>> df.loc[df['shield'] > 6] + max_speed shield + sidewinder 7 8 + + Conditional that returns a boolean Series with column labels specified + + >>> df.loc[df['shield'] > 6, ['max_speed']] + max_speed + sidewinder 7 + + Multiple conditional using ``&`` that returns a boolean Series + + >>> df.loc[(df['max_speed'] > 1) & (df['shield'] < 8)] + max_speed shield + viper 4 5 + + Multiple conditional using ``|`` that returns a boolean Series + + >>> df.loc[(df['max_speed'] > 4) | (df['shield'] < 5)] + max_speed shield + cobra 1 2 + sidewinder 7 8 + + Please ensure that each condition is wrapped in parentheses ``()``. + See the :ref:`user guide` + for more details and explanations of Boolean indexing. + + .. note:: + If you find yourself using 3 or more conditionals in ``.loc[]``, + consider using :ref:`advanced indexing`. + + See below for using ``.loc[]`` on MultiIndex DataFrames. + + Callable that returns a boolean Series + + >>> df.loc[lambda df: df['shield'] == 8] + max_speed shield + sidewinder 7 8 + + **Setting values** + + Set value for all items matching the list of labels + + >>> df.loc[['viper', 'sidewinder'], ['shield']] = 50 + >>> df + max_speed shield + cobra 1 2 + viper 4 50 + sidewinder 7 50 + + Set value for an entire row + + >>> df.loc['cobra'] = 10 + >>> df + max_speed shield + cobra 10 10 + viper 4 50 + sidewinder 7 50 + + Set value for an entire column + + >>> df.loc[:, 'max_speed'] = 30 + >>> df + max_speed shield + cobra 30 10 + viper 30 50 + sidewinder 30 50 + + Set value for rows matching callable condition + + >>> df.loc[df['shield'] > 35] = 0 + >>> df + max_speed shield + cobra 30 10 + viper 0 0 + sidewinder 0 0 + + Add value matching location + + >>> df.loc["viper", "shield"] += 5 + >>> df + max_speed shield + cobra 30 10 + viper 0 5 + sidewinder 0 0 + + Setting using a ``Series`` or a ``DataFrame`` sets the values matching the + index labels, not the index positions. + + >>> shuffled_df = df.loc[["viper", "cobra", "sidewinder"]] + >>> df.loc[:] += shuffled_df + >>> df + max_speed shield + cobra 60 20 + viper 0 10 + sidewinder 0 0 + + **Getting values on a DataFrame with an index that has integer labels** + + Another example using integers for the index + + >>> df = pd.DataFrame([[1, 2], [4, 5], [7, 8]], + ... index=[7, 8, 9], columns=['max_speed', 'shield']) + >>> df + max_speed shield + 7 1 2 + 8 4 5 + 9 7 8 + + Slice with integer labels for rows. As mentioned above, note that both + the start and stop of the slice are included. + + >>> df.loc[7:9] + max_speed shield + 7 1 2 + 8 4 5 + 9 7 8 + + **Getting values with a MultiIndex** + + A number of examples using a DataFrame with a MultiIndex + + >>> tuples = [ + ... ('cobra', 'mark i'), ('cobra', 'mark ii'), + ... ('sidewinder', 'mark i'), ('sidewinder', 'mark ii'), + ... ('viper', 'mark ii'), ('viper', 'mark iii') + ... ] + >>> index = pd.MultiIndex.from_tuples(tuples) + >>> values = [[12, 2], [0, 4], [10, 20], + ... [1, 4], [7, 1], [16, 36]] + >>> df = pd.DataFrame(values, columns=['max_speed', 'shield'], index=index) + >>> df + max_speed shield + cobra mark i 12 2 + mark ii 0 4 + sidewinder mark i 10 20 + mark ii 1 4 + viper mark ii 7 1 + mark iii 16 36 + + Single label. Note this returns a DataFrame with a single index. + + >>> df.loc['cobra'] + max_speed shield + mark i 12 2 + mark ii 0 4 + + Single index tuple. Note this returns a Series. + + >>> df.loc[('cobra', 'mark ii')] + max_speed 0 + shield 4 + Name: (cobra, mark ii), dtype: int64 + + Single label for row and column. Similar to passing in a tuple, this + returns a Series. + + >>> df.loc['cobra', 'mark i'] + max_speed 12 + shield 2 + Name: (cobra, mark i), dtype: int64 + + Single tuple. Note using ``[[]]`` returns a DataFrame. + + >>> df.loc[[('cobra', 'mark ii')]] + max_speed shield + cobra mark ii 0 4 + + Single tuple for the index with a single label for the column + + >>> df.loc[('cobra', 'mark i'), 'shield'] + 2 + + Slice from index tuple to single label + + >>> df.loc[('cobra', 'mark i'):'viper'] + max_speed shield + cobra mark i 12 2 + mark ii 0 4 + sidewinder mark i 10 20 + mark ii 1 4 + viper mark ii 7 1 + mark iii 16 36 + + Slice from index tuple to index tuple + + >>> df.loc[('cobra', 'mark i'):('viper', 'mark ii')] + max_speed shield + cobra mark i 12 2 + mark ii 0 4 + sidewinder mark i 10 20 + mark ii 1 4 + viper mark ii 7 1 + + Please see the :ref:`user guide` + for more details and explanations of advanced indexing. + """ + return _LocIndexer("loc", self) + + @property + def at(self) -> _AtIndexer: + """ + Access a single value for a row/column label pair. + + Similar to ``loc``, in that both provide label-based lookups. Use + ``at`` if you only need to get or set a single value in a DataFrame + or Series. + + Raises + ------ + KeyError + If getting a value and 'label' does not exist in a DataFrame or Series. + + ValueError + If row/column label pair is not a tuple or if any label + from the pair is not a scalar for DataFrame. + If label is list-like (*excluding* NamedTuple) for Series. + + See Also + -------- + DataFrame.at : Access a single value for a row/column pair by label. + DataFrame.iat : Access a single value for a row/column pair by integer + position. + DataFrame.loc : Access a group of rows and columns by label(s). + DataFrame.iloc : Access a group of rows and columns by integer + position(s). + Series.at : Access a single value by label. + Series.iat : Access a single value by integer position. + Series.loc : Access a group of rows by label(s). + Series.iloc : Access a group of rows by integer position(s). + + Notes + ----- + See :ref:`Fast scalar value getting and setting ` + for more details. + + Examples + -------- + >>> df = pd.DataFrame([[0, 2, 3], [0, 4, 1], [10, 20, 30]], + ... index=[4, 5, 6], columns=['A', 'B', 'C']) + >>> df + A B C + 4 0 2 3 + 5 0 4 1 + 6 10 20 30 + + Get value at specified row/column pair + + >>> df.at[4, 'B'] + 2 + + Set value at specified row/column pair + + >>> df.at[4, 'B'] = 10 + >>> df.at[4, 'B'] + 10 + + Get value within a Series + + >>> df.loc[5].at['B'] + 4 + """ + return _AtIndexer("at", self) + + @property + def iat(self) -> _iAtIndexer: + """ + Access a single value for a row/column pair by integer position. + + Similar to ``iloc``, in that both provide integer-based lookups. Use + ``iat`` if you only need to get or set a single value in a DataFrame + or Series. + + Raises + ------ + IndexError + When integer position is out of bounds. + + See Also + -------- + DataFrame.at : Access a single value for a row/column label pair. + DataFrame.loc : Access a group of rows and columns by label(s). + DataFrame.iloc : Access a group of rows and columns by integer position(s). + + Examples + -------- + >>> df = pd.DataFrame([[0, 2, 3], [0, 4, 1], [10, 20, 30]], + ... columns=['A', 'B', 'C']) + >>> df + A B C + 0 0 2 3 + 1 0 4 1 + 2 10 20 30 + + Get value at specified row/column pair + + >>> df.iat[1, 2] + 1 + + Set value at specified row/column pair + + >>> df.iat[1, 2] = 10 + >>> df.iat[1, 2] + 10 + + Get value within a series + + >>> df.loc[0].iat[1] + 2 + """ + return _iAtIndexer("iat", self) + + +class _LocationIndexer(NDFrameIndexerBase): + _valid_types: str + axis: AxisInt | None = None + + # sub-classes need to set _takeable + _takeable: bool + + @final + def __call__(self, axis: Axis | None = None) -> Self: + # we need to return a copy of ourselves + new_self = type(self)(self.name, self.obj) + + if axis is not None: + axis_int_none = self.obj._get_axis_number(axis) + else: + axis_int_none = axis + new_self.axis = axis_int_none + return new_self + + def _get_setitem_indexer(self, key): + """ + Convert a potentially-label-based key into a positional indexer. + """ + if self.name == "loc": + # always holds here bc iloc overrides _get_setitem_indexer + self._ensure_listlike_indexer(key) + + if isinstance(key, tuple): + for x in key: + check_dict_or_set_indexers(x) + + if self.axis is not None: + key = _tupleize_axis_indexer(self.ndim, self.axis, key) + + ax = self.obj._get_axis(0) + + if ( + isinstance(ax, MultiIndex) + and self.name != "iloc" + and is_hashable(key) + and not isinstance(key, slice) + ): + with suppress(KeyError, InvalidIndexError): + # TypeError e.g. passed a bool + return ax.get_loc(key) + + if isinstance(key, tuple): + with suppress(IndexingError): + # suppress "Too many indexers" + return self._convert_tuple(key) + + if isinstance(key, range): + # GH#45479 test_loc_setitem_range_key + key = list(key) + + return self._convert_to_indexer(key, axis=0) + + @final + def _maybe_mask_setitem_value(self, indexer, value): + """ + If we have obj.iloc[mask] = series_or_frame and series_or_frame has the + same length as obj, we treat this as obj.iloc[mask] = series_or_frame[mask], + similar to Series.__setitem__. + + Note this is only for loc, not iloc. + """ + + if ( + isinstance(indexer, tuple) + and len(indexer) == 2 + and isinstance(value, (ABCSeries, ABCDataFrame)) + ): + pi, icols = indexer + ndim = value.ndim + if com.is_bool_indexer(pi) and len(value) == len(pi): + newkey = pi.nonzero()[0] + + if is_scalar_indexer(icols, self.ndim - 1) and ndim == 1: + # e.g. test_loc_setitem_boolean_mask_allfalse + # test_loc_setitem_ndframe_values_alignment + value = self.obj.iloc._align_series(indexer, value) + indexer = (newkey, icols) + + elif ( + isinstance(icols, np.ndarray) + and icols.dtype.kind == "i" + and len(icols) == 1 + ): + if ndim == 1: + # We implicitly broadcast, though numpy does not, see + # github.com/pandas-dev/pandas/pull/45501#discussion_r789071825 + # test_loc_setitem_ndframe_values_alignment + value = self.obj.iloc._align_series(indexer, value) + indexer = (newkey, icols) + + elif ndim == 2 and value.shape[1] == 1: + # test_loc_setitem_ndframe_values_alignment + value = self.obj.iloc._align_frame(indexer, value) + indexer = (newkey, icols) + elif com.is_bool_indexer(indexer): + indexer = indexer.nonzero()[0] + + return indexer, value + + @final + def _ensure_listlike_indexer(self, key, axis=None, value=None) -> None: + """ + Ensure that a list-like of column labels are all present by adding them if + they do not already exist. + + Parameters + ---------- + key : list-like of column labels + Target labels. + axis : key axis if known + """ + column_axis = 1 + + # column only exists in 2-dimensional DataFrame + if self.ndim != 2: + return + + if isinstance(key, tuple) and len(key) > 1: + # key may be a tuple if we are .loc + # if length of key is > 1 set key to column part + key = key[column_axis] + axis = column_axis + + if ( + axis == column_axis + and not isinstance(self.obj.columns, MultiIndex) + and is_list_like_indexer(key) + and not com.is_bool_indexer(key) + and all(is_hashable(k) for k in key) + ): + # GH#38148 + keys = self.obj.columns.union(key, sort=False) + diff = Index(key).difference(self.obj.columns, sort=False) + + if len(diff): + # e.g. if we are doing df.loc[:, ["A", "B"]] = 7 and "B" + # is a new column, add the new columns with dtype=np.void + # so that later when we go through setitem_single_column + # we will use isetitem. Without this, the reindex_axis + # below would create float64 columns in this example, which + # would successfully hold 7, so we would end up with the wrong + # dtype. + indexer = np.arange(len(keys), dtype=np.intp) + indexer[len(self.obj.columns) :] = -1 + new_mgr = self.obj._mgr.reindex_indexer( + keys, indexer=indexer, axis=0, only_slice=True, use_na_proxy=True + ) + self.obj._mgr = new_mgr + return + + self.obj._mgr = self.obj._mgr.reindex_axis(keys, axis=0, only_slice=True) + + @final + def __setitem__(self, key, value) -> None: + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self.obj) <= 2: + warnings.warn( + _chained_assignment_msg, ChainedAssignmentError, stacklevel=2 + ) + elif not PYPY and not using_copy_on_write(): + ctr = sys.getrefcount(self.obj) + ref_count = 2 + if not warn_copy_on_write() and _check_cacher(self.obj): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_msg, FutureWarning, stacklevel=2 + ) + + check_dict_or_set_indexers(key) + if isinstance(key, tuple): + key = tuple(list(x) if is_iterator(x) else x for x in key) + key = tuple(com.apply_if_callable(x, self.obj) for x in key) + else: + maybe_callable = com.apply_if_callable(key, self.obj) + key = self._check_deprecated_callable_usage(key, maybe_callable) + indexer = self._get_setitem_indexer(key) + self._has_valid_setitem_indexer(key) + + iloc = self if self.name == "iloc" else self.obj.iloc + iloc._setitem_with_indexer(indexer, value, self.name) + + def _validate_key(self, key, axis: AxisInt): + """ + Ensure that key is valid for current indexer. + + Parameters + ---------- + key : scalar, slice or list-like + Key requested. + axis : int + Dimension on which the indexing is being made. + + Raises + ------ + TypeError + If the key (or some element of it) has wrong type. + IndexError + If the key (or some element of it) is out of bounds. + KeyError + If the key was not found. + """ + raise AbstractMethodError(self) + + @final + def _expand_ellipsis(self, tup: tuple) -> tuple: + """ + If a tuple key includes an Ellipsis, replace it with an appropriate + number of null slices. + """ + if any(x is Ellipsis for x in tup): + if tup.count(Ellipsis) > 1: + raise IndexingError(_one_ellipsis_message) + + if len(tup) == self.ndim: + # It is unambiguous what axis this Ellipsis is indexing, + # treat as a single null slice. + i = tup.index(Ellipsis) + # FIXME: this assumes only one Ellipsis + new_key = tup[:i] + (_NS,) + tup[i + 1 :] + return new_key + + # TODO: other cases? only one test gets here, and that is covered + # by _validate_key_length + return tup + + @final + def _validate_tuple_indexer(self, key: tuple) -> tuple: + """ + Check the key for valid keys across my indexer. + """ + key = self._validate_key_length(key) + key = self._expand_ellipsis(key) + for i, k in enumerate(key): + try: + self._validate_key(k, i) + except ValueError as err: + raise ValueError( + "Location based indexing can only have " + f"[{self._valid_types}] types" + ) from err + return key + + @final + def _is_nested_tuple_indexer(self, tup: tuple) -> bool: + """ + Returns + ------- + bool + """ + if any(isinstance(ax, MultiIndex) for ax in self.obj.axes): + return any(is_nested_tuple(tup, ax) for ax in self.obj.axes) + return False + + @final + def _convert_tuple(self, key: tuple) -> tuple: + # Note: we assume _tupleize_axis_indexer has been called, if necessary. + self._validate_key_length(key) + keyidx = [self._convert_to_indexer(k, axis=i) for i, k in enumerate(key)] + return tuple(keyidx) + + @final + def _validate_key_length(self, key: tuple) -> tuple: + if len(key) > self.ndim: + if key[0] is Ellipsis: + # e.g. Series.iloc[..., 3] reduces to just Series.iloc[3] + key = key[1:] + if Ellipsis in key: + raise IndexingError(_one_ellipsis_message) + return self._validate_key_length(key) + raise IndexingError("Too many indexers") + return key + + @final + def _getitem_tuple_same_dim(self, tup: tuple): + """ + Index with indexers that should return an object of the same dimension + as self.obj. + + This is only called after a failed call to _getitem_lowerdim. + """ + retval = self.obj + # Selecting columns before rows is significantly faster + start_val = (self.ndim - len(tup)) + 1 + for i, key in enumerate(reversed(tup)): + i = self.ndim - i - start_val + if com.is_null_slice(key): + continue + + retval = getattr(retval, self.name)._getitem_axis(key, axis=i) + # We should never have retval.ndim < self.ndim, as that should + # be handled by the _getitem_lowerdim call above. + assert retval.ndim == self.ndim + + if retval is self.obj: + # if all axes were a null slice (`df.loc[:, :]`), ensure we still + # return a new object (https://github.com/pandas-dev/pandas/pull/49469) + retval = retval.copy(deep=False) + + return retval + + @final + def _getitem_lowerdim(self, tup: tuple): + # we can directly get the axis result since the axis is specified + if self.axis is not None: + axis = self.obj._get_axis_number(self.axis) + return self._getitem_axis(tup, axis=axis) + + # we may have a nested tuples indexer here + if self._is_nested_tuple_indexer(tup): + return self._getitem_nested_tuple(tup) + + # we maybe be using a tuple to represent multiple dimensions here + ax0 = self.obj._get_axis(0) + # ...but iloc should handle the tuple as simple integer-location + # instead of checking it as multiindex representation (GH 13797) + if ( + isinstance(ax0, MultiIndex) + and self.name != "iloc" + and not any(isinstance(x, slice) for x in tup) + ): + # Note: in all extant test cases, replacing the slice condition with + # `all(is_hashable(x) or com.is_null_slice(x) for x in tup)` + # is equivalent. + # (see the other place where we call _handle_lowerdim_multi_index_axis0) + with suppress(IndexingError): + return cast(_LocIndexer, self)._handle_lowerdim_multi_index_axis0(tup) + + tup = self._validate_key_length(tup) + + for i, key in enumerate(tup): + if is_label_like(key): + # We don't need to check for tuples here because those are + # caught by the _is_nested_tuple_indexer check above. + section = self._getitem_axis(key, axis=i) + + # We should never have a scalar section here, because + # _getitem_lowerdim is only called after a check for + # is_scalar_access, which that would be. + if section.ndim == self.ndim: + # we're in the middle of slicing through a MultiIndex + # revise the key wrt to `section` by inserting an _NS + new_key = tup[:i] + (_NS,) + tup[i + 1 :] + + else: + # Note: the section.ndim == self.ndim check above + # rules out having DataFrame here, so we dont need to worry + # about transposing. + new_key = tup[:i] + tup[i + 1 :] + + if len(new_key) == 1: + new_key = new_key[0] + + # Slices should return views, but calling iloc/loc with a null + # slice returns a new object. + if com.is_null_slice(new_key): + return section + # This is an elided recursive call to iloc/loc + return getattr(section, self.name)[new_key] + + raise IndexingError("not applicable") + + @final + def _getitem_nested_tuple(self, tup: tuple): + # we have a nested tuple so have at least 1 multi-index level + # we should be able to match up the dimensionality here + + def _contains_slice(x: object) -> bool: + # Check if object is a slice or a tuple containing a slice + if isinstance(x, tuple): + return any(isinstance(v, slice) for v in x) + elif isinstance(x, slice): + return True + return False + + for key in tup: + check_dict_or_set_indexers(key) + + # we have too many indexers for our dim, but have at least 1 + # multi-index dimension, try to see if we have something like + # a tuple passed to a series with a multi-index + if len(tup) > self.ndim: + if self.name != "loc": + # This should never be reached, but let's be explicit about it + raise ValueError("Too many indices") # pragma: no cover + if all( + (is_hashable(x) and not _contains_slice(x)) or com.is_null_slice(x) + for x in tup + ): + # GH#10521 Series should reduce MultiIndex dimensions instead of + # DataFrame, IndexingError is not raised when slice(None,None,None) + # with one row. + with suppress(IndexingError): + return cast(_LocIndexer, self)._handle_lowerdim_multi_index_axis0( + tup + ) + elif isinstance(self.obj, ABCSeries) and any( + isinstance(k, tuple) for k in tup + ): + # GH#35349 Raise if tuple in tuple for series + # Do this after the all-hashable-or-null-slice check so that + # we are only getting non-hashable tuples, in particular ones + # that themselves contain a slice entry + # See test_loc_series_getitem_too_many_dimensions + raise IndexingError("Too many indexers") + + # this is a series with a multi-index specified a tuple of + # selectors + axis = self.axis or 0 + return self._getitem_axis(tup, axis=axis) + + # handle the multi-axis by taking sections and reducing + # this is iterative + obj = self.obj + # GH#41369 Loop in reverse order ensures indexing along columns before rows + # which selects only necessary blocks which avoids dtype conversion if possible + axis = len(tup) - 1 + for key in tup[::-1]: + if com.is_null_slice(key): + axis -= 1 + continue + + obj = getattr(obj, self.name)._getitem_axis(key, axis=axis) + axis -= 1 + + # if we have a scalar, we are done + if is_scalar(obj) or not hasattr(obj, "ndim"): + break + + return obj + + def _convert_to_indexer(self, key, axis: AxisInt): + raise AbstractMethodError(self) + + def _check_deprecated_callable_usage(self, key: Any, maybe_callable: T) -> T: + # GH53533 + if self.name == "iloc" and callable(key) and isinstance(maybe_callable, tuple): + warnings.warn( + "Returning a tuple from a callable with iloc " + "is deprecated and will be removed in a future version", + FutureWarning, + stacklevel=find_stack_level(), + ) + return maybe_callable + + @final + def __getitem__(self, key): + check_dict_or_set_indexers(key) + if type(key) is tuple: + key = tuple(list(x) if is_iterator(x) else x for x in key) + key = tuple(com.apply_if_callable(x, self.obj) for x in key) + if self._is_scalar_access(key): + return self.obj._get_value(*key, takeable=self._takeable) + return self._getitem_tuple(key) + else: + # we by definition only have the 0th axis + axis = self.axis or 0 + + maybe_callable = com.apply_if_callable(key, self.obj) + maybe_callable = self._check_deprecated_callable_usage(key, maybe_callable) + return self._getitem_axis(maybe_callable, axis=axis) + + def _is_scalar_access(self, key: tuple): + raise NotImplementedError() + + def _getitem_tuple(self, tup: tuple): + raise AbstractMethodError(self) + + def _getitem_axis(self, key, axis: AxisInt): + raise NotImplementedError() + + def _has_valid_setitem_indexer(self, indexer) -> bool: + raise AbstractMethodError(self) + + @final + def _getbool_axis(self, key, axis: AxisInt): + # caller is responsible for ensuring non-None axis + labels = self.obj._get_axis(axis) + key = check_bool_indexer(labels, key) + inds = key.nonzero()[0] + return self.obj._take_with_is_copy(inds, axis=axis) + + +@doc(IndexingMixin.loc) +class _LocIndexer(_LocationIndexer): + _takeable: bool = False + _valid_types = ( + "labels (MUST BE IN THE INDEX), slices of labels (BOTH " + "endpoints included! Can be slices of integers if the " + "index is integers), listlike of labels, boolean" + ) + + # ------------------------------------------------------------------- + # Key Checks + + @doc(_LocationIndexer._validate_key) + def _validate_key(self, key, axis: Axis): + # valid for a collection of labels (we check their presence later) + # slice of labels (where start-end in labels) + # slice of integers (only if in the labels) + # boolean not in slice and with boolean index + ax = self.obj._get_axis(axis) + if isinstance(key, bool) and not ( + is_bool_dtype(ax.dtype) + or ax.dtype.name == "boolean" + or isinstance(ax, MultiIndex) + and is_bool_dtype(ax.get_level_values(0).dtype) + ): + raise KeyError( + f"{key}: boolean label can not be used without a boolean index" + ) + + if isinstance(key, slice) and ( + isinstance(key.start, bool) or isinstance(key.stop, bool) + ): + raise TypeError(f"{key}: boolean values can not be used in a slice") + + def _has_valid_setitem_indexer(self, indexer) -> bool: + return True + + def _is_scalar_access(self, key: tuple) -> bool: + """ + Returns + ------- + bool + """ + # this is a shortcut accessor to both .loc and .iloc + # that provide the equivalent access of .at and .iat + # a) avoid getting things via sections and (to minimize dtype changes) + # b) provide a performant path + if len(key) != self.ndim: + return False + + for i, k in enumerate(key): + if not is_scalar(k): + return False + + ax = self.obj.axes[i] + if isinstance(ax, MultiIndex): + return False + + if isinstance(k, str) and ax._supports_partial_string_indexing: + # partial string indexing, df.loc['2000', 'A'] + # should not be considered scalar + return False + + if not ax._index_as_unique: + return False + + return True + + # ------------------------------------------------------------------- + # MultiIndex Handling + + def _multi_take_opportunity(self, tup: tuple) -> bool: + """ + Check whether there is the possibility to use ``_multi_take``. + + Currently the limit is that all axes being indexed, must be indexed with + list-likes. + + Parameters + ---------- + tup : tuple + Tuple of indexers, one per axis. + + Returns + ------- + bool + Whether the current indexing, + can be passed through `_multi_take`. + """ + if not all(is_list_like_indexer(x) for x in tup): + return False + + # just too complicated + return not any(com.is_bool_indexer(x) for x in tup) + + def _multi_take(self, tup: tuple): + """ + Create the indexers for the passed tuple of keys, and + executes the take operation. This allows the take operation to be + executed all at once, rather than once for each dimension. + Improving efficiency. + + Parameters + ---------- + tup : tuple + Tuple of indexers, one per axis. + + Returns + ------- + values: same type as the object being indexed + """ + # GH 836 + d = { + axis: self._get_listlike_indexer(key, axis) + for (key, axis) in zip(tup, self.obj._AXIS_ORDERS) + } + return self.obj._reindex_with_indexers(d, copy=True, allow_dups=True) + + # ------------------------------------------------------------------- + + def _getitem_iterable(self, key, axis: AxisInt): + """ + Index current object with an iterable collection of keys. + + Parameters + ---------- + key : iterable + Targeted labels. + axis : int + Dimension on which the indexing is being made. + + Raises + ------ + KeyError + If no key was found. Will change in the future to raise if not all + keys were found. + + Returns + ------- + scalar, DataFrame, or Series: indexed value(s). + """ + # we assume that not com.is_bool_indexer(key), as that is + # handled before we get here. + self._validate_key(key, axis) + + # A collection of keys + keyarr, indexer = self._get_listlike_indexer(key, axis) + return self.obj._reindex_with_indexers( + {axis: [keyarr, indexer]}, copy=True, allow_dups=True + ) + + def _getitem_tuple(self, tup: tuple): + with suppress(IndexingError): + tup = self._expand_ellipsis(tup) + return self._getitem_lowerdim(tup) + + # no multi-index, so validate all of the indexers + tup = self._validate_tuple_indexer(tup) + + # ugly hack for GH #836 + if self._multi_take_opportunity(tup): + return self._multi_take(tup) + + return self._getitem_tuple_same_dim(tup) + + def _get_label(self, label, axis: AxisInt): + # GH#5567 this will fail if the label is not present in the axis. + return self.obj.xs(label, axis=axis) + + def _handle_lowerdim_multi_index_axis0(self, tup: tuple): + # we have an axis0 multi-index, handle or raise + axis = self.axis or 0 + try: + # fast path for series or for tup devoid of slices + return self._get_label(tup, axis=axis) + + except KeyError as ek: + # raise KeyError if number of indexers match + # else IndexingError will be raised + if self.ndim < len(tup) <= self.obj.index.nlevels: + raise ek + raise IndexingError("No label returned") from ek + + def _getitem_axis(self, key, axis: AxisInt): + key = item_from_zerodim(key) + if is_iterator(key): + key = list(key) + if key is Ellipsis: + key = slice(None) + + labels = self.obj._get_axis(axis) + + if isinstance(key, tuple) and isinstance(labels, MultiIndex): + key = tuple(key) + + if isinstance(key, slice): + self._validate_key(key, axis) + return self._get_slice_axis(key, axis=axis) + elif com.is_bool_indexer(key): + return self._getbool_axis(key, axis=axis) + elif is_list_like_indexer(key): + # an iterable multi-selection + if not (isinstance(key, tuple) and isinstance(labels, MultiIndex)): + if hasattr(key, "ndim") and key.ndim > 1: + raise ValueError("Cannot index with multidimensional key") + + return self._getitem_iterable(key, axis=axis) + + # nested tuple slicing + if is_nested_tuple(key, labels): + locs = labels.get_locs(key) + indexer: list[slice | npt.NDArray[np.intp]] = [slice(None)] * self.ndim + indexer[axis] = locs + return self.obj.iloc[tuple(indexer)] + + # fall thru to straight lookup + self._validate_key(key, axis) + return self._get_label(key, axis=axis) + + def _get_slice_axis(self, slice_obj: slice, axis: AxisInt): + """ + This is pretty simple as we just have to deal with labels. + """ + # caller is responsible for ensuring non-None axis + obj = self.obj + if not need_slice(slice_obj): + return obj.copy(deep=False) + + labels = obj._get_axis(axis) + indexer = labels.slice_indexer(slice_obj.start, slice_obj.stop, slice_obj.step) + + if isinstance(indexer, slice): + return self.obj._slice(indexer, axis=axis) + else: + # DatetimeIndex overrides Index.slice_indexer and may + # return a DatetimeIndex instead of a slice object. + return self.obj.take(indexer, axis=axis) + + def _convert_to_indexer(self, key, axis: AxisInt): + """ + Convert indexing key into something we can use to do actual fancy + indexing on a ndarray. + + Examples + ix[:5] -> slice(0, 5) + ix[[1,2,3]] -> [1,2,3] + ix[['foo', 'bar', 'baz']] -> [i, j, k] (indices of foo, bar, baz) + + Going by Zen of Python? + 'In the face of ambiguity, refuse the temptation to guess.' + raise AmbiguousIndexError with integer labels? + - No, prefer label-based indexing + """ + labels = self.obj._get_axis(axis) + + if isinstance(key, slice): + return labels._convert_slice_indexer(key, kind="loc") + + if ( + isinstance(key, tuple) + and not isinstance(labels, MultiIndex) + and self.ndim < 2 + and len(key) > 1 + ): + raise IndexingError("Too many indexers") + + # Slices are not valid keys passed in by the user, + # even though they are hashable in Python 3.12 + contains_slice = False + if isinstance(key, tuple): + contains_slice = any(isinstance(v, slice) for v in key) + + if is_scalar(key) or ( + isinstance(labels, MultiIndex) and is_hashable(key) and not contains_slice + ): + # Otherwise get_loc will raise InvalidIndexError + + # if we are a label return me + try: + return labels.get_loc(key) + except LookupError: + if isinstance(key, tuple) and isinstance(labels, MultiIndex): + if len(key) == labels.nlevels: + return {"key": key} + raise + except InvalidIndexError: + # GH35015, using datetime as column indices raises exception + if not isinstance(labels, MultiIndex): + raise + except ValueError: + if not is_integer(key): + raise + return {"key": key} + + if is_nested_tuple(key, labels): + if self.ndim == 1 and any(isinstance(k, tuple) for k in key): + # GH#35349 Raise if tuple in tuple for series + raise IndexingError("Too many indexers") + return labels.get_locs(key) + + elif is_list_like_indexer(key): + if is_iterator(key): + key = list(key) + + if com.is_bool_indexer(key): + key = check_bool_indexer(labels, key) + return key + else: + return self._get_listlike_indexer(key, axis)[1] + else: + try: + return labels.get_loc(key) + except LookupError: + # allow a not found key only if we are a setter + if not is_list_like_indexer(key): + return {"key": key} + raise + + def _get_listlike_indexer(self, key, axis: AxisInt): + """ + Transform a list-like of keys into a new index and an indexer. + + Parameters + ---------- + key : list-like + Targeted labels. + axis: int + Dimension on which the indexing is being made. + + Raises + ------ + KeyError + If at least one key was requested but none was found. + + Returns + ------- + keyarr: Index + New index (coinciding with 'key' if the axis is unique). + values : array-like + Indexer for the return object, -1 denotes keys not found. + """ + ax = self.obj._get_axis(axis) + axis_name = self.obj._get_axis_name(axis) + + keyarr, indexer = ax._get_indexer_strict(key, axis_name) + + return keyarr, indexer + + +@doc(IndexingMixin.iloc) +class _iLocIndexer(_LocationIndexer): + _valid_types = ( + "integer, integer slice (START point is INCLUDED, END " + "point is EXCLUDED), listlike of integers, boolean array" + ) + _takeable = True + + # ------------------------------------------------------------------- + # Key Checks + + def _validate_key(self, key, axis: AxisInt): + if com.is_bool_indexer(key): + if hasattr(key, "index") and isinstance(key.index, Index): + if key.index.inferred_type == "integer": + raise NotImplementedError( + "iLocation based boolean " + "indexing on an integer type " + "is not available" + ) + raise ValueError( + "iLocation based boolean indexing cannot use " + "an indexable as a mask" + ) + return + + if isinstance(key, slice): + return + elif is_integer(key): + self._validate_integer(key, axis) + elif isinstance(key, tuple): + # a tuple should already have been caught by this point + # so don't treat a tuple as a valid indexer + raise IndexingError("Too many indexers") + elif is_list_like_indexer(key): + if isinstance(key, ABCSeries): + arr = key._values + elif is_array_like(key): + arr = key + else: + arr = np.array(key) + len_axis = len(self.obj._get_axis(axis)) + + # check that the key has a numeric dtype + if not is_numeric_dtype(arr.dtype): + raise IndexError(f".iloc requires numeric indexers, got {arr}") + + # check that the key does not exceed the maximum size of the index + if len(arr) and (arr.max() >= len_axis or arr.min() < -len_axis): + raise IndexError("positional indexers are out-of-bounds") + else: + raise ValueError(f"Can only index by location with a [{self._valid_types}]") + + def _has_valid_setitem_indexer(self, indexer) -> bool: + """ + Validate that a positional indexer cannot enlarge its target + will raise if needed, does not modify the indexer externally. + + Returns + ------- + bool + """ + if isinstance(indexer, dict): + raise IndexError("iloc cannot enlarge its target object") + + if isinstance(indexer, ABCDataFrame): + raise TypeError( + "DataFrame indexer for .iloc is not supported. " + "Consider using .loc with a DataFrame indexer for automatic alignment.", + ) + + if not isinstance(indexer, tuple): + indexer = _tuplify(self.ndim, indexer) + + for ax, i in zip(self.obj.axes, indexer): + if isinstance(i, slice): + # should check the stop slice? + pass + elif is_list_like_indexer(i): + # should check the elements? + pass + elif is_integer(i): + if i >= len(ax): + raise IndexError("iloc cannot enlarge its target object") + elif isinstance(i, dict): + raise IndexError("iloc cannot enlarge its target object") + + return True + + def _is_scalar_access(self, key: tuple) -> bool: + """ + Returns + ------- + bool + """ + # this is a shortcut accessor to both .loc and .iloc + # that provide the equivalent access of .at and .iat + # a) avoid getting things via sections and (to minimize dtype changes) + # b) provide a performant path + if len(key) != self.ndim: + return False + + return all(is_integer(k) for k in key) + + def _validate_integer(self, key: int | np.integer, axis: AxisInt) -> None: + """ + Check that 'key' is a valid position in the desired axis. + + Parameters + ---------- + key : int + Requested position. + axis : int + Desired axis. + + Raises + ------ + IndexError + If 'key' is not a valid position in axis 'axis'. + """ + len_axis = len(self.obj._get_axis(axis)) + if key >= len_axis or key < -len_axis: + raise IndexError("single positional indexer is out-of-bounds") + + # ------------------------------------------------------------------- + + def _getitem_tuple(self, tup: tuple): + tup = self._validate_tuple_indexer(tup) + with suppress(IndexingError): + return self._getitem_lowerdim(tup) + + return self._getitem_tuple_same_dim(tup) + + def _get_list_axis(self, key, axis: AxisInt): + """ + Return Series values by list or array of integers. + + Parameters + ---------- + key : list-like positional indexer + axis : int + + Returns + ------- + Series object + + Notes + ----- + `axis` can only be zero. + """ + try: + return self.obj._take_with_is_copy(key, axis=axis) + except IndexError as err: + # re-raise with different error message, e.g. test_getitem_ndarray_3d + raise IndexError("positional indexers are out-of-bounds") from err + + def _getitem_axis(self, key, axis: AxisInt): + if key is Ellipsis: + key = slice(None) + elif isinstance(key, ABCDataFrame): + raise IndexError( + "DataFrame indexer is not allowed for .iloc\n" + "Consider using .loc for automatic alignment." + ) + + if isinstance(key, slice): + return self._get_slice_axis(key, axis=axis) + + if is_iterator(key): + key = list(key) + + if isinstance(key, list): + key = np.asarray(key) + + if com.is_bool_indexer(key): + self._validate_key(key, axis) + return self._getbool_axis(key, axis=axis) + + # a list of integers + elif is_list_like_indexer(key): + return self._get_list_axis(key, axis=axis) + + # a single integer + else: + key = item_from_zerodim(key) + if not is_integer(key): + raise TypeError("Cannot index by location index with a non-integer key") + + # validate the location + self._validate_integer(key, axis) + + return self.obj._ixs(key, axis=axis) + + def _get_slice_axis(self, slice_obj: slice, axis: AxisInt): + # caller is responsible for ensuring non-None axis + obj = self.obj + + if not need_slice(slice_obj): + return obj.copy(deep=False) + + labels = obj._get_axis(axis) + labels._validate_positional_slice(slice_obj) + return self.obj._slice(slice_obj, axis=axis) + + def _convert_to_indexer(self, key, axis: AxisInt): + """ + Much simpler as we only have to deal with our valid types. + """ + return key + + def _get_setitem_indexer(self, key): + # GH#32257 Fall through to let numpy do validation + if is_iterator(key): + key = list(key) + + if self.axis is not None: + key = _tupleize_axis_indexer(self.ndim, self.axis, key) + + return key + + # ------------------------------------------------------------------- + + def _setitem_with_indexer(self, indexer, value, name: str = "iloc"): + """ + _setitem_with_indexer is for setting values on a Series/DataFrame + using positional indexers. + + If the relevant keys are not present, the Series/DataFrame may be + expanded. + + This method is currently broken when dealing with non-unique Indexes, + since it goes from positional indexers back to labels when calling + BlockManager methods, see GH#12991, GH#22046, GH#15686. + """ + info_axis = self.obj._info_axis_number + + # maybe partial set + take_split_path = not self.obj._mgr.is_single_block + + if not take_split_path and isinstance(value, ABCDataFrame): + # Avoid cast of values + take_split_path = not value._mgr.is_single_block + + # if there is only one block/type, still have to take split path + # unless the block is one-dimensional or it can hold the value + if not take_split_path and len(self.obj._mgr.arrays) and self.ndim > 1: + # in case of dict, keys are indices + val = list(value.values()) if isinstance(value, dict) else value + arr = self.obj._mgr.arrays[0] + take_split_path = not can_hold_element( + arr, extract_array(val, extract_numpy=True) + ) + + # if we have any multi-indexes that have non-trivial slices + # (not null slices) then we must take the split path, xref + # GH 10360, GH 27841 + if isinstance(indexer, tuple) and len(indexer) == len(self.obj.axes): + for i, ax in zip(indexer, self.obj.axes): + if isinstance(ax, MultiIndex) and not ( + is_integer(i) or com.is_null_slice(i) + ): + take_split_path = True + break + + if isinstance(indexer, tuple): + nindexer = [] + for i, idx in enumerate(indexer): + if isinstance(idx, dict): + # reindex the axis to the new value + # and set inplace + key, _ = convert_missing_indexer(idx) + + # if this is the items axes, then take the main missing + # path first + # this correctly sets the dtype and avoids cache issues + # essentially this separates out the block that is needed + # to possibly be modified + if self.ndim > 1 and i == info_axis: + # add the new item, and set the value + # must have all defined axes if we have a scalar + # or a list-like on the non-info axes if we have a + # list-like + if not len(self.obj): + if not is_list_like_indexer(value): + raise ValueError( + "cannot set a frame with no " + "defined index and a scalar" + ) + self.obj[key] = value + return + + # add a new item with the dtype setup + if com.is_null_slice(indexer[0]): + # We are setting an entire column + self.obj[key] = value + return + elif is_array_like(value): + # GH#42099 + arr = extract_array(value, extract_numpy=True) + taker = -1 * np.ones(len(self.obj), dtype=np.intp) + empty_value = algos.take_nd(arr, taker) + if not isinstance(value, ABCSeries): + # if not Series (in which case we need to align), + # we can short-circuit + if ( + isinstance(arr, np.ndarray) + and arr.ndim == 1 + and len(arr) == 1 + ): + # NumPy 1.25 deprecation: https://github.com/numpy/numpy/pull/10615 + arr = arr[0, ...] + empty_value[indexer[0]] = arr + self.obj[key] = empty_value + return + + self.obj[key] = empty_value + elif not is_list_like(value): + self.obj[key] = construct_1d_array_from_inferred_fill_value( + value, len(self.obj) + ) + else: + # FIXME: GH#42099#issuecomment-864326014 + self.obj[key] = infer_fill_value(value) + + new_indexer = convert_from_missing_indexer_tuple( + indexer, self.obj.axes + ) + self._setitem_with_indexer(new_indexer, value, name) + + return + + # reindex the axis + # make sure to clear the cache because we are + # just replacing the block manager here + # so the object is the same + index = self.obj._get_axis(i) + with warnings.catch_warnings(): + # TODO: re-issue this with setitem-specific message? + warnings.filterwarnings( + "ignore", + "The behavior of Index.insert with object-dtype " + "is deprecated", + category=FutureWarning, + ) + labels = index.insert(len(index), key) + + # We are expanding the Series/DataFrame values to match + # the length of thenew index `labels`. GH#40096 ensure + # this is valid even if the index has duplicates. + taker = np.arange(len(index) + 1, dtype=np.intp) + taker[-1] = -1 + reindexers = {i: (labels, taker)} + new_obj = self.obj._reindex_with_indexers( + reindexers, allow_dups=True + ) + self.obj._mgr = new_obj._mgr + self.obj._maybe_update_cacher(clear=True) + self.obj._is_copy = None + + nindexer.append(labels.get_loc(key)) + + else: + nindexer.append(idx) + + indexer = tuple(nindexer) + else: + indexer, missing = convert_missing_indexer(indexer) + + if missing: + self._setitem_with_indexer_missing(indexer, value) + return + + if name == "loc": + # must come after setting of missing + indexer, value = self._maybe_mask_setitem_value(indexer, value) + + # align and set the values + if take_split_path: + # We have to operate column-wise + self._setitem_with_indexer_split_path(indexer, value, name) + else: + self._setitem_single_block(indexer, value, name) + + def _setitem_with_indexer_split_path(self, indexer, value, name: str): + """ + Setitem column-wise. + """ + # Above we only set take_split_path to True for 2D cases + assert self.ndim == 2 + + if not isinstance(indexer, tuple): + indexer = _tuplify(self.ndim, indexer) + if len(indexer) > self.ndim: + raise IndexError("too many indices for array") + if isinstance(indexer[0], np.ndarray) and indexer[0].ndim > 2: + raise ValueError(r"Cannot set values with ndim > 2") + + if (isinstance(value, ABCSeries) and name != "iloc") or isinstance(value, dict): + from pandas import Series + + value = self._align_series(indexer, Series(value)) + + # Ensure we have something we can iterate over + info_axis = indexer[1] + ilocs = self._ensure_iterable_column_indexer(info_axis) + + pi = indexer[0] + lplane_indexer = length_of_indexer(pi, self.obj.index) + # lplane_indexer gives the expected length of obj[indexer[0]] + + # we need an iterable, with a ndim of at least 1 + # eg. don't pass through np.array(0) + if is_list_like_indexer(value) and getattr(value, "ndim", 1) > 0: + if isinstance(value, ABCDataFrame): + self._setitem_with_indexer_frame_value(indexer, value, name) + + elif np.ndim(value) == 2: + # TODO: avoid np.ndim call in case it isn't an ndarray, since + # that will construct an ndarray, which will be wasteful + self._setitem_with_indexer_2d_value(indexer, value) + + elif len(ilocs) == 1 and lplane_indexer == len(value) and not is_scalar(pi): + # We are setting multiple rows in a single column. + self._setitem_single_column(ilocs[0], value, pi) + + elif len(ilocs) == 1 and 0 != lplane_indexer != len(value): + # We are trying to set N values into M entries of a single + # column, which is invalid for N != M + # Exclude zero-len for e.g. boolean masking that is all-false + + if len(value) == 1 and not is_integer(info_axis): + # This is a case like df.iloc[:3, [1]] = [0] + # where we treat as df.iloc[:3, 1] = 0 + return self._setitem_with_indexer((pi, info_axis[0]), value[0]) + + raise ValueError( + "Must have equal len keys and value " + "when setting with an iterable" + ) + + elif lplane_indexer == 0 and len(value) == len(self.obj.index): + # We get here in one case via .loc with a all-False mask + pass + + elif self._is_scalar_access(indexer) and is_object_dtype( + self.obj.dtypes._values[ilocs[0]] + ): + # We are setting nested data, only possible for object dtype data + self._setitem_single_column(indexer[1], value, pi) + + elif len(ilocs) == len(value): + # We are setting multiple columns in a single row. + for loc, v in zip(ilocs, value): + self._setitem_single_column(loc, v, pi) + + elif len(ilocs) == 1 and com.is_null_slice(pi) and len(self.obj) == 0: + # This is a setitem-with-expansion, see + # test_loc_setitem_empty_append_expands_rows_mixed_dtype + # e.g. df = DataFrame(columns=["x", "y"]) + # df["x"] = df["x"].astype(np.int64) + # df.loc[:, "x"] = [1, 2, 3] + self._setitem_single_column(ilocs[0], value, pi) + + else: + raise ValueError( + "Must have equal len keys and value " + "when setting with an iterable" + ) + + else: + # scalar value + for loc in ilocs: + self._setitem_single_column(loc, value, pi) + + def _setitem_with_indexer_2d_value(self, indexer, value): + # We get here with np.ndim(value) == 2, excluding DataFrame, + # which goes through _setitem_with_indexer_frame_value + pi = indexer[0] + + ilocs = self._ensure_iterable_column_indexer(indexer[1]) + + if not is_array_like(value): + # cast lists to array + value = np.array(value, dtype=object) + if len(ilocs) != value.shape[1]: + raise ValueError( + "Must have equal len keys and value when setting with an ndarray" + ) + + for i, loc in enumerate(ilocs): + value_col = value[:, i] + if is_object_dtype(value_col.dtype): + # casting to list so that we do type inference in setitem_single_column + value_col = value_col.tolist() + self._setitem_single_column(loc, value_col, pi) + + def _setitem_with_indexer_frame_value(self, indexer, value: DataFrame, name: str): + ilocs = self._ensure_iterable_column_indexer(indexer[1]) + + sub_indexer = list(indexer) + pi = indexer[0] + + multiindex_indexer = isinstance(self.obj.columns, MultiIndex) + + unique_cols = value.columns.is_unique + + # We do not want to align the value in case of iloc GH#37728 + if name == "iloc": + for i, loc in enumerate(ilocs): + val = value.iloc[:, i] + self._setitem_single_column(loc, val, pi) + + elif not unique_cols and value.columns.equals(self.obj.columns): + # We assume we are already aligned, see + # test_iloc_setitem_frame_duplicate_columns_multiple_blocks + for loc in ilocs: + item = self.obj.columns[loc] + if item in value: + sub_indexer[1] = item + val = self._align_series( + tuple(sub_indexer), + value.iloc[:, loc], + multiindex_indexer, + ) + else: + val = np.nan + + self._setitem_single_column(loc, val, pi) + + elif not unique_cols: + raise ValueError("Setting with non-unique columns is not allowed.") + + else: + for loc in ilocs: + item = self.obj.columns[loc] + if item in value: + sub_indexer[1] = item + val = self._align_series( + tuple(sub_indexer), + value[item], + multiindex_indexer, + using_cow=using_copy_on_write(), + ) + else: + val = np.nan + + self._setitem_single_column(loc, val, pi) + + def _setitem_single_column(self, loc: int, value, plane_indexer) -> None: + """ + + Parameters + ---------- + loc : int + Indexer for column position + plane_indexer : int, slice, listlike[int] + The indexer we use for setitem along axis=0. + """ + pi = plane_indexer + + is_full_setter = com.is_null_slice(pi) or com.is_full_slice(pi, len(self.obj)) + + is_null_setter = com.is_empty_slice(pi) or is_array_like(pi) and len(pi) == 0 + + if is_null_setter: + # no-op, don't cast dtype later + return + + elif is_full_setter: + try: + self.obj._mgr.column_setitem( + loc, plane_indexer, value, inplace_only=True + ) + except (ValueError, TypeError, LossySetitemError): + # If we're setting an entire column and we can't do it inplace, + # then we can use value's dtype (or inferred dtype) + # instead of object + dtype = self.obj.dtypes.iloc[loc] + if dtype not in (np.void, object) and not self.obj.empty: + # - Exclude np.void, as that is a special case for expansion. + # We want to warn for + # df = pd.DataFrame({'a': [1, 2]}) + # df.loc[:, 'a'] = .3 + # but not for + # df = pd.DataFrame({'a': [1, 2]}) + # df.loc[:, 'b'] = .3 + # - Exclude `object`, as then no upcasting happens. + # - Exclude empty initial object with enlargement, + # as then there's nothing to be inconsistent with. + warnings.warn( + f"Setting an item of incompatible dtype is deprecated " + "and will raise in a future error of pandas. " + f"Value '{value}' has dtype incompatible with {dtype}, " + "please explicitly cast to a compatible dtype first.", + FutureWarning, + stacklevel=find_stack_level(), + ) + self.obj.isetitem(loc, value) + else: + # set value into the column (first attempting to operate inplace, then + # falling back to casting if necessary) + dtype = self.obj.dtypes.iloc[loc] + if dtype == np.void: + # This means we're expanding, with multiple columns, e.g. + # df = pd.DataFrame({'A': [1,2,3], 'B': [4,5,6]}) + # df.loc[df.index <= 2, ['F', 'G']] = (1, 'abc') + # Columns F and G will initially be set to np.void. + # Here, we replace those temporary `np.void` columns with + # columns of the appropriate dtype, based on `value`. + self.obj.iloc[:, loc] = construct_1d_array_from_inferred_fill_value( + value, len(self.obj) + ) + self.obj._mgr.column_setitem(loc, plane_indexer, value) + + self.obj._clear_item_cache() + + def _setitem_single_block(self, indexer, value, name: str) -> None: + """ + _setitem_with_indexer for the case when we have a single Block. + """ + from pandas import Series + + if (isinstance(value, ABCSeries) and name != "iloc") or isinstance(value, dict): + # TODO(EA): ExtensionBlock.setitem this causes issues with + # setting for extensionarrays that store dicts. Need to decide + # if it's worth supporting that. + value = self._align_series(indexer, Series(value)) + + info_axis = self.obj._info_axis_number + item_labels = self.obj._get_axis(info_axis) + if isinstance(indexer, tuple): + # if we are setting on the info axis ONLY + # set using those methods to avoid block-splitting + # logic here + if ( + self.ndim == len(indexer) == 2 + and is_integer(indexer[1]) + and com.is_null_slice(indexer[0]) + ): + col = item_labels[indexer[info_axis]] + if len(item_labels.get_indexer_for([col])) == 1: + # e.g. test_loc_setitem_empty_append_expands_rows + loc = item_labels.get_loc(col) + self._setitem_single_column(loc, value, indexer[0]) + return + + indexer = maybe_convert_ix(*indexer) # e.g. test_setitem_frame_align + + if isinstance(value, ABCDataFrame) and name != "iloc": + value = self._align_frame(indexer, value)._values + + # check for chained assignment + self.obj._check_is_chained_assignment_possible() + + # actually do the set + self.obj._mgr = self.obj._mgr.setitem(indexer=indexer, value=value) + self.obj._maybe_update_cacher(clear=True, inplace=True) + + def _setitem_with_indexer_missing(self, indexer, value): + """ + Insert new row(s) or column(s) into the Series or DataFrame. + """ + from pandas import Series + + # reindex the axis to the new value + # and set inplace + if self.ndim == 1: + index = self.obj.index + with warnings.catch_warnings(): + # TODO: re-issue this with setitem-specific message? + warnings.filterwarnings( + "ignore", + "The behavior of Index.insert with object-dtype is deprecated", + category=FutureWarning, + ) + new_index = index.insert(len(index), indexer) + + # we have a coerced indexer, e.g. a float + # that matches in an int64 Index, so + # we will not create a duplicate index, rather + # index to that element + # e.g. 0.0 -> 0 + # GH#12246 + if index.is_unique: + # pass new_index[-1:] instead if [new_index[-1]] + # so that we retain dtype + new_indexer = index.get_indexer(new_index[-1:]) + if (new_indexer != -1).any(): + # We get only here with loc, so can hard code + return self._setitem_with_indexer(new_indexer, value, "loc") + + # this preserves dtype of the value and of the object + if not is_scalar(value): + new_dtype = None + + elif is_valid_na_for_dtype(value, self.obj.dtype): + if not is_object_dtype(self.obj.dtype): + # Every NA value is suitable for object, no conversion needed + value = na_value_for_dtype(self.obj.dtype, compat=False) + + new_dtype = maybe_promote(self.obj.dtype, value)[0] + + elif isna(value): + new_dtype = None + elif not self.obj.empty and not is_object_dtype(self.obj.dtype): + # We should not cast, if we have object dtype because we can + # set timedeltas into object series + curr_dtype = self.obj.dtype + curr_dtype = getattr(curr_dtype, "numpy_dtype", curr_dtype) + new_dtype = maybe_promote(curr_dtype, value)[0] + else: + new_dtype = None + + new_values = Series([value], dtype=new_dtype)._values + + if len(self.obj._values): + # GH#22717 handle casting compatibility that np.concatenate + # does incorrectly + new_values = concat_compat([self.obj._values, new_values]) + self.obj._mgr = self.obj._constructor( + new_values, index=new_index, name=self.obj.name + )._mgr + self.obj._maybe_update_cacher(clear=True) + + elif self.ndim == 2: + if not len(self.obj.columns): + # no columns and scalar + raise ValueError("cannot set a frame with no defined columns") + + has_dtype = hasattr(value, "dtype") + if isinstance(value, ABCSeries): + # append a Series + value = value.reindex(index=self.obj.columns, copy=True) + value.name = indexer + elif isinstance(value, dict): + value = Series( + value, index=self.obj.columns, name=indexer, dtype=object + ) + else: + # a list-list + if is_list_like_indexer(value): + # must have conforming columns + if len(value) != len(self.obj.columns): + raise ValueError("cannot set a row with mismatched columns") + + value = Series(value, index=self.obj.columns, name=indexer) + + if not len(self.obj): + # We will ignore the existing dtypes instead of using + # internals.concat logic + df = value.to_frame().T + + idx = self.obj.index + if isinstance(idx, MultiIndex): + name = idx.names + else: + name = idx.name + + df.index = Index([indexer], name=name) + if not has_dtype: + # i.e. if we already had a Series or ndarray, keep that + # dtype. But if we had a list or dict, then do inference + df = df.infer_objects(copy=False) + self.obj._mgr = df._mgr + else: + self.obj._mgr = self.obj._append(value)._mgr + self.obj._maybe_update_cacher(clear=True) + + def _ensure_iterable_column_indexer(self, column_indexer): + """ + Ensure that our column indexer is something that can be iterated over. + """ + ilocs: Sequence[int | np.integer] | np.ndarray + if is_integer(column_indexer): + ilocs = [column_indexer] + elif isinstance(column_indexer, slice): + ilocs = np.arange(len(self.obj.columns))[column_indexer] + elif ( + isinstance(column_indexer, np.ndarray) and column_indexer.dtype.kind == "b" + ): + ilocs = np.arange(len(column_indexer))[column_indexer] + else: + ilocs = column_indexer + return ilocs + + def _align_series( + self, + indexer, + ser: Series, + multiindex_indexer: bool = False, + using_cow: bool = False, + ): + """ + Parameters + ---------- + indexer : tuple, slice, scalar + Indexer used to get the locations that will be set to `ser`. + ser : pd.Series + Values to assign to the locations specified by `indexer`. + multiindex_indexer : bool, optional + Defaults to False. Should be set to True if `indexer` was from + a `pd.MultiIndex`, to avoid unnecessary broadcasting. + + Returns + ------- + `np.array` of `ser` broadcast to the appropriate shape for assignment + to the locations selected by `indexer` + """ + if isinstance(indexer, (slice, np.ndarray, list, Index)): + indexer = (indexer,) + + if isinstance(indexer, tuple): + # flatten np.ndarray indexers + def ravel(i): + return i.ravel() if isinstance(i, np.ndarray) else i + + indexer = tuple(map(ravel, indexer)) + + aligners = [not com.is_null_slice(idx) for idx in indexer] + sum_aligners = sum(aligners) + single_aligner = sum_aligners == 1 + is_frame = self.ndim == 2 + obj = self.obj + + # are we a single alignable value on a non-primary + # dim (e.g. panel: 1,2, or frame: 0) ? + # hence need to align to a single axis dimension + # rather that find all valid dims + + # frame + if is_frame: + single_aligner = single_aligner and aligners[0] + + # we have a frame, with multiple indexers on both axes; and a + # series, so need to broadcast (see GH5206) + if sum_aligners == self.ndim and all(is_sequence(_) for _ in indexer): + ser_values = ser.reindex(obj.axes[0][indexer[0]], copy=True)._values + + # single indexer + if len(indexer) > 1 and not multiindex_indexer: + len_indexer = len(indexer[1]) + ser_values = ( + np.tile(ser_values, len_indexer).reshape(len_indexer, -1).T + ) + + return ser_values + + for i, idx in enumerate(indexer): + ax = obj.axes[i] + + # multiple aligners (or null slices) + if is_sequence(idx) or isinstance(idx, slice): + if single_aligner and com.is_null_slice(idx): + continue + new_ix = ax[idx] + if not is_list_like_indexer(new_ix): + new_ix = Index([new_ix]) + else: + new_ix = Index(new_ix) + if ser.index.equals(new_ix): + if using_cow: + return ser + return ser._values.copy() + + return ser.reindex(new_ix)._values + + # 2 dims + elif single_aligner: + # reindex along index + ax = self.obj.axes[1] + if ser.index.equals(ax) or not len(ax): + return ser._values.copy() + return ser.reindex(ax)._values + + elif is_integer(indexer) and self.ndim == 1: + if is_object_dtype(self.obj.dtype): + return ser + ax = self.obj._get_axis(0) + + if ser.index.equals(ax): + return ser._values.copy() + + return ser.reindex(ax)._values[indexer] + + elif is_integer(indexer): + ax = self.obj._get_axis(1) + + if ser.index.equals(ax): + return ser._values.copy() + + return ser.reindex(ax)._values + + raise ValueError("Incompatible indexer with Series") + + def _align_frame(self, indexer, df: DataFrame) -> DataFrame: + is_frame = self.ndim == 2 + + if isinstance(indexer, tuple): + idx, cols = None, None + sindexers = [] + for i, ix in enumerate(indexer): + ax = self.obj.axes[i] + if is_sequence(ix) or isinstance(ix, slice): + if isinstance(ix, np.ndarray): + ix = ix.ravel() + if idx is None: + idx = ax[ix] + elif cols is None: + cols = ax[ix] + else: + break + else: + sindexers.append(i) + + if idx is not None and cols is not None: + if df.index.equals(idx) and df.columns.equals(cols): + val = df.copy() + else: + val = df.reindex(idx, columns=cols) + return val + + elif (isinstance(indexer, slice) or is_list_like_indexer(indexer)) and is_frame: + ax = self.obj.index[indexer] + if df.index.equals(ax): + val = df.copy() + else: + # we have a multi-index and are trying to align + # with a particular, level GH3738 + if ( + isinstance(ax, MultiIndex) + and isinstance(df.index, MultiIndex) + and ax.nlevels != df.index.nlevels + ): + raise TypeError( + "cannot align on a multi-index with out " + "specifying the join levels" + ) + + val = df.reindex(index=ax) + return val + + raise ValueError("Incompatible indexer with DataFrame") + + +class _ScalarAccessIndexer(NDFrameIndexerBase): + """ + Access scalars quickly. + """ + + # sub-classes need to set _takeable + _takeable: bool + + def _convert_key(self, key): + raise AbstractMethodError(self) + + def __getitem__(self, key): + if not isinstance(key, tuple): + # we could have a convertible item here (e.g. Timestamp) + if not is_list_like_indexer(key): + key = (key,) + else: + raise ValueError("Invalid call for scalar access (getting)!") + + key = self._convert_key(key) + return self.obj._get_value(*key, takeable=self._takeable) + + def __setitem__(self, key, value) -> None: + if isinstance(key, tuple): + key = tuple(com.apply_if_callable(x, self.obj) for x in key) + else: + # scalar callable may return tuple + key = com.apply_if_callable(key, self.obj) + + if not isinstance(key, tuple): + key = _tuplify(self.ndim, key) + key = list(self._convert_key(key)) + if len(key) != self.ndim: + raise ValueError("Not enough indexers for scalar access (setting)!") + + self.obj._set_value(*key, value=value, takeable=self._takeable) + + +@doc(IndexingMixin.at) +class _AtIndexer(_ScalarAccessIndexer): + _takeable = False + + def _convert_key(self, key): + """ + Require they keys to be the same type as the index. (so we don't + fallback) + """ + # GH 26989 + # For series, unpacking key needs to result in the label. + # This is already the case for len(key) == 1; e.g. (1,) + if self.ndim == 1 and len(key) > 1: + key = (key,) + + return key + + @property + def _axes_are_unique(self) -> bool: + # Only relevant for self.ndim == 2 + assert self.ndim == 2 + return self.obj.index.is_unique and self.obj.columns.is_unique + + def __getitem__(self, key): + if self.ndim == 2 and not self._axes_are_unique: + # GH#33041 fall back to .loc + if not isinstance(key, tuple) or not all(is_scalar(x) for x in key): + raise ValueError("Invalid call for scalar access (getting)!") + return self.obj.loc[key] + + return super().__getitem__(key) + + def __setitem__(self, key, value) -> None: + if self.ndim == 2 and not self._axes_are_unique: + # GH#33041 fall back to .loc + if not isinstance(key, tuple) or not all(is_scalar(x) for x in key): + raise ValueError("Invalid call for scalar access (setting)!") + + self.obj.loc[key] = value + return + + return super().__setitem__(key, value) + + +@doc(IndexingMixin.iat) +class _iAtIndexer(_ScalarAccessIndexer): + _takeable = True + + def _convert_key(self, key): + """ + Require integer args. (and convert to label arguments) + """ + for i in key: + if not is_integer(i): + raise ValueError("iAt based indexing can only have integer indexers") + return key + + +def _tuplify(ndim: int, loc: Hashable) -> tuple[Hashable | slice, ...]: + """ + Given an indexer for the first dimension, create an equivalent tuple + for indexing over all dimensions. + + Parameters + ---------- + ndim : int + loc : object + + Returns + ------- + tuple + """ + _tup: list[Hashable | slice] + _tup = [slice(None, None) for _ in range(ndim)] + _tup[0] = loc + return tuple(_tup) + + +def _tupleize_axis_indexer(ndim: int, axis: AxisInt, key) -> tuple: + """ + If we have an axis, adapt the given key to be axis-independent. + """ + new_key = [slice(None)] * ndim + new_key[axis] = key + return tuple(new_key) + + +def check_bool_indexer(index: Index, key) -> np.ndarray: + """ + Check if key is a valid boolean indexer for an object with such index and + perform reindexing or conversion if needed. + + This function assumes that is_bool_indexer(key) == True. + + Parameters + ---------- + index : Index + Index of the object on which the indexing is done. + key : list-like + Boolean indexer to check. + + Returns + ------- + np.array + Resulting key. + + Raises + ------ + IndexError + If the key does not have the same length as index. + IndexingError + If the index of the key is unalignable to index. + """ + result = key + if isinstance(key, ABCSeries) and not key.index.equals(index): + indexer = result.index.get_indexer_for(index) + if -1 in indexer: + raise IndexingError( + "Unalignable boolean Series provided as " + "indexer (index of the boolean Series and of " + "the indexed object do not match)." + ) + + result = result.take(indexer) + + # fall through for boolean + if not isinstance(result.dtype, ExtensionDtype): + return result.astype(bool)._values + + if is_object_dtype(key): + # key might be object-dtype bool, check_array_indexer needs bool array + result = np.asarray(result, dtype=bool) + elif not is_array_like(result): + # GH 33924 + # key may contain nan elements, check_array_indexer needs bool array + result = pd_array(result, dtype=bool) + return check_array_indexer(index, result) + + +def convert_missing_indexer(indexer): + """ + Reverse convert a missing indexer, which is a dict + return the scalar indexer and a boolean indicating if we converted + """ + if isinstance(indexer, dict): + # a missing key (but not a tuple indexer) + indexer = indexer["key"] + + if isinstance(indexer, bool): + raise KeyError("cannot use a single bool to index into setitem") + return indexer, True + + return indexer, False + + +def convert_from_missing_indexer_tuple(indexer, axes): + """ + Create a filtered indexer that doesn't have any missing indexers. + """ + + def get_indexer(_i, _idx): + return axes[_i].get_loc(_idx["key"]) if isinstance(_idx, dict) else _idx + + return tuple(get_indexer(_i, _idx) for _i, _idx in enumerate(indexer)) + + +def maybe_convert_ix(*args): + """ + We likely want to take the cross-product. + """ + for arg in args: + if not isinstance(arg, (np.ndarray, list, ABCSeries, Index)): + return args + return np.ix_(*args) + + +def is_nested_tuple(tup, labels) -> bool: + """ + Returns + ------- + bool + """ + # check for a compatible nested tuple and multiindexes among the axes + if not isinstance(tup, tuple): + return False + + for k in tup: + if is_list_like(k) or isinstance(k, slice): + return isinstance(labels, MultiIndex) + + return False + + +def is_label_like(key) -> bool: + """ + Returns + ------- + bool + """ + # select a label or row + return ( + not isinstance(key, slice) + and not is_list_like_indexer(key) + and key is not Ellipsis + ) + + +def need_slice(obj: slice) -> bool: + """ + Returns + ------- + bool + """ + return ( + obj.start is not None + or obj.stop is not None + or (obj.step is not None and obj.step != 1) + ) + + +def check_dict_or_set_indexers(key) -> None: + """ + Check if the indexer is or contains a dict or set, which is no longer allowed. + """ + if ( + isinstance(key, set) + or isinstance(key, tuple) + and any(isinstance(x, set) for x in key) + ): + raise TypeError( + "Passing a set as an indexer is not supported. Use a list instead." + ) + + if ( + isinstance(key, dict) + or isinstance(key, tuple) + and any(isinstance(x, dict) for x in key) + ): + raise TypeError( + "Passing a dict as an indexer is not supported. Use a list instead." + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..6478aba5dfd20be8b592730971712c9ee6c67c89 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/__init__.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/dataframe_protocol.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/dataframe_protocol.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..11c127e1a7f041c1773866dd2250bc0e5609565a Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/dataframe_protocol.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/from_dataframe.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/from_dataframe.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..e85e720b06b66773728a79dea56f0b952084b5d3 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/from_dataframe.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/utils.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/utils.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..4730f883985bac330e396a0c310383de6de3154f Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/__pycache__/utils.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/buffer.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/buffer.py new file mode 100644 index 0000000000000000000000000000000000000000..5d24325e67f62a5da0fa3863d81576dd61f86869 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/buffer.py @@ -0,0 +1,136 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +from pandas.core.interchange.dataframe_protocol import ( + Buffer, + DlpackDeviceType, +) + +if TYPE_CHECKING: + import numpy as np + import pyarrow as pa + + +class PandasBuffer(Buffer): + """ + Data in the buffer is guaranteed to be contiguous in memory. + """ + + def __init__(self, x: np.ndarray, allow_copy: bool = True) -> None: + """ + Handle only regular columns (= numpy arrays) for now. + """ + if x.strides[0] and not x.strides == (x.dtype.itemsize,): + # The protocol does not support strided buffers, so a copy is + # necessary. If that's not allowed, we need to raise an exception. + if allow_copy: + x = x.copy() + else: + raise RuntimeError( + "Exports cannot be zero-copy in the case " + "of a non-contiguous buffer" + ) + + # Store the numpy array in which the data resides as a private + # attribute, so we can use it to retrieve the public attributes + self._x = x + + @property + def bufsize(self) -> int: + """ + Buffer size in bytes. + """ + return self._x.size * self._x.dtype.itemsize + + @property + def ptr(self) -> int: + """ + Pointer to start of the buffer as an integer. + """ + return self._x.__array_interface__["data"][0] + + def __dlpack__(self) -> Any: + """ + Represent this structure as DLPack interface. + """ + return self._x.__dlpack__() + + def __dlpack_device__(self) -> tuple[DlpackDeviceType, int | None]: + """ + Device type and device ID for where the data in the buffer resides. + """ + return (DlpackDeviceType.CPU, None) + + def __repr__(self) -> str: + return ( + "PandasBuffer(" + + str( + { + "bufsize": self.bufsize, + "ptr": self.ptr, + "device": self.__dlpack_device__()[0].name, + } + ) + + ")" + ) + + +class PandasBufferPyarrow(Buffer): + """ + Data in the buffer is guaranteed to be contiguous in memory. + """ + + def __init__( + self, + buffer: pa.Buffer, + *, + length: int, + ) -> None: + """ + Handle pyarrow chunked arrays. + """ + self._buffer = buffer + self._length = length + + @property + def bufsize(self) -> int: + """ + Buffer size in bytes. + """ + return self._buffer.size + + @property + def ptr(self) -> int: + """ + Pointer to start of the buffer as an integer. + """ + return self._buffer.address + + def __dlpack__(self) -> Any: + """ + Represent this structure as DLPack interface. + """ + raise NotImplementedError() + + def __dlpack_device__(self) -> tuple[DlpackDeviceType, int | None]: + """ + Device type and device ID for where the data in the buffer resides. + """ + return (DlpackDeviceType.CPU, None) + + def __repr__(self) -> str: + return ( + "PandasBuffer[pyarrow](" + + str( + { + "bufsize": self.bufsize, + "ptr": self.ptr, + "device": "CPU", + } + ) + + ")" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/column.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/column.py new file mode 100644 index 0000000000000000000000000000000000000000..d59a3df694bb3f6ab5716c25592704d49737a215 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/column.py @@ -0,0 +1,461 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np + +from pandas._libs.lib import infer_dtype +from pandas._libs.tslibs import iNaT +from pandas.errors import NoBufferPresent +from pandas.util._decorators import cache_readonly + +from pandas.core.dtypes.dtypes import BaseMaskedDtype + +import pandas as pd +from pandas import ( + ArrowDtype, + DatetimeTZDtype, +) +from pandas.api.types import is_string_dtype +from pandas.core.interchange.buffer import ( + PandasBuffer, + PandasBufferPyarrow, +) +from pandas.core.interchange.dataframe_protocol import ( + Column, + ColumnBuffers, + ColumnNullType, + DtypeKind, +) +from pandas.core.interchange.utils import ( + ArrowCTypes, + Endianness, + dtype_to_arrow_c_fmt, +) + +if TYPE_CHECKING: + from pandas.core.interchange.dataframe_protocol import Buffer + +_NP_KINDS = { + "i": DtypeKind.INT, + "u": DtypeKind.UINT, + "f": DtypeKind.FLOAT, + "b": DtypeKind.BOOL, + "U": DtypeKind.STRING, + "M": DtypeKind.DATETIME, + "m": DtypeKind.DATETIME, +} + +_NULL_DESCRIPTION = { + DtypeKind.FLOAT: (ColumnNullType.USE_NAN, None), + DtypeKind.DATETIME: (ColumnNullType.USE_SENTINEL, iNaT), + DtypeKind.INT: (ColumnNullType.NON_NULLABLE, None), + DtypeKind.UINT: (ColumnNullType.NON_NULLABLE, None), + DtypeKind.BOOL: (ColumnNullType.NON_NULLABLE, None), + # Null values for categoricals are stored as `-1` sentinel values + # in the category date (e.g., `col.values.codes` is int8 np.ndarray) + DtypeKind.CATEGORICAL: (ColumnNullType.USE_SENTINEL, -1), + # follow Arrow in using 1 as valid value and 0 for missing/null value + DtypeKind.STRING: (ColumnNullType.USE_BYTEMASK, 0), +} + +_NO_VALIDITY_BUFFER = { + ColumnNullType.NON_NULLABLE: "This column is non-nullable", + ColumnNullType.USE_NAN: "This column uses NaN as null", + ColumnNullType.USE_SENTINEL: "This column uses a sentinel value", +} + + +class PandasColumn(Column): + """ + A column object, with only the methods and properties required by the + interchange protocol defined. + A column can contain one or more chunks. Each chunk can contain up to three + buffers - a data buffer, a mask buffer (depending on null representation), + and an offsets buffer (if variable-size binary; e.g., variable-length + strings). + Note: this Column object can only be produced by ``__dataframe__``, so + doesn't need its own version or ``__column__`` protocol. + """ + + def __init__(self, column: pd.Series, allow_copy: bool = True) -> None: + """ + Note: doesn't deal with extension arrays yet, just assume a regular + Series/ndarray for now. + """ + if isinstance(column, pd.DataFrame): + raise TypeError( + "Expected a Series, got a DataFrame. This likely happened " + "because you called __dataframe__ on a DataFrame which, " + "after converting column names to string, resulted in duplicated " + f"names: {column.columns}. Please rename these columns before " + "using the interchange protocol." + ) + if not isinstance(column, pd.Series): + raise NotImplementedError(f"Columns of type {type(column)} not handled yet") + + # Store the column as a private attribute + self._col = column + self._allow_copy = allow_copy + + def size(self) -> int: + """ + Size of the column, in elements. + """ + return self._col.size + + @property + def offset(self) -> int: + """ + Offset of first element. Always zero. + """ + # TODO: chunks are implemented now, probably this should return something + return 0 + + @cache_readonly + def dtype(self) -> tuple[DtypeKind, int, str, str]: + dtype = self._col.dtype + + if isinstance(dtype, pd.CategoricalDtype): + codes = self._col.values.codes + ( + _, + bitwidth, + c_arrow_dtype_f_str, + _, + ) = self._dtype_from_pandasdtype(codes.dtype) + return ( + DtypeKind.CATEGORICAL, + bitwidth, + c_arrow_dtype_f_str, + Endianness.NATIVE, + ) + elif is_string_dtype(dtype): + if infer_dtype(self._col) in ("string", "empty"): + return ( + DtypeKind.STRING, + 8, + dtype_to_arrow_c_fmt(dtype), + Endianness.NATIVE, + ) + raise NotImplementedError("Non-string object dtypes are not supported yet") + else: + return self._dtype_from_pandasdtype(dtype) + + def _dtype_from_pandasdtype(self, dtype) -> tuple[DtypeKind, int, str, str]: + """ + See `self.dtype` for details. + """ + # Note: 'c' (complex) not handled yet (not in array spec v1). + # 'b', 'B' (bytes), 'S', 'a', (old-style string) 'V' (void) not handled + # datetime and timedelta both map to datetime (is timedelta handled?) + + kind = _NP_KINDS.get(dtype.kind, None) + if kind is None: + # Not a NumPy dtype. Check if it's a categorical maybe + raise ValueError(f"Data type {dtype} not supported by interchange protocol") + if isinstance(dtype, ArrowDtype): + byteorder = dtype.numpy_dtype.byteorder + elif isinstance(dtype, DatetimeTZDtype): + byteorder = dtype.base.byteorder # type: ignore[union-attr] + elif isinstance(dtype, BaseMaskedDtype): + byteorder = dtype.numpy_dtype.byteorder + else: + byteorder = dtype.byteorder + + if dtype == "bool[pyarrow]": + # return early to avoid the `* 8` below, as this is a bitmask + # rather than a bytemask + return ( + kind, + dtype.itemsize, # pyright: ignore[reportGeneralTypeIssues] + ArrowCTypes.BOOL, + byteorder, + ) + + return kind, dtype.itemsize * 8, dtype_to_arrow_c_fmt(dtype), byteorder + + @property + def describe_categorical(self): + """ + If the dtype is categorical, there are two options: + - There are only values in the data buffer. + - There is a separate non-categorical Column encoding for categorical values. + + Raises TypeError if the dtype is not categorical + + Content of returned dict: + - "is_ordered" : bool, whether the ordering of dictionary indices is + semantically meaningful. + - "is_dictionary" : bool, whether a dictionary-style mapping of + categorical values to other objects exists + - "categories" : Column representing the (implicit) mapping of indices to + category values (e.g. an array of cat1, cat2, ...). + None if not a dictionary-style categorical. + """ + if not self.dtype[0] == DtypeKind.CATEGORICAL: + raise TypeError( + "describe_categorical only works on a column with categorical dtype!" + ) + + return { + "is_ordered": self._col.cat.ordered, + "is_dictionary": True, + "categories": PandasColumn(pd.Series(self._col.cat.categories)), + } + + @property + def describe_null(self): + if isinstance(self._col.dtype, BaseMaskedDtype): + column_null_dtype = ColumnNullType.USE_BYTEMASK + null_value = 1 + return column_null_dtype, null_value + if isinstance(self._col.dtype, ArrowDtype): + # We already rechunk (if necessary / allowed) upon initialization, so this + # is already single-chunk by the time we get here. + if self._col.array._pa_array.chunks[0].buffers()[0] is None: # type: ignore[attr-defined] + return ColumnNullType.NON_NULLABLE, None + return ColumnNullType.USE_BITMASK, 0 + kind = self.dtype[0] + try: + null, value = _NULL_DESCRIPTION[kind] + except KeyError: + raise NotImplementedError(f"Data type {kind} not yet supported") + + return null, value + + @cache_readonly + def null_count(self) -> int: + """ + Number of null elements. Should always be known. + """ + return self._col.isna().sum().item() + + @property + def metadata(self) -> dict[str, pd.Index]: + """ + Store specific metadata of the column. + """ + return {"pandas.index": self._col.index} + + def num_chunks(self) -> int: + """ + Return the number of chunks the column consists of. + """ + return 1 + + def get_chunks(self, n_chunks: int | None = None): + """ + Return an iterator yielding the chunks. + See `DataFrame.get_chunks` for details on ``n_chunks``. + """ + if n_chunks and n_chunks > 1: + size = len(self._col) + step = size // n_chunks + if size % n_chunks != 0: + step += 1 + for start in range(0, step * n_chunks, step): + yield PandasColumn( + self._col.iloc[start : start + step], self._allow_copy + ) + else: + yield self + + def get_buffers(self) -> ColumnBuffers: + """ + Return a dictionary containing the underlying buffers. + The returned dictionary has the following contents: + - "data": a two-element tuple whose first element is a buffer + containing the data and whose second element is the data + buffer's associated dtype. + - "validity": a two-element tuple whose first element is a buffer + containing mask values indicating missing data and + whose second element is the mask value buffer's + associated dtype. None if the null representation is + not a bit or byte mask. + - "offsets": a two-element tuple whose first element is a buffer + containing the offset values for variable-size binary + data (e.g., variable-length strings) and whose second + element is the offsets buffer's associated dtype. None + if the data buffer does not have an associated offsets + buffer. + """ + buffers: ColumnBuffers = { + "data": self._get_data_buffer(), + "validity": None, + "offsets": None, + } + + try: + buffers["validity"] = self._get_validity_buffer() + except NoBufferPresent: + pass + + try: + buffers["offsets"] = self._get_offsets_buffer() + except NoBufferPresent: + pass + + return buffers + + def _get_data_buffer( + self, + ) -> tuple[Buffer, tuple[DtypeKind, int, str, str]]: + """ + Return the buffer containing the data and the buffer's associated dtype. + """ + buffer: Buffer + if self.dtype[0] in ( + DtypeKind.INT, + DtypeKind.UINT, + DtypeKind.FLOAT, + DtypeKind.BOOL, + DtypeKind.DATETIME, + ): + # self.dtype[2] is an ArrowCTypes.TIMESTAMP where the tz will make + # it longer than 4 characters + dtype = self.dtype + if self.dtype[0] == DtypeKind.DATETIME and len(self.dtype[2]) > 4: + np_arr = self._col.dt.tz_convert(None).to_numpy() + else: + arr = self._col.array + if isinstance(self._col.dtype, BaseMaskedDtype): + np_arr = arr._data # type: ignore[attr-defined] + elif isinstance(self._col.dtype, ArrowDtype): + # We already rechunk (if necessary / allowed) upon initialization, + # so this is already single-chunk by the time we get here. + arr = arr._pa_array.chunks[0] # type: ignore[attr-defined] + buffer = PandasBufferPyarrow( + arr.buffers()[1], # type: ignore[attr-defined] + length=len(arr), + ) + return buffer, dtype + else: + np_arr = arr._ndarray # type: ignore[attr-defined] + buffer = PandasBuffer(np_arr, allow_copy=self._allow_copy) + elif self.dtype[0] == DtypeKind.CATEGORICAL: + codes = self._col.values._codes + buffer = PandasBuffer(codes, allow_copy=self._allow_copy) + dtype = self._dtype_from_pandasdtype(codes.dtype) + elif self.dtype[0] == DtypeKind.STRING: + # Marshal the strings from a NumPy object array into a byte array + buf = self._col.to_numpy() + b = bytearray() + + # TODO: this for-loop is slow; can be implemented in Cython/C/C++ later + for obj in buf: + if isinstance(obj, str): + b.extend(obj.encode(encoding="utf-8")) + + # Convert the byte array to a Pandas "buffer" using + # a NumPy array as the backing store + buffer = PandasBuffer(np.frombuffer(b, dtype="uint8")) + + # Define the dtype for the returned buffer + # TODO: this will need correcting + # https://github.com/pandas-dev/pandas/issues/54781 + dtype = self.dtype + else: + raise NotImplementedError(f"Data type {self._col.dtype} not handled yet") + + return buffer, dtype + + def _get_validity_buffer(self) -> tuple[Buffer, Any] | None: + """ + Return the buffer containing the mask values indicating missing data and + the buffer's associated dtype. + Raises NoBufferPresent if null representation is not a bit or byte mask. + """ + null, invalid = self.describe_null + buffer: Buffer + if isinstance(self._col.dtype, ArrowDtype): + # We already rechunk (if necessary / allowed) upon initialization, so this + # is already single-chunk by the time we get here. + arr = self._col.array._pa_array.chunks[0] # type: ignore[attr-defined] + dtype = (DtypeKind.BOOL, 1, ArrowCTypes.BOOL, Endianness.NATIVE) + if arr.buffers()[0] is None: + return None + buffer = PandasBufferPyarrow( + arr.buffers()[0], + length=len(arr), + ) + return buffer, dtype + + if isinstance(self._col.dtype, BaseMaskedDtype): + mask = self._col.array._mask # type: ignore[attr-defined] + buffer = PandasBuffer(mask) + dtype = (DtypeKind.BOOL, 8, ArrowCTypes.BOOL, Endianness.NATIVE) + return buffer, dtype + + if self.dtype[0] == DtypeKind.STRING: + # For now, use byte array as the mask. + # TODO: maybe store as bit array to save space?.. + buf = self._col.to_numpy() + + # Determine the encoding for valid values + valid = invalid == 0 + invalid = not valid + + mask = np.zeros(shape=(len(buf),), dtype=np.bool_) + for i, obj in enumerate(buf): + mask[i] = valid if isinstance(obj, str) else invalid + + # Convert the mask array to a Pandas "buffer" using + # a NumPy array as the backing store + buffer = PandasBuffer(mask) + + # Define the dtype of the returned buffer + dtype = (DtypeKind.BOOL, 8, ArrowCTypes.BOOL, Endianness.NATIVE) + + return buffer, dtype + + try: + msg = f"{_NO_VALIDITY_BUFFER[null]} so does not have a separate mask" + except KeyError: + # TODO: implement for other bit/byte masks? + raise NotImplementedError("See self.describe_null") + + raise NoBufferPresent(msg) + + def _get_offsets_buffer(self) -> tuple[PandasBuffer, Any]: + """ + Return the buffer containing the offset values for variable-size binary + data (e.g., variable-length strings) and the buffer's associated dtype. + Raises NoBufferPresent if the data buffer does not have an associated + offsets buffer. + """ + if self.dtype[0] == DtypeKind.STRING: + # For each string, we need to manually determine the next offset + values = self._col.to_numpy() + ptr = 0 + offsets = np.zeros(shape=(len(values) + 1,), dtype=np.int64) + for i, v in enumerate(values): + # For missing values (in this case, `np.nan` values) + # we don't increment the pointer + if isinstance(v, str): + b = v.encode(encoding="utf-8") + ptr += len(b) + + offsets[i + 1] = ptr + + # Convert the offsets to a Pandas "buffer" using + # the NumPy array as the backing store + buffer = PandasBuffer(offsets) + + # Assemble the buffer dtype info + dtype = ( + DtypeKind.INT, + 64, + ArrowCTypes.INT64, + Endianness.NATIVE, + ) # note: currently only support native endianness + else: + raise NoBufferPresent( + "This column has a fixed-length dtype so " + "it does not have an offsets buffer" + ) + + return buffer, dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe.py new file mode 100644 index 0000000000000000000000000000000000000000..1abacddfc7e3b7035a9446cd4118097c6accd385 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe.py @@ -0,0 +1,113 @@ +from __future__ import annotations + +from collections import abc +from typing import TYPE_CHECKING + +from pandas.core.interchange.column import PandasColumn +from pandas.core.interchange.dataframe_protocol import DataFrame as DataFrameXchg +from pandas.core.interchange.utils import maybe_rechunk + +if TYPE_CHECKING: + from collections.abc import ( + Iterable, + Sequence, + ) + + from pandas import ( + DataFrame, + Index, + ) + + +class PandasDataFrameXchg(DataFrameXchg): + """ + A data frame class, with only the methods required by the interchange + protocol defined. + Instances of this (private) class are returned from + ``pd.DataFrame.__dataframe__`` as objects with the methods and + attributes defined on this class. + """ + + def __init__(self, df: DataFrame, allow_copy: bool = True) -> None: + """ + Constructor - an instance of this (private) class is returned from + `pd.DataFrame.__dataframe__`. + """ + self._df = df.rename(columns=str, copy=False) + self._allow_copy = allow_copy + for i, _col in enumerate(self._df.columns): + rechunked = maybe_rechunk(self._df.iloc[:, i], allow_copy=allow_copy) + if rechunked is not None: + self._df.isetitem(i, rechunked) + + def __dataframe__( + self, nan_as_null: bool = False, allow_copy: bool = True + ) -> PandasDataFrameXchg: + # `nan_as_null` can be removed here once it's removed from + # Dataframe.__dataframe__ + return PandasDataFrameXchg(self._df, allow_copy) + + @property + def metadata(self) -> dict[str, Index]: + # `index` isn't a regular column, and the protocol doesn't support row + # labels - so we export it as Pandas-specific metadata here. + return {"pandas.index": self._df.index} + + def num_columns(self) -> int: + return len(self._df.columns) + + def num_rows(self) -> int: + return len(self._df) + + def num_chunks(self) -> int: + return 1 + + def column_names(self) -> Index: + return self._df.columns + + def get_column(self, i: int) -> PandasColumn: + return PandasColumn(self._df.iloc[:, i], allow_copy=self._allow_copy) + + def get_column_by_name(self, name: str) -> PandasColumn: + return PandasColumn(self._df[name], allow_copy=self._allow_copy) + + def get_columns(self) -> list[PandasColumn]: + return [ + PandasColumn(self._df[name], allow_copy=self._allow_copy) + for name in self._df.columns + ] + + def select_columns(self, indices: Sequence[int]) -> PandasDataFrameXchg: + if not isinstance(indices, abc.Sequence): + raise ValueError("`indices` is not a sequence") + if not isinstance(indices, list): + indices = list(indices) + + return PandasDataFrameXchg( + self._df.iloc[:, indices], allow_copy=self._allow_copy + ) + + def select_columns_by_name(self, names: list[str]) -> PandasDataFrameXchg: # type: ignore[override] + if not isinstance(names, abc.Sequence): + raise ValueError("`names` is not a sequence") + if not isinstance(names, list): + names = list(names) + + return PandasDataFrameXchg(self._df.loc[:, names], allow_copy=self._allow_copy) + + def get_chunks(self, n_chunks: int | None = None) -> Iterable[PandasDataFrameXchg]: + """ + Return an iterator yielding the chunks. + """ + if n_chunks and n_chunks > 1: + size = len(self._df) + step = size // n_chunks + if size % n_chunks != 0: + step += 1 + for start in range(0, step * n_chunks, step): + yield PandasDataFrameXchg( + self._df.iloc[start : start + step, :], + allow_copy=self._allow_copy, + ) + else: + yield self diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe_protocol.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe_protocol.py new file mode 100644 index 0000000000000000000000000000000000000000..95e7b6a26f93a8cd10048076bd6906190e04d2ba --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/dataframe_protocol.py @@ -0,0 +1,465 @@ +""" +A verbatim copy (vendored) of the spec from https://github.com/data-apis/dataframe-api +""" + +from __future__ import annotations + +from abc import ( + ABC, + abstractmethod, +) +import enum +from typing import ( + TYPE_CHECKING, + Any, + TypedDict, +) + +if TYPE_CHECKING: + from collections.abc import ( + Iterable, + Sequence, + ) + + +class DlpackDeviceType(enum.IntEnum): + """Integer enum for device type codes matching DLPack.""" + + CPU = 1 + CUDA = 2 + CPU_PINNED = 3 + OPENCL = 4 + VULKAN = 7 + METAL = 8 + VPI = 9 + ROCM = 10 + + +class DtypeKind(enum.IntEnum): + """ + Integer enum for data types. + + Attributes + ---------- + INT : int + Matches to signed integer data type. + UINT : int + Matches to unsigned integer data type. + FLOAT : int + Matches to floating point data type. + BOOL : int + Matches to boolean data type. + STRING : int + Matches to string data type (UTF-8 encoded). + DATETIME : int + Matches to datetime data type. + CATEGORICAL : int + Matches to categorical data type. + """ + + INT = 0 + UINT = 1 + FLOAT = 2 + BOOL = 20 + STRING = 21 # UTF-8 + DATETIME = 22 + CATEGORICAL = 23 + + +class ColumnNullType(enum.IntEnum): + """ + Integer enum for null type representation. + + Attributes + ---------- + NON_NULLABLE : int + Non-nullable column. + USE_NAN : int + Use explicit float NaN value. + USE_SENTINEL : int + Sentinel value besides NaN/NaT. + USE_BITMASK : int + The bit is set/unset representing a null on a certain position. + USE_BYTEMASK : int + The byte is set/unset representing a null on a certain position. + """ + + NON_NULLABLE = 0 + USE_NAN = 1 + USE_SENTINEL = 2 + USE_BITMASK = 3 + USE_BYTEMASK = 4 + + +class ColumnBuffers(TypedDict): + # first element is a buffer containing the column data; + # second element is the data buffer's associated dtype + data: tuple[Buffer, Any] + + # first element is a buffer containing mask values indicating missing data; + # second element is the mask value buffer's associated dtype. + # None if the null representation is not a bit or byte mask + validity: tuple[Buffer, Any] | None + + # first element is a buffer containing the offset values for + # variable-size binary data (e.g., variable-length strings); + # second element is the offsets buffer's associated dtype. + # None if the data buffer does not have an associated offsets buffer + offsets: tuple[Buffer, Any] | None + + +class CategoricalDescription(TypedDict): + # whether the ordering of dictionary indices is semantically meaningful + is_ordered: bool + # whether a dictionary-style mapping of categorical values to other objects exists + is_dictionary: bool + # Python-level only (e.g. ``{int: str}``). + # None if not a dictionary-style categorical. + categories: Column | None + + +class Buffer(ABC): + """ + Data in the buffer is guaranteed to be contiguous in memory. + + Note that there is no dtype attribute present, a buffer can be thought of + as simply a block of memory. However, if the column that the buffer is + attached to has a dtype that's supported by DLPack and ``__dlpack__`` is + implemented, then that dtype information will be contained in the return + value from ``__dlpack__``. + + This distinction is useful to support both data exchange via DLPack on a + buffer and (b) dtypes like variable-length strings which do not have a + fixed number of bytes per element. + """ + + @property + @abstractmethod + def bufsize(self) -> int: + """ + Buffer size in bytes. + """ + + @property + @abstractmethod + def ptr(self) -> int: + """ + Pointer to start of the buffer as an integer. + """ + + @abstractmethod + def __dlpack__(self): + """ + Produce DLPack capsule (see array API standard). + + Raises: + + - TypeError : if the buffer contains unsupported dtypes. + - NotImplementedError : if DLPack support is not implemented + + Useful to have to connect to array libraries. Support optional because + it's not completely trivial to implement for a Python-only library. + """ + raise NotImplementedError("__dlpack__") + + @abstractmethod + def __dlpack_device__(self) -> tuple[DlpackDeviceType, int | None]: + """ + Device type and device ID for where the data in the buffer resides. + Uses device type codes matching DLPack. + Note: must be implemented even if ``__dlpack__`` is not. + """ + + +class Column(ABC): + """ + A column object, with only the methods and properties required by the + interchange protocol defined. + + A column can contain one or more chunks. Each chunk can contain up to three + buffers - a data buffer, a mask buffer (depending on null representation), + and an offsets buffer (if variable-size binary; e.g., variable-length + strings). + + TBD: Arrow has a separate "null" dtype, and has no separate mask concept. + Instead, it seems to use "children" for both columns with a bit mask, + and for nested dtypes. Unclear whether this is elegant or confusing. + This design requires checking the null representation explicitly. + + The Arrow design requires checking: + 1. the ARROW_FLAG_NULLABLE (for sentinel values) + 2. if a column has two children, combined with one of those children + having a null dtype. + + Making the mask concept explicit seems useful. One null dtype would + not be enough to cover both bit and byte masks, so that would mean + even more checking if we did it the Arrow way. + + TBD: there's also the "chunk" concept here, which is implicit in Arrow as + multiple buffers per array (= column here). Semantically it may make + sense to have both: chunks were meant for example for lazy evaluation + of data which doesn't fit in memory, while multiple buffers per column + could also come from doing a selection operation on a single + contiguous buffer. + + Given these concepts, one would expect chunks to be all of the same + size (say a 10,000 row dataframe could have 10 chunks of 1,000 rows), + while multiple buffers could have data-dependent lengths. Not an issue + in pandas if one column is backed by a single NumPy array, but in + Arrow it seems possible. + Are multiple chunks *and* multiple buffers per column necessary for + the purposes of this interchange protocol, or must producers either + reuse the chunk concept for this or copy the data? + + Note: this Column object can only be produced by ``__dataframe__``, so + doesn't need its own version or ``__column__`` protocol. + """ + + @abstractmethod + def size(self) -> int: + """ + Size of the column, in elements. + + Corresponds to DataFrame.num_rows() if column is a single chunk; + equal to size of this current chunk otherwise. + """ + + @property + @abstractmethod + def offset(self) -> int: + """ + Offset of first element. + + May be > 0 if using chunks; for example for a column with N chunks of + equal size M (only the last chunk may be shorter), + ``offset = n * M``, ``n = 0 .. N-1``. + """ + + @property + @abstractmethod + def dtype(self) -> tuple[DtypeKind, int, str, str]: + """ + Dtype description as a tuple ``(kind, bit-width, format string, endianness)``. + + Bit-width : the number of bits as an integer + Format string : data type description format string in Apache Arrow C + Data Interface format. + Endianness : current only native endianness (``=``) is supported + + Notes: + - Kind specifiers are aligned with DLPack where possible (hence the + jump to 20, leave enough room for future extension) + - Masks must be specified as boolean with either bit width 1 (for bit + masks) or 8 (for byte masks). + - Dtype width in bits was preferred over bytes + - Endianness isn't too useful, but included now in case in the future + we need to support non-native endianness + - Went with Apache Arrow format strings over NumPy format strings + because they're more complete from a dataframe perspective + - Format strings are mostly useful for datetime specification, and + for categoricals. + - For categoricals, the format string describes the type of the + categorical in the data buffer. In case of a separate encoding of + the categorical (e.g. an integer to string mapping), this can + be derived from ``self.describe_categorical``. + - Data types not included: complex, Arrow-style null, binary, decimal, + and nested (list, struct, map, union) dtypes. + """ + + @property + @abstractmethod + def describe_categorical(self) -> CategoricalDescription: + """ + If the dtype is categorical, there are two options: + - There are only values in the data buffer. + - There is a separate non-categorical Column encoding for categorical values. + + Raises TypeError if the dtype is not categorical + + Returns the dictionary with description on how to interpret the data buffer: + - "is_ordered" : bool, whether the ordering of dictionary indices is + semantically meaningful. + - "is_dictionary" : bool, whether a mapping of + categorical values to other objects exists + - "categories" : Column representing the (implicit) mapping of indices to + category values (e.g. an array of cat1, cat2, ...). + None if not a dictionary-style categorical. + + TBD: are there any other in-memory representations that are needed? + """ + + @property + @abstractmethod + def describe_null(self) -> tuple[ColumnNullType, Any]: + """ + Return the missing value (or "null") representation the column dtype + uses, as a tuple ``(kind, value)``. + + Value : if kind is "sentinel value", the actual value. If kind is a bit + mask or a byte mask, the value (0 or 1) indicating a missing value. None + otherwise. + """ + + @property + @abstractmethod + def null_count(self) -> int | None: + """ + Number of null elements, if known. + + Note: Arrow uses -1 to indicate "unknown", but None seems cleaner. + """ + + @property + @abstractmethod + def metadata(self) -> dict[str, Any]: + """ + The metadata for the column. See `DataFrame.metadata` for more details. + """ + + @abstractmethod + def num_chunks(self) -> int: + """ + Return the number of chunks the column consists of. + """ + + @abstractmethod + def get_chunks(self, n_chunks: int | None = None) -> Iterable[Column]: + """ + Return an iterator yielding the chunks. + + See `DataFrame.get_chunks` for details on ``n_chunks``. + """ + + @abstractmethod + def get_buffers(self) -> ColumnBuffers: + """ + Return a dictionary containing the underlying buffers. + + The returned dictionary has the following contents: + + - "data": a two-element tuple whose first element is a buffer + containing the data and whose second element is the data + buffer's associated dtype. + - "validity": a two-element tuple whose first element is a buffer + containing mask values indicating missing data and + whose second element is the mask value buffer's + associated dtype. None if the null representation is + not a bit or byte mask. + - "offsets": a two-element tuple whose first element is a buffer + containing the offset values for variable-size binary + data (e.g., variable-length strings) and whose second + element is the offsets buffer's associated dtype. None + if the data buffer does not have an associated offsets + buffer. + """ + + +# def get_children(self) -> Iterable[Column]: +# """ +# Children columns underneath the column, each object in this iterator +# must adhere to the column specification. +# """ +# pass + + +class DataFrame(ABC): + """ + A data frame class, with only the methods required by the interchange + protocol defined. + + A "data frame" represents an ordered collection of named columns. + A column's "name" must be a unique string. + Columns may be accessed by name or by position. + + This could be a public data frame class, or an object with the methods and + attributes defined on this DataFrame class could be returned from the + ``__dataframe__`` method of a public data frame class in a library adhering + to the dataframe interchange protocol specification. + """ + + version = 0 # version of the protocol + + @abstractmethod + def __dataframe__(self, nan_as_null: bool = False, allow_copy: bool = True): + """Construct a new interchange object, potentially changing the parameters.""" + + @property + @abstractmethod + def metadata(self) -> dict[str, Any]: + """ + The metadata for the data frame, as a dictionary with string keys. The + contents of `metadata` may be anything, they are meant for a library + to store information that it needs to, e.g., roundtrip losslessly or + for two implementations to share data that is not (yet) part of the + interchange protocol specification. For avoiding collisions with other + entries, please add name the keys with the name of the library + followed by a period and the desired name, e.g, ``pandas.indexcol``. + """ + + @abstractmethod + def num_columns(self) -> int: + """ + Return the number of columns in the DataFrame. + """ + + @abstractmethod + def num_rows(self) -> int | None: + # TODO: not happy with Optional, but need to flag it may be expensive + # why include it if it may be None - what do we expect consumers + # to do here? + """ + Return the number of rows in the DataFrame, if available. + """ + + @abstractmethod + def num_chunks(self) -> int: + """ + Return the number of chunks the DataFrame consists of. + """ + + @abstractmethod + def column_names(self) -> Iterable[str]: + """ + Return an iterator yielding the column names. + """ + + @abstractmethod + def get_column(self, i: int) -> Column: + """ + Return the column at the indicated position. + """ + + @abstractmethod + def get_column_by_name(self, name: str) -> Column: + """ + Return the column whose name is the indicated name. + """ + + @abstractmethod + def get_columns(self) -> Iterable[Column]: + """ + Return an iterator yielding the columns. + """ + + @abstractmethod + def select_columns(self, indices: Sequence[int]) -> DataFrame: + """ + Create a new DataFrame by selecting a subset of columns by index. + """ + + @abstractmethod + def select_columns_by_name(self, names: Sequence[str]) -> DataFrame: + """ + Create a new DataFrame by selecting a subset of columns by name. + """ + + @abstractmethod + def get_chunks(self, n_chunks: int | None = None) -> Iterable[DataFrame]: + """ + Return an iterator yielding the chunks. + + By default (None), yields the chunks that the data is stored as by the + producer. If given, ``n_chunks`` must be a multiple of + ``self.num_chunks()``, meaning the producer must subdivide each chunk + before yielding it. + """ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/from_dataframe.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/from_dataframe.py new file mode 100644 index 0000000000000000000000000000000000000000..c0df1c17e3a7c5276ff055e4fe23b5fca90988ca --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/from_dataframe.py @@ -0,0 +1,557 @@ +from __future__ import annotations + +import ctypes +import re +from typing import Any + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas.compat._optional import import_optional_dependency +from pandas.errors import SettingWithCopyError + +import pandas as pd +from pandas.core.interchange.dataframe_protocol import ( + Buffer, + Column, + ColumnNullType, + DataFrame as DataFrameXchg, + DtypeKind, +) +from pandas.core.interchange.utils import ( + ArrowCTypes, + Endianness, +) + +_NP_DTYPES: dict[DtypeKind, dict[int, Any]] = { + DtypeKind.INT: {8: np.int8, 16: np.int16, 32: np.int32, 64: np.int64}, + DtypeKind.UINT: {8: np.uint8, 16: np.uint16, 32: np.uint32, 64: np.uint64}, + DtypeKind.FLOAT: {32: np.float32, 64: np.float64}, + DtypeKind.BOOL: {1: bool, 8: bool}, +} + + +def from_dataframe(df, allow_copy: bool = True) -> pd.DataFrame: + """ + Build a ``pd.DataFrame`` from any DataFrame supporting the interchange protocol. + + .. note:: + + For new development, we highly recommend using the Arrow C Data Interface + alongside the Arrow PyCapsule Interface instead of the interchange protocol. + From pandas 2.3 onwards, `from_dataframe` uses the PyCapsule Interface, + only falling back to the interchange protocol if that fails. + + .. warning:: + + Due to severe implementation issues, we recommend only considering using the + interchange protocol in the following cases: + + - converting to pandas: for pandas >= 2.0.3 + - converting from pandas: for pandas >= 3.0.0 + + Parameters + ---------- + df : DataFrameXchg + Object supporting the interchange protocol, i.e. `__dataframe__` method. + allow_copy : bool, default: True + Whether to allow copying the memory to perform the conversion + (if false then zero-copy approach is requested). + + Returns + ------- + pd.DataFrame + + Examples + -------- + >>> df_not_necessarily_pandas = pd.DataFrame({'A': [1, 2], 'B': [3, 4]}) + >>> interchange_object = df_not_necessarily_pandas.__dataframe__() + >>> interchange_object.column_names() + Index(['A', 'B'], dtype='object') + >>> df_pandas = (pd.api.interchange.from_dataframe + ... (interchange_object.select_columns_by_name(['A']))) + >>> df_pandas + A + 0 1 + 1 2 + + These methods (``column_names``, ``select_columns_by_name``) should work + for any dataframe library which implements the interchange protocol. + """ + if isinstance(df, pd.DataFrame): + return df + + if hasattr(df, "__arrow_c_stream__"): + try: + pa = import_optional_dependency("pyarrow", min_version="14.0.0") + except ImportError: + # fallback to _from_dataframe + pass + else: + try: + return pa.table(df).to_pandas(zero_copy_only=not allow_copy) + except pa.ArrowInvalid as e: + raise RuntimeError(e) from e + + if not hasattr(df, "__dataframe__"): + raise ValueError("`df` does not support __dataframe__") + + return _from_dataframe( + df.__dataframe__(allow_copy=allow_copy), allow_copy=allow_copy + ) + + +def _from_dataframe(df: DataFrameXchg, allow_copy: bool = True): + """ + Build a ``pd.DataFrame`` from the DataFrame interchange object. + + Parameters + ---------- + df : DataFrameXchg + Object supporting the interchange protocol, i.e. `__dataframe__` method. + allow_copy : bool, default: True + Whether to allow copying the memory to perform the conversion + (if false then zero-copy approach is requested). + + Returns + ------- + pd.DataFrame + """ + pandas_dfs = [] + for chunk in df.get_chunks(): + pandas_df = protocol_df_chunk_to_pandas(chunk) + pandas_dfs.append(pandas_df) + + if not allow_copy and len(pandas_dfs) > 1: + raise RuntimeError( + "To join chunks a copy is required which is forbidden by allow_copy=False" + ) + if not pandas_dfs: + pandas_df = protocol_df_chunk_to_pandas(df) + elif len(pandas_dfs) == 1: + pandas_df = pandas_dfs[0] + else: + pandas_df = pd.concat(pandas_dfs, axis=0, ignore_index=True, copy=False) + + index_obj = df.metadata.get("pandas.index", None) + if index_obj is not None: + pandas_df.index = index_obj + + return pandas_df + + +def protocol_df_chunk_to_pandas(df: DataFrameXchg) -> pd.DataFrame: + """ + Convert interchange protocol chunk to ``pd.DataFrame``. + + Parameters + ---------- + df : DataFrameXchg + + Returns + ------- + pd.DataFrame + """ + columns: dict[str, Any] = {} + buffers = [] # hold on to buffers, keeps memory alive + for name in df.column_names(): + if not isinstance(name, str): + raise ValueError(f"Column {name} is not a string") + if name in columns: + raise ValueError(f"Column {name} is not unique") + col = df.get_column_by_name(name) + dtype = col.dtype[0] + if dtype in ( + DtypeKind.INT, + DtypeKind.UINT, + DtypeKind.FLOAT, + DtypeKind.BOOL, + ): + columns[name], buf = primitive_column_to_ndarray(col) + elif dtype == DtypeKind.CATEGORICAL: + columns[name], buf = categorical_column_to_series(col) + elif dtype == DtypeKind.STRING: + columns[name], buf = string_column_to_ndarray(col) + elif dtype == DtypeKind.DATETIME: + columns[name], buf = datetime_column_to_ndarray(col) + else: + raise NotImplementedError(f"Data type {dtype} not handled yet") + + buffers.append(buf) + + pandas_df = pd.DataFrame(columns) + pandas_df.attrs["_INTERCHANGE_PROTOCOL_BUFFERS"] = buffers + return pandas_df + + +def primitive_column_to_ndarray(col: Column) -> tuple[np.ndarray, Any]: + """ + Convert a column holding one of the primitive dtypes to a NumPy array. + + A primitive type is one of: int, uint, float, bool. + + Parameters + ---------- + col : Column + + Returns + ------- + tuple + Tuple of np.ndarray holding the data and the memory owner object + that keeps the memory alive. + """ + buffers = col.get_buffers() + + data_buff, data_dtype = buffers["data"] + data = buffer_to_ndarray( + data_buff, data_dtype, offset=col.offset, length=col.size() + ) + + data = set_nulls(data, col, buffers["validity"]) + return data, buffers + + +def categorical_column_to_series(col: Column) -> tuple[pd.Series, Any]: + """ + Convert a column holding categorical data to a pandas Series. + + Parameters + ---------- + col : Column + + Returns + ------- + tuple + Tuple of pd.Series holding the data and the memory owner object + that keeps the memory alive. + """ + categorical = col.describe_categorical + + if not categorical["is_dictionary"]: + raise NotImplementedError("Non-dictionary categoricals not supported yet") + + cat_column = categorical["categories"] + if hasattr(cat_column, "_col"): + # Item "Column" of "Optional[Column]" has no attribute "_col" + # Item "None" of "Optional[Column]" has no attribute "_col" + categories = np.array(cat_column._col) # type: ignore[union-attr] + else: + raise NotImplementedError( + "Interchanging categorical columns isn't supported yet, and our " + "fallback of using the `col._col` attribute (a ndarray) failed." + ) + buffers = col.get_buffers() + + codes_buff, codes_dtype = buffers["data"] + codes = buffer_to_ndarray( + codes_buff, codes_dtype, offset=col.offset, length=col.size() + ) + + # Doing module in order to not get ``IndexError`` for + # out-of-bounds sentinel values in `codes` + if len(categories) > 0: + values = categories[codes % len(categories)] + else: + values = codes + + cat = pd.Categorical( + values, categories=categories, ordered=categorical["is_ordered"] + ) + data = pd.Series(cat) + + data = set_nulls(data, col, buffers["validity"]) + return data, buffers + + +def string_column_to_ndarray(col: Column) -> tuple[np.ndarray, Any]: + """ + Convert a column holding string data to a NumPy array. + + Parameters + ---------- + col : Column + + Returns + ------- + tuple + Tuple of np.ndarray holding the data and the memory owner object + that keeps the memory alive. + """ + null_kind, sentinel_val = col.describe_null + + if null_kind not in ( + ColumnNullType.NON_NULLABLE, + ColumnNullType.USE_BITMASK, + ColumnNullType.USE_BYTEMASK, + ): + raise NotImplementedError( + f"{null_kind} null kind is not yet supported for string columns." + ) + + buffers = col.get_buffers() + + assert buffers["offsets"], "String buffers must contain offsets" + # Retrieve the data buffer containing the UTF-8 code units + data_buff, _ = buffers["data"] + # We're going to reinterpret the buffer as uint8, so make sure we can do it safely + assert col.dtype[2] in ( + ArrowCTypes.STRING, + ArrowCTypes.LARGE_STRING, + ) # format_str == utf-8 + # Convert the buffers to NumPy arrays. In order to go from STRING to + # an equivalent ndarray, we claim that the buffer is uint8 (i.e., a byte array) + data_dtype = ( + DtypeKind.UINT, + 8, + ArrowCTypes.UINT8, + Endianness.NATIVE, + ) + # Specify zero offset as we don't want to chunk the string data + data = buffer_to_ndarray(data_buff, data_dtype, offset=0, length=data_buff.bufsize) + + # Retrieve the offsets buffer containing the index offsets demarcating + # the beginning and the ending of each string + offset_buff, offset_dtype = buffers["offsets"] + # Offsets buffer contains start-stop positions of strings in the data buffer, + # meaning that it has more elements than in the data buffer, do `col.size() + 1` + # here to pass a proper offsets buffer size + offsets = buffer_to_ndarray( + offset_buff, offset_dtype, offset=col.offset, length=col.size() + 1 + ) + + null_pos = None + if null_kind in (ColumnNullType.USE_BITMASK, ColumnNullType.USE_BYTEMASK): + validity = buffers["validity"] + if validity is not None: + valid_buff, valid_dtype = validity + null_pos = buffer_to_ndarray( + valid_buff, valid_dtype, offset=col.offset, length=col.size() + ) + if sentinel_val == 0: + null_pos = ~null_pos + + # Assemble the strings from the code units + str_list: list[None | float | str] = [None] * col.size() + for i in range(col.size()): + # Check for missing values + if null_pos is not None and null_pos[i]: + str_list[i] = np.nan + continue + + # Extract a range of code units + units = data[offsets[i] : offsets[i + 1]] + + # Convert the list of code units to bytes + str_bytes = bytes(units) + + # Create the string + string = str_bytes.decode(encoding="utf-8") + + # Add to our list of strings + str_list[i] = string + + if using_string_dtype(): + res = pd.Series(str_list, dtype="str") + else: + res = np.asarray(str_list, dtype="object") # type: ignore[assignment] + + return res, buffers # type: ignore[return-value] + + +def parse_datetime_format_str(format_str, data) -> pd.Series | np.ndarray: + """Parse datetime `format_str` to interpret the `data`.""" + # timestamp 'ts{unit}:tz' + timestamp_meta = re.match(r"ts([smun]):(.*)", format_str) + if timestamp_meta: + unit, tz = timestamp_meta.group(1), timestamp_meta.group(2) + if unit != "s": + # the format string describes only a first letter of the unit, so + # add one extra letter to convert the unit to numpy-style: + # 'm' -> 'ms', 'u' -> 'us', 'n' -> 'ns' + unit += "s" + data = data.astype(f"datetime64[{unit}]") + if tz != "": + data = pd.Series(data).dt.tz_localize("UTC").dt.tz_convert(tz) + return data + + # date 'td{Days/Ms}' + date_meta = re.match(r"td([Dm])", format_str) + if date_meta: + unit = date_meta.group(1) + if unit == "D": + # NumPy doesn't support DAY unit, so converting days to seconds + # (converting to uint64 to avoid overflow) + data = (data.astype(np.uint64) * (24 * 60 * 60)).astype("datetime64[s]") + elif unit == "m": + data = data.astype("datetime64[ms]") + else: + raise NotImplementedError(f"Date unit is not supported: {unit}") + return data + + raise NotImplementedError(f"DateTime kind is not supported: {format_str}") + + +def datetime_column_to_ndarray(col: Column) -> tuple[np.ndarray | pd.Series, Any]: + """ + Convert a column holding DateTime data to a NumPy array. + + Parameters + ---------- + col : Column + + Returns + ------- + tuple + Tuple of np.ndarray holding the data and the memory owner object + that keeps the memory alive. + """ + buffers = col.get_buffers() + + _, col_bit_width, format_str, _ = col.dtype + dbuf, _ = buffers["data"] + # Consider dtype being `uint` to get number of units passed since the 01.01.1970 + + data = buffer_to_ndarray( + dbuf, + ( + DtypeKind.INT, + col_bit_width, + getattr(ArrowCTypes, f"INT{col_bit_width}"), + Endianness.NATIVE, + ), + offset=col.offset, + length=col.size(), + ) + + data = parse_datetime_format_str(format_str, data) # type: ignore[assignment] + data = set_nulls(data, col, buffers["validity"]) + return data, buffers + + +def buffer_to_ndarray( + buffer: Buffer, + dtype: tuple[DtypeKind, int, str, str], + *, + length: int, + offset: int = 0, +) -> np.ndarray: + """ + Build a NumPy array from the passed buffer. + + Parameters + ---------- + buffer : Buffer + Buffer to build a NumPy array from. + dtype : tuple + Data type of the buffer conforming protocol dtypes format. + offset : int, default: 0 + Number of elements to offset from the start of the buffer. + length : int, optional + If the buffer is a bit-mask, specifies a number of bits to read + from the buffer. Has no effect otherwise. + + Returns + ------- + np.ndarray + + Notes + ----- + The returned array doesn't own the memory. The caller of this function is + responsible for keeping the memory owner object alive as long as + the returned NumPy array is being used. + """ + kind, bit_width, _, _ = dtype + + column_dtype = _NP_DTYPES.get(kind, {}).get(bit_width, None) + if column_dtype is None: + raise NotImplementedError(f"Conversion for {dtype} is not yet supported.") + + # TODO: No DLPack yet, so need to construct a new ndarray from the data pointer + # and size in the buffer plus the dtype on the column. Use DLPack as NumPy supports + # it since https://github.com/numpy/numpy/pull/19083 + ctypes_type = np.ctypeslib.as_ctypes_type(column_dtype) + + if bit_width == 1: + assert length is not None, "`length` must be specified for a bit-mask buffer." + pa = import_optional_dependency("pyarrow") + arr = pa.BooleanArray.from_buffers( + pa.bool_(), + length, + [None, pa.foreign_buffer(buffer.ptr, length)], + offset=offset, + ) + return np.asarray(arr) + else: + data_pointer = ctypes.cast( + buffer.ptr + (offset * bit_width // 8), ctypes.POINTER(ctypes_type) + ) + if length > 0: + return np.ctypeslib.as_array(data_pointer, shape=(length,)) + return np.array([], dtype=ctypes_type) + + +def set_nulls( + data: np.ndarray | pd.Series, + col: Column, + validity: tuple[Buffer, tuple[DtypeKind, int, str, str]] | None, + allow_modify_inplace: bool = True, +): + """ + Set null values for the data according to the column null kind. + + Parameters + ---------- + data : np.ndarray or pd.Series + Data to set nulls in. + col : Column + Column object that describes the `data`. + validity : tuple(Buffer, dtype) or None + The return value of ``col.buffers()``. We do not access the ``col.buffers()`` + here to not take the ownership of the memory of buffer objects. + allow_modify_inplace : bool, default: True + Whether to modify the `data` inplace when zero-copy is possible (True) or always + modify a copy of the `data` (False). + + Returns + ------- + np.ndarray or pd.Series + Data with the nulls being set. + """ + if validity is None: + return data + null_kind, sentinel_val = col.describe_null + null_pos = None + + if null_kind == ColumnNullType.USE_SENTINEL: + null_pos = pd.Series(data) == sentinel_val + elif null_kind in (ColumnNullType.USE_BITMASK, ColumnNullType.USE_BYTEMASK): + assert validity, "Expected to have a validity buffer for the mask" + valid_buff, valid_dtype = validity + null_pos = buffer_to_ndarray( + valid_buff, valid_dtype, offset=col.offset, length=col.size() + ) + if sentinel_val == 0: + null_pos = ~null_pos + elif null_kind in (ColumnNullType.NON_NULLABLE, ColumnNullType.USE_NAN): + pass + else: + raise NotImplementedError(f"Null kind {null_kind} is not yet supported.") + + if null_pos is not None and np.any(null_pos): + if not allow_modify_inplace: + data = data.copy() + try: + data[null_pos] = None + except TypeError: + # TypeError happens if the `data` dtype appears to be non-nullable + # in numpy notation (bool, int, uint). If this happens, + # cast the `data` to nullable float dtype. + data = data.astype(float) + data[null_pos] = None + except SettingWithCopyError: + # `SettingWithCopyError` may happen for datetime-like with missing values. + data = data.copy() + data[null_pos] = None + + return data diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/utils.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/utils.py new file mode 100644 index 0000000000000000000000000000000000000000..035a1f8abdbc5d07ccec000d38c3fc159ccf94b6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/interchange/utils.py @@ -0,0 +1,183 @@ +""" +Utility functions and objects for implementing the interchange API. +""" + +from __future__ import annotations + +import typing + +import numpy as np + +from pandas._libs import lib + +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, + DatetimeTZDtype, +) + +import pandas as pd + +if typing.TYPE_CHECKING: + from pandas._typing import DtypeObj + + +# Maps str(pyarrow.DataType) = C type format string +# Currently, no pyarrow API for this +PYARROW_CTYPES = { + "null": "n", + "bool": "b", + "uint8": "C", + "uint16": "S", + "uint32": "I", + "uint64": "L", + "int8": "c", + "int16": "S", + "int32": "i", + "int64": "l", + "halffloat": "e", # float16 + "float": "f", # float32 + "double": "g", # float64 + "string": "u", + "large_string": "U", + "binary": "z", + "time32[s]": "tts", + "time32[ms]": "ttm", + "time64[us]": "ttu", + "time64[ns]": "ttn", + "date32[day]": "tdD", + "date64[ms]": "tdm", + "timestamp[s]": "tss:", + "timestamp[ms]": "tsm:", + "timestamp[us]": "tsu:", + "timestamp[ns]": "tsn:", + "duration[s]": "tDs", + "duration[ms]": "tDm", + "duration[us]": "tDu", + "duration[ns]": "tDn", +} + + +class ArrowCTypes: + """ + Enum for Apache Arrow C type format strings. + + The Arrow C data interface: + https://arrow.apache.org/docs/format/CDataInterface.html#data-type-description-format-strings + """ + + NULL = "n" + BOOL = "b" + INT8 = "c" + UINT8 = "C" + INT16 = "s" + UINT16 = "S" + INT32 = "i" + UINT32 = "I" + INT64 = "l" + UINT64 = "L" + FLOAT16 = "e" + FLOAT32 = "f" + FLOAT64 = "g" + STRING = "u" # utf-8 + LARGE_STRING = "U" # utf-8 + DATE32 = "tdD" + DATE64 = "tdm" + # Resoulution: + # - seconds -> 's' + # - milliseconds -> 'm' + # - microseconds -> 'u' + # - nanoseconds -> 'n' + TIMESTAMP = "ts{resolution}:{tz}" + TIME = "tt{resolution}" + + +class Endianness: + """Enum indicating the byte-order of a data-type.""" + + LITTLE = "<" + BIG = ">" + NATIVE = "=" + NA = "|" + + +def dtype_to_arrow_c_fmt(dtype: DtypeObj) -> str: + """ + Represent pandas `dtype` as a format string in Apache Arrow C notation. + + Parameters + ---------- + dtype : np.dtype + Datatype of pandas DataFrame to represent. + + Returns + ------- + str + Format string in Apache Arrow C notation of the given `dtype`. + """ + if isinstance(dtype, CategoricalDtype): + return ArrowCTypes.INT64 + elif dtype == np.dtype("O"): + return ArrowCTypes.STRING + elif isinstance(dtype, ArrowDtype): + import pyarrow as pa + + pa_type = dtype.pyarrow_dtype + if pa.types.is_decimal(pa_type): + return f"d:{pa_type.precision},{pa_type.scale}" + elif pa.types.is_timestamp(pa_type) and pa_type.tz is not None: + return f"ts{pa_type.unit[0]}:{pa_type.tz}" + format_str = PYARROW_CTYPES.get(str(pa_type), None) + if format_str is not None: + return format_str + + format_str = getattr(ArrowCTypes, dtype.name.upper(), None) + if format_str is not None: + return format_str + + if isinstance(dtype, pd.StringDtype): + # TODO(infer_string) this should be LARGE_STRING for pyarrow storage, + # but current tests don't cover this distinction + return ArrowCTypes.STRING + + elif lib.is_np_dtype(dtype, "M"): + # Selecting the first char of resolution string: + # dtype.str -> ' 'n' + resolution = np.datetime_data(dtype)[0][0] + return ArrowCTypes.TIMESTAMP.format(resolution=resolution, tz="") + + elif isinstance(dtype, DatetimeTZDtype): + return ArrowCTypes.TIMESTAMP.format(resolution=dtype.unit[0], tz=dtype.tz) + + elif isinstance(dtype, pd.BooleanDtype): + return ArrowCTypes.BOOL + + raise NotImplementedError( + f"Conversion of {dtype} to Arrow C format string is not implemented." + ) + + +def maybe_rechunk(series: pd.Series, *, allow_copy: bool) -> pd.Series | None: + """ + Rechunk a multi-chunk pyarrow array into a single-chunk array, if necessary. + + - Returns `None` if the input series is not backed by a multi-chunk pyarrow array + (and so doesn't need rechunking) + - Returns a single-chunk-backed-Series if the input is backed by a multi-chunk + pyarrow array and `allow_copy` is `True`. + - Raises a `RuntimeError` if `allow_copy` is `False` and input is a + based by a multi-chunk pyarrow array. + """ + if not isinstance(series.dtype, pd.ArrowDtype): + return None + chunked_array = series.array._pa_array # type: ignore[attr-defined] + if len(chunked_array.chunks) == 1: + return None + if not allow_copy: + raise RuntimeError( + "Found multi-chunk pyarrow array, but `allow_copy` is False. " + "Please rechunk the array before calling this function, or set " + "`allow_copy=True`." + ) + arr = chunked_array.combine_chunks() + return pd.Series(arr, dtype=series.dtype, name=series.name, index=series.index) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..2eb413440ba9c1ef4c016cd874d19c2aba6d791e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/__init__.py @@ -0,0 +1,85 @@ +from pandas.core.internals.api import make_block # 2023-09-18 pyarrow uses this +from pandas.core.internals.array_manager import ( + ArrayManager, + SingleArrayManager, +) +from pandas.core.internals.base import ( + DataManager, + SingleDataManager, +) +from pandas.core.internals.concat import concatenate_managers +from pandas.core.internals.managers import ( + BlockManager, + SingleBlockManager, +) + +__all__ = [ + "Block", # pylint: disable=undefined-all-variable + "DatetimeTZBlock", # pylint: disable=undefined-all-variable + "ExtensionBlock", # pylint: disable=undefined-all-variable + "make_block", + "DataManager", + "ArrayManager", + "BlockManager", + "SingleDataManager", + "SingleBlockManager", + "SingleArrayManager", + "concatenate_managers", +] + + +def __getattr__(name: str): + # GH#55139 + import warnings + + if name == "create_block_manager_from_blocks": + # GH#33892 + warnings.warn( + f"{name} is deprecated and will be removed in a future version. " + "Use public APIs instead.", + DeprecationWarning, + # https://github.com/pandas-dev/pandas/pull/55139#pullrequestreview-1720690758 + # on hard-coding stacklevel + stacklevel=2, + ) + from pandas.core.internals.managers import create_block_manager_from_blocks + + return create_block_manager_from_blocks + + if name in [ + "NumericBlock", + "ObjectBlock", + "Block", + "ExtensionBlock", + "DatetimeTZBlock", + ]: + warnings.warn( + f"{name} is deprecated and will be removed in a future version. " + "Use public APIs instead.", + DeprecationWarning, + # https://github.com/pandas-dev/pandas/pull/55139#pullrequestreview-1720690758 + # on hard-coding stacklevel + stacklevel=2, + ) + if name == "NumericBlock": + from pandas.core.internals.blocks import NumericBlock + + return NumericBlock + elif name == "DatetimeTZBlock": + from pandas.core.internals.blocks import DatetimeTZBlock + + return DatetimeTZBlock + elif name == "ExtensionBlock": + from pandas.core.internals.blocks import ExtensionBlock + + return ExtensionBlock + elif name == "Block": + from pandas.core.internals.blocks import Block + + return Block + else: + from pandas.core.internals.blocks import ObjectBlock + + return ObjectBlock + + raise AttributeError(f"module 'pandas.core.internals' has no attribute '{name}'") diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/__pycache__/__init__.cpython-310.pyc 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a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/api.py new file mode 100644 index 0000000000000000000000000000000000000000..b0b3937ca47ea06c42b4b51964f6a74830a5d9ee --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/api.py @@ -0,0 +1,156 @@ +""" +This is a pseudo-public API for downstream libraries. We ask that downstream +authors + +1) Try to avoid using internals directly altogether, and failing that, +2) Use only functions exposed here (or in core.internals) + +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs.internals import BlockPlacement + +from pandas.core.dtypes.common import pandas_dtype +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + PeriodDtype, +) + +from pandas.core.arrays import DatetimeArray +from pandas.core.construction import extract_array +from pandas.core.internals.blocks import ( + check_ndim, + ensure_block_shape, + extract_pandas_array, + get_block_type, + maybe_coerce_values, +) + +if TYPE_CHECKING: + from pandas._typing import Dtype + + from pandas.core.internals.blocks import Block + + +def make_block( + values, placement, klass=None, ndim=None, dtype: Dtype | None = None +) -> Block: + """ + This is a pseudo-public analogue to blocks.new_block. + + We ask that downstream libraries use this rather than any fully-internal + APIs, including but not limited to: + + - core.internals.blocks.make_block + - Block.make_block + - Block.make_block_same_class + - Block.__init__ + """ + if dtype is not None: + dtype = pandas_dtype(dtype) + + values, dtype = extract_pandas_array(values, dtype, ndim) + + from pandas.core.internals.blocks import ( + DatetimeTZBlock, + ExtensionBlock, + ) + + if klass is ExtensionBlock and isinstance(values.dtype, PeriodDtype): + # GH-44681 changed PeriodArray to be stored in the 2D + # NDArrayBackedExtensionBlock instead of ExtensionBlock + # -> still allow ExtensionBlock to be passed in this case for back compat + klass = None + + if klass is None: + dtype = dtype or values.dtype + klass = get_block_type(dtype) + + elif klass is DatetimeTZBlock and not isinstance(values.dtype, DatetimeTZDtype): + # pyarrow calls get here + values = DatetimeArray._simple_new( + # error: Argument "dtype" to "_simple_new" of "DatetimeArray" has + # incompatible type "Union[ExtensionDtype, dtype[Any], None]"; + # expected "Union[dtype[datetime64], DatetimeTZDtype]" + values, + dtype=dtype, # type: ignore[arg-type] + ) + + if not isinstance(placement, BlockPlacement): + placement = BlockPlacement(placement) + + ndim = maybe_infer_ndim(values, placement, ndim) + if isinstance(values.dtype, (PeriodDtype, DatetimeTZDtype)): + # GH#41168 ensure we can pass 1D dt64tz values + # More generally, any EA dtype that isn't is_1d_only_ea_dtype + values = extract_array(values, extract_numpy=True) + values = ensure_block_shape(values, ndim) + + check_ndim(values, placement, ndim) + values = maybe_coerce_values(values) + return klass(values, ndim=ndim, placement=placement) + + +def maybe_infer_ndim(values, placement: BlockPlacement, ndim: int | None) -> int: + """ + If `ndim` is not provided, infer it from placement and values. + """ + if ndim is None: + # GH#38134 Block constructor now assumes ndim is not None + if not isinstance(values.dtype, np.dtype): + if len(placement) != 1: + ndim = 1 + else: + ndim = 2 + else: + ndim = values.ndim + return ndim + + +def __getattr__(name: str): + # GH#55139 + import warnings + + if name in [ + "Block", + "ExtensionBlock", + "DatetimeTZBlock", + "create_block_manager_from_blocks", + ]: + # GH#33892 + warnings.warn( + f"{name} is deprecated and will be removed in a future version. " + "Use public APIs instead.", + DeprecationWarning, + # https://github.com/pandas-dev/pandas/pull/55139#pullrequestreview-1720690758 + # on hard-coding stacklevel + stacklevel=2, + ) + + if name == "create_block_manager_from_blocks": + from pandas.core.internals.managers import create_block_manager_from_blocks + + return create_block_manager_from_blocks + + elif name == "Block": + from pandas.core.internals.blocks import Block + + return Block + + elif name == "DatetimeTZBlock": + from pandas.core.internals.blocks import DatetimeTZBlock + + return DatetimeTZBlock + + elif name == "ExtensionBlock": + from pandas.core.internals.blocks import ExtensionBlock + + return ExtensionBlock + + raise AttributeError( + f"module 'pandas.core.internals.api' has no attribute '{name}'" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/array_manager.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/array_manager.py new file mode 100644 index 0000000000000000000000000000000000000000..e253f82256a5f6dd8b277b576a33597355d69dcc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/array_manager.py @@ -0,0 +1,1340 @@ +""" +Experimental manager based on storing a collection of 1D arrays +""" +from __future__ import annotations + +import itertools +from typing import ( + TYPE_CHECKING, + Callable, + Literal, +) + +import numpy as np + +from pandas._libs import ( + NaT, + lib, +) + +from pandas.core.dtypes.astype import ( + astype_array, + astype_array_safe, +) +from pandas.core.dtypes.cast import ( + ensure_dtype_can_hold_na, + find_common_type, + infer_dtype_from_scalar, + np_find_common_type, +) +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_datetime64_ns_dtype, + is_integer, + is_numeric_dtype, + is_object_dtype, + is_timedelta64_ns_dtype, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + array_equals, + isna, + na_value_for_dtype, +) + +import pandas.core.algorithms as algos +from pandas.core.array_algos.quantile import quantile_compat +from pandas.core.array_algos.take import take_1d +from pandas.core.arrays import ( + DatetimeArray, + ExtensionArray, + NumpyExtensionArray, + TimedeltaArray, +) +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, + sanitize_array, +) +from pandas.core.indexers import ( + maybe_convert_indices, + validate_indices, +) +from pandas.core.indexes.api import ( + Index, + ensure_index, +) +from pandas.core.indexes.base import get_values_for_csv +from pandas.core.internals.base import ( + DataManager, + SingleDataManager, + ensure_np_dtype, + interleaved_dtype, +) +from pandas.core.internals.blocks import ( + BlockPlacement, + ensure_block_shape, + external_values, + extract_pandas_array, + maybe_coerce_values, + new_block, +) +from pandas.core.internals.managers import make_na_array + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeObj, + QuantileInterpolation, + Self, + npt, + ) + + +class BaseArrayManager(DataManager): + """ + Core internal data structure to implement DataFrame and Series. + + Alternative to the BlockManager, storing a list of 1D arrays instead of + Blocks. + + This is *not* a public API class + + Parameters + ---------- + arrays : Sequence of arrays + axes : Sequence of Index + verify_integrity : bool, default True + + """ + + __slots__ = [ + "_axes", # private attribute, because 'axes' has different order, see below + "arrays", + ] + + arrays: list[np.ndarray | ExtensionArray] + _axes: list[Index] + + def __init__( + self, + arrays: list[np.ndarray | ExtensionArray], + axes: list[Index], + verify_integrity: bool = True, + ) -> None: + raise NotImplementedError + + def make_empty(self, axes=None) -> Self: + """Return an empty ArrayManager with the items axis of len 0 (no columns)""" + if axes is None: + axes = [self.axes[1:], Index([])] + + arrays: list[np.ndarray | ExtensionArray] = [] + return type(self)(arrays, axes) + + @property + def items(self) -> Index: + return self._axes[-1] + + @property + # error: Signature of "axes" incompatible with supertype "DataManager" + def axes(self) -> list[Index]: # type: ignore[override] + # mypy doesn't work to override attribute with property + # see https://github.com/python/mypy/issues/4125 + """Axes is BlockManager-compatible order (columns, rows)""" + return [self._axes[1], self._axes[0]] + + @property + def shape_proper(self) -> tuple[int, ...]: + # this returns (n_rows, n_columns) + return tuple(len(ax) for ax in self._axes) + + @staticmethod + def _normalize_axis(axis: AxisInt) -> int: + # switch axis + axis = 1 if axis == 0 else 0 + return axis + + def set_axis(self, axis: AxisInt, new_labels: Index) -> None: + # Caller is responsible for ensuring we have an Index object. + self._validate_set_axis(axis, new_labels) + axis = self._normalize_axis(axis) + self._axes[axis] = new_labels + + def get_dtypes(self) -> npt.NDArray[np.object_]: + return np.array([arr.dtype for arr in self.arrays], dtype="object") + + def add_references(self, mgr: BaseArrayManager) -> None: + """ + Only implemented on the BlockManager level + """ + return + + def __getstate__(self): + return self.arrays, self._axes + + def __setstate__(self, state) -> None: + self.arrays = state[0] + self._axes = state[1] + + def __repr__(self) -> str: + output = type(self).__name__ + output += f"\nIndex: {self._axes[0]}" + if self.ndim == 2: + output += f"\nColumns: {self._axes[1]}" + output += f"\n{len(self.arrays)} arrays:" + for arr in self.arrays: + output += f"\n{arr.dtype}" + return output + + def apply( + self, + f, + align_keys: list[str] | None = None, + **kwargs, + ) -> Self: + """ + Iterate over the arrays, collect and create a new ArrayManager. + + Parameters + ---------- + f : str or callable + Name of the Array method to apply. + align_keys: List[str] or None, default None + **kwargs + Keywords to pass to `f` + + Returns + ------- + ArrayManager + """ + assert "filter" not in kwargs + + align_keys = align_keys or [] + result_arrays: list[ArrayLike] = [] + # fillna: Series/DataFrame is responsible for making sure value is aligned + + aligned_args = {k: kwargs[k] for k in align_keys} + + if f == "apply": + f = kwargs.pop("func") + + for i, arr in enumerate(self.arrays): + if aligned_args: + for k, obj in aligned_args.items(): + if isinstance(obj, (ABCSeries, ABCDataFrame)): + # The caller is responsible for ensuring that + # obj.axes[-1].equals(self.items) + if obj.ndim == 1: + kwargs[k] = obj.iloc[i] + else: + kwargs[k] = obj.iloc[:, i]._values + else: + # otherwise we have an array-like + kwargs[k] = obj[i] + + if callable(f): + applied = f(arr, **kwargs) + else: + applied = getattr(arr, f)(**kwargs) + + result_arrays.append(applied) + + new_axes = self._axes + return type(self)(result_arrays, new_axes) + + def apply_with_block(self, f, align_keys=None, **kwargs) -> Self: + # switch axis to follow BlockManager logic + swap_axis = True + if f == "interpolate": + swap_axis = False + if swap_axis and "axis" in kwargs and self.ndim == 2: + kwargs["axis"] = 1 if kwargs["axis"] == 0 else 0 + + align_keys = align_keys or [] + aligned_args = {k: kwargs[k] for k in align_keys} + + result_arrays = [] + + for i, arr in enumerate(self.arrays): + if aligned_args: + for k, obj in aligned_args.items(): + if isinstance(obj, (ABCSeries, ABCDataFrame)): + # The caller is responsible for ensuring that + # obj.axes[-1].equals(self.items) + if obj.ndim == 1: + if self.ndim == 2: + kwargs[k] = obj.iloc[slice(i, i + 1)]._values + else: + kwargs[k] = obj.iloc[:]._values + else: + kwargs[k] = obj.iloc[:, [i]]._values + else: + # otherwise we have an ndarray + if obj.ndim == 2: + kwargs[k] = obj[[i]] + + if isinstance(arr.dtype, np.dtype) and not isinstance(arr, np.ndarray): + # i.e. TimedeltaArray, DatetimeArray with tz=None. Need to + # convert for the Block constructors. + arr = np.asarray(arr) + + arr = maybe_coerce_values(arr) + if self.ndim == 2: + arr = ensure_block_shape(arr, 2) + bp = BlockPlacement(slice(0, 1, 1)) + block = new_block(arr, placement=bp, ndim=2) + else: + bp = BlockPlacement(slice(0, len(self), 1)) + block = new_block(arr, placement=bp, ndim=1) + + applied = getattr(block, f)(**kwargs) + if isinstance(applied, list): + applied = applied[0] + arr = applied.values + if self.ndim == 2 and arr.ndim == 2: + # 2D for np.ndarray or DatetimeArray/TimedeltaArray + assert len(arr) == 1 + # error: No overload variant of "__getitem__" of "ExtensionArray" + # matches argument type "Tuple[int, slice]" + arr = arr[0, :] # type: ignore[call-overload] + result_arrays.append(arr) + + return type(self)(result_arrays, self._axes) + + def setitem(self, indexer, value, warn: bool = True) -> Self: + return self.apply_with_block("setitem", indexer=indexer, value=value) + + def diff(self, n: int) -> Self: + assert self.ndim == 2 # caller ensures + return self.apply(algos.diff, n=n) + + def astype(self, dtype, copy: bool | None = False, errors: str = "raise") -> Self: + if copy is None: + copy = True + + return self.apply(astype_array_safe, dtype=dtype, copy=copy, errors=errors) + + def convert(self, copy: bool | None) -> Self: + if copy is None: + copy = True + + def _convert(arr): + if is_object_dtype(arr.dtype): + # extract NumpyExtensionArray for tests that patch + # NumpyExtensionArray._typ + arr = np.asarray(arr) + result = lib.maybe_convert_objects( + arr, + convert_non_numeric=True, + ) + if result is arr and copy: + return arr.copy() + return result + else: + return arr.copy() if copy else arr + + return self.apply(_convert) + + def get_values_for_csv( + self, *, float_format, date_format, decimal, na_rep: str = "nan", quoting=None + ) -> Self: + return self.apply( + get_values_for_csv, + na_rep=na_rep, + quoting=quoting, + float_format=float_format, + date_format=date_format, + decimal=decimal, + ) + + @property + def any_extension_types(self) -> bool: + """Whether any of the blocks in this manager are extension blocks""" + return False # any(block.is_extension for block in self.blocks) + + @property + def is_view(self) -> bool: + """return a boolean if we are a single block and are a view""" + # TODO what is this used for? + return False + + @property + def is_single_block(self) -> bool: + return len(self.arrays) == 1 + + def _get_data_subset(self, predicate: Callable) -> Self: + indices = [i for i, arr in enumerate(self.arrays) if predicate(arr)] + arrays = [self.arrays[i] for i in indices] + # TODO copy? + # Note: using Index.take ensures we can retain e.g. DatetimeIndex.freq, + # see test_describe_datetime_columns + taker = np.array(indices, dtype="intp") + new_cols = self._axes[1].take(taker) + new_axes = [self._axes[0], new_cols] + return type(self)(arrays, new_axes, verify_integrity=False) + + def get_bool_data(self, copy: bool = False) -> Self: + """ + Select columns that are bool-dtype and object-dtype columns that are all-bool. + + Parameters + ---------- + copy : bool, default False + Whether to copy the blocks + """ + return self._get_data_subset(lambda x: x.dtype == np.dtype(bool)) + + def get_numeric_data(self, copy: bool = False) -> Self: + """ + Select columns that have a numeric dtype. + + Parameters + ---------- + copy : bool, default False + Whether to copy the blocks + """ + return self._get_data_subset( + lambda arr: is_numeric_dtype(arr.dtype) + or getattr(arr.dtype, "_is_numeric", False) + ) + + def copy(self, deep: bool | Literal["all"] | None = True) -> Self: + """ + Make deep or shallow copy of ArrayManager + + Parameters + ---------- + deep : bool or string, default True + If False, return shallow copy (do not copy data) + If 'all', copy data and a deep copy of the index + + Returns + ------- + BlockManager + """ + if deep is None: + # ArrayManager does not yet support CoW, so deep=None always means + # deep=True for now + deep = True + + # this preserves the notion of view copying of axes + if deep: + # hit in e.g. tests.io.json.test_pandas + + def copy_func(ax): + return ax.copy(deep=True) if deep == "all" else ax.view() + + new_axes = [copy_func(ax) for ax in self._axes] + else: + new_axes = list(self._axes) + + if deep: + new_arrays = [arr.copy() for arr in self.arrays] + else: + new_arrays = list(self.arrays) + return type(self)(new_arrays, new_axes, verify_integrity=False) + + def reindex_indexer( + self, + new_axis, + indexer, + axis: AxisInt, + fill_value=None, + allow_dups: bool = False, + copy: bool | None = True, + # ignored keywords + only_slice: bool = False, + # ArrayManager specific keywords + use_na_proxy: bool = False, + ) -> Self: + axis = self._normalize_axis(axis) + return self._reindex_indexer( + new_axis, + indexer, + axis, + fill_value, + allow_dups, + copy, + use_na_proxy, + ) + + def _reindex_indexer( + self, + new_axis, + indexer: npt.NDArray[np.intp] | None, + axis: AxisInt, + fill_value=None, + allow_dups: bool = False, + copy: bool | None = True, + use_na_proxy: bool = False, + ) -> Self: + """ + Parameters + ---------- + new_axis : Index + indexer : ndarray[intp] or None + axis : int + fill_value : object, default None + allow_dups : bool, default False + copy : bool, default True + + + pandas-indexer with -1's only. + """ + if copy is None: + # ArrayManager does not yet support CoW, so deep=None always means + # deep=True for now + copy = True + + if indexer is None: + if new_axis is self._axes[axis] and not copy: + return self + + result = self.copy(deep=copy) + result._axes = list(self._axes) + result._axes[axis] = new_axis + return result + + # some axes don't allow reindexing with dups + if not allow_dups: + self._axes[axis]._validate_can_reindex(indexer) + + if axis >= self.ndim: + raise IndexError("Requested axis not found in manager") + + if axis == 1: + new_arrays = [] + for i in indexer: + if i == -1: + arr = self._make_na_array( + fill_value=fill_value, use_na_proxy=use_na_proxy + ) + else: + arr = self.arrays[i] + if copy: + arr = arr.copy() + new_arrays.append(arr) + + else: + validate_indices(indexer, len(self._axes[0])) + indexer = ensure_platform_int(indexer) + mask = indexer == -1 + needs_masking = mask.any() + new_arrays = [ + take_1d( + arr, + indexer, + allow_fill=needs_masking, + fill_value=fill_value, + mask=mask, + # if fill_value is not None else blk.fill_value + ) + for arr in self.arrays + ] + + new_axes = list(self._axes) + new_axes[axis] = new_axis + + return type(self)(new_arrays, new_axes, verify_integrity=False) + + def take( + self, + indexer: npt.NDArray[np.intp], + axis: AxisInt = 1, + verify: bool = True, + ) -> Self: + """ + Take items along any axis. + """ + assert isinstance(indexer, np.ndarray), type(indexer) + assert indexer.dtype == np.intp, indexer.dtype + + axis = self._normalize_axis(axis) + + if not indexer.ndim == 1: + raise ValueError("indexer should be 1-dimensional") + + n = self.shape_proper[axis] + indexer = maybe_convert_indices(indexer, n, verify=verify) + + new_labels = self._axes[axis].take(indexer) + return self._reindex_indexer( + new_axis=new_labels, indexer=indexer, axis=axis, allow_dups=True + ) + + def _make_na_array(self, fill_value=None, use_na_proxy: bool = False): + if use_na_proxy: + assert fill_value is None + return NullArrayProxy(self.shape_proper[0]) + + if fill_value is None: + fill_value = np.nan + + dtype, fill_value = infer_dtype_from_scalar(fill_value) + array_values = make_na_array(dtype, self.shape_proper[:1], fill_value) + return array_values + + def _equal_values(self, other) -> bool: + """ + Used in .equals defined in base class. Only check the column values + assuming shape and indexes have already been checked. + """ + for left, right in zip(self.arrays, other.arrays): + if not array_equals(left, right): + return False + return True + + # TODO + # to_dict + + +class ArrayManager(BaseArrayManager): + @property + def ndim(self) -> Literal[2]: + return 2 + + def __init__( + self, + arrays: list[np.ndarray | ExtensionArray], + axes: list[Index], + verify_integrity: bool = True, + ) -> None: + # Note: we are storing the axes in "_axes" in the (row, columns) order + # which contrasts the order how it is stored in BlockManager + self._axes = axes + self.arrays = arrays + + if verify_integrity: + self._axes = [ensure_index(ax) for ax in axes] + arrays = [extract_pandas_array(x, None, 1)[0] for x in arrays] + self.arrays = [maybe_coerce_values(arr) for arr in arrays] + self._verify_integrity() + + def _verify_integrity(self) -> None: + n_rows, n_columns = self.shape_proper + if not len(self.arrays) == n_columns: + raise ValueError( + "Number of passed arrays must equal the size of the column Index: " + f"{len(self.arrays)} arrays vs {n_columns} columns." + ) + for arr in self.arrays: + if not len(arr) == n_rows: + raise ValueError( + "Passed arrays should have the same length as the rows Index: " + f"{len(arr)} vs {n_rows} rows" + ) + if not isinstance(arr, (np.ndarray, ExtensionArray)): + raise ValueError( + "Passed arrays should be np.ndarray or ExtensionArray instances, " + f"got {type(arr)} instead" + ) + if not arr.ndim == 1: + raise ValueError( + "Passed arrays should be 1-dimensional, got array with " + f"{arr.ndim} dimensions instead." + ) + + # -------------------------------------------------------------------- + # Indexing + + def fast_xs(self, loc: int) -> SingleArrayManager: + """ + Return the array corresponding to `frame.iloc[loc]`. + + Parameters + ---------- + loc : int + + Returns + ------- + np.ndarray or ExtensionArray + """ + dtype = interleaved_dtype([arr.dtype for arr in self.arrays]) + + values = [arr[loc] for arr in self.arrays] + if isinstance(dtype, ExtensionDtype): + result = dtype.construct_array_type()._from_sequence(values, dtype=dtype) + # for datetime64/timedelta64, the np.ndarray constructor cannot handle pd.NaT + elif is_datetime64_ns_dtype(dtype): + result = DatetimeArray._from_sequence(values, dtype=dtype)._ndarray + elif is_timedelta64_ns_dtype(dtype): + result = TimedeltaArray._from_sequence(values, dtype=dtype)._ndarray + else: + result = np.array(values, dtype=dtype) + return SingleArrayManager([result], [self._axes[1]]) + + def get_slice(self, slobj: slice, axis: AxisInt = 0) -> ArrayManager: + axis = self._normalize_axis(axis) + + if axis == 0: + arrays = [arr[slobj] for arr in self.arrays] + elif axis == 1: + arrays = self.arrays[slobj] + + new_axes = list(self._axes) + new_axes[axis] = new_axes[axis]._getitem_slice(slobj) + + return type(self)(arrays, new_axes, verify_integrity=False) + + def iget(self, i: int) -> SingleArrayManager: + """ + Return the data as a SingleArrayManager. + """ + values = self.arrays[i] + return SingleArrayManager([values], [self._axes[0]]) + + def iget_values(self, i: int) -> ArrayLike: + """ + Return the data for column i as the values (ndarray or ExtensionArray). + """ + return self.arrays[i] + + @property + def column_arrays(self) -> list[ArrayLike]: + """ + Used in the JSON C code to access column arrays. + """ + + return [np.asarray(arr) for arr in self.arrays] + + def iset( + self, + loc: int | slice | np.ndarray, + value: ArrayLike, + inplace: bool = False, + refs=None, + ) -> None: + """ + Set new column(s). + + This changes the ArrayManager in-place, but replaces (an) existing + column(s), not changing column values in-place). + + Parameters + ---------- + loc : integer, slice or boolean mask + Positional location (already bounds checked) + value : np.ndarray or ExtensionArray + inplace : bool, default False + Whether overwrite existing array as opposed to replacing it. + """ + # single column -> single integer index + if lib.is_integer(loc): + # TODO can we avoid needing to unpack this here? That means converting + # DataFrame into 1D array when loc is an integer + if isinstance(value, np.ndarray) and value.ndim == 2: + assert value.shape[1] == 1 + value = value[:, 0] + + # TODO we receive a datetime/timedelta64 ndarray from DataFrame._iset_item + # but we should avoid that and pass directly the proper array + value = maybe_coerce_values(value) + + assert isinstance(value, (np.ndarray, ExtensionArray)) + assert value.ndim == 1 + assert len(value) == len(self._axes[0]) + self.arrays[loc] = value + return + + # multiple columns -> convert slice or array to integer indices + elif isinstance(loc, slice): + indices: range | np.ndarray = range( + loc.start if loc.start is not None else 0, + loc.stop if loc.stop is not None else self.shape_proper[1], + loc.step if loc.step is not None else 1, + ) + else: + assert isinstance(loc, np.ndarray) + assert loc.dtype == "bool" + indices = np.nonzero(loc)[0] + + assert value.ndim == 2 + assert value.shape[0] == len(self._axes[0]) + + for value_idx, mgr_idx in enumerate(indices): + # error: No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[slice, int]" + value_arr = value[:, value_idx] # type: ignore[call-overload] + self.arrays[mgr_idx] = value_arr + return + + def column_setitem( + self, loc: int, idx: int | slice | np.ndarray, value, inplace_only: bool = False + ) -> None: + """ + Set values ("setitem") into a single column (not setting the full column). + + This is a method on the ArrayManager level, to avoid creating an + intermediate Series at the DataFrame level (`s = df[loc]; s[idx] = value`) + """ + if not is_integer(loc): + raise TypeError("The column index should be an integer") + arr = self.arrays[loc] + mgr = SingleArrayManager([arr], [self._axes[0]]) + if inplace_only: + mgr.setitem_inplace(idx, value) + else: + new_mgr = mgr.setitem((idx,), value) + # update existing ArrayManager in-place + self.arrays[loc] = new_mgr.arrays[0] + + def insert(self, loc: int, item: Hashable, value: ArrayLike, refs=None) -> None: + """ + Insert item at selected position. + + Parameters + ---------- + loc : int + item : hashable + value : np.ndarray or ExtensionArray + """ + # insert to the axis; this could possibly raise a TypeError + new_axis = self.items.insert(loc, item) + + value = extract_array(value, extract_numpy=True) + if value.ndim == 2: + if value.shape[0] == 1: + # error: No overload variant of "__getitem__" of "ExtensionArray" + # matches argument type "Tuple[int, slice]" + value = value[0, :] # type: ignore[call-overload] + else: + raise ValueError( + f"Expected a 1D array, got an array with shape {value.shape}" + ) + value = maybe_coerce_values(value) + + # TODO self.arrays can be empty + # assert len(value) == len(self.arrays[0]) + + # TODO is this copy needed? + arrays = self.arrays.copy() + arrays.insert(loc, value) + + self.arrays = arrays + self._axes[1] = new_axis + + def idelete(self, indexer) -> ArrayManager: + """ + Delete selected locations in-place (new block and array, same BlockManager) + """ + to_keep = np.ones(self.shape[0], dtype=np.bool_) + to_keep[indexer] = False + + self.arrays = [self.arrays[i] for i in np.nonzero(to_keep)[0]] + self._axes = [self._axes[0], self._axes[1][to_keep]] + return self + + # -------------------------------------------------------------------- + # Array-wise Operation + + def grouped_reduce(self, func: Callable) -> Self: + """ + Apply grouped reduction function columnwise, returning a new ArrayManager. + + Parameters + ---------- + func : grouped reduction function + + Returns + ------- + ArrayManager + """ + result_arrays: list[np.ndarray] = [] + result_indices: list[int] = [] + + for i, arr in enumerate(self.arrays): + # grouped_reduce functions all expect 2D arrays + arr = ensure_block_shape(arr, ndim=2) + res = func(arr) + if res.ndim == 2: + # reverse of ensure_block_shape + assert res.shape[0] == 1 + res = res[0] + + result_arrays.append(res) + result_indices.append(i) + + if len(result_arrays) == 0: + nrows = 0 + else: + nrows = result_arrays[0].shape[0] + index = Index(range(nrows)) + + columns = self.items + + # error: Argument 1 to "ArrayManager" has incompatible type "List[ndarray]"; + # expected "List[Union[ndarray, ExtensionArray]]" + return type(self)(result_arrays, [index, columns]) # type: ignore[arg-type] + + def reduce(self, func: Callable) -> Self: + """ + Apply reduction function column-wise, returning a single-row ArrayManager. + + Parameters + ---------- + func : reduction function + + Returns + ------- + ArrayManager + """ + result_arrays: list[np.ndarray] = [] + for i, arr in enumerate(self.arrays): + res = func(arr, axis=0) + + # TODO NaT doesn't preserve dtype, so we need to ensure to create + # a timedelta result array if original was timedelta + # what if datetime results in timedelta? (eg std) + dtype = arr.dtype if res is NaT else None + result_arrays.append( + sanitize_array([res], None, dtype=dtype) # type: ignore[arg-type] + ) + + index = Index._simple_new(np.array([None], dtype=object)) # placeholder + columns = self.items + + # error: Argument 1 to "ArrayManager" has incompatible type "List[ndarray]"; + # expected "List[Union[ndarray, ExtensionArray]]" + new_mgr = type(self)(result_arrays, [index, columns]) # type: ignore[arg-type] + return new_mgr + + def operate_blockwise(self, other: ArrayManager, array_op) -> ArrayManager: + """ + Apply array_op blockwise with another (aligned) BlockManager. + """ + # TODO what if `other` is BlockManager ? + left_arrays = self.arrays + right_arrays = other.arrays + result_arrays = [ + array_op(left, right) for left, right in zip(left_arrays, right_arrays) + ] + return type(self)(result_arrays, self._axes) + + def quantile( + self, + *, + qs: Index, # with dtype float64 + transposed: bool = False, + interpolation: QuantileInterpolation = "linear", + ) -> ArrayManager: + arrs = [ensure_block_shape(x, 2) for x in self.arrays] + new_arrs = [ + quantile_compat(x, np.asarray(qs._values), interpolation) for x in arrs + ] + for i, arr in enumerate(new_arrs): + if arr.ndim == 2: + assert arr.shape[0] == 1, arr.shape + new_arrs[i] = arr[0] + + axes = [qs, self._axes[1]] + return type(self)(new_arrs, axes) + + # ---------------------------------------------------------------- + + def unstack(self, unstacker, fill_value) -> ArrayManager: + """ + Return a BlockManager with all blocks unstacked. + + Parameters + ---------- + unstacker : reshape._Unstacker + fill_value : Any + fill_value for newly introduced missing values. + + Returns + ------- + unstacked : BlockManager + """ + indexer, _ = unstacker._indexer_and_to_sort + if unstacker.mask.all(): + new_indexer = indexer + allow_fill = False + new_mask2D = None + needs_masking = None + else: + new_indexer = np.full(unstacker.mask.shape, -1) + new_indexer[unstacker.mask] = indexer + allow_fill = True + # calculating the full mask once and passing it to take_1d is faster + # than letting take_1d calculate it in each repeated call + new_mask2D = (~unstacker.mask).reshape(*unstacker.full_shape) + needs_masking = new_mask2D.any(axis=0) + new_indexer2D = new_indexer.reshape(*unstacker.full_shape) + new_indexer2D = ensure_platform_int(new_indexer2D) + + new_arrays = [] + for arr in self.arrays: + for i in range(unstacker.full_shape[1]): + if allow_fill: + # error: Value of type "Optional[Any]" is not indexable [index] + new_arr = take_1d( + arr, + new_indexer2D[:, i], + allow_fill=needs_masking[i], # type: ignore[index] + fill_value=fill_value, + mask=new_mask2D[:, i], # type: ignore[index] + ) + else: + new_arr = take_1d(arr, new_indexer2D[:, i], allow_fill=False) + new_arrays.append(new_arr) + + new_index = unstacker.new_index + new_columns = unstacker.get_new_columns(self._axes[1]) + new_axes = [new_index, new_columns] + + return type(self)(new_arrays, new_axes, verify_integrity=False) + + def as_array( + self, + dtype=None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Convert the blockmanager data into an numpy array. + + Parameters + ---------- + dtype : object, default None + Data type of the return array. + copy : bool, default False + If True then guarantee that a copy is returned. A value of + False does not guarantee that the underlying data is not + copied. + na_value : object, default lib.no_default + Value to be used as the missing value sentinel. + + Returns + ------- + arr : ndarray + """ + if len(self.arrays) == 0: + empty_arr = np.empty(self.shape, dtype=float) + return empty_arr.transpose() + + # We want to copy when na_value is provided to avoid + # mutating the original object + copy = copy or na_value is not lib.no_default + + if not dtype: + dtype = interleaved_dtype([arr.dtype for arr in self.arrays]) + + dtype = ensure_np_dtype(dtype) + + result = np.empty(self.shape_proper, dtype=dtype) + + for i, arr in enumerate(self.arrays): + arr = arr.astype(dtype, copy=copy) + result[:, i] = arr + + if na_value is not lib.no_default: + result[isna(result)] = na_value + + return result + + @classmethod + def concat_horizontal(cls, mgrs: list[Self], axes: list[Index]) -> Self: + """ + Concatenate uniformly-indexed ArrayManagers horizontally. + """ + # concatting along the columns -> combine reindexed arrays in a single manager + arrays = list(itertools.chain.from_iterable([mgr.arrays for mgr in mgrs])) + new_mgr = cls(arrays, [axes[1], axes[0]], verify_integrity=False) + return new_mgr + + @classmethod + def concat_vertical(cls, mgrs: list[Self], axes: list[Index]) -> Self: + """ + Concatenate uniformly-indexed ArrayManagers vertically. + """ + # concatting along the rows -> concat the reindexed arrays + # TODO(ArrayManager) doesn't yet preserve the correct dtype + arrays = [ + concat_arrays([mgrs[i].arrays[j] for i in range(len(mgrs))]) + for j in range(len(mgrs[0].arrays)) + ] + new_mgr = cls(arrays, [axes[1], axes[0]], verify_integrity=False) + return new_mgr + + +class SingleArrayManager(BaseArrayManager, SingleDataManager): + __slots__ = [ + "_axes", # private attribute, because 'axes' has different order, see below + "arrays", + ] + + arrays: list[np.ndarray | ExtensionArray] + _axes: list[Index] + + @property + def ndim(self) -> Literal[1]: + return 1 + + def __init__( + self, + arrays: list[np.ndarray | ExtensionArray], + axes: list[Index], + verify_integrity: bool = True, + ) -> None: + self._axes = axes + self.arrays = arrays + + if verify_integrity: + assert len(axes) == 1 + assert len(arrays) == 1 + self._axes = [ensure_index(ax) for ax in self._axes] + arr = arrays[0] + arr = maybe_coerce_values(arr) + arr = extract_pandas_array(arr, None, 1)[0] + self.arrays = [arr] + self._verify_integrity() + + def _verify_integrity(self) -> None: + (n_rows,) = self.shape + assert len(self.arrays) == 1 + arr = self.arrays[0] + assert len(arr) == n_rows + if not arr.ndim == 1: + raise ValueError( + "Passed array should be 1-dimensional, got array with " + f"{arr.ndim} dimensions instead." + ) + + @staticmethod + def _normalize_axis(axis): + return axis + + def make_empty(self, axes=None) -> Self: + """Return an empty ArrayManager with index/array of length 0""" + if axes is None: + axes = [Index([], dtype=object)] + array: np.ndarray = np.array([], dtype=self.dtype) + return type(self)([array], axes) + + @classmethod + def from_array(cls, array, index) -> SingleArrayManager: + return cls([array], [index]) + + # error: Cannot override writeable attribute with read-only property + @property + def axes(self) -> list[Index]: # type: ignore[override] + return self._axes + + @property + def index(self) -> Index: + return self._axes[0] + + @property + def dtype(self): + return self.array.dtype + + def external_values(self): + """The array that Series.values returns""" + return external_values(self.array) + + def internal_values(self): + """The array that Series._values returns""" + return self.array + + def array_values(self): + """The array that Series.array returns""" + arr = self.array + if isinstance(arr, np.ndarray): + arr = NumpyExtensionArray(arr) + return arr + + @property + def _can_hold_na(self) -> bool: + if isinstance(self.array, np.ndarray): + return self.array.dtype.kind not in "iub" + else: + # ExtensionArray + return self.array._can_hold_na + + @property + def is_single_block(self) -> bool: + return True + + def fast_xs(self, loc: int) -> SingleArrayManager: + raise NotImplementedError("Use series._values[loc] instead") + + def get_slice(self, slobj: slice, axis: AxisInt = 0) -> SingleArrayManager: + if axis >= self.ndim: + raise IndexError("Requested axis not found in manager") + + new_array = self.array[slobj] + new_index = self.index._getitem_slice(slobj) + return type(self)([new_array], [new_index], verify_integrity=False) + + def get_rows_with_mask(self, indexer: npt.NDArray[np.bool_]) -> SingleArrayManager: + new_array = self.array[indexer] + new_index = self.index[indexer] + return type(self)([new_array], [new_index]) + + # error: Signature of "apply" incompatible with supertype "BaseArrayManager" + def apply(self, func, **kwargs) -> Self: # type: ignore[override] + if callable(func): + new_array = func(self.array, **kwargs) + else: + new_array = getattr(self.array, func)(**kwargs) + return type(self)([new_array], self._axes) + + def setitem(self, indexer, value, warn: bool = True) -> SingleArrayManager: + """ + Set values with indexer. + + For SingleArrayManager, this backs s[indexer] = value + + See `setitem_inplace` for a version that works inplace and doesn't + return a new Manager. + """ + if isinstance(indexer, np.ndarray) and indexer.ndim > self.ndim: + raise ValueError(f"Cannot set values with ndim > {self.ndim}") + return self.apply_with_block("setitem", indexer=indexer, value=value) + + def idelete(self, indexer) -> SingleArrayManager: + """ + Delete selected locations in-place (new array, same ArrayManager) + """ + to_keep = np.ones(self.shape[0], dtype=np.bool_) + to_keep[indexer] = False + + self.arrays = [self.arrays[0][to_keep]] + self._axes = [self._axes[0][to_keep]] + return self + + def _get_data_subset(self, predicate: Callable) -> SingleArrayManager: + # used in get_numeric_data / get_bool_data + if predicate(self.array): + return type(self)(self.arrays, self._axes, verify_integrity=False) + else: + return self.make_empty() + + def set_values(self, values: ArrayLike) -> None: + """ + Set (replace) the values of the SingleArrayManager in place. + + Use at your own risk! This does not check if the passed values are + valid for the current SingleArrayManager (length, dtype, etc). + """ + self.arrays[0] = values + + def to_2d_mgr(self, columns: Index) -> ArrayManager: + """ + Manager analogue of Series.to_frame + """ + arrays = [self.arrays[0]] + axes = [self.axes[0], columns] + + return ArrayManager(arrays, axes, verify_integrity=False) + + +class NullArrayProxy: + """ + Proxy object for an all-NA array. + + Only stores the length of the array, and not the dtype. The dtype + will only be known when actually concatenating (after determining the + common dtype, for which this proxy is ignored). + Using this object avoids that the internals/concat.py needs to determine + the proper dtype and array type. + """ + + ndim = 1 + + def __init__(self, n: int) -> None: + self.n = n + + @property + def shape(self) -> tuple[int]: + return (self.n,) + + def to_array(self, dtype: DtypeObj) -> ArrayLike: + """ + Helper function to create the actual all-NA array from the NullArrayProxy + object. + + Parameters + ---------- + arr : NullArrayProxy + dtype : the dtype for the resulting array + + Returns + ------- + np.ndarray or ExtensionArray + """ + if isinstance(dtype, ExtensionDtype): + empty = dtype.construct_array_type()._from_sequence([], dtype=dtype) + indexer = -np.ones(self.n, dtype=np.intp) + return empty.take(indexer, allow_fill=True) + else: + # when introducing missing values, int becomes float, bool becomes object + dtype = ensure_dtype_can_hold_na(dtype) + fill_value = na_value_for_dtype(dtype) + arr = np.empty(self.n, dtype=dtype) + arr.fill(fill_value) + return ensure_wrapped_if_datetimelike(arr) + + +def concat_arrays(to_concat: list) -> ArrayLike: + """ + Alternative for concat_compat but specialized for use in the ArrayManager. + + Differences: only deals with 1D arrays (no axis keyword), assumes + ensure_wrapped_if_datetimelike and does not skip empty arrays to determine + the dtype. + In addition ensures that all NullArrayProxies get replaced with actual + arrays. + + Parameters + ---------- + to_concat : list of arrays + + Returns + ------- + np.ndarray or ExtensionArray + """ + # ignore the all-NA proxies to determine the resulting dtype + to_concat_no_proxy = [x for x in to_concat if not isinstance(x, NullArrayProxy)] + + dtypes = {x.dtype for x in to_concat_no_proxy} + single_dtype = len(dtypes) == 1 + + if single_dtype: + target_dtype = to_concat_no_proxy[0].dtype + elif all(lib.is_np_dtype(x, "iub") for x in dtypes): + # GH#42092 + target_dtype = np_find_common_type(*dtypes) + else: + target_dtype = find_common_type([arr.dtype for arr in to_concat_no_proxy]) + + to_concat = [ + arr.to_array(target_dtype) + if isinstance(arr, NullArrayProxy) + else astype_array(arr, target_dtype, copy=False) + for arr in to_concat + ] + + if isinstance(to_concat[0], ExtensionArray): + cls = type(to_concat[0]) + return cls._concat_same_type(to_concat) + + result = np.concatenate(to_concat) + + # TODO decide on exact behaviour (we shouldn't do this only for empty result) + # see https://github.com/pandas-dev/pandas/issues/39817 + if len(result) == 0: + # all empties -> check for bool to not coerce to float + kinds = {obj.dtype.kind for obj in to_concat_no_proxy} + if len(kinds) != 1: + if "b" in kinds: + result = result.astype(object) + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/base.py new file mode 100644 index 0000000000000000000000000000000000000000..ae91f167205a0628c4bcf9b61ce58e888fe6ec8e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/base.py @@ -0,0 +1,407 @@ +""" +Base class for the internal managers. Both BlockManager and ArrayManager +inherit from this class. +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Literal, + cast, + final, +) + +import numpy as np + +from pandas._config import ( + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs import ( + algos as libalgos, + lib, +) +from pandas.errors import AbstractMethodError +from pandas.util._validators import validate_bool_kwarg + +from pandas.core.dtypes.cast import ( + find_common_type, + np_can_hold_element, +) +from pandas.core.dtypes.dtypes import ( + ExtensionDtype, + SparseDtype, +) + +from pandas.core.base import PandasObject +from pandas.core.construction import extract_array +from pandas.core.indexes.api import ( + Index, + default_index, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeObj, + Self, + Shape, + ) + + +class _AlreadyWarned: + def __init__(self): + # This class is used on the manager level to the block level to + # ensure that we warn only once. The block method can update the + # warned_already option without returning a value to keep the + # interface consistent. This is only a temporary solution for + # CoW warnings. + self.warned_already = False + + +class DataManager(PandasObject): + # TODO share more methods/attributes + + axes: list[Index] + + @property + def items(self) -> Index: + raise AbstractMethodError(self) + + @final + def __len__(self) -> int: + return len(self.items) + + @property + def ndim(self) -> int: + return len(self.axes) + + @property + def shape(self) -> Shape: + return tuple(len(ax) for ax in self.axes) + + @final + def _validate_set_axis(self, axis: AxisInt, new_labels: Index) -> None: + # Caller is responsible for ensuring we have an Index object. + old_len = len(self.axes[axis]) + new_len = len(new_labels) + + if axis == 1 and len(self.items) == 0: + # If we are setting the index on a DataFrame with no columns, + # it is OK to change the length. + pass + + elif new_len != old_len: + raise ValueError( + f"Length mismatch: Expected axis has {old_len} elements, new " + f"values have {new_len} elements" + ) + + def reindex_indexer( + self, + new_axis, + indexer, + axis: AxisInt, + fill_value=None, + allow_dups: bool = False, + copy: bool = True, + only_slice: bool = False, + ) -> Self: + raise AbstractMethodError(self) + + @final + def reindex_axis( + self, + new_index: Index, + axis: AxisInt, + fill_value=None, + only_slice: bool = False, + ) -> Self: + """ + Conform data manager to new index. + """ + new_index, indexer = self.axes[axis].reindex(new_index) + + return self.reindex_indexer( + new_index, + indexer, + axis=axis, + fill_value=fill_value, + copy=False, + only_slice=only_slice, + ) + + def _equal_values(self, other: Self) -> bool: + """ + To be implemented by the subclasses. Only check the column values + assuming shape and indexes have already been checked. + """ + raise AbstractMethodError(self) + + @final + def equals(self, other: object) -> bool: + """ + Implementation for DataFrame.equals + """ + if not isinstance(other, type(self)): + return False + + self_axes, other_axes = self.axes, other.axes + if len(self_axes) != len(other_axes): + return False + if not all(ax1.equals(ax2) for ax1, ax2 in zip(self_axes, other_axes)): + return False + + return self._equal_values(other) + + def apply( + self, + f, + align_keys: list[str] | None = None, + **kwargs, + ) -> Self: + raise AbstractMethodError(self) + + def apply_with_block( + self, + f, + align_keys: list[str] | None = None, + **kwargs, + ) -> Self: + raise AbstractMethodError(self) + + @final + def isna(self, func) -> Self: + return self.apply("apply", func=func) + + @final + def fillna(self, value, limit: int | None, inplace: bool, downcast) -> Self: + if limit is not None: + # Do this validation even if we go through one of the no-op paths + limit = libalgos.validate_limit(None, limit=limit) + + return self.apply_with_block( + "fillna", + value=value, + limit=limit, + inplace=inplace, + downcast=downcast, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + + @final + def where(self, other, cond, align: bool) -> Self: + if align: + align_keys = ["other", "cond"] + else: + align_keys = ["cond"] + other = extract_array(other, extract_numpy=True) + + return self.apply_with_block( + "where", + align_keys=align_keys, + other=other, + cond=cond, + using_cow=using_copy_on_write(), + ) + + @final + def putmask(self, mask, new, align: bool = True, warn: bool = True) -> Self: + if align: + align_keys = ["new", "mask"] + else: + align_keys = ["mask"] + new = extract_array(new, extract_numpy=True) + + already_warned = None + if warn_copy_on_write(): + already_warned = _AlreadyWarned() + if not warn: + already_warned.warned_already = True + + return self.apply_with_block( + "putmask", + align_keys=align_keys, + mask=mask, + new=new, + using_cow=using_copy_on_write(), + already_warned=already_warned, + ) + + @final + def round(self, decimals: int, using_cow: bool = False) -> Self: + return self.apply_with_block( + "round", + decimals=decimals, + using_cow=using_cow, + ) + + @final + def replace(self, to_replace, value, inplace: bool) -> Self: + inplace = validate_bool_kwarg(inplace, "inplace") + # NDFrame.replace ensures the not-is_list_likes here + assert not lib.is_list_like(to_replace) + assert not lib.is_list_like(value) + return self.apply_with_block( + "replace", + to_replace=to_replace, + value=value, + inplace=inplace, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + + @final + def replace_regex(self, **kwargs) -> Self: + return self.apply_with_block( + "_replace_regex", + **kwargs, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + + @final + def replace_list( + self, + src_list: list[Any], + dest_list: list[Any], + inplace: bool = False, + regex: bool = False, + ) -> Self: + """do a list replace""" + inplace = validate_bool_kwarg(inplace, "inplace") + + bm = self.apply_with_block( + "replace_list", + src_list=src_list, + dest_list=dest_list, + inplace=inplace, + regex=regex, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + bm._consolidate_inplace() + return bm + + def interpolate(self, inplace: bool, **kwargs) -> Self: + return self.apply_with_block( + "interpolate", + inplace=inplace, + **kwargs, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + + def pad_or_backfill(self, inplace: bool, **kwargs) -> Self: + return self.apply_with_block( + "pad_or_backfill", + inplace=inplace, + **kwargs, + using_cow=using_copy_on_write(), + already_warned=_AlreadyWarned(), + ) + + def shift(self, periods: int, fill_value) -> Self: + if fill_value is lib.no_default: + fill_value = None + + return self.apply_with_block("shift", periods=periods, fill_value=fill_value) + + # -------------------------------------------------------------------- + # Consolidation: No-ops for all but BlockManager + + def is_consolidated(self) -> bool: + return True + + def consolidate(self) -> Self: + return self + + def _consolidate_inplace(self) -> None: + return + + +class SingleDataManager(DataManager): + @property + def ndim(self) -> Literal[1]: + return 1 + + @final + @property + def array(self) -> ArrayLike: + """ + Quick access to the backing array of the Block or SingleArrayManager. + """ + # error: "SingleDataManager" has no attribute "arrays"; maybe "array" + return self.arrays[0] # type: ignore[attr-defined] + + def setitem_inplace(self, indexer, value, warn: bool = True) -> None: + """ + Set values with indexer. + + For Single[Block/Array]Manager, this backs s[indexer] = value + + This is an inplace version of `setitem()`, mutating the manager/values + in place, not returning a new Manager (and Block), and thus never changing + the dtype. + """ + arr = self.array + + # EAs will do this validation in their own __setitem__ methods. + if isinstance(arr, np.ndarray): + # Note: checking for ndarray instead of np.dtype means we exclude + # dt64/td64, which do their own validation. + value = np_can_hold_element(arr.dtype, value) + + if isinstance(value, np.ndarray) and value.ndim == 1 and len(value) == 1: + # NumPy 1.25 deprecation: https://github.com/numpy/numpy/pull/10615 + value = value[0, ...] + + arr[indexer] = value + + def grouped_reduce(self, func): + arr = self.array + res = func(arr) + index = default_index(len(res)) + + mgr = type(self).from_array(res, index) + return mgr + + @classmethod + def from_array(cls, arr: ArrayLike, index: Index): + raise AbstractMethodError(cls) + + +def interleaved_dtype(dtypes: list[DtypeObj]) -> DtypeObj | None: + """ + Find the common dtype for `blocks`. + + Parameters + ---------- + blocks : List[DtypeObj] + + Returns + ------- + dtype : np.dtype, ExtensionDtype, or None + None is returned when `blocks` is empty. + """ + if not len(dtypes): + return None + + return find_common_type(dtypes) + + +def ensure_np_dtype(dtype: DtypeObj) -> np.dtype: + # TODO: https://github.com/pandas-dev/pandas/issues/22791 + # Give EAs some input on what happens here. Sparse needs this. + if isinstance(dtype, SparseDtype): + dtype = dtype.subtype + dtype = cast(np.dtype, dtype) + elif isinstance(dtype, ExtensionDtype): + dtype = np.dtype("object") + elif dtype == np.dtype(str): + dtype = np.dtype("object") + return dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/blocks.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/blocks.py new file mode 100644 index 0000000000000000000000000000000000000000..452c919449ec40c042bdb68b249801f2267b2b19 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/blocks.py @@ -0,0 +1,2923 @@ +from __future__ import annotations + +from functools import wraps +import inspect +import re +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, + final, +) +import warnings +import weakref + +import numpy as np + +from pandas._config import ( + get_option, + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs import ( + NaT, + internals as libinternals, + lib, +) +from pandas._libs.internals import ( + BlockPlacement, + BlockValuesRefs, +) +from pandas._libs.missing import NA +from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeBackend, + DtypeObj, + F, + FillnaOptions, + IgnoreRaise, + InterpolateOptions, + QuantileInterpolation, + Self, + Shape, + npt, +) +from pandas.errors import AbstractMethodError +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import validate_bool_kwarg + +from pandas.core.dtypes.astype import ( + astype_array_safe, + astype_is_view, +) +from pandas.core.dtypes.cast import ( + LossySetitemError, + can_hold_element, + convert_dtypes, + find_result_type, + maybe_downcast_to_dtype, + np_can_hold_element, +) +from pandas.core.dtypes.common import ( + is_1d_only_ea_dtype, + is_float_dtype, + is_integer_dtype, + is_list_like, + is_scalar, + is_string_dtype, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + NumpyEADtype, + PeriodDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCIndex, + ABCNumpyExtensionArray, + ABCSeries, +) +from pandas.core.dtypes.inference import is_re +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + na_value_for_dtype, +) + +from pandas.core import missing +import pandas.core.algorithms as algos +from pandas.core.array_algos.putmask import ( + extract_bool_array, + putmask_inplace, + putmask_without_repeat, + setitem_datetimelike_compat, + validate_putmask, +) +from pandas.core.array_algos.quantile import quantile_compat +from pandas.core.array_algos.replace import ( + compare_or_regex_search, + replace_regex, + should_use_regex, +) +from pandas.core.array_algos.transforms import shift +from pandas.core.arrays import ( + Categorical, + DatetimeArray, + ExtensionArray, + IntervalArray, + NumpyExtensionArray, + PeriodArray, + TimedeltaArray, +) +from pandas.core.arrays.string_ import StringDtype +from pandas.core.base import PandasObject +import pandas.core.common as com +from pandas.core.computation import expressions +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.indexers import check_setitem_lengths +from pandas.core.indexes.base import get_values_for_csv + +if TYPE_CHECKING: + from collections.abc import ( + Iterable, + Sequence, + ) + + from pandas.core.api import Index + from pandas.core.arrays._mixins import NDArrayBackedExtensionArray + +# comparison is faster than is_object_dtype +_dtype_obj = np.dtype("object") + + +COW_WARNING_GENERAL_MSG = """\ +Setting a value on a view: behaviour will change in pandas 3.0. +You are mutating a Series or DataFrame object, and currently this mutation will +also have effect on other Series or DataFrame objects that share data with this +object. In pandas 3.0 (with Copy-on-Write), updating one Series or DataFrame object +will never modify another. +""" + + +COW_WARNING_SETITEM_MSG = """\ +Setting a value on a view: behaviour will change in pandas 3.0. +Currently, the mutation will also have effect on the object that shares data +with this object. For example, when setting a value in a Series that was +extracted from a column of a DataFrame, that DataFrame will also be updated: + + ser = df["col"] + ser[0] = 0 <--- in pandas 2, this also updates `df` + +In pandas 3.0 (with Copy-on-Write), updating one Series/DataFrame will never +modify another, and thus in the example above, `df` will not be changed. +""" + + +def maybe_split(meth: F) -> F: + """ + If we have a multi-column block, split and operate block-wise. Otherwise + use the original method. + """ + + @wraps(meth) + def newfunc(self, *args, **kwargs) -> list[Block]: + if self.ndim == 1 or self.shape[0] == 1: + return meth(self, *args, **kwargs) + else: + # Split and operate column-by-column + return self.split_and_operate(meth, *args, **kwargs) + + return cast(F, newfunc) + + +class Block(PandasObject, libinternals.Block): + """ + Canonical n-dimensional unit of homogeneous dtype contained in a pandas + data structure + + Index-ignorant; let the container take care of that + """ + + values: np.ndarray | ExtensionArray + ndim: int + refs: BlockValuesRefs + __init__: Callable + + __slots__ = () + is_numeric = False + + @final + @cache_readonly + def _validate_ndim(self) -> bool: + """ + We validate dimension for blocks that can hold 2D values, which for now + means numpy dtypes or DatetimeTZDtype. + """ + dtype = self.dtype + return not isinstance(dtype, ExtensionDtype) or isinstance( + dtype, DatetimeTZDtype + ) + + @final + @cache_readonly + def is_object(self) -> bool: + return self.values.dtype == _dtype_obj + + @final + @cache_readonly + def is_extension(self) -> bool: + return not lib.is_np_dtype(self.values.dtype) + + @final + @cache_readonly + def _can_consolidate(self) -> bool: + # We _could_ consolidate for DatetimeTZDtype but don't for now. + return not self.is_extension + + @final + @cache_readonly + def _consolidate_key(self): + return self._can_consolidate, self.dtype.name + + @final + @cache_readonly + def _can_hold_na(self) -> bool: + """ + Can we store NA values in this Block? + """ + dtype = self.dtype + if isinstance(dtype, np.dtype): + return dtype.kind not in "iub" + return dtype._can_hold_na + + @final + @property + def is_bool(self) -> bool: + """ + We can be bool if a) we are bool dtype or b) object dtype with bool objects. + """ + return self.values.dtype == np.dtype(bool) + + @final + def external_values(self): + return external_values(self.values) + + @final + @cache_readonly + def fill_value(self): + # Used in reindex_indexer + return na_value_for_dtype(self.dtype, compat=False) + + @final + def _standardize_fill_value(self, value): + # if we are passed a scalar None, convert it here + if self.dtype != _dtype_obj and is_valid_na_for_dtype(value, self.dtype): + value = self.fill_value + return value + + @property + def mgr_locs(self) -> BlockPlacement: + return self._mgr_locs + + @mgr_locs.setter + def mgr_locs(self, new_mgr_locs: BlockPlacement) -> None: + self._mgr_locs = new_mgr_locs + + @final + def make_block( + self, + values, + placement: BlockPlacement | None = None, + refs: BlockValuesRefs | None = None, + ) -> Block: + """ + Create a new block, with type inference propagate any values that are + not specified + """ + if placement is None: + placement = self._mgr_locs + if self.is_extension: + values = ensure_block_shape(values, ndim=self.ndim) + + return new_block(values, placement=placement, ndim=self.ndim, refs=refs) + + @final + def make_block_same_class( + self, + values, + placement: BlockPlacement | None = None, + refs: BlockValuesRefs | None = None, + ) -> Self: + """Wrap given values in a block of same type as self.""" + # Pre-2.0 we called ensure_wrapped_if_datetimelike because fastparquet + # relied on it, as of 2.0 the caller is responsible for this. + if placement is None: + placement = self._mgr_locs + + # We assume maybe_coerce_values has already been called + return type(self)(values, placement=placement, ndim=self.ndim, refs=refs) + + @final + def __repr__(self) -> str: + # don't want to print out all of the items here + name = type(self).__name__ + if self.ndim == 1: + result = f"{name}: {len(self)} dtype: {self.dtype}" + else: + shape = " x ".join([str(s) for s in self.shape]) + result = f"{name}: {self.mgr_locs.indexer}, {shape}, dtype: {self.dtype}" + + return result + + @final + def __len__(self) -> int: + return len(self.values) + + @final + def slice_block_columns(self, slc: slice) -> Self: + """ + Perform __getitem__-like, return result as block. + """ + new_mgr_locs = self._mgr_locs[slc] + + new_values = self._slice(slc) + refs = self.refs + return type(self)(new_values, new_mgr_locs, self.ndim, refs=refs) + + @final + def take_block_columns(self, indices: npt.NDArray[np.intp]) -> Self: + """ + Perform __getitem__-like, return result as block. + + Only supports slices that preserve dimensionality. + """ + # Note: only called from is from internals.concat, and we can verify + # that never happens with 1-column blocks, i.e. never for ExtensionBlock. + + new_mgr_locs = self._mgr_locs[indices] + + new_values = self._slice(indices) + return type(self)(new_values, new_mgr_locs, self.ndim, refs=None) + + @final + def getitem_block_columns( + self, slicer: slice, new_mgr_locs: BlockPlacement, ref_inplace_op: bool = False + ) -> Self: + """ + Perform __getitem__-like, return result as block. + + Only supports slices that preserve dimensionality. + """ + new_values = self._slice(slicer) + refs = self.refs if not ref_inplace_op or self.refs.has_reference() else None + return type(self)(new_values, new_mgr_locs, self.ndim, refs=refs) + + @final + def _can_hold_element(self, element: Any) -> bool: + """require the same dtype as ourselves""" + element = extract_array(element, extract_numpy=True) + return can_hold_element(self.values, element) + + @final + def should_store(self, value: ArrayLike) -> bool: + """ + Should we set self.values[indexer] = value inplace or do we need to cast? + + Parameters + ---------- + value : np.ndarray or ExtensionArray + + Returns + ------- + bool + """ + return value.dtype == self.dtype + + # --------------------------------------------------------------------- + # Apply/Reduce and Helpers + + @final + def apply(self, func, **kwargs) -> list[Block]: + """ + apply the function to my values; return a block if we are not + one + """ + result = func(self.values, **kwargs) + + result = maybe_coerce_values(result) + return self._split_op_result(result) + + @final + def reduce(self, func) -> list[Block]: + # We will apply the function and reshape the result into a single-row + # Block with the same mgr_locs; squeezing will be done at a higher level + assert self.ndim == 2 + + result = func(self.values) + + if self.values.ndim == 1: + res_values = result + else: + res_values = result.reshape(-1, 1) + + nb = self.make_block(res_values) + return [nb] + + @final + def _split_op_result(self, result: ArrayLike) -> list[Block]: + # See also: split_and_operate + if result.ndim > 1 and isinstance(result.dtype, ExtensionDtype): + # TODO(EA2D): unnecessary with 2D EAs + # if we get a 2D ExtensionArray, we need to split it into 1D pieces + nbs = [] + for i, loc in enumerate(self._mgr_locs): + if not is_1d_only_ea_dtype(result.dtype): + vals = result[i : i + 1] + else: + vals = result[i] + + bp = BlockPlacement(loc) + block = self.make_block(values=vals, placement=bp) + nbs.append(block) + return nbs + + nb = self.make_block(result) + + return [nb] + + @final + def _split(self) -> list[Block]: + """ + Split a block into a list of single-column blocks. + """ + assert self.ndim == 2 + + new_blocks = [] + for i, ref_loc in enumerate(self._mgr_locs): + vals = self.values[slice(i, i + 1)] + + bp = BlockPlacement(ref_loc) + nb = type(self)(vals, placement=bp, ndim=2, refs=self.refs) + new_blocks.append(nb) + return new_blocks + + @final + def split_and_operate(self, func, *args, **kwargs) -> list[Block]: + """ + Split the block and apply func column-by-column. + + Parameters + ---------- + func : Block method + *args + **kwargs + + Returns + ------- + List[Block] + """ + assert self.ndim == 2 and self.shape[0] != 1 + + res_blocks = [] + for nb in self._split(): + rbs = func(nb, *args, **kwargs) + res_blocks.extend(rbs) + return res_blocks + + # --------------------------------------------------------------------- + # Up/Down-casting + + @final + def coerce_to_target_dtype( + self, other, warn_on_upcast: bool = False, using_cow: bool = False + ) -> Block: + """ + coerce the current block to a dtype compat for other + we will return a block, possibly object, and not raise + + we can also safely try to coerce to the same dtype + and will receive the same block + """ + new_dtype = find_result_type(self.values.dtype, other) + if new_dtype == self.dtype: + # GH#52927 avoid RecursionError + raise AssertionError( + "Something has gone wrong, please report a bug at " + "https://github.com/pandas-dev/pandas/issues" + ) + + # In a future version of pandas, the default will be that + # setting `nan` into an integer series won't raise. + if ( + is_scalar(other) + and is_integer_dtype(self.values.dtype) + and isna(other) + and other is not NaT + and not ( + isinstance(other, (np.datetime64, np.timedelta64)) and np.isnat(other) + ) + ): + warn_on_upcast = False + elif ( + isinstance(other, np.ndarray) + and other.ndim == 1 + and is_integer_dtype(self.values.dtype) + and is_float_dtype(other.dtype) + and lib.has_only_ints_or_nan(other) + ): + warn_on_upcast = False + + if warn_on_upcast: + warnings.warn( + f"Setting an item of incompatible dtype is deprecated " + "and will raise an error in a future version of pandas. " + f"Value '{other}' has dtype incompatible with {self.values.dtype}, " + "please explicitly cast to a compatible dtype first.", + FutureWarning, + stacklevel=find_stack_level(), + ) + if self.values.dtype == new_dtype: + raise AssertionError( + f"Did not expect new dtype {new_dtype} to equal self.dtype " + f"{self.values.dtype}. Please report a bug at " + "https://github.com/pandas-dev/pandas/issues." + ) + copy = False + if ( + not using_cow + and isinstance(self.dtype, StringDtype) + and self.dtype.storage == "python" + ): + copy = True + return self.astype(new_dtype, copy=copy, using_cow=using_cow) + + @final + def _maybe_downcast( + self, + blocks: list[Block], + downcast, + using_cow: bool, + caller: str, + ) -> list[Block]: + if downcast is False: + return blocks + + if self.dtype == _dtype_obj: + # TODO: does it matter that self.dtype might not match blocks[i].dtype? + # GH#44241 We downcast regardless of the argument; + # respecting 'downcast=None' may be worthwhile at some point, + # but ATM it breaks too much existing code. + # split and convert the blocks + + if caller == "fillna" and get_option("future.no_silent_downcasting"): + return blocks + + nbs = extend_blocks( + [ + blk.convert( + using_cow=using_cow, copy=not using_cow, convert_string=False + ) + for blk in blocks + ] + ) + if caller == "fillna": + if len(nbs) != len(blocks) or not all( + x.dtype == y.dtype for x, y in zip(nbs, blocks) + ): + # GH#54261 + warnings.warn( + "Downcasting object dtype arrays on .fillna, .ffill, .bfill " + "is deprecated and will change in a future version. " + "Call result.infer_objects(copy=False) instead. " + "To opt-in to the future " + "behavior, set " + "`pd.set_option('future.no_silent_downcasting', True)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + + return nbs + + elif downcast is None: + return blocks + elif caller == "where" and get_option("future.no_silent_downcasting") is True: + return blocks + else: + nbs = extend_blocks([b._downcast_2d(downcast, using_cow) for b in blocks]) + + # When _maybe_downcast is called with caller="where", it is either + # a) with downcast=False, which is a no-op (the desired future behavior) + # b) with downcast="infer", which is _not_ passed by the user. + # In the latter case the future behavior is to stop doing inference, + # so we issue a warning if and only if some inference occurred. + if caller == "where": + # GH#53656 + if len(blocks) != len(nbs) or any( + left.dtype != right.dtype for left, right in zip(blocks, nbs) + ): + # In this case _maybe_downcast was _not_ a no-op, so the behavior + # will change, so we issue a warning. + warnings.warn( + "Downcasting behavior in Series and DataFrame methods 'where', " + "'mask', and 'clip' is deprecated. In a future " + "version this will not infer object dtypes or cast all-round " + "floats to integers. Instead call " + "result.infer_objects(copy=False) for object inference, " + "or cast round floats explicitly. To opt-in to the future " + "behavior, set " + "`pd.set_option('future.no_silent_downcasting', True)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + + return nbs + + @final + @maybe_split + def _downcast_2d(self, dtype, using_cow: bool = False) -> list[Block]: + """ + downcast specialized to 2D case post-validation. + + Refactored to allow use of maybe_split. + """ + new_values = maybe_downcast_to_dtype(self.values, dtype=dtype) + new_values = maybe_coerce_values(new_values) + refs = self.refs if new_values is self.values else None + return [self.make_block(new_values, refs=refs)] + + @final + def convert( + self, + *, + copy: bool = True, + using_cow: bool = False, + convert_string: bool = True, + ) -> list[Block]: + """ + Attempt to coerce any object types to better types. Return a copy + of the block (if copy = True). + """ + if not self.is_object: + if not copy and using_cow: + return [self.copy(deep=False)] + return [self.copy()] if copy else [self] + + if self.ndim != 1 and self.shape[0] != 1: + blocks = self.split_and_operate( + Block.convert, + copy=copy, + using_cow=using_cow, + convert_string=convert_string, + ) + if all(blk.dtype.kind == "O" for blk in blocks): + # Avoid fragmenting the block if convert is a no-op + if using_cow: + return [self.copy(deep=False)] + return [self.copy()] if copy else [self] + return blocks + + values = self.values + if values.ndim == 2: + # the check above ensures we only get here with values.shape[0] == 1, + # avoid doing .ravel as that might make a copy + values = values[0] + + res_values = lib.maybe_convert_objects( + values, # type: ignore[arg-type] + convert_non_numeric=True, + convert_string=convert_string, + ) + refs = None + if ( + copy + and res_values is values + or isinstance(res_values, NumpyExtensionArray) + and res_values._ndarray is values + ): + res_values = res_values.copy() + elif res_values is values: + refs = self.refs + + res_values = ensure_block_shape(res_values, self.ndim) + res_values = maybe_coerce_values(res_values) + return [self.make_block(res_values, refs=refs)] + + def convert_dtypes( + self, + copy: bool, + using_cow: bool, + infer_objects: bool = True, + convert_string: bool = True, + convert_integer: bool = True, + convert_boolean: bool = True, + convert_floating: bool = True, + dtype_backend: DtypeBackend = "numpy_nullable", + ) -> list[Block]: + if infer_objects and self.is_object: + blks = self.convert(copy=False, using_cow=using_cow) + else: + blks = [self] + + if not any( + [convert_floating, convert_integer, convert_boolean, convert_string] + ): + return [b.copy(deep=copy) for b in blks] + + rbs = [] + for blk in blks: + # Determine dtype column by column + sub_blks = [blk] if blk.ndim == 1 or self.shape[0] == 1 else blk._split() + dtypes = [ + convert_dtypes( + b.values, + convert_string, + convert_integer, + convert_boolean, + convert_floating, + infer_objects, + dtype_backend, + ) + for b in sub_blks + ] + if all(dtype == self.dtype for dtype in dtypes): + # Avoid block splitting if no dtype changes + rbs.append(blk.copy(deep=copy)) + continue + + for dtype, b in zip(dtypes, sub_blks): + rbs.append(b.astype(dtype=dtype, copy=copy, squeeze=b.ndim != 1)) + return rbs + + # --------------------------------------------------------------------- + # Array-Like Methods + + @final + @cache_readonly + def dtype(self) -> DtypeObj: + return self.values.dtype + + @final + def astype( + self, + dtype: DtypeObj, + copy: bool = False, + errors: IgnoreRaise = "raise", + using_cow: bool = False, + squeeze: bool = False, + ) -> Block: + """ + Coerce to the new dtype. + + Parameters + ---------- + dtype : np.dtype or ExtensionDtype + copy : bool, default False + copy if indicated + errors : str, {'raise', 'ignore'}, default 'raise' + - ``raise`` : allow exceptions to be raised + - ``ignore`` : suppress exceptions. On error return original object + using_cow: bool, default False + Signaling if copy on write copy logic is used. + squeeze : bool, default False + squeeze values to ndim=1 if only one column is given + + Returns + ------- + Block + """ + values = self.values + if squeeze and values.ndim == 2 and is_1d_only_ea_dtype(dtype): + if values.shape[0] != 1: + raise ValueError("Can not squeeze with more than one column.") + values = values[0, :] # type: ignore[call-overload] + + new_values = astype_array_safe(values, dtype, copy=copy, errors=errors) + + new_values = maybe_coerce_values(new_values) + + refs = None + if (using_cow or not copy) and astype_is_view(values.dtype, new_values.dtype): + refs = self.refs + + newb = self.make_block(new_values, refs=refs) + if newb.shape != self.shape: + raise TypeError( + f"cannot set astype for copy = [{copy}] for dtype " + f"({self.dtype.name} [{self.shape}]) to different shape " + f"({newb.dtype.name} [{newb.shape}])" + ) + return newb + + @final + def get_values_for_csv( + self, *, float_format, date_format, decimal, na_rep: str = "nan", quoting=None + ) -> Block: + """convert to our native types format""" + result = get_values_for_csv( + self.values, + na_rep=na_rep, + quoting=quoting, + float_format=float_format, + date_format=date_format, + decimal=decimal, + ) + return self.make_block(result) + + @final + def copy(self, deep: bool = True) -> Self: + """copy constructor""" + values = self.values + refs: BlockValuesRefs | None + if deep: + values = values.copy() + refs = None + else: + refs = self.refs + return type(self)(values, placement=self._mgr_locs, ndim=self.ndim, refs=refs) + + # --------------------------------------------------------------------- + # Copy-on-Write Helpers + + @final + def _maybe_copy(self, using_cow: bool, inplace: bool) -> Self: + if using_cow and inplace: + deep = self.refs.has_reference() + blk = self.copy(deep=deep) + else: + blk = self if inplace else self.copy() + return blk + + @final + def _get_refs_and_copy(self, using_cow: bool, inplace: bool): + refs = None + copy = not inplace + if inplace: + if using_cow and self.refs.has_reference(): + copy = True + else: + refs = self.refs + return copy, refs + + # --------------------------------------------------------------------- + # Replace + + @final + def replace( + self, + to_replace, + value, + inplace: bool = False, + # mask may be pre-computed if we're called from replace_list + mask: npt.NDArray[np.bool_] | None = None, + using_cow: bool = False, + already_warned=None, + convert_string=None, + ) -> list[Block]: + """ + replace the to_replace value with value, possible to create new + blocks here this is just a call to putmask. + """ + + # Note: the checks we do in NDFrame.replace ensure we never get + # here with listlike to_replace or value, as those cases + # go through replace_list + values = self.values + + if isinstance(values, Categorical): + # TODO: avoid special-casing + # GH49404 + blk = self._maybe_copy(using_cow, inplace) + values = cast(Categorical, blk.values) + values._replace(to_replace=to_replace, value=value, inplace=True) + return [blk] + + if not self._can_hold_element(to_replace): + # We cannot hold `to_replace`, so we know immediately that + # replacing it is a no-op. + # Note: If to_replace were a list, NDFrame.replace would call + # replace_list instead of replace. + if using_cow: + return [self.copy(deep=False)] + else: + return [self] if inplace else [self.copy()] + + if mask is None: + mask = missing.mask_missing(values, to_replace) + if not mask.any(): + # Note: we get here with test_replace_extension_other incorrectly + # bc _can_hold_element is incorrect. + if using_cow: + return [self.copy(deep=False)] + else: + return [self] if inplace else [self.copy()] + + elif self._can_hold_element(value) or (self.dtype == "string" and is_re(value)): + # TODO(CoW): Maybe split here as well into columns where mask has True + # and rest? + blk = self._maybe_copy(using_cow, inplace) + putmask_inplace(blk.values, mask, value) + if ( + inplace + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + if not (self.is_object and value is None): + # if the user *explicitly* gave None, we keep None, otherwise + # may downcast to NaN + if get_option("future.no_silent_downcasting") is True: + blocks = [blk] + else: + blocks = blk.convert( + copy=False, + using_cow=using_cow, + convert_string=convert_string or self.dtype == "string", + ) + if len(blocks) > 1 or blocks[0].dtype != blk.dtype: + warnings.warn( + # GH#54710 + "Downcasting behavior in `replace` is deprecated and " + "will be removed in a future version. To retain the old " + "behavior, explicitly call " + "`result.infer_objects(copy=False)`. " + "To opt-in to the future " + "behavior, set " + "`pd.set_option('future.no_silent_downcasting', True)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + blocks = [blk] + return blocks + + elif self.ndim == 1 or self.shape[0] == 1: + if value is None or value is NA: + blk = self.astype(np.dtype(object)) + else: + blk = self.coerce_to_target_dtype(value, using_cow=using_cow) + return blk.replace( + to_replace=to_replace, + value=value, + inplace=True, + mask=mask, + using_cow=using_cow, + convert_string=convert_string, + ) + + else: + # split so that we only upcast where necessary + blocks = [] + for i, nb in enumerate(self._split()): + blocks.extend( + type(self).replace( + nb, + to_replace=to_replace, + value=value, + inplace=True, + mask=mask[i : i + 1], + using_cow=using_cow, + convert_string=convert_string, + ) + ) + return blocks + + @final + def _replace_regex( + self, + to_replace, + value, + inplace: bool = False, + mask=None, + using_cow: bool = False, + convert_string=None, + already_warned=None, + ) -> list[Block]: + """ + Replace elements by the given value. + + Parameters + ---------- + to_replace : object or pattern + Scalar to replace or regular expression to match. + value : object + Replacement object. + inplace : bool, default False + Perform inplace modification. + mask : array-like of bool, optional + True indicate corresponding element is ignored. + using_cow: bool, default False + Specifying if copy on write is enabled. + + Returns + ------- + List[Block] + """ + if not is_re(to_replace) and not self._can_hold_element(to_replace): + # i.e. only if self.is_object is True, but could in principle include a + # String ExtensionBlock + if using_cow: + return [self.copy(deep=False)] + return [self] if inplace else [self.copy()] + + if is_re(to_replace) and self.dtype not in [object, "string"]: + # only object or string dtype can hold strings, and a regex object + # will only match strings + return [self.copy(deep=False)] + + if not ( + self._can_hold_element(value) or (self.dtype == "string" and is_re(value)) + ): + block = self.astype(np.dtype(object)) + else: + block = self._maybe_copy(using_cow, inplace) + + rx = re.compile(to_replace) + + replace_regex(block.values, rx, value, mask) + + if ( + inplace + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + nbs = block.convert( + copy=False, + using_cow=using_cow, + convert_string=convert_string or self.dtype == "string", + ) + opt = get_option("future.no_silent_downcasting") + if ( + len(nbs) > 1 + or ( + nbs[0].dtype != block.dtype + and not (self.dtype == "string" and nbs[0].dtype == "string") + ) + ) and not opt: + warnings.warn( + # GH#54710 + "Downcasting behavior in `replace` is deprecated and " + "will be removed in a future version. To retain the old " + "behavior, explicitly call `result.infer_objects(copy=False)`. " + "To opt-in to the future " + "behavior, set " + "`pd.set_option('future.no_silent_downcasting', True)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + return nbs + + @final + def replace_list( + self, + src_list: Iterable[Any], + dest_list: Sequence[Any], + inplace: bool = False, + regex: bool = False, + using_cow: bool = False, + already_warned=None, + ) -> list[Block]: + """ + See BlockManager.replace_list docstring. + """ + values = self.values + + if isinstance(values, Categorical): + # TODO: avoid special-casing + # GH49404 + blk = self._maybe_copy(using_cow, inplace) + values = cast(Categorical, blk.values) + values._replace(to_replace=src_list, value=dest_list, inplace=True) + return [blk] + + convert_string = self.dtype == "string" + + # Exclude anything that we know we won't contain + pairs = [ + (x, y) + for x, y in zip(src_list, dest_list) + if (self._can_hold_element(x) or (self.dtype == "string" and is_re(x))) + ] + if not len(pairs): + if using_cow: + return [self.copy(deep=False)] + # shortcut, nothing to replace + return [self] if inplace else [self.copy()] + + src_len = len(pairs) - 1 + + if is_string_dtype(values.dtype): + # Calculate the mask once, prior to the call of comp + # in order to avoid repeating the same computations + na_mask = ~isna(values) + masks: Iterable[npt.NDArray[np.bool_]] = ( + extract_bool_array( + cast( + ArrayLike, + compare_or_regex_search( + values, s[0], regex=regex, mask=na_mask + ), + ) + ) + for s in pairs + ) + else: + # GH#38086 faster if we know we dont need to check for regex + masks = (missing.mask_missing(values, s[0]) for s in pairs) + # Materialize if inplace = True, since the masks can change + # as we replace + if inplace: + masks = list(masks) + + if using_cow: + # Don't set up refs here, otherwise we will think that we have + # references when we check again later + rb = [self] + else: + rb = [self if inplace else self.copy()] + + if ( + inplace + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + opt = get_option("future.no_silent_downcasting") + for i, ((src, dest), mask) in enumerate(zip(pairs, masks)): + convert = i == src_len # only convert once at the end + new_rb: list[Block] = [] + + # GH-39338: _replace_coerce can split a block into + # single-column blocks, so track the index so we know + # where to index into the mask + for blk_num, blk in enumerate(rb): + if len(rb) == 1: + m = mask + else: + mib = mask + assert not isinstance(mib, bool) + m = mib[blk_num : blk_num + 1] + + # error: Argument "mask" to "_replace_coerce" of "Block" has + # incompatible type "Union[ExtensionArray, ndarray[Any, Any], bool]"; + # expected "ndarray[Any, dtype[bool_]]" + result = blk._replace_coerce( + to_replace=src, + value=dest, + mask=m, + inplace=inplace, + regex=regex, + using_cow=using_cow, + convert_string=convert_string, + ) + + if using_cow and i != src_len: + # This is ugly, but we have to get rid of intermediate refs + # that did not go out of scope yet, otherwise we will trigger + # many unnecessary copies + for b in result: + ref = weakref.ref(b) + b.refs.referenced_blocks.pop( + b.refs.referenced_blocks.index(ref) + ) + + if ( + not opt + and convert + and blk.is_object + and not all(x is None for x in dest_list) + ): + # GH#44498 avoid unwanted cast-back + nbs = [] + for res_blk in result: + converted = res_blk.convert( + copy=True and not using_cow, + using_cow=using_cow, + convert_string=convert_string, + ) + if len(converted) > 1 or converted[0].dtype != res_blk.dtype: + warnings.warn( + # GH#54710 + "Downcasting behavior in `replace` is deprecated " + "and will be removed in a future version. To " + "retain the old behavior, explicitly call " + "`result.infer_objects(copy=False)`. " + "To opt-in to the future " + "behavior, set " + "`pd.set_option('future.no_silent_downcasting', True)`", + FutureWarning, + stacklevel=find_stack_level(), + ) + nbs.extend(converted) + result = nbs + new_rb.extend(result) + rb = new_rb + return rb + + @final + def _replace_coerce( + self, + to_replace, + value, + mask: npt.NDArray[np.bool_], + inplace: bool = True, + regex: bool = False, + using_cow: bool = False, + convert_string: bool = True, + ) -> list[Block]: + """ + Replace value corresponding to the given boolean array with another + value. + + Parameters + ---------- + to_replace : object or pattern + Scalar to replace or regular expression to match. + value : object + Replacement object. + mask : np.ndarray[bool] + True indicate corresponding element is ignored. + inplace : bool, default True + Perform inplace modification. + regex : bool, default False + If true, perform regular expression substitution. + + Returns + ------- + List[Block] + """ + if should_use_regex(regex, to_replace): + return self._replace_regex( + to_replace, + value, + inplace=inplace, + mask=mask, + using_cow=using_cow, + convert_string=convert_string, + ) + else: + if value is None: + # gh-45601, gh-45836, gh-46634 + if mask.any(): + has_ref = self.refs.has_reference() + nb = self.astype(np.dtype(object), copy=False, using_cow=using_cow) + if (nb is self or using_cow) and not inplace: + nb = nb.copy() + elif inplace and has_ref and nb.refs.has_reference() and using_cow: + # no copy in astype and we had refs before + nb = nb.copy() + putmask_inplace(nb.values, mask, value) + return [nb] + if using_cow: + return [self.copy(deep=False)] + return [self] if inplace else [self.copy()] + return self.replace( + to_replace=to_replace, + value=value, + inplace=inplace, + mask=mask, + using_cow=using_cow, + convert_string=convert_string, + ) + + # --------------------------------------------------------------------- + # 2D Methods - Shared by NumpyBlock and NDArrayBackedExtensionBlock + # but not ExtensionBlock + + def _maybe_squeeze_arg(self, arg: np.ndarray) -> np.ndarray: + """ + For compatibility with 1D-only ExtensionArrays. + """ + return arg + + def _unwrap_setitem_indexer(self, indexer): + """ + For compatibility with 1D-only ExtensionArrays. + """ + return indexer + + # NB: this cannot be made cache_readonly because in mgr.set_values we pin + # new .values that can have different shape GH#42631 + @property + def shape(self) -> Shape: + return self.values.shape + + def iget(self, i: int | tuple[int, int] | tuple[slice, int]) -> np.ndarray: + # In the case where we have a tuple[slice, int], the slice will always + # be slice(None) + # Note: only reached with self.ndim == 2 + # Invalid index type "Union[int, Tuple[int, int], Tuple[slice, int]]" + # for "Union[ndarray[Any, Any], ExtensionArray]"; expected type + # "Union[int, integer[Any]]" + return self.values[i] # type: ignore[index] + + def _slice( + self, slicer: slice | npt.NDArray[np.bool_] | npt.NDArray[np.intp] + ) -> ArrayLike: + """return a slice of my values""" + + return self.values[slicer] + + def set_inplace(self, locs, values: ArrayLike, copy: bool = False) -> None: + """ + Modify block values in-place with new item value. + + If copy=True, first copy the underlying values in place before modifying + (for Copy-on-Write). + + Notes + ----- + `set_inplace` never creates a new array or new Block, whereas `setitem` + _may_ create a new array and always creates a new Block. + + Caller is responsible for checking values.dtype == self.dtype. + """ + if copy: + self.values = self.values.copy() + self.values[locs] = values + + @final + def take_nd( + self, + indexer: npt.NDArray[np.intp], + axis: AxisInt, + new_mgr_locs: BlockPlacement | None = None, + fill_value=lib.no_default, + ) -> Block: + """ + Take values according to indexer and return them as a block. + """ + values = self.values + + if fill_value is lib.no_default: + fill_value = self.fill_value + allow_fill = False + else: + allow_fill = True + + # Note: algos.take_nd has upcast logic similar to coerce_to_target_dtype + new_values = algos.take_nd( + values, indexer, axis=axis, allow_fill=allow_fill, fill_value=fill_value + ) + + # Called from three places in managers, all of which satisfy + # these assertions + if isinstance(self, ExtensionBlock): + # NB: in this case, the 'axis' kwarg will be ignored in the + # algos.take_nd call above. + assert not (self.ndim == 1 and new_mgr_locs is None) + assert not (axis == 0 and new_mgr_locs is None) + + if new_mgr_locs is None: + new_mgr_locs = self._mgr_locs + + if new_values.dtype != self.dtype: + return self.make_block(new_values, new_mgr_locs) + else: + return self.make_block_same_class(new_values, new_mgr_locs) + + def _unstack( + self, + unstacker, + fill_value, + new_placement: npt.NDArray[np.intp], + needs_masking: npt.NDArray[np.bool_], + ): + """ + Return a list of unstacked blocks of self + + Parameters + ---------- + unstacker : reshape._Unstacker + fill_value : int + Only used in ExtensionBlock._unstack + new_placement : np.ndarray[np.intp] + allow_fill : bool + needs_masking : np.ndarray[bool] + + Returns + ------- + blocks : list of Block + New blocks of unstacked values. + mask : array-like of bool + The mask of columns of `blocks` we should keep. + """ + new_values, mask = unstacker.get_new_values( + self.values.T, fill_value=fill_value + ) + + mask = mask.any(0) + # TODO: in all tests we have mask.all(); can we rely on that? + + # Note: these next two lines ensure that + # mask.sum() == sum(len(nb.mgr_locs) for nb in blocks) + # which the calling function needs in order to pass verify_integrity=False + # to the BlockManager constructor + new_values = new_values.T[mask] + new_placement = new_placement[mask] + + bp = BlockPlacement(new_placement) + blocks = [new_block_2d(new_values, placement=bp)] + return blocks, mask + + # --------------------------------------------------------------------- + + def setitem(self, indexer, value, using_cow: bool = False) -> Block: + """ + Attempt self.values[indexer] = value, possibly creating a new array. + + Parameters + ---------- + indexer : tuple, list-like, array-like, slice, int + The subset of self.values to set + value : object + The value being set + using_cow: bool, default False + Signaling if CoW is used. + + Returns + ------- + Block + + Notes + ----- + `indexer` is a direct slice/positional indexer. `value` must + be a compatible shape. + """ + + value = self._standardize_fill_value(value) + + values = cast(np.ndarray, self.values) + if self.ndim == 2: + values = values.T + + # length checking + check_setitem_lengths(indexer, value, values) + + if self.dtype != _dtype_obj: + # GH48933: extract_array would convert a pd.Series value to np.ndarray + value = extract_array(value, extract_numpy=True) + try: + casted = np_can_hold_element(values.dtype, value) + except LossySetitemError: + # current dtype cannot store value, coerce to common dtype + nb = self.coerce_to_target_dtype(value, warn_on_upcast=True) + return nb.setitem(indexer, value) + else: + if self.dtype == _dtype_obj: + # TODO: avoid having to construct values[indexer] + vi = values[indexer] + if lib.is_list_like(vi): + # checking lib.is_scalar here fails on + # test_iloc_setitem_custom_object + casted = setitem_datetimelike_compat(values, len(vi), casted) + + self = self._maybe_copy(using_cow, inplace=True) + values = cast(np.ndarray, self.values.T) + if isinstance(casted, np.ndarray) and casted.ndim == 1 and len(casted) == 1: + # NumPy 1.25 deprecation: https://github.com/numpy/numpy/pull/10615 + casted = casted[0, ...] + try: + values[indexer] = casted + except (TypeError, ValueError) as err: + if is_list_like(casted): + raise ValueError( + "setting an array element with a sequence." + ) from err + raise + return self + + def putmask( + self, mask, new, using_cow: bool = False, already_warned=None + ) -> list[Block]: + """ + putmask the data to the block; it is possible that we may create a + new dtype of block + + Return the resulting block(s). + + Parameters + ---------- + mask : np.ndarray[bool], SparseArray[bool], or BooleanArray + new : a ndarray/object + using_cow: bool, default False + + Returns + ------- + List[Block] + """ + orig_mask = mask + values = cast(np.ndarray, self.values) + mask, noop = validate_putmask(values.T, mask) + assert not isinstance(new, (ABCIndex, ABCSeries, ABCDataFrame)) + + if new is lib.no_default: + new = self.fill_value + + new = self._standardize_fill_value(new) + new = extract_array(new, extract_numpy=True) + + if noop: + if using_cow: + return [self.copy(deep=False)] + return [self] + + if ( + warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + try: + casted = np_can_hold_element(values.dtype, new) + + self = self._maybe_copy(using_cow, inplace=True) + values = cast(np.ndarray, self.values) + + putmask_without_repeat(values.T, mask, casted) + return [self] + except LossySetitemError: + if self.ndim == 1 or self.shape[0] == 1: + # no need to split columns + + if not is_list_like(new): + # using just new[indexer] can't save us the need to cast + return self.coerce_to_target_dtype( + new, warn_on_upcast=True + ).putmask(mask, new) + else: + indexer = mask.nonzero()[0] + nb = self.setitem(indexer, new[indexer], using_cow=using_cow) + return [nb] + + else: + is_array = isinstance(new, np.ndarray) + + res_blocks = [] + nbs = self._split() + for i, nb in enumerate(nbs): + n = new + if is_array: + # we have a different value per-column + n = new[:, i : i + 1] + + submask = orig_mask[:, i : i + 1] + rbs = nb.putmask(submask, n, using_cow=using_cow) + res_blocks.extend(rbs) + return res_blocks + + def where( + self, other, cond, _downcast: str | bool = "infer", using_cow: bool = False + ) -> list[Block]: + """ + evaluate the block; return result block(s) from the result + + Parameters + ---------- + other : a ndarray/object + cond : np.ndarray[bool], SparseArray[bool], or BooleanArray + _downcast : str or None, default "infer" + Private because we only specify it when calling from fillna. + + Returns + ------- + List[Block] + """ + assert cond.ndim == self.ndim + assert not isinstance(other, (ABCIndex, ABCSeries, ABCDataFrame)) + + transpose = self.ndim == 2 + + cond = extract_bool_array(cond) + + # EABlocks override where + values = cast(np.ndarray, self.values) + orig_other = other + if transpose: + values = values.T + + icond, noop = validate_putmask(values, ~cond) + if noop: + # GH-39595: Always return a copy; short-circuit up/downcasting + if using_cow: + return [self.copy(deep=False)] + return [self.copy()] + + if other is lib.no_default: + other = self.fill_value + + other = self._standardize_fill_value(other) + + try: + # try/except here is equivalent to a self._can_hold_element check, + # but this gets us back 'casted' which we will reuse below; + # without using 'casted', expressions.where may do unwanted upcasts. + casted = np_can_hold_element(values.dtype, other) + except (ValueError, TypeError, LossySetitemError): + # we cannot coerce, return a compat dtype + + if self.ndim == 1 or self.shape[0] == 1: + # no need to split columns + + block = self.coerce_to_target_dtype(other) + blocks = block.where(orig_other, cond, using_cow=using_cow) + return self._maybe_downcast( + blocks, downcast=_downcast, using_cow=using_cow, caller="where" + ) + + else: + # since _maybe_downcast would split blocks anyway, we + # can avoid some potential upcast/downcast by splitting + # on the front end. + is_array = isinstance(other, (np.ndarray, ExtensionArray)) + + res_blocks = [] + nbs = self._split() + for i, nb in enumerate(nbs): + oth = other + if is_array: + # we have a different value per-column + oth = other[:, i : i + 1] + + submask = cond[:, i : i + 1] + rbs = nb.where( + oth, submask, _downcast=_downcast, using_cow=using_cow + ) + res_blocks.extend(rbs) + return res_blocks + + else: + other = casted + alt = setitem_datetimelike_compat(values, icond.sum(), other) + if alt is not other: + if is_list_like(other) and len(other) < len(values): + # call np.where with other to get the appropriate ValueError + np.where(~icond, values, other) + raise NotImplementedError( + "This should not be reached; call to np.where above is " + "expected to raise ValueError. Please report a bug at " + "github.com/pandas-dev/pandas" + ) + result = values.copy() + np.putmask(result, icond, alt) + else: + # By the time we get here, we should have all Series/Index + # args extracted to ndarray + if ( + is_list_like(other) + and not isinstance(other, np.ndarray) + and len(other) == self.shape[-1] + ): + # If we don't do this broadcasting here, then expressions.where + # will broadcast a 1D other to be row-like instead of + # column-like. + other = np.array(other).reshape(values.shape) + # If lengths don't match (or len(other)==1), we will raise + # inside expressions.where, see test_series_where + + # Note: expressions.where may upcast. + result = expressions.where(~icond, values, other) + # The np_can_hold_element check _should_ ensure that we always + # have result.dtype == self.dtype here. + + if transpose: + result = result.T + + return [self.make_block(result)] + + def fillna( + self, + value, + limit: int | None = None, + inplace: bool = False, + downcast=None, + using_cow: bool = False, + already_warned=None, + ) -> list[Block]: + """ + fillna on the block with the value. If we fail, then convert to + block to hold objects instead and try again + """ + # Caller is responsible for validating limit; if int it is strictly positive + inplace = validate_bool_kwarg(inplace, "inplace") + + if not self._can_hold_na: + # can short-circuit the isna call + noop = True + else: + mask = isna(self.values) + mask, noop = validate_putmask(self.values, mask) + + if noop: + # we can't process the value, but nothing to do + if inplace: + if using_cow: + return [self.copy(deep=False)] + # Arbitrarily imposing the convention that we ignore downcast + # on no-op when inplace=True + return [self] + else: + # GH#45423 consistent downcasting on no-ops. + nb = self.copy(deep=not using_cow) + nbs = nb._maybe_downcast( + [nb], downcast=downcast, using_cow=using_cow, caller="fillna" + ) + return nbs + + if limit is not None: + mask[mask.cumsum(self.values.ndim - 1) > limit] = False + + if inplace: + nbs = self.putmask( + mask.T, value, using_cow=using_cow, already_warned=already_warned + ) + else: + # without _downcast, we would break + # test_fillna_dtype_conversion_equiv_replace + nbs = self.where(value, ~mask.T, _downcast=False) + + # Note: blk._maybe_downcast vs self._maybe_downcast(nbs) + # makes a difference bc blk may have object dtype, which has + # different behavior in _maybe_downcast. + return extend_blocks( + [ + blk._maybe_downcast( + [blk], downcast=downcast, using_cow=using_cow, caller="fillna" + ) + for blk in nbs + ] + ) + + def pad_or_backfill( + self, + *, + method: FillnaOptions, + axis: AxisInt = 0, + inplace: bool = False, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: Literal["infer"] | None = None, + using_cow: bool = False, + already_warned=None, + ) -> list[Block]: + if not self._can_hold_na: + # If there are no NAs, then interpolate is a no-op + if using_cow: + return [self.copy(deep=False)] + return [self] if inplace else [self.copy()] + + copy, refs = self._get_refs_and_copy(using_cow, inplace) + + # Dispatch to the NumpyExtensionArray method. + # We know self.array_values is a NumpyExtensionArray bc EABlock overrides + vals = cast(NumpyExtensionArray, self.array_values) + if axis == 1: + vals = vals.T + new_values = vals._pad_or_backfill( + method=method, + limit=limit, + limit_area=limit_area, + copy=copy, + ) + if ( + not copy + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + if axis == 1: + new_values = new_values.T + + data = extract_array(new_values, extract_numpy=True) + + nb = self.make_block_same_class(data, refs=refs) + return nb._maybe_downcast([nb], downcast, using_cow, caller="fillna") + + @final + def interpolate( + self, + *, + method: InterpolateOptions, + index: Index, + inplace: bool = False, + limit: int | None = None, + limit_direction: Literal["forward", "backward", "both"] = "forward", + limit_area: Literal["inside", "outside"] | None = None, + downcast: Literal["infer"] | None = None, + using_cow: bool = False, + already_warned=None, + **kwargs, + ) -> list[Block]: + inplace = validate_bool_kwarg(inplace, "inplace") + # error: Non-overlapping equality check [...] + if method == "asfreq": # type: ignore[comparison-overlap] + # clean_fill_method used to allow this + missing.clean_fill_method(method) + + if not self._can_hold_na: + # If there are no NAs, then interpolate is a no-op + if using_cow: + return [self.copy(deep=False)] + return [self] if inplace else [self.copy()] + + # TODO(3.0): this case will not be reachable once GH#53638 is enforced + if self.dtype == _dtype_obj: + # only deal with floats + # bc we already checked that can_hold_na, we don't have int dtype here + # test_interp_basic checks that we make a copy here + if using_cow: + return [self.copy(deep=False)] + return [self] if inplace else [self.copy()] + + copy, refs = self._get_refs_and_copy(using_cow, inplace) + + # Dispatch to the EA method. + new_values = self.array_values.interpolate( + method=method, + axis=self.ndim - 1, + index=index, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area, + copy=copy, + **kwargs, + ) + data = extract_array(new_values, extract_numpy=True) + + if ( + not copy + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + nb = self.make_block_same_class(data, refs=refs) + return nb._maybe_downcast([nb], downcast, using_cow, caller="interpolate") + + @final + def diff(self, n: int) -> list[Block]: + """return block for the diff of the values""" + # only reached with ndim == 2 + # TODO(EA2D): transpose will be unnecessary with 2D EAs + new_values = algos.diff(self.values.T, n, axis=0).T + return [self.make_block(values=new_values)] + + def shift(self, periods: int, fill_value: Any = None) -> list[Block]: + """shift the block by periods, possibly upcast""" + # convert integer to float if necessary. need to do a lot more than + # that, handle boolean etc also + axis = self.ndim - 1 + + # Note: periods is never 0 here, as that is handled at the top of + # NDFrame.shift. If that ever changes, we can do a check for periods=0 + # and possibly avoid coercing. + + if not lib.is_scalar(fill_value) and self.dtype != _dtype_obj: + # with object dtype there is nothing to promote, and the user can + # pass pretty much any weird fill_value they like + # see test_shift_object_non_scalar_fill + raise ValueError("fill_value must be a scalar") + + fill_value = self._standardize_fill_value(fill_value) + + try: + # error: Argument 1 to "np_can_hold_element" has incompatible type + # "Union[dtype[Any], ExtensionDtype]"; expected "dtype[Any]" + casted = np_can_hold_element( + self.dtype, fill_value # type: ignore[arg-type] + ) + except LossySetitemError: + nb = self.coerce_to_target_dtype(fill_value) + return nb.shift(periods, fill_value=fill_value) + + else: + values = cast(np.ndarray, self.values) + new_values = shift(values, periods, axis, casted) + return [self.make_block_same_class(new_values)] + + @final + def quantile( + self, + qs: Index, # with dtype float64 + interpolation: QuantileInterpolation = "linear", + ) -> Block: + """ + compute the quantiles of the + + Parameters + ---------- + qs : Index + The quantiles to be computed in float64. + interpolation : str, default 'linear' + Type of interpolation. + + Returns + ------- + Block + """ + # We should always have ndim == 2 because Series dispatches to DataFrame + assert self.ndim == 2 + assert is_list_like(qs) # caller is responsible for this + + result = quantile_compat(self.values, np.asarray(qs._values), interpolation) + # ensure_block_shape needed for cases where we start with EA and result + # is ndarray, e.g. IntegerArray, SparseArray + result = ensure_block_shape(result, ndim=2) + return new_block_2d(result, placement=self._mgr_locs) + + @final + def round(self, decimals: int, using_cow: bool = False) -> Self: + """ + Rounds the values. + If the block is not of an integer or float dtype, nothing happens. + This is consistent with DataFrame.round behavivor. + (Note: Series.round would raise) + + Parameters + ---------- + decimals: int, + Number of decimal places to round to. + Caller is responsible for validating this + using_cow: bool, + Whether Copy on Write is enabled right now + """ + if not self.is_numeric or self.is_bool: + return self.copy(deep=not using_cow) + refs = None + # TODO: round only defined on BaseMaskedArray + # Series also does this, so would need to fix both places + # error: Item "ExtensionArray" of "Union[ndarray[Any, Any], ExtensionArray]" + # has no attribute "round" + values = self.values.round(decimals) # type: ignore[union-attr] + if values is self.values: + if not using_cow: + # Normally would need to do this before, but + # numpy only returns same array when round operation + # is no-op + # https://github.com/numpy/numpy/blob/486878b37fc7439a3b2b87747f50db9b62fea8eb/numpy/core/src/multiarray/calculation.c#L625-L636 + values = values.copy() + else: + refs = self.refs + return self.make_block_same_class(values, refs=refs) + + # --------------------------------------------------------------------- + # Abstract Methods Overridden By EABackedBlock and NumpyBlock + + def delete(self, loc) -> list[Block]: + """Deletes the locs from the block. + + We split the block to avoid copying the underlying data. We create new + blocks for every connected segment of the initial block that is not deleted. + The new blocks point to the initial array. + """ + if not is_list_like(loc): + loc = [loc] + + if self.ndim == 1: + values = cast(np.ndarray, self.values) + values = np.delete(values, loc) + mgr_locs = self._mgr_locs.delete(loc) + return [type(self)(values, placement=mgr_locs, ndim=self.ndim)] + + if np.max(loc) >= self.values.shape[0]: + raise IndexError + + # Add one out-of-bounds indexer as maximum to collect + # all columns after our last indexer if any + loc = np.concatenate([loc, [self.values.shape[0]]]) + mgr_locs_arr = self._mgr_locs.as_array + new_blocks: list[Block] = [] + + previous_loc = -1 + # TODO(CoW): This is tricky, if parent block goes out of scope + # all split blocks are referencing each other even though they + # don't share data + refs = self.refs if self.refs.has_reference() else None + for idx in loc: + if idx == previous_loc + 1: + # There is no column between current and last idx + pass + else: + # No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[slice, slice]" + values = self.values[previous_loc + 1 : idx, :] # type: ignore[call-overload] + locs = mgr_locs_arr[previous_loc + 1 : idx] + nb = type(self)( + values, placement=BlockPlacement(locs), ndim=self.ndim, refs=refs + ) + new_blocks.append(nb) + + previous_loc = idx + + return new_blocks + + @property + def is_view(self) -> bool: + """return a boolean if I am possibly a view""" + raise AbstractMethodError(self) + + @property + def array_values(self) -> ExtensionArray: + """ + The array that Series.array returns. Always an ExtensionArray. + """ + raise AbstractMethodError(self) + + def get_values(self, dtype: DtypeObj | None = None) -> np.ndarray: + """ + return an internal format, currently just the ndarray + this is often overridden to handle to_dense like operations + """ + raise AbstractMethodError(self) + + +class EABackedBlock(Block): + """ + Mixin for Block subclasses backed by ExtensionArray. + """ + + values: ExtensionArray + + @final + def shift(self, periods: int, fill_value: Any = None) -> list[Block]: + """ + Shift the block by `periods`. + + Dispatches to underlying ExtensionArray and re-boxes in an + ExtensionBlock. + """ + # Transpose since EA.shift is always along axis=0, while we want to shift + # along rows. + new_values = self.values.T.shift(periods=periods, fill_value=fill_value).T + return [self.make_block_same_class(new_values)] + + @final + def setitem(self, indexer, value, using_cow: bool = False): + """ + Attempt self.values[indexer] = value, possibly creating a new array. + + This differs from Block.setitem by not allowing setitem to change + the dtype of the Block. + + Parameters + ---------- + indexer : tuple, list-like, array-like, slice, int + The subset of self.values to set + value : object + The value being set + using_cow: bool, default False + Signaling if CoW is used. + + Returns + ------- + Block + + Notes + ----- + `indexer` is a direct slice/positional indexer. `value` must + be a compatible shape. + """ + orig_indexer = indexer + orig_value = value + + indexer = self._unwrap_setitem_indexer(indexer) + value = self._maybe_squeeze_arg(value) + + values = self.values + if values.ndim == 2: + # TODO(GH#45419): string[pyarrow] tests break if we transpose + # unconditionally + values = values.T + check_setitem_lengths(indexer, value, values) + + try: + values[indexer] = value + except (ValueError, TypeError): + if isinstance(self.dtype, IntervalDtype): + # see TestSetitemFloatIntervalWithIntIntervalValues + nb = self.coerce_to_target_dtype(orig_value, warn_on_upcast=True) + return nb.setitem(orig_indexer, orig_value) + + elif isinstance(self, NDArrayBackedExtensionBlock): + nb = self.coerce_to_target_dtype(orig_value, warn_on_upcast=True) + return nb.setitem(orig_indexer, orig_value) + + else: + raise + + else: + return self + + @final + def where( + self, other, cond, _downcast: str | bool = "infer", using_cow: bool = False + ) -> list[Block]: + # _downcast private bc we only specify it when calling from fillna + arr = self.values.T + + cond = extract_bool_array(cond) + + orig_other = other + orig_cond = cond + other = self._maybe_squeeze_arg(other) + cond = self._maybe_squeeze_arg(cond) + + if other is lib.no_default: + other = self.fill_value + + icond, noop = validate_putmask(arr, ~cond) + if noop: + # GH#44181, GH#45135 + # Avoid a) raising for Interval/PeriodDtype and b) unnecessary object upcast + if using_cow: + return [self.copy(deep=False)] + return [self.copy()] + + try: + res_values = arr._where(cond, other).T + except (ValueError, TypeError): + if self.ndim == 1 or self.shape[0] == 1: + if isinstance(self.dtype, (IntervalDtype, StringDtype)): + # TestSetitemFloatIntervalWithIntIntervalValues + blk = self.coerce_to_target_dtype(orig_other) + if ( + self.ndim == 2 + and isinstance(orig_cond, np.ndarray) + and orig_cond.ndim == 1 + and not is_1d_only_ea_dtype(blk.dtype) + ): + orig_cond = orig_cond[:, None] + nbs = blk.where(orig_other, orig_cond, using_cow=using_cow) + return self._maybe_downcast( + nbs, downcast=_downcast, using_cow=using_cow, caller="where" + ) + + elif isinstance(self, NDArrayBackedExtensionBlock): + # NB: not (yet) the same as + # isinstance(values, NDArrayBackedExtensionArray) + blk = self.coerce_to_target_dtype(orig_other) + nbs = blk.where(orig_other, orig_cond, using_cow=using_cow) + return self._maybe_downcast( + nbs, downcast=_downcast, using_cow=using_cow, caller="where" + ) + + else: + raise + + else: + # Same pattern we use in Block.putmask + is_array = isinstance(orig_other, (np.ndarray, ExtensionArray)) + + res_blocks = [] + nbs = self._split() + for i, nb in enumerate(nbs): + n = orig_other + if is_array: + # we have a different value per-column + n = orig_other[:, i : i + 1] + + submask = orig_cond[:, i : i + 1] + rbs = nb.where(n, submask, using_cow=using_cow) + res_blocks.extend(rbs) + return res_blocks + + nb = self.make_block_same_class(res_values) + return [nb] + + @final + def putmask( + self, mask, new, using_cow: bool = False, already_warned=None + ) -> list[Block]: + """ + See Block.putmask.__doc__ + """ + mask = extract_bool_array(mask) + if new is lib.no_default: + new = self.fill_value + + orig_new = new + orig_mask = mask + new = self._maybe_squeeze_arg(new) + mask = self._maybe_squeeze_arg(mask) + + if not mask.any(): + if using_cow: + return [self.copy(deep=False)] + return [self] + + if ( + warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + self = self._maybe_copy(using_cow, inplace=True) + values = self.values + if values.ndim == 2: + values = values.T + + try: + # Caller is responsible for ensuring matching lengths + values._putmask(mask, new) + except (TypeError, ValueError): + if self.ndim == 1 or self.shape[0] == 1: + if isinstance(self.dtype, IntervalDtype): + # Discussion about what we want to support in the general + # case GH#39584 + blk = self.coerce_to_target_dtype(orig_new, warn_on_upcast=True) + return blk.putmask(orig_mask, orig_new) + + elif isinstance(self, NDArrayBackedExtensionBlock): + # NB: not (yet) the same as + # isinstance(values, NDArrayBackedExtensionArray) + blk = self.coerce_to_target_dtype(orig_new, warn_on_upcast=True) + return blk.putmask(orig_mask, orig_new) + + else: + raise + + else: + # Same pattern we use in Block.putmask + is_array = isinstance(orig_new, (np.ndarray, ExtensionArray)) + + res_blocks = [] + nbs = self._split() + for i, nb in enumerate(nbs): + n = orig_new + if is_array: + # we have a different value per-column + n = orig_new[:, i : i + 1] + + submask = orig_mask[:, i : i + 1] + rbs = nb.putmask(submask, n) + res_blocks.extend(rbs) + return res_blocks + + return [self] + + @final + def delete(self, loc) -> list[Block]: + # This will be unnecessary if/when __array_function__ is implemented + if self.ndim == 1: + values = self.values.delete(loc) + mgr_locs = self._mgr_locs.delete(loc) + return [type(self)(values, placement=mgr_locs, ndim=self.ndim)] + elif self.values.ndim == 1: + # We get here through to_stata + return [] + return super().delete(loc) + + @final + @cache_readonly + def array_values(self) -> ExtensionArray: + return self.values + + @final + def get_values(self, dtype: DtypeObj | None = None) -> np.ndarray: + """ + return object dtype as boxed values, such as Timestamps/Timedelta + """ + values: ArrayLike = self.values + if dtype == _dtype_obj: + values = values.astype(object) + # TODO(EA2D): reshape not needed with 2D EAs + return np.asarray(values).reshape(self.shape) + + @final + def pad_or_backfill( + self, + *, + method: FillnaOptions, + axis: AxisInt = 0, + inplace: bool = False, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + downcast: Literal["infer"] | None = None, + using_cow: bool = False, + already_warned=None, + ) -> list[Block]: + values = self.values + + kwargs: dict[str, Any] = {"method": method, "limit": limit} + if "limit_area" in inspect.signature(values._pad_or_backfill).parameters: + kwargs["limit_area"] = limit_area + elif limit_area is not None: + raise NotImplementedError( + f"{type(values).__name__} does not implement limit_area " + "(added in pandas 2.2). 3rd-party ExtnsionArray authors " + "need to add this argument to _pad_or_backfill." + ) + + if values.ndim == 2 and axis == 1: + # NDArrayBackedExtensionArray.fillna assumes axis=0 + new_values = values.T._pad_or_backfill(**kwargs).T + else: + new_values = values._pad_or_backfill(**kwargs) + return [self.make_block_same_class(new_values)] + + +class ExtensionBlock(EABackedBlock): + """ + Block for holding extension types. + + Notes + ----- + This holds all 3rd-party extension array types. It's also the immediate + parent class for our internal extension types' blocks. + + ExtensionArrays are limited to 1-D. + """ + + values: ExtensionArray + + def fillna( + self, + value, + limit: int | None = None, + inplace: bool = False, + downcast=None, + using_cow: bool = False, + already_warned=None, + ) -> list[Block]: + if isinstance(self.dtype, (IntervalDtype, StringDtype)): + # Block.fillna handles coercion (test_fillna_interval) + return super().fillna( + value=value, + limit=limit, + inplace=inplace, + downcast=downcast, + using_cow=using_cow, + already_warned=already_warned, + ) + if using_cow and self._can_hold_na and not self.values._hasna: + refs = self.refs + new_values = self.values + else: + copy, refs = self._get_refs_and_copy(using_cow, inplace) + + try: + new_values = self.values.fillna( + value=value, method=None, limit=limit, copy=copy + ) + except TypeError: + # 3rd party EA that has not implemented copy keyword yet + refs = None + new_values = self.values.fillna(value=value, method=None, limit=limit) + # issue the warning *after* retrying, in case the TypeError + # was caused by an invalid fill_value + warnings.warn( + # GH#53278 + "ExtensionArray.fillna added a 'copy' keyword in pandas " + "2.1.0. In a future version, ExtensionArray subclasses will " + "need to implement this keyword or an exception will be " + "raised. In the interim, the keyword is ignored by " + f"{type(self.values).__name__}.", + DeprecationWarning, + stacklevel=find_stack_level(), + ) + else: + if ( + not copy + and warn_copy_on_write() + and already_warned is not None + and not already_warned.warned_already + ): + if self.refs.has_reference(): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + already_warned.warned_already = True + + nb = self.make_block_same_class(new_values, refs=refs) + return nb._maybe_downcast([nb], downcast, using_cow=using_cow, caller="fillna") + + @cache_readonly + def shape(self) -> Shape: + # TODO(EA2D): override unnecessary with 2D EAs + if self.ndim == 1: + return (len(self.values),) + return len(self._mgr_locs), len(self.values) + + def iget(self, i: int | tuple[int, int] | tuple[slice, int]): + # In the case where we have a tuple[slice, int], the slice will always + # be slice(None) + # We _could_ make the annotation more specific, but mypy would + # complain about override mismatch: + # Literal[0] | tuple[Literal[0], int] | tuple[slice, int] + + # Note: only reached with self.ndim == 2 + + if isinstance(i, tuple): + # TODO(EA2D): unnecessary with 2D EAs + col, loc = i + if not com.is_null_slice(col) and col != 0: + raise IndexError(f"{self} only contains one item") + if isinstance(col, slice): + # the is_null_slice check above assures that col is slice(None) + # so what we want is a view on all our columns and row loc + if loc < 0: + loc += len(self.values) + # Note: loc:loc+1 vs [[loc]] makes a difference when called + # from fast_xs because we want to get a view back. + return self.values[loc : loc + 1] + return self.values[loc] + else: + if i != 0: + raise IndexError(f"{self} only contains one item") + return self.values + + def set_inplace(self, locs, values: ArrayLike, copy: bool = False) -> None: + # When an ndarray, we should have locs.tolist() == [0] + # When a BlockPlacement we should have list(locs) == [0] + if copy: + self.values = self.values.copy() + self.values[:] = values + + def _maybe_squeeze_arg(self, arg): + """ + If necessary, squeeze a (N, 1) ndarray to (N,) + """ + # e.g. if we are passed a 2D mask for putmask + if ( + isinstance(arg, (np.ndarray, ExtensionArray)) + and arg.ndim == self.values.ndim + 1 + ): + # TODO(EA2D): unnecessary with 2D EAs + assert arg.shape[1] == 1 + # error: No overload variant of "__getitem__" of "ExtensionArray" + # matches argument type "Tuple[slice, int]" + arg = arg[:, 0] # type: ignore[call-overload] + elif isinstance(arg, ABCDataFrame): + # 2022-01-06 only reached for setitem + # TODO: should we avoid getting here with DataFrame? + assert arg.shape[1] == 1 + arg = arg._ixs(0, axis=1)._values + + return arg + + def _unwrap_setitem_indexer(self, indexer): + """ + Adapt a 2D-indexer to our 1D values. + + This is intended for 'setitem', not 'iget' or '_slice'. + """ + # TODO: ATM this doesn't work for iget/_slice, can we change that? + + if isinstance(indexer, tuple) and len(indexer) == 2: + # TODO(EA2D): not needed with 2D EAs + # Should never have length > 2. Caller is responsible for checking. + # Length 1 is reached vis setitem_single_block and setitem_single_column + # each of which pass indexer=(pi,) + if all(isinstance(x, np.ndarray) and x.ndim == 2 for x in indexer): + # GH#44703 went through indexing.maybe_convert_ix + first, second = indexer + if not ( + second.size == 1 and (second == 0).all() and first.shape[1] == 1 + ): + raise NotImplementedError( + "This should not be reached. Please report a bug at " + "github.com/pandas-dev/pandas/" + ) + indexer = first[:, 0] + + elif lib.is_integer(indexer[1]) and indexer[1] == 0: + # reached via setitem_single_block passing the whole indexer + indexer = indexer[0] + + elif com.is_null_slice(indexer[1]): + indexer = indexer[0] + + elif is_list_like(indexer[1]) and indexer[1][0] == 0: + indexer = indexer[0] + + else: + raise NotImplementedError( + "This should not be reached. Please report a bug at " + "github.com/pandas-dev/pandas/" + ) + return indexer + + @property + def is_view(self) -> bool: + """Extension arrays are never treated as views.""" + return False + + # error: Cannot override writeable attribute with read-only property + @cache_readonly + def is_numeric(self) -> bool: # type: ignore[override] + return self.values.dtype._is_numeric + + def _slice( + self, slicer: slice | npt.NDArray[np.bool_] | npt.NDArray[np.intp] + ) -> ExtensionArray: + """ + Return a slice of my values. + + Parameters + ---------- + slicer : slice, ndarray[int], or ndarray[bool] + Valid (non-reducing) indexer for self.values. + + Returns + ------- + ExtensionArray + """ + # Notes: ndarray[bool] is only reachable when via get_rows_with_mask, which + # is only for Series, i.e. self.ndim == 1. + + # return same dims as we currently have + if self.ndim == 2: + # reached via getitem_block via _slice_take_blocks_ax0 + # TODO(EA2D): won't be necessary with 2D EAs + + if not isinstance(slicer, slice): + raise AssertionError( + "invalid slicing for a 1-ndim ExtensionArray", slicer + ) + # GH#32959 only full-slicers along fake-dim0 are valid + # TODO(EA2D): won't be necessary with 2D EAs + # range(1) instead of self._mgr_locs to avoid exception on [::-1] + # see test_iloc_getitem_slice_negative_step_ea_block + new_locs = range(1)[slicer] + if not len(new_locs): + raise AssertionError( + "invalid slicing for a 1-ndim ExtensionArray", slicer + ) + slicer = slice(None) + + return self.values[slicer] + + @final + def slice_block_rows(self, slicer: slice) -> Self: + """ + Perform __getitem__-like specialized to slicing along index. + """ + # GH#42787 in principle this is equivalent to values[..., slicer], but we don't + # require subclasses of ExtensionArray to support that form (for now). + new_values = self.values[slicer] + return type(self)(new_values, self._mgr_locs, ndim=self.ndim, refs=self.refs) + + def _unstack( + self, + unstacker, + fill_value, + new_placement: npt.NDArray[np.intp], + needs_masking: npt.NDArray[np.bool_], + ): + # ExtensionArray-safe unstack. + # We override Block._unstack, which unstacks directly on the + # values of the array. For EA-backed blocks, this would require + # converting to a 2-D ndarray of objects. + # Instead, we unstack an ndarray of integer positions, followed by + # a `take` on the actual values. + + # Caller is responsible for ensuring self.shape[-1] == len(unstacker.index) + new_values, mask = unstacker.arange_result + + # Note: these next two lines ensure that + # mask.sum() == sum(len(nb.mgr_locs) for nb in blocks) + # which the calling function needs in order to pass verify_integrity=False + # to the BlockManager constructor + new_values = new_values.T[mask] + new_placement = new_placement[mask] + + # needs_masking[i] calculated once in BlockManager.unstack tells + # us if there are any -1s in the relevant indices. When False, + # that allows us to go through a faster path in 'take', among + # other things avoiding e.g. Categorical._validate_scalar. + blocks = [ + # TODO: could cast to object depending on fill_value? + type(self)( + self.values.take( + indices, allow_fill=needs_masking[i], fill_value=fill_value + ), + BlockPlacement(place), + ndim=2, + ) + for i, (indices, place) in enumerate(zip(new_values, new_placement)) + ] + return blocks, mask + + +class NumpyBlock(Block): + values: np.ndarray + __slots__ = () + + @property + def is_view(self) -> bool: + """return a boolean if I am possibly a view""" + return self.values.base is not None + + @property + def array_values(self) -> ExtensionArray: + return NumpyExtensionArray(self.values) + + def get_values(self, dtype: DtypeObj | None = None) -> np.ndarray: + if dtype == _dtype_obj: + return self.values.astype(_dtype_obj) + return self.values + + @cache_readonly + def is_numeric(self) -> bool: # type: ignore[override] + dtype = self.values.dtype + kind = dtype.kind + + return kind in "fciub" + + +class NumericBlock(NumpyBlock): + # this Block type is kept for backwards-compatibility + # TODO(3.0): delete and remove deprecation in __init__.py. + __slots__ = () + + +class ObjectBlock(NumpyBlock): + # this Block type is kept for backwards-compatibility + # TODO(3.0): delete and remove deprecation in __init__.py. + __slots__ = () + + +class NDArrayBackedExtensionBlock(EABackedBlock): + """ + Block backed by an NDArrayBackedExtensionArray + """ + + values: NDArrayBackedExtensionArray + + @property + def is_view(self) -> bool: + """return a boolean if I am possibly a view""" + # check the ndarray values of the DatetimeIndex values + return self.values._ndarray.base is not None + + +class DatetimeLikeBlock(NDArrayBackedExtensionBlock): + """Block for datetime64[ns], timedelta64[ns].""" + + __slots__ = () + is_numeric = False + values: DatetimeArray | TimedeltaArray + + +class DatetimeTZBlock(DatetimeLikeBlock): + """implement a datetime64 block with a tz attribute""" + + values: DatetimeArray + + __slots__ = () + + +# ----------------------------------------------------------------- +# Constructor Helpers + + +def maybe_coerce_values(values: ArrayLike) -> ArrayLike: + """ + Input validation for values passed to __init__. Ensure that + any datetime64/timedelta64 dtypes are in nanoseconds. Ensure + that we do not have string dtypes. + + Parameters + ---------- + values : np.ndarray or ExtensionArray + + Returns + ------- + values : np.ndarray or ExtensionArray + """ + # Caller is responsible for ensuring NumpyExtensionArray is already extracted. + + if isinstance(values, np.ndarray): + values = ensure_wrapped_if_datetimelike(values) + + if issubclass(values.dtype.type, str): + values = np.array(values, dtype=object) + + if isinstance(values, (DatetimeArray, TimedeltaArray)) and values.freq is not None: + # freq is only stored in DatetimeIndex/TimedeltaIndex, not in Series/DataFrame + values = values._with_freq(None) + + return values + + +def get_block_type(dtype: DtypeObj) -> type[Block]: + """ + Find the appropriate Block subclass to use for the given values and dtype. + + Parameters + ---------- + dtype : numpy or pandas dtype + + Returns + ------- + cls : class, subclass of Block + """ + if isinstance(dtype, DatetimeTZDtype): + return DatetimeTZBlock + elif isinstance(dtype, PeriodDtype): + return NDArrayBackedExtensionBlock + elif isinstance(dtype, ExtensionDtype): + # Note: need to be sure NumpyExtensionArray is unwrapped before we get here + return ExtensionBlock + + # We use kind checks because it is much more performant + # than is_foo_dtype + kind = dtype.kind + if kind in "Mm": + return DatetimeLikeBlock + + return NumpyBlock + + +def new_block_2d( + values: ArrayLike, placement: BlockPlacement, refs: BlockValuesRefs | None = None +): + # new_block specialized to case with + # ndim=2 + # isinstance(placement, BlockPlacement) + # check_ndim/ensure_block_shape already checked + klass = get_block_type(values.dtype) + + values = maybe_coerce_values(values) + return klass(values, ndim=2, placement=placement, refs=refs) + + +def new_block( + values, + placement: BlockPlacement, + *, + ndim: int, + refs: BlockValuesRefs | None = None, +) -> Block: + # caller is responsible for ensuring: + # - values is NOT a NumpyExtensionArray + # - check_ndim/ensure_block_shape already checked + # - maybe_coerce_values already called/unnecessary + klass = get_block_type(values.dtype) + return klass(values, ndim=ndim, placement=placement, refs=refs) + + +def check_ndim(values, placement: BlockPlacement, ndim: int) -> None: + """ + ndim inference and validation. + + Validates that values.ndim and ndim are consistent. + Validates that len(values) and len(placement) are consistent. + + Parameters + ---------- + values : array-like + placement : BlockPlacement + ndim : int + + Raises + ------ + ValueError : the number of dimensions do not match + """ + + if values.ndim > ndim: + # Check for both np.ndarray and ExtensionArray + raise ValueError( + "Wrong number of dimensions. " + f"values.ndim > ndim [{values.ndim} > {ndim}]" + ) + + if not is_1d_only_ea_dtype(values.dtype): + # TODO(EA2D): special case not needed with 2D EAs + if values.ndim != ndim: + raise ValueError( + "Wrong number of dimensions. " + f"values.ndim != ndim [{values.ndim} != {ndim}]" + ) + if len(placement) != len(values): + raise ValueError( + f"Wrong number of items passed {len(values)}, " + f"placement implies {len(placement)}" + ) + elif ndim == 2 and len(placement) != 1: + # TODO(EA2D): special case unnecessary with 2D EAs + raise ValueError("need to split") + + +def extract_pandas_array( + values: ArrayLike, dtype: DtypeObj | None, ndim: int +) -> tuple[ArrayLike, DtypeObj | None]: + """ + Ensure that we don't allow NumpyExtensionArray / NumpyEADtype in internals. + """ + # For now, blocks should be backed by ndarrays when possible. + if isinstance(values, ABCNumpyExtensionArray): + values = values.to_numpy() + if ndim and ndim > 1: + # TODO(EA2D): special case not needed with 2D EAs + values = np.atleast_2d(values) + + if isinstance(dtype, NumpyEADtype): + dtype = dtype.numpy_dtype + + return values, dtype + + +# ----------------------------------------------------------------- + + +def extend_blocks(result, blocks=None) -> list[Block]: + """return a new extended blocks, given the result""" + if blocks is None: + blocks = [] + if isinstance(result, list): + for r in result: + if isinstance(r, list): + blocks.extend(r) + else: + blocks.append(r) + else: + assert isinstance(result, Block), type(result) + blocks.append(result) + return blocks + + +def ensure_block_shape(values: ArrayLike, ndim: int = 1) -> ArrayLike: + """ + Reshape if possible to have values.ndim == ndim. + """ + + if values.ndim < ndim: + if not is_1d_only_ea_dtype(values.dtype): + # TODO(EA2D): https://github.com/pandas-dev/pandas/issues/23023 + # block.shape is incorrect for "2D" ExtensionArrays + # We can't, and don't need to, reshape. + values = cast("np.ndarray | DatetimeArray | TimedeltaArray", values) + values = values.reshape(1, -1) + + return values + + +def external_values(values: ArrayLike) -> ArrayLike: + """ + The array that Series.values returns (public attribute). + + This has some historical constraints, and is overridden in block + subclasses to return the correct array (e.g. period returns + object ndarray and datetimetz a datetime64[ns] ndarray instead of + proper extension array). + """ + if isinstance(values, (PeriodArray, IntervalArray)): + return values.astype(object) + elif isinstance(values, (DatetimeArray, TimedeltaArray)): + # NB: for datetime64tz this is different from np.asarray(values), since + # that returns an object-dtype ndarray of Timestamps. + # Avoid raising in .astype in casting from dt64tz to dt64 + values = values._ndarray + + if isinstance(values, np.ndarray) and using_copy_on_write(): + values = values.view() + values.flags.writeable = False + + # TODO(CoW) we should also mark our ExtensionArrays as read-only + + return values diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/concat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/concat.py new file mode 100644 index 0000000000000000000000000000000000000000..b2d463a8c6c26f62ded5a06283f29275612c9b40 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/concat.py @@ -0,0 +1,598 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + cast, +) +import warnings + +import numpy as np + +from pandas._libs import ( + NaT, + algos as libalgos, + internals as libinternals, + lib, +) +from pandas._libs.missing import NA +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import ( + ensure_dtype_can_hold_na, + find_common_type, +) +from pandas.core.dtypes.common import ( + is_1d_only_ea_dtype, + is_scalar, + needs_i8_conversion, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.dtypes import ( + ExtensionDtype, + SparseDtype, +) +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + isna_all, +) + +from pandas.core.construction import ensure_wrapped_if_datetimelike +from pandas.core.internals.array_manager import ArrayManager +from pandas.core.internals.blocks import ( + ensure_block_shape, + new_block_2d, +) +from pandas.core.internals.managers import ( + BlockManager, + make_na_array, +) + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeObj, + Manager2D, + Shape, + ) + + from pandas import Index + from pandas.core.internals.blocks import ( + Block, + BlockPlacement, + ) + + +def _concatenate_array_managers( + mgrs: list[ArrayManager], axes: list[Index], concat_axis: AxisInt +) -> Manager2D: + """ + Concatenate array managers into one. + + Parameters + ---------- + mgrs_indexers : list of (ArrayManager, {axis: indexer,...}) tuples + axes : list of Index + concat_axis : int + + Returns + ------- + ArrayManager + """ + if concat_axis == 1: + return mgrs[0].concat_vertical(mgrs, axes) + else: + # concatting along the columns -> combine reindexed arrays in a single manager + assert concat_axis == 0 + return mgrs[0].concat_horizontal(mgrs, axes) + + +def concatenate_managers( + mgrs_indexers, axes: list[Index], concat_axis: AxisInt, copy: bool +) -> Manager2D: + """ + Concatenate block managers into one. + + Parameters + ---------- + mgrs_indexers : list of (BlockManager, {axis: indexer,...}) tuples + axes : list of Index + concat_axis : int + copy : bool + + Returns + ------- + BlockManager + """ + + needs_copy = copy and concat_axis == 0 + + # TODO(ArrayManager) this assumes that all managers are of the same type + if isinstance(mgrs_indexers[0][0], ArrayManager): + mgrs = _maybe_reindex_columns_na_proxy(axes, mgrs_indexers, needs_copy) + # error: Argument 1 to "_concatenate_array_managers" has incompatible + # type "List[BlockManager]"; expected "List[Union[ArrayManager, + # SingleArrayManager, BlockManager, SingleBlockManager]]" + return _concatenate_array_managers( + mgrs, axes, concat_axis # type: ignore[arg-type] + ) + + # Assertions disabled for performance + # for tup in mgrs_indexers: + # # caller is responsible for ensuring this + # indexers = tup[1] + # assert concat_axis not in indexers + + if concat_axis == 0: + mgrs = _maybe_reindex_columns_na_proxy(axes, mgrs_indexers, needs_copy) + return mgrs[0].concat_horizontal(mgrs, axes) + + if len(mgrs_indexers) > 0 and mgrs_indexers[0][0].nblocks > 0: + first_dtype = mgrs_indexers[0][0].blocks[0].dtype + if first_dtype in [np.float64, np.float32]: + # TODO: support more dtypes here. This will be simpler once + # JoinUnit.is_na behavior is deprecated. + if ( + all(_is_homogeneous_mgr(mgr, first_dtype) for mgr, _ in mgrs_indexers) + and len(mgrs_indexers) > 1 + ): + # Fastpath! + # Length restriction is just to avoid having to worry about 'copy' + shape = tuple(len(x) for x in axes) + nb = _concat_homogeneous_fastpath(mgrs_indexers, shape, first_dtype) + return BlockManager((nb,), axes) + + mgrs = _maybe_reindex_columns_na_proxy(axes, mgrs_indexers, needs_copy) + + if len(mgrs) == 1: + mgr = mgrs[0] + out = mgr.copy(deep=False) + out.axes = axes + return out + + concat_plan = _get_combined_plan(mgrs) + + blocks = [] + values: ArrayLike + + for placement, join_units in concat_plan: + unit = join_units[0] + blk = unit.block + + if _is_uniform_join_units(join_units): + vals = [ju.block.values for ju in join_units] + + if not blk.is_extension: + # _is_uniform_join_units ensures a single dtype, so + # we can use np.concatenate, which is more performant + # than concat_compat + # error: Argument 1 to "concatenate" has incompatible type + # "List[Union[ndarray[Any, Any], ExtensionArray]]"; + # expected "Union[_SupportsArray[dtype[Any]], + # _NestedSequence[_SupportsArray[dtype[Any]]]]" + values = np.concatenate(vals, axis=1) # type: ignore[arg-type] + elif is_1d_only_ea_dtype(blk.dtype): + # TODO(EA2D): special-casing not needed with 2D EAs + values = concat_compat(vals, axis=0, ea_compat_axis=True) + values = ensure_block_shape(values, ndim=2) + else: + values = concat_compat(vals, axis=1) + + values = ensure_wrapped_if_datetimelike(values) + + fastpath = blk.values.dtype == values.dtype + else: + values = _concatenate_join_units(join_units, copy=copy) + fastpath = False + + if fastpath: + b = blk.make_block_same_class(values, placement=placement) + else: + b = new_block_2d(values, placement=placement) + + blocks.append(b) + + return BlockManager(tuple(blocks), axes) + + +def _maybe_reindex_columns_na_proxy( + axes: list[Index], + mgrs_indexers: list[tuple[BlockManager, dict[int, np.ndarray]]], + needs_copy: bool, +) -> list[BlockManager]: + """ + Reindex along columns so that all of the BlockManagers being concatenated + have matching columns. + + Columns added in this reindexing have dtype=np.void, indicating they + should be ignored when choosing a column's final dtype. + """ + new_mgrs = [] + + for mgr, indexers in mgrs_indexers: + # For axis=0 (i.e. columns) we use_na_proxy and only_slice, so this + # is a cheap reindexing. + for i, indexer in indexers.items(): + mgr = mgr.reindex_indexer( + axes[i], + indexers[i], + axis=i, + copy=False, + only_slice=True, # only relevant for i==0 + allow_dups=True, + use_na_proxy=True, # only relevant for i==0 + ) + if needs_copy and not indexers: + mgr = mgr.copy() + + new_mgrs.append(mgr) + return new_mgrs + + +def _is_homogeneous_mgr(mgr: BlockManager, first_dtype: DtypeObj) -> bool: + """ + Check if this Manager can be treated as a single ndarray. + """ + if mgr.nblocks != 1: + return False + blk = mgr.blocks[0] + if not (blk.mgr_locs.is_slice_like and blk.mgr_locs.as_slice.step == 1): + return False + + return blk.dtype == first_dtype + + +def _concat_homogeneous_fastpath( + mgrs_indexers, shape: Shape, first_dtype: np.dtype +) -> Block: + """ + With single-Block managers with homogeneous dtypes (that can already hold nan), + we avoid [...] + """ + # assumes + # all(_is_homogeneous_mgr(mgr, first_dtype) for mgr, _ in in mgrs_indexers) + + if all(not indexers for _, indexers in mgrs_indexers): + # https://github.com/pandas-dev/pandas/pull/52685#issuecomment-1523287739 + arrs = [mgr.blocks[0].values.T for mgr, _ in mgrs_indexers] + arr = np.concatenate(arrs).T + bp = libinternals.BlockPlacement(slice(shape[0])) + nb = new_block_2d(arr, bp) + return nb + + arr = np.empty(shape, dtype=first_dtype) + + if first_dtype == np.float64: + take_func = libalgos.take_2d_axis0_float64_float64 + else: + take_func = libalgos.take_2d_axis0_float32_float32 + + start = 0 + for mgr, indexers in mgrs_indexers: + mgr_len = mgr.shape[1] + end = start + mgr_len + + if 0 in indexers: + take_func( + mgr.blocks[0].values, + indexers[0], + arr[:, start:end], + ) + else: + # No reindexing necessary, we can copy values directly + arr[:, start:end] = mgr.blocks[0].values + + start += mgr_len + + bp = libinternals.BlockPlacement(slice(shape[0])) + nb = new_block_2d(arr, bp) + return nb + + +def _get_combined_plan( + mgrs: list[BlockManager], +) -> list[tuple[BlockPlacement, list[JoinUnit]]]: + plan = [] + + max_len = mgrs[0].shape[0] + + blknos_list = [mgr.blknos for mgr in mgrs] + pairs = libinternals.get_concat_blkno_indexers(blknos_list) + for ind, (blknos, bp) in enumerate(pairs): + # assert bp.is_slice_like + # assert len(bp) > 0 + + units_for_bp = [] + for k, mgr in enumerate(mgrs): + blkno = blknos[k] + + nb = _get_block_for_concat_plan(mgr, bp, blkno, max_len=max_len) + unit = JoinUnit(nb) + units_for_bp.append(unit) + + plan.append((bp, units_for_bp)) + + return plan + + +def _get_block_for_concat_plan( + mgr: BlockManager, bp: BlockPlacement, blkno: int, *, max_len: int +) -> Block: + blk = mgr.blocks[blkno] + # Assertions disabled for performance: + # assert bp.is_slice_like + # assert blkno != -1 + # assert (mgr.blknos[bp] == blkno).all() + + if len(bp) == len(blk.mgr_locs) and ( + blk.mgr_locs.is_slice_like and blk.mgr_locs.as_slice.step == 1 + ): + nb = blk + else: + ax0_blk_indexer = mgr.blklocs[bp.indexer] + + slc = lib.maybe_indices_to_slice(ax0_blk_indexer, max_len) + # TODO: in all extant test cases 2023-04-08 we have a slice here. + # Will this always be the case? + if isinstance(slc, slice): + nb = blk.slice_block_columns(slc) + else: + nb = blk.take_block_columns(slc) + + # assert nb.shape == (len(bp), mgr.shape[1]) + return nb + + +class JoinUnit: + def __init__(self, block: Block) -> None: + self.block = block + + def __repr__(self) -> str: + return f"{type(self).__name__}({repr(self.block)})" + + def _is_valid_na_for(self, dtype: DtypeObj) -> bool: + """ + Check that we are all-NA of a type/dtype that is compatible with this dtype. + Augments `self.is_na` with an additional check of the type of NA values. + """ + if not self.is_na: + return False + + blk = self.block + if blk.dtype.kind == "V": + return True + + if blk.dtype == object: + values = blk.values + return all(is_valid_na_for_dtype(x, dtype) for x in values.ravel(order="K")) + + na_value = blk.fill_value + if na_value is NaT and blk.dtype != dtype: + # e.g. we are dt64 and other is td64 + # fill_values match but we should not cast blk.values to dtype + # TODO: this will need updating if we ever have non-nano dt64/td64 + return False + + if na_value is NA and needs_i8_conversion(dtype): + # FIXME: kludge; test_append_empty_frame_with_timedelta64ns_nat + # e.g. blk.dtype == "Int64" and dtype is td64, we dont want + # to consider these as matching + return False + + # TODO: better to use can_hold_element? + return is_valid_na_for_dtype(na_value, dtype) + + @cache_readonly + def is_na(self) -> bool: + blk = self.block + if blk.dtype.kind == "V": + return True + + if not blk._can_hold_na: + return False + + values = blk.values + if values.size == 0: + # GH#39122 this case will return False once deprecation is enforced + return True + + if isinstance(values.dtype, SparseDtype): + return False + + if values.ndim == 1: + # TODO(EA2D): no need for special case with 2D EAs + val = values[0] + if not is_scalar(val) or not isna(val): + # ideally isna_all would do this short-circuiting + return False + return isna_all(values) + else: + val = values[0][0] + if not is_scalar(val) or not isna(val): + # ideally isna_all would do this short-circuiting + return False + return all(isna_all(row) for row in values) + + @cache_readonly + def is_na_after_size_and_isna_all_deprecation(self) -> bool: + """ + Will self.is_na be True after values.size == 0 deprecation and isna_all + deprecation are enforced? + """ + blk = self.block + if blk.dtype.kind == "V": + return True + return False + + def get_reindexed_values(self, empty_dtype: DtypeObj, upcasted_na) -> ArrayLike: + values: ArrayLike + + if upcasted_na is None and self.block.dtype.kind != "V": + # No upcasting is necessary + return self.block.values + else: + fill_value = upcasted_na + + if self._is_valid_na_for(empty_dtype): + # note: always holds when self.block.dtype.kind == "V" + blk_dtype = self.block.dtype + + if blk_dtype == np.dtype("object"): + # we want to avoid filling with np.nan if we are + # using None; we already know that we are all + # nulls + values = cast(np.ndarray, self.block.values) + if values.size and values[0, 0] is None: + fill_value = None + + return make_na_array(empty_dtype, self.block.shape, fill_value) + + return self.block.values + + +def _concatenate_join_units(join_units: list[JoinUnit], copy: bool) -> ArrayLike: + """ + Concatenate values from several join units along axis=1. + """ + empty_dtype, empty_dtype_future = _get_empty_dtype(join_units) + + has_none_blocks = any(unit.block.dtype.kind == "V" for unit in join_units) + upcasted_na = _dtype_to_na_value(empty_dtype, has_none_blocks) + + to_concat = [ + ju.get_reindexed_values(empty_dtype=empty_dtype, upcasted_na=upcasted_na) + for ju in join_units + ] + + if any(is_1d_only_ea_dtype(t.dtype) for t in to_concat): + # TODO(EA2D): special case not needed if all EAs used HybridBlocks + + # error: No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[int, slice]" + to_concat = [ + t + if is_1d_only_ea_dtype(t.dtype) + else t[0, :] # type: ignore[call-overload] + for t in to_concat + ] + concat_values = concat_compat(to_concat, axis=0, ea_compat_axis=True) + concat_values = ensure_block_shape(concat_values, 2) + + else: + concat_values = concat_compat(to_concat, axis=1) + + if empty_dtype != empty_dtype_future: + if empty_dtype == concat_values.dtype: + # GH#39122, GH#40893 + warnings.warn( + "The behavior of DataFrame concatenation with empty or all-NA " + "entries is deprecated. In a future version, this will no longer " + "exclude empty or all-NA columns when determining the result dtypes. " + "To retain the old behavior, exclude the relevant entries before " + "the concat operation.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return concat_values + + +def _dtype_to_na_value(dtype: DtypeObj, has_none_blocks: bool): + """ + Find the NA value to go with this dtype. + """ + if isinstance(dtype, ExtensionDtype): + return dtype.na_value + elif dtype.kind in "mM": + return dtype.type("NaT") + elif dtype.kind in "fc": + return dtype.type("NaN") + elif dtype.kind == "b": + # different from missing.na_value_for_dtype + return None + elif dtype.kind in "iu": + if not has_none_blocks: + # different from missing.na_value_for_dtype + return None + return np.nan + elif dtype.kind == "O": + return np.nan + raise NotImplementedError + + +def _get_empty_dtype(join_units: Sequence[JoinUnit]) -> tuple[DtypeObj, DtypeObj]: + """ + Return dtype and N/A values to use when concatenating specified units. + + Returned N/A value may be None which means there was no casting involved. + + Returns + ------- + dtype + """ + if lib.dtypes_all_equal([ju.block.dtype for ju in join_units]): + empty_dtype = join_units[0].block.dtype + return empty_dtype, empty_dtype + + has_none_blocks = any(unit.block.dtype.kind == "V" for unit in join_units) + + dtypes = [unit.block.dtype for unit in join_units if not unit.is_na] + if not len(dtypes): + dtypes = [ + unit.block.dtype for unit in join_units if unit.block.dtype.kind != "V" + ] + + dtype = find_common_type(dtypes) + if has_none_blocks: + dtype = ensure_dtype_can_hold_na(dtype) + + dtype_future = dtype + if len(dtypes) != len(join_units): + dtypes_future = [ + unit.block.dtype + for unit in join_units + if not unit.is_na_after_size_and_isna_all_deprecation + ] + if not len(dtypes_future): + dtypes_future = [ + unit.block.dtype for unit in join_units if unit.block.dtype.kind != "V" + ] + + if len(dtypes) != len(dtypes_future): + dtype_future = find_common_type(dtypes_future) + if has_none_blocks: + dtype_future = ensure_dtype_can_hold_na(dtype_future) + + return dtype, dtype_future + + +def _is_uniform_join_units(join_units: list[JoinUnit]) -> bool: + """ + Check if the join units consist of blocks of uniform type that can + be concatenated using Block.concat_same_type instead of the generic + _concatenate_join_units (which uses `concat_compat`). + + """ + first = join_units[0].block + if first.dtype.kind == "V": + return False + return ( + # exclude cases where a) ju.block is None or b) we have e.g. Int64+int64 + all(type(ju.block) is type(first) for ju in join_units) + and + # e.g. DatetimeLikeBlock can be dt64 or td64, but these are not uniform + all( + ju.block.dtype == first.dtype + # GH#42092 we only want the dtype_equal check for non-numeric blocks + # (for now, may change but that would need a deprecation) + or ju.block.dtype.kind in "iub" + for ju in join_units + ) + and + # no blocks that would get missing values (can lead to type upcasts) + # unless we're an extension dtype. + all(not ju.is_na or ju.block.is_extension for ju in join_units) + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/construction.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/construction.py new file mode 100644 index 0000000000000000000000000000000000000000..64fac5fcfcdc29aab451cce31b3591e56da744a0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/construction.py @@ -0,0 +1,1073 @@ +""" +Functions for preparing various inputs passed to the DataFrame or Series +constructors before passing them to a BlockManager. +""" +from __future__ import annotations + +from collections import abc +from typing import ( + TYPE_CHECKING, + Any, +) + +import numpy as np +from numpy import ma + +from pandas._config import using_string_dtype + +from pandas._libs import lib + +from pandas.core.dtypes.astype import astype_is_view +from pandas.core.dtypes.cast import ( + construct_1d_arraylike_from_scalar, + dict_compat, + maybe_cast_to_datetime, + maybe_convert_platform, + maybe_infer_to_datetimelike, +) +from pandas.core.dtypes.common import ( + is_1d_only_ea_dtype, + is_integer_dtype, + is_list_like, + is_named_tuple, + is_object_dtype, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +from pandas.core import ( + algorithms, + common as com, +) +from pandas.core.arrays import ExtensionArray +from pandas.core.arrays.string_ import StringDtype +from pandas.core.construction import ( + array as pd_array, + ensure_wrapped_if_datetimelike, + extract_array, + range_to_ndarray, + sanitize_array, +) +from pandas.core.indexes.api import ( + DatetimeIndex, + Index, + TimedeltaIndex, + default_index, + ensure_index, + get_objs_combined_axis, + union_indexes, +) +from pandas.core.internals.array_manager import ( + ArrayManager, + SingleArrayManager, +) +from pandas.core.internals.blocks import ( + BlockPlacement, + ensure_block_shape, + new_block, + new_block_2d, +) +from pandas.core.internals.managers import ( + BlockManager, + SingleBlockManager, + create_block_manager_from_blocks, + create_block_manager_from_column_arrays, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + DtypeObj, + Manager, + npt, + ) +# --------------------------------------------------------------------- +# BlockManager Interface + + +def arrays_to_mgr( + arrays, + columns: Index, + index, + *, + dtype: DtypeObj | None = None, + verify_integrity: bool = True, + typ: str | None = None, + consolidate: bool = True, +) -> Manager: + """ + Segregate Series based on type and coerce into matrices. + + Needs to handle a lot of exceptional cases. + """ + if verify_integrity: + # figure out the index, if necessary + if index is None: + index = _extract_index(arrays) + else: + index = ensure_index(index) + + # don't force copy because getting jammed in an ndarray anyway + arrays, refs = _homogenize(arrays, index, dtype) + # _homogenize ensures + # - all(len(x) == len(index) for x in arrays) + # - all(x.ndim == 1 for x in arrays) + # - all(isinstance(x, (np.ndarray, ExtensionArray)) for x in arrays) + # - all(type(x) is not NumpyExtensionArray for x in arrays) + + else: + index = ensure_index(index) + arrays = [extract_array(x, extract_numpy=True) for x in arrays] + # with _from_arrays, the passed arrays should never be Series objects + refs = [None] * len(arrays) + + # Reached via DataFrame._from_arrays; we do minimal validation here + for arr in arrays: + if ( + not isinstance(arr, (np.ndarray, ExtensionArray)) + or arr.ndim != 1 + or len(arr) != len(index) + ): + raise ValueError( + "Arrays must be 1-dimensional np.ndarray or ExtensionArray " + "with length matching len(index)" + ) + + columns = ensure_index(columns) + if len(columns) != len(arrays): + raise ValueError("len(arrays) must match len(columns)") + + # from BlockManager perspective + axes = [columns, index] + + if typ == "block": + return create_block_manager_from_column_arrays( + arrays, axes, consolidate=consolidate, refs=refs + ) + elif typ == "array": + return ArrayManager(arrays, [index, columns]) + else: + raise ValueError(f"'typ' needs to be one of {{'block', 'array'}}, got '{typ}'") + + +def rec_array_to_mgr( + data: np.rec.recarray | np.ndarray, + index, + columns, + dtype: DtypeObj | None, + copy: bool, + typ: str, +) -> Manager: + """ + Extract from a masked rec array and create the manager. + """ + # essentially process a record array then fill it + fdata = ma.getdata(data) + if index is None: + index = default_index(len(fdata)) + else: + index = ensure_index(index) + + if columns is not None: + columns = ensure_index(columns) + arrays, arr_columns = to_arrays(fdata, columns) + + # create the manager + + arrays, arr_columns = reorder_arrays(arrays, arr_columns, columns, len(index)) + if columns is None: + columns = arr_columns + + mgr = arrays_to_mgr(arrays, columns, index, dtype=dtype, typ=typ) + + if copy: + mgr = mgr.copy() + return mgr + + +def mgr_to_mgr(mgr, typ: str, copy: bool = True) -> Manager: + """ + Convert to specific type of Manager. Does not copy if the type is already + correct. Does not guarantee a copy otherwise. `copy` keyword only controls + whether conversion from Block->ArrayManager copies the 1D arrays. + """ + new_mgr: Manager + + if typ == "block": + if isinstance(mgr, BlockManager): + new_mgr = mgr + else: + if mgr.ndim == 2: + new_mgr = arrays_to_mgr( + mgr.arrays, mgr.axes[0], mgr.axes[1], typ="block" + ) + else: + new_mgr = SingleBlockManager.from_array(mgr.arrays[0], mgr.index) + elif typ == "array": + if isinstance(mgr, ArrayManager): + new_mgr = mgr + else: + if mgr.ndim == 2: + arrays = [mgr.iget_values(i) for i in range(len(mgr.axes[0]))] + if copy: + arrays = [arr.copy() for arr in arrays] + new_mgr = ArrayManager(arrays, [mgr.axes[1], mgr.axes[0]]) + else: + array = mgr.internal_values() + if copy: + array = array.copy() + new_mgr = SingleArrayManager([array], [mgr.index]) + else: + raise ValueError(f"'typ' needs to be one of {{'block', 'array'}}, got '{typ}'") + return new_mgr + + +# --------------------------------------------------------------------- +# DataFrame Constructor Interface + + +def ndarray_to_mgr( + values, index, columns, dtype: DtypeObj | None, copy: bool, typ: str +) -> Manager: + # used in DataFrame.__init__ + # input must be a ndarray, list, Series, Index, ExtensionArray + + if isinstance(values, ABCSeries): + if columns is None: + if values.name is not None: + columns = Index([values.name]) + if index is None: + index = values.index + else: + values = values.reindex(index) + + # zero len case (GH #2234) + if not len(values) and columns is not None and len(columns): + values = np.empty((0, 1), dtype=object) + + # if the array preparation does a copy -> avoid this for ArrayManager, + # since the copy is done on conversion to 1D arrays + copy_on_sanitize = False if typ == "array" else copy + + vdtype = getattr(values, "dtype", None) + refs = None + if is_1d_only_ea_dtype(vdtype) or is_1d_only_ea_dtype(dtype): + # GH#19157 + + if isinstance(values, (np.ndarray, ExtensionArray)) and values.ndim > 1: + # GH#12513 a EA dtype passed with a 2D array, split into + # multiple EAs that view the values + # error: No overload variant of "__getitem__" of "ExtensionArray" + # matches argument type "Tuple[slice, int]" + values = [ + values[:, n] # type: ignore[call-overload] + for n in range(values.shape[1]) + ] + else: + values = [values] + + if columns is None: + columns = Index(range(len(values))) + else: + columns = ensure_index(columns) + + return arrays_to_mgr(values, columns, index, dtype=dtype, typ=typ) + + elif isinstance(vdtype, ExtensionDtype): + # i.e. Datetime64TZ, PeriodDtype; cases with is_1d_only_ea_dtype(vdtype) + # are already caught above + values = extract_array(values, extract_numpy=True) + if copy: + values = values.copy() + if values.ndim == 1: + values = values.reshape(-1, 1) + + elif isinstance(values, (ABCSeries, Index)): + if not copy_on_sanitize and ( + dtype is None or astype_is_view(values.dtype, dtype) + ): + refs = values._references + + if copy_on_sanitize: + values = values._values.copy() + else: + values = values._values + + values = _ensure_2d(values) + + elif isinstance(values, (np.ndarray, ExtensionArray)): + # drop subclass info + if copy_on_sanitize and (dtype is None or astype_is_view(values.dtype, dtype)): + # only force a copy now if copy=True was requested + # and a subsequent `astype` will not already result in a copy + values = np.array(values, copy=True, order="F") + else: + values = np.asarray(values) + values = _ensure_2d(values) + + else: + # by definition an array here + # the dtypes will be coerced to a single dtype + values = _prep_ndarraylike(values, copy=copy_on_sanitize) + + if dtype is not None and values.dtype != dtype: + # GH#40110 see similar check inside sanitize_array + values = sanitize_array( + values, + None, + dtype=dtype, + copy=copy_on_sanitize, + allow_2d=True, + ) + + # _prep_ndarraylike ensures that values.ndim == 2 at this point + index, columns = _get_axes( + values.shape[0], values.shape[1], index=index, columns=columns + ) + + _check_values_indices_shape_match(values, index, columns) + + if typ == "array": + if issubclass(values.dtype.type, str): + values = np.array(values, dtype=object) + + if dtype is None and is_object_dtype(values.dtype): + arrays = [ + ensure_wrapped_if_datetimelike( + maybe_infer_to_datetimelike(values[:, i]) + ) + for i in range(values.shape[1]) + ] + else: + if lib.is_np_dtype(values.dtype, "mM"): + values = ensure_wrapped_if_datetimelike(values) + arrays = [values[:, i] for i in range(values.shape[1])] + + if copy: + arrays = [arr.copy() for arr in arrays] + + return ArrayManager(arrays, [index, columns], verify_integrity=False) + + values = values.T + + # if we don't have a dtype specified, then try to convert objects + # on the entire block; this is to convert if we have datetimelike's + # embedded in an object type + if dtype is None and is_object_dtype(values.dtype): + obj_columns = list(values) + maybe_datetime = [maybe_infer_to_datetimelike(x) for x in obj_columns] + # don't convert (and copy) the objects if no type inference occurs + if any(x is not y for x, y in zip(obj_columns, maybe_datetime)): + dvals_list = [ensure_block_shape(dval, 2) for dval in maybe_datetime] + block_values = [ + new_block_2d(dvals_list[n], placement=BlockPlacement(n)) + for n in range(len(dvals_list)) + ] + else: + bp = BlockPlacement(slice(len(columns))) + nb = new_block_2d(values, placement=bp, refs=refs) + block_values = [nb] + elif dtype is None and values.dtype.kind == "U" and using_string_dtype(): + dtype = StringDtype(na_value=np.nan) + + obj_columns = list(values) + block_values = [ + new_block( + dtype.construct_array_type()._from_sequence(data, dtype=dtype), + BlockPlacement(slice(i, i + 1)), + ndim=2, + ) + for i, data in enumerate(obj_columns) + ] + + else: + bp = BlockPlacement(slice(len(columns))) + nb = new_block_2d(values, placement=bp, refs=refs) + block_values = [nb] + + if len(columns) == 0: + # TODO: check len(values) == 0? + block_values = [] + + return create_block_manager_from_blocks( + block_values, [columns, index], verify_integrity=False + ) + + +def _check_values_indices_shape_match( + values: np.ndarray, index: Index, columns: Index +) -> None: + """ + Check that the shape implied by our axes matches the actual shape of the + data. + """ + if values.shape[1] != len(columns) or values.shape[0] != len(index): + # Could let this raise in Block constructor, but we get a more + # helpful exception message this way. + if values.shape[0] == 0 < len(index): + raise ValueError("Empty data passed with indices specified.") + + passed = values.shape + implied = (len(index), len(columns)) + raise ValueError(f"Shape of passed values is {passed}, indices imply {implied}") + + +def dict_to_mgr( + data: dict, + index, + columns, + *, + dtype: DtypeObj | None = None, + typ: str = "block", + copy: bool = True, +) -> Manager: + """ + Segregate Series based on type and coerce into matrices. + Needs to handle a lot of exceptional cases. + + Used in DataFrame.__init__ + """ + arrays: Sequence[Any] | Series + + if columns is not None: + from pandas.core.series import Series + + arrays = Series(data, index=columns, dtype=object) + missing = arrays.isna() + if index is None: + # GH10856 + # raise ValueError if only scalars in dict + index = _extract_index(arrays[~missing]) + else: + index = ensure_index(index) + + # no obvious "empty" int column + if missing.any() and not is_integer_dtype(dtype): + nan_dtype: DtypeObj + + if dtype is not None: + # calling sanitize_array ensures we don't mix-and-match + # NA dtypes + midxs = missing.values.nonzero()[0] + for i in midxs: + arr = sanitize_array(arrays.iat[i], index, dtype=dtype) + arrays.iat[i] = arr + else: + # GH#1783 + nan_dtype = np.dtype("object") + val = construct_1d_arraylike_from_scalar(np.nan, len(index), nan_dtype) + nmissing = missing.sum() + if copy: + rhs = [val] * nmissing + else: + # GH#45369 + rhs = [val.copy() for _ in range(nmissing)] + arrays.loc[missing] = rhs + + arrays = list(arrays) + columns = ensure_index(columns) + + else: + keys = list(data.keys()) + columns = Index(keys) if keys else default_index(0) + arrays = [com.maybe_iterable_to_list(data[k]) for k in keys] + + if copy: + if typ == "block": + # We only need to copy arrays that will not get consolidated, i.e. + # only EA arrays + arrays = [ + x.copy() + if isinstance(x, ExtensionArray) + else x.copy(deep=True) + if ( + isinstance(x, Index) + or isinstance(x, ABCSeries) + and is_1d_only_ea_dtype(x.dtype) + ) + else x + for x in arrays + ] + else: + # dtype check to exclude e.g. range objects, scalars + arrays = [x.copy() if hasattr(x, "dtype") else x for x in arrays] + + return arrays_to_mgr(arrays, columns, index, dtype=dtype, typ=typ, consolidate=copy) + + +def nested_data_to_arrays( + data: Sequence, + columns: Index | None, + index: Index | None, + dtype: DtypeObj | None, +) -> tuple[list[ArrayLike], Index, Index]: + """ + Convert a single sequence of arrays to multiple arrays. + """ + # By the time we get here we have already checked treat_as_nested(data) + + if is_named_tuple(data[0]) and columns is None: + columns = ensure_index(data[0]._fields) + + arrays, columns = to_arrays(data, columns, dtype=dtype) + columns = ensure_index(columns) + + if index is None: + if isinstance(data[0], ABCSeries): + index = _get_names_from_index(data) + else: + index = default_index(len(data)) + + return arrays, columns, index + + +def treat_as_nested(data) -> bool: + """ + Check if we should use nested_data_to_arrays. + """ + return ( + len(data) > 0 + and is_list_like(data[0]) + and getattr(data[0], "ndim", 1) == 1 + and not (isinstance(data, ExtensionArray) and data.ndim == 2) + ) + + +# --------------------------------------------------------------------- + + +def _prep_ndarraylike(values, copy: bool = True) -> np.ndarray: + # values is specifically _not_ ndarray, EA, Index, or Series + # We only get here with `not treat_as_nested(values)` + + if len(values) == 0: + # TODO: check for length-zero range, in which case return int64 dtype? + # TODO: reuse anything in try_cast? + return np.empty((0, 0), dtype=object) + elif isinstance(values, range): + arr = range_to_ndarray(values) + return arr[..., np.newaxis] + + def convert(v): + if not is_list_like(v) or isinstance(v, ABCDataFrame): + return v + + v = extract_array(v, extract_numpy=True) + res = maybe_convert_platform(v) + # We don't do maybe_infer_to_datetimelike here bc we will end up doing + # it column-by-column in ndarray_to_mgr + return res + + # we could have a 1-dim or 2-dim list here + # this is equiv of np.asarray, but does object conversion + # and platform dtype preservation + # does not convert e.g. [1, "a", True] to ["1", "a", "True"] like + # np.asarray would + if is_list_like(values[0]): + values = np.array([convert(v) for v in values]) + elif isinstance(values[0], np.ndarray) and values[0].ndim == 0: + # GH#21861 see test_constructor_list_of_lists + values = np.array([convert(v) for v in values]) + else: + values = convert(values) + + return _ensure_2d(values) + + +def _ensure_2d(values: np.ndarray) -> np.ndarray: + """ + Reshape 1D values, raise on anything else other than 2D. + """ + if values.ndim == 1: + values = values.reshape((values.shape[0], 1)) + elif values.ndim != 2: + raise ValueError(f"Must pass 2-d input. shape={values.shape}") + return values + + +def _homogenize( + data, index: Index, dtype: DtypeObj | None +) -> tuple[list[ArrayLike], list[Any]]: + oindex = None + homogenized = [] + # if the original array-like in `data` is a Series, keep track of this Series' refs + refs: list[Any] = [] + + for val in data: + if isinstance(val, (ABCSeries, Index)): + if dtype is not None: + val = val.astype(dtype, copy=False) + if isinstance(val, ABCSeries) and val.index is not index: + # Forces alignment. No need to copy data since we + # are putting it into an ndarray later + val = val.reindex(index, copy=False) + refs.append(val._references) + val = val._values + else: + if isinstance(val, dict): + # GH#41785 this _should_ be equivalent to (but faster than) + # val = Series(val, index=index)._values + if oindex is None: + oindex = index.astype("O") + + if isinstance(index, (DatetimeIndex, TimedeltaIndex)): + # see test_constructor_dict_datetime64_index + val = dict_compat(val) + else: + # see test_constructor_subclass_dict + val = dict(val) + val = lib.fast_multiget(val, oindex._values, default=np.nan) + + val = sanitize_array(val, index, dtype=dtype, copy=False) + com.require_length_match(val, index) + refs.append(None) + + homogenized.append(val) + + return homogenized, refs + + +def _extract_index(data) -> Index: + """ + Try to infer an Index from the passed data, raise ValueError on failure. + """ + index: Index + if len(data) == 0: + return default_index(0) + + raw_lengths = [] + indexes: list[list[Hashable] | Index] = [] + + have_raw_arrays = False + have_series = False + have_dicts = False + + for val in data: + if isinstance(val, ABCSeries): + have_series = True + indexes.append(val.index) + elif isinstance(val, dict): + have_dicts = True + indexes.append(list(val.keys())) + elif is_list_like(val) and getattr(val, "ndim", 1) == 1: + have_raw_arrays = True + raw_lengths.append(len(val)) + elif isinstance(val, np.ndarray) and val.ndim > 1: + raise ValueError("Per-column arrays must each be 1-dimensional") + + if not indexes and not raw_lengths: + raise ValueError("If using all scalar values, you must pass an index") + + if have_series: + index = union_indexes(indexes) + elif have_dicts: + index = union_indexes(indexes, sort=False) + + if have_raw_arrays: + lengths = list(set(raw_lengths)) + if len(lengths) > 1: + raise ValueError("All arrays must be of the same length") + + if have_dicts: + raise ValueError( + "Mixing dicts with non-Series may lead to ambiguous ordering." + ) + + if have_series: + if lengths[0] != len(index): + msg = ( + f"array length {lengths[0]} does not match index " + f"length {len(index)}" + ) + raise ValueError(msg) + else: + index = default_index(lengths[0]) + + return ensure_index(index) + + +def reorder_arrays( + arrays: list[ArrayLike], arr_columns: Index, columns: Index | None, length: int +) -> tuple[list[ArrayLike], Index]: + """ + Pre-emptively (cheaply) reindex arrays with new columns. + """ + # reorder according to the columns + if columns is not None: + if not columns.equals(arr_columns): + # if they are equal, there is nothing to do + new_arrays: list[ArrayLike] = [] + indexer = arr_columns.get_indexer(columns) + for i, k in enumerate(indexer): + if k == -1: + # by convention default is all-NaN object dtype + arr = np.empty(length, dtype=object) + arr.fill(np.nan) + else: + arr = arrays[k] + new_arrays.append(arr) + + arrays = new_arrays + arr_columns = columns + + return arrays, arr_columns + + +def _get_names_from_index(data) -> Index: + has_some_name = any(getattr(s, "name", None) is not None for s in data) + if not has_some_name: + return default_index(len(data)) + + index: list[Hashable] = list(range(len(data))) + count = 0 + for i, s in enumerate(data): + n = getattr(s, "name", None) + if n is not None: + index[i] = n + else: + index[i] = f"Unnamed {count}" + count += 1 + + return Index(index) + + +def _get_axes( + N: int, K: int, index: Index | None, columns: Index | None +) -> tuple[Index, Index]: + # helper to create the axes as indexes + # return axes or defaults + + if index is None: + index = default_index(N) + else: + index = ensure_index(index) + + if columns is None: + columns = default_index(K) + else: + columns = ensure_index(columns) + return index, columns + + +def dataclasses_to_dicts(data): + """ + Converts a list of dataclass instances to a list of dictionaries. + + Parameters + ---------- + data : List[Type[dataclass]] + + Returns + -------- + list_dict : List[dict] + + Examples + -------- + >>> from dataclasses import dataclass + >>> @dataclass + ... class Point: + ... x: int + ... y: int + + >>> dataclasses_to_dicts([Point(1, 2), Point(2, 3)]) + [{'x': 1, 'y': 2}, {'x': 2, 'y': 3}] + + """ + from dataclasses import asdict + + return list(map(asdict, data)) + + +# --------------------------------------------------------------------- +# Conversion of Inputs to Arrays + + +def to_arrays( + data, columns: Index | None, dtype: DtypeObj | None = None +) -> tuple[list[ArrayLike], Index]: + """ + Return list of arrays, columns. + + Returns + ------- + list[ArrayLike] + These will become columns in a DataFrame. + Index + This will become frame.columns. + + Notes + ----- + Ensures that len(result_arrays) == len(result_index). + """ + + if not len(data): + if isinstance(data, np.ndarray): + if data.dtype.names is not None: + # i.e. numpy structured array + columns = ensure_index(data.dtype.names) + arrays = [data[name] for name in columns] + + if len(data) == 0: + # GH#42456 the indexing above results in list of 2D ndarrays + # TODO: is that an issue with numpy? + for i, arr in enumerate(arrays): + if arr.ndim == 2: + arrays[i] = arr[:, 0] + + return arrays, columns + return [], ensure_index([]) + + elif isinstance(data, np.ndarray) and data.dtype.names is not None: + # e.g. recarray + columns = Index(list(data.dtype.names)) + arrays = [data[k] for k in columns] + return arrays, columns + + if isinstance(data[0], (list, tuple)): + arr = _list_to_arrays(data) + elif isinstance(data[0], abc.Mapping): + arr, columns = _list_of_dict_to_arrays(data, columns) + elif isinstance(data[0], ABCSeries): + arr, columns = _list_of_series_to_arrays(data, columns) + else: + # last ditch effort + data = [tuple(x) for x in data] + arr = _list_to_arrays(data) + + content, columns = _finalize_columns_and_data(arr, columns, dtype) + return content, columns + + +def _list_to_arrays(data: list[tuple | list]) -> np.ndarray: + # Returned np.ndarray has ndim = 2 + # Note: we already check len(data) > 0 before getting hre + if isinstance(data[0], tuple): + content = lib.to_object_array_tuples(data) + else: + # list of lists + content = lib.to_object_array(data) + return content + + +def _list_of_series_to_arrays( + data: list, + columns: Index | None, +) -> tuple[np.ndarray, Index]: + # returned np.ndarray has ndim == 2 + + if columns is None: + # We know pass_data is non-empty because data[0] is a Series + pass_data = [x for x in data if isinstance(x, (ABCSeries, ABCDataFrame))] + columns = get_objs_combined_axis(pass_data, sort=False) + + indexer_cache: dict[int, np.ndarray] = {} + + aligned_values = [] + for s in data: + index = getattr(s, "index", None) + if index is None: + index = default_index(len(s)) + + if id(index) in indexer_cache: + indexer = indexer_cache[id(index)] + else: + indexer = indexer_cache[id(index)] = index.get_indexer(columns) + + values = extract_array(s, extract_numpy=True) + aligned_values.append(algorithms.take_nd(values, indexer)) + + content = np.vstack(aligned_values) + return content, columns + + +def _list_of_dict_to_arrays( + data: list[dict], + columns: Index | None, +) -> tuple[np.ndarray, Index]: + """ + Convert list of dicts to numpy arrays + + if `columns` is not passed, column names are inferred from the records + - for OrderedDict and dicts, the column names match + the key insertion-order from the first record to the last. + - For other kinds of dict-likes, the keys are lexically sorted. + + Parameters + ---------- + data : iterable + collection of records (OrderedDict, dict) + columns: iterables or None + + Returns + ------- + content : np.ndarray[object, ndim=2] + columns : Index + """ + if columns is None: + gen = (list(x.keys()) for x in data) + sort = not any(isinstance(d, dict) for d in data) + pre_cols = lib.fast_unique_multiple_list_gen(gen, sort=sort) + columns = ensure_index(pre_cols) + + # assure that they are of the base dict class and not of derived + # classes + data = [d if type(d) is dict else dict(d) for d in data] # noqa: E721 + + content = lib.dicts_to_array(data, list(columns)) + return content, columns + + +def _finalize_columns_and_data( + content: np.ndarray, # ndim == 2 + columns: Index | None, + dtype: DtypeObj | None, +) -> tuple[list[ArrayLike], Index]: + """ + Ensure we have valid columns, cast object dtypes if possible. + """ + contents = list(content.T) + + try: + columns = _validate_or_indexify_columns(contents, columns) + except AssertionError as err: + # GH#26429 do not raise user-facing AssertionError + raise ValueError(err) from err + + if len(contents) and contents[0].dtype == np.object_: + contents = convert_object_array(contents, dtype=dtype) + + return contents, columns + + +def _validate_or_indexify_columns( + content: list[np.ndarray], columns: Index | None +) -> Index: + """ + If columns is None, make numbers as column names; Otherwise, validate that + columns have valid length. + + Parameters + ---------- + content : list of np.ndarrays + columns : Index or None + + Returns + ------- + Index + If columns is None, assign positional column index value as columns. + + Raises + ------ + 1. AssertionError when content is not composed of list of lists, and if + length of columns is not equal to length of content. + 2. ValueError when content is list of lists, but length of each sub-list + is not equal + 3. ValueError when content is list of lists, but length of sub-list is + not equal to length of content + """ + if columns is None: + columns = default_index(len(content)) + else: + # Add mask for data which is composed of list of lists + is_mi_list = isinstance(columns, list) and all( + isinstance(col, list) for col in columns + ) + + if not is_mi_list and len(columns) != len(content): # pragma: no cover + # caller's responsibility to check for this... + raise AssertionError( + f"{len(columns)} columns passed, passed data had " + f"{len(content)} columns" + ) + if is_mi_list: + # check if nested list column, length of each sub-list should be equal + if len({len(col) for col in columns}) > 1: + raise ValueError( + "Length of columns passed for MultiIndex columns is different" + ) + + # if columns is not empty and length of sublist is not equal to content + if columns and len(columns[0]) != len(content): + raise ValueError( + f"{len(columns[0])} columns passed, passed data had " + f"{len(content)} columns" + ) + return columns + + +def convert_object_array( + content: list[npt.NDArray[np.object_]], + dtype: DtypeObj | None, + dtype_backend: str = "numpy", + coerce_float: bool = False, +) -> list[ArrayLike]: + """ + Internal function to convert object array. + + Parameters + ---------- + content: List[np.ndarray] + dtype: np.dtype or ExtensionDtype + dtype_backend: Controls if nullable/pyarrow dtypes are returned. + coerce_float: Cast floats that are integers to int. + + Returns + ------- + List[ArrayLike] + """ + # provide soft conversion of object dtypes + + def convert(arr): + if dtype != np.dtype("O"): + arr = lib.maybe_convert_objects( + arr, + try_float=coerce_float, + convert_to_nullable_dtype=dtype_backend != "numpy", + ) + # Notes on cases that get here 2023-02-15 + # 1) we DO get here when arr is all Timestamps and dtype=None + # 2) disabling this doesn't break the world, so this must be + # getting caught at a higher level + # 3) passing convert_non_numeric to maybe_convert_objects get this right + # 4) convert_non_numeric? + + if dtype is None: + if arr.dtype == np.dtype("O"): + # i.e. maybe_convert_objects didn't convert + convert_to_nullable_dtype = dtype_backend != "numpy" + arr = maybe_infer_to_datetimelike(arr, convert_to_nullable_dtype) + if convert_to_nullable_dtype and arr.dtype == np.dtype("O"): + new_dtype = StringDtype() + arr_cls = new_dtype.construct_array_type() + arr = arr_cls._from_sequence(arr, dtype=new_dtype) + elif dtype_backend != "numpy" and isinstance(arr, np.ndarray): + if arr.dtype.kind in "iufb": + arr = pd_array(arr, copy=False) + + elif isinstance(dtype, ExtensionDtype): + # TODO: test(s) that get here + # TODO: try to de-duplicate this convert function with + # core.construction functions + cls = dtype.construct_array_type() + arr = cls._from_sequence(arr, dtype=dtype, copy=False) + elif dtype.kind in "mM": + # This restriction is harmless bc these are the only cases + # where maybe_cast_to_datetime is not a no-op. + # Here we know: + # 1) dtype.kind in "mM" and + # 2) arr is either object or numeric dtype + arr = maybe_cast_to_datetime(arr, dtype) + + return arr + + arrays = [convert(arr) for arr in content] + + return arrays diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/managers.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/managers.py new file mode 100644 index 0000000000000000000000000000000000000000..2e0e04717373fbe80490990d929c35130a7c733a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/managers.py @@ -0,0 +1,2375 @@ +from __future__ import annotations + +from collections.abc import ( + Hashable, + Sequence, +) +import itertools +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, +) +import warnings + +import numpy as np + +from pandas._config import ( + using_copy_on_write, + warn_copy_on_write, +) + +from pandas._libs import ( + internals as libinternals, + lib, +) +from pandas._libs.internals import ( + BlockPlacement, + BlockValuesRefs, +) +from pandas._libs.tslibs import Timestamp +from pandas.errors import PerformanceWarning +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import infer_dtype_from_scalar +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_1d_only_ea_dtype, + is_list_like, +) +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + ExtensionDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + array_equals, + isna, +) + +import pandas.core.algorithms as algos +from pandas.core.arrays import ( + ArrowExtensionArray, + ArrowStringArray, + DatetimeArray, +) +from pandas.core.arrays._mixins import NDArrayBackedExtensionArray +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.indexers import maybe_convert_indices +from pandas.core.indexes.api import ( + Index, + ensure_index, +) +from pandas.core.internals.base import ( + DataManager, + SingleDataManager, + ensure_np_dtype, + interleaved_dtype, +) +from pandas.core.internals.blocks import ( + COW_WARNING_GENERAL_MSG, + COW_WARNING_SETITEM_MSG, + Block, + NumpyBlock, + ensure_block_shape, + extend_blocks, + get_block_type, + maybe_coerce_values, + new_block, + new_block_2d, +) +from pandas.core.internals.ops import ( + blockwise_all, + operate_blockwise, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + AxisInt, + DtypeObj, + QuantileInterpolation, + Self, + Shape, + npt, + ) + + from pandas.api.extensions import ExtensionArray + + +class BaseBlockManager(DataManager): + """ + Core internal data structure to implement DataFrame, Series, etc. + + Manage a bunch of labeled 2D mixed-type ndarrays. Essentially it's a + lightweight blocked set of labeled data to be manipulated by the DataFrame + public API class + + Attributes + ---------- + shape + ndim + axes + values + items + + Methods + ------- + set_axis(axis, new_labels) + copy(deep=True) + + get_dtypes + + apply(func, axes, block_filter_fn) + + get_bool_data + get_numeric_data + + get_slice(slice_like, axis) + get(label) + iget(loc) + + take(indexer, axis) + reindex_axis(new_labels, axis) + reindex_indexer(new_labels, indexer, axis) + + delete(label) + insert(loc, label, value) + set(label, value) + + Parameters + ---------- + blocks: Sequence of Block + axes: Sequence of Index + verify_integrity: bool, default True + + Notes + ----- + This is *not* a public API class + """ + + __slots__ = () + + _blknos: npt.NDArray[np.intp] + _blklocs: npt.NDArray[np.intp] + blocks: tuple[Block, ...] + axes: list[Index] + + @property + def ndim(self) -> int: + raise NotImplementedError + + _known_consolidated: bool + _is_consolidated: bool + + def __init__(self, blocks, axes, verify_integrity: bool = True) -> None: + raise NotImplementedError + + @classmethod + def from_blocks(cls, blocks: list[Block], axes: list[Index]) -> Self: + raise NotImplementedError + + @property + def blknos(self) -> npt.NDArray[np.intp]: + """ + Suppose we want to find the array corresponding to our i'th column. + + blknos[i] identifies the block from self.blocks that contains this column. + + blklocs[i] identifies the column of interest within + self.blocks[self.blknos[i]] + """ + if self._blknos is None: + # Note: these can be altered by other BlockManager methods. + self._rebuild_blknos_and_blklocs() + + return self._blknos + + @property + def blklocs(self) -> npt.NDArray[np.intp]: + """ + See blknos.__doc__ + """ + if self._blklocs is None: + # Note: these can be altered by other BlockManager methods. + self._rebuild_blknos_and_blklocs() + + return self._blklocs + + def make_empty(self, axes=None) -> Self: + """return an empty BlockManager with the items axis of len 0""" + if axes is None: + axes = [Index([])] + self.axes[1:] + + # preserve dtype if possible + if self.ndim == 1: + assert isinstance(self, SingleBlockManager) # for mypy + blk = self.blocks[0] + arr = blk.values[:0] + bp = BlockPlacement(slice(0, 0)) + nb = blk.make_block_same_class(arr, placement=bp) + blocks = [nb] + else: + blocks = [] + return type(self).from_blocks(blocks, axes) + + def __nonzero__(self) -> bool: + return True + + # Python3 compat + __bool__ = __nonzero__ + + def _normalize_axis(self, axis: AxisInt) -> int: + # switch axis to follow BlockManager logic + if self.ndim == 2: + axis = 1 if axis == 0 else 0 + return axis + + def set_axis(self, axis: AxisInt, new_labels: Index) -> None: + # Caller is responsible for ensuring we have an Index object. + self._validate_set_axis(axis, new_labels) + self.axes[axis] = new_labels + + @property + def is_single_block(self) -> bool: + # Assumes we are 2D; overridden by SingleBlockManager + return len(self.blocks) == 1 + + @property + def items(self) -> Index: + return self.axes[0] + + def _has_no_reference(self, i: int) -> bool: + """ + Check for column `i` if it has references. + (whether it references another array or is itself being referenced) + Returns True if the column has no references. + """ + blkno = self.blknos[i] + return self._has_no_reference_block(blkno) + + def _has_no_reference_block(self, blkno: int) -> bool: + """ + Check for block `i` if it has references. + (whether it references another array or is itself being referenced) + Returns True if the block has no references. + """ + return not self.blocks[blkno].refs.has_reference() + + def add_references(self, mgr: BaseBlockManager) -> None: + """ + Adds the references from one manager to another. We assume that both + managers have the same block structure. + """ + if len(self.blocks) != len(mgr.blocks): + # If block structure changes, then we made a copy + return + for i, blk in enumerate(self.blocks): + blk.refs = mgr.blocks[i].refs + blk.refs.add_reference(blk) + + def references_same_values(self, mgr: BaseBlockManager, blkno: int) -> bool: + """ + Checks if two blocks from two different block managers reference the + same underlying values. + """ + blk = self.blocks[blkno] + return any(blk is ref() for ref in mgr.blocks[blkno].refs.referenced_blocks) + + def get_dtypes(self) -> npt.NDArray[np.object_]: + dtypes = np.array([blk.dtype for blk in self.blocks], dtype=object) + return dtypes.take(self.blknos) + + @property + def arrays(self) -> list[ArrayLike]: + """ + Quick access to the backing arrays of the Blocks. + + Only for compatibility with ArrayManager for testing convenience. + Not to be used in actual code, and return value is not the same as the + ArrayManager method (list of 1D arrays vs iterator of 2D ndarrays / 1D EAs). + + Warning! The returned arrays don't handle Copy-on-Write, so this should + be used with caution (only in read-mode). + """ + return [blk.values for blk in self.blocks] + + def __repr__(self) -> str: + output = type(self).__name__ + for i, ax in enumerate(self.axes): + if i == 0: + output += f"\nItems: {ax}" + else: + output += f"\nAxis {i}: {ax}" + + for block in self.blocks: + output += f"\n{block}" + return output + + def apply( + self, + f, + align_keys: list[str] | None = None, + **kwargs, + ) -> Self: + """ + Iterate over the blocks, collect and create a new BlockManager. + + Parameters + ---------- + f : str or callable + Name of the Block method to apply. + align_keys: List[str] or None, default None + **kwargs + Keywords to pass to `f` + + Returns + ------- + BlockManager + """ + assert "filter" not in kwargs + + align_keys = align_keys or [] + result_blocks: list[Block] = [] + # fillna: Series/DataFrame is responsible for making sure value is aligned + + aligned_args = {k: kwargs[k] for k in align_keys} + + for b in self.blocks: + if aligned_args: + for k, obj in aligned_args.items(): + if isinstance(obj, (ABCSeries, ABCDataFrame)): + # The caller is responsible for ensuring that + # obj.axes[-1].equals(self.items) + if obj.ndim == 1: + kwargs[k] = obj.iloc[b.mgr_locs.indexer]._values + else: + kwargs[k] = obj.iloc[:, b.mgr_locs.indexer]._values + else: + # otherwise we have an ndarray + kwargs[k] = obj[b.mgr_locs.indexer] + + if callable(f): + applied = b.apply(f, **kwargs) + else: + applied = getattr(b, f)(**kwargs) + result_blocks = extend_blocks(applied, result_blocks) + + out = type(self).from_blocks(result_blocks, self.axes) + return out + + # Alias so we can share code with ArrayManager + apply_with_block = apply + + def setitem(self, indexer, value, warn: bool = True) -> Self: + """ + Set values with indexer. + + For SingleBlockManager, this backs s[indexer] = value + """ + if isinstance(indexer, np.ndarray) and indexer.ndim > self.ndim: + raise ValueError(f"Cannot set values with ndim > {self.ndim}") + + if warn and warn_copy_on_write() and not self._has_no_reference(0): + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + + elif using_copy_on_write() and not self._has_no_reference(0): + # this method is only called if there is a single block -> hardcoded 0 + # Split blocks to only copy the columns we want to modify + if self.ndim == 2 and isinstance(indexer, tuple): + blk_loc = self.blklocs[indexer[1]] + if is_list_like(blk_loc) and blk_loc.ndim == 2: + blk_loc = np.squeeze(blk_loc, axis=0) + elif not is_list_like(blk_loc): + # Keep dimension and copy data later + blk_loc = [blk_loc] # type: ignore[assignment] + if len(blk_loc) == 0: + return self.copy(deep=False) + + values = self.blocks[0].values + if values.ndim == 2: + values = values[blk_loc] + # "T" has no attribute "_iset_split_block" + self._iset_split_block( # type: ignore[attr-defined] + 0, blk_loc, values + ) + # first block equals values + self.blocks[0].setitem((indexer[0], np.arange(len(blk_loc))), value) + return self + # No need to split if we either set all columns or on a single block + # manager + self = self.copy() + + return self.apply("setitem", indexer=indexer, value=value) + + def diff(self, n: int) -> Self: + # only reached with self.ndim == 2 + return self.apply("diff", n=n) + + def astype(self, dtype, copy: bool | None = False, errors: str = "raise") -> Self: + if copy is None: + if using_copy_on_write(): + copy = False + else: + copy = True + elif using_copy_on_write(): + copy = False + + return self.apply( + "astype", + dtype=dtype, + copy=copy, + errors=errors, + using_cow=using_copy_on_write(), + ) + + def convert(self, copy: bool | None) -> Self: + if copy is None: + if using_copy_on_write(): + copy = False + else: + copy = True + elif using_copy_on_write(): + copy = False + + return self.apply("convert", copy=copy, using_cow=using_copy_on_write()) + + def convert_dtypes(self, **kwargs): + if using_copy_on_write(): + copy = False + else: + copy = True + + return self.apply( + "convert_dtypes", copy=copy, using_cow=using_copy_on_write(), **kwargs + ) + + def get_values_for_csv( + self, *, float_format, date_format, decimal, na_rep: str = "nan", quoting=None + ) -> Self: + """ + Convert values to native types (strings / python objects) that are used + in formatting (repr / csv). + """ + return self.apply( + "get_values_for_csv", + na_rep=na_rep, + quoting=quoting, + float_format=float_format, + date_format=date_format, + decimal=decimal, + ) + + @property + def any_extension_types(self) -> bool: + """Whether any of the blocks in this manager are extension blocks""" + return any(block.is_extension for block in self.blocks) + + @property + def is_view(self) -> bool: + """return a boolean if we are a single block and are a view""" + if len(self.blocks) == 1: + return self.blocks[0].is_view + + # It is technically possible to figure out which blocks are views + # e.g. [ b.values.base is not None for b in self.blocks ] + # but then we have the case of possibly some blocks being a view + # and some blocks not. setting in theory is possible on the non-view + # blocks w/o causing a SettingWithCopy raise/warn. But this is a bit + # complicated + + return False + + def _get_data_subset(self, predicate: Callable) -> Self: + blocks = [blk for blk in self.blocks if predicate(blk.values)] + return self._combine(blocks) + + def get_bool_data(self) -> Self: + """ + Select blocks that are bool-dtype and columns from object-dtype blocks + that are all-bool. + """ + + new_blocks = [] + + for blk in self.blocks: + if blk.dtype == bool: + new_blocks.append(blk) + + elif blk.is_object: + nbs = blk._split() + new_blocks.extend(nb for nb in nbs if nb.is_bool) + + return self._combine(new_blocks) + + def get_numeric_data(self) -> Self: + numeric_blocks = [blk for blk in self.blocks if blk.is_numeric] + if len(numeric_blocks) == len(self.blocks): + # Avoid somewhat expensive _combine + return self + return self._combine(numeric_blocks) + + def _combine(self, blocks: list[Block], index: Index | None = None) -> Self: + """return a new manager with the blocks""" + if len(blocks) == 0: + if self.ndim == 2: + # retain our own Index dtype + if index is not None: + axes = [self.items[:0], index] + else: + axes = [self.items[:0]] + self.axes[1:] + return self.make_empty(axes) + return self.make_empty() + + # FIXME: optimization potential + indexer = np.sort(np.concatenate([b.mgr_locs.as_array for b in blocks])) + inv_indexer = lib.get_reverse_indexer(indexer, self.shape[0]) + + new_blocks: list[Block] = [] + for b in blocks: + nb = b.copy(deep=False) + nb.mgr_locs = BlockPlacement(inv_indexer[nb.mgr_locs.indexer]) + new_blocks.append(nb) + + axes = list(self.axes) + if index is not None: + axes[-1] = index + axes[0] = self.items.take(indexer) + + return type(self).from_blocks(new_blocks, axes) + + @property + def nblocks(self) -> int: + return len(self.blocks) + + def copy(self, deep: bool | None | Literal["all"] = True) -> Self: + """ + Make deep or shallow copy of BlockManager + + Parameters + ---------- + deep : bool, string or None, default True + If False or None, return a shallow copy (do not copy data) + If 'all', copy data and a deep copy of the index + + Returns + ------- + BlockManager + """ + if deep is None: + if using_copy_on_write(): + # use shallow copy + deep = False + else: + # preserve deep copy for BlockManager with copy=None + deep = True + + # this preserves the notion of view copying of axes + if deep: + # hit in e.g. tests.io.json.test_pandas + + def copy_func(ax): + return ax.copy(deep=True) if deep == "all" else ax.view() + + new_axes = [copy_func(ax) for ax in self.axes] + else: + if using_copy_on_write(): + new_axes = [ax.view() for ax in self.axes] + else: + new_axes = list(self.axes) + + res = self.apply("copy", deep=deep) + res.axes = new_axes + + if self.ndim > 1: + # Avoid needing to re-compute these + blknos = self._blknos + if blknos is not None: + res._blknos = blknos.copy() + res._blklocs = self._blklocs.copy() + + if deep: + res._consolidate_inplace() + return res + + def consolidate(self) -> Self: + """ + Join together blocks having same dtype + + Returns + ------- + y : BlockManager + """ + if self.is_consolidated(): + return self + + bm = type(self)(self.blocks, self.axes, verify_integrity=False) + bm._is_consolidated = False + bm._consolidate_inplace() + return bm + + def reindex_indexer( + self, + new_axis: Index, + indexer: npt.NDArray[np.intp] | None, + axis: AxisInt, + fill_value=None, + allow_dups: bool = False, + copy: bool | None = True, + only_slice: bool = False, + *, + use_na_proxy: bool = False, + ) -> Self: + """ + Parameters + ---------- + new_axis : Index + indexer : ndarray[intp] or None + axis : int + fill_value : object, default None + allow_dups : bool, default False + copy : bool or None, default True + If None, regard as False to get shallow copy. + only_slice : bool, default False + Whether to take views, not copies, along columns. + use_na_proxy : bool, default False + Whether to use a np.void ndarray for newly introduced columns. + + pandas-indexer with -1's only. + """ + if copy is None: + if using_copy_on_write(): + # use shallow copy + copy = False + else: + # preserve deep copy for BlockManager with copy=None + copy = True + + if indexer is None: + if new_axis is self.axes[axis] and not copy: + return self + + result = self.copy(deep=copy) + result.axes = list(self.axes) + result.axes[axis] = new_axis + return result + + # Should be intp, but in some cases we get int64 on 32bit builds + assert isinstance(indexer, np.ndarray) + + # some axes don't allow reindexing with dups + if not allow_dups: + self.axes[axis]._validate_can_reindex(indexer) + + if axis >= self.ndim: + raise IndexError("Requested axis not found in manager") + + if axis == 0: + new_blocks = self._slice_take_blocks_ax0( + indexer, + fill_value=fill_value, + only_slice=only_slice, + use_na_proxy=use_na_proxy, + ) + else: + new_blocks = [ + blk.take_nd( + indexer, + axis=1, + fill_value=( + fill_value if fill_value is not None else blk.fill_value + ), + ) + for blk in self.blocks + ] + + new_axes = list(self.axes) + new_axes[axis] = new_axis + + new_mgr = type(self).from_blocks(new_blocks, new_axes) + if axis == 1: + # We can avoid the need to rebuild these + new_mgr._blknos = self.blknos.copy() + new_mgr._blklocs = self.blklocs.copy() + return new_mgr + + def _slice_take_blocks_ax0( + self, + slice_or_indexer: slice | np.ndarray, + fill_value=lib.no_default, + only_slice: bool = False, + *, + use_na_proxy: bool = False, + ref_inplace_op: bool = False, + ) -> list[Block]: + """ + Slice/take blocks along axis=0. + + Overloaded for SingleBlock + + Parameters + ---------- + slice_or_indexer : slice or np.ndarray[int64] + fill_value : scalar, default lib.no_default + only_slice : bool, default False + If True, we always return views on existing arrays, never copies. + This is used when called from ops.blockwise.operate_blockwise. + use_na_proxy : bool, default False + Whether to use a np.void ndarray for newly introduced columns. + ref_inplace_op: bool, default False + Don't track refs if True because we operate inplace + + Returns + ------- + new_blocks : list of Block + """ + allow_fill = fill_value is not lib.no_default + + sl_type, slobj, sllen = _preprocess_slice_or_indexer( + slice_or_indexer, self.shape[0], allow_fill=allow_fill + ) + + if self.is_single_block: + blk = self.blocks[0] + + if sl_type == "slice": + # GH#32959 EABlock would fail since we can't make 0-width + # TODO(EA2D): special casing unnecessary with 2D EAs + if sllen == 0: + return [] + bp = BlockPlacement(slice(0, sllen)) + return [blk.getitem_block_columns(slobj, new_mgr_locs=bp)] + elif not allow_fill or self.ndim == 1: + if allow_fill and fill_value is None: + fill_value = blk.fill_value + + if not allow_fill and only_slice: + # GH#33597 slice instead of take, so we get + # views instead of copies + blocks = [ + blk.getitem_block_columns( + slice(ml, ml + 1), + new_mgr_locs=BlockPlacement(i), + ref_inplace_op=ref_inplace_op, + ) + for i, ml in enumerate(slobj) + ] + return blocks + else: + bp = BlockPlacement(slice(0, sllen)) + return [ + blk.take_nd( + slobj, + axis=0, + new_mgr_locs=bp, + fill_value=fill_value, + ) + ] + + if sl_type == "slice": + blknos = self.blknos[slobj] + blklocs = self.blklocs[slobj] + else: + blknos = algos.take_nd( + self.blknos, slobj, fill_value=-1, allow_fill=allow_fill + ) + blklocs = algos.take_nd( + self.blklocs, slobj, fill_value=-1, allow_fill=allow_fill + ) + + # When filling blknos, make sure blknos is updated before appending to + # blocks list, that way new blkno is exactly len(blocks). + blocks = [] + group = not only_slice + for blkno, mgr_locs in libinternals.get_blkno_placements(blknos, group=group): + if blkno == -1: + # If we've got here, fill_value was not lib.no_default + + blocks.append( + self._make_na_block( + placement=mgr_locs, + fill_value=fill_value, + use_na_proxy=use_na_proxy, + ) + ) + else: + blk = self.blocks[blkno] + + # Otherwise, slicing along items axis is necessary. + if not blk._can_consolidate and not blk._validate_ndim: + # i.e. we dont go through here for DatetimeTZBlock + # A non-consolidatable block, it's easy, because there's + # only one item and each mgr loc is a copy of that single + # item. + deep = not (only_slice or using_copy_on_write()) + for mgr_loc in mgr_locs: + newblk = blk.copy(deep=deep) + newblk.mgr_locs = BlockPlacement(slice(mgr_loc, mgr_loc + 1)) + blocks.append(newblk) + + else: + # GH#32779 to avoid the performance penalty of copying, + # we may try to only slice + taker = blklocs[mgr_locs.indexer] + max_len = max(len(mgr_locs), taker.max() + 1) + if only_slice or using_copy_on_write(): + taker = lib.maybe_indices_to_slice(taker, max_len) + + if isinstance(taker, slice): + nb = blk.getitem_block_columns(taker, new_mgr_locs=mgr_locs) + blocks.append(nb) + elif only_slice: + # GH#33597 slice instead of take, so we get + # views instead of copies + for i, ml in zip(taker, mgr_locs): + slc = slice(i, i + 1) + bp = BlockPlacement(ml) + nb = blk.getitem_block_columns(slc, new_mgr_locs=bp) + # We have np.shares_memory(nb.values, blk.values) + blocks.append(nb) + else: + nb = blk.take_nd(taker, axis=0, new_mgr_locs=mgr_locs) + blocks.append(nb) + + return blocks + + def _make_na_block( + self, placement: BlockPlacement, fill_value=None, use_na_proxy: bool = False + ) -> Block: + # Note: we only get here with self.ndim == 2 + + if use_na_proxy: + assert fill_value is None + shape = (len(placement), self.shape[1]) + vals = np.empty(shape, dtype=np.void) + nb = NumpyBlock(vals, placement, ndim=2) + return nb + + if fill_value is None: + fill_value = np.nan + + shape = (len(placement), self.shape[1]) + + dtype, fill_value = infer_dtype_from_scalar(fill_value) + block_values = make_na_array(dtype, shape, fill_value) + return new_block_2d(block_values, placement=placement) + + def take( + self, + indexer: npt.NDArray[np.intp], + axis: AxisInt = 1, + verify: bool = True, + ) -> Self: + """ + Take items along any axis. + + indexer : np.ndarray[np.intp] + axis : int, default 1 + verify : bool, default True + Check that all entries are between 0 and len(self) - 1, inclusive. + Pass verify=False if this check has been done by the caller. + + Returns + ------- + BlockManager + """ + # Caller is responsible for ensuring indexer annotation is accurate + + n = self.shape[axis] + indexer = maybe_convert_indices(indexer, n, verify=verify) + + new_labels = self.axes[axis].take(indexer) + return self.reindex_indexer( + new_axis=new_labels, + indexer=indexer, + axis=axis, + allow_dups=True, + copy=None, + ) + + +class BlockManager(libinternals.BlockManager, BaseBlockManager): + """ + BaseBlockManager that holds 2D blocks. + """ + + ndim = 2 + + # ---------------------------------------------------------------- + # Constructors + + def __init__( + self, + blocks: Sequence[Block], + axes: Sequence[Index], + verify_integrity: bool = True, + ) -> None: + if verify_integrity: + # Assertion disabled for performance + # assert all(isinstance(x, Index) for x in axes) + + for block in blocks: + if self.ndim != block.ndim: + raise AssertionError( + f"Number of Block dimensions ({block.ndim}) must equal " + f"number of axes ({self.ndim})" + ) + # As of 2.0, the caller is responsible for ensuring that + # DatetimeTZBlock with block.ndim == 2 has block.values.ndim ==2; + # previously there was a special check for fastparquet compat. + + self._verify_integrity() + + def _verify_integrity(self) -> None: + mgr_shape = self.shape + tot_items = sum(len(x.mgr_locs) for x in self.blocks) + for block in self.blocks: + if block.shape[1:] != mgr_shape[1:]: + raise_construction_error(tot_items, block.shape[1:], self.axes) + if len(self.items) != tot_items: + raise AssertionError( + "Number of manager items must equal union of " + f"block items\n# manager items: {len(self.items)}, # " + f"tot_items: {tot_items}" + ) + + @classmethod + def from_blocks(cls, blocks: list[Block], axes: list[Index]) -> Self: + """ + Constructor for BlockManager and SingleBlockManager with same signature. + """ + return cls(blocks, axes, verify_integrity=False) + + # ---------------------------------------------------------------- + # Indexing + + def fast_xs(self, loc: int) -> SingleBlockManager: + """ + Return the array corresponding to `frame.iloc[loc]`. + + Parameters + ---------- + loc : int + + Returns + ------- + np.ndarray or ExtensionArray + """ + if len(self.blocks) == 1: + # TODO: this could be wrong if blk.mgr_locs is not slice(None)-like; + # is this ruled out in the general case? + result = self.blocks[0].iget((slice(None), loc)) + # in the case of a single block, the new block is a view + bp = BlockPlacement(slice(0, len(result))) + block = new_block( + result, + placement=bp, + ndim=1, + refs=self.blocks[0].refs, + ) + return SingleBlockManager(block, self.axes[0]) + + dtype = interleaved_dtype([blk.dtype for blk in self.blocks]) + + n = len(self) + + if isinstance(dtype, ExtensionDtype): + # TODO: use object dtype as workaround for non-performant + # EA.__setitem__ methods. (primarily ArrowExtensionArray.__setitem__ + # when iteratively setting individual values) + # https://github.com/pandas-dev/pandas/pull/54508#issuecomment-1675827918 + result = np.empty(n, dtype=object) + else: + result = np.empty(n, dtype=dtype) + result = ensure_wrapped_if_datetimelike(result) + + for blk in self.blocks: + # Such assignment may incorrectly coerce NaT to None + # result[blk.mgr_locs] = blk._slice((slice(None), loc)) + for i, rl in enumerate(blk.mgr_locs): + result[rl] = blk.iget((i, loc)) + + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + result = cls._from_sequence(result, dtype=dtype) + + bp = BlockPlacement(slice(0, len(result))) + block = new_block(result, placement=bp, ndim=1) + return SingleBlockManager(block, self.axes[0]) + + def iget(self, i: int, track_ref: bool = True) -> SingleBlockManager: + """ + Return the data as a SingleBlockManager. + """ + block = self.blocks[self.blknos[i]] + values = block.iget(self.blklocs[i]) + + # shortcut for select a single-dim from a 2-dim BM + bp = BlockPlacement(slice(0, len(values))) + nb = type(block)( + values, placement=bp, ndim=1, refs=block.refs if track_ref else None + ) + return SingleBlockManager(nb, self.axes[1]) + + def iget_values(self, i: int) -> ArrayLike: + """ + Return the data for column i as the values (ndarray or ExtensionArray). + + Warning! The returned array is a view but doesn't handle Copy-on-Write, + so this should be used with caution. + """ + # TODO(CoW) making the arrays read-only might make this safer to use? + block = self.blocks[self.blknos[i]] + values = block.iget(self.blklocs[i]) + return values + + @property + def column_arrays(self) -> list[np.ndarray]: + """ + Used in the JSON C code to access column arrays. + This optimizes compared to using `iget_values` by converting each + + Warning! This doesn't handle Copy-on-Write, so should be used with + caution (current use case of consuming this in the JSON code is fine). + """ + # This is an optimized equivalent to + # result = [self.iget_values(i) for i in range(len(self.items))] + result: list[np.ndarray | None] = [None] * len(self.items) + + for blk in self.blocks: + mgr_locs = blk._mgr_locs + values = blk.array_values._values_for_json() + if values.ndim == 1: + # TODO(EA2D): special casing not needed with 2D EAs + result[mgr_locs[0]] = values + + else: + for i, loc in enumerate(mgr_locs): + result[loc] = values[i] + + # error: Incompatible return value type (got "List[None]", + # expected "List[ndarray[Any, Any]]") + return result # type: ignore[return-value] + + def iset( + self, + loc: int | slice | np.ndarray, + value: ArrayLike, + inplace: bool = False, + refs: BlockValuesRefs | None = None, + ) -> None: + """ + Set new item in-place. Does not consolidate. Adds new Block if not + contained in the current set of items + """ + + # FIXME: refactor, clearly separate broadcasting & zip-like assignment + # can prob also fix the various if tests for sparse/categorical + if self._blklocs is None and self.ndim > 1: + self._rebuild_blknos_and_blklocs() + + # Note: we exclude DTA/TDA here + value_is_extension_type = is_1d_only_ea_dtype(value.dtype) + if not value_is_extension_type: + if value.ndim == 2: + value = value.T + else: + value = ensure_block_shape(value, ndim=2) + + if value.shape[1:] != self.shape[1:]: + raise AssertionError( + "Shape of new values must be compatible with manager shape" + ) + + if lib.is_integer(loc): + # We have 6 tests where loc is _not_ an int. + # In this case, get_blkno_placements will yield only one tuple, + # containing (self._blknos[loc], BlockPlacement(slice(0, 1, 1))) + + # Check if we can use _iset_single fastpath + loc = cast(int, loc) + blkno = self.blknos[loc] + blk = self.blocks[blkno] + if len(blk._mgr_locs) == 1: # TODO: fastest way to check this? + return self._iset_single( + loc, + value, + inplace=inplace, + blkno=blkno, + blk=blk, + refs=refs, + ) + + # error: Incompatible types in assignment (expression has type + # "List[Union[int, slice, ndarray]]", variable has type "Union[int, + # slice, ndarray]") + loc = [loc] # type: ignore[assignment] + + # categorical/sparse/datetimetz + if value_is_extension_type: + + def value_getitem(placement): + return value + + else: + + def value_getitem(placement): + return value[placement.indexer] + + # Accessing public blknos ensures the public versions are initialized + blknos = self.blknos[loc] + blklocs = self.blklocs[loc].copy() + + unfit_mgr_locs = [] + unfit_val_locs = [] + removed_blknos = [] + for blkno_l, val_locs in libinternals.get_blkno_placements(blknos, group=True): + blk = self.blocks[blkno_l] + blk_locs = blklocs[val_locs.indexer] + if inplace and blk.should_store(value): + # Updating inplace -> check if we need to do Copy-on-Write + if using_copy_on_write() and not self._has_no_reference_block(blkno_l): + self._iset_split_block( + blkno_l, blk_locs, value_getitem(val_locs), refs=refs + ) + else: + blk.set_inplace(blk_locs, value_getitem(val_locs)) + continue + else: + unfit_mgr_locs.append(blk.mgr_locs.as_array[blk_locs]) + unfit_val_locs.append(val_locs) + + # If all block items are unfit, schedule the block for removal. + if len(val_locs) == len(blk.mgr_locs): + removed_blknos.append(blkno_l) + continue + else: + # Defer setting the new values to enable consolidation + self._iset_split_block(blkno_l, blk_locs, refs=refs) + + if len(removed_blknos): + # Remove blocks & update blknos accordingly + is_deleted = np.zeros(self.nblocks, dtype=np.bool_) + is_deleted[removed_blknos] = True + + new_blknos = np.empty(self.nblocks, dtype=np.intp) + new_blknos.fill(-1) + new_blknos[~is_deleted] = np.arange(self.nblocks - len(removed_blknos)) + self._blknos = new_blknos[self._blknos] + self.blocks = tuple( + blk for i, blk in enumerate(self.blocks) if i not in set(removed_blknos) + ) + + if unfit_val_locs: + unfit_idxr = np.concatenate(unfit_mgr_locs) + unfit_count = len(unfit_idxr) + + new_blocks: list[Block] = [] + if value_is_extension_type: + # This code (ab-)uses the fact that EA blocks contain only + # one item. + # TODO(EA2D): special casing unnecessary with 2D EAs + new_blocks.extend( + new_block_2d( + values=value, + placement=BlockPlacement(slice(mgr_loc, mgr_loc + 1)), + refs=refs, + ) + for mgr_loc in unfit_idxr + ) + + self._blknos[unfit_idxr] = np.arange(unfit_count) + len(self.blocks) + self._blklocs[unfit_idxr] = 0 + + else: + # unfit_val_locs contains BlockPlacement objects + unfit_val_items = unfit_val_locs[0].append(unfit_val_locs[1:]) + + new_blocks.append( + new_block_2d( + values=value_getitem(unfit_val_items), + placement=BlockPlacement(unfit_idxr), + refs=refs, + ) + ) + + self._blknos[unfit_idxr] = len(self.blocks) + self._blklocs[unfit_idxr] = np.arange(unfit_count) + + self.blocks += tuple(new_blocks) + + # Newly created block's dtype may already be present. + self._known_consolidated = False + + def _iset_split_block( + self, + blkno_l: int, + blk_locs: np.ndarray | list[int], + value: ArrayLike | None = None, + refs: BlockValuesRefs | None = None, + ) -> None: + """Removes columns from a block by splitting the block. + + Avoids copying the whole block through slicing and updates the manager + after determinint the new block structure. Optionally adds a new block, + otherwise has to be done by the caller. + + Parameters + ---------- + blkno_l: The block number to operate on, relevant for updating the manager + blk_locs: The locations of our block that should be deleted. + value: The value to set as a replacement. + refs: The reference tracking object of the value to set. + """ + blk = self.blocks[blkno_l] + + if self._blklocs is None: + self._rebuild_blknos_and_blklocs() + + nbs_tup = tuple(blk.delete(blk_locs)) + if value is not None: + locs = blk.mgr_locs.as_array[blk_locs] + first_nb = new_block_2d(value, BlockPlacement(locs), refs=refs) + else: + first_nb = nbs_tup[0] + nbs_tup = tuple(nbs_tup[1:]) + + nr_blocks = len(self.blocks) + blocks_tup = ( + self.blocks[:blkno_l] + (first_nb,) + self.blocks[blkno_l + 1 :] + nbs_tup + ) + self.blocks = blocks_tup + + if not nbs_tup and value is not None: + # No need to update anything if split did not happen + return + + self._blklocs[first_nb.mgr_locs.indexer] = np.arange(len(first_nb)) + + for i, nb in enumerate(nbs_tup): + self._blklocs[nb.mgr_locs.indexer] = np.arange(len(nb)) + self._blknos[nb.mgr_locs.indexer] = i + nr_blocks + + def _iset_single( + self, + loc: int, + value: ArrayLike, + inplace: bool, + blkno: int, + blk: Block, + refs: BlockValuesRefs | None = None, + ) -> None: + """ + Fastpath for iset when we are only setting a single position and + the Block currently in that position is itself single-column. + + In this case we can swap out the entire Block and blklocs and blknos + are unaffected. + """ + # Caller is responsible for verifying value.shape + + if inplace and blk.should_store(value): + copy = False + if using_copy_on_write() and not self._has_no_reference_block(blkno): + # perform Copy-on-Write and clear the reference + copy = True + iloc = self.blklocs[loc] + blk.set_inplace(slice(iloc, iloc + 1), value, copy=copy) + return + + nb = new_block_2d(value, placement=blk._mgr_locs, refs=refs) + old_blocks = self.blocks + new_blocks = old_blocks[:blkno] + (nb,) + old_blocks[blkno + 1 :] + self.blocks = new_blocks + return + + def column_setitem( + self, loc: int, idx: int | slice | np.ndarray, value, inplace_only: bool = False + ) -> None: + """ + Set values ("setitem") into a single column (not setting the full column). + + This is a method on the BlockManager level, to avoid creating an + intermediate Series at the DataFrame level (`s = df[loc]; s[idx] = value`) + """ + needs_to_warn = False + if warn_copy_on_write() and not self._has_no_reference(loc): + if not isinstance( + self.blocks[self.blknos[loc]].values, + (ArrowExtensionArray, ArrowStringArray), + ): + # We might raise if we are in an expansion case, so defer + # warning till we actually updated + needs_to_warn = True + + elif using_copy_on_write() and not self._has_no_reference(loc): + blkno = self.blknos[loc] + # Split blocks to only copy the column we want to modify + blk_loc = self.blklocs[loc] + # Copy our values + values = self.blocks[blkno].values + if values.ndim == 1: + values = values.copy() + else: + # Use [blk_loc] as indexer to keep ndim=2, this already results in a + # copy + values = values[[blk_loc]] + self._iset_split_block(blkno, [blk_loc], values) + + # this manager is only created temporarily to mutate the values in place + # so don't track references, otherwise the `setitem` would perform CoW again + col_mgr = self.iget(loc, track_ref=False) + if inplace_only: + col_mgr.setitem_inplace(idx, value) + else: + new_mgr = col_mgr.setitem((idx,), value) + self.iset(loc, new_mgr._block.values, inplace=True) + + if needs_to_warn: + warnings.warn( + COW_WARNING_GENERAL_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + + def insert(self, loc: int, item: Hashable, value: ArrayLike, refs=None) -> None: + """ + Insert item at selected position. + + Parameters + ---------- + loc : int + item : hashable + value : np.ndarray or ExtensionArray + refs : The reference tracking object of the value to set. + """ + with warnings.catch_warnings(): + # TODO: re-issue this with setitem-specific message? + warnings.filterwarnings( + "ignore", + "The behavior of Index.insert with object-dtype is deprecated", + category=FutureWarning, + ) + new_axis = self.items.insert(loc, item) + + if value.ndim == 2: + value = value.T + if len(value) > 1: + raise ValueError( + f"Expected a 1D array, got an array with shape {value.T.shape}" + ) + else: + value = ensure_block_shape(value, ndim=self.ndim) + + bp = BlockPlacement(slice(loc, loc + 1)) + block = new_block_2d(values=value, placement=bp, refs=refs) + + if not len(self.blocks): + # Fastpath + self._blklocs = np.array([0], dtype=np.intp) + self._blknos = np.array([0], dtype=np.intp) + else: + self._insert_update_mgr_locs(loc) + self._insert_update_blklocs_and_blknos(loc) + + self.axes[0] = new_axis + self.blocks += (block,) + + self._known_consolidated = False + + if sum(not block.is_extension for block in self.blocks) > 100: + warnings.warn( + "DataFrame is highly fragmented. This is usually the result " + "of calling `frame.insert` many times, which has poor performance. " + "Consider joining all columns at once using pd.concat(axis=1) " + "instead. To get a de-fragmented frame, use `newframe = frame.copy()`", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + + def _insert_update_mgr_locs(self, loc) -> None: + """ + When inserting a new Block at location 'loc', we increment + all of the mgr_locs of blocks above that by one. + """ + for blkno, count in _fast_count_smallints(self.blknos[loc:]): + # .620 this way, .326 of which is in increment_above + blk = self.blocks[blkno] + blk._mgr_locs = blk._mgr_locs.increment_above(loc) + + def _insert_update_blklocs_and_blknos(self, loc) -> None: + """ + When inserting a new Block at location 'loc', we update our + _blklocs and _blknos. + """ + + # Accessing public blklocs ensures the public versions are initialized + if loc == self.blklocs.shape[0]: + # np.append is a lot faster, let's use it if we can. + self._blklocs = np.append(self._blklocs, 0) + self._blknos = np.append(self._blknos, len(self.blocks)) + elif loc == 0: + # np.append is a lot faster, let's use it if we can. + self._blklocs = np.append(self._blklocs[::-1], 0)[::-1] + self._blknos = np.append(self._blknos[::-1], len(self.blocks))[::-1] + else: + new_blklocs, new_blknos = libinternals.update_blklocs_and_blknos( + self.blklocs, self.blknos, loc, len(self.blocks) + ) + self._blklocs = new_blklocs + self._blknos = new_blknos + + def idelete(self, indexer) -> BlockManager: + """ + Delete selected locations, returning a new BlockManager. + """ + is_deleted = np.zeros(self.shape[0], dtype=np.bool_) + is_deleted[indexer] = True + taker = (~is_deleted).nonzero()[0] + + nbs = self._slice_take_blocks_ax0(taker, only_slice=True, ref_inplace_op=True) + new_columns = self.items[~is_deleted] + axes = [new_columns, self.axes[1]] + return type(self)(tuple(nbs), axes, verify_integrity=False) + + # ---------------------------------------------------------------- + # Block-wise Operation + + def grouped_reduce(self, func: Callable) -> Self: + """ + Apply grouped reduction function blockwise, returning a new BlockManager. + + Parameters + ---------- + func : grouped reduction function + + Returns + ------- + BlockManager + """ + result_blocks: list[Block] = [] + + for blk in self.blocks: + if blk.is_object: + # split on object-dtype blocks bc some columns may raise + # while others do not. + for sb in blk._split(): + applied = sb.apply(func) + result_blocks = extend_blocks(applied, result_blocks) + else: + applied = blk.apply(func) + result_blocks = extend_blocks(applied, result_blocks) + + if len(result_blocks) == 0: + nrows = 0 + else: + nrows = result_blocks[0].values.shape[-1] + index = Index(range(nrows)) + + return type(self).from_blocks(result_blocks, [self.axes[0], index]) + + def reduce(self, func: Callable) -> Self: + """ + Apply reduction function blockwise, returning a single-row BlockManager. + + Parameters + ---------- + func : reduction function + + Returns + ------- + BlockManager + """ + # If 2D, we assume that we're operating column-wise + assert self.ndim == 2 + + res_blocks: list[Block] = [] + for blk in self.blocks: + nbs = blk.reduce(func) + res_blocks.extend(nbs) + + index = Index([None]) # placeholder + new_mgr = type(self).from_blocks(res_blocks, [self.items, index]) + return new_mgr + + def operate_blockwise(self, other: BlockManager, array_op) -> BlockManager: + """ + Apply array_op blockwise with another (aligned) BlockManager. + """ + return operate_blockwise(self, other, array_op) + + def _equal_values(self: BlockManager, other: BlockManager) -> bool: + """ + Used in .equals defined in base class. Only check the column values + assuming shape and indexes have already been checked. + """ + return blockwise_all(self, other, array_equals) + + def quantile( + self, + *, + qs: Index, # with dtype float 64 + interpolation: QuantileInterpolation = "linear", + ) -> Self: + """ + Iterate over blocks applying quantile reduction. + This routine is intended for reduction type operations and + will do inference on the generated blocks. + + Parameters + ---------- + interpolation : type of interpolation, default 'linear' + qs : list of the quantiles to be computed + + Returns + ------- + BlockManager + """ + # Series dispatches to DataFrame for quantile, which allows us to + # simplify some of the code here and in the blocks + assert self.ndim >= 2 + assert is_list_like(qs) # caller is responsible for this + + new_axes = list(self.axes) + new_axes[1] = Index(qs, dtype=np.float64) + + blocks = [ + blk.quantile(qs=qs, interpolation=interpolation) for blk in self.blocks + ] + + return type(self)(blocks, new_axes) + + # ---------------------------------------------------------------- + + def unstack(self, unstacker, fill_value) -> BlockManager: + """ + Return a BlockManager with all blocks unstacked. + + Parameters + ---------- + unstacker : reshape._Unstacker + fill_value : Any + fill_value for newly introduced missing values. + + Returns + ------- + unstacked : BlockManager + """ + new_columns = unstacker.get_new_columns(self.items) + new_index = unstacker.new_index + + allow_fill = not unstacker.mask_all + if allow_fill: + # calculating the full mask once and passing it to Block._unstack is + # faster than letting calculating it in each repeated call + new_mask2D = (~unstacker.mask).reshape(*unstacker.full_shape) + needs_masking = new_mask2D.any(axis=0) + else: + needs_masking = np.zeros(unstacker.full_shape[1], dtype=bool) + + new_blocks: list[Block] = [] + columns_mask: list[np.ndarray] = [] + + if len(self.items) == 0: + factor = 1 + else: + fac = len(new_columns) / len(self.items) + assert fac == int(fac) + factor = int(fac) + + for blk in self.blocks: + mgr_locs = blk.mgr_locs + new_placement = mgr_locs.tile_for_unstack(factor) + + blocks, mask = blk._unstack( + unstacker, + fill_value, + new_placement=new_placement, + needs_masking=needs_masking, + ) + + new_blocks.extend(blocks) + columns_mask.extend(mask) + + # Block._unstack should ensure this holds, + assert mask.sum() == sum(len(nb._mgr_locs) for nb in blocks) + # In turn this ensures that in the BlockManager call below + # we have len(new_columns) == sum(x.shape[0] for x in new_blocks) + # which suffices to allow us to pass verify_inegrity=False + + new_columns = new_columns[columns_mask] + + bm = BlockManager(new_blocks, [new_columns, new_index], verify_integrity=False) + return bm + + def to_dict(self) -> dict[str, Self]: + """ + Return a dict of str(dtype) -> BlockManager + + Returns + ------- + values : a dict of dtype -> BlockManager + """ + + bd: dict[str, list[Block]] = {} + for b in self.blocks: + bd.setdefault(str(b.dtype), []).append(b) + + # TODO(EA2D): the combine will be unnecessary with 2D EAs + return {dtype: self._combine(blocks) for dtype, blocks in bd.items()} + + def as_array( + self, + dtype: np.dtype | None = None, + copy: bool = False, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Convert the blockmanager data into an numpy array. + + Parameters + ---------- + dtype : np.dtype or None, default None + Data type of the return array. + copy : bool, default False + If True then guarantee that a copy is returned. A value of + False does not guarantee that the underlying data is not + copied. + na_value : object, default lib.no_default + Value to be used as the missing value sentinel. + + Returns + ------- + arr : ndarray + """ + passed_nan = lib.is_float(na_value) and isna(na_value) + + if len(self.blocks) == 0: + arr = np.empty(self.shape, dtype=float) + return arr.transpose() + + if self.is_single_block: + blk = self.blocks[0] + + if na_value is not lib.no_default: + # We want to copy when na_value is provided to avoid + # mutating the original object + if lib.is_np_dtype(blk.dtype, "f") and passed_nan: + # We are already numpy-float and na_value=np.nan + pass + else: + copy = True + + if blk.is_extension: + # Avoid implicit conversion of extension blocks to object + + # error: Item "ndarray" of "Union[ndarray, ExtensionArray]" has no + # attribute "to_numpy" + arr = blk.values.to_numpy( # type: ignore[union-attr] + dtype=dtype, + na_value=na_value, + copy=copy, + ).reshape(blk.shape) + elif not copy: + arr = np.asarray(blk.values, dtype=dtype) + else: + arr = np.array(blk.values, dtype=dtype, copy=copy) + + if using_copy_on_write() and not copy: + arr = arr.view() + arr.flags.writeable = False + else: + arr = self._interleave(dtype=dtype, na_value=na_value) + # The underlying data was copied within _interleave, so no need + # to further copy if copy=True or setting na_value + + if na_value is lib.no_default: + pass + elif arr.dtype.kind == "f" and passed_nan: + pass + else: + arr[isna(arr)] = na_value + + return arr.transpose() + + def _interleave( + self, + dtype: np.dtype | None = None, + na_value: object = lib.no_default, + ) -> np.ndarray: + """ + Return ndarray from blocks with specified item order + Items must be contained in the blocks + """ + if not dtype: + # Incompatible types in assignment (expression has type + # "Optional[Union[dtype[Any], ExtensionDtype]]", variable has + # type "Optional[dtype[Any]]") + dtype = interleaved_dtype( # type: ignore[assignment] + [blk.dtype for blk in self.blocks] + ) + + # error: Argument 1 to "ensure_np_dtype" has incompatible type + # "Optional[dtype[Any]]"; expected "Union[dtype[Any], ExtensionDtype]" + dtype = ensure_np_dtype(dtype) # type: ignore[arg-type] + result = np.empty(self.shape, dtype=dtype) + + itemmask = np.zeros(self.shape[0]) + + if dtype == np.dtype("object") and na_value is lib.no_default: + # much more performant than using to_numpy below + for blk in self.blocks: + rl = blk.mgr_locs + arr = blk.get_values(dtype) + result[rl.indexer] = arr + itemmask[rl.indexer] = 1 + return result + + for blk in self.blocks: + rl = blk.mgr_locs + if blk.is_extension: + # Avoid implicit conversion of extension blocks to object + + # error: Item "ndarray" of "Union[ndarray, ExtensionArray]" has no + # attribute "to_numpy" + arr = blk.values.to_numpy( # type: ignore[union-attr] + dtype=dtype, + na_value=na_value, + ) + else: + arr = blk.get_values(dtype) + result[rl.indexer] = arr + itemmask[rl.indexer] = 1 + + if not itemmask.all(): + raise AssertionError("Some items were not contained in blocks") + + return result + + # ---------------------------------------------------------------- + # Consolidation + + def is_consolidated(self) -> bool: + """ + Return True if more than one block with the same dtype + """ + if not self._known_consolidated: + self._consolidate_check() + return self._is_consolidated + + def _consolidate_check(self) -> None: + if len(self.blocks) == 1: + # fastpath + self._is_consolidated = True + self._known_consolidated = True + return + dtypes = [blk.dtype for blk in self.blocks if blk._can_consolidate] + self._is_consolidated = len(dtypes) == len(set(dtypes)) + self._known_consolidated = True + + def _consolidate_inplace(self) -> None: + # In general, _consolidate_inplace should only be called via + # DataFrame._consolidate_inplace, otherwise we will fail to invalidate + # the DataFrame's _item_cache. The exception is for newly-created + # BlockManager objects not yet attached to a DataFrame. + if not self.is_consolidated(): + self.blocks = _consolidate(self.blocks) + self._is_consolidated = True + self._known_consolidated = True + self._rebuild_blknos_and_blklocs() + + # ---------------------------------------------------------------- + # Concatenation + + @classmethod + def concat_horizontal(cls, mgrs: list[Self], axes: list[Index]) -> Self: + """ + Concatenate uniformly-indexed BlockManagers horizontally. + """ + offset = 0 + blocks: list[Block] = [] + for mgr in mgrs: + for blk in mgr.blocks: + # We need to do getitem_block here otherwise we would be altering + # blk.mgr_locs in place, which would render it invalid. This is only + # relevant in the copy=False case. + nb = blk.slice_block_columns(slice(None)) + nb._mgr_locs = nb._mgr_locs.add(offset) + blocks.append(nb) + + offset += len(mgr.items) + + new_mgr = cls(tuple(blocks), axes) + return new_mgr + + @classmethod + def concat_vertical(cls, mgrs: list[Self], axes: list[Index]) -> Self: + """ + Concatenate uniformly-indexed BlockManagers vertically. + """ + raise NotImplementedError("This logic lives (for now) in internals.concat") + + +class SingleBlockManager(BaseBlockManager, SingleDataManager): + """manage a single block with""" + + @property + def ndim(self) -> Literal[1]: + return 1 + + _is_consolidated = True + _known_consolidated = True + __slots__ = () + is_single_block = True + + def __init__( + self, + block: Block, + axis: Index, + verify_integrity: bool = False, + ) -> None: + # Assertions disabled for performance + # assert isinstance(block, Block), type(block) + # assert isinstance(axis, Index), type(axis) + + self.axes = [axis] + self.blocks = (block,) + + @classmethod + def from_blocks( + cls, + blocks: list[Block], + axes: list[Index], + ) -> Self: + """ + Constructor for BlockManager and SingleBlockManager with same signature. + """ + assert len(blocks) == 1 + assert len(axes) == 1 + return cls(blocks[0], axes[0], verify_integrity=False) + + @classmethod + def from_array( + cls, array: ArrayLike, index: Index, refs: BlockValuesRefs | None = None + ) -> SingleBlockManager: + """ + Constructor for if we have an array that is not yet a Block. + """ + array = maybe_coerce_values(array) + bp = BlockPlacement(slice(0, len(index))) + block = new_block(array, placement=bp, ndim=1, refs=refs) + return cls(block, index) + + def to_2d_mgr(self, columns: Index) -> BlockManager: + """ + Manager analogue of Series.to_frame + """ + blk = self.blocks[0] + arr = ensure_block_shape(blk.values, ndim=2) + bp = BlockPlacement(0) + new_blk = type(blk)(arr, placement=bp, ndim=2, refs=blk.refs) + axes = [columns, self.axes[0]] + return BlockManager([new_blk], axes=axes, verify_integrity=False) + + def _has_no_reference(self, i: int = 0) -> bool: + """ + Check for column `i` if it has references. + (whether it references another array or is itself being referenced) + Returns True if the column has no references. + """ + return not self.blocks[0].refs.has_reference() + + def __getstate__(self): + block_values = [b.values for b in self.blocks] + block_items = [self.items[b.mgr_locs.indexer] for b in self.blocks] + axes_array = list(self.axes) + + extra_state = { + "0.14.1": { + "axes": axes_array, + "blocks": [ + {"values": b.values, "mgr_locs": b.mgr_locs.indexer} + for b in self.blocks + ], + } + } + + # First three elements of the state are to maintain forward + # compatibility with 0.13.1. + return axes_array, block_values, block_items, extra_state + + def __setstate__(self, state) -> None: + def unpickle_block(values, mgr_locs, ndim: int) -> Block: + # TODO(EA2D): ndim would be unnecessary with 2D EAs + # older pickles may store e.g. DatetimeIndex instead of DatetimeArray + values = extract_array(values, extract_numpy=True) + if not isinstance(mgr_locs, BlockPlacement): + mgr_locs = BlockPlacement(mgr_locs) + + values = maybe_coerce_values(values) + return new_block(values, placement=mgr_locs, ndim=ndim) + + if isinstance(state, tuple) and len(state) >= 4 and "0.14.1" in state[3]: + state = state[3]["0.14.1"] + self.axes = [ensure_index(ax) for ax in state["axes"]] + ndim = len(self.axes) + self.blocks = tuple( + unpickle_block(b["values"], b["mgr_locs"], ndim=ndim) + for b in state["blocks"] + ) + else: + raise NotImplementedError("pre-0.14.1 pickles are no longer supported") + + self._post_setstate() + + def _post_setstate(self) -> None: + pass + + @cache_readonly + def _block(self) -> Block: + return self.blocks[0] + + @property + def _blknos(self): + """compat with BlockManager""" + return None + + @property + def _blklocs(self): + """compat with BlockManager""" + return None + + def get_rows_with_mask(self, indexer: npt.NDArray[np.bool_]) -> Self: + # similar to get_slice, but not restricted to slice indexer + blk = self._block + if using_copy_on_write() and len(indexer) > 0 and indexer.all(): + return type(self)(blk.copy(deep=False), self.index) + array = blk.values[indexer] + + if isinstance(indexer, np.ndarray) and indexer.dtype.kind == "b": + # boolean indexing always gives a copy with numpy + refs = None + else: + # TODO(CoW) in theory only need to track reference if new_array is a view + refs = blk.refs + + bp = BlockPlacement(slice(0, len(array))) + block = type(blk)(array, placement=bp, ndim=1, refs=refs) + + new_idx = self.index[indexer] + return type(self)(block, new_idx) + + def get_slice(self, slobj: slice, axis: AxisInt = 0) -> SingleBlockManager: + # Assertion disabled for performance + # assert isinstance(slobj, slice), type(slobj) + if axis >= self.ndim: + raise IndexError("Requested axis not found in manager") + + blk = self._block + array = blk.values[slobj] + bp = BlockPlacement(slice(0, len(array))) + # TODO this method is only used in groupby SeriesSplitter at the moment, + # so passing refs is not yet covered by the tests + block = type(blk)(array, placement=bp, ndim=1, refs=blk.refs) + new_index = self.index._getitem_slice(slobj) + return type(self)(block, new_index) + + @property + def index(self) -> Index: + return self.axes[0] + + @property + def dtype(self) -> DtypeObj: + return self._block.dtype + + def get_dtypes(self) -> npt.NDArray[np.object_]: + return np.array([self._block.dtype], dtype=object) + + def external_values(self): + """The array that Series.values returns""" + return self._block.external_values() + + def internal_values(self): + """The array that Series._values returns""" + return self._block.values + + def array_values(self) -> ExtensionArray: + """The array that Series.array returns""" + return self._block.array_values + + def get_numeric_data(self) -> Self: + if self._block.is_numeric: + return self.copy(deep=False) + return self.make_empty() + + @property + def _can_hold_na(self) -> bool: + return self._block._can_hold_na + + def setitem_inplace(self, indexer, value, warn: bool = True) -> None: + """ + Set values with indexer. + + For Single[Block/Array]Manager, this backs s[indexer] = value + + This is an inplace version of `setitem()`, mutating the manager/values + in place, not returning a new Manager (and Block), and thus never changing + the dtype. + """ + using_cow = using_copy_on_write() + warn_cow = warn_copy_on_write() + if (using_cow or warn_cow) and not self._has_no_reference(0): + if using_cow: + self.blocks = (self._block.copy(),) + self._cache.clear() + elif warn_cow and warn: + warnings.warn( + COW_WARNING_SETITEM_MSG, + FutureWarning, + stacklevel=find_stack_level(), + ) + + super().setitem_inplace(indexer, value) + + def idelete(self, indexer) -> SingleBlockManager: + """ + Delete single location from SingleBlockManager. + + Ensures that self.blocks doesn't become empty. + """ + nb = self._block.delete(indexer)[0] + self.blocks = (nb,) + self.axes[0] = self.axes[0].delete(indexer) + self._cache.clear() + return self + + def fast_xs(self, loc): + """ + fast path for getting a cross-section + return a view of the data + """ + raise NotImplementedError("Use series._values[loc] instead") + + def set_values(self, values: ArrayLike) -> None: + """ + Set the values of the single block in place. + + Use at your own risk! This does not check if the passed values are + valid for the current Block/SingleBlockManager (length, dtype, etc), + and this does not properly keep track of references. + """ + # NOTE(CoW) Currently this is only used for FrameColumnApply.series_generator + # which handles CoW by setting the refs manually if necessary + self.blocks[0].values = values + self.blocks[0]._mgr_locs = BlockPlacement(slice(len(values))) + + def _equal_values(self, other: Self) -> bool: + """ + Used in .equals defined in base class. Only check the column values + assuming shape and indexes have already been checked. + """ + # For SingleBlockManager (i.e.Series) + if other.ndim != 1: + return False + left = self.blocks[0].values + right = other.blocks[0].values + return array_equals(left, right) + + +# -------------------------------------------------------------------- +# Constructor Helpers + + +def create_block_manager_from_blocks( + blocks: list[Block], + axes: list[Index], + consolidate: bool = True, + verify_integrity: bool = True, +) -> BlockManager: + # If verify_integrity=False, then caller is responsible for checking + # all(x.shape[-1] == len(axes[1]) for x in blocks) + # sum(x.shape[0] for x in blocks) == len(axes[0]) + # set(x for blk in blocks for x in blk.mgr_locs) == set(range(len(axes[0]))) + # all(blk.ndim == 2 for blk in blocks) + # This allows us to safely pass verify_integrity=False + + try: + mgr = BlockManager(blocks, axes, verify_integrity=verify_integrity) + + except ValueError as err: + arrays = [blk.values for blk in blocks] + tot_items = sum(arr.shape[0] for arr in arrays) + raise_construction_error(tot_items, arrays[0].shape[1:], axes, err) + + if consolidate: + mgr._consolidate_inplace() + return mgr + + +def create_block_manager_from_column_arrays( + arrays: list[ArrayLike], + axes: list[Index], + consolidate: bool, + refs: list, +) -> BlockManager: + # Assertions disabled for performance (caller is responsible for verifying) + # assert isinstance(axes, list) + # assert all(isinstance(x, Index) for x in axes) + # assert all(isinstance(x, (np.ndarray, ExtensionArray)) for x in arrays) + # assert all(type(x) is not NumpyExtensionArray for x in arrays) + # assert all(x.ndim == 1 for x in arrays) + # assert all(len(x) == len(axes[1]) for x in arrays) + # assert len(arrays) == len(axes[0]) + # These last three are sufficient to allow us to safely pass + # verify_integrity=False below. + + try: + blocks = _form_blocks(arrays, consolidate, refs) + mgr = BlockManager(blocks, axes, verify_integrity=False) + except ValueError as e: + raise_construction_error(len(arrays), arrays[0].shape, axes, e) + if consolidate: + mgr._consolidate_inplace() + return mgr + + +def raise_construction_error( + tot_items: int, + block_shape: Shape, + axes: list[Index], + e: ValueError | None = None, +): + """raise a helpful message about our construction""" + passed = tuple(map(int, [tot_items] + list(block_shape))) + # Correcting the user facing error message during dataframe construction + if len(passed) <= 2: + passed = passed[::-1] + + implied = tuple(len(ax) for ax in axes) + # Correcting the user facing error message during dataframe construction + if len(implied) <= 2: + implied = implied[::-1] + + # We return the exception object instead of raising it so that we + # can raise it in the caller; mypy plays better with that + if passed == implied and e is not None: + raise e + if block_shape[0] == 0: + raise ValueError("Empty data passed with indices specified.") + raise ValueError(f"Shape of passed values is {passed}, indices imply {implied}") + + +# ----------------------------------------------------------------------- + + +def _grouping_func(tup: tuple[int, ArrayLike]) -> tuple[int, DtypeObj]: + dtype = tup[1].dtype + + if is_1d_only_ea_dtype(dtype): + # We know these won't be consolidated, so don't need to group these. + # This avoids expensive comparisons of CategoricalDtype objects + sep = id(dtype) + else: + sep = 0 + + return sep, dtype + + +def _form_blocks(arrays: list[ArrayLike], consolidate: bool, refs: list) -> list[Block]: + tuples = list(enumerate(arrays)) + + if not consolidate: + return _tuples_to_blocks_no_consolidate(tuples, refs) + + # when consolidating, we can ignore refs (either stacking always copies, + # or the EA is already copied in the calling dict_to_mgr) + + # group by dtype + grouper = itertools.groupby(tuples, _grouping_func) + + nbs: list[Block] = [] + for (_, dtype), tup_block in grouper: + block_type = get_block_type(dtype) + + if isinstance(dtype, np.dtype): + is_dtlike = dtype.kind in "mM" + + if issubclass(dtype.type, (str, bytes)): + dtype = np.dtype(object) + + values, placement = _stack_arrays(list(tup_block), dtype) + if is_dtlike: + values = ensure_wrapped_if_datetimelike(values) + blk = block_type(values, placement=BlockPlacement(placement), ndim=2) + nbs.append(blk) + + elif is_1d_only_ea_dtype(dtype): + dtype_blocks = [ + block_type(x[1], placement=BlockPlacement(x[0]), ndim=2) + for x in tup_block + ] + nbs.extend(dtype_blocks) + + else: + dtype_blocks = [ + block_type( + ensure_block_shape(x[1], 2), placement=BlockPlacement(x[0]), ndim=2 + ) + for x in tup_block + ] + nbs.extend(dtype_blocks) + return nbs + + +def _tuples_to_blocks_no_consolidate(tuples, refs) -> list[Block]: + # tuples produced within _form_blocks are of the form (placement, array) + return [ + new_block_2d( + ensure_block_shape(arr, ndim=2), placement=BlockPlacement(i), refs=ref + ) + for ((i, arr), ref) in zip(tuples, refs) + ] + + +def _stack_arrays(tuples, dtype: np.dtype): + placement, arrays = zip(*tuples) + + first = arrays[0] + shape = (len(arrays),) + first.shape + + stacked = np.empty(shape, dtype=dtype) + for i, arr in enumerate(arrays): + stacked[i] = arr + + return stacked, placement + + +def _consolidate(blocks: tuple[Block, ...]) -> tuple[Block, ...]: + """ + Merge blocks having same dtype, exclude non-consolidating blocks + """ + # sort by _can_consolidate, dtype + gkey = lambda x: x._consolidate_key + grouper = itertools.groupby(sorted(blocks, key=gkey), gkey) + + new_blocks: list[Block] = [] + for (_can_consolidate, dtype), group_blocks in grouper: + merged_blocks, _ = _merge_blocks( + list(group_blocks), dtype=dtype, can_consolidate=_can_consolidate + ) + new_blocks = extend_blocks(merged_blocks, new_blocks) + return tuple(new_blocks) + + +def _merge_blocks( + blocks: list[Block], dtype: DtypeObj, can_consolidate: bool +) -> tuple[list[Block], bool]: + if len(blocks) == 1: + return blocks, False + + if can_consolidate: + # TODO: optimization potential in case all mgrs contain slices and + # combination of those slices is a slice, too. + new_mgr_locs = np.concatenate([b.mgr_locs.as_array for b in blocks]) + + new_values: ArrayLike + + if isinstance(blocks[0].dtype, np.dtype): + # error: List comprehension has incompatible type List[Union[ndarray, + # ExtensionArray]]; expected List[Union[complex, generic, + # Sequence[Union[int, float, complex, str, bytes, generic]], + # Sequence[Sequence[Any]], SupportsArray]] + new_values = np.vstack([b.values for b in blocks]) # type: ignore[misc] + else: + bvals = [blk.values for blk in blocks] + bvals2 = cast(Sequence[NDArrayBackedExtensionArray], bvals) + new_values = bvals2[0]._concat_same_type(bvals2, axis=0) + + argsort = np.argsort(new_mgr_locs) + new_values = new_values[argsort] + new_mgr_locs = new_mgr_locs[argsort] + + bp = BlockPlacement(new_mgr_locs) + return [new_block_2d(new_values, placement=bp)], True + + # can't consolidate --> no merge + return blocks, False + + +def _fast_count_smallints(arr: npt.NDArray[np.intp]): + """Faster version of set(arr) for sequences of small numbers.""" + counts = np.bincount(arr) + nz = counts.nonzero()[0] + # Note: list(zip(...) outperforms list(np.c_[nz, counts[nz]]) here, + # in one benchmark by a factor of 11 + return zip(nz, counts[nz]) + + +def _preprocess_slice_or_indexer( + slice_or_indexer: slice | np.ndarray, length: int, allow_fill: bool +): + if isinstance(slice_or_indexer, slice): + return ( + "slice", + slice_or_indexer, + libinternals.slice_len(slice_or_indexer, length), + ) + else: + if ( + not isinstance(slice_or_indexer, np.ndarray) + or slice_or_indexer.dtype.kind != "i" + ): + dtype = getattr(slice_or_indexer, "dtype", None) + raise TypeError(type(slice_or_indexer), dtype) + + indexer = ensure_platform_int(slice_or_indexer) + if not allow_fill: + indexer = maybe_convert_indices(indexer, length) + return "fancy", indexer, len(indexer) + + +def make_na_array(dtype: DtypeObj, shape: Shape, fill_value) -> ArrayLike: + if isinstance(dtype, DatetimeTZDtype): + # NB: exclude e.g. pyarrow[dt64tz] dtypes + ts = Timestamp(fill_value).as_unit(dtype.unit) + i8values = np.full(shape, ts._value) + dt64values = i8values.view(f"M8[{dtype.unit}]") + return DatetimeArray._simple_new(dt64values, dtype=dtype) + + elif is_1d_only_ea_dtype(dtype): + dtype = cast(ExtensionDtype, dtype) + cls = dtype.construct_array_type() + + missing_arr = cls._from_sequence([], dtype=dtype) + ncols, nrows = shape + assert ncols == 1, ncols + empty_arr = -1 * np.ones((nrows,), dtype=np.intp) + return missing_arr.take(empty_arr, allow_fill=True, fill_value=fill_value) + elif isinstance(dtype, ExtensionDtype): + # TODO: no tests get here, a handful would if we disabled + # the dt64tz special-case above (which is faster) + cls = dtype.construct_array_type() + missing_arr = cls._empty(shape=shape, dtype=dtype) + missing_arr[:] = fill_value + return missing_arr + else: + # NB: we should never get here with dtype integer or bool; + # if we did, the missing_arr.fill would cast to gibberish + missing_arr = np.empty(shape, dtype=dtype) + missing_arr.fill(fill_value) + + if dtype.kind in "mM": + missing_arr = ensure_wrapped_if_datetimelike(missing_arr) + return missing_arr diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/ops.py new file mode 100644 index 0000000000000000000000000000000000000000..cf9466c0bdf0bf4df623e2d819faf3ea7b36c878 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/internals/ops.py @@ -0,0 +1,154 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + NamedTuple, +) + +from pandas.core.dtypes.common import is_1d_only_ea_dtype + +if TYPE_CHECKING: + from collections.abc import Iterator + + from pandas._libs.internals import BlockPlacement + from pandas._typing import ArrayLike + + from pandas.core.internals.blocks import Block + from pandas.core.internals.managers import BlockManager + + +class BlockPairInfo(NamedTuple): + lvals: ArrayLike + rvals: ArrayLike + locs: BlockPlacement + left_ea: bool + right_ea: bool + rblk: Block + + +def _iter_block_pairs( + left: BlockManager, right: BlockManager +) -> Iterator[BlockPairInfo]: + # At this point we have already checked the parent DataFrames for + # assert rframe._indexed_same(lframe) + + for blk in left.blocks: + locs = blk.mgr_locs + blk_vals = blk.values + + left_ea = blk_vals.ndim == 1 + + rblks = right._slice_take_blocks_ax0(locs.indexer, only_slice=True) + + # Assertions are disabled for performance, but should hold: + # if left_ea: + # assert len(locs) == 1, locs + # assert len(rblks) == 1, rblks + # assert rblks[0].shape[0] == 1, rblks[0].shape + + for rblk in rblks: + right_ea = rblk.values.ndim == 1 + + lvals, rvals = _get_same_shape_values(blk, rblk, left_ea, right_ea) + info = BlockPairInfo(lvals, rvals, locs, left_ea, right_ea, rblk) + yield info + + +def operate_blockwise( + left: BlockManager, right: BlockManager, array_op +) -> BlockManager: + # At this point we have already checked the parent DataFrames for + # assert rframe._indexed_same(lframe) + + res_blks: list[Block] = [] + for lvals, rvals, locs, left_ea, right_ea, rblk in _iter_block_pairs(left, right): + res_values = array_op(lvals, rvals) + if ( + left_ea + and not right_ea + and hasattr(res_values, "reshape") + and not is_1d_only_ea_dtype(res_values.dtype) + ): + res_values = res_values.reshape(1, -1) + nbs = rblk._split_op_result(res_values) + + # Assertions are disabled for performance, but should hold: + # if right_ea or left_ea: + # assert len(nbs) == 1 + # else: + # assert res_values.shape == lvals.shape, (res_values.shape, lvals.shape) + + _reset_block_mgr_locs(nbs, locs) + + res_blks.extend(nbs) + + # Assertions are disabled for performance, but should hold: + # slocs = {y for nb in res_blks for y in nb.mgr_locs.as_array} + # nlocs = sum(len(nb.mgr_locs.as_array) for nb in res_blks) + # assert nlocs == len(left.items), (nlocs, len(left.items)) + # assert len(slocs) == nlocs, (len(slocs), nlocs) + # assert slocs == set(range(nlocs)), slocs + + new_mgr = type(right)(tuple(res_blks), axes=right.axes, verify_integrity=False) + return new_mgr + + +def _reset_block_mgr_locs(nbs: list[Block], locs) -> None: + """ + Reset mgr_locs to correspond to our original DataFrame. + """ + for nb in nbs: + nblocs = locs[nb.mgr_locs.indexer] + nb.mgr_locs = nblocs + # Assertions are disabled for performance, but should hold: + # assert len(nblocs) == nb.shape[0], (len(nblocs), nb.shape) + # assert all(x in locs.as_array for x in nb.mgr_locs.as_array) + + +def _get_same_shape_values( + lblk: Block, rblk: Block, left_ea: bool, right_ea: bool +) -> tuple[ArrayLike, ArrayLike]: + """ + Slice lblk.values to align with rblk. Squeeze if we have EAs. + """ + lvals = lblk.values + rvals = rblk.values + + # Require that the indexing into lvals be slice-like + assert rblk.mgr_locs.is_slice_like, rblk.mgr_locs + + # TODO(EA2D): with 2D EAs only this first clause would be needed + if not (left_ea or right_ea): + # error: No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[Union[ndarray, slice], slice]" + lvals = lvals[rblk.mgr_locs.indexer, :] # type: ignore[call-overload] + assert lvals.shape == rvals.shape, (lvals.shape, rvals.shape) + elif left_ea and right_ea: + assert lvals.shape == rvals.shape, (lvals.shape, rvals.shape) + elif right_ea: + # lvals are 2D, rvals are 1D + + # error: No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[Union[ndarray, slice], slice]" + lvals = lvals[rblk.mgr_locs.indexer, :] # type: ignore[call-overload] + assert lvals.shape[0] == 1, lvals.shape + lvals = lvals[0, :] + else: + # lvals are 1D, rvals are 2D + assert rvals.shape[0] == 1, rvals.shape + # error: No overload variant of "__getitem__" of "ExtensionArray" matches + # argument type "Tuple[int, slice]" + rvals = rvals[0, :] # type: ignore[call-overload] + + return lvals, rvals + + +def blockwise_all(left: BlockManager, right: BlockManager, op) -> bool: + """ + Blockwise `all` reduction. + """ + for info in _iter_block_pairs(left, right): + res = op(info.lvals, info.rvals) + if not res: + return False + return True diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/missing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/missing.py new file mode 100644 index 0000000000000000000000000000000000000000..c016aab8ad0748220d04d047f84d3aa14564ab80 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/missing.py @@ -0,0 +1,1158 @@ +""" +Routines for filling missing data. +""" +from __future__ import annotations + +from functools import wraps +from typing import ( + TYPE_CHECKING, + Any, + Literal, + cast, + overload, +) + +import numpy as np + +from pandas._libs import ( + NaT, + algos, + lib, +) +from pandas._typing import ( + ArrayLike, + AxisInt, + F, + ReindexMethod, + npt, +) +from pandas.compat._optional import import_optional_dependency + +from pandas.core.dtypes.cast import infer_dtype_from +from pandas.core.dtypes.common import ( + is_array_like, + is_bool_dtype, + is_numeric_dtype, + is_numeric_v_string_like, + is_object_dtype, + needs_i8_conversion, +) +from pandas.core.dtypes.dtypes import DatetimeTZDtype +from pandas.core.dtypes.missing import ( + is_valid_na_for_dtype, + isna, + na_value_for_dtype, +) + +if TYPE_CHECKING: + from pandas import Index + + +def check_value_size(value, mask: npt.NDArray[np.bool_], length: int): + """ + Validate the size of the values passed to ExtensionArray.fillna. + """ + if is_array_like(value): + if len(value) != length: + raise ValueError( + f"Length of 'value' does not match. Got ({len(value)}) " + f" expected {length}" + ) + value = value[mask] + + return value + + +def mask_missing(arr: ArrayLike, values_to_mask) -> npt.NDArray[np.bool_]: + """ + Return a masking array of same size/shape as arr + with entries equaling any member of values_to_mask set to True + + Parameters + ---------- + arr : ArrayLike + values_to_mask: list, tuple, or scalar + + Returns + ------- + np.ndarray[bool] + """ + # When called from Block.replace/replace_list, values_to_mask is a scalar + # known to be holdable by arr. + # When called from Series._single_replace, values_to_mask is tuple or list + dtype, values_to_mask = infer_dtype_from(values_to_mask) + + if isinstance(dtype, np.dtype): + values_to_mask = np.array(values_to_mask, dtype=dtype) + else: + cls = dtype.construct_array_type() + if not lib.is_list_like(values_to_mask): + values_to_mask = [values_to_mask] + values_to_mask = cls._from_sequence(values_to_mask, dtype=dtype, copy=False) + + potential_na = False + if is_object_dtype(arr.dtype): + # pre-compute mask to avoid comparison to NA + potential_na = True + arr_mask = ~isna(arr) + + na_mask = isna(values_to_mask) + nonna = values_to_mask[~na_mask] + + # GH 21977 + mask = np.zeros(arr.shape, dtype=bool) + if ( + is_numeric_dtype(arr.dtype) + and not is_bool_dtype(arr.dtype) + and is_bool_dtype(nonna.dtype) + ): + pass + elif ( + is_bool_dtype(arr.dtype) + and is_numeric_dtype(nonna.dtype) + and not is_bool_dtype(nonna.dtype) + ): + pass + else: + for x in nonna: + if is_numeric_v_string_like(arr, x): + # GH#29553 prevent numpy deprecation warnings + pass + else: + if potential_na: + new_mask = np.zeros(arr.shape, dtype=np.bool_) + new_mask[arr_mask] = arr[arr_mask] == x + else: + new_mask = arr == x + + if not isinstance(new_mask, np.ndarray): + # usually BooleanArray + new_mask = new_mask.to_numpy(dtype=bool, na_value=False) + mask |= new_mask + + if na_mask.any(): + mask |= isna(arr) + + return mask + + +@overload +def clean_fill_method( + method: Literal["ffill", "pad", "bfill", "backfill"], + *, + allow_nearest: Literal[False] = ..., +) -> Literal["pad", "backfill"]: + ... + + +@overload +def clean_fill_method( + method: Literal["ffill", "pad", "bfill", "backfill", "nearest"], + *, + allow_nearest: Literal[True], +) -> Literal["pad", "backfill", "nearest"]: + ... + + +def clean_fill_method( + method: Literal["ffill", "pad", "bfill", "backfill", "nearest"], + *, + allow_nearest: bool = False, +) -> Literal["pad", "backfill", "nearest"]: + if isinstance(method, str): + # error: Incompatible types in assignment (expression has type "str", variable + # has type "Literal['ffill', 'pad', 'bfill', 'backfill', 'nearest']") + method = method.lower() # type: ignore[assignment] + if method == "ffill": + method = "pad" + elif method == "bfill": + method = "backfill" + + valid_methods = ["pad", "backfill"] + expecting = "pad (ffill) or backfill (bfill)" + if allow_nearest: + valid_methods.append("nearest") + expecting = "pad (ffill), backfill (bfill) or nearest" + if method not in valid_methods: + raise ValueError(f"Invalid fill method. Expecting {expecting}. Got {method}") + return method + + +# interpolation methods that dispatch to np.interp + +NP_METHODS = ["linear", "time", "index", "values"] + +# interpolation methods that dispatch to _interpolate_scipy_wrapper + +SP_METHODS = [ + "nearest", + "zero", + "slinear", + "quadratic", + "cubic", + "barycentric", + "krogh", + "spline", + "polynomial", + "from_derivatives", + "piecewise_polynomial", + "pchip", + "akima", + "cubicspline", +] + + +def clean_interp_method(method: str, index: Index, **kwargs) -> str: + order = kwargs.get("order") + + if method in ("spline", "polynomial") and order is None: + raise ValueError("You must specify the order of the spline or polynomial.") + + valid = NP_METHODS + SP_METHODS + if method not in valid: + raise ValueError(f"method must be one of {valid}. Got '{method}' instead.") + + if method in ("krogh", "piecewise_polynomial", "pchip"): + if not index.is_monotonic_increasing: + raise ValueError( + f"{method} interpolation requires that the index be monotonic." + ) + + return method + + +def find_valid_index(how: str, is_valid: npt.NDArray[np.bool_]) -> int | None: + """ + Retrieves the positional index of the first valid value. + + Parameters + ---------- + how : {'first', 'last'} + Use this parameter to change between the first or last valid index. + is_valid: np.ndarray + Mask to find na_values. + + Returns + ------- + int or None + """ + assert how in ["first", "last"] + + if len(is_valid) == 0: # early stop + return None + + if is_valid.ndim == 2: + is_valid = is_valid.any(axis=1) # reduce axis 1 + + if how == "first": + idxpos = is_valid[::].argmax() + + elif how == "last": + idxpos = len(is_valid) - 1 - is_valid[::-1].argmax() + + chk_notna = is_valid[idxpos] + + if not chk_notna: + return None + # Incompatible return value type (got "signedinteger[Any]", + # expected "Optional[int]") + return idxpos # type: ignore[return-value] + + +def validate_limit_direction( + limit_direction: str, +) -> Literal["forward", "backward", "both"]: + valid_limit_directions = ["forward", "backward", "both"] + limit_direction = limit_direction.lower() + if limit_direction not in valid_limit_directions: + raise ValueError( + "Invalid limit_direction: expecting one of " + f"{valid_limit_directions}, got '{limit_direction}'." + ) + # error: Incompatible return value type (got "str", expected + # "Literal['forward', 'backward', 'both']") + return limit_direction # type: ignore[return-value] + + +def validate_limit_area(limit_area: str | None) -> Literal["inside", "outside"] | None: + if limit_area is not None: + valid_limit_areas = ["inside", "outside"] + limit_area = limit_area.lower() + if limit_area not in valid_limit_areas: + raise ValueError( + f"Invalid limit_area: expecting one of {valid_limit_areas}, got " + f"{limit_area}." + ) + # error: Incompatible return value type (got "Optional[str]", expected + # "Optional[Literal['inside', 'outside']]") + return limit_area # type: ignore[return-value] + + +def infer_limit_direction( + limit_direction: Literal["backward", "forward", "both"] | None, method: str +) -> Literal["backward", "forward", "both"]: + # Set `limit_direction` depending on `method` + if limit_direction is None: + if method in ("backfill", "bfill"): + limit_direction = "backward" + else: + limit_direction = "forward" + else: + if method in ("pad", "ffill") and limit_direction != "forward": + raise ValueError( + f"`limit_direction` must be 'forward' for method `{method}`" + ) + if method in ("backfill", "bfill") and limit_direction != "backward": + raise ValueError( + f"`limit_direction` must be 'backward' for method `{method}`" + ) + return limit_direction + + +def get_interp_index(method, index: Index) -> Index: + # create/use the index + if method == "linear": + # prior default + from pandas import Index + + index = Index(np.arange(len(index))) + else: + methods = {"index", "values", "nearest", "time"} + is_numeric_or_datetime = ( + is_numeric_dtype(index.dtype) + or isinstance(index.dtype, DatetimeTZDtype) + or lib.is_np_dtype(index.dtype, "mM") + ) + if method not in methods and not is_numeric_or_datetime: + raise ValueError( + "Index column must be numeric or datetime type when " + f"using {method} method other than linear. " + "Try setting a numeric or datetime index column before " + "interpolating." + ) + + if isna(index).any(): + raise NotImplementedError( + "Interpolation with NaNs in the index " + "has not been implemented. Try filling " + "those NaNs before interpolating." + ) + return index + + +def interpolate_2d_inplace( + data: np.ndarray, # floating dtype + index: Index, + axis: AxisInt, + method: str = "linear", + limit: int | None = None, + limit_direction: str = "forward", + limit_area: str | None = None, + fill_value: Any | None = None, + mask=None, + **kwargs, +) -> None: + """ + Column-wise application of _interpolate_1d. + + Notes + ----- + Alters 'data' in-place. + + The signature does differ from _interpolate_1d because it only + includes what is needed for Block.interpolate. + """ + # validate the interp method + clean_interp_method(method, index, **kwargs) + + if is_valid_na_for_dtype(fill_value, data.dtype): + fill_value = na_value_for_dtype(data.dtype, compat=False) + + if method == "time": + if not needs_i8_conversion(index.dtype): + raise ValueError( + "time-weighted interpolation only works " + "on Series or DataFrames with a " + "DatetimeIndex" + ) + method = "values" + + limit_direction = validate_limit_direction(limit_direction) + limit_area_validated = validate_limit_area(limit_area) + + # default limit is unlimited GH #16282 + limit = algos.validate_limit(nobs=None, limit=limit) + + indices = _index_to_interp_indices(index, method) + + def func(yvalues: np.ndarray) -> None: + # process 1-d slices in the axis direction + + _interpolate_1d( + indices=indices, + yvalues=yvalues, + method=method, + limit=limit, + limit_direction=limit_direction, + limit_area=limit_area_validated, + fill_value=fill_value, + bounds_error=False, + mask=mask, + **kwargs, + ) + + # error: Argument 1 to "apply_along_axis" has incompatible type + # "Callable[[ndarray[Any, Any]], None]"; expected "Callable[..., + # Union[_SupportsArray[dtype[]], Sequence[_SupportsArray + # [dtype[]]], Sequence[Sequence[_SupportsArray[dtype[]]]], + # Sequence[Sequence[Sequence[_SupportsArray[dtype[]]]]], + # Sequence[Sequence[Sequence[Sequence[_SupportsArray[dtype[]]]]]]]]" + np.apply_along_axis(func, axis, data) # type: ignore[arg-type] + + +def _index_to_interp_indices(index: Index, method: str) -> np.ndarray: + """ + Convert Index to ndarray of indices to pass to NumPy/SciPy. + """ + xarr = index._values + if needs_i8_conversion(xarr.dtype): + # GH#1646 for dt64tz + xarr = xarr.view("i8") + + if method == "linear": + inds = xarr + inds = cast(np.ndarray, inds) + else: + inds = np.asarray(xarr) + + if method in ("values", "index"): + if inds.dtype == np.object_: + inds = lib.maybe_convert_objects(inds) + + return inds + + +def _interpolate_1d( + indices: np.ndarray, + yvalues: np.ndarray, + method: str = "linear", + limit: int | None = None, + limit_direction: str = "forward", + limit_area: Literal["inside", "outside"] | None = None, + fill_value: Any | None = None, + bounds_error: bool = False, + order: int | None = None, + mask=None, + **kwargs, +) -> None: + """ + Logic for the 1-d interpolation. The input + indices and yvalues will each be 1-d arrays of the same length. + + Bounds_error is currently hardcoded to False since non-scipy ones don't + take it as an argument. + + Notes + ----- + Fills 'yvalues' in-place. + """ + if mask is not None: + invalid = mask + else: + invalid = isna(yvalues) + valid = ~invalid + + if not valid.any(): + return + + if valid.all(): + return + + # These are sets of index pointers to invalid values... i.e. {0, 1, etc... + all_nans = set(np.flatnonzero(invalid)) + + first_valid_index = find_valid_index(how="first", is_valid=valid) + if first_valid_index is None: # no nan found in start + first_valid_index = 0 + start_nans = set(range(first_valid_index)) + + last_valid_index = find_valid_index(how="last", is_valid=valid) + if last_valid_index is None: # no nan found in end + last_valid_index = len(yvalues) + end_nans = set(range(1 + last_valid_index, len(valid))) + + # Like the sets above, preserve_nans contains indices of invalid values, + # but in this case, it is the final set of indices that need to be + # preserved as NaN after the interpolation. + + # For example if limit_direction='forward' then preserve_nans will + # contain indices of NaNs at the beginning of the series, and NaNs that + # are more than 'limit' away from the prior non-NaN. + + # set preserve_nans based on direction using _interp_limit + preserve_nans: list | set + if limit_direction == "forward": + preserve_nans = start_nans | set(_interp_limit(invalid, limit, 0)) + elif limit_direction == "backward": + preserve_nans = end_nans | set(_interp_limit(invalid, 0, limit)) + else: + # both directions... just use _interp_limit + preserve_nans = set(_interp_limit(invalid, limit, limit)) + + # if limit_area is set, add either mid or outside indices + # to preserve_nans GH #16284 + if limit_area == "inside": + # preserve NaNs on the outside + preserve_nans |= start_nans | end_nans + elif limit_area == "outside": + # preserve NaNs on the inside + mid_nans = all_nans - start_nans - end_nans + preserve_nans |= mid_nans + + # sort preserve_nans and convert to list + preserve_nans = sorted(preserve_nans) + + is_datetimelike = yvalues.dtype.kind in "mM" + + if is_datetimelike: + yvalues = yvalues.view("i8") + + if method in NP_METHODS: + # np.interp requires sorted X values, #21037 + + indexer = np.argsort(indices[valid]) + yvalues[invalid] = np.interp( + indices[invalid], indices[valid][indexer], yvalues[valid][indexer] + ) + else: + yvalues[invalid] = _interpolate_scipy_wrapper( + indices[valid], + yvalues[valid], + indices[invalid], + method=method, + fill_value=fill_value, + bounds_error=bounds_error, + order=order, + **kwargs, + ) + + if mask is not None: + mask[:] = False + mask[preserve_nans] = True + elif is_datetimelike: + yvalues[preserve_nans] = NaT.value + else: + yvalues[preserve_nans] = np.nan + return + + +def _interpolate_scipy_wrapper( + x: np.ndarray, + y: np.ndarray, + new_x: np.ndarray, + method: str, + fill_value=None, + bounds_error: bool = False, + order=None, + **kwargs, +): + """ + Passed off to scipy.interpolate.interp1d. method is scipy's kind. + Returns an array interpolated at new_x. Add any new methods to + the list in _clean_interp_method. + """ + extra = f"{method} interpolation requires SciPy." + import_optional_dependency("scipy", extra=extra) + from scipy import interpolate + + new_x = np.asarray(new_x) + + # ignores some kwargs that could be passed along. + alt_methods = { + "barycentric": interpolate.barycentric_interpolate, + "krogh": interpolate.krogh_interpolate, + "from_derivatives": _from_derivatives, + "piecewise_polynomial": _from_derivatives, + "cubicspline": _cubicspline_interpolate, + "akima": _akima_interpolate, + "pchip": interpolate.pchip_interpolate, + } + + interp1d_methods = [ + "nearest", + "zero", + "slinear", + "quadratic", + "cubic", + "polynomial", + ] + if method in interp1d_methods: + if method == "polynomial": + kind = order + else: + kind = method + terp = interpolate.interp1d( + x, y, kind=kind, fill_value=fill_value, bounds_error=bounds_error + ) + new_y = terp(new_x) + elif method == "spline": + # GH #10633, #24014 + if isna(order) or (order <= 0): + raise ValueError( + f"order needs to be specified and greater than 0; got order: {order}" + ) + terp = interpolate.UnivariateSpline(x, y, k=order, **kwargs) + new_y = terp(new_x) + else: + # GH 7295: need to be able to write for some reason + # in some circumstances: check all three + if not x.flags.writeable: + x = x.copy() + if not y.flags.writeable: + y = y.copy() + if not new_x.flags.writeable: + new_x = new_x.copy() + terp = alt_methods[method] + new_y = terp(x, y, new_x, **kwargs) + return new_y + + +def _from_derivatives( + xi: np.ndarray, + yi: np.ndarray, + x: np.ndarray, + order=None, + der: int | list[int] | None = 0, + extrapolate: bool = False, +): + """ + Convenience function for interpolate.BPoly.from_derivatives. + + Construct a piecewise polynomial in the Bernstein basis, compatible + with the specified values and derivatives at breakpoints. + + Parameters + ---------- + xi : array-like + sorted 1D array of x-coordinates + yi : array-like or list of array-likes + yi[i][j] is the j-th derivative known at xi[i] + order: None or int or array-like of ints. Default: None. + Specifies the degree of local polynomials. If not None, some + derivatives are ignored. + der : int or list + How many derivatives to extract; None for all potentially nonzero + derivatives (that is a number equal to the number of points), or a + list of derivatives to extract. This number includes the function + value as 0th derivative. + extrapolate : bool, optional + Whether to extrapolate to ouf-of-bounds points based on first and last + intervals, or to return NaNs. Default: True. + + See Also + -------- + scipy.interpolate.BPoly.from_derivatives + + Returns + ------- + y : scalar or array-like + The result, of length R or length M or M by R. + """ + from scipy import interpolate + + # return the method for compat with scipy version & backwards compat + method = interpolate.BPoly.from_derivatives + m = method(xi, yi.reshape(-1, 1), orders=order, extrapolate=extrapolate) + + return m(x) + + +def _akima_interpolate( + xi: np.ndarray, + yi: np.ndarray, + x: np.ndarray, + der: int | list[int] | None = 0, + axis: AxisInt = 0, +): + """ + Convenience function for akima interpolation. + xi and yi are arrays of values used to approximate some function f, + with ``yi = f(xi)``. + + See `Akima1DInterpolator` for details. + + Parameters + ---------- + xi : np.ndarray + A sorted list of x-coordinates, of length N. + yi : np.ndarray + A 1-D array of real values. `yi`'s length along the interpolation + axis must be equal to the length of `xi`. If N-D array, use axis + parameter to select correct axis. + x : np.ndarray + Of length M. + der : int, optional + How many derivatives to extract; None for all potentially + nonzero derivatives (that is a number equal to the number + of points), or a list of derivatives to extract. This number + includes the function value as 0th derivative. + axis : int, optional + Axis in the yi array corresponding to the x-coordinate values. + + See Also + -------- + scipy.interpolate.Akima1DInterpolator + + Returns + ------- + y : scalar or array-like + The result, of length R or length M or M by R, + + """ + from scipy import interpolate + + P = interpolate.Akima1DInterpolator(xi, yi, axis=axis) + + return P(x, nu=der) + + +def _cubicspline_interpolate( + xi: np.ndarray, + yi: np.ndarray, + x: np.ndarray, + axis: AxisInt = 0, + bc_type: str | tuple[Any, Any] = "not-a-knot", + extrapolate=None, +): + """ + Convenience function for cubic spline data interpolator. + + See `scipy.interpolate.CubicSpline` for details. + + Parameters + ---------- + xi : np.ndarray, shape (n,) + 1-d array containing values of the independent variable. + Values must be real, finite and in strictly increasing order. + yi : np.ndarray + Array containing values of the dependent variable. It can have + arbitrary number of dimensions, but the length along ``axis`` + (see below) must match the length of ``x``. Values must be finite. + x : np.ndarray, shape (m,) + axis : int, optional + Axis along which `y` is assumed to be varying. Meaning that for + ``x[i]`` the corresponding values are ``np.take(y, i, axis=axis)``. + Default is 0. + bc_type : string or 2-tuple, optional + Boundary condition type. Two additional equations, given by the + boundary conditions, are required to determine all coefficients of + polynomials on each segment [2]_. + If `bc_type` is a string, then the specified condition will be applied + at both ends of a spline. Available conditions are: + * 'not-a-knot' (default): The first and second segment at a curve end + are the same polynomial. It is a good default when there is no + information on boundary conditions. + * 'periodic': The interpolated functions is assumed to be periodic + of period ``x[-1] - x[0]``. The first and last value of `y` must be + identical: ``y[0] == y[-1]``. This boundary condition will result in + ``y'[0] == y'[-1]`` and ``y''[0] == y''[-1]``. + * 'clamped': The first derivative at curves ends are zero. Assuming + a 1D `y`, ``bc_type=((1, 0.0), (1, 0.0))`` is the same condition. + * 'natural': The second derivative at curve ends are zero. Assuming + a 1D `y`, ``bc_type=((2, 0.0), (2, 0.0))`` is the same condition. + If `bc_type` is a 2-tuple, the first and the second value will be + applied at the curve start and end respectively. The tuple values can + be one of the previously mentioned strings (except 'periodic') or a + tuple `(order, deriv_values)` allowing to specify arbitrary + derivatives at curve ends: + * `order`: the derivative order, 1 or 2. + * `deriv_value`: array-like containing derivative values, shape must + be the same as `y`, excluding ``axis`` dimension. For example, if + `y` is 1D, then `deriv_value` must be a scalar. If `y` is 3D with + the shape (n0, n1, n2) and axis=2, then `deriv_value` must be 2D + and have the shape (n0, n1). + extrapolate : {bool, 'periodic', None}, optional + If bool, determines whether to extrapolate to out-of-bounds points + based on first and last intervals, or to return NaNs. If 'periodic', + periodic extrapolation is used. If None (default), ``extrapolate`` is + set to 'periodic' for ``bc_type='periodic'`` and to True otherwise. + + See Also + -------- + scipy.interpolate.CubicHermiteSpline + + Returns + ------- + y : scalar or array-like + The result, of shape (m,) + + References + ---------- + .. [1] `Cubic Spline Interpolation + `_ + on Wikiversity. + .. [2] Carl de Boor, "A Practical Guide to Splines", Springer-Verlag, 1978. + """ + from scipy import interpolate + + P = interpolate.CubicSpline( + xi, yi, axis=axis, bc_type=bc_type, extrapolate=extrapolate + ) + + return P(x) + + +def _interpolate_with_limit_area( + values: np.ndarray, + method: Literal["pad", "backfill"], + limit: int | None, + limit_area: Literal["inside", "outside"], +) -> None: + """ + Apply interpolation and limit_area logic to values along a to-be-specified axis. + + Parameters + ---------- + values: np.ndarray + Input array. + method: str + Interpolation method. Could be "bfill" or "pad" + limit: int, optional + Index limit on interpolation. + limit_area: {'inside', 'outside'} + Limit area for interpolation. + + Notes + ----- + Modifies values in-place. + """ + + invalid = isna(values) + is_valid = ~invalid + + if not invalid.all(): + first = find_valid_index(how="first", is_valid=is_valid) + if first is None: + first = 0 + last = find_valid_index(how="last", is_valid=is_valid) + if last is None: + last = len(values) + + pad_or_backfill_inplace( + values, + method=method, + limit=limit, + limit_area=limit_area, + ) + + if limit_area == "inside": + invalid[first : last + 1] = False + elif limit_area == "outside": + invalid[:first] = invalid[last + 1 :] = False + else: + raise ValueError("limit_area should be 'inside' or 'outside'") + + values[invalid] = np.nan + + +def pad_or_backfill_inplace( + values: np.ndarray, + method: Literal["pad", "backfill"] = "pad", + axis: AxisInt = 0, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, +) -> None: + """ + Perform an actual interpolation of values, values will be make 2-d if + needed fills inplace, returns the result. + + Parameters + ---------- + values: np.ndarray + Input array. + method: str, default "pad" + Interpolation method. Could be "bfill" or "pad" + axis: 0 or 1 + Interpolation axis + limit: int, optional + Index limit on interpolation. + limit_area: str, optional + Limit area for interpolation. Can be "inside" or "outside" + + Notes + ----- + Modifies values in-place. + """ + transf = (lambda x: x) if axis == 0 else (lambda x: x.T) + + # reshape a 1 dim if needed + if values.ndim == 1: + if axis != 0: # pragma: no cover + raise AssertionError("cannot interpolate on a ndim == 1 with axis != 0") + values = values.reshape(tuple((1,) + values.shape)) + + method = clean_fill_method(method) + tvalues = transf(values) + + func = get_fill_func(method, ndim=2) + # _pad_2d and _backfill_2d both modify tvalues inplace + func(tvalues, limit=limit, limit_area=limit_area) + + +def _fillna_prep( + values, mask: npt.NDArray[np.bool_] | None = None +) -> npt.NDArray[np.bool_]: + # boilerplate for _pad_1d, _backfill_1d, _pad_2d, _backfill_2d + + if mask is None: + mask = isna(values) + + return mask + + +def _datetimelike_compat(func: F) -> F: + """ + Wrapper to handle datetime64 and timedelta64 dtypes. + """ + + @wraps(func) + def new_func( + values, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + mask=None, + ): + if needs_i8_conversion(values.dtype): + if mask is None: + # This needs to occur before casting to int64 + mask = isna(values) + + result, mask = func( + values.view("i8"), limit=limit, limit_area=limit_area, mask=mask + ) + return result.view(values.dtype), mask + + return func(values, limit=limit, limit_area=limit_area, mask=mask) + + return cast(F, new_func) + + +@_datetimelike_compat +def _pad_1d( + values: np.ndarray, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + mask: npt.NDArray[np.bool_] | None = None, +) -> tuple[np.ndarray, npt.NDArray[np.bool_]]: + mask = _fillna_prep(values, mask) + if limit_area is not None and not mask.all(): + _fill_limit_area_1d(mask, limit_area) + algos.pad_inplace(values, mask, limit=limit) + return values, mask + + +@_datetimelike_compat +def _backfill_1d( + values: np.ndarray, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + mask: npt.NDArray[np.bool_] | None = None, +) -> tuple[np.ndarray, npt.NDArray[np.bool_]]: + mask = _fillna_prep(values, mask) + if limit_area is not None and not mask.all(): + _fill_limit_area_1d(mask, limit_area) + algos.backfill_inplace(values, mask, limit=limit) + return values, mask + + +@_datetimelike_compat +def _pad_2d( + values: np.ndarray, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + mask: npt.NDArray[np.bool_] | None = None, +): + mask = _fillna_prep(values, mask) + if limit_area is not None: + _fill_limit_area_2d(mask, limit_area) + + if values.size: + algos.pad_2d_inplace(values, mask, limit=limit) + else: + # for test coverage + pass + return values, mask + + +@_datetimelike_compat +def _backfill_2d( + values, + limit: int | None = None, + limit_area: Literal["inside", "outside"] | None = None, + mask: npt.NDArray[np.bool_] | None = None, +): + mask = _fillna_prep(values, mask) + if limit_area is not None: + _fill_limit_area_2d(mask, limit_area) + + if values.size: + algos.backfill_2d_inplace(values, mask, limit=limit) + else: + # for test coverage + pass + return values, mask + + +def _fill_limit_area_1d( + mask: npt.NDArray[np.bool_], limit_area: Literal["outside", "inside"] +) -> None: + """Prepare 1d mask for ffill/bfill with limit_area. + + Caller is responsible for checking at least one value of mask is False. + When called, mask will no longer faithfully represent when + the corresponding are NA or not. + + Parameters + ---------- + mask : np.ndarray[bool, ndim=1] + Mask representing NA values when filling. + limit_area : { "outside", "inside" } + Whether to limit filling to outside or inside the outer most non-NA value. + """ + neg_mask = ~mask + first = neg_mask.argmax() + last = len(neg_mask) - neg_mask[::-1].argmax() - 1 + if limit_area == "inside": + mask[:first] = False + mask[last + 1 :] = False + elif limit_area == "outside": + mask[first + 1 : last] = False + + +def _fill_limit_area_2d( + mask: npt.NDArray[np.bool_], limit_area: Literal["outside", "inside"] +) -> None: + """Prepare 2d mask for ffill/bfill with limit_area. + + When called, mask will no longer faithfully represent when + the corresponding are NA or not. + + Parameters + ---------- + mask : np.ndarray[bool, ndim=1] + Mask representing NA values when filling. + limit_area : { "outside", "inside" } + Whether to limit filling to outside or inside the outer most non-NA value. + """ + neg_mask = ~mask.T + if limit_area == "outside": + # Identify inside + la_mask = ( + np.maximum.accumulate(neg_mask, axis=0) + & np.maximum.accumulate(neg_mask[::-1], axis=0)[::-1] + ) + else: + # Identify outside + la_mask = ( + ~np.maximum.accumulate(neg_mask, axis=0) + | ~np.maximum.accumulate(neg_mask[::-1], axis=0)[::-1] + ) + mask[la_mask.T] = False + + +_fill_methods = {"pad": _pad_1d, "backfill": _backfill_1d} + + +def get_fill_func(method, ndim: int = 1): + method = clean_fill_method(method) + if ndim == 1: + return _fill_methods[method] + return {"pad": _pad_2d, "backfill": _backfill_2d}[method] + + +def clean_reindex_fill_method(method) -> ReindexMethod | None: + if method is None: + return None + return clean_fill_method(method, allow_nearest=True) + + +def _interp_limit( + invalid: npt.NDArray[np.bool_], fw_limit: int | None, bw_limit: int | None +): + """ + Get indexers of values that won't be filled + because they exceed the limits. + + Parameters + ---------- + invalid : np.ndarray[bool] + fw_limit : int or None + forward limit to index + bw_limit : int or None + backward limit to index + + Returns + ------- + set of indexers + + Notes + ----- + This is equivalent to the more readable, but slower + + .. code-block:: python + + def _interp_limit(invalid, fw_limit, bw_limit): + for x in np.where(invalid)[0]: + if invalid[max(0, x - fw_limit):x + bw_limit + 1].all(): + yield x + """ + # handle forward first; the backward direction is the same except + # 1. operate on the reversed array + # 2. subtract the returned indices from N - 1 + N = len(invalid) + f_idx = set() + b_idx = set() + + def inner(invalid, limit: int): + limit = min(limit, N) + windowed = _rolling_window(invalid, limit + 1).all(1) + idx = set(np.where(windowed)[0] + limit) | set( + np.where((~invalid[: limit + 1]).cumsum() == 0)[0] + ) + return idx + + if fw_limit is not None: + if fw_limit == 0: + f_idx = set(np.where(invalid)[0]) + else: + f_idx = inner(invalid, fw_limit) + + if bw_limit is not None: + if bw_limit == 0: + # then we don't even need to care about backwards + # just use forwards + return f_idx + else: + b_idx_inv = list(inner(invalid[::-1], bw_limit)) + b_idx = set(N - 1 - np.asarray(b_idx_inv)) + if fw_limit == 0: + return b_idx + + return f_idx & b_idx + + +def _rolling_window(a: npt.NDArray[np.bool_], window: int) -> npt.NDArray[np.bool_]: + """ + [True, True, False, True, False], 2 -> + + [ + [True, True], + [True, False], + [False, True], + [True, False], + ] + """ + # https://stackoverflow.com/a/6811241 + shape = a.shape[:-1] + (a.shape[-1] - window + 1, window) + strides = a.strides + (a.strides[-1],) + return np.lib.stride_tricks.as_strided(a, shape=shape, strides=strides) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/nanops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/nanops.py new file mode 100644 index 0000000000000000000000000000000000000000..6cb825e9b79a25742d6f9f622b7226dbd68d88fe --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/nanops.py @@ -0,0 +1,1748 @@ +from __future__ import annotations + +import functools +import itertools +from typing import ( + Any, + Callable, + cast, +) +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas._libs import ( + NaT, + NaTType, + iNaT, + lib, +) +from pandas._typing import ( + ArrayLike, + AxisInt, + CorrelationMethod, + Dtype, + DtypeObj, + F, + Scalar, + Shape, + npt, +) +from pandas.compat._optional import import_optional_dependency +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_complex, + is_float, + is_float_dtype, + is_integer, + is_numeric_dtype, + is_object_dtype, + needs_i8_conversion, + pandas_dtype, +) +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, + notna, +) + +bn = import_optional_dependency("bottleneck", errors="warn") +_BOTTLENECK_INSTALLED = bn is not None +_USE_BOTTLENECK = False + + +def set_use_bottleneck(v: bool = True) -> None: + # set/unset to use bottleneck + global _USE_BOTTLENECK + if _BOTTLENECK_INSTALLED: + _USE_BOTTLENECK = v + + +set_use_bottleneck(get_option("compute.use_bottleneck")) + + +class disallow: + def __init__(self, *dtypes: Dtype) -> None: + super().__init__() + self.dtypes = tuple(pandas_dtype(dtype).type for dtype in dtypes) + + def check(self, obj) -> bool: + return hasattr(obj, "dtype") and issubclass(obj.dtype.type, self.dtypes) + + def __call__(self, f: F) -> F: + @functools.wraps(f) + def _f(*args, **kwargs): + obj_iter = itertools.chain(args, kwargs.values()) + if any(self.check(obj) for obj in obj_iter): + f_name = f.__name__.replace("nan", "") + raise TypeError( + f"reduction operation '{f_name}' not allowed for this dtype" + ) + try: + return f(*args, **kwargs) + except ValueError as e: + # we want to transform an object array + # ValueError message to the more typical TypeError + # e.g. this is normally a disallowed function on + # object arrays that contain strings + if is_object_dtype(args[0]): + raise TypeError(e) from e + raise + + return cast(F, _f) + + +class bottleneck_switch: + def __init__(self, name=None, **kwargs) -> None: + self.name = name + self.kwargs = kwargs + + def __call__(self, alt: F) -> F: + bn_name = self.name or alt.__name__ + + try: + bn_func = getattr(bn, bn_name) + except (AttributeError, NameError): # pragma: no cover + bn_func = None + + @functools.wraps(alt) + def f( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + **kwds, + ): + if len(self.kwargs) > 0: + for k, v in self.kwargs.items(): + if k not in kwds: + kwds[k] = v + + if values.size == 0 and kwds.get("min_count") is None: + # We are empty, returning NA for our type + # Only applies for the default `min_count` of None + # since that affects how empty arrays are handled. + # TODO(GH-18976) update all the nanops methods to + # correctly handle empty inputs and remove this check. + # It *may* just be `var` + return _na_for_min_count(values, axis) + + if _USE_BOTTLENECK and skipna and _bn_ok_dtype(values.dtype, bn_name): + if kwds.get("mask", None) is None: + # `mask` is not recognised by bottleneck, would raise + # TypeError if called + kwds.pop("mask", None) + result = bn_func(values, axis=axis, **kwds) + + # prefer to treat inf/-inf as NA, but must compute the func + # twice :( + if _has_infs(result): + result = alt(values, axis=axis, skipna=skipna, **kwds) + else: + result = alt(values, axis=axis, skipna=skipna, **kwds) + else: + result = alt(values, axis=axis, skipna=skipna, **kwds) + + return result + + return cast(F, f) + + +def _bn_ok_dtype(dtype: DtypeObj, name: str) -> bool: + # Bottleneck chokes on datetime64, PeriodDtype (or and EA) + if dtype != object and not needs_i8_conversion(dtype): + # GH 42878 + # Bottleneck uses naive summation leading to O(n) loss of precision + # unlike numpy which implements pairwise summation, which has O(log(n)) loss + # crossref: https://github.com/pydata/bottleneck/issues/379 + + # GH 15507 + # bottleneck does not properly upcast during the sum + # so can overflow + + # GH 9422 + # further we also want to preserve NaN when all elements + # are NaN, unlike bottleneck/numpy which consider this + # to be 0 + return name not in ["nansum", "nanprod", "nanmean"] + return False + + +def _has_infs(result) -> bool: + if isinstance(result, np.ndarray): + if result.dtype in ("f8", "f4"): + # Note: outside of an nanops-specific test, we always have + # result.ndim == 1, so there is no risk of this ravel making a copy. + return lib.has_infs(result.ravel("K")) + try: + return np.isinf(result).any() + except (TypeError, NotImplementedError): + # if it doesn't support infs, then it can't have infs + return False + + +def _get_fill_value( + dtype: DtypeObj, fill_value: Scalar | None = None, fill_value_typ=None +): + """return the correct fill value for the dtype of the values""" + if fill_value is not None: + return fill_value + if _na_ok_dtype(dtype): + if fill_value_typ is None: + return np.nan + else: + if fill_value_typ == "+inf": + return np.inf + else: + return -np.inf + else: + if fill_value_typ == "+inf": + # need the max int here + return lib.i8max + else: + return iNaT + + +def _maybe_get_mask( + values: np.ndarray, skipna: bool, mask: npt.NDArray[np.bool_] | None +) -> npt.NDArray[np.bool_] | None: + """ + Compute a mask if and only if necessary. + + This function will compute a mask iff it is necessary. Otherwise, + return the provided mask (potentially None) when a mask does not need to be + computed. + + A mask is never necessary if the values array is of boolean or integer + dtypes, as these are incapable of storing NaNs. If passing a NaN-capable + dtype that is interpretable as either boolean or integer data (eg, + timedelta64), a mask must be provided. + + If the skipna parameter is False, a new mask will not be computed. + + The mask is computed using isna() by default. Setting invert=True selects + notna() as the masking function. + + Parameters + ---------- + values : ndarray + input array to potentially compute mask for + skipna : bool + boolean for whether NaNs should be skipped + mask : Optional[ndarray] + nan-mask if known + + Returns + ------- + Optional[np.ndarray[bool]] + """ + if mask is None: + if values.dtype.kind in "biu": + # Boolean data cannot contain nulls, so signal via mask being None + return None + + if skipna or values.dtype.kind in "mM": + mask = isna(values) + + return mask + + +def _get_values( + values: np.ndarray, + skipna: bool, + fill_value: Any = None, + fill_value_typ: str | None = None, + mask: npt.NDArray[np.bool_] | None = None, +) -> tuple[np.ndarray, npt.NDArray[np.bool_] | None]: + """ + Utility to get the values view, mask, dtype, dtype_max, and fill_value. + + If both mask and fill_value/fill_value_typ are not None and skipna is True, + the values array will be copied. + + For input arrays of boolean or integer dtypes, copies will only occur if a + precomputed mask, a fill_value/fill_value_typ, and skipna=True are + provided. + + Parameters + ---------- + values : ndarray + input array to potentially compute mask for + skipna : bool + boolean for whether NaNs should be skipped + fill_value : Any + value to fill NaNs with + fill_value_typ : str + Set to '+inf' or '-inf' to handle dtype-specific infinities + mask : Optional[np.ndarray[bool]] + nan-mask if known + + Returns + ------- + values : ndarray + Potential copy of input value array + mask : Optional[ndarray[bool]] + Mask for values, if deemed necessary to compute + """ + # In _get_values is only called from within nanops, and in all cases + # with scalar fill_value. This guarantee is important for the + # np.where call below + + mask = _maybe_get_mask(values, skipna, mask) + + dtype = values.dtype + + datetimelike = False + if values.dtype.kind in "mM": + # changing timedelta64/datetime64 to int64 needs to happen after + # finding `mask` above + values = np.asarray(values.view("i8")) + datetimelike = True + + if skipna and (mask is not None): + # get our fill value (in case we need to provide an alternative + # dtype for it) + fill_value = _get_fill_value( + dtype, fill_value=fill_value, fill_value_typ=fill_value_typ + ) + + if fill_value is not None: + if mask.any(): + if datetimelike or _na_ok_dtype(dtype): + values = values.copy() + np.putmask(values, mask, fill_value) + else: + # np.where will promote if needed + values = np.where(~mask, values, fill_value) + + return values, mask + + +def _get_dtype_max(dtype: np.dtype) -> np.dtype: + # return a platform independent precision dtype + dtype_max = dtype + if dtype.kind in "bi": + dtype_max = np.dtype(np.int64) + elif dtype.kind == "u": + dtype_max = np.dtype(np.uint64) + elif dtype.kind == "f": + dtype_max = np.dtype(np.float64) + return dtype_max + + +def _na_ok_dtype(dtype: DtypeObj) -> bool: + if needs_i8_conversion(dtype): + return False + return not issubclass(dtype.type, np.integer) + + +def _wrap_results(result, dtype: np.dtype, fill_value=None): + """wrap our results if needed""" + if result is NaT: + pass + + elif dtype.kind == "M": + if fill_value is None: + # GH#24293 + fill_value = iNaT + if not isinstance(result, np.ndarray): + assert not isna(fill_value), "Expected non-null fill_value" + if result == fill_value: + result = np.nan + + if isna(result): + result = np.datetime64("NaT", "ns").astype(dtype) + else: + result = np.int64(result).view(dtype) + # retain original unit + result = result.astype(dtype, copy=False) + else: + # If we have float dtype, taking a view will give the wrong result + result = result.astype(dtype) + elif dtype.kind == "m": + if not isinstance(result, np.ndarray): + if result == fill_value or np.isnan(result): + result = np.timedelta64("NaT").astype(dtype) + + elif np.fabs(result) > lib.i8max: + # raise if we have a timedelta64[ns] which is too large + raise ValueError("overflow in timedelta operation") + else: + # return a timedelta64 with the original unit + result = np.int64(result).astype(dtype, copy=False) + + else: + result = result.astype("m8[ns]").view(dtype) + + return result + + +def _datetimelike_compat(func: F) -> F: + """ + If we have datetime64 or timedelta64 values, ensure we have a correct + mask before calling the wrapped function, then cast back afterwards. + """ + + @functools.wraps(func) + def new_func( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, + **kwargs, + ): + orig_values = values + + datetimelike = values.dtype.kind in "mM" + if datetimelike and mask is None: + mask = isna(values) + + result = func(values, axis=axis, skipna=skipna, mask=mask, **kwargs) + + if datetimelike: + result = _wrap_results(result, orig_values.dtype, fill_value=iNaT) + if not skipna: + assert mask is not None # checked above + result = _mask_datetimelike_result(result, axis, mask, orig_values) + + return result + + return cast(F, new_func) + + +def _na_for_min_count(values: np.ndarray, axis: AxisInt | None) -> Scalar | np.ndarray: + """ + Return the missing value for `values`. + + Parameters + ---------- + values : ndarray + axis : int or None + axis for the reduction, required if values.ndim > 1. + + Returns + ------- + result : scalar or ndarray + For 1-D values, returns a scalar of the correct missing type. + For 2-D values, returns a 1-D array where each element is missing. + """ + # we either return np.nan or pd.NaT + if values.dtype.kind in "iufcb": + values = values.astype("float64") + fill_value = na_value_for_dtype(values.dtype) + + if values.ndim == 1: + return fill_value + elif axis is None: + return fill_value + else: + result_shape = values.shape[:axis] + values.shape[axis + 1 :] + + return np.full(result_shape, fill_value, dtype=values.dtype) + + +def maybe_operate_rowwise(func: F) -> F: + """ + NumPy operations on C-contiguous ndarrays with axis=1 can be + very slow if axis 1 >> axis 0. + Operate row-by-row and concatenate the results. + """ + + @functools.wraps(func) + def newfunc(values: np.ndarray, *, axis: AxisInt | None = None, **kwargs): + if ( + axis == 1 + and values.ndim == 2 + and values.flags["C_CONTIGUOUS"] + # only takes this path for wide arrays (long dataframes), for threshold see + # https://github.com/pandas-dev/pandas/pull/43311#issuecomment-974891737 + and (values.shape[1] / 1000) > values.shape[0] + and values.dtype != object + and values.dtype != bool + ): + arrs = list(values) + if kwargs.get("mask") is not None: + mask = kwargs.pop("mask") + results = [ + func(arrs[i], mask=mask[i], **kwargs) for i in range(len(arrs)) + ] + else: + results = [func(x, **kwargs) for x in arrs] + return np.array(results) + + return func(values, axis=axis, **kwargs) + + return cast(F, newfunc) + + +def nanany( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> bool: + """ + Check if any elements along an axis evaluate to True. + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : bool + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, 2]) + >>> nanops.nanany(s.values) + True + + >>> from pandas.core import nanops + >>> s = pd.Series([np.nan]) + >>> nanops.nanany(s.values) + False + """ + if values.dtype.kind in "iub" and mask is None: + # GH#26032 fastpath + # error: Incompatible return value type (got "Union[bool_, ndarray]", + # expected "bool") + return values.any(axis) # type: ignore[return-value] + + if values.dtype.kind == "M": + # GH#34479 + warnings.warn( + "'any' with datetime64 dtypes is deprecated and will raise in a " + "future version. Use (obj != pd.Timestamp(0)).any() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + values, _ = _get_values(values, skipna, fill_value=False, mask=mask) + + # For object type, any won't necessarily return + # boolean values (numpy/numpy#4352) + if values.dtype == object: + values = values.astype(bool) + + # error: Incompatible return value type (got "Union[bool_, ndarray]", expected + # "bool") + return values.any(axis) # type: ignore[return-value] + + +def nanall( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> bool: + """ + Check if all elements along an axis evaluate to True. + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : bool + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, 2, np.nan]) + >>> nanops.nanall(s.values) + True + + >>> from pandas.core import nanops + >>> s = pd.Series([1, 0]) + >>> nanops.nanall(s.values) + False + """ + if values.dtype.kind in "iub" and mask is None: + # GH#26032 fastpath + # error: Incompatible return value type (got "Union[bool_, ndarray]", + # expected "bool") + return values.all(axis) # type: ignore[return-value] + + if values.dtype.kind == "M": + # GH#34479 + warnings.warn( + "'all' with datetime64 dtypes is deprecated and will raise in a " + "future version. Use (obj != pd.Timestamp(0)).all() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + values, _ = _get_values(values, skipna, fill_value=True, mask=mask) + + # For object type, all won't necessarily return + # boolean values (numpy/numpy#4352) + if values.dtype == object: + values = values.astype(bool) + + # error: Incompatible return value type (got "Union[bool_, ndarray]", expected + # "bool") + return values.all(axis) # type: ignore[return-value] + + +@disallow("M8") +@_datetimelike_compat +@maybe_operate_rowwise +def nansum( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + min_count: int = 0, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Sum the elements along an axis ignoring NaNs + + Parameters + ---------- + values : ndarray[dtype] + axis : int, optional + skipna : bool, default True + min_count: int, default 0 + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : dtype + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, 2, np.nan]) + >>> nanops.nansum(s.values) + 3.0 + """ + dtype = values.dtype + values, mask = _get_values(values, skipna, fill_value=0, mask=mask) + dtype_sum = _get_dtype_max(dtype) + if dtype.kind == "f": + dtype_sum = dtype + elif dtype.kind == "m": + dtype_sum = np.dtype(np.float64) + + the_sum = values.sum(axis, dtype=dtype_sum) + the_sum = _maybe_null_out(the_sum, axis, mask, values.shape, min_count=min_count) + + return the_sum + + +def _mask_datetimelike_result( + result: np.ndarray | np.datetime64 | np.timedelta64, + axis: AxisInt | None, + mask: npt.NDArray[np.bool_], + orig_values: np.ndarray, +) -> np.ndarray | np.datetime64 | np.timedelta64 | NaTType: + if isinstance(result, np.ndarray): + # we need to apply the mask + result = result.astype("i8").view(orig_values.dtype) + axis_mask = mask.any(axis=axis) + # error: Unsupported target for indexed assignment ("Union[ndarray[Any, Any], + # datetime64, timedelta64]") + result[axis_mask] = iNaT # type: ignore[index] + else: + if mask.any(): + return np.int64(iNaT).view(orig_values.dtype) + return result + + +@bottleneck_switch() +@_datetimelike_compat +def nanmean( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Compute the mean of the element along an axis ignoring NaNs + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + float + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, 2, np.nan]) + >>> nanops.nanmean(s.values) + 1.5 + """ + dtype = values.dtype + values, mask = _get_values(values, skipna, fill_value=0, mask=mask) + dtype_sum = _get_dtype_max(dtype) + dtype_count = np.dtype(np.float64) + + # not using needs_i8_conversion because that includes period + if dtype.kind in "mM": + dtype_sum = np.dtype(np.float64) + elif dtype.kind in "iu": + dtype_sum = np.dtype(np.float64) + elif dtype.kind == "f": + dtype_sum = dtype + dtype_count = dtype + + count = _get_counts(values.shape, mask, axis, dtype=dtype_count) + the_sum = values.sum(axis, dtype=dtype_sum) + the_sum = _ensure_numeric(the_sum) + + if axis is not None and getattr(the_sum, "ndim", False): + count = cast(np.ndarray, count) + with np.errstate(all="ignore"): + # suppress division by zero warnings + the_mean = the_sum / count + ct_mask = count == 0 + if ct_mask.any(): + the_mean[ct_mask] = np.nan + else: + the_mean = the_sum / count if count > 0 else np.nan + + return the_mean + + +@bottleneck_switch() +def nanmedian(values, *, axis: AxisInt | None = None, skipna: bool = True, mask=None): + """ + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 2, 2]) + >>> nanops.nanmedian(s.values) + 2.0 + """ + # for floats without mask, the data already uses NaN as missing value + # indicator, and `mask` will be calculated from that below -> in those + # cases we never need to set NaN to the masked values + using_nan_sentinel = values.dtype.kind == "f" and mask is None + + def get_median(x, _mask=None): + if _mask is None: + _mask = notna(x) + else: + _mask = ~_mask + if not skipna and not _mask.all(): + return np.nan + with warnings.catch_warnings(): + # Suppress RuntimeWarning about All-NaN slice + warnings.filterwarnings( + "ignore", "All-NaN slice encountered", RuntimeWarning + ) + res = np.nanmedian(x[_mask]) + return res + + dtype = values.dtype + values, mask = _get_values(values, skipna, mask=mask, fill_value=None) + if values.dtype.kind != "f": + if values.dtype == object: + # GH#34671 avoid casting strings to numeric + inferred = lib.infer_dtype(values) + if inferred in ["string", "mixed"]: + raise TypeError(f"Cannot convert {values} to numeric") + try: + values = values.astype("f8") + except ValueError as err: + # e.g. "could not convert string to float: 'a'" + raise TypeError(str(err)) from err + if not using_nan_sentinel and mask is not None: + if not values.flags.writeable: + values = values.copy() + values[mask] = np.nan + + notempty = values.size + + # an array from a frame + if values.ndim > 1 and axis is not None: + # there's a non-empty array to apply over otherwise numpy raises + if notempty: + if not skipna: + res = np.apply_along_axis(get_median, axis, values) + + else: + # fastpath for the skipna case + with warnings.catch_warnings(): + # Suppress RuntimeWarning about All-NaN slice + warnings.filterwarnings( + "ignore", "All-NaN slice encountered", RuntimeWarning + ) + if (values.shape[1] == 1 and axis == 0) or ( + values.shape[0] == 1 and axis == 1 + ): + # GH52788: fastpath when squeezable, nanmedian for 2D array slow + res = np.nanmedian(np.squeeze(values), keepdims=True) + else: + res = np.nanmedian(values, axis=axis) + + else: + # must return the correct shape, but median is not defined for the + # empty set so return nans of shape "everything but the passed axis" + # since "axis" is where the reduction would occur if we had a nonempty + # array + res = _get_empty_reduction_result(values.shape, axis) + + else: + # otherwise return a scalar value + res = get_median(values, mask) if notempty else np.nan + return _wrap_results(res, dtype) + + +def _get_empty_reduction_result( + shape: Shape, + axis: AxisInt, +) -> np.ndarray: + """ + The result from a reduction on an empty ndarray. + + Parameters + ---------- + shape : Tuple[int, ...] + axis : int + + Returns + ------- + np.ndarray + """ + shp = np.array(shape) + dims = np.arange(len(shape)) + ret = np.empty(shp[dims != axis], dtype=np.float64) + ret.fill(np.nan) + return ret + + +def _get_counts_nanvar( + values_shape: Shape, + mask: npt.NDArray[np.bool_] | None, + axis: AxisInt | None, + ddof: int, + dtype: np.dtype = np.dtype(np.float64), +) -> tuple[float | np.ndarray, float | np.ndarray]: + """ + Get the count of non-null values along an axis, accounting + for degrees of freedom. + + Parameters + ---------- + values_shape : Tuple[int, ...] + shape tuple from values ndarray, used if mask is None + mask : Optional[ndarray[bool]] + locations in values that should be considered missing + axis : Optional[int] + axis to count along + ddof : int + degrees of freedom + dtype : type, optional + type to use for count + + Returns + ------- + count : int, np.nan or np.ndarray + d : int, np.nan or np.ndarray + """ + count = _get_counts(values_shape, mask, axis, dtype=dtype) + d = count - dtype.type(ddof) + + # always return NaN, never inf + if is_float(count): + if count <= ddof: + # error: Incompatible types in assignment (expression has type + # "float", variable has type "Union[floating[Any], ndarray[Any, + # dtype[floating[Any]]]]") + count = np.nan # type: ignore[assignment] + d = np.nan + else: + # count is not narrowed by is_float check + count = cast(np.ndarray, count) + mask = count <= ddof + if mask.any(): + np.putmask(d, mask, np.nan) + np.putmask(count, mask, np.nan) + return count, d + + +@bottleneck_switch(ddof=1) +def nanstd( + values, + *, + axis: AxisInt | None = None, + skipna: bool = True, + ddof: int = 1, + mask=None, +): + """ + Compute the standard deviation along given axis while ignoring NaNs + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations is N - ddof, + where N represents the number of elements. + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 2, 3]) + >>> nanops.nanstd(s.values) + 1.0 + """ + if values.dtype == "M8[ns]": + values = values.view("m8[ns]") + + orig_dtype = values.dtype + values, mask = _get_values(values, skipna, mask=mask) + + result = np.sqrt(nanvar(values, axis=axis, skipna=skipna, ddof=ddof, mask=mask)) + return _wrap_results(result, orig_dtype) + + +@disallow("M8", "m8") +@bottleneck_switch(ddof=1) +def nanvar( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + ddof: int = 1, + mask=None, +): + """ + Compute the variance along given axis while ignoring NaNs + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations is N - ddof, + where N represents the number of elements. + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 2, 3]) + >>> nanops.nanvar(s.values) + 1.0 + """ + dtype = values.dtype + mask = _maybe_get_mask(values, skipna, mask) + if dtype.kind in "iu": + values = values.astype("f8") + if mask is not None: + values[mask] = np.nan + + if values.dtype.kind == "f": + count, d = _get_counts_nanvar(values.shape, mask, axis, ddof, values.dtype) + else: + count, d = _get_counts_nanvar(values.shape, mask, axis, ddof) + + if skipna and mask is not None: + values = values.copy() + np.putmask(values, mask, 0) + + # xref GH10242 + # Compute variance via two-pass algorithm, which is stable against + # cancellation errors and relatively accurate for small numbers of + # observations. + # + # See https://en.wikipedia.org/wiki/Algorithms_for_calculating_variance + avg = _ensure_numeric(values.sum(axis=axis, dtype=np.float64)) / count + if axis is not None: + avg = np.expand_dims(avg, axis) + sqr = _ensure_numeric((avg - values) ** 2) + if mask is not None: + np.putmask(sqr, mask, 0) + result = sqr.sum(axis=axis, dtype=np.float64) / d + + # Return variance as np.float64 (the datatype used in the accumulator), + # unless we were dealing with a float array, in which case use the same + # precision as the original values array. + if dtype.kind == "f": + result = result.astype(dtype, copy=False) + return result + + +@disallow("M8", "m8") +def nansem( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + ddof: int = 1, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Compute the standard error in the mean along given axis while ignoring NaNs + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations is N - ddof, + where N represents the number of elements. + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float64 + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 2, 3]) + >>> nanops.nansem(s.values) + 0.5773502691896258 + """ + # This checks if non-numeric-like data is passed with numeric_only=False + # and raises a TypeError otherwise + nanvar(values, axis=axis, skipna=skipna, ddof=ddof, mask=mask) + + mask = _maybe_get_mask(values, skipna, mask) + if values.dtype.kind != "f": + values = values.astype("f8") + + if not skipna and mask is not None and mask.any(): + return np.nan + + count, _ = _get_counts_nanvar(values.shape, mask, axis, ddof, values.dtype) + var = nanvar(values, axis=axis, skipna=skipna, ddof=ddof, mask=mask) + + return np.sqrt(var) / np.sqrt(count) + + +def _nanminmax(meth, fill_value_typ): + @bottleneck_switch(name=f"nan{meth}") + @_datetimelike_compat + def reduction( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, + ): + if values.size == 0: + return _na_for_min_count(values, axis) + + values, mask = _get_values( + values, skipna, fill_value_typ=fill_value_typ, mask=mask + ) + result = getattr(values, meth)(axis) + result = _maybe_null_out(result, axis, mask, values.shape) + return result + + return reduction + + +nanmin = _nanminmax("min", fill_value_typ="+inf") +nanmax = _nanminmax("max", fill_value_typ="-inf") + + +def nanargmax( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> int | np.ndarray: + """ + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : int or ndarray[int] + The index/indices of max value in specified axis or -1 in the NA case + + Examples + -------- + >>> from pandas.core import nanops + >>> arr = np.array([1, 2, 3, np.nan, 4]) + >>> nanops.nanargmax(arr) + 4 + + >>> arr = np.array(range(12), dtype=np.float64).reshape(4, 3) + >>> arr[2:, 2] = np.nan + >>> arr + array([[ 0., 1., 2.], + [ 3., 4., 5.], + [ 6., 7., nan], + [ 9., 10., nan]]) + >>> nanops.nanargmax(arr, axis=1) + array([2, 2, 1, 1]) + """ + values, mask = _get_values(values, True, fill_value_typ="-inf", mask=mask) + result = values.argmax(axis) + # error: Argument 1 to "_maybe_arg_null_out" has incompatible type "Any | + # signedinteger[Any]"; expected "ndarray[Any, Any]" + result = _maybe_arg_null_out(result, axis, mask, skipna) # type: ignore[arg-type] + return result + + +def nanargmin( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> int | np.ndarray: + """ + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : int or ndarray[int] + The index/indices of min value in specified axis or -1 in the NA case + + Examples + -------- + >>> from pandas.core import nanops + >>> arr = np.array([1, 2, 3, np.nan, 4]) + >>> nanops.nanargmin(arr) + 0 + + >>> arr = np.array(range(12), dtype=np.float64).reshape(4, 3) + >>> arr[2:, 0] = np.nan + >>> arr + array([[ 0., 1., 2.], + [ 3., 4., 5.], + [nan, 7., 8.], + [nan, 10., 11.]]) + >>> nanops.nanargmin(arr, axis=1) + array([0, 0, 1, 1]) + """ + values, mask = _get_values(values, True, fill_value_typ="+inf", mask=mask) + result = values.argmin(axis) + # error: Argument 1 to "_maybe_arg_null_out" has incompatible type "Any | + # signedinteger[Any]"; expected "ndarray[Any, Any]" + result = _maybe_arg_null_out(result, axis, mask, skipna) # type: ignore[arg-type] + return result + + +@disallow("M8", "m8") +@maybe_operate_rowwise +def nanskew( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Compute the sample skewness. + + The statistic computed here is the adjusted Fisher-Pearson standardized + moment coefficient G1. The algorithm computes this coefficient directly + from the second and third central moment. + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float64 + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 1, 2]) + >>> nanops.nanskew(s.values) + 1.7320508075688787 + """ + mask = _maybe_get_mask(values, skipna, mask) + if values.dtype.kind != "f": + values = values.astype("f8") + count = _get_counts(values.shape, mask, axis) + else: + count = _get_counts(values.shape, mask, axis, dtype=values.dtype) + + if skipna and mask is not None: + values = values.copy() + np.putmask(values, mask, 0) + elif not skipna and mask is not None and mask.any(): + return np.nan + + with np.errstate(invalid="ignore", divide="ignore"): + mean = values.sum(axis, dtype=np.float64) / count + if axis is not None: + mean = np.expand_dims(mean, axis) + + adjusted = values - mean + if skipna and mask is not None: + np.putmask(adjusted, mask, 0) + adjusted2 = adjusted**2 + adjusted3 = adjusted2 * adjusted + m2 = adjusted2.sum(axis, dtype=np.float64) + m3 = adjusted3.sum(axis, dtype=np.float64) + + # floating point error + # + # #18044 in _libs/windows.pyx calc_skew follow this behavior + # to fix the fperr to treat m2 <1e-14 as zero + m2 = _zero_out_fperr(m2) + m3 = _zero_out_fperr(m3) + + with np.errstate(invalid="ignore", divide="ignore"): + result = (count * (count - 1) ** 0.5 / (count - 2)) * (m3 / m2**1.5) + + dtype = values.dtype + if dtype.kind == "f": + result = result.astype(dtype, copy=False) + + if isinstance(result, np.ndarray): + result = np.where(m2 == 0, 0, result) + result[count < 3] = np.nan + else: + result = dtype.type(0) if m2 == 0 else result + if count < 3: + return np.nan + + return result + + +@disallow("M8", "m8") +@maybe_operate_rowwise +def nankurt( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Compute the sample excess kurtosis + + The statistic computed here is the adjusted Fisher-Pearson standardized + moment coefficient G2, computed directly from the second and fourth + central moment. + + Parameters + ---------- + values : ndarray + axis : int, optional + skipna : bool, default True + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + result : float64 + Unless input is a float array, in which case use the same + precision as the input array. + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, np.nan, 1, 3, 2]) + >>> nanops.nankurt(s.values) + -1.2892561983471076 + """ + mask = _maybe_get_mask(values, skipna, mask) + if values.dtype.kind != "f": + values = values.astype("f8") + count = _get_counts(values.shape, mask, axis) + else: + count = _get_counts(values.shape, mask, axis, dtype=values.dtype) + + if skipna and mask is not None: + values = values.copy() + np.putmask(values, mask, 0) + elif not skipna and mask is not None and mask.any(): + return np.nan + + with np.errstate(invalid="ignore", divide="ignore"): + mean = values.sum(axis, dtype=np.float64) / count + if axis is not None: + mean = np.expand_dims(mean, axis) + + adjusted = values - mean + if skipna and mask is not None: + np.putmask(adjusted, mask, 0) + adjusted2 = adjusted**2 + adjusted4 = adjusted2**2 + m2 = adjusted2.sum(axis, dtype=np.float64) + m4 = adjusted4.sum(axis, dtype=np.float64) + + with np.errstate(invalid="ignore", divide="ignore"): + adj = 3 * (count - 1) ** 2 / ((count - 2) * (count - 3)) + numerator = count * (count + 1) * (count - 1) * m4 + denominator = (count - 2) * (count - 3) * m2**2 + + # floating point error + # + # #18044 in _libs/windows.pyx calc_kurt follow this behavior + # to fix the fperr to treat denom <1e-14 as zero + numerator = _zero_out_fperr(numerator) + denominator = _zero_out_fperr(denominator) + + if not isinstance(denominator, np.ndarray): + # if ``denom`` is a scalar, check these corner cases first before + # doing division + if count < 4: + return np.nan + if denominator == 0: + return values.dtype.type(0) + + with np.errstate(invalid="ignore", divide="ignore"): + result = numerator / denominator - adj + + dtype = values.dtype + if dtype.kind == "f": + result = result.astype(dtype, copy=False) + + if isinstance(result, np.ndarray): + result = np.where(denominator == 0, 0, result) + result[count < 4] = np.nan + + return result + + +@disallow("M8", "m8") +@maybe_operate_rowwise +def nanprod( + values: np.ndarray, + *, + axis: AxisInt | None = None, + skipna: bool = True, + min_count: int = 0, + mask: npt.NDArray[np.bool_] | None = None, +) -> float: + """ + Parameters + ---------- + values : ndarray[dtype] + axis : int, optional + skipna : bool, default True + min_count: int, default 0 + mask : ndarray[bool], optional + nan-mask if known + + Returns + ------- + Dtype + The product of all elements on a given axis. ( NaNs are treated as 1) + + Examples + -------- + >>> from pandas.core import nanops + >>> s = pd.Series([1, 2, 3, np.nan]) + >>> nanops.nanprod(s.values) + 6.0 + """ + mask = _maybe_get_mask(values, skipna, mask) + + if skipna and mask is not None: + values = values.copy() + values[mask] = 1 + result = values.prod(axis) + # error: Incompatible return value type (got "Union[ndarray, float]", expected + # "float") + return _maybe_null_out( # type: ignore[return-value] + result, axis, mask, values.shape, min_count=min_count + ) + + +def _maybe_arg_null_out( + result: np.ndarray, + axis: AxisInt | None, + mask: npt.NDArray[np.bool_] | None, + skipna: bool, +) -> np.ndarray | int: + # helper function for nanargmin/nanargmax + if mask is None: + return result + + if axis is None or not getattr(result, "ndim", False): + if skipna: + if mask.all(): + return -1 + else: + if mask.any(): + return -1 + else: + if skipna: + na_mask = mask.all(axis) + else: + na_mask = mask.any(axis) + if na_mask.any(): + result[na_mask] = -1 + return result + + +def _get_counts( + values_shape: Shape, + mask: npt.NDArray[np.bool_] | None, + axis: AxisInt | None, + dtype: np.dtype[np.floating] = np.dtype(np.float64), +) -> np.floating | npt.NDArray[np.floating]: + """ + Get the count of non-null values along an axis + + Parameters + ---------- + values_shape : tuple of int + shape tuple from values ndarray, used if mask is None + mask : Optional[ndarray[bool]] + locations in values that should be considered missing + axis : Optional[int] + axis to count along + dtype : type, optional + type to use for count + + Returns + ------- + count : scalar or array + """ + if axis is None: + if mask is not None: + n = mask.size - mask.sum() + else: + n = np.prod(values_shape) + return dtype.type(n) + + if mask is not None: + count = mask.shape[axis] - mask.sum(axis) + else: + count = values_shape[axis] + + if is_integer(count): + return dtype.type(count) + return count.astype(dtype, copy=False) + + +def _maybe_null_out( + result: np.ndarray | float | NaTType, + axis: AxisInt | None, + mask: npt.NDArray[np.bool_] | None, + shape: tuple[int, ...], + min_count: int = 1, +) -> np.ndarray | float | NaTType: + """ + Returns + ------- + Dtype + The product of all elements on a given axis. ( NaNs are treated as 1) + """ + if mask is None and min_count == 0: + # nothing to check; short-circuit + return result + + if axis is not None and isinstance(result, np.ndarray): + if mask is not None: + null_mask = (mask.shape[axis] - mask.sum(axis) - min_count) < 0 + else: + # we have no nulls, kept mask=None in _maybe_get_mask + below_count = shape[axis] - min_count < 0 + new_shape = shape[:axis] + shape[axis + 1 :] + null_mask = np.broadcast_to(below_count, new_shape) + + if np.any(null_mask): + if is_numeric_dtype(result): + if np.iscomplexobj(result): + result = result.astype("c16") + elif not is_float_dtype(result): + result = result.astype("f8", copy=False) + result[null_mask] = np.nan + else: + # GH12941, use None to auto cast null + result[null_mask] = None + elif result is not NaT: + if check_below_min_count(shape, mask, min_count): + result_dtype = getattr(result, "dtype", None) + if is_float_dtype(result_dtype): + # error: Item "None" of "Optional[Any]" has no attribute "type" + result = result_dtype.type("nan") # type: ignore[union-attr] + else: + result = np.nan + + return result + + +def check_below_min_count( + shape: tuple[int, ...], mask: npt.NDArray[np.bool_] | None, min_count: int +) -> bool: + """ + Check for the `min_count` keyword. Returns True if below `min_count` (when + missing value should be returned from the reduction). + + Parameters + ---------- + shape : tuple + The shape of the values (`values.shape`). + mask : ndarray[bool] or None + Boolean numpy array (typically of same shape as `shape`) or None. + min_count : int + Keyword passed through from sum/prod call. + + Returns + ------- + bool + """ + if min_count > 0: + if mask is None: + # no missing values, only check size + non_nulls = np.prod(shape) + else: + non_nulls = mask.size - mask.sum() + if non_nulls < min_count: + return True + return False + + +def _zero_out_fperr(arg): + # #18044 reference this behavior to fix rolling skew/kurt issue + if isinstance(arg, np.ndarray): + return np.where(np.abs(arg) < 1e-14, 0, arg) + else: + return arg.dtype.type(0) if np.abs(arg) < 1e-14 else arg + + +@disallow("M8", "m8") +def nancorr( + a: np.ndarray, + b: np.ndarray, + *, + method: CorrelationMethod = "pearson", + min_periods: int | None = None, +) -> float: + """ + a, b: ndarrays + """ + if len(a) != len(b): + raise AssertionError("Operands to nancorr must have same size") + + if min_periods is None: + min_periods = 1 + + valid = notna(a) & notna(b) + if not valid.all(): + a = a[valid] + b = b[valid] + + if len(a) < min_periods: + return np.nan + + a = _ensure_numeric(a) + b = _ensure_numeric(b) + + f = get_corr_func(method) + return f(a, b) + + +def get_corr_func( + method: CorrelationMethod, +) -> Callable[[np.ndarray, np.ndarray], float]: + if method == "kendall": + from scipy.stats import kendalltau + + def func(a, b): + return kendalltau(a, b)[0] + + return func + elif method == "spearman": + from scipy.stats import spearmanr + + def func(a, b): + return spearmanr(a, b)[0] + + return func + elif method == "pearson": + + def func(a, b): + return np.corrcoef(a, b)[0, 1] + + return func + elif callable(method): + return method + + raise ValueError( + f"Unknown method '{method}', expected one of " + "'kendall', 'spearman', 'pearson', or callable" + ) + + +@disallow("M8", "m8") +def nancov( + a: np.ndarray, + b: np.ndarray, + *, + min_periods: int | None = None, + ddof: int | None = 1, +) -> float: + if len(a) != len(b): + raise AssertionError("Operands to nancov must have same size") + + if min_periods is None: + min_periods = 1 + + valid = notna(a) & notna(b) + if not valid.all(): + a = a[valid] + b = b[valid] + + if len(a) < min_periods: + return np.nan + + a = _ensure_numeric(a) + b = _ensure_numeric(b) + + return np.cov(a, b, ddof=ddof)[0, 1] + + +def _ensure_numeric(x): + if isinstance(x, np.ndarray): + if x.dtype.kind in "biu": + x = x.astype(np.float64) + elif x.dtype == object: + inferred = lib.infer_dtype(x) + if inferred in ["string", "mixed"]: + # GH#44008, GH#36703 avoid casting e.g. strings to numeric + raise TypeError(f"Could not convert {x} to numeric") + try: + x = x.astype(np.complex128) + except (TypeError, ValueError): + try: + x = x.astype(np.float64) + except ValueError as err: + # GH#29941 we get here with object arrays containing strs + raise TypeError(f"Could not convert {x} to numeric") from err + else: + if not np.any(np.imag(x)): + x = x.real + elif not (is_float(x) or is_integer(x) or is_complex(x)): + if isinstance(x, str): + # GH#44008, GH#36703 avoid casting e.g. strings to numeric + raise TypeError(f"Could not convert string '{x}' to numeric") + try: + x = float(x) + except (TypeError, ValueError): + # e.g. "1+1j" or "foo" + try: + x = complex(x) + except ValueError as err: + # e.g. "foo" + raise TypeError(f"Could not convert {x} to numeric") from err + return x + + +def na_accum_func(values: ArrayLike, accum_func, *, skipna: bool) -> ArrayLike: + """ + Cumulative function with skipna support. + + Parameters + ---------- + values : np.ndarray or ExtensionArray + accum_func : {np.cumprod, np.maximum.accumulate, np.cumsum, np.minimum.accumulate} + skipna : bool + + Returns + ------- + np.ndarray or ExtensionArray + """ + mask_a, mask_b = { + np.cumprod: (1.0, np.nan), + np.maximum.accumulate: (-np.inf, np.nan), + np.cumsum: (0.0, np.nan), + np.minimum.accumulate: (np.inf, np.nan), + }[accum_func] + + # This should go through ea interface + assert values.dtype.kind not in "mM" + + # We will be applying this function to block values + if skipna and not issubclass(values.dtype.type, (np.integer, np.bool_)): + vals = values.copy() + mask = isna(vals) + vals[mask] = mask_a + result = accum_func(vals, axis=0) + result[mask] = mask_b + else: + result = accum_func(values, axis=0) + + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/ops/__pycache__/common.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/ops/__pycache__/common.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..3aa7529a9b9de856c8b53a1601db111f42da7ee0 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/ops/__pycache__/common.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/resample.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/resample.py new file mode 100644 index 0000000000000000000000000000000000000000..229595202cccb5f33a1dd9918cc43256d77b3a9a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/resample.py @@ -0,0 +1,2920 @@ +from __future__ import annotations + +import copy +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, + final, + no_type_check, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.tslibs import ( + BaseOffset, + IncompatibleFrequency, + NaT, + Period, + Timedelta, + Timestamp, + to_offset, +) +from pandas._libs.tslibs.dtypes import freq_to_period_freqstr +from pandas._typing import NDFrameT +from pandas.compat.numpy import function as nv +from pandas.errors import AbstractMethodError +from pandas.util._decorators import ( + Appender, + Substitution, + doc, +) +from pandas.util._exceptions import ( + find_stack_level, + rewrite_warning, +) + +from pandas.core.dtypes.dtypes import ArrowDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +import pandas.core.algorithms as algos +from pandas.core.apply import ( + ResamplerWindowApply, + warn_alias_replacement, +) +from pandas.core.arrays import ArrowExtensionArray +from pandas.core.base import ( + PandasObject, + SelectionMixin, +) +import pandas.core.common as com +from pandas.core.generic import ( + NDFrame, + _shared_docs, +) +from pandas.core.groupby.generic import SeriesGroupBy +from pandas.core.groupby.groupby import ( + BaseGroupBy, + GroupBy, + _apply_groupings_depr, + _pipe_template, + get_groupby, +) +from pandas.core.groupby.grouper import Grouper +from pandas.core.groupby.ops import BinGrouper +from pandas.core.indexes.api import MultiIndex +from pandas.core.indexes.base import Index +from pandas.core.indexes.datetimes import ( + DatetimeIndex, + date_range, +) +from pandas.core.indexes.period import ( + PeriodIndex, + period_range, +) +from pandas.core.indexes.timedeltas import ( + TimedeltaIndex, + timedelta_range, +) + +from pandas.tseries.frequencies import ( + is_subperiod, + is_superperiod, +) +from pandas.tseries.offsets import ( + Day, + Tick, +) + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import ( + AnyArrayLike, + Axis, + AxisInt, + Frequency, + IndexLabel, + InterpolateOptions, + T, + TimedeltaConvertibleTypes, + TimeGrouperOrigin, + TimestampConvertibleTypes, + npt, + ) + + from pandas import ( + DataFrame, + Series, + ) + +_shared_docs_kwargs: dict[str, str] = {} + + +class Resampler(BaseGroupBy, PandasObject): + """ + Class for resampling datetimelike data, a groupby-like operation. + See aggregate, transform, and apply functions on this object. + + It's easiest to use obj.resample(...) to use Resampler. + + Parameters + ---------- + obj : Series or DataFrame + groupby : TimeGrouper + axis : int, default 0 + kind : str or None + 'period', 'timestamp' to override default index treatment + + Returns + ------- + a Resampler of the appropriate type + + Notes + ----- + After resampling, see aggregate, apply, and transform functions. + """ + + _grouper: BinGrouper + _timegrouper: TimeGrouper + binner: DatetimeIndex | TimedeltaIndex | PeriodIndex # depends on subclass + exclusions: frozenset[Hashable] = frozenset() # for SelectionMixin compat + _internal_names_set = set({"obj", "ax", "_indexer"}) + + # to the groupby descriptor + _attributes = [ + "freq", + "axis", + "closed", + "label", + "convention", + "kind", + "origin", + "offset", + ] + + def __init__( + self, + obj: NDFrame, + timegrouper: TimeGrouper, + axis: Axis = 0, + kind=None, + *, + gpr_index: Index, + group_keys: bool = False, + selection=None, + include_groups: bool = True, + ) -> None: + self._timegrouper = timegrouper + self.keys = None + self.sort = True + self.axis = obj._get_axis_number(axis) + self.kind = kind + self.group_keys = group_keys + self.as_index = True + self.include_groups = include_groups + + self.obj, self.ax, self._indexer = self._timegrouper._set_grouper( + self._convert_obj(obj), sort=True, gpr_index=gpr_index + ) + self.binner, self._grouper = self._get_binner() + self._selection = selection + if self._timegrouper.key is not None: + self.exclusions = frozenset([self._timegrouper.key]) + else: + self.exclusions = frozenset() + + @final + def __str__(self) -> str: + """ + Provide a nice str repr of our rolling object. + """ + attrs = ( + f"{k}={getattr(self._timegrouper, k)}" + for k in self._attributes + if getattr(self._timegrouper, k, None) is not None + ) + return f"{type(self).__name__} [{', '.join(attrs)}]" + + @final + def __getattr__(self, attr: str): + if attr in self._internal_names_set: + return object.__getattribute__(self, attr) + if attr in self._attributes: + return getattr(self._timegrouper, attr) + if attr in self.obj: + return self[attr] + + return object.__getattribute__(self, attr) + + @final + @property + def _from_selection(self) -> bool: + """ + Is the resampling from a DataFrame column or MultiIndex level. + """ + # upsampling and PeriodIndex resampling do not work + # with selection, this state used to catch and raise an error + return self._timegrouper is not None and ( + self._timegrouper.key is not None or self._timegrouper.level is not None + ) + + def _convert_obj(self, obj: NDFrameT) -> NDFrameT: + """ + Provide any conversions for the object in order to correctly handle. + + Parameters + ---------- + obj : Series or DataFrame + + Returns + ------- + Series or DataFrame + """ + return obj._consolidate() + + def _get_binner_for_time(self): + raise AbstractMethodError(self) + + @final + def _get_binner(self): + """ + Create the BinGrouper, assume that self.set_grouper(obj) + has already been called. + """ + binner, bins, binlabels = self._get_binner_for_time() + assert len(bins) == len(binlabels) + bin_grouper = BinGrouper(bins, binlabels, indexer=self._indexer) + return binner, bin_grouper + + @final + @Substitution( + klass="Resampler", + examples=""" + >>> df = pd.DataFrame({'A': [1, 2, 3, 4]}, + ... index=pd.date_range('2012-08-02', periods=4)) + >>> df + A + 2012-08-02 1 + 2012-08-03 2 + 2012-08-04 3 + 2012-08-05 4 + + To get the difference between each 2-day period's maximum and minimum + value in one pass, you can do + + >>> df.resample('2D').pipe(lambda x: x.max() - x.min()) + A + 2012-08-02 1 + 2012-08-04 1""", + ) + @Appender(_pipe_template) + def pipe( + self, + func: Callable[..., T] | tuple[Callable[..., T], str], + *args, + **kwargs, + ) -> T: + return super().pipe(func, *args, **kwargs) + + _agg_see_also_doc = dedent( + """ + See Also + -------- + DataFrame.groupby.aggregate : Aggregate using callable, string, dict, + or list of string/callables. + DataFrame.resample.transform : Transforms the Series on each group + based on the given function. + DataFrame.aggregate: Aggregate using one or more + operations over the specified axis. + """ + ) + + _agg_examples_doc = dedent( + """ + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4, 5], + ... index=pd.date_range('20130101', periods=5, freq='s')) + >>> s + 2013-01-01 00:00:00 1 + 2013-01-01 00:00:01 2 + 2013-01-01 00:00:02 3 + 2013-01-01 00:00:03 4 + 2013-01-01 00:00:04 5 + Freq: s, dtype: int64 + + >>> r = s.resample('2s') + + >>> r.agg("sum") + 2013-01-01 00:00:00 3 + 2013-01-01 00:00:02 7 + 2013-01-01 00:00:04 5 + Freq: 2s, dtype: int64 + + >>> r.agg(['sum', 'mean', 'max']) + sum mean max + 2013-01-01 00:00:00 3 1.5 2 + 2013-01-01 00:00:02 7 3.5 4 + 2013-01-01 00:00:04 5 5.0 5 + + >>> r.agg({'result': lambda x: x.mean() / x.std(), + ... 'total': "sum"}) + result total + 2013-01-01 00:00:00 2.121320 3 + 2013-01-01 00:00:02 4.949747 7 + 2013-01-01 00:00:04 NaN 5 + + >>> r.agg(average="mean", total="sum") + average total + 2013-01-01 00:00:00 1.5 3 + 2013-01-01 00:00:02 3.5 7 + 2013-01-01 00:00:04 5.0 5 + """ + ) + + @final + @doc( + _shared_docs["aggregate"], + see_also=_agg_see_also_doc, + examples=_agg_examples_doc, + klass="DataFrame", + axis="", + ) + def aggregate(self, func=None, *args, **kwargs): + result = ResamplerWindowApply(self, func, args=args, kwargs=kwargs).agg() + if result is None: + how = func + result = self._groupby_and_aggregate(how, *args, **kwargs) + + return result + + agg = aggregate + apply = aggregate + + @final + def transform(self, arg, *args, **kwargs): + """ + Call function producing a like-indexed Series on each group. + + Return a Series with the transformed values. + + Parameters + ---------- + arg : function + To apply to each group. Should return a Series with the same index. + + Returns + ------- + Series + + Examples + -------- + >>> s = pd.Series([1, 2], + ... index=pd.date_range('20180101', + ... periods=2, + ... freq='1h')) + >>> s + 2018-01-01 00:00:00 1 + 2018-01-01 01:00:00 2 + Freq: h, dtype: int64 + + >>> resampled = s.resample('15min') + >>> resampled.transform(lambda x: (x - x.mean()) / x.std()) + 2018-01-01 00:00:00 NaN + 2018-01-01 01:00:00 NaN + Freq: h, dtype: float64 + """ + return self._selected_obj.groupby(self._timegrouper).transform( + arg, *args, **kwargs + ) + + def _downsample(self, f, **kwargs): + raise AbstractMethodError(self) + + def _upsample(self, f, limit: int | None = None, fill_value=None): + raise AbstractMethodError(self) + + def _gotitem(self, key, ndim: int, subset=None): + """ + Sub-classes to define. Return a sliced object. + + Parameters + ---------- + key : string / list of selections + ndim : {1, 2} + requested ndim of result + subset : object, default None + subset to act on + """ + grouper = self._grouper + if subset is None: + subset = self.obj + if key is not None: + subset = subset[key] + else: + # reached via Apply.agg_dict_like with selection=None and ndim=1 + assert subset.ndim == 1 + if ndim == 1: + assert subset.ndim == 1 + + grouped = get_groupby( + subset, by=None, grouper=grouper, axis=self.axis, group_keys=self.group_keys + ) + return grouped + + def _groupby_and_aggregate(self, how, *args, **kwargs): + """ + Re-evaluate the obj with a groupby aggregation. + """ + grouper = self._grouper + + # Excludes `on` column when provided + obj = self._obj_with_exclusions + + grouped = get_groupby( + obj, by=None, grouper=grouper, axis=self.axis, group_keys=self.group_keys + ) + + try: + if callable(how): + # TODO: test_resample_apply_with_additional_args fails if we go + # through the non-lambda path, not clear that it should. + func = lambda x: how(x, *args, **kwargs) + result = grouped.aggregate(func) + else: + result = grouped.aggregate(how, *args, **kwargs) + except (AttributeError, KeyError): + # we have a non-reducing function; try to evaluate + # alternatively we want to evaluate only a column of the input + + # test_apply_to_one_column_of_df the function being applied references + # a DataFrame column, but aggregate_item_by_item operates column-wise + # on Series, raising AttributeError or KeyError + # (depending on whether the column lookup uses getattr/__getitem__) + result = _apply( + grouped, how, *args, include_groups=self.include_groups, **kwargs + ) + + except ValueError as err: + if "Must produce aggregated value" in str(err): + # raised in _aggregate_named + # see test_apply_without_aggregation, test_apply_with_mutated_index + pass + else: + raise + + # we have a non-reducing function + # try to evaluate + result = _apply( + grouped, how, *args, include_groups=self.include_groups, **kwargs + ) + + return self._wrap_result(result) + + @final + def _get_resampler_for_grouping( + self, groupby: GroupBy, key, include_groups: bool = True + ): + """ + Return the correct class for resampling with groupby. + """ + return self._resampler_for_grouping( + groupby=groupby, key=key, parent=self, include_groups=include_groups + ) + + def _wrap_result(self, result): + """ + Potentially wrap any results. + """ + # GH 47705 + obj = self.obj + if ( + isinstance(result, ABCDataFrame) + and len(result) == 0 + and not isinstance(result.index, PeriodIndex) + ): + result = result.set_index( + _asfreq_compat(obj.index[:0], freq=self.freq), append=True + ) + + if isinstance(result, ABCSeries) and self._selection is not None: + result.name = self._selection + + if isinstance(result, ABCSeries) and result.empty: + # When index is all NaT, result is empty but index is not + result.index = _asfreq_compat(obj.index[:0], freq=self.freq) + result.name = getattr(obj, "name", None) + + if self._timegrouper._arrow_dtype is not None: + result.index = result.index.astype(self._timegrouper._arrow_dtype) + + return result + + @final + def ffill(self, limit: int | None = None): + """ + Forward fill the values. + + Parameters + ---------- + limit : int, optional + Limit of how many values to fill. + + Returns + ------- + An upsampled Series. + + See Also + -------- + Series.fillna: Fill NA/NaN values using the specified method. + DataFrame.fillna: Fill NA/NaN values using the specified method. + + Examples + -------- + Here we only create a ``Series``. + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + + Example for ``ffill`` with downsampling (we have fewer dates after resampling): + + >>> ser.resample('MS').ffill() + 2023-01-01 1 + 2023-02-01 3 + Freq: MS, dtype: int64 + + Example for ``ffill`` with upsampling (fill the new dates with + the previous value): + + >>> ser.resample('W').ffill() + 2023-01-01 1 + 2023-01-08 1 + 2023-01-15 2 + 2023-01-22 2 + 2023-01-29 2 + 2023-02-05 3 + 2023-02-12 3 + 2023-02-19 4 + Freq: W-SUN, dtype: int64 + + With upsampling and limiting (only fill the first new date with the + previous value): + + >>> ser.resample('W').ffill(limit=1) + 2023-01-01 1.0 + 2023-01-08 1.0 + 2023-01-15 2.0 + 2023-01-22 2.0 + 2023-01-29 NaN + 2023-02-05 3.0 + 2023-02-12 NaN + 2023-02-19 4.0 + Freq: W-SUN, dtype: float64 + """ + return self._upsample("ffill", limit=limit) + + @final + def nearest(self, limit: int | None = None): + """ + Resample by using the nearest value. + + When resampling data, missing values may appear (e.g., when the + resampling frequency is higher than the original frequency). + The `nearest` method will replace ``NaN`` values that appeared in + the resampled data with the value from the nearest member of the + sequence, based on the index value. + Missing values that existed in the original data will not be modified. + If `limit` is given, fill only this many values in each direction for + each of the original values. + + Parameters + ---------- + limit : int, optional + Limit of how many values to fill. + + Returns + ------- + Series or DataFrame + An upsampled Series or DataFrame with ``NaN`` values filled with + their nearest value. + + See Also + -------- + backfill : Backward fill the new missing values in the resampled data. + pad : Forward fill ``NaN`` values. + + Examples + -------- + >>> s = pd.Series([1, 2], + ... index=pd.date_range('20180101', + ... periods=2, + ... freq='1h')) + >>> s + 2018-01-01 00:00:00 1 + 2018-01-01 01:00:00 2 + Freq: h, dtype: int64 + + >>> s.resample('15min').nearest() + 2018-01-01 00:00:00 1 + 2018-01-01 00:15:00 1 + 2018-01-01 00:30:00 2 + 2018-01-01 00:45:00 2 + 2018-01-01 01:00:00 2 + Freq: 15min, dtype: int64 + + Limit the number of upsampled values imputed by the nearest: + + >>> s.resample('15min').nearest(limit=1) + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:15:00 1.0 + 2018-01-01 00:30:00 NaN + 2018-01-01 00:45:00 2.0 + 2018-01-01 01:00:00 2.0 + Freq: 15min, dtype: float64 + """ + return self._upsample("nearest", limit=limit) + + @final + def bfill(self, limit: int | None = None): + """ + Backward fill the new missing values in the resampled data. + + In statistics, imputation is the process of replacing missing data with + substituted values [1]_. When resampling data, missing values may + appear (e.g., when the resampling frequency is higher than the original + frequency). The backward fill will replace NaN values that appeared in + the resampled data with the next value in the original sequence. + Missing values that existed in the original data will not be modified. + + Parameters + ---------- + limit : int, optional + Limit of how many values to fill. + + Returns + ------- + Series, DataFrame + An upsampled Series or DataFrame with backward filled NaN values. + + See Also + -------- + bfill : Alias of backfill. + fillna : Fill NaN values using the specified method, which can be + 'backfill'. + nearest : Fill NaN values with nearest neighbor starting from center. + ffill : Forward fill NaN values. + Series.fillna : Fill NaN values in the Series using the + specified method, which can be 'backfill'. + DataFrame.fillna : Fill NaN values in the DataFrame using the + specified method, which can be 'backfill'. + + References + ---------- + .. [1] https://en.wikipedia.org/wiki/Imputation_(statistics) + + Examples + -------- + Resampling a Series: + + >>> s = pd.Series([1, 2, 3], + ... index=pd.date_range('20180101', periods=3, freq='h')) + >>> s + 2018-01-01 00:00:00 1 + 2018-01-01 01:00:00 2 + 2018-01-01 02:00:00 3 + Freq: h, dtype: int64 + + >>> s.resample('30min').bfill() + 2018-01-01 00:00:00 1 + 2018-01-01 00:30:00 2 + 2018-01-01 01:00:00 2 + 2018-01-01 01:30:00 3 + 2018-01-01 02:00:00 3 + Freq: 30min, dtype: int64 + + >>> s.resample('15min').bfill(limit=2) + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:15:00 NaN + 2018-01-01 00:30:00 2.0 + 2018-01-01 00:45:00 2.0 + 2018-01-01 01:00:00 2.0 + 2018-01-01 01:15:00 NaN + 2018-01-01 01:30:00 3.0 + 2018-01-01 01:45:00 3.0 + 2018-01-01 02:00:00 3.0 + Freq: 15min, dtype: float64 + + Resampling a DataFrame that has missing values: + + >>> df = pd.DataFrame({'a': [2, np.nan, 6], 'b': [1, 3, 5]}, + ... index=pd.date_range('20180101', periods=3, + ... freq='h')) + >>> df + a b + 2018-01-01 00:00:00 2.0 1 + 2018-01-01 01:00:00 NaN 3 + 2018-01-01 02:00:00 6.0 5 + + >>> df.resample('30min').bfill() + a b + 2018-01-01 00:00:00 2.0 1 + 2018-01-01 00:30:00 NaN 3 + 2018-01-01 01:00:00 NaN 3 + 2018-01-01 01:30:00 6.0 5 + 2018-01-01 02:00:00 6.0 5 + + >>> df.resample('15min').bfill(limit=2) + a b + 2018-01-01 00:00:00 2.0 1.0 + 2018-01-01 00:15:00 NaN NaN + 2018-01-01 00:30:00 NaN 3.0 + 2018-01-01 00:45:00 NaN 3.0 + 2018-01-01 01:00:00 NaN 3.0 + 2018-01-01 01:15:00 NaN NaN + 2018-01-01 01:30:00 6.0 5.0 + 2018-01-01 01:45:00 6.0 5.0 + 2018-01-01 02:00:00 6.0 5.0 + """ + return self._upsample("bfill", limit=limit) + + @final + def fillna(self, method, limit: int | None = None): + """ + Fill missing values introduced by upsampling. + + In statistics, imputation is the process of replacing missing data with + substituted values [1]_. When resampling data, missing values may + appear (e.g., when the resampling frequency is higher than the original + frequency). + + Missing values that existed in the original data will + not be modified. + + Parameters + ---------- + method : {'pad', 'backfill', 'ffill', 'bfill', 'nearest'} + Method to use for filling holes in resampled data + + * 'pad' or 'ffill': use previous valid observation to fill gap + (forward fill). + * 'backfill' or 'bfill': use next valid observation to fill gap. + * 'nearest': use nearest valid observation to fill gap. + + limit : int, optional + Limit of how many consecutive missing values to fill. + + Returns + ------- + Series or DataFrame + An upsampled Series or DataFrame with missing values filled. + + See Also + -------- + bfill : Backward fill NaN values in the resampled data. + ffill : Forward fill NaN values in the resampled data. + nearest : Fill NaN values in the resampled data + with nearest neighbor starting from center. + interpolate : Fill NaN values using interpolation. + Series.fillna : Fill NaN values in the Series using the + specified method, which can be 'bfill' and 'ffill'. + DataFrame.fillna : Fill NaN values in the DataFrame using the + specified method, which can be 'bfill' and 'ffill'. + + References + ---------- + .. [1] https://en.wikipedia.org/wiki/Imputation_(statistics) + + Examples + -------- + Resampling a Series: + + >>> s = pd.Series([1, 2, 3], + ... index=pd.date_range('20180101', periods=3, freq='h')) + >>> s + 2018-01-01 00:00:00 1 + 2018-01-01 01:00:00 2 + 2018-01-01 02:00:00 3 + Freq: h, dtype: int64 + + Without filling the missing values you get: + + >>> s.resample("30min").asfreq() + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:30:00 NaN + 2018-01-01 01:00:00 2.0 + 2018-01-01 01:30:00 NaN + 2018-01-01 02:00:00 3.0 + Freq: 30min, dtype: float64 + + >>> s.resample('30min').fillna("backfill") + 2018-01-01 00:00:00 1 + 2018-01-01 00:30:00 2 + 2018-01-01 01:00:00 2 + 2018-01-01 01:30:00 3 + 2018-01-01 02:00:00 3 + Freq: 30min, dtype: int64 + + >>> s.resample('15min').fillna("backfill", limit=2) + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:15:00 NaN + 2018-01-01 00:30:00 2.0 + 2018-01-01 00:45:00 2.0 + 2018-01-01 01:00:00 2.0 + 2018-01-01 01:15:00 NaN + 2018-01-01 01:30:00 3.0 + 2018-01-01 01:45:00 3.0 + 2018-01-01 02:00:00 3.0 + Freq: 15min, dtype: float64 + + >>> s.resample('30min').fillna("pad") + 2018-01-01 00:00:00 1 + 2018-01-01 00:30:00 1 + 2018-01-01 01:00:00 2 + 2018-01-01 01:30:00 2 + 2018-01-01 02:00:00 3 + Freq: 30min, dtype: int64 + + >>> s.resample('30min').fillna("nearest") + 2018-01-01 00:00:00 1 + 2018-01-01 00:30:00 2 + 2018-01-01 01:00:00 2 + 2018-01-01 01:30:00 3 + 2018-01-01 02:00:00 3 + Freq: 30min, dtype: int64 + + Missing values present before the upsampling are not affected. + + >>> sm = pd.Series([1, None, 3], + ... index=pd.date_range('20180101', periods=3, freq='h')) + >>> sm + 2018-01-01 00:00:00 1.0 + 2018-01-01 01:00:00 NaN + 2018-01-01 02:00:00 3.0 + Freq: h, dtype: float64 + + >>> sm.resample('30min').fillna('backfill') + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:30:00 NaN + 2018-01-01 01:00:00 NaN + 2018-01-01 01:30:00 3.0 + 2018-01-01 02:00:00 3.0 + Freq: 30min, dtype: float64 + + >>> sm.resample('30min').fillna('pad') + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:30:00 1.0 + 2018-01-01 01:00:00 NaN + 2018-01-01 01:30:00 NaN + 2018-01-01 02:00:00 3.0 + Freq: 30min, dtype: float64 + + >>> sm.resample('30min').fillna('nearest') + 2018-01-01 00:00:00 1.0 + 2018-01-01 00:30:00 NaN + 2018-01-01 01:00:00 NaN + 2018-01-01 01:30:00 3.0 + 2018-01-01 02:00:00 3.0 + Freq: 30min, dtype: float64 + + DataFrame resampling is done column-wise. All the same options are + available. + + >>> df = pd.DataFrame({'a': [2, np.nan, 6], 'b': [1, 3, 5]}, + ... index=pd.date_range('20180101', periods=3, + ... freq='h')) + >>> df + a b + 2018-01-01 00:00:00 2.0 1 + 2018-01-01 01:00:00 NaN 3 + 2018-01-01 02:00:00 6.0 5 + + >>> df.resample('30min').fillna("bfill") + a b + 2018-01-01 00:00:00 2.0 1 + 2018-01-01 00:30:00 NaN 3 + 2018-01-01 01:00:00 NaN 3 + 2018-01-01 01:30:00 6.0 5 + 2018-01-01 02:00:00 6.0 5 + """ + warnings.warn( + f"{type(self).__name__}.fillna is deprecated and will be removed " + "in a future version. Use obj.ffill(), obj.bfill(), " + "or obj.nearest() instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._upsample(method, limit=limit) + + @final + def interpolate( + self, + method: InterpolateOptions = "linear", + *, + axis: Axis = 0, + limit: int | None = None, + inplace: bool = False, + limit_direction: Literal["forward", "backward", "both"] = "forward", + limit_area=None, + downcast=lib.no_default, + **kwargs, + ): + """ + Interpolate values between target timestamps according to different methods. + + The original index is first reindexed to target timestamps + (see :meth:`core.resample.Resampler.asfreq`), + then the interpolation of ``NaN`` values via :meth:`DataFrame.interpolate` + happens. + + Parameters + ---------- + method : str, default 'linear' + Interpolation technique to use. One of: + + * 'linear': Ignore the index and treat the values as equally + spaced. This is the only method supported on MultiIndexes. + * 'time': Works on daily and higher resolution data to interpolate + given length of interval. + * 'index', 'values': use the actual numerical values of the index. + * 'pad': Fill in NaNs using existing values. + * 'nearest', 'zero', 'slinear', 'quadratic', 'cubic', + 'barycentric', 'polynomial': Passed to + `scipy.interpolate.interp1d`, whereas 'spline' is passed to + `scipy.interpolate.UnivariateSpline`. These methods use the numerical + values of the index. Both 'polynomial' and 'spline' require that + you also specify an `order` (int), e.g. + ``df.interpolate(method='polynomial', order=5)``. Note that, + `slinear` method in Pandas refers to the Scipy first order `spline` + instead of Pandas first order `spline`. + * 'krogh', 'piecewise_polynomial', 'spline', 'pchip', 'akima', + 'cubicspline': Wrappers around the SciPy interpolation methods of + similar names. See `Notes`. + * 'from_derivatives': Refers to + `scipy.interpolate.BPoly.from_derivatives`. + + axis : {{0 or 'index', 1 or 'columns', None}}, default None + Axis to interpolate along. For `Series` this parameter is unused + and defaults to 0. + limit : int, optional + Maximum number of consecutive NaNs to fill. Must be greater than + 0. + inplace : bool, default False + Update the data in place if possible. + limit_direction : {{'forward', 'backward', 'both'}}, Optional + Consecutive NaNs will be filled in this direction. + + If limit is specified: + * If 'method' is 'pad' or 'ffill', 'limit_direction' must be 'forward'. + * If 'method' is 'backfill' or 'bfill', 'limit_direction' must be + 'backwards'. + + If 'limit' is not specified: + * If 'method' is 'backfill' or 'bfill', the default is 'backward' + * else the default is 'forward' + + raises ValueError if `limit_direction` is 'forward' or 'both' and + method is 'backfill' or 'bfill'. + raises ValueError if `limit_direction` is 'backward' or 'both' and + method is 'pad' or 'ffill'. + + limit_area : {{`None`, 'inside', 'outside'}}, default None + If limit is specified, consecutive NaNs will be filled with this + restriction. + + * ``None``: No fill restriction. + * 'inside': Only fill NaNs surrounded by valid values + (interpolate). + * 'outside': Only fill NaNs outside valid values (extrapolate). + + downcast : optional, 'infer' or None, defaults to None + Downcast dtypes if possible. + + .. deprecated:: 2.1.0 + + ``**kwargs`` : optional + Keyword arguments to pass on to the interpolating function. + + Returns + ------- + DataFrame or Series + Interpolated values at the specified freq. + + See Also + -------- + core.resample.Resampler.asfreq: Return the values at the new freq, + essentially a reindex. + DataFrame.interpolate: Fill NaN values using an interpolation method. + + Notes + ----- + For high-frequent or non-equidistant time-series with timestamps + the reindexing followed by interpolation may lead to information loss + as shown in the last example. + + Examples + -------- + + >>> start = "2023-03-01T07:00:00" + >>> timesteps = pd.date_range(start, periods=5, freq="s") + >>> series = pd.Series(data=[1, -1, 2, 1, 3], index=timesteps) + >>> series + 2023-03-01 07:00:00 1 + 2023-03-01 07:00:01 -1 + 2023-03-01 07:00:02 2 + 2023-03-01 07:00:03 1 + 2023-03-01 07:00:04 3 + Freq: s, dtype: int64 + + Upsample the dataframe to 0.5Hz by providing the period time of 2s. + + >>> series.resample("2s").interpolate("linear") + 2023-03-01 07:00:00 1 + 2023-03-01 07:00:02 2 + 2023-03-01 07:00:04 3 + Freq: 2s, dtype: int64 + + Downsample the dataframe to 2Hz by providing the period time of 500ms. + + >>> series.resample("500ms").interpolate("linear") + 2023-03-01 07:00:00.000 1.0 + 2023-03-01 07:00:00.500 0.0 + 2023-03-01 07:00:01.000 -1.0 + 2023-03-01 07:00:01.500 0.5 + 2023-03-01 07:00:02.000 2.0 + 2023-03-01 07:00:02.500 1.5 + 2023-03-01 07:00:03.000 1.0 + 2023-03-01 07:00:03.500 2.0 + 2023-03-01 07:00:04.000 3.0 + Freq: 500ms, dtype: float64 + + Internal reindexing with ``asfreq()`` prior to interpolation leads to + an interpolated timeseries on the basis the reindexed timestamps (anchors). + Since not all datapoints from original series become anchors, + it can lead to misleading interpolation results as in the following example: + + >>> series.resample("400ms").interpolate("linear") + 2023-03-01 07:00:00.000 1.0 + 2023-03-01 07:00:00.400 1.2 + 2023-03-01 07:00:00.800 1.4 + 2023-03-01 07:00:01.200 1.6 + 2023-03-01 07:00:01.600 1.8 + 2023-03-01 07:00:02.000 2.0 + 2023-03-01 07:00:02.400 2.2 + 2023-03-01 07:00:02.800 2.4 + 2023-03-01 07:00:03.200 2.6 + 2023-03-01 07:00:03.600 2.8 + 2023-03-01 07:00:04.000 3.0 + Freq: 400ms, dtype: float64 + + Note that the series erroneously increases between two anchors + ``07:00:00`` and ``07:00:02``. + """ + assert downcast is lib.no_default # just checking coverage + result = self._upsample("asfreq") + return result.interpolate( + method=method, + axis=axis, + limit=limit, + inplace=inplace, + limit_direction=limit_direction, + limit_area=limit_area, + downcast=downcast, + **kwargs, + ) + + @final + def asfreq(self, fill_value=None): + """ + Return the values at the new freq, essentially a reindex. + + Parameters + ---------- + fill_value : scalar, optional + Value to use for missing values, applied during upsampling (note + this does not fill NaNs that already were present). + + Returns + ------- + DataFrame or Series + Values at the specified freq. + + See Also + -------- + Series.asfreq: Convert TimeSeries to specified frequency. + DataFrame.asfreq: Convert TimeSeries to specified frequency. + + Examples + -------- + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-31', '2023-02-01', '2023-02-28'])) + >>> ser + 2023-01-01 1 + 2023-01-31 2 + 2023-02-01 3 + 2023-02-28 4 + dtype: int64 + >>> ser.resample('MS').asfreq() + 2023-01-01 1 + 2023-02-01 3 + Freq: MS, dtype: int64 + """ + return self._upsample("asfreq", fill_value=fill_value) + + @final + def sum( + self, + numeric_only: bool = False, + min_count: int = 0, + *args, + **kwargs, + ): + """ + Compute sum of group values. + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None``. + + min_count : int, default 0 + The required number of valid values to perform the operation. If fewer + than ``min_count`` non-NA values are present the result will be NA. + + Returns + ------- + Series or DataFrame + Computed sum of values within each group. + + Examples + -------- + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').sum() + 2023-01-01 3 + 2023-02-01 7 + Freq: MS, dtype: int64 + """ + maybe_warn_args_and_kwargs(type(self), "sum", args, kwargs) + nv.validate_resampler_func("sum", args, kwargs) + return self._downsample("sum", numeric_only=numeric_only, min_count=min_count) + + @final + def prod( + self, + numeric_only: bool = False, + min_count: int = 0, + *args, + **kwargs, + ): + """ + Compute prod of group values. + + Parameters + ---------- + numeric_only : bool, default False + Include only float, int, boolean columns. + + .. versionchanged:: 2.0.0 + + numeric_only no longer accepts ``None``. + + min_count : int, default 0 + The required number of valid values to perform the operation. If fewer + than ``min_count`` non-NA values are present the result will be NA. + + Returns + ------- + Series or DataFrame + Computed prod of values within each group. + + Examples + -------- + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').prod() + 2023-01-01 2 + 2023-02-01 12 + Freq: MS, dtype: int64 + """ + maybe_warn_args_and_kwargs(type(self), "prod", args, kwargs) + nv.validate_resampler_func("prod", args, kwargs) + return self._downsample("prod", numeric_only=numeric_only, min_count=min_count) + + @final + def min( + self, + numeric_only: bool = False, + min_count: int = 0, + *args, + **kwargs, + ): + """ + Compute min value of group. + + Returns + ------- + Series or DataFrame + + Examples + -------- + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').min() + 2023-01-01 1 + 2023-02-01 3 + Freq: MS, dtype: int64 + """ + + maybe_warn_args_and_kwargs(type(self), "min", args, kwargs) + nv.validate_resampler_func("min", args, kwargs) + return self._downsample("min", numeric_only=numeric_only, min_count=min_count) + + @final + def max( + self, + numeric_only: bool = False, + min_count: int = 0, + *args, + **kwargs, + ): + """ + Compute max value of group. + + Returns + ------- + Series or DataFrame + + Examples + -------- + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').max() + 2023-01-01 2 + 2023-02-01 4 + Freq: MS, dtype: int64 + """ + maybe_warn_args_and_kwargs(type(self), "max", args, kwargs) + nv.validate_resampler_func("max", args, kwargs) + return self._downsample("max", numeric_only=numeric_only, min_count=min_count) + + @final + @doc(GroupBy.first) + def first( + self, + numeric_only: bool = False, + min_count: int = 0, + skipna: bool = True, + *args, + **kwargs, + ): + maybe_warn_args_and_kwargs(type(self), "first", args, kwargs) + nv.validate_resampler_func("first", args, kwargs) + return self._downsample( + "first", numeric_only=numeric_only, min_count=min_count, skipna=skipna + ) + + @final + @doc(GroupBy.last) + def last( + self, + numeric_only: bool = False, + min_count: int = 0, + skipna: bool = True, + *args, + **kwargs, + ): + maybe_warn_args_and_kwargs(type(self), "last", args, kwargs) + nv.validate_resampler_func("last", args, kwargs) + return self._downsample( + "last", numeric_only=numeric_only, min_count=min_count, skipna=skipna + ) + + @final + @doc(GroupBy.median) + def median(self, numeric_only: bool = False, *args, **kwargs): + maybe_warn_args_and_kwargs(type(self), "median", args, kwargs) + nv.validate_resampler_func("median", args, kwargs) + return self._downsample("median", numeric_only=numeric_only) + + @final + def mean( + self, + numeric_only: bool = False, + *args, + **kwargs, + ): + """ + Compute mean of groups, excluding missing values. + + Parameters + ---------- + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + DataFrame or Series + Mean of values within each group. + + Examples + -------- + + >>> ser = pd.Series([1, 2, 3, 4], index=pd.DatetimeIndex( + ... ['2023-01-01', '2023-01-15', '2023-02-01', '2023-02-15'])) + >>> ser + 2023-01-01 1 + 2023-01-15 2 + 2023-02-01 3 + 2023-02-15 4 + dtype: int64 + >>> ser.resample('MS').mean() + 2023-01-01 1.5 + 2023-02-01 3.5 + Freq: MS, dtype: float64 + """ + maybe_warn_args_and_kwargs(type(self), "mean", args, kwargs) + nv.validate_resampler_func("mean", args, kwargs) + return self._downsample("mean", numeric_only=numeric_only) + + @final + def std( + self, + ddof: int = 1, + numeric_only: bool = False, + *args, + **kwargs, + ): + """ + Compute standard deviation of groups, excluding missing values. + + Parameters + ---------- + ddof : int, default 1 + Degrees of freedom. + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + DataFrame or Series + Standard deviation of values within each group. + + Examples + -------- + + >>> ser = pd.Series([1, 3, 2, 4, 3, 8], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').std() + 2023-01-01 1.000000 + 2023-02-01 2.645751 + Freq: MS, dtype: float64 + """ + maybe_warn_args_and_kwargs(type(self), "std", args, kwargs) + nv.validate_resampler_func("std", args, kwargs) + return self._downsample("std", ddof=ddof, numeric_only=numeric_only) + + @final + def var( + self, + ddof: int = 1, + numeric_only: bool = False, + *args, + **kwargs, + ): + """ + Compute variance of groups, excluding missing values. + + Parameters + ---------- + ddof : int, default 1 + Degrees of freedom. + + numeric_only : bool, default False + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + .. versionchanged:: 2.0.0 + + numeric_only now defaults to ``False``. + + Returns + ------- + DataFrame or Series + Variance of values within each group. + + Examples + -------- + + >>> ser = pd.Series([1, 3, 2, 4, 3, 8], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').var() + 2023-01-01 1.0 + 2023-02-01 7.0 + Freq: MS, dtype: float64 + + >>> ser.resample('MS').var(ddof=0) + 2023-01-01 0.666667 + 2023-02-01 4.666667 + Freq: MS, dtype: float64 + """ + maybe_warn_args_and_kwargs(type(self), "var", args, kwargs) + nv.validate_resampler_func("var", args, kwargs) + return self._downsample("var", ddof=ddof, numeric_only=numeric_only) + + @final + @doc(GroupBy.sem) + def sem( + self, + ddof: int = 1, + numeric_only: bool = False, + *args, + **kwargs, + ): + maybe_warn_args_and_kwargs(type(self), "sem", args, kwargs) + nv.validate_resampler_func("sem", args, kwargs) + return self._downsample("sem", ddof=ddof, numeric_only=numeric_only) + + @final + @doc(GroupBy.ohlc) + def ohlc( + self, + *args, + **kwargs, + ): + maybe_warn_args_and_kwargs(type(self), "ohlc", args, kwargs) + nv.validate_resampler_func("ohlc", args, kwargs) + + ax = self.ax + obj = self._obj_with_exclusions + if len(ax) == 0: + # GH#42902 + obj = obj.copy() + obj.index = _asfreq_compat(obj.index, self.freq) + if obj.ndim == 1: + obj = obj.to_frame() + obj = obj.reindex(["open", "high", "low", "close"], axis=1) + else: + mi = MultiIndex.from_product( + [obj.columns, ["open", "high", "low", "close"]] + ) + obj = obj.reindex(mi, axis=1) + return obj + + return self._downsample("ohlc") + + @final + @doc(SeriesGroupBy.nunique) + def nunique( + self, + *args, + **kwargs, + ): + maybe_warn_args_and_kwargs(type(self), "nunique", args, kwargs) + nv.validate_resampler_func("nunique", args, kwargs) + return self._downsample("nunique") + + @final + @doc(GroupBy.size) + def size(self): + result = self._downsample("size") + + # If the result is a non-empty DataFrame we stack to get a Series + # GH 46826 + if isinstance(result, ABCDataFrame) and not result.empty: + result = result.stack(future_stack=True) + + if not len(self.ax): + from pandas import Series + + if self._selected_obj.ndim == 1: + name = self._selected_obj.name + else: + name = None + result = Series([], index=result.index, dtype="int64", name=name) + return result + + @final + @doc(GroupBy.count) + def count(self): + result = self._downsample("count") + if not len(self.ax): + if self._selected_obj.ndim == 1: + result = type(self._selected_obj)( + [], index=result.index, dtype="int64", name=self._selected_obj.name + ) + else: + from pandas import DataFrame + + result = DataFrame( + [], index=result.index, columns=result.columns, dtype="int64" + ) + + return result + + @final + def quantile(self, q: float | list[float] | AnyArrayLike = 0.5, **kwargs): + """ + Return value at the given quantile. + + Parameters + ---------- + q : float or array-like, default 0.5 (50% quantile) + + Returns + ------- + DataFrame or Series + Quantile of values within each group. + + See Also + -------- + Series.quantile + Return a series, where the index is q and the values are the quantiles. + DataFrame.quantile + Return a DataFrame, where the columns are the columns of self, + and the values are the quantiles. + DataFrameGroupBy.quantile + Return a DataFrame, where the columns are groupby columns, + and the values are its quantiles. + + Examples + -------- + + >>> ser = pd.Series([1, 3, 2, 4, 3, 8], + ... index=pd.DatetimeIndex(['2023-01-01', + ... '2023-01-10', + ... '2023-01-15', + ... '2023-02-01', + ... '2023-02-10', + ... '2023-02-15'])) + >>> ser.resample('MS').quantile() + 2023-01-01 2.0 + 2023-02-01 4.0 + Freq: MS, dtype: float64 + + >>> ser.resample('MS').quantile(.25) + 2023-01-01 1.5 + 2023-02-01 3.5 + Freq: MS, dtype: float64 + """ + return self._downsample("quantile", q=q, **kwargs) + + +class _GroupByMixin(PandasObject, SelectionMixin): + """ + Provide the groupby facilities. + """ + + _attributes: list[str] # in practice the same as Resampler._attributes + _selection: IndexLabel | None = None + _groupby: GroupBy + _timegrouper: TimeGrouper + + def __init__( + self, + *, + parent: Resampler, + groupby: GroupBy, + key=None, + selection: IndexLabel | None = None, + include_groups: bool = False, + ) -> None: + # reached via ._gotitem and _get_resampler_for_grouping + + assert isinstance(groupby, GroupBy), type(groupby) + + # parent is always a Resampler, sometimes a _GroupByMixin + assert isinstance(parent, Resampler), type(parent) + + # initialize our GroupByMixin object with + # the resampler attributes + for attr in self._attributes: + setattr(self, attr, getattr(parent, attr)) + self._selection = selection + + self.binner = parent.binner + self.key = key + + self._groupby = groupby + self._timegrouper = copy.copy(parent._timegrouper) + + self.ax = parent.ax + self.obj = parent.obj + self.include_groups = include_groups + + @no_type_check + def _apply(self, f, *args, **kwargs): + """ + Dispatch to _upsample; we are stripping all of the _upsample kwargs and + performing the original function call on the grouped object. + """ + + def func(x): + x = self._resampler_cls(x, timegrouper=self._timegrouper, gpr_index=self.ax) + + if isinstance(f, str): + return getattr(x, f)(**kwargs) + + return x.apply(f, *args, **kwargs) + + result = _apply(self._groupby, func, include_groups=self.include_groups) + return self._wrap_result(result) + + _upsample = _apply + _downsample = _apply + _groupby_and_aggregate = _apply + + @final + def _gotitem(self, key, ndim, subset=None): + """ + Sub-classes to define. Return a sliced object. + + Parameters + ---------- + key : string / list of selections + ndim : {1, 2} + requested ndim of result + subset : object, default None + subset to act on + """ + # create a new object to prevent aliasing + if subset is None: + subset = self.obj + if key is not None: + subset = subset[key] + else: + # reached via Apply.agg_dict_like with selection=None, ndim=1 + assert subset.ndim == 1 + + # Try to select from a DataFrame, falling back to a Series + try: + if isinstance(key, list) and self.key not in key and self.key is not None: + key.append(self.key) + groupby = self._groupby[key] + except IndexError: + groupby = self._groupby + + selection = self._infer_selection(key, subset) + + new_rs = type(self)( + groupby=groupby, + parent=cast(Resampler, self), + selection=selection, + ) + return new_rs + + +class DatetimeIndexResampler(Resampler): + ax: DatetimeIndex + + @property + def _resampler_for_grouping(self): + return DatetimeIndexResamplerGroupby + + def _get_binner_for_time(self): + # this is how we are actually creating the bins + if self.kind == "period": + return self._timegrouper._get_time_period_bins(self.ax) + return self._timegrouper._get_time_bins(self.ax) + + def _downsample(self, how, **kwargs): + """ + Downsample the cython defined function. + + Parameters + ---------- + how : string / cython mapped function + **kwargs : kw args passed to how function + """ + orig_how = how + how = com.get_cython_func(how) or how + if orig_how != how: + warn_alias_replacement(self, orig_how, how) + ax = self.ax + + # Excludes `on` column when provided + obj = self._obj_with_exclusions + + if not len(ax): + # reset to the new freq + obj = obj.copy() + obj.index = obj.index._with_freq(self.freq) + assert obj.index.freq == self.freq, (obj.index.freq, self.freq) + return obj + + # do we have a regular frequency + + # error: Item "None" of "Optional[Any]" has no attribute "binlabels" + if ( + (ax.freq is not None or ax.inferred_freq is not None) + and len(self._grouper.binlabels) > len(ax) + and how is None + ): + # let's do an asfreq + return self.asfreq() + + # we are downsampling + # we want to call the actual grouper method here + if self.axis == 0: + result = obj.groupby(self._grouper).aggregate(how, **kwargs) + else: + # test_resample_axis1 + result = obj.T.groupby(self._grouper).aggregate(how, **kwargs).T + + return self._wrap_result(result) + + def _adjust_binner_for_upsample(self, binner): + """ + Adjust our binner when upsampling. + + The range of a new index should not be outside specified range + """ + if self.closed == "right": + binner = binner[1:] + else: + binner = binner[:-1] + return binner + + def _upsample(self, method, limit: int | None = None, fill_value=None): + """ + Parameters + ---------- + method : string {'backfill', 'bfill', 'pad', + 'ffill', 'asfreq'} method for upsampling + limit : int, default None + Maximum size gap to fill when reindexing + fill_value : scalar, default None + Value to use for missing values + + See Also + -------- + .fillna: Fill NA/NaN values using the specified method. + + """ + if self.axis: + raise AssertionError("axis must be 0") + if self._from_selection: + raise ValueError( + "Upsampling from level= or on= selection " + "is not supported, use .set_index(...) " + "to explicitly set index to datetime-like" + ) + + ax = self.ax + obj = self._selected_obj + binner = self.binner + res_index = self._adjust_binner_for_upsample(binner) + + # if we have the same frequency as our axis, then we are equal sampling + if ( + limit is None + and to_offset(ax.inferred_freq) == self.freq + and len(obj) == len(res_index) + ): + result = obj.copy() + result.index = res_index + else: + if method == "asfreq": + method = None + result = obj.reindex( + res_index, method=method, limit=limit, fill_value=fill_value + ) + + return self._wrap_result(result) + + def _wrap_result(self, result): + result = super()._wrap_result(result) + + # we may have a different kind that we were asked originally + # convert if needed + if self.kind == "period" and not isinstance(result.index, PeriodIndex): + if isinstance(result.index, MultiIndex): + # GH 24103 - e.g. groupby resample + if not isinstance(result.index.levels[-1], PeriodIndex): + new_level = result.index.levels[-1].to_period(self.freq) + result.index = result.index.set_levels(new_level, level=-1) + else: + result.index = result.index.to_period(self.freq) + return result + + +# error: Definition of "ax" in base class "_GroupByMixin" is incompatible +# with definition in base class "DatetimeIndexResampler" +class DatetimeIndexResamplerGroupby( # type: ignore[misc] + _GroupByMixin, DatetimeIndexResampler +): + """ + Provides a resample of a groupby implementation + """ + + @property + def _resampler_cls(self): + return DatetimeIndexResampler + + +class PeriodIndexResampler(DatetimeIndexResampler): + # error: Incompatible types in assignment (expression has type "PeriodIndex", base + # class "DatetimeIndexResampler" defined the type as "DatetimeIndex") + ax: PeriodIndex # type: ignore[assignment] + + @property + def _resampler_for_grouping(self): + warnings.warn( + "Resampling a groupby with a PeriodIndex is deprecated. " + "Cast to DatetimeIndex before resampling instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return PeriodIndexResamplerGroupby + + def _get_binner_for_time(self): + if self.kind == "timestamp": + return super()._get_binner_for_time() + return self._timegrouper._get_period_bins(self.ax) + + def _convert_obj(self, obj: NDFrameT) -> NDFrameT: + obj = super()._convert_obj(obj) + + if self._from_selection: + # see GH 14008, GH 12871 + msg = ( + "Resampling from level= or on= selection " + "with a PeriodIndex is not currently supported, " + "use .set_index(...) to explicitly set index" + ) + raise NotImplementedError(msg) + + # convert to timestamp + if self.kind == "timestamp": + obj = obj.to_timestamp(how=self.convention) + + return obj + + def _downsample(self, how, **kwargs): + """ + Downsample the cython defined function. + + Parameters + ---------- + how : string / cython mapped function + **kwargs : kw args passed to how function + """ + # we may need to actually resample as if we are timestamps + if self.kind == "timestamp": + return super()._downsample(how, **kwargs) + + orig_how = how + how = com.get_cython_func(how) or how + if orig_how != how: + warn_alias_replacement(self, orig_how, how) + ax = self.ax + + if is_subperiod(ax.freq, self.freq): + # Downsampling + return self._groupby_and_aggregate(how, **kwargs) + elif is_superperiod(ax.freq, self.freq): + if how == "ohlc": + # GH #13083 + # upsampling to subperiods is handled as an asfreq, which works + # for pure aggregating/reducing methods + # OHLC reduces along the time dimension, but creates multiple + # values for each period -> handle by _groupby_and_aggregate() + return self._groupby_and_aggregate(how) + return self.asfreq() + elif ax.freq == self.freq: + return self.asfreq() + + raise IncompatibleFrequency( + f"Frequency {ax.freq} cannot be resampled to {self.freq}, " + "as they are not sub or super periods" + ) + + def _upsample(self, method, limit: int | None = None, fill_value=None): + """ + Parameters + ---------- + method : {'backfill', 'bfill', 'pad', 'ffill'} + Method for upsampling. + limit : int, default None + Maximum size gap to fill when reindexing. + fill_value : scalar, default None + Value to use for missing values. + + See Also + -------- + .fillna: Fill NA/NaN values using the specified method. + + """ + # we may need to actually resample as if we are timestamps + if self.kind == "timestamp": + return super()._upsample(method, limit=limit, fill_value=fill_value) + + ax = self.ax + obj = self.obj + new_index = self.binner + + # Start vs. end of period + memb = ax.asfreq(self.freq, how=self.convention) + + # Get the fill indexer + if method == "asfreq": + method = None + indexer = memb.get_indexer(new_index, method=method, limit=limit) + new_obj = _take_new_index( + obj, + indexer, + new_index, + axis=self.axis, + ) + return self._wrap_result(new_obj) + + +# error: Definition of "ax" in base class "_GroupByMixin" is incompatible with +# definition in base class "PeriodIndexResampler" +class PeriodIndexResamplerGroupby( # type: ignore[misc] + _GroupByMixin, PeriodIndexResampler +): + """ + Provides a resample of a groupby implementation. + """ + + @property + def _resampler_cls(self): + return PeriodIndexResampler + + +class TimedeltaIndexResampler(DatetimeIndexResampler): + # error: Incompatible types in assignment (expression has type "TimedeltaIndex", + # base class "DatetimeIndexResampler" defined the type as "DatetimeIndex") + ax: TimedeltaIndex # type: ignore[assignment] + + @property + def _resampler_for_grouping(self): + return TimedeltaIndexResamplerGroupby + + def _get_binner_for_time(self): + return self._timegrouper._get_time_delta_bins(self.ax) + + def _adjust_binner_for_upsample(self, binner): + """ + Adjust our binner when upsampling. + + The range of a new index is allowed to be greater than original range + so we don't need to change the length of a binner, GH 13022 + """ + return binner + + +# error: Definition of "ax" in base class "_GroupByMixin" is incompatible with +# definition in base class "DatetimeIndexResampler" +class TimedeltaIndexResamplerGroupby( # type: ignore[misc] + _GroupByMixin, TimedeltaIndexResampler +): + """ + Provides a resample of a groupby implementation. + """ + + @property + def _resampler_cls(self): + return TimedeltaIndexResampler + + +def get_resampler(obj: Series | DataFrame, kind=None, **kwds) -> Resampler: + """ + Create a TimeGrouper and return our resampler. + """ + tg = TimeGrouper(obj, **kwds) # type: ignore[arg-type] + return tg._get_resampler(obj, kind=kind) + + +get_resampler.__doc__ = Resampler.__doc__ + + +def get_resampler_for_grouping( + groupby: GroupBy, + rule, + how=None, + fill_method=None, + limit: int | None = None, + kind=None, + on=None, + include_groups: bool = True, + **kwargs, +) -> Resampler: + """ + Return our appropriate resampler when grouping as well. + """ + # .resample uses 'on' similar to how .groupby uses 'key' + tg = TimeGrouper(freq=rule, key=on, **kwargs) + resampler = tg._get_resampler(groupby.obj, kind=kind) + return resampler._get_resampler_for_grouping( + groupby=groupby, include_groups=include_groups, key=tg.key + ) + + +class TimeGrouper(Grouper): + """ + Custom groupby class for time-interval grouping. + + Parameters + ---------- + freq : pandas date offset or offset alias for identifying bin edges + closed : closed end of interval; 'left' or 'right' + label : interval boundary to use for labeling; 'left' or 'right' + convention : {'start', 'end', 'e', 's'} + If axis is PeriodIndex + """ + + _attributes = Grouper._attributes + ( + "closed", + "label", + "how", + "kind", + "convention", + "origin", + "offset", + ) + + origin: TimeGrouperOrigin + + def __init__( + self, + obj: Grouper | None = None, + freq: Frequency = "Min", + key: str | None = None, + closed: Literal["left", "right"] | None = None, + label: Literal["left", "right"] | None = None, + how: str = "mean", + axis: Axis = 0, + fill_method=None, + limit: int | None = None, + kind: str | None = None, + convention: Literal["start", "end", "e", "s"] | None = None, + origin: Literal["epoch", "start", "start_day", "end", "end_day"] + | TimestampConvertibleTypes = "start_day", + offset: TimedeltaConvertibleTypes | None = None, + group_keys: bool = False, + **kwargs, + ) -> None: + # Check for correctness of the keyword arguments which would + # otherwise silently use the default if misspelled + if label not in {None, "left", "right"}: + raise ValueError(f"Unsupported value {label} for `label`") + if closed not in {None, "left", "right"}: + raise ValueError(f"Unsupported value {closed} for `closed`") + if convention not in {None, "start", "end", "e", "s"}: + raise ValueError(f"Unsupported value {convention} for `convention`") + + if ( + key is None + and obj is not None + and isinstance(obj.index, PeriodIndex) # type: ignore[attr-defined] + or ( + key is not None + and obj is not None + and getattr(obj[key], "dtype", None) == "period" # type: ignore[index] + ) + ): + freq = to_offset(freq, is_period=True) + else: + freq = to_offset(freq) + + end_types = {"ME", "YE", "QE", "BME", "BYE", "BQE", "W"} + rule = freq.rule_code + if rule in end_types or ("-" in rule and rule[: rule.find("-")] in end_types): + if closed is None: + closed = "right" + if label is None: + label = "right" + else: + # The backward resample sets ``closed`` to ``'right'`` by default + # since the last value should be considered as the edge point for + # the last bin. When origin in "end" or "end_day", the value for a + # specific ``Timestamp`` index stands for the resample result from + # the current ``Timestamp`` minus ``freq`` to the current + # ``Timestamp`` with a right close. + if origin in ["end", "end_day"]: + if closed is None: + closed = "right" + if label is None: + label = "right" + else: + if closed is None: + closed = "left" + if label is None: + label = "left" + + self.closed = closed + self.label = label + self.kind = kind + self.convention = convention if convention is not None else "e" + self.how = how + self.fill_method = fill_method + self.limit = limit + self.group_keys = group_keys + self._arrow_dtype: ArrowDtype | None = None + + if origin in ("epoch", "start", "start_day", "end", "end_day"): + # error: Incompatible types in assignment (expression has type "Union[Union[ + # Timestamp, datetime, datetime64, signedinteger[_64Bit], float, str], + # Literal['epoch', 'start', 'start_day', 'end', 'end_day']]", variable has + # type "Union[Timestamp, Literal['epoch', 'start', 'start_day', 'end', + # 'end_day']]") + self.origin = origin # type: ignore[assignment] + else: + try: + self.origin = Timestamp(origin) + except (ValueError, TypeError) as err: + raise ValueError( + "'origin' should be equal to 'epoch', 'start', 'start_day', " + "'end', 'end_day' or " + f"should be a Timestamp convertible type. Got '{origin}' instead." + ) from err + + try: + self.offset = Timedelta(offset) if offset is not None else None + except (ValueError, TypeError) as err: + raise ValueError( + "'offset' should be a Timedelta convertible type. " + f"Got '{offset}' instead." + ) from err + + # always sort time groupers + kwargs["sort"] = True + + super().__init__(freq=freq, key=key, axis=axis, **kwargs) + + def _get_resampler(self, obj: NDFrame, kind=None) -> Resampler: + """ + Return my resampler or raise if we have an invalid axis. + + Parameters + ---------- + obj : Series or DataFrame + kind : string, optional + 'period','timestamp','timedelta' are valid + + Returns + ------- + Resampler + + Raises + ------ + TypeError if incompatible axis + + """ + _, ax, _ = self._set_grouper(obj, gpr_index=None) + if isinstance(ax, DatetimeIndex): + return DatetimeIndexResampler( + obj, + timegrouper=self, + kind=kind, + axis=self.axis, + group_keys=self.group_keys, + gpr_index=ax, + ) + elif isinstance(ax, PeriodIndex) or kind == "period": + if isinstance(ax, PeriodIndex): + # GH#53481 + warnings.warn( + "Resampling with a PeriodIndex is deprecated. " + "Cast index to DatetimeIndex before resampling instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + else: + warnings.warn( + "Resampling with kind='period' is deprecated. " + "Use datetime paths instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return PeriodIndexResampler( + obj, + timegrouper=self, + kind=kind, + axis=self.axis, + group_keys=self.group_keys, + gpr_index=ax, + ) + elif isinstance(ax, TimedeltaIndex): + return TimedeltaIndexResampler( + obj, + timegrouper=self, + axis=self.axis, + group_keys=self.group_keys, + gpr_index=ax, + ) + + raise TypeError( + "Only valid with DatetimeIndex, " + "TimedeltaIndex or PeriodIndex, " + f"but got an instance of '{type(ax).__name__}'" + ) + + def _get_grouper( + self, obj: NDFrameT, validate: bool = True + ) -> tuple[BinGrouper, NDFrameT]: + # create the resampler and return our binner + r = self._get_resampler(obj) + return r._grouper, cast(NDFrameT, r.obj) + + def _get_time_bins(self, ax: DatetimeIndex): + if not isinstance(ax, DatetimeIndex): + raise TypeError( + "axis must be a DatetimeIndex, but got " + f"an instance of {type(ax).__name__}" + ) + + if len(ax) == 0: + binner = labels = DatetimeIndex( + data=[], freq=self.freq, name=ax.name, dtype=ax.dtype + ) + return binner, [], labels + + first, last = _get_timestamp_range_edges( + ax.min(), + ax.max(), + self.freq, + unit=ax.unit, + closed=self.closed, + origin=self.origin, + offset=self.offset, + ) + # GH #12037 + # use first/last directly instead of call replace() on them + # because replace() will swallow the nanosecond part + # thus last bin maybe slightly before the end if the end contains + # nanosecond part and lead to `Values falls after last bin` error + # GH 25758: If DST lands at midnight (e.g. 'America/Havana'), user feedback + # has noted that ambiguous=True provides the most sensible result + binner = labels = date_range( + freq=self.freq, + start=first, + end=last, + tz=ax.tz, + name=ax.name, + ambiguous=True, + nonexistent="shift_forward", + unit=ax.unit, + ) + + ax_values = ax.asi8 + binner, bin_edges = self._adjust_bin_edges(binner, ax_values) + + # general version, knowing nothing about relative frequencies + bins = lib.generate_bins_dt64( + ax_values, bin_edges, self.closed, hasnans=ax.hasnans + ) + + if self.closed == "right": + labels = binner + if self.label == "right": + labels = labels[1:] + elif self.label == "right": + labels = labels[1:] + + if ax.hasnans: + binner = binner.insert(0, NaT) + labels = labels.insert(0, NaT) + + # if we end up with more labels than bins + # adjust the labels + # GH4076 + if len(bins) < len(labels): + labels = labels[: len(bins)] + + return binner, bins, labels + + def _adjust_bin_edges( + self, binner: DatetimeIndex, ax_values: npt.NDArray[np.int64] + ) -> tuple[DatetimeIndex, npt.NDArray[np.int64]]: + # Some hacks for > daily data, see #1471, #1458, #1483 + + if self.freq.name in ("BME", "ME", "W") or self.freq.name.split("-")[0] in ( + "BQE", + "BYE", + "QE", + "YE", + "W", + ): + # If the right end-point is on the last day of the month, roll forwards + # until the last moment of that day. Note that we only do this for offsets + # which correspond to the end of a super-daily period - "month start", for + # example, is excluded. + if self.closed == "right": + # GH 21459, GH 9119: Adjust the bins relative to the wall time + edges_dti = binner.tz_localize(None) + edges_dti = ( + edges_dti + + Timedelta(days=1, unit=edges_dti.unit).as_unit(edges_dti.unit) + - Timedelta(1, unit=edges_dti.unit).as_unit(edges_dti.unit) + ) + bin_edges = edges_dti.tz_localize(binner.tz).asi8 + else: + bin_edges = binner.asi8 + + # intraday values on last day + if bin_edges[-2] > ax_values.max(): + bin_edges = bin_edges[:-1] + binner = binner[:-1] + else: + bin_edges = binner.asi8 + return binner, bin_edges + + def _get_time_delta_bins(self, ax: TimedeltaIndex): + if not isinstance(ax, TimedeltaIndex): + raise TypeError( + "axis must be a TimedeltaIndex, but got " + f"an instance of {type(ax).__name__}" + ) + + if not isinstance(self.freq, Tick): + # GH#51896 + raise ValueError( + "Resampling on a TimedeltaIndex requires fixed-duration `freq`, " + f"e.g. '24h' or '3D', not {self.freq}" + ) + + if not len(ax): + binner = labels = TimedeltaIndex(data=[], freq=self.freq, name=ax.name) + return binner, [], labels + + start, end = ax.min(), ax.max() + + if self.closed == "right": + end += self.freq + + labels = binner = timedelta_range( + start=start, end=end, freq=self.freq, name=ax.name + ) + + end_stamps = labels + if self.closed == "left": + end_stamps += self.freq + + bins = ax.searchsorted(end_stamps, side=self.closed) + + if self.offset: + # GH 10530 & 31809 + labels += self.offset + + return binner, bins, labels + + def _get_time_period_bins(self, ax: DatetimeIndex): + if not isinstance(ax, DatetimeIndex): + raise TypeError( + "axis must be a DatetimeIndex, but got " + f"an instance of {type(ax).__name__}" + ) + + freq = self.freq + + if len(ax) == 0: + binner = labels = PeriodIndex( + data=[], freq=freq, name=ax.name, dtype=ax.dtype + ) + return binner, [], labels + + labels = binner = period_range(start=ax[0], end=ax[-1], freq=freq, name=ax.name) + + end_stamps = (labels + freq).asfreq(freq, "s").to_timestamp() + if ax.tz: + end_stamps = end_stamps.tz_localize(ax.tz) + bins = ax.searchsorted(end_stamps, side="left") + + return binner, bins, labels + + def _get_period_bins(self, ax: PeriodIndex): + if not isinstance(ax, PeriodIndex): + raise TypeError( + "axis must be a PeriodIndex, but got " + f"an instance of {type(ax).__name__}" + ) + + memb = ax.asfreq(self.freq, how=self.convention) + + # NaT handling as in pandas._lib.lib.generate_bins_dt64() + nat_count = 0 + if memb.hasnans: + # error: Incompatible types in assignment (expression has type + # "bool_", variable has type "int") [assignment] + nat_count = np.sum(memb._isnan) # type: ignore[assignment] + memb = memb[~memb._isnan] + + if not len(memb): + # index contains no valid (non-NaT) values + bins = np.array([], dtype=np.int64) + binner = labels = PeriodIndex(data=[], freq=self.freq, name=ax.name) + if len(ax) > 0: + # index is all NaT + binner, bins, labels = _insert_nat_bin(binner, bins, labels, len(ax)) + return binner, bins, labels + + freq_mult = self.freq.n + + start = ax.min().asfreq(self.freq, how=self.convention) + end = ax.max().asfreq(self.freq, how="end") + bin_shift = 0 + + if isinstance(self.freq, Tick): + # GH 23882 & 31809: get adjusted bin edge labels with 'origin' + # and 'origin' support. This call only makes sense if the freq is a + # Tick since offset and origin are only used in those cases. + # Not doing this check could create an extra empty bin. + p_start, end = _get_period_range_edges( + start, + end, + self.freq, + closed=self.closed, + origin=self.origin, + offset=self.offset, + ) + + # Get offset for bin edge (not label edge) adjustment + start_offset = Period(start, self.freq) - Period(p_start, self.freq) + # error: Item "Period" of "Union[Period, Any]" has no attribute "n" + bin_shift = start_offset.n % freq_mult # type: ignore[union-attr] + start = p_start + + labels = binner = period_range( + start=start, end=end, freq=self.freq, name=ax.name + ) + + i8 = memb.asi8 + + # when upsampling to subperiods, we need to generate enough bins + expected_bins_count = len(binner) * freq_mult + i8_extend = expected_bins_count - (i8[-1] - i8[0]) + rng = np.arange(i8[0], i8[-1] + i8_extend, freq_mult) + rng += freq_mult + # adjust bin edge indexes to account for base + rng -= bin_shift + + # Wrap in PeriodArray for PeriodArray.searchsorted + prng = type(memb._data)(rng, dtype=memb.dtype) + bins = memb.searchsorted(prng, side="left") + + if nat_count > 0: + binner, bins, labels = _insert_nat_bin(binner, bins, labels, nat_count) + + return binner, bins, labels + + def _set_grouper( + self, obj: NDFrameT, sort: bool = False, *, gpr_index: Index | None = None + ) -> tuple[NDFrameT, Index, npt.NDArray[np.intp] | None]: + obj, ax, indexer = super()._set_grouper(obj, sort, gpr_index=gpr_index) + if isinstance(ax.dtype, ArrowDtype) and ax.dtype.kind in "Mm": + self._arrow_dtype = ax.dtype + ax = Index( + cast(ArrowExtensionArray, ax.array)._maybe_convert_datelike_array() + ) + return obj, ax, indexer + + +def _take_new_index( + obj: NDFrameT, indexer: npt.NDArray[np.intp], new_index: Index, axis: AxisInt = 0 +) -> NDFrameT: + if isinstance(obj, ABCSeries): + new_values = algos.take_nd(obj._values, indexer) + # error: Incompatible return value type (got "Series", expected "NDFrameT") + return obj._constructor( # type: ignore[return-value] + new_values, index=new_index, name=obj.name + ) + elif isinstance(obj, ABCDataFrame): + if axis == 1: + raise NotImplementedError("axis 1 is not supported") + new_mgr = obj._mgr.reindex_indexer(new_axis=new_index, indexer=indexer, axis=1) + # error: Incompatible return value type (got "DataFrame", expected "NDFrameT") + return obj._constructor_from_mgr(new_mgr, axes=new_mgr.axes) # type: ignore[return-value] + else: + raise ValueError("'obj' should be either a Series or a DataFrame") + + +def _get_timestamp_range_edges( + first: Timestamp, + last: Timestamp, + freq: BaseOffset, + unit: str, + closed: Literal["right", "left"] = "left", + origin: TimeGrouperOrigin = "start_day", + offset: Timedelta | None = None, +) -> tuple[Timestamp, Timestamp]: + """ + Adjust the `first` Timestamp to the preceding Timestamp that resides on + the provided offset. Adjust the `last` Timestamp to the following + Timestamp that resides on the provided offset. Input Timestamps that + already reside on the offset will be adjusted depending on the type of + offset and the `closed` parameter. + + Parameters + ---------- + first : pd.Timestamp + The beginning Timestamp of the range to be adjusted. + last : pd.Timestamp + The ending Timestamp of the range to be adjusted. + freq : pd.DateOffset + The dateoffset to which the Timestamps will be adjusted. + closed : {'right', 'left'}, default "left" + Which side of bin interval is closed. + origin : {'epoch', 'start', 'start_day'} or Timestamp, default 'start_day' + The timestamp on which to adjust the grouping. The timezone of origin must + match the timezone of the index. + If a timestamp is not used, these values are also supported: + + - 'epoch': `origin` is 1970-01-01 + - 'start': `origin` is the first value of the timeseries + - 'start_day': `origin` is the first day at midnight of the timeseries + offset : pd.Timedelta, default is None + An offset timedelta added to the origin. + + Returns + ------- + A tuple of length 2, containing the adjusted pd.Timestamp objects. + """ + if isinstance(freq, Tick): + index_tz = first.tz + if isinstance(origin, Timestamp) and (origin.tz is None) != (index_tz is None): + raise ValueError("The origin must have the same timezone as the index.") + if origin == "epoch": + # set the epoch based on the timezone to have similar bins results when + # resampling on the same kind of indexes on different timezones + origin = Timestamp("1970-01-01", tz=index_tz) + + if isinstance(freq, Day): + # _adjust_dates_anchored assumes 'D' means 24h, but first/last + # might contain a DST transition (23h, 24h, or 25h). + # So "pretend" the dates are naive when adjusting the endpoints + first = first.tz_localize(None) + last = last.tz_localize(None) + if isinstance(origin, Timestamp): + origin = origin.tz_localize(None) + + first, last = _adjust_dates_anchored( + first, last, freq, closed=closed, origin=origin, offset=offset, unit=unit + ) + if isinstance(freq, Day): + first = first.tz_localize(index_tz) + last = last.tz_localize(index_tz) + else: + first = first.normalize() + last = last.normalize() + + if closed == "left": + first = Timestamp(freq.rollback(first)) + else: + first = Timestamp(first - freq) + + last = Timestamp(last + freq) + + return first, last + + +def _get_period_range_edges( + first: Period, + last: Period, + freq: BaseOffset, + closed: Literal["right", "left"] = "left", + origin: TimeGrouperOrigin = "start_day", + offset: Timedelta | None = None, +) -> tuple[Period, Period]: + """ + Adjust the provided `first` and `last` Periods to the respective Period of + the given offset that encompasses them. + + Parameters + ---------- + first : pd.Period + The beginning Period of the range to be adjusted. + last : pd.Period + The ending Period of the range to be adjusted. + freq : pd.DateOffset + The freq to which the Periods will be adjusted. + closed : {'right', 'left'}, default "left" + Which side of bin interval is closed. + origin : {'epoch', 'start', 'start_day'}, Timestamp, default 'start_day' + The timestamp on which to adjust the grouping. The timezone of origin must + match the timezone of the index. + + If a timestamp is not used, these values are also supported: + + - 'epoch': `origin` is 1970-01-01 + - 'start': `origin` is the first value of the timeseries + - 'start_day': `origin` is the first day at midnight of the timeseries + offset : pd.Timedelta, default is None + An offset timedelta added to the origin. + + Returns + ------- + A tuple of length 2, containing the adjusted pd.Period objects. + """ + if not all(isinstance(obj, Period) for obj in [first, last]): + raise TypeError("'first' and 'last' must be instances of type Period") + + # GH 23882 + first_ts = first.to_timestamp() + last_ts = last.to_timestamp() + adjust_first = not freq.is_on_offset(first_ts) + adjust_last = freq.is_on_offset(last_ts) + + first_ts, last_ts = _get_timestamp_range_edges( + first_ts, last_ts, freq, unit="ns", closed=closed, origin=origin, offset=offset + ) + + first = (first_ts + int(adjust_first) * freq).to_period(freq) + last = (last_ts - int(adjust_last) * freq).to_period(freq) + return first, last + + +def _insert_nat_bin( + binner: PeriodIndex, bins: np.ndarray, labels: PeriodIndex, nat_count: int +) -> tuple[PeriodIndex, np.ndarray, PeriodIndex]: + # NaT handling as in pandas._lib.lib.generate_bins_dt64() + # shift bins by the number of NaT + assert nat_count > 0 + bins += nat_count + bins = np.insert(bins, 0, nat_count) + + # Incompatible types in assignment (expression has type "Index", variable + # has type "PeriodIndex") + binner = binner.insert(0, NaT) # type: ignore[assignment] + # Incompatible types in assignment (expression has type "Index", variable + # has type "PeriodIndex") + labels = labels.insert(0, NaT) # type: ignore[assignment] + return binner, bins, labels + + +def _adjust_dates_anchored( + first: Timestamp, + last: Timestamp, + freq: Tick, + closed: Literal["right", "left"] = "right", + origin: TimeGrouperOrigin = "start_day", + offset: Timedelta | None = None, + unit: str = "ns", +) -> tuple[Timestamp, Timestamp]: + # First and last offsets should be calculated from the start day to fix an + # error cause by resampling across multiple days when a one day period is + # not a multiple of the frequency. See GH 8683 + # To handle frequencies that are not multiple or divisible by a day we let + # the possibility to define a fixed origin timestamp. See GH 31809 + first = first.as_unit(unit) + last = last.as_unit(unit) + if offset is not None: + offset = offset.as_unit(unit) + + freq_value = Timedelta(freq).as_unit(unit)._value + + origin_timestamp = 0 # origin == "epoch" + if origin == "start_day": + origin_timestamp = first.normalize()._value + elif origin == "start": + origin_timestamp = first._value + elif isinstance(origin, Timestamp): + origin_timestamp = origin.as_unit(unit)._value + elif origin in ["end", "end_day"]: + origin_last = last if origin == "end" else last.ceil("D") + sub_freq_times = (origin_last._value - first._value) // freq_value + if closed == "left": + sub_freq_times += 1 + first = origin_last - sub_freq_times * freq + origin_timestamp = first._value + origin_timestamp += offset._value if offset else 0 + + # GH 10117 & GH 19375. If first and last contain timezone information, + # Perform the calculation in UTC in order to avoid localizing on an + # Ambiguous or Nonexistent time. + first_tzinfo = first.tzinfo + last_tzinfo = last.tzinfo + if first_tzinfo is not None: + first = first.tz_convert("UTC") + if last_tzinfo is not None: + last = last.tz_convert("UTC") + + foffset = (first._value - origin_timestamp) % freq_value + loffset = (last._value - origin_timestamp) % freq_value + + if closed == "right": + if foffset > 0: + # roll back + fresult_int = first._value - foffset + else: + fresult_int = first._value - freq_value + + if loffset > 0: + # roll forward + lresult_int = last._value + (freq_value - loffset) + else: + # already the end of the road + lresult_int = last._value + else: # closed == 'left' + if foffset > 0: + fresult_int = first._value - foffset + else: + # start of the road + fresult_int = first._value + + if loffset > 0: + # roll forward + lresult_int = last._value + (freq_value - loffset) + else: + lresult_int = last._value + freq_value + fresult = Timestamp(fresult_int, unit=unit) + lresult = Timestamp(lresult_int, unit=unit) + if first_tzinfo is not None: + fresult = fresult.tz_localize("UTC").tz_convert(first_tzinfo) + if last_tzinfo is not None: + lresult = lresult.tz_localize("UTC").tz_convert(last_tzinfo) + return fresult, lresult + + +def asfreq( + obj: NDFrameT, + freq, + method=None, + how=None, + normalize: bool = False, + fill_value=None, +) -> NDFrameT: + """ + Utility frequency conversion method for Series/DataFrame. + + See :meth:`pandas.NDFrame.asfreq` for full documentation. + """ + if isinstance(obj.index, PeriodIndex): + if method is not None: + raise NotImplementedError("'method' argument is not supported") + + if how is None: + how = "E" + + if isinstance(freq, BaseOffset): + if hasattr(freq, "_period_dtype_code"): + freq = freq_to_period_freqstr(freq.n, freq.name) + else: + raise ValueError( + f"Invalid offset: '{freq.base}' for converting time series " + f"with PeriodIndex." + ) + + new_obj = obj.copy() + new_obj.index = obj.index.asfreq(freq, how=how) + + elif len(obj.index) == 0: + new_obj = obj.copy() + + new_obj.index = _asfreq_compat(obj.index, freq) + else: + unit = None + if isinstance(obj.index, DatetimeIndex): + # TODO: should we disallow non-DatetimeIndex? + unit = obj.index.unit + dti = date_range(obj.index.min(), obj.index.max(), freq=freq, unit=unit) + dti.name = obj.index.name + new_obj = obj.reindex(dti, method=method, fill_value=fill_value) + if normalize: + new_obj.index = new_obj.index.normalize() + + return new_obj + + +def _asfreq_compat(index: DatetimeIndex | PeriodIndex | TimedeltaIndex, freq): + """ + Helper to mimic asfreq on (empty) DatetimeIndex and TimedeltaIndex. + + Parameters + ---------- + index : PeriodIndex, DatetimeIndex, or TimedeltaIndex + freq : DateOffset + + Returns + ------- + same type as index + """ + if len(index) != 0: + # This should never be reached, always checked by the caller + raise ValueError( + "Can only set arbitrary freq for empty DatetimeIndex or TimedeltaIndex" + ) + new_index: Index + if isinstance(index, PeriodIndex): + new_index = index.asfreq(freq=freq) + elif isinstance(index, DatetimeIndex): + new_index = DatetimeIndex([], dtype=index.dtype, freq=freq, name=index.name) + elif isinstance(index, TimedeltaIndex): + new_index = TimedeltaIndex([], dtype=index.dtype, freq=freq, name=index.name) + else: # pragma: no cover + raise TypeError(type(index)) + return new_index + + +def maybe_warn_args_and_kwargs(cls, kernel: str, args, kwargs) -> None: + """ + Warn for deprecation of args and kwargs in resample functions. + + Parameters + ---------- + cls : type + Class to warn about. + kernel : str + Operation name. + args : tuple or None + args passed by user. Will be None if and only if kernel does not have args. + kwargs : dict or None + kwargs passed by user. Will be None if and only if kernel does not have kwargs. + """ + warn_args = args is not None and len(args) > 0 + warn_kwargs = kwargs is not None and len(kwargs) > 0 + if warn_args and warn_kwargs: + msg = "args and kwargs" + elif warn_args: + msg = "args" + elif warn_kwargs: + msg = "kwargs" + else: + return + warnings.warn( + f"Passing additional {msg} to {cls.__name__}.{kernel} has " + "no impact on the result and is deprecated. This will " + "raise a TypeError in a future version of pandas.", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + + +def _apply( + grouped: GroupBy, how: Callable, *args, include_groups: bool, **kwargs +) -> DataFrame: + # GH#7155 - rewrite warning to appear as if it came from `.resample` + target_message = "DataFrameGroupBy.apply operated on the grouping columns" + new_message = _apply_groupings_depr.format("DataFrameGroupBy", "resample") + with rewrite_warning( + target_message=target_message, + target_category=FutureWarning, + new_message=new_message, + ): + result = grouped.apply(how, *args, include_groups=include_groups, **kwargs) + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/__init__.py new file mode 100644 index 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merge_ordered, +) +from pandas.core.reshape.pivot import ( + crosstab, + pivot, + pivot_table, +) +from pandas.core.reshape.tile import ( + cut, + qcut, +) + +__all__ = [ + "concat", + "crosstab", + "cut", + "from_dummies", + "get_dummies", + "lreshape", + "melt", + "merge", + "merge_asof", + "merge_ordered", + "pivot", + "pivot_table", + "qcut", + "wide_to_long", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/concat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/concat.py new file mode 100644 index 0000000000000000000000000000000000000000..dc18bb65b35bcfa5c3789b35e7d41690923b50a7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/concat.py @@ -0,0 +1,894 @@ +""" +Concat routines. +""" +from __future__ import annotations + +from collections import abc +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._config import using_copy_on_write + +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + is_bool, + is_iterator, +) +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.arrays.categorical import ( + factorize_from_iterable, + factorize_from_iterables, +) +import pandas.core.common as com +from pandas.core.indexes.api import ( + Index, + MultiIndex, + all_indexes_same, + default_index, + ensure_index, + get_objs_combined_axis, + get_unanimous_names, +) +from pandas.core.internals import concatenate_managers + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterable, + Mapping, + ) + + from pandas._typing import ( + Axis, + AxisInt, + HashableT, + ) + + from pandas import ( + DataFrame, + Series, + ) + +# --------------------------------------------------------------------- +# Concatenate DataFrame objects + + +@overload +def concat( + objs: Iterable[DataFrame] | Mapping[HashableT, DataFrame], + *, + axis: Literal[0, "index"] = ..., + join: str = ..., + ignore_index: bool = ..., + keys: Iterable[Hashable] | None = ..., + levels=..., + names: list[HashableT] | None = ..., + verify_integrity: bool = ..., + sort: bool = ..., + copy: bool | None = ..., +) -> DataFrame: + ... + + +@overload +def concat( + objs: Iterable[Series] | Mapping[HashableT, Series], + *, + axis: Literal[0, "index"] = ..., + join: str = ..., + ignore_index: bool = ..., + keys: Iterable[Hashable] | None = ..., + levels=..., + names: list[HashableT] | None = ..., + verify_integrity: bool = ..., + sort: bool = ..., + copy: bool | None = ..., +) -> Series: + ... + + +@overload +def concat( + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + *, + axis: Literal[0, "index"] = ..., + join: str = ..., + ignore_index: bool = ..., + keys: Iterable[Hashable] | None = ..., + levels=..., + names: list[HashableT] | None = ..., + verify_integrity: bool = ..., + sort: bool = ..., + copy: bool | None = ..., +) -> DataFrame | Series: + ... + + +@overload +def concat( + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + *, + axis: Literal[1, "columns"], + join: str = ..., + ignore_index: bool = ..., + keys: Iterable[Hashable] | None = ..., + levels=..., + names: list[HashableT] | None = ..., + verify_integrity: bool = ..., + sort: bool = ..., + copy: bool | None = ..., +) -> DataFrame: + ... + + +@overload +def concat( + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + *, + axis: Axis = ..., + join: str = ..., + ignore_index: bool = ..., + keys: Iterable[Hashable] | None = ..., + levels=..., + names: list[HashableT] | None = ..., + verify_integrity: bool = ..., + sort: bool = ..., + copy: bool | None = ..., +) -> DataFrame | Series: + ... + + +def concat( + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + *, + axis: Axis = 0, + join: str = "outer", + ignore_index: bool = False, + keys: Iterable[Hashable] | None = None, + levels=None, + names: list[HashableT] | None = None, + verify_integrity: bool = False, + sort: bool = False, + copy: bool | None = None, +) -> DataFrame | Series: + """ + Concatenate pandas objects along a particular axis. + + Allows optional set logic along the other axes. + + Can also add a layer of hierarchical indexing on the concatenation axis, + which may be useful if the labels are the same (or overlapping) on + the passed axis number. + + Parameters + ---------- + objs : a sequence or mapping of Series or DataFrame objects + If a mapping is passed, the sorted keys will be used as the `keys` + argument, unless it is passed, in which case the values will be + selected (see below). Any None objects will be dropped silently unless + they are all None in which case a ValueError will be raised. + axis : {0/'index', 1/'columns'}, default 0 + The axis to concatenate along. + join : {'inner', 'outer'}, default 'outer' + How to handle indexes on other axis (or axes). + ignore_index : bool, default False + If True, do not use the index values along the concatenation axis. The + resulting axis will be labeled 0, ..., n - 1. This is useful if you are + concatenating objects where the concatenation axis does not have + meaningful indexing information. Note the index values on the other + axes are still respected in the join. + keys : sequence, default None + If multiple levels passed, should contain tuples. Construct + hierarchical index using the passed keys as the outermost level. + levels : list of sequences, default None + Specific levels (unique values) to use for constructing a + MultiIndex. Otherwise they will be inferred from the keys. + names : list, default None + Names for the levels in the resulting hierarchical index. + verify_integrity : bool, default False + Check whether the new concatenated axis contains duplicates. This can + be very expensive relative to the actual data concatenation. + sort : bool, default False + Sort non-concatenation axis if it is not already aligned. One exception to + this is when the non-concatentation axis is a DatetimeIndex and join='outer' + and the axis is not already aligned. In that case, the non-concatenation + axis is always sorted lexicographically. + copy : bool, default True + If False, do not copy data unnecessarily. + + Returns + ------- + object, type of objs + When concatenating all ``Series`` along the index (axis=0), a + ``Series`` is returned. When ``objs`` contains at least one + ``DataFrame``, a ``DataFrame`` is returned. When concatenating along + the columns (axis=1), a ``DataFrame`` is returned. + + See Also + -------- + DataFrame.join : Join DataFrames using indexes. + DataFrame.merge : Merge DataFrames by indexes or columns. + + Notes + ----- + The keys, levels, and names arguments are all optional. + + A walkthrough of how this method fits in with other tools for combining + pandas objects can be found `here + `__. + + It is not recommended to build DataFrames by adding single rows in a + for loop. Build a list of rows and make a DataFrame in a single concat. + + Examples + -------- + Combine two ``Series``. + + >>> s1 = pd.Series(['a', 'b']) + >>> s2 = pd.Series(['c', 'd']) + >>> pd.concat([s1, s2]) + 0 a + 1 b + 0 c + 1 d + dtype: object + + Clear the existing index and reset it in the result + by setting the ``ignore_index`` option to ``True``. + + >>> pd.concat([s1, s2], ignore_index=True) + 0 a + 1 b + 2 c + 3 d + dtype: object + + Add a hierarchical index at the outermost level of + the data with the ``keys`` option. + + >>> pd.concat([s1, s2], keys=['s1', 's2']) + s1 0 a + 1 b + s2 0 c + 1 d + dtype: object + + Label the index keys you create with the ``names`` option. + + >>> pd.concat([s1, s2], keys=['s1', 's2'], + ... names=['Series name', 'Row ID']) + Series name Row ID + s1 0 a + 1 b + s2 0 c + 1 d + dtype: object + + Combine two ``DataFrame`` objects with identical columns. + + >>> df1 = pd.DataFrame([['a', 1], ['b', 2]], + ... columns=['letter', 'number']) + >>> df1 + letter number + 0 a 1 + 1 b 2 + >>> df2 = pd.DataFrame([['c', 3], ['d', 4]], + ... columns=['letter', 'number']) + >>> df2 + letter number + 0 c 3 + 1 d 4 + >>> pd.concat([df1, df2]) + letter number + 0 a 1 + 1 b 2 + 0 c 3 + 1 d 4 + + Combine ``DataFrame`` objects with overlapping columns + and return everything. Columns outside the intersection will + be filled with ``NaN`` values. + + >>> df3 = pd.DataFrame([['c', 3, 'cat'], ['d', 4, 'dog']], + ... columns=['letter', 'number', 'animal']) + >>> df3 + letter number animal + 0 c 3 cat + 1 d 4 dog + >>> pd.concat([df1, df3], sort=False) + letter number animal + 0 a 1 NaN + 1 b 2 NaN + 0 c 3 cat + 1 d 4 dog + + Combine ``DataFrame`` objects with overlapping columns + and return only those that are shared by passing ``inner`` to + the ``join`` keyword argument. + + >>> pd.concat([df1, df3], join="inner") + letter number + 0 a 1 + 1 b 2 + 0 c 3 + 1 d 4 + + Combine ``DataFrame`` objects horizontally along the x axis by + passing in ``axis=1``. + + >>> df4 = pd.DataFrame([['bird', 'polly'], ['monkey', 'george']], + ... columns=['animal', 'name']) + >>> pd.concat([df1, df4], axis=1) + letter number animal name + 0 a 1 bird polly + 1 b 2 monkey george + + Prevent the result from including duplicate index values with the + ``verify_integrity`` option. + + >>> df5 = pd.DataFrame([1], index=['a']) + >>> df5 + 0 + a 1 + >>> df6 = pd.DataFrame([2], index=['a']) + >>> df6 + 0 + a 2 + >>> pd.concat([df5, df6], verify_integrity=True) + Traceback (most recent call last): + ... + ValueError: Indexes have overlapping values: ['a'] + + Append a single row to the end of a ``DataFrame`` object. + + >>> df7 = pd.DataFrame({'a': 1, 'b': 2}, index=[0]) + >>> df7 + a b + 0 1 2 + >>> new_row = pd.Series({'a': 3, 'b': 4}) + >>> new_row + a 3 + b 4 + dtype: int64 + >>> pd.concat([df7, new_row.to_frame().T], ignore_index=True) + a b + 0 1 2 + 1 3 4 + """ + if copy is None: + if using_copy_on_write(): + copy = False + else: + copy = True + elif copy and using_copy_on_write(): + copy = False + + op = _Concatenator( + objs, + axis=axis, + ignore_index=ignore_index, + join=join, + keys=keys, + levels=levels, + names=names, + verify_integrity=verify_integrity, + copy=copy, + sort=sort, + ) + + return op.get_result() + + +class _Concatenator: + """ + Orchestrates a concatenation operation for BlockManagers + """ + + sort: bool + + def __init__( + self, + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + axis: Axis = 0, + join: str = "outer", + keys: Iterable[Hashable] | None = None, + levels=None, + names: list[HashableT] | None = None, + ignore_index: bool = False, + verify_integrity: bool = False, + copy: bool = True, + sort: bool = False, + ) -> None: + if isinstance(objs, (ABCSeries, ABCDataFrame, str)): + raise TypeError( + "first argument must be an iterable of pandas " + f'objects, you passed an object of type "{type(objs).__name__}"' + ) + + if join == "outer": + self.intersect = False + elif join == "inner": + self.intersect = True + else: # pragma: no cover + raise ValueError( + "Only can inner (intersect) or outer (union) join the other axis" + ) + + if not is_bool(sort): + raise ValueError( + f"The 'sort' keyword only accepts boolean values; {sort} was passed." + ) + # Incompatible types in assignment (expression has type "Union[bool, bool_]", + # variable has type "bool") + self.sort = sort # type: ignore[assignment] + + self.ignore_index = ignore_index + self.verify_integrity = verify_integrity + self.copy = copy + + objs, keys = self._clean_keys_and_objs(objs, keys) + + # figure out what our result ndim is going to be + ndims = self._get_ndims(objs) + sample, objs = self._get_sample_object(objs, ndims, keys, names, levels) + + # Standardize axis parameter to int + if sample.ndim == 1: + from pandas import DataFrame + + axis = DataFrame._get_axis_number(axis) + self._is_frame = False + self._is_series = True + else: + axis = sample._get_axis_number(axis) + self._is_frame = True + self._is_series = False + + # Need to flip BlockManager axis in the DataFrame special case + axis = sample._get_block_manager_axis(axis) + + # if we have mixed ndims, then convert to highest ndim + # creating column numbers as needed + if len(ndims) > 1: + objs = self._sanitize_mixed_ndim(objs, sample, ignore_index, axis) + + self.objs = objs + + # note: this is the BlockManager axis (since DataFrame is transposed) + self.bm_axis = axis + self.axis = 1 - self.bm_axis if self._is_frame else 0 + self.keys = keys + self.names = names or getattr(keys, "names", None) + self.levels = levels + + def _get_ndims(self, objs: list[Series | DataFrame]) -> set[int]: + # figure out what our result ndim is going to be + ndims = set() + for obj in objs: + if not isinstance(obj, (ABCSeries, ABCDataFrame)): + msg = ( + f"cannot concatenate object of type '{type(obj)}'; " + "only Series and DataFrame objs are valid" + ) + raise TypeError(msg) + + ndims.add(obj.ndim) + return ndims + + def _clean_keys_and_objs( + self, + objs: Iterable[Series | DataFrame] | Mapping[HashableT, Series | DataFrame], + keys, + ) -> tuple[list[Series | DataFrame], Index | None]: + if isinstance(objs, abc.Mapping): + if keys is None: + keys = list(objs.keys()) + objs_list = [objs[k] for k in keys] + else: + objs_list = list(objs) + + if len(objs_list) == 0: + raise ValueError("No objects to concatenate") + + if keys is None: + objs_list = list(com.not_none(*objs_list)) + else: + # GH#1649 + clean_keys = [] + clean_objs = [] + if is_iterator(keys): + keys = list(keys) + if len(keys) != len(objs_list): + # GH#43485 + warnings.warn( + "The behavior of pd.concat with len(keys) != len(objs) is " + "deprecated. In a future version this will raise instead of " + "truncating to the smaller of the two sequences", + FutureWarning, + stacklevel=find_stack_level(), + ) + for k, v in zip(keys, objs_list): + if v is None: + continue + clean_keys.append(k) + clean_objs.append(v) + objs_list = clean_objs + + if isinstance(keys, MultiIndex): + # TODO: retain levels? + keys = type(keys).from_tuples(clean_keys, names=keys.names) + else: + name = getattr(keys, "name", None) + keys = Index(clean_keys, name=name, dtype=getattr(keys, "dtype", None)) + + if len(objs_list) == 0: + raise ValueError("All objects passed were None") + + return objs_list, keys + + def _get_sample_object( + self, + objs: list[Series | DataFrame], + ndims: set[int], + keys, + names, + levels, + ) -> tuple[Series | DataFrame, list[Series | DataFrame]]: + # get the sample + # want the highest ndim that we have, and must be non-empty + # unless all objs are empty + sample: Series | DataFrame | None = None + if len(ndims) > 1: + max_ndim = max(ndims) + for obj in objs: + if obj.ndim == max_ndim and np.sum(obj.shape): + sample = obj + break + + else: + # filter out the empties if we have not multi-index possibilities + # note to keep empty Series as it affect to result columns / name + non_empties = [obj for obj in objs if sum(obj.shape) > 0 or obj.ndim == 1] + + if len(non_empties) and ( + keys is None and names is None and levels is None and not self.intersect + ): + objs = non_empties + sample = objs[0] + + if sample is None: + sample = objs[0] + return sample, objs + + def _sanitize_mixed_ndim( + self, + objs: list[Series | DataFrame], + sample: Series | DataFrame, + ignore_index: bool, + axis: AxisInt, + ) -> list[Series | DataFrame]: + # if we have mixed ndims, then convert to highest ndim + # creating column numbers as needed + + new_objs = [] + + current_column = 0 + max_ndim = sample.ndim + for obj in objs: + ndim = obj.ndim + if ndim == max_ndim: + pass + + elif ndim != max_ndim - 1: + raise ValueError( + "cannot concatenate unaligned mixed dimensional NDFrame objects" + ) + + else: + name = getattr(obj, "name", None) + if ignore_index or name is None: + if axis == 1: + # doing a row-wise concatenation so need everything + # to line up + name = 0 + else: + # doing a column-wise concatenation so need series + # to have unique names + name = current_column + current_column += 1 + + obj = sample._constructor({name: obj}, copy=False) + + new_objs.append(obj) + + return new_objs + + def get_result(self): + cons: Callable[..., DataFrame | Series] + sample: DataFrame | Series + + # series only + if self._is_series: + sample = cast("Series", self.objs[0]) + + # stack blocks + if self.bm_axis == 0: + name = com.consensus_name_attr(self.objs) + cons = sample._constructor + + arrs = [ser._values for ser in self.objs] + + res = concat_compat(arrs, axis=0) + + new_index: Index + if self.ignore_index: + # We can avoid surprisingly-expensive _get_concat_axis + new_index = default_index(len(res)) + else: + new_index = self.new_axes[0] + + mgr = type(sample._mgr).from_array(res, index=new_index) + + result = sample._constructor_from_mgr(mgr, axes=mgr.axes) + result._name = name + return result.__finalize__(self, method="concat") + + # combine as columns in a frame + else: + data = dict(zip(range(len(self.objs)), self.objs)) + + # GH28330 Preserves subclassed objects through concat + cons = sample._constructor_expanddim + + index, columns = self.new_axes + df = cons(data, index=index, copy=self.copy) + df.columns = columns + return df.__finalize__(self, method="concat") + + # combine block managers + else: + sample = cast("DataFrame", self.objs[0]) + + mgrs_indexers = [] + for obj in self.objs: + indexers = {} + for ax, new_labels in enumerate(self.new_axes): + # ::-1 to convert BlockManager ax to DataFrame ax + if ax == self.bm_axis: + # Suppress reindexing on concat axis + continue + + # 1-ax to convert BlockManager axis to DataFrame axis + obj_labels = obj.axes[1 - ax] + if not new_labels.equals(obj_labels): + indexers[ax] = obj_labels.get_indexer(new_labels) + + mgrs_indexers.append((obj._mgr, indexers)) + + new_data = concatenate_managers( + mgrs_indexers, self.new_axes, concat_axis=self.bm_axis, copy=self.copy + ) + if not self.copy and not using_copy_on_write(): + new_data._consolidate_inplace() + + out = sample._constructor_from_mgr(new_data, axes=new_data.axes) + return out.__finalize__(self, method="concat") + + def _get_result_dim(self) -> int: + if self._is_series and self.bm_axis == 1: + return 2 + else: + return self.objs[0].ndim + + @cache_readonly + def new_axes(self) -> list[Index]: + ndim = self._get_result_dim() + return [ + self._get_concat_axis if i == self.bm_axis else self._get_comb_axis(i) + for i in range(ndim) + ] + + def _get_comb_axis(self, i: AxisInt) -> Index: + data_axis = self.objs[0]._get_block_manager_axis(i) + return get_objs_combined_axis( + self.objs, + axis=data_axis, + intersect=self.intersect, + sort=self.sort, + copy=self.copy, + ) + + @cache_readonly + def _get_concat_axis(self) -> Index: + """ + Return index to be used along concatenation axis. + """ + if self._is_series: + if self.bm_axis == 0: + indexes = [x.index for x in self.objs] + elif self.ignore_index: + idx = default_index(len(self.objs)) + return idx + elif self.keys is None: + names: list[Hashable] = [None] * len(self.objs) + num = 0 + has_names = False + for i, x in enumerate(self.objs): + if x.ndim != 1: + raise TypeError( + f"Cannot concatenate type 'Series' with " + f"object of type '{type(x).__name__}'" + ) + if x.name is not None: + names[i] = x.name + has_names = True + else: + names[i] = num + num += 1 + if has_names: + return Index(names) + else: + return default_index(len(self.objs)) + else: + return ensure_index(self.keys).set_names(self.names) + else: + indexes = [x.axes[self.axis] for x in self.objs] + + if self.ignore_index: + idx = default_index(sum(len(i) for i in indexes)) + return idx + + if self.keys is None: + if self.levels is not None: + raise ValueError("levels supported only when keys is not None") + concat_axis = _concat_indexes(indexes) + else: + concat_axis = _make_concat_multiindex( + indexes, self.keys, self.levels, self.names + ) + + self._maybe_check_integrity(concat_axis) + + return concat_axis + + def _maybe_check_integrity(self, concat_index: Index): + if self.verify_integrity: + if not concat_index.is_unique: + overlap = concat_index[concat_index.duplicated()].unique() + raise ValueError(f"Indexes have overlapping values: {overlap}") + + +def _concat_indexes(indexes) -> Index: + return indexes[0].append(indexes[1:]) + + +def _make_concat_multiindex(indexes, keys, levels=None, names=None) -> MultiIndex: + if (levels is None and isinstance(keys[0], tuple)) or ( + levels is not None and len(levels) > 1 + ): + zipped = list(zip(*keys)) + if names is None: + names = [None] * len(zipped) + + if levels is None: + _, levels = factorize_from_iterables(zipped) + else: + levels = [ensure_index(x) for x in levels] + else: + zipped = [keys] + if names is None: + names = [None] + + if levels is None: + levels = [ensure_index(keys).unique()] + else: + levels = [ensure_index(x) for x in levels] + + for level in levels: + if not level.is_unique: + raise ValueError(f"Level values not unique: {level.tolist()}") + + if not all_indexes_same(indexes) or not all(level.is_unique for level in levels): + codes_list = [] + + # things are potentially different sizes, so compute the exact codes + # for each level and pass those to MultiIndex.from_arrays + + for hlevel, level in zip(zipped, levels): + to_concat = [] + if isinstance(hlevel, Index) and hlevel.equals(level): + lens = [len(idx) for idx in indexes] + codes_list.append(np.repeat(np.arange(len(hlevel)), lens)) + else: + for key, index in zip(hlevel, indexes): + # Find matching codes, include matching nan values as equal. + mask = (isna(level) & isna(key)) | (level == key) + if not mask.any(): + raise ValueError(f"Key {key} not in level {level}") + i = np.nonzero(mask)[0][0] + + to_concat.append(np.repeat(i, len(index))) + codes_list.append(np.concatenate(to_concat)) + + concat_index = _concat_indexes(indexes) + + # these go at the end + if isinstance(concat_index, MultiIndex): + levels.extend(concat_index.levels) + codes_list.extend(concat_index.codes) + else: + codes, categories = factorize_from_iterable(concat_index) + levels.append(categories) + codes_list.append(codes) + + if len(names) == len(levels): + names = list(names) + else: + # make sure that all of the passed indices have the same nlevels + if not len({idx.nlevels for idx in indexes}) == 1: + raise AssertionError( + "Cannot concat indices that do not have the same number of levels" + ) + + # also copies + names = list(names) + list(get_unanimous_names(*indexes)) + + return MultiIndex( + levels=levels, codes=codes_list, names=names, verify_integrity=False + ) + + new_index = indexes[0] + n = len(new_index) + kpieces = len(indexes) + + # also copies + new_names = list(names) + new_levels = list(levels) + + # construct codes + new_codes = [] + + # do something a bit more speedy + + for hlevel, level in zip(zipped, levels): + hlevel_index = ensure_index(hlevel) + mapped = level.get_indexer(hlevel_index) + + mask = mapped == -1 + if mask.any(): + raise ValueError( + f"Values not found in passed level: {hlevel_index[mask]!s}" + ) + + new_codes.append(np.repeat(mapped, n)) + + if isinstance(new_index, MultiIndex): + new_levels.extend(new_index.levels) + new_codes.extend([np.tile(lab, kpieces) for lab in new_index.codes]) + else: + new_levels.append(new_index.unique()) + single_codes = new_index.unique().get_indexer(new_index) + new_codes.append(np.tile(single_codes, kpieces)) + + if len(new_names) < len(new_levels): + new_names.extend(new_index.names) + + return MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/encoding.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/encoding.py new file mode 100644 index 0000000000000000000000000000000000000000..85c10f11665776680b3249fcec304f9c029a5599 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/encoding.py @@ -0,0 +1,571 @@ +from __future__ import annotations + +from collections import defaultdict +from collections.abc import ( + Hashable, + Iterable, +) +import itertools +from typing import ( + TYPE_CHECKING, + cast, +) + +import numpy as np + +from pandas._libs import missing as libmissing +from pandas._libs.sparse import IntIndex + +from pandas.core.dtypes.common import ( + is_integer_dtype, + is_list_like, + is_object_dtype, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, +) + +from pandas.core.arrays import SparseArray +from pandas.core.arrays.categorical import factorize_from_iterable +from pandas.core.arrays.string_ import StringDtype +from pandas.core.frame import DataFrame +from pandas.core.indexes.api import ( + Index, + default_index, +) +from pandas.core.series import Series + +if TYPE_CHECKING: + from pandas._typing import NpDtype + + +def get_dummies( + data, + prefix=None, + prefix_sep: str | Iterable[str] | dict[str, str] = "_", + dummy_na: bool = False, + columns=None, + sparse: bool = False, + drop_first: bool = False, + dtype: NpDtype | None = None, +) -> DataFrame: + """ + Convert categorical variable into dummy/indicator variables. + + Each variable is converted in as many 0/1 variables as there are different + values. Columns in the output are each named after a value; if the input is + a DataFrame, the name of the original variable is prepended to the value. + + Parameters + ---------- + data : array-like, Series, or DataFrame + Data of which to get dummy indicators. + prefix : str, list of str, or dict of str, default None + String to append DataFrame column names. + Pass a list with length equal to the number of columns + when calling get_dummies on a DataFrame. Alternatively, `prefix` + can be a dictionary mapping column names to prefixes. + prefix_sep : str, default '_' + If appending prefix, separator/delimiter to use. Or pass a + list or dictionary as with `prefix`. + dummy_na : bool, default False + Add a column to indicate NaNs, if False NaNs are ignored. + columns : list-like, default None + Column names in the DataFrame to be encoded. + If `columns` is None then all the columns with + `object`, `string`, or `category` dtype will be converted. + sparse : bool, default False + Whether the dummy-encoded columns should be backed by + a :class:`SparseArray` (True) or a regular NumPy array (False). + drop_first : bool, default False + Whether to get k-1 dummies out of k categorical levels by removing the + first level. + dtype : dtype, default bool + Data type for new columns. Only a single dtype is allowed. + + Returns + ------- + DataFrame + Dummy-coded data. If `data` contains other columns than the + dummy-coded one(s), these will be prepended, unaltered, to the result. + + See Also + -------- + Series.str.get_dummies : Convert Series of strings to dummy codes. + :func:`~pandas.from_dummies` : Convert dummy codes to categorical ``DataFrame``. + + Notes + ----- + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> s = pd.Series(list('abca')) + + >>> pd.get_dummies(s) + a b c + 0 True False False + 1 False True False + 2 False False True + 3 True False False + + >>> s1 = ['a', 'b', np.nan] + + >>> pd.get_dummies(s1) + a b + 0 True False + 1 False True + 2 False False + + >>> pd.get_dummies(s1, dummy_na=True) + a b NaN + 0 True False False + 1 False True False + 2 False False True + + >>> df = pd.DataFrame({'A': ['a', 'b', 'a'], 'B': ['b', 'a', 'c'], + ... 'C': [1, 2, 3]}) + + >>> pd.get_dummies(df, prefix=['col1', 'col2']) + C col1_a col1_b col2_a col2_b col2_c + 0 1 True False False True False + 1 2 False True True False False + 2 3 True False False False True + + >>> pd.get_dummies(pd.Series(list('abcaa'))) + a b c + 0 True False False + 1 False True False + 2 False False True + 3 True False False + 4 True False False + + >>> pd.get_dummies(pd.Series(list('abcaa')), drop_first=True) + b c + 0 False False + 1 True False + 2 False True + 3 False False + 4 False False + + >>> pd.get_dummies(pd.Series(list('abc')), dtype=float) + a b c + 0 1.0 0.0 0.0 + 1 0.0 1.0 0.0 + 2 0.0 0.0 1.0 + """ + from pandas.core.reshape.concat import concat + + dtypes_to_encode = ["object", "string", "category"] + + if isinstance(data, DataFrame): + # determine columns being encoded + if columns is None: + data_to_encode = data.select_dtypes(include=dtypes_to_encode) + elif not is_list_like(columns): + raise TypeError("Input must be a list-like for parameter `columns`") + else: + data_to_encode = data[columns] + + # validate prefixes and separator to avoid silently dropping cols + def check_len(item, name: str): + if is_list_like(item): + if not len(item) == data_to_encode.shape[1]: + len_msg = ( + f"Length of '{name}' ({len(item)}) did not match the " + "length of the columns being encoded " + f"({data_to_encode.shape[1]})." + ) + raise ValueError(len_msg) + + check_len(prefix, "prefix") + check_len(prefix_sep, "prefix_sep") + + if isinstance(prefix, str): + prefix = itertools.cycle([prefix]) + if isinstance(prefix, dict): + prefix = [prefix[col] for col in data_to_encode.columns] + + if prefix is None: + prefix = data_to_encode.columns + + # validate separators + if isinstance(prefix_sep, str): + prefix_sep = itertools.cycle([prefix_sep]) + elif isinstance(prefix_sep, dict): + prefix_sep = [prefix_sep[col] for col in data_to_encode.columns] + + with_dummies: list[DataFrame] + if data_to_encode.shape == data.shape: + # Encoding the entire df, do not prepend any dropped columns + with_dummies = [] + elif columns is not None: + # Encoding only cols specified in columns. Get all cols not in + # columns to prepend to result. + with_dummies = [data.drop(columns, axis=1)] + else: + # Encoding only object and category dtype columns. Get remaining + # columns to prepend to result. + with_dummies = [data.select_dtypes(exclude=dtypes_to_encode)] + + for col, pre, sep in zip(data_to_encode.items(), prefix, prefix_sep): + # col is (column_name, column), use just column data here + dummy = _get_dummies_1d( + col[1], + prefix=pre, + prefix_sep=sep, + dummy_na=dummy_na, + sparse=sparse, + drop_first=drop_first, + dtype=dtype, + ) + with_dummies.append(dummy) + result = concat(with_dummies, axis=1) + else: + result = _get_dummies_1d( + data, + prefix, + prefix_sep, + dummy_na, + sparse=sparse, + drop_first=drop_first, + dtype=dtype, + ) + return result + + +def _get_dummies_1d( + data, + prefix, + prefix_sep: str | Iterable[str] | dict[str, str] = "_", + dummy_na: bool = False, + sparse: bool = False, + drop_first: bool = False, + dtype: NpDtype | None = None, +) -> DataFrame: + from pandas.core.reshape.concat import concat + + # Series avoids inconsistent NaN handling + codes, levels = factorize_from_iterable(Series(data, copy=False)) + + if dtype is None and hasattr(data, "dtype"): + input_dtype = data.dtype + if isinstance(input_dtype, CategoricalDtype): + input_dtype = input_dtype.categories.dtype + + if isinstance(input_dtype, ArrowDtype): + import pyarrow as pa + + dtype = ArrowDtype(pa.bool_()) # type: ignore[assignment] + elif ( + isinstance(input_dtype, StringDtype) + and input_dtype.na_value is libmissing.NA + ): + dtype = pandas_dtype("boolean") # type: ignore[assignment] + else: + dtype = np.dtype(bool) + elif dtype is None: + dtype = np.dtype(bool) + + _dtype = pandas_dtype(dtype) + + if is_object_dtype(_dtype): + raise ValueError("dtype=object is not a valid dtype for get_dummies") + + def get_empty_frame(data) -> DataFrame: + index: Index | np.ndarray + if isinstance(data, Series): + index = data.index + else: + index = default_index(len(data)) + return DataFrame(index=index) + + # if all NaN + if not dummy_na and len(levels) == 0: + return get_empty_frame(data) + + codes = codes.copy() + if dummy_na: + codes[codes == -1] = len(levels) + levels = levels.insert(len(levels), np.nan) + + # if dummy_na, we just fake a nan level. drop_first will drop it again + if drop_first and len(levels) == 1: + return get_empty_frame(data) + + number_of_cols = len(levels) + + if prefix is None: + dummy_cols = levels + else: + dummy_cols = Index([f"{prefix}{prefix_sep}{level}" for level in levels]) + + index: Index | None + if isinstance(data, Series): + index = data.index + else: + index = None + + if sparse: + fill_value: bool | float + if is_integer_dtype(dtype): + fill_value = 0 + elif dtype == np.dtype(bool): + fill_value = False + else: + fill_value = 0.0 + + sparse_series = [] + N = len(data) + sp_indices: list[list] = [[] for _ in range(len(dummy_cols))] + mask = codes != -1 + codes = codes[mask] + n_idx = np.arange(N)[mask] + + for ndx, code in zip(n_idx, codes): + sp_indices[code].append(ndx) + + if drop_first: + # remove first categorical level to avoid perfect collinearity + # GH12042 + sp_indices = sp_indices[1:] + dummy_cols = dummy_cols[1:] + for col, ixs in zip(dummy_cols, sp_indices): + sarr = SparseArray( + np.ones(len(ixs), dtype=dtype), + sparse_index=IntIndex(N, ixs), + fill_value=fill_value, + dtype=dtype, + ) + sparse_series.append(Series(data=sarr, index=index, name=col, copy=False)) + + return concat(sparse_series, axis=1, copy=False) + + else: + # ensure ndarray layout is column-major + shape = len(codes), number_of_cols + dummy_dtype: NpDtype + if isinstance(_dtype, np.dtype): + dummy_dtype = _dtype + else: + dummy_dtype = np.bool_ + dummy_mat = np.zeros(shape=shape, dtype=dummy_dtype, order="F") + dummy_mat[np.arange(len(codes)), codes] = 1 + + if not dummy_na: + # reset NaN GH4446 + dummy_mat[codes == -1] = 0 + + if drop_first: + # remove first GH12042 + dummy_mat = dummy_mat[:, 1:] + dummy_cols = dummy_cols[1:] + return DataFrame(dummy_mat, index=index, columns=dummy_cols, dtype=_dtype) + + +def from_dummies( + data: DataFrame, + sep: None | str = None, + default_category: None | Hashable | dict[str, Hashable] = None, +) -> DataFrame: + """ + Create a categorical ``DataFrame`` from a ``DataFrame`` of dummy variables. + + Inverts the operation performed by :func:`~pandas.get_dummies`. + + .. versionadded:: 1.5.0 + + Parameters + ---------- + data : DataFrame + Data which contains dummy-coded variables in form of integer columns of + 1's and 0's. + sep : str, default None + Separator used in the column names of the dummy categories they are + character indicating the separation of the categorical names from the prefixes. + For example, if your column names are 'prefix_A' and 'prefix_B', + you can strip the underscore by specifying sep='_'. + default_category : None, Hashable or dict of Hashables, default None + The default category is the implied category when a value has none of the + listed categories specified with a one, i.e. if all dummies in a row are + zero. Can be a single value for all variables or a dict directly mapping + the default categories to a prefix of a variable. + + Returns + ------- + DataFrame + Categorical data decoded from the dummy input-data. + + Raises + ------ + ValueError + * When the input ``DataFrame`` ``data`` contains NA values. + * When the input ``DataFrame`` ``data`` contains column names with separators + that do not match the separator specified with ``sep``. + * When a ``dict`` passed to ``default_category`` does not include an implied + category for each prefix. + * When a value in ``data`` has more than one category assigned to it. + * When ``default_category=None`` and a value in ``data`` has no category + assigned to it. + TypeError + * When the input ``data`` is not of type ``DataFrame``. + * When the input ``DataFrame`` ``data`` contains non-dummy data. + * When the passed ``sep`` is of a wrong data type. + * When the passed ``default_category`` is of a wrong data type. + + See Also + -------- + :func:`~pandas.get_dummies` : Convert ``Series`` or ``DataFrame`` to dummy codes. + :class:`~pandas.Categorical` : Represent a categorical variable in classic. + + Notes + ----- + The columns of the passed dummy data should only include 1's and 0's, + or boolean values. + + Examples + -------- + >>> df = pd.DataFrame({"a": [1, 0, 0, 1], "b": [0, 1, 0, 0], + ... "c": [0, 0, 1, 0]}) + + >>> df + a b c + 0 1 0 0 + 1 0 1 0 + 2 0 0 1 + 3 1 0 0 + + >>> pd.from_dummies(df) + 0 a + 1 b + 2 c + 3 a + + >>> df = pd.DataFrame({"col1_a": [1, 0, 1], "col1_b": [0, 1, 0], + ... "col2_a": [0, 1, 0], "col2_b": [1, 0, 0], + ... "col2_c": [0, 0, 1]}) + + >>> df + col1_a col1_b col2_a col2_b col2_c + 0 1 0 0 1 0 + 1 0 1 1 0 0 + 2 1 0 0 0 1 + + >>> pd.from_dummies(df, sep="_") + col1 col2 + 0 a b + 1 b a + 2 a c + + >>> df = pd.DataFrame({"col1_a": [1, 0, 0], "col1_b": [0, 1, 0], + ... "col2_a": [0, 1, 0], "col2_b": [1, 0, 0], + ... "col2_c": [0, 0, 0]}) + + >>> df + col1_a col1_b col2_a col2_b col2_c + 0 1 0 0 1 0 + 1 0 1 1 0 0 + 2 0 0 0 0 0 + + >>> pd.from_dummies(df, sep="_", default_category={"col1": "d", "col2": "e"}) + col1 col2 + 0 a b + 1 b a + 2 d e + """ + from pandas.core.reshape.concat import concat + + if not isinstance(data, DataFrame): + raise TypeError( + "Expected 'data' to be a 'DataFrame'; " + f"Received 'data' of type: {type(data).__name__}" + ) + + col_isna_mask = cast(Series, data.isna().any()) + + if col_isna_mask.any(): + raise ValueError( + "Dummy DataFrame contains NA value in column: " + f"'{col_isna_mask.idxmax()}'" + ) + + # index data with a list of all columns that are dummies + try: + data_to_decode = data.astype("boolean", copy=False) + except TypeError: + raise TypeError("Passed DataFrame contains non-dummy data") + + # collect prefixes and get lists to slice data for each prefix + variables_slice = defaultdict(list) + if sep is None: + variables_slice[""] = list(data.columns) + elif isinstance(sep, str): + for col in data_to_decode.columns: + prefix = col.split(sep)[0] + if len(prefix) == len(col): + raise ValueError(f"Separator not specified for column: {col}") + variables_slice[prefix].append(col) + else: + raise TypeError( + "Expected 'sep' to be of type 'str' or 'None'; " + f"Received 'sep' of type: {type(sep).__name__}" + ) + + if default_category is not None: + if isinstance(default_category, dict): + if not len(default_category) == len(variables_slice): + len_msg = ( + f"Length of 'default_category' ({len(default_category)}) " + f"did not match the length of the columns being encoded " + f"({len(variables_slice)})" + ) + raise ValueError(len_msg) + elif isinstance(default_category, Hashable): + default_category = dict( + zip(variables_slice, [default_category] * len(variables_slice)) + ) + else: + raise TypeError( + "Expected 'default_category' to be of type " + "'None', 'Hashable', or 'dict'; " + "Received 'default_category' of type: " + f"{type(default_category).__name__}" + ) + + cat_data = {} + for prefix, prefix_slice in variables_slice.items(): + if sep is None: + cats = prefix_slice.copy() + else: + cats = [col[len(prefix + sep) :] for col in prefix_slice] + assigned = data_to_decode.loc[:, prefix_slice].sum(axis=1) + if any(assigned > 1): + raise ValueError( + "Dummy DataFrame contains multi-assignment(s); " + f"First instance in row: {assigned.idxmax()}" + ) + if any(assigned == 0): + if isinstance(default_category, dict): + cats.append(default_category[prefix]) + else: + raise ValueError( + "Dummy DataFrame contains unassigned value(s); " + f"First instance in row: {assigned.idxmin()}" + ) + data_slice = concat( + (data_to_decode.loc[:, prefix_slice], assigned == 0), axis=1 + ) + else: + data_slice = data_to_decode.loc[:, prefix_slice] + cats_array = data._constructor_sliced(cats, dtype=data.columns.dtype) + # get indices of True entries along axis=1 + true_values = data_slice.idxmax(axis=1) + indexer = data_slice.columns.get_indexer_for(true_values) + cat_data[prefix] = cats_array.take(indexer).set_axis(data.index) + + result = DataFrame(cat_data) + if sep is not None: + result.columns = result.columns.astype(data.columns.dtype) + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/melt.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/melt.py new file mode 100644 index 0000000000000000000000000000000000000000..e54f847895f1a42cf1782392da684f2bcfa7e81c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/melt.py @@ -0,0 +1,512 @@ +from __future__ import annotations + +import re +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.util._decorators import Appender + +from pandas.core.dtypes.common import is_list_like +from pandas.core.dtypes.concat import concat_compat +from pandas.core.dtypes.missing import notna + +import pandas.core.algorithms as algos +from pandas.core.indexes.api import MultiIndex +from pandas.core.reshape.concat import concat +from pandas.core.reshape.util import tile_compat +from pandas.core.shared_docs import _shared_docs +from pandas.core.tools.numeric import to_numeric + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._typing import AnyArrayLike + + from pandas import DataFrame + + +def ensure_list_vars(arg_vars, variable: str, columns) -> list: + if arg_vars is not None: + if not is_list_like(arg_vars): + return [arg_vars] + elif isinstance(columns, MultiIndex) and not isinstance(arg_vars, list): + raise ValueError( + f"{variable} must be a list of tuples when columns are a MultiIndex" + ) + else: + return list(arg_vars) + else: + return [] + + +@Appender(_shared_docs["melt"] % {"caller": "pd.melt(df, ", "other": "DataFrame.melt"}) +def melt( + frame: DataFrame, + id_vars=None, + value_vars=None, + var_name=None, + value_name: Hashable = "value", + col_level=None, + ignore_index: bool = True, +) -> DataFrame: + if value_name in frame.columns: + raise ValueError( + f"value_name ({value_name}) cannot match an element in " + "the DataFrame columns." + ) + id_vars = ensure_list_vars(id_vars, "id_vars", frame.columns) + value_vars_was_not_none = value_vars is not None + value_vars = ensure_list_vars(value_vars, "value_vars", frame.columns) + + if id_vars or value_vars: + if col_level is not None: + level = frame.columns.get_level_values(col_level) + else: + level = frame.columns + labels = id_vars + value_vars + idx = level.get_indexer_for(labels) + missing = idx == -1 + if missing.any(): + missing_labels = [ + lab for lab, not_found in zip(labels, missing) if not_found + ] + raise KeyError( + "The following id_vars or value_vars are not present in " + f"the DataFrame: {missing_labels}" + ) + if value_vars_was_not_none: + frame = frame.iloc[:, algos.unique(idx)] + else: + frame = frame.copy() + else: + frame = frame.copy() + + if col_level is not None: # allow list or other? + # frame is a copy + frame.columns = frame.columns.get_level_values(col_level) + + if var_name is None: + if isinstance(frame.columns, MultiIndex): + if len(frame.columns.names) == len(set(frame.columns.names)): + var_name = frame.columns.names + else: + var_name = [f"variable_{i}" for i in range(len(frame.columns.names))] + else: + var_name = [ + frame.columns.name if frame.columns.name is not None else "variable" + ] + elif is_list_like(var_name): + raise ValueError(f"{var_name=} must be a scalar.") + else: + var_name = [var_name] + + num_rows, K = frame.shape + num_cols_adjusted = K - len(id_vars) + + mdata: dict[Hashable, AnyArrayLike] = {} + for col in id_vars: + id_data = frame.pop(col) + if not isinstance(id_data.dtype, np.dtype): + # i.e. ExtensionDtype + if num_cols_adjusted > 0: + mdata[col] = concat([id_data] * num_cols_adjusted, ignore_index=True) + else: + # We can't concat empty list. (GH 46044) + mdata[col] = type(id_data)([], name=id_data.name, dtype=id_data.dtype) + else: + mdata[col] = np.tile(id_data._values, num_cols_adjusted) + + mcolumns = id_vars + var_name + [value_name] + + if frame.shape[1] > 0 and not any( + not isinstance(dt, np.dtype) and dt._supports_2d for dt in frame.dtypes + ): + mdata[value_name] = concat( + [frame.iloc[:, i] for i in range(frame.shape[1])] + ).values + else: + mdata[value_name] = frame._values.ravel("F") + for i, col in enumerate(var_name): + mdata[col] = frame.columns._get_level_values(i).repeat(num_rows) + + result = frame._constructor(mdata, columns=mcolumns) + + if not ignore_index: + result.index = tile_compat(frame.index, num_cols_adjusted) + + return result + + +def lreshape(data: DataFrame, groups: dict, dropna: bool = True) -> DataFrame: + """ + Reshape wide-format data to long. Generalized inverse of DataFrame.pivot. + + Accepts a dictionary, ``groups``, in which each key is a new column name + and each value is a list of old column names that will be "melted" under + the new column name as part of the reshape. + + Parameters + ---------- + data : DataFrame + The wide-format DataFrame. + groups : dict + {new_name : list_of_columns}. + dropna : bool, default True + Do not include columns whose entries are all NaN. + + Returns + ------- + DataFrame + Reshaped DataFrame. + + See Also + -------- + melt : Unpivot a DataFrame from wide to long format, optionally leaving + identifiers set. + pivot : Create a spreadsheet-style pivot table as a DataFrame. + DataFrame.pivot : Pivot without aggregation that can handle + non-numeric data. + DataFrame.pivot_table : Generalization of pivot that can handle + duplicate values for one index/column pair. + DataFrame.unstack : Pivot based on the index values instead of a + column. + wide_to_long : Wide panel to long format. Less flexible but more + user-friendly than melt. + + Examples + -------- + >>> data = pd.DataFrame({'hr1': [514, 573], 'hr2': [545, 526], + ... 'team': ['Red Sox', 'Yankees'], + ... 'year1': [2007, 2007], 'year2': [2008, 2008]}) + >>> data + hr1 hr2 team year1 year2 + 0 514 545 Red Sox 2007 2008 + 1 573 526 Yankees 2007 2008 + + >>> pd.lreshape(data, {'year': ['year1', 'year2'], 'hr': ['hr1', 'hr2']}) + team year hr + 0 Red Sox 2007 514 + 1 Yankees 2007 573 + 2 Red Sox 2008 545 + 3 Yankees 2008 526 + """ + mdata = {} + pivot_cols = [] + all_cols: set[Hashable] = set() + K = len(next(iter(groups.values()))) + for target, names in groups.items(): + if len(names) != K: + raise ValueError("All column lists must be same length") + to_concat = [data[col]._values for col in names] + + mdata[target] = concat_compat(to_concat) + pivot_cols.append(target) + all_cols = all_cols.union(names) + + id_cols = list(data.columns.difference(all_cols)) + for col in id_cols: + mdata[col] = np.tile(data[col]._values, K) + + if dropna: + mask = np.ones(len(mdata[pivot_cols[0]]), dtype=bool) + for c in pivot_cols: + mask &= notna(mdata[c]) + if not mask.all(): + mdata = {k: v[mask] for k, v in mdata.items()} + + return data._constructor(mdata, columns=id_cols + pivot_cols) + + +def wide_to_long( + df: DataFrame, stubnames, i, j, sep: str = "", suffix: str = r"\d+" +) -> DataFrame: + r""" + Unpivot a DataFrame from wide to long format. + + Less flexible but more user-friendly than melt. + + With stubnames ['A', 'B'], this function expects to find one or more + group of columns with format + A-suffix1, A-suffix2,..., B-suffix1, B-suffix2,... + You specify what you want to call this suffix in the resulting long format + with `j` (for example `j='year'`) + + Each row of these wide variables are assumed to be uniquely identified by + `i` (can be a single column name or a list of column names) + + All remaining variables in the data frame are left intact. + + Parameters + ---------- + df : DataFrame + The wide-format DataFrame. + stubnames : str or list-like + The stub name(s). The wide format variables are assumed to + start with the stub names. + i : str or list-like + Column(s) to use as id variable(s). + j : str + The name of the sub-observation variable. What you wish to name your + suffix in the long format. + sep : str, default "" + A character indicating the separation of the variable names + in the wide format, to be stripped from the names in the long format. + For example, if your column names are A-suffix1, A-suffix2, you + can strip the hyphen by specifying `sep='-'`. + suffix : str, default '\\d+' + A regular expression capturing the wanted suffixes. '\\d+' captures + numeric suffixes. Suffixes with no numbers could be specified with the + negated character class '\\D+'. You can also further disambiguate + suffixes, for example, if your wide variables are of the form A-one, + B-two,.., and you have an unrelated column A-rating, you can ignore the + last one by specifying `suffix='(!?one|two)'`. When all suffixes are + numeric, they are cast to int64/float64. + + Returns + ------- + DataFrame + A DataFrame that contains each stub name as a variable, with new index + (i, j). + + See Also + -------- + melt : Unpivot a DataFrame from wide to long format, optionally leaving + identifiers set. + pivot : Create a spreadsheet-style pivot table as a DataFrame. + DataFrame.pivot : Pivot without aggregation that can handle + non-numeric data. + DataFrame.pivot_table : Generalization of pivot that can handle + duplicate values for one index/column pair. + DataFrame.unstack : Pivot based on the index values instead of a + column. + + Notes + ----- + All extra variables are left untouched. This simply uses + `pandas.melt` under the hood, but is hard-coded to "do the right thing" + in a typical case. + + Examples + -------- + >>> np.random.seed(123) + >>> df = pd.DataFrame({"A1970" : {0 : "a", 1 : "b", 2 : "c"}, + ... "A1980" : {0 : "d", 1 : "e", 2 : "f"}, + ... "B1970" : {0 : 2.5, 1 : 1.2, 2 : .7}, + ... "B1980" : {0 : 3.2, 1 : 1.3, 2 : .1}, + ... "X" : dict(zip(range(3), np.random.randn(3))) + ... }) + >>> df["id"] = df.index + >>> df + A1970 A1980 B1970 B1980 X id + 0 a d 2.5 3.2 -1.085631 0 + 1 b e 1.2 1.3 0.997345 1 + 2 c f 0.7 0.1 0.282978 2 + >>> pd.wide_to_long(df, ["A", "B"], i="id", j="year") + ... # doctest: +NORMALIZE_WHITESPACE + X A B + id year + 0 1970 -1.085631 a 2.5 + 1 1970 0.997345 b 1.2 + 2 1970 0.282978 c 0.7 + 0 1980 -1.085631 d 3.2 + 1 1980 0.997345 e 1.3 + 2 1980 0.282978 f 0.1 + + With multiple id columns + + >>> df = pd.DataFrame({ + ... 'famid': [1, 1, 1, 2, 2, 2, 3, 3, 3], + ... 'birth': [1, 2, 3, 1, 2, 3, 1, 2, 3], + ... 'ht1': [2.8, 2.9, 2.2, 2, 1.8, 1.9, 2.2, 2.3, 2.1], + ... 'ht2': [3.4, 3.8, 2.9, 3.2, 2.8, 2.4, 3.3, 3.4, 2.9] + ... }) + >>> df + famid birth ht1 ht2 + 0 1 1 2.8 3.4 + 1 1 2 2.9 3.8 + 2 1 3 2.2 2.9 + 3 2 1 2.0 3.2 + 4 2 2 1.8 2.8 + 5 2 3 1.9 2.4 + 6 3 1 2.2 3.3 + 7 3 2 2.3 3.4 + 8 3 3 2.1 2.9 + >>> l = pd.wide_to_long(df, stubnames='ht', i=['famid', 'birth'], j='age') + >>> l + ... # doctest: +NORMALIZE_WHITESPACE + ht + famid birth age + 1 1 1 2.8 + 2 3.4 + 2 1 2.9 + 2 3.8 + 3 1 2.2 + 2 2.9 + 2 1 1 2.0 + 2 3.2 + 2 1 1.8 + 2 2.8 + 3 1 1.9 + 2 2.4 + 3 1 1 2.2 + 2 3.3 + 2 1 2.3 + 2 3.4 + 3 1 2.1 + 2 2.9 + + Going from long back to wide just takes some creative use of `unstack` + + >>> w = l.unstack() + >>> w.columns = w.columns.map('{0[0]}{0[1]}'.format) + >>> w.reset_index() + famid birth ht1 ht2 + 0 1 1 2.8 3.4 + 1 1 2 2.9 3.8 + 2 1 3 2.2 2.9 + 3 2 1 2.0 3.2 + 4 2 2 1.8 2.8 + 5 2 3 1.9 2.4 + 6 3 1 2.2 3.3 + 7 3 2 2.3 3.4 + 8 3 3 2.1 2.9 + + Less wieldy column names are also handled + + >>> np.random.seed(0) + >>> df = pd.DataFrame({'A(weekly)-2010': np.random.rand(3), + ... 'A(weekly)-2011': np.random.rand(3), + ... 'B(weekly)-2010': np.random.rand(3), + ... 'B(weekly)-2011': np.random.rand(3), + ... 'X' : np.random.randint(3, size=3)}) + >>> df['id'] = df.index + >>> df # doctest: +NORMALIZE_WHITESPACE, +ELLIPSIS + A(weekly)-2010 A(weekly)-2011 B(weekly)-2010 B(weekly)-2011 X id + 0 0.548814 0.544883 0.437587 0.383442 0 0 + 1 0.715189 0.423655 0.891773 0.791725 1 1 + 2 0.602763 0.645894 0.963663 0.528895 1 2 + + >>> pd.wide_to_long(df, ['A(weekly)', 'B(weekly)'], i='id', + ... j='year', sep='-') + ... # doctest: +NORMALIZE_WHITESPACE + X A(weekly) B(weekly) + id year + 0 2010 0 0.548814 0.437587 + 1 2010 1 0.715189 0.891773 + 2 2010 1 0.602763 0.963663 + 0 2011 0 0.544883 0.383442 + 1 2011 1 0.423655 0.791725 + 2 2011 1 0.645894 0.528895 + + If we have many columns, we could also use a regex to find our + stubnames and pass that list on to wide_to_long + + >>> stubnames = sorted( + ... set([match[0] for match in df.columns.str.findall( + ... r'[A-B]\(.*\)').values if match != []]) + ... ) + >>> list(stubnames) + ['A(weekly)', 'B(weekly)'] + + All of the above examples have integers as suffixes. It is possible to + have non-integers as suffixes. + + >>> df = pd.DataFrame({ + ... 'famid': [1, 1, 1, 2, 2, 2, 3, 3, 3], + ... 'birth': [1, 2, 3, 1, 2, 3, 1, 2, 3], + ... 'ht_one': [2.8, 2.9, 2.2, 2, 1.8, 1.9, 2.2, 2.3, 2.1], + ... 'ht_two': [3.4, 3.8, 2.9, 3.2, 2.8, 2.4, 3.3, 3.4, 2.9] + ... }) + >>> df + famid birth ht_one ht_two + 0 1 1 2.8 3.4 + 1 1 2 2.9 3.8 + 2 1 3 2.2 2.9 + 3 2 1 2.0 3.2 + 4 2 2 1.8 2.8 + 5 2 3 1.9 2.4 + 6 3 1 2.2 3.3 + 7 3 2 2.3 3.4 + 8 3 3 2.1 2.9 + + >>> l = pd.wide_to_long(df, stubnames='ht', i=['famid', 'birth'], j='age', + ... sep='_', suffix=r'\w+') + >>> l + ... # doctest: +NORMALIZE_WHITESPACE + ht + famid birth age + 1 1 one 2.8 + two 3.4 + 2 one 2.9 + two 3.8 + 3 one 2.2 + two 2.9 + 2 1 one 2.0 + two 3.2 + 2 one 1.8 + two 2.8 + 3 one 1.9 + two 2.4 + 3 1 one 2.2 + two 3.3 + 2 one 2.3 + two 3.4 + 3 one 2.1 + two 2.9 + """ + + def get_var_names(df, stub: str, sep: str, suffix: str): + regex = rf"^{re.escape(stub)}{re.escape(sep)}{suffix}$" + return df.columns[df.columns.str.match(regex)] + + def melt_stub(df, stub: str, i, j, value_vars, sep: str): + newdf = melt( + df, + id_vars=i, + value_vars=value_vars, + value_name=stub.rstrip(sep), + var_name=j, + ) + newdf[j] = newdf[j].str.replace(re.escape(stub + sep), "", regex=True) + + # GH17627 Cast numerics suffixes to int/float + try: + newdf[j] = to_numeric(newdf[j]) + except (TypeError, ValueError, OverflowError): + # TODO: anything else to catch? + pass + + return newdf.set_index(i + [j]) + + if not is_list_like(stubnames): + stubnames = [stubnames] + else: + stubnames = list(stubnames) + + if df.columns.isin(stubnames).any(): + raise ValueError("stubname can't be identical to a column name") + + if not is_list_like(i): + i = [i] + else: + i = list(i) + + if df[i].duplicated().any(): + raise ValueError("the id variables need to uniquely identify each row") + + _melted = [] + value_vars_flattened = [] + for stub in stubnames: + value_var = get_var_names(df, stub, sep, suffix) + value_vars_flattened.extend(value_var) + _melted.append(melt_stub(df, stub, i, j, value_var, sep)) + + melted = concat(_melted, axis=1) + id_vars = df.columns.difference(value_vars_flattened) + new = df[id_vars] + + if len(i) == 1: + return new.set_index(i).join(melted) + else: + return new.merge(melted.reset_index(), on=i).set_index(i + [j]) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/merge.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/merge.py new file mode 100644 index 0000000000000000000000000000000000000000..a1e003c2001d24de56a066f30f17b7b60a8ed8f8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/merge.py @@ -0,0 +1,2762 @@ +""" +SQL-style merge routines +""" +from __future__ import annotations + +from collections.abc import ( + Hashable, + Sequence, +) +import datetime +from functools import partial +from typing import ( + TYPE_CHECKING, + Literal, + cast, + final, +) +import uuid +import warnings + +import numpy as np + +from pandas._libs import ( + Timedelta, + hashtable as libhashtable, + join as libjoin, + lib, +) +from pandas._libs.lib import is_range_indexer +from pandas._typing import ( + AnyArrayLike, + ArrayLike, + IndexLabel, + JoinHow, + MergeHow, + Shape, + Suffixes, + npt, +) +from pandas.errors import MergeError +from pandas.util._decorators import ( + Appender, + Substitution, + cache_readonly, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.base import ExtensionDtype +from pandas.core.dtypes.cast import find_common_type +from pandas.core.dtypes.common import ( + ensure_int64, + ensure_object, + is_bool, + is_bool_dtype, + is_float_dtype, + is_integer, + is_integer_dtype, + is_list_like, + is_number, + is_numeric_dtype, + is_object_dtype, + is_string_dtype, + needs_i8_conversion, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, +) + +from pandas import ( + ArrowDtype, + Categorical, + Index, + MultiIndex, + Series, +) +import pandas.core.algorithms as algos +from pandas.core.arrays import ( + ArrowExtensionArray, + BaseMaskedArray, + ExtensionArray, +) +from pandas.core.arrays.string_ import StringDtype +import pandas.core.common as com +from pandas.core.construction import ( + ensure_wrapped_if_datetimelike, + extract_array, +) +from pandas.core.frame import _merge_doc +from pandas.core.indexes.api import default_index +from pandas.core.sorting import ( + get_group_index, + is_int64_overflow_possible, +) + +if TYPE_CHECKING: + from pandas import DataFrame + from pandas.core import groupby + from pandas.core.arrays import DatetimeArray + from pandas.core.indexes.frozen import FrozenList + +_factorizers = { + np.int64: libhashtable.Int64Factorizer, + np.longlong: libhashtable.Int64Factorizer, + np.int32: libhashtable.Int32Factorizer, + np.int16: libhashtable.Int16Factorizer, + np.int8: libhashtable.Int8Factorizer, + np.uint64: libhashtable.UInt64Factorizer, + np.uint32: libhashtable.UInt32Factorizer, + np.uint16: libhashtable.UInt16Factorizer, + np.uint8: libhashtable.UInt8Factorizer, + np.bool_: libhashtable.UInt8Factorizer, + np.float64: libhashtable.Float64Factorizer, + np.float32: libhashtable.Float32Factorizer, + np.complex64: libhashtable.Complex64Factorizer, + np.complex128: libhashtable.Complex128Factorizer, + np.object_: libhashtable.ObjectFactorizer, +} + +# See https://github.com/pandas-dev/pandas/issues/52451 +if np.intc is not np.int32: + _factorizers[np.intc] = libhashtable.Int64Factorizer + +_known = (np.ndarray, ExtensionArray, Index, ABCSeries) + + +@Substitution("\nleft : DataFrame or named Series") +@Appender(_merge_doc, indents=0) +def merge( + left: DataFrame | Series, + right: DataFrame | Series, + how: MergeHow = "inner", + on: IndexLabel | AnyArrayLike | None = None, + left_on: IndexLabel | AnyArrayLike | None = None, + right_on: IndexLabel | AnyArrayLike | None = None, + left_index: bool = False, + right_index: bool = False, + sort: bool = False, + suffixes: Suffixes = ("_x", "_y"), + copy: bool | None = None, + indicator: str | bool = False, + validate: str | None = None, +) -> DataFrame: + left_df = _validate_operand(left) + right_df = _validate_operand(right) + if how == "cross": + return _cross_merge( + left_df, + right_df, + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + sort=sort, + suffixes=suffixes, + indicator=indicator, + validate=validate, + copy=copy, + ) + else: + op = _MergeOperation( + left_df, + right_df, + how=how, + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + sort=sort, + suffixes=suffixes, + indicator=indicator, + validate=validate, + ) + return op.get_result(copy=copy) + + +def _cross_merge( + left: DataFrame, + right: DataFrame, + on: IndexLabel | AnyArrayLike | None = None, + left_on: IndexLabel | AnyArrayLike | None = None, + right_on: IndexLabel | AnyArrayLike | None = None, + left_index: bool = False, + right_index: bool = False, + sort: bool = False, + suffixes: Suffixes = ("_x", "_y"), + copy: bool | None = None, + indicator: str | bool = False, + validate: str | None = None, +) -> DataFrame: + """ + See merge.__doc__ with how='cross' + """ + + if ( + left_index + or right_index + or right_on is not None + or left_on is not None + or on is not None + ): + raise MergeError( + "Can not pass on, right_on, left_on or set right_index=True or " + "left_index=True" + ) + + cross_col = f"_cross_{uuid.uuid4()}" + left = left.assign(**{cross_col: 1}) + right = right.assign(**{cross_col: 1}) + + left_on = right_on = [cross_col] + + res = merge( + left, + right, + how="inner", + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + sort=sort, + suffixes=suffixes, + indicator=indicator, + validate=validate, + copy=copy, + ) + del res[cross_col] + return res + + +def _groupby_and_merge( + by, left: DataFrame | Series, right: DataFrame | Series, merge_pieces +): + """ + groupby & merge; we are always performing a left-by type operation + + Parameters + ---------- + by: field to group + left: DataFrame + right: DataFrame + merge_pieces: function for merging + """ + pieces = [] + if not isinstance(by, (list, tuple)): + by = [by] + + lby = left.groupby(by, sort=False) + rby: groupby.DataFrameGroupBy | groupby.SeriesGroupBy | None = None + + # if we can groupby the rhs + # then we can get vastly better perf + if all(item in right.columns for item in by): + rby = right.groupby(by, sort=False) + + for key, lhs in lby._grouper.get_iterator(lby._selected_obj, axis=lby.axis): + if rby is None: + rhs = right + else: + try: + rhs = right.take(rby.indices[key]) + except KeyError: + # key doesn't exist in left + lcols = lhs.columns.tolist() + cols = lcols + [r for r in right.columns if r not in set(lcols)] + merged = lhs.reindex(columns=cols) + merged.index = range(len(merged)) + pieces.append(merged) + continue + + merged = merge_pieces(lhs, rhs) + + # make sure join keys are in the merged + # TODO, should merge_pieces do this? + merged[by] = key + + pieces.append(merged) + + # preserve the original order + # if we have a missing piece this can be reset + from pandas.core.reshape.concat import concat + + result = concat(pieces, ignore_index=True) + result = result.reindex(columns=pieces[0].columns, copy=False) + return result, lby + + +def merge_ordered( + left: DataFrame | Series, + right: DataFrame | Series, + on: IndexLabel | None = None, + left_on: IndexLabel | None = None, + right_on: IndexLabel | None = None, + left_by=None, + right_by=None, + fill_method: str | None = None, + suffixes: Suffixes = ("_x", "_y"), + how: JoinHow = "outer", +) -> DataFrame: + """ + Perform a merge for ordered data with optional filling/interpolation. + + Designed for ordered data like time series data. Optionally + perform group-wise merge (see examples). + + Parameters + ---------- + left : DataFrame or named Series + right : DataFrame or named Series + on : label or list + Field names to join on. Must be found in both DataFrames. + left_on : label or list, or array-like + Field names to join on in left DataFrame. Can be a vector or list of + vectors of the length of the DataFrame to use a particular vector as + the join key instead of columns. + right_on : label or list, or array-like + Field names to join on in right DataFrame or vector/list of vectors per + left_on docs. + left_by : column name or list of column names + Group left DataFrame by group columns and merge piece by piece with + right DataFrame. Must be None if either left or right are a Series. + right_by : column name or list of column names + Group right DataFrame by group columns and merge piece by piece with + left DataFrame. Must be None if either left or right are a Series. + fill_method : {'ffill', None}, default None + Interpolation method for data. + suffixes : list-like, default is ("_x", "_y") + A length-2 sequence where each element is optionally a string + indicating the suffix to add to overlapping column names in + `left` and `right` respectively. Pass a value of `None` instead + of a string to indicate that the column name from `left` or + `right` should be left as-is, with no suffix. At least one of the + values must not be None. + + how : {'left', 'right', 'outer', 'inner'}, default 'outer' + * left: use only keys from left frame (SQL: left outer join) + * right: use only keys from right frame (SQL: right outer join) + * outer: use union of keys from both frames (SQL: full outer join) + * inner: use intersection of keys from both frames (SQL: inner join). + + Returns + ------- + DataFrame + The merged DataFrame output type will be the same as + 'left', if it is a subclass of DataFrame. + + See Also + -------- + merge : Merge with a database-style join. + merge_asof : Merge on nearest keys. + + Examples + -------- + >>> from pandas import merge_ordered + >>> df1 = pd.DataFrame( + ... { + ... "key": ["a", "c", "e", "a", "c", "e"], + ... "lvalue": [1, 2, 3, 1, 2, 3], + ... "group": ["a", "a", "a", "b", "b", "b"] + ... } + ... ) + >>> df1 + key lvalue group + 0 a 1 a + 1 c 2 a + 2 e 3 a + 3 a 1 b + 4 c 2 b + 5 e 3 b + + >>> df2 = pd.DataFrame({"key": ["b", "c", "d"], "rvalue": [1, 2, 3]}) + >>> df2 + key rvalue + 0 b 1 + 1 c 2 + 2 d 3 + + >>> merge_ordered(df1, df2, fill_method="ffill", left_by="group") + key lvalue group rvalue + 0 a 1 a NaN + 1 b 1 a 1.0 + 2 c 2 a 2.0 + 3 d 2 a 3.0 + 4 e 3 a 3.0 + 5 a 1 b NaN + 6 b 1 b 1.0 + 7 c 2 b 2.0 + 8 d 2 b 3.0 + 9 e 3 b 3.0 + """ + + def _merger(x, y) -> DataFrame: + # perform the ordered merge operation + op = _OrderedMerge( + x, + y, + on=on, + left_on=left_on, + right_on=right_on, + suffixes=suffixes, + fill_method=fill_method, + how=how, + ) + return op.get_result() + + if left_by is not None and right_by is not None: + raise ValueError("Can only group either left or right frames") + if left_by is not None: + if isinstance(left_by, str): + left_by = [left_by] + check = set(left_by).difference(left.columns) + if len(check) != 0: + raise KeyError(f"{check} not found in left columns") + result, _ = _groupby_and_merge(left_by, left, right, lambda x, y: _merger(x, y)) + elif right_by is not None: + if isinstance(right_by, str): + right_by = [right_by] + check = set(right_by).difference(right.columns) + if len(check) != 0: + raise KeyError(f"{check} not found in right columns") + result, _ = _groupby_and_merge( + right_by, right, left, lambda x, y: _merger(y, x) + ) + else: + result = _merger(left, right) + return result + + +def merge_asof( + left: DataFrame | Series, + right: DataFrame | Series, + on: IndexLabel | None = None, + left_on: IndexLabel | None = None, + right_on: IndexLabel | None = None, + left_index: bool = False, + right_index: bool = False, + by=None, + left_by=None, + right_by=None, + suffixes: Suffixes = ("_x", "_y"), + tolerance: int | Timedelta | None = None, + allow_exact_matches: bool = True, + direction: str = "backward", +) -> DataFrame: + """ + Perform a merge by key distance. + + This is similar to a left-join except that we match on nearest + key rather than equal keys. Both DataFrames must be sorted by the key. + + For each row in the left DataFrame: + + - A "backward" search selects the last row in the right DataFrame whose + 'on' key is less than or equal to the left's key. + + - A "forward" search selects the first row in the right DataFrame whose + 'on' key is greater than or equal to the left's key. + + - A "nearest" search selects the row in the right DataFrame whose 'on' + key is closest in absolute distance to the left's key. + + Optionally match on equivalent keys with 'by' before searching with 'on'. + + Parameters + ---------- + left : DataFrame or named Series + right : DataFrame or named Series + on : label + Field name to join on. Must be found in both DataFrames. + The data MUST be ordered. Furthermore this must be a numeric column, + such as datetimelike, integer, or float. On or left_on/right_on + must be given. + left_on : label + Field name to join on in left DataFrame. + right_on : label + Field name to join on in right DataFrame. + left_index : bool + Use the index of the left DataFrame as the join key. + right_index : bool + Use the index of the right DataFrame as the join key. + by : column name or list of column names + Match on these columns before performing merge operation. + left_by : column name + Field names to match on in the left DataFrame. + right_by : column name + Field names to match on in the right DataFrame. + suffixes : 2-length sequence (tuple, list, ...) + Suffix to apply to overlapping column names in the left and right + side, respectively. + tolerance : int or Timedelta, optional, default None + Select asof tolerance within this range; must be compatible + with the merge index. + allow_exact_matches : bool, default True + + - If True, allow matching with the same 'on' value + (i.e. less-than-or-equal-to / greater-than-or-equal-to) + - If False, don't match the same 'on' value + (i.e., strictly less-than / strictly greater-than). + + direction : 'backward' (default), 'forward', or 'nearest' + Whether to search for prior, subsequent, or closest matches. + + Returns + ------- + DataFrame + + See Also + -------- + merge : Merge with a database-style join. + merge_ordered : Merge with optional filling/interpolation. + + Examples + -------- + >>> left = pd.DataFrame({"a": [1, 5, 10], "left_val": ["a", "b", "c"]}) + >>> left + a left_val + 0 1 a + 1 5 b + 2 10 c + + >>> right = pd.DataFrame({"a": [1, 2, 3, 6, 7], "right_val": [1, 2, 3, 6, 7]}) + >>> right + a right_val + 0 1 1 + 1 2 2 + 2 3 3 + 3 6 6 + 4 7 7 + + >>> pd.merge_asof(left, right, on="a") + a left_val right_val + 0 1 a 1 + 1 5 b 3 + 2 10 c 7 + + >>> pd.merge_asof(left, right, on="a", allow_exact_matches=False) + a left_val right_val + 0 1 a NaN + 1 5 b 3.0 + 2 10 c 7.0 + + >>> pd.merge_asof(left, right, on="a", direction="forward") + a left_val right_val + 0 1 a 1.0 + 1 5 b 6.0 + 2 10 c NaN + + >>> pd.merge_asof(left, right, on="a", direction="nearest") + a left_val right_val + 0 1 a 1 + 1 5 b 6 + 2 10 c 7 + + We can use indexed DataFrames as well. + + >>> left = pd.DataFrame({"left_val": ["a", "b", "c"]}, index=[1, 5, 10]) + >>> left + left_val + 1 a + 5 b + 10 c + + >>> right = pd.DataFrame({"right_val": [1, 2, 3, 6, 7]}, index=[1, 2, 3, 6, 7]) + >>> right + right_val + 1 1 + 2 2 + 3 3 + 6 6 + 7 7 + + >>> pd.merge_asof(left, right, left_index=True, right_index=True) + left_val right_val + 1 a 1 + 5 b 3 + 10 c 7 + + Here is a real-world times-series example + + >>> quotes = pd.DataFrame( + ... { + ... "time": [ + ... pd.Timestamp("2016-05-25 13:30:00.023"), + ... pd.Timestamp("2016-05-25 13:30:00.023"), + ... pd.Timestamp("2016-05-25 13:30:00.030"), + ... pd.Timestamp("2016-05-25 13:30:00.041"), + ... pd.Timestamp("2016-05-25 13:30:00.048"), + ... pd.Timestamp("2016-05-25 13:30:00.049"), + ... pd.Timestamp("2016-05-25 13:30:00.072"), + ... pd.Timestamp("2016-05-25 13:30:00.075") + ... ], + ... "ticker": [ + ... "GOOG", + ... "MSFT", + ... "MSFT", + ... "MSFT", + ... "GOOG", + ... "AAPL", + ... "GOOG", + ... "MSFT" + ... ], + ... "bid": [720.50, 51.95, 51.97, 51.99, 720.50, 97.99, 720.50, 52.01], + ... "ask": [720.93, 51.96, 51.98, 52.00, 720.93, 98.01, 720.88, 52.03] + ... } + ... ) + >>> quotes + time ticker bid ask + 0 2016-05-25 13:30:00.023 GOOG 720.50 720.93 + 1 2016-05-25 13:30:00.023 MSFT 51.95 51.96 + 2 2016-05-25 13:30:00.030 MSFT 51.97 51.98 + 3 2016-05-25 13:30:00.041 MSFT 51.99 52.00 + 4 2016-05-25 13:30:00.048 GOOG 720.50 720.93 + 5 2016-05-25 13:30:00.049 AAPL 97.99 98.01 + 6 2016-05-25 13:30:00.072 GOOG 720.50 720.88 + 7 2016-05-25 13:30:00.075 MSFT 52.01 52.03 + + >>> trades = pd.DataFrame( + ... { + ... "time": [ + ... pd.Timestamp("2016-05-25 13:30:00.023"), + ... pd.Timestamp("2016-05-25 13:30:00.038"), + ... pd.Timestamp("2016-05-25 13:30:00.048"), + ... pd.Timestamp("2016-05-25 13:30:00.048"), + ... pd.Timestamp("2016-05-25 13:30:00.048") + ... ], + ... "ticker": ["MSFT", "MSFT", "GOOG", "GOOG", "AAPL"], + ... "price": [51.95, 51.95, 720.77, 720.92, 98.0], + ... "quantity": [75, 155, 100, 100, 100] + ... } + ... ) + >>> trades + time ticker price quantity + 0 2016-05-25 13:30:00.023 MSFT 51.95 75 + 1 2016-05-25 13:30:00.038 MSFT 51.95 155 + 2 2016-05-25 13:30:00.048 GOOG 720.77 100 + 3 2016-05-25 13:30:00.048 GOOG 720.92 100 + 4 2016-05-25 13:30:00.048 AAPL 98.00 100 + + By default we are taking the asof of the quotes + + >>> pd.merge_asof(trades, quotes, on="time", by="ticker") + time ticker price quantity bid ask + 0 2016-05-25 13:30:00.023 MSFT 51.95 75 51.95 51.96 + 1 2016-05-25 13:30:00.038 MSFT 51.95 155 51.97 51.98 + 2 2016-05-25 13:30:00.048 GOOG 720.77 100 720.50 720.93 + 3 2016-05-25 13:30:00.048 GOOG 720.92 100 720.50 720.93 + 4 2016-05-25 13:30:00.048 AAPL 98.00 100 NaN NaN + + We only asof within 2ms between the quote time and the trade time + + >>> pd.merge_asof( + ... trades, quotes, on="time", by="ticker", tolerance=pd.Timedelta("2ms") + ... ) + time ticker price quantity bid ask + 0 2016-05-25 13:30:00.023 MSFT 51.95 75 51.95 51.96 + 1 2016-05-25 13:30:00.038 MSFT 51.95 155 NaN NaN + 2 2016-05-25 13:30:00.048 GOOG 720.77 100 720.50 720.93 + 3 2016-05-25 13:30:00.048 GOOG 720.92 100 720.50 720.93 + 4 2016-05-25 13:30:00.048 AAPL 98.00 100 NaN NaN + + We only asof within 10ms between the quote time and the trade time + and we exclude exact matches on time. However *prior* data will + propagate forward + + >>> pd.merge_asof( + ... trades, + ... quotes, + ... on="time", + ... by="ticker", + ... tolerance=pd.Timedelta("10ms"), + ... allow_exact_matches=False + ... ) + time ticker price quantity bid ask + 0 2016-05-25 13:30:00.023 MSFT 51.95 75 NaN NaN + 1 2016-05-25 13:30:00.038 MSFT 51.95 155 51.97 51.98 + 2 2016-05-25 13:30:00.048 GOOG 720.77 100 NaN NaN + 3 2016-05-25 13:30:00.048 GOOG 720.92 100 NaN NaN + 4 2016-05-25 13:30:00.048 AAPL 98.00 100 NaN NaN + """ + op = _AsOfMerge( + left, + right, + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + by=by, + left_by=left_by, + right_by=right_by, + suffixes=suffixes, + how="asof", + tolerance=tolerance, + allow_exact_matches=allow_exact_matches, + direction=direction, + ) + return op.get_result() + + +# TODO: transformations?? +# TODO: only copy DataFrames when modification necessary +class _MergeOperation: + """ + Perform a database (SQL) merge operation between two DataFrame or Series + objects using either columns as keys or their row indexes + """ + + _merge_type = "merge" + how: JoinHow | Literal["asof"] + on: IndexLabel | None + # left_on/right_on may be None when passed, but in validate_specification + # get replaced with non-None. + left_on: Sequence[Hashable | AnyArrayLike] + right_on: Sequence[Hashable | AnyArrayLike] + left_index: bool + right_index: bool + sort: bool + suffixes: Suffixes + copy: bool + indicator: str | bool + validate: str | None + join_names: list[Hashable] + right_join_keys: list[ArrayLike] + left_join_keys: list[ArrayLike] + + def __init__( + self, + left: DataFrame | Series, + right: DataFrame | Series, + how: JoinHow | Literal["asof"] = "inner", + on: IndexLabel | AnyArrayLike | None = None, + left_on: IndexLabel | AnyArrayLike | None = None, + right_on: IndexLabel | AnyArrayLike | None = None, + left_index: bool = False, + right_index: bool = False, + sort: bool = True, + suffixes: Suffixes = ("_x", "_y"), + indicator: str | bool = False, + validate: str | None = None, + ) -> None: + _left = _validate_operand(left) + _right = _validate_operand(right) + self.left = self.orig_left = _left + self.right = self.orig_right = _right + self.how = how + + self.on = com.maybe_make_list(on) + + self.suffixes = suffixes + self.sort = sort or how == "outer" + + self.left_index = left_index + self.right_index = right_index + + self.indicator = indicator + + if not is_bool(left_index): + raise ValueError( + f"left_index parameter must be of type bool, not {type(left_index)}" + ) + if not is_bool(right_index): + raise ValueError( + f"right_index parameter must be of type bool, not {type(right_index)}" + ) + + # GH 40993: raise when merging between different levels; enforced in 2.0 + if _left.columns.nlevels != _right.columns.nlevels: + msg = ( + "Not allowed to merge between different levels. " + f"({_left.columns.nlevels} levels on the left, " + f"{_right.columns.nlevels} on the right)" + ) + raise MergeError(msg) + + self.left_on, self.right_on = self._validate_left_right_on(left_on, right_on) + + ( + self.left_join_keys, + self.right_join_keys, + self.join_names, + left_drop, + right_drop, + ) = self._get_merge_keys() + + if left_drop: + self.left = self.left._drop_labels_or_levels(left_drop) + + if right_drop: + self.right = self.right._drop_labels_or_levels(right_drop) + + self._maybe_require_matching_dtypes(self.left_join_keys, self.right_join_keys) + self._validate_tolerance(self.left_join_keys) + + # validate the merge keys dtypes. We may need to coerce + # to avoid incompatible dtypes + self._maybe_coerce_merge_keys() + + # If argument passed to validate, + # check if columns specified as unique + # are in fact unique. + if validate is not None: + self._validate_validate_kwd(validate) + + def _maybe_require_matching_dtypes( + self, left_join_keys: list[ArrayLike], right_join_keys: list[ArrayLike] + ) -> None: + # Overridden by AsOfMerge + pass + + def _validate_tolerance(self, left_join_keys: list[ArrayLike]) -> None: + # Overridden by AsOfMerge + pass + + @final + def _reindex_and_concat( + self, + join_index: Index, + left_indexer: npt.NDArray[np.intp] | None, + right_indexer: npt.NDArray[np.intp] | None, + copy: bool | None, + ) -> DataFrame: + """ + reindex along index and concat along columns. + """ + # Take views so we do not alter the originals + left = self.left[:] + right = self.right[:] + + llabels, rlabels = _items_overlap_with_suffix( + self.left._info_axis, self.right._info_axis, self.suffixes + ) + + if left_indexer is not None and not is_range_indexer(left_indexer, len(left)): + # Pinning the index here (and in the right code just below) is not + # necessary, but makes the `.take` more performant if we have e.g. + # a MultiIndex for left.index. + lmgr = left._mgr.reindex_indexer( + join_index, + left_indexer, + axis=1, + copy=False, + only_slice=True, + allow_dups=True, + use_na_proxy=True, + ) + left = left._constructor_from_mgr(lmgr, axes=lmgr.axes) + left.index = join_index + + if right_indexer is not None and not is_range_indexer( + right_indexer, len(right) + ): + rmgr = right._mgr.reindex_indexer( + join_index, + right_indexer, + axis=1, + copy=False, + only_slice=True, + allow_dups=True, + use_na_proxy=True, + ) + right = right._constructor_from_mgr(rmgr, axes=rmgr.axes) + right.index = join_index + + from pandas import concat + + left.columns = llabels + right.columns = rlabels + result = concat([left, right], axis=1, copy=copy) + return result + + def get_result(self, copy: bool | None = True) -> DataFrame: + if self.indicator: + self.left, self.right = self._indicator_pre_merge(self.left, self.right) + + join_index, left_indexer, right_indexer = self._get_join_info() + + result = self._reindex_and_concat( + join_index, left_indexer, right_indexer, copy=copy + ) + result = result.__finalize__(self, method=self._merge_type) + + if self.indicator: + result = self._indicator_post_merge(result) + + self._maybe_add_join_keys(result, left_indexer, right_indexer) + + self._maybe_restore_index_levels(result) + + return result.__finalize__(self, method="merge") + + @final + @cache_readonly + def _indicator_name(self) -> str | None: + if isinstance(self.indicator, str): + return self.indicator + elif isinstance(self.indicator, bool): + return "_merge" if self.indicator else None + else: + raise ValueError( + "indicator option can only accept boolean or string arguments" + ) + + @final + def _indicator_pre_merge( + self, left: DataFrame, right: DataFrame + ) -> tuple[DataFrame, DataFrame]: + columns = left.columns.union(right.columns) + + for i in ["_left_indicator", "_right_indicator"]: + if i in columns: + raise ValueError( + "Cannot use `indicator=True` option when " + f"data contains a column named {i}" + ) + if self._indicator_name in columns: + raise ValueError( + "Cannot use name of an existing column for indicator column" + ) + + left = left.copy() + right = right.copy() + + left["_left_indicator"] = 1 + left["_left_indicator"] = left["_left_indicator"].astype("int8") + + right["_right_indicator"] = 2 + right["_right_indicator"] = right["_right_indicator"].astype("int8") + + return left, right + + @final + def _indicator_post_merge(self, result: DataFrame) -> DataFrame: + result["_left_indicator"] = result["_left_indicator"].fillna(0) + result["_right_indicator"] = result["_right_indicator"].fillna(0) + + result[self._indicator_name] = Categorical( + (result["_left_indicator"] + result["_right_indicator"]), + categories=[1, 2, 3], + ) + result[self._indicator_name] = result[ + self._indicator_name + ].cat.rename_categories(["left_only", "right_only", "both"]) + + result = result.drop(labels=["_left_indicator", "_right_indicator"], axis=1) + return result + + @final + def _maybe_restore_index_levels(self, result: DataFrame) -> None: + """ + Restore index levels specified as `on` parameters + + Here we check for cases where `self.left_on` and `self.right_on` pairs + each reference an index level in their respective DataFrames. The + joined columns corresponding to these pairs are then restored to the + index of `result`. + + **Note:** This method has side effects. It modifies `result` in-place + + Parameters + ---------- + result: DataFrame + merge result + + Returns + ------- + None + """ + names_to_restore = [] + for name, left_key, right_key in zip( + self.join_names, self.left_on, self.right_on + ): + if ( + # Argument 1 to "_is_level_reference" of "NDFrame" has incompatible + # type "Union[Hashable, ExtensionArray, Index, Series]"; expected + # "Hashable" + self.orig_left._is_level_reference(left_key) # type: ignore[arg-type] + # Argument 1 to "_is_level_reference" of "NDFrame" has incompatible + # type "Union[Hashable, ExtensionArray, Index, Series]"; expected + # "Hashable" + and self.orig_right._is_level_reference( + right_key # type: ignore[arg-type] + ) + and left_key == right_key + and name not in result.index.names + ): + names_to_restore.append(name) + + if names_to_restore: + result.set_index(names_to_restore, inplace=True) + + @final + def _maybe_add_join_keys( + self, + result: DataFrame, + left_indexer: npt.NDArray[np.intp] | None, + right_indexer: npt.NDArray[np.intp] | None, + ) -> None: + left_has_missing = None + right_has_missing = None + + assert all(isinstance(x, _known) for x in self.left_join_keys) + + keys = zip(self.join_names, self.left_on, self.right_on) + for i, (name, lname, rname) in enumerate(keys): + if not _should_fill(lname, rname): + continue + + take_left, take_right = None, None + + if name in result: + if left_indexer is not None or right_indexer is not None: + if name in self.left: + if left_has_missing is None: + left_has_missing = ( + False + if left_indexer is None + else (left_indexer == -1).any() + ) + + if left_has_missing: + take_right = self.right_join_keys[i] + + if result[name].dtype != self.left[name].dtype: + take_left = self.left[name]._values + + elif name in self.right: + if right_has_missing is None: + right_has_missing = ( + False + if right_indexer is None + else (right_indexer == -1).any() + ) + + if right_has_missing: + take_left = self.left_join_keys[i] + + if result[name].dtype != self.right[name].dtype: + take_right = self.right[name]._values + + else: + take_left = self.left_join_keys[i] + take_right = self.right_join_keys[i] + + if take_left is not None or take_right is not None: + if take_left is None: + lvals = result[name]._values + elif left_indexer is None: + lvals = take_left + else: + # TODO: can we pin down take_left's type earlier? + take_left = extract_array(take_left, extract_numpy=True) + lfill = na_value_for_dtype(take_left.dtype) + lvals = algos.take_nd(take_left, left_indexer, fill_value=lfill) + + if take_right is None: + rvals = result[name]._values + elif right_indexer is None: + rvals = take_right + else: + # TODO: can we pin down take_right's type earlier? + taker = extract_array(take_right, extract_numpy=True) + rfill = na_value_for_dtype(taker.dtype) + rvals = algos.take_nd(taker, right_indexer, fill_value=rfill) + + # if we have an all missing left_indexer + # make sure to just use the right values or vice-versa + if left_indexer is not None and (left_indexer == -1).all(): + key_col = Index(rvals, dtype=rvals.dtype, copy=False) + result_dtype = rvals.dtype + elif right_indexer is not None and (right_indexer == -1).all(): + key_col = Index(lvals, dtype=lvals.dtype, copy=False) + result_dtype = lvals.dtype + else: + key_col = Index(lvals, dtype=lvals.dtype, copy=False) + if left_indexer is not None: + mask_left = left_indexer == -1 + key_col = key_col.where(~mask_left, rvals) + result_dtype = find_common_type([lvals.dtype, rvals.dtype]) + if ( + lvals.dtype.kind == "M" + and rvals.dtype.kind == "M" + and result_dtype.kind == "O" + ): + # TODO(non-nano) Workaround for common_type not dealing + # with different resolutions + result_dtype = key_col.dtype + + if result._is_label_reference(name): + result[name] = result._constructor_sliced( + key_col, dtype=result_dtype, index=result.index + ) + elif result._is_level_reference(name): + if isinstance(result.index, MultiIndex): + key_col.name = name + idx_list = [ + result.index.get_level_values(level_name) + if level_name != name + else key_col + for level_name in result.index.names + ] + + result.set_index(idx_list, inplace=True) + else: + key_col.name = name + result.index = key_col + else: + result.insert(i, name or f"key_{i}", key_col) + + def _get_join_indexers( + self, + ) -> tuple[npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + """return the join indexers""" + # make mypy happy + assert self.how != "asof" + return get_join_indexers( + self.left_join_keys, self.right_join_keys, sort=self.sort, how=self.how + ) + + @final + def _get_join_info( + self, + ) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + left_ax = self.left.index + right_ax = self.right.index + + if self.left_index and self.right_index and self.how != "asof": + join_index, left_indexer, right_indexer = left_ax.join( + right_ax, how=self.how, return_indexers=True, sort=self.sort + ) + + elif self.right_index and self.how == "left": + join_index, left_indexer, right_indexer = _left_join_on_index( + left_ax, right_ax, self.left_join_keys, sort=self.sort + ) + + elif self.left_index and self.how == "right": + join_index, right_indexer, left_indexer = _left_join_on_index( + right_ax, left_ax, self.right_join_keys, sort=self.sort + ) + else: + (left_indexer, right_indexer) = self._get_join_indexers() + + if self.right_index: + if len(self.left) > 0: + join_index = self._create_join_index( + left_ax, + right_ax, + left_indexer, + how="right", + ) + elif right_indexer is None: + join_index = right_ax.copy() + else: + join_index = right_ax.take(right_indexer) + elif self.left_index: + if self.how == "asof": + # GH#33463 asof should always behave like a left merge + join_index = self._create_join_index( + left_ax, + right_ax, + left_indexer, + how="left", + ) + + elif len(self.right) > 0: + join_index = self._create_join_index( + right_ax, + left_ax, + right_indexer, + how="left", + ) + elif left_indexer is None: + join_index = left_ax.copy() + else: + join_index = left_ax.take(left_indexer) + else: + n = len(left_ax) if left_indexer is None else len(left_indexer) + join_index = default_index(n) + + return join_index, left_indexer, right_indexer + + @final + def _create_join_index( + self, + index: Index, + other_index: Index, + indexer: npt.NDArray[np.intp] | None, + how: JoinHow = "left", + ) -> Index: + """ + Create a join index by rearranging one index to match another + + Parameters + ---------- + index : Index + index being rearranged + other_index : Index + used to supply values not found in index + indexer : np.ndarray[np.intp] or None + how to rearrange index + how : str + Replacement is only necessary if indexer based on other_index. + + Returns + ------- + Index + """ + if self.how in (how, "outer") and not isinstance(other_index, MultiIndex): + # if final index requires values in other_index but not target + # index, indexer may hold missing (-1) values, causing Index.take + # to take the final value in target index. So, we set the last + # element to be the desired fill value. We do not use allow_fill + # and fill_value because it throws a ValueError on integer indices + mask = indexer == -1 + if np.any(mask): + fill_value = na_value_for_dtype(index.dtype, compat=False) + index = index.append(Index([fill_value])) + if indexer is None: + return index.copy() + return index.take(indexer) + + @final + def _get_merge_keys( + self, + ) -> tuple[ + list[ArrayLike], + list[ArrayLike], + list[Hashable], + list[Hashable], + list[Hashable], + ]: + """ + Returns + ------- + left_keys, right_keys, join_names, left_drop, right_drop + """ + left_keys: list[ArrayLike] = [] + right_keys: list[ArrayLike] = [] + join_names: list[Hashable] = [] + right_drop: list[Hashable] = [] + left_drop: list[Hashable] = [] + + left, right = self.left, self.right + + is_lkey = lambda x: isinstance(x, _known) and len(x) == len(left) + is_rkey = lambda x: isinstance(x, _known) and len(x) == len(right) + + # Note that pd.merge_asof() has separate 'on' and 'by' parameters. A + # user could, for example, request 'left_index' and 'left_by'. In a + # regular pd.merge(), users cannot specify both 'left_index' and + # 'left_on'. (Instead, users have a MultiIndex). That means the + # self.left_on in this function is always empty in a pd.merge(), but + # a pd.merge_asof(left_index=True, left_by=...) will result in a + # self.left_on array with a None in the middle of it. This requires + # a work-around as designated in the code below. + # See _validate_left_right_on() for where this happens. + + # ugh, spaghetti re #733 + if _any(self.left_on) and _any(self.right_on): + for lk, rk in zip(self.left_on, self.right_on): + lk = extract_array(lk, extract_numpy=True) + rk = extract_array(rk, extract_numpy=True) + if is_lkey(lk): + lk = cast(ArrayLike, lk) + left_keys.append(lk) + if is_rkey(rk): + rk = cast(ArrayLike, rk) + right_keys.append(rk) + join_names.append(None) # what to do? + else: + # Then we're either Hashable or a wrong-length arraylike, + # the latter of which will raise + rk = cast(Hashable, rk) + if rk is not None: + right_keys.append(right._get_label_or_level_values(rk)) + join_names.append(rk) + else: + # work-around for merge_asof(right_index=True) + right_keys.append(right.index._values) + join_names.append(right.index.name) + else: + if not is_rkey(rk): + # Then we're either Hashable or a wrong-length arraylike, + # the latter of which will raise + rk = cast(Hashable, rk) + if rk is not None: + right_keys.append(right._get_label_or_level_values(rk)) + else: + # work-around for merge_asof(right_index=True) + right_keys.append(right.index._values) + if lk is not None and lk == rk: # FIXME: what about other NAs? + right_drop.append(rk) + else: + rk = cast(ArrayLike, rk) + right_keys.append(rk) + if lk is not None: + # Then we're either Hashable or a wrong-length arraylike, + # the latter of which will raise + lk = cast(Hashable, lk) + left_keys.append(left._get_label_or_level_values(lk)) + join_names.append(lk) + else: + # work-around for merge_asof(left_index=True) + left_keys.append(left.index._values) + join_names.append(left.index.name) + elif _any(self.left_on): + for k in self.left_on: + if is_lkey(k): + k = extract_array(k, extract_numpy=True) + k = cast(ArrayLike, k) + left_keys.append(k) + join_names.append(None) + else: + # Then we're either Hashable or a wrong-length arraylike, + # the latter of which will raise + k = cast(Hashable, k) + left_keys.append(left._get_label_or_level_values(k)) + join_names.append(k) + if isinstance(self.right.index, MultiIndex): + right_keys = [ + lev._values.take(lev_codes) + for lev, lev_codes in zip( + self.right.index.levels, self.right.index.codes + ) + ] + else: + right_keys = [self.right.index._values] + elif _any(self.right_on): + for k in self.right_on: + k = extract_array(k, extract_numpy=True) + if is_rkey(k): + k = cast(ArrayLike, k) + right_keys.append(k) + join_names.append(None) + else: + # Then we're either Hashable or a wrong-length arraylike, + # the latter of which will raise + k = cast(Hashable, k) + right_keys.append(right._get_label_or_level_values(k)) + join_names.append(k) + if isinstance(self.left.index, MultiIndex): + left_keys = [ + lev._values.take(lev_codes) + for lev, lev_codes in zip( + self.left.index.levels, self.left.index.codes + ) + ] + else: + left_keys = [self.left.index._values] + + return left_keys, right_keys, join_names, left_drop, right_drop + + @final + def _maybe_coerce_merge_keys(self) -> None: + # we have valid merges but we may have to further + # coerce these if they are originally incompatible types + # + # for example if these are categorical, but are not dtype_equal + # or if we have object and integer dtypes + + for lk, rk, name in zip( + self.left_join_keys, self.right_join_keys, self.join_names + ): + if (len(lk) and not len(rk)) or (not len(lk) and len(rk)): + continue + + lk = extract_array(lk, extract_numpy=True) + rk = extract_array(rk, extract_numpy=True) + + lk_is_cat = isinstance(lk.dtype, CategoricalDtype) + rk_is_cat = isinstance(rk.dtype, CategoricalDtype) + lk_is_object_or_string = is_object_dtype(lk.dtype) or is_string_dtype( + lk.dtype + ) + rk_is_object_or_string = is_object_dtype(rk.dtype) or is_string_dtype( + rk.dtype + ) + + # if either left or right is a categorical + # then the must match exactly in categories & ordered + if lk_is_cat and rk_is_cat: + lk = cast(Categorical, lk) + rk = cast(Categorical, rk) + if lk._categories_match_up_to_permutation(rk): + continue + + elif lk_is_cat or rk_is_cat: + pass + + elif lk.dtype == rk.dtype: + continue + + msg = ( + f"You are trying to merge on {lk.dtype} and {rk.dtype} columns " + f"for key '{name}'. If you wish to proceed you should use pd.concat" + ) + + # if we are numeric, then allow differing + # kinds to proceed, eg. int64 and int8, int and float + # further if we are object, but we infer to + # the same, then proceed + if is_numeric_dtype(lk.dtype) and is_numeric_dtype(rk.dtype): + if lk.dtype.kind == rk.dtype.kind: + continue + + if isinstance(lk.dtype, ExtensionDtype) and not isinstance( + rk.dtype, ExtensionDtype + ): + ct = find_common_type([lk.dtype, rk.dtype]) + if isinstance(ct, ExtensionDtype): + com_cls = ct.construct_array_type() + rk = com_cls._from_sequence(rk, dtype=ct, copy=False) + else: + rk = rk.astype(ct) + elif isinstance(rk.dtype, ExtensionDtype): + ct = find_common_type([lk.dtype, rk.dtype]) + if isinstance(ct, ExtensionDtype): + com_cls = ct.construct_array_type() + lk = com_cls._from_sequence(lk, dtype=ct, copy=False) + else: + lk = lk.astype(ct) + + # check whether ints and floats + if is_integer_dtype(rk.dtype) and is_float_dtype(lk.dtype): + # GH 47391 numpy > 1.24 will raise a RuntimeError for nan -> int + with np.errstate(invalid="ignore"): + # error: Argument 1 to "astype" of "ndarray" has incompatible + # type "Union[ExtensionDtype, Any, dtype[Any]]"; expected + # "Union[dtype[Any], Type[Any], _SupportsDType[dtype[Any]]]" + casted = lk.astype(rk.dtype) # type: ignore[arg-type] + + mask = ~np.isnan(lk) + match = lk == casted + if not match[mask].all(): + warnings.warn( + "You are merging on int and float " + "columns where the float values " + "are not equal to their int representation.", + UserWarning, + stacklevel=find_stack_level(), + ) + continue + + if is_float_dtype(rk.dtype) and is_integer_dtype(lk.dtype): + # GH 47391 numpy > 1.24 will raise a RuntimeError for nan -> int + with np.errstate(invalid="ignore"): + # error: Argument 1 to "astype" of "ndarray" has incompatible + # type "Union[ExtensionDtype, Any, dtype[Any]]"; expected + # "Union[dtype[Any], Type[Any], _SupportsDType[dtype[Any]]]" + casted = rk.astype(lk.dtype) # type: ignore[arg-type] + + mask = ~np.isnan(rk) + match = rk == casted + if not match[mask].all(): + warnings.warn( + "You are merging on int and float " + "columns where the float values " + "are not equal to their int representation.", + UserWarning, + stacklevel=find_stack_level(), + ) + continue + + # let's infer and see if we are ok + if lib.infer_dtype(lk, skipna=False) == lib.infer_dtype( + rk, skipna=False + ): + continue + + # Check if we are trying to merge on obviously + # incompatible dtypes GH 9780, GH 15800 + + # bool values are coerced to object + elif (lk_is_object_or_string and is_bool_dtype(rk.dtype)) or ( + is_bool_dtype(lk.dtype) and rk_is_object_or_string + ): + pass + + # object values are allowed to be merged + elif (lk_is_object_or_string and is_numeric_dtype(rk.dtype)) or ( + is_numeric_dtype(lk.dtype) and rk_is_object_or_string + ): + inferred_left = lib.infer_dtype(lk, skipna=False) + inferred_right = lib.infer_dtype(rk, skipna=False) + bool_types = ["integer", "mixed-integer", "boolean", "empty"] + string_types = ["string", "unicode", "mixed", "bytes", "empty"] + + # inferred bool + if inferred_left in bool_types and inferred_right in bool_types: + pass + + # unless we are merging non-string-like with string-like + elif ( + inferred_left in string_types and inferred_right not in string_types + ) or ( + inferred_right in string_types and inferred_left not in string_types + ): + raise ValueError(msg) + + # datetimelikes must match exactly + elif needs_i8_conversion(lk.dtype) and not needs_i8_conversion(rk.dtype): + raise ValueError(msg) + elif not needs_i8_conversion(lk.dtype) and needs_i8_conversion(rk.dtype): + raise ValueError(msg) + elif isinstance(lk.dtype, DatetimeTZDtype) and not isinstance( + rk.dtype, DatetimeTZDtype + ): + raise ValueError(msg) + elif not isinstance(lk.dtype, DatetimeTZDtype) and isinstance( + rk.dtype, DatetimeTZDtype + ): + raise ValueError(msg) + elif ( + isinstance(lk.dtype, DatetimeTZDtype) + and isinstance(rk.dtype, DatetimeTZDtype) + ) or (lk.dtype.kind == "M" and rk.dtype.kind == "M"): + # allows datetime with different resolutions + continue + # datetime and timedelta not allowed + elif lk.dtype.kind == "M" and rk.dtype.kind == "m": + raise ValueError(msg) + elif lk.dtype.kind == "m" and rk.dtype.kind == "M": + raise ValueError(msg) + + elif is_object_dtype(lk.dtype) and is_object_dtype(rk.dtype): + continue + + # Houston, we have a problem! + # let's coerce to object if the dtypes aren't + # categorical, otherwise coerce to the category + # dtype. If we coerced categories to object, + # then we would lose type information on some + # columns, and end up trying to merge + # incompatible dtypes. See GH 16900. + if name in self.left.columns: + typ = cast(Categorical, lk).categories.dtype if lk_is_cat else object + self.left = self.left.copy() + self.left[name] = self.left[name].astype(typ) + if name in self.right.columns: + typ = cast(Categorical, rk).categories.dtype if rk_is_cat else object + self.right = self.right.copy() + self.right[name] = self.right[name].astype(typ) + + def _validate_left_right_on(self, left_on, right_on): + left_on = com.maybe_make_list(left_on) + right_on = com.maybe_make_list(right_on) + + # Hm, any way to make this logic less complicated?? + if self.on is None and left_on is None and right_on is None: + if self.left_index and self.right_index: + left_on, right_on = (), () + elif self.left_index: + raise MergeError("Must pass right_on or right_index=True") + elif self.right_index: + raise MergeError("Must pass left_on or left_index=True") + else: + # use the common columns + left_cols = self.left.columns + right_cols = self.right.columns + common_cols = left_cols.intersection(right_cols) + if len(common_cols) == 0: + raise MergeError( + "No common columns to perform merge on. " + f"Merge options: left_on={left_on}, " + f"right_on={right_on}, " + f"left_index={self.left_index}, " + f"right_index={self.right_index}" + ) + if ( + not left_cols.join(common_cols, how="inner").is_unique + or not right_cols.join(common_cols, how="inner").is_unique + ): + raise MergeError(f"Data columns not unique: {repr(common_cols)}") + left_on = right_on = common_cols + elif self.on is not None: + if left_on is not None or right_on is not None: + raise MergeError( + 'Can only pass argument "on" OR "left_on" ' + 'and "right_on", not a combination of both.' + ) + if self.left_index or self.right_index: + raise MergeError( + 'Can only pass argument "on" OR "left_index" ' + 'and "right_index", not a combination of both.' + ) + left_on = right_on = self.on + elif left_on is not None: + if self.left_index: + raise MergeError( + 'Can only pass argument "left_on" OR "left_index" not both.' + ) + if not self.right_index and right_on is None: + raise MergeError('Must pass "right_on" OR "right_index".') + n = len(left_on) + if self.right_index: + if len(left_on) != self.right.index.nlevels: + raise ValueError( + "len(left_on) must equal the number " + 'of levels in the index of "right"' + ) + right_on = [None] * n + elif right_on is not None: + if self.right_index: + raise MergeError( + 'Can only pass argument "right_on" OR "right_index" not both.' + ) + if not self.left_index and left_on is None: + raise MergeError('Must pass "left_on" OR "left_index".') + n = len(right_on) + if self.left_index: + if len(right_on) != self.left.index.nlevels: + raise ValueError( + "len(right_on) must equal the number " + 'of levels in the index of "left"' + ) + left_on = [None] * n + if len(right_on) != len(left_on): + raise ValueError("len(right_on) must equal len(left_on)") + + return left_on, right_on + + @final + def _validate_validate_kwd(self, validate: str) -> None: + # Check uniqueness of each + if self.left_index: + left_unique = self.orig_left.index.is_unique + else: + left_unique = MultiIndex.from_arrays(self.left_join_keys).is_unique + + if self.right_index: + right_unique = self.orig_right.index.is_unique + else: + right_unique = MultiIndex.from_arrays(self.right_join_keys).is_unique + + # Check data integrity + if validate in ["one_to_one", "1:1"]: + if not left_unique and not right_unique: + raise MergeError( + "Merge keys are not unique in either left " + "or right dataset; not a one-to-one merge" + ) + if not left_unique: + raise MergeError( + "Merge keys are not unique in left dataset; not a one-to-one merge" + ) + if not right_unique: + raise MergeError( + "Merge keys are not unique in right dataset; not a one-to-one merge" + ) + + elif validate in ["one_to_many", "1:m"]: + if not left_unique: + raise MergeError( + "Merge keys are not unique in left dataset; not a one-to-many merge" + ) + + elif validate in ["many_to_one", "m:1"]: + if not right_unique: + raise MergeError( + "Merge keys are not unique in right dataset; " + "not a many-to-one merge" + ) + + elif validate in ["many_to_many", "m:m"]: + pass + + else: + raise ValueError( + f'"{validate}" is not a valid argument. ' + "Valid arguments are:\n" + '- "1:1"\n' + '- "1:m"\n' + '- "m:1"\n' + '- "m:m"\n' + '- "one_to_one"\n' + '- "one_to_many"\n' + '- "many_to_one"\n' + '- "many_to_many"' + ) + + +def get_join_indexers( + left_keys: list[ArrayLike], + right_keys: list[ArrayLike], + sort: bool = False, + how: JoinHow = "inner", +) -> tuple[npt.NDArray[np.intp] | None, npt.NDArray[np.intp] | None]: + """ + + Parameters + ---------- + left_keys : list[ndarray, ExtensionArray, Index, Series] + right_keys : list[ndarray, ExtensionArray, Index, Series] + sort : bool, default False + how : {'inner', 'outer', 'left', 'right'}, default 'inner' + + Returns + ------- + np.ndarray[np.intp] or None + Indexer into the left_keys. + np.ndarray[np.intp] or None + Indexer into the right_keys. + """ + assert len(left_keys) == len( + right_keys + ), "left_keys and right_keys must be the same length" + + # fast-path for empty left/right + left_n = len(left_keys[0]) + right_n = len(right_keys[0]) + if left_n == 0: + if how in ["left", "inner"]: + return _get_empty_indexer() + elif not sort and how in ["right", "outer"]: + return _get_no_sort_one_missing_indexer(right_n, True) + elif right_n == 0: + if how in ["right", "inner"]: + return _get_empty_indexer() + elif not sort and how in ["left", "outer"]: + return _get_no_sort_one_missing_indexer(left_n, False) + + lkey: ArrayLike + rkey: ArrayLike + if len(left_keys) > 1: + # get left & right join labels and num. of levels at each location + mapped = ( + _factorize_keys(left_keys[n], right_keys[n], sort=sort) + for n in range(len(left_keys)) + ) + zipped = zip(*mapped) + llab, rlab, shape = (list(x) for x in zipped) + + # get flat i8 keys from label lists + lkey, rkey = _get_join_keys(llab, rlab, tuple(shape), sort) + else: + lkey = left_keys[0] + rkey = right_keys[0] + + left = Index(lkey) + right = Index(rkey) + + if ( + left.is_monotonic_increasing + and right.is_monotonic_increasing + and (left.is_unique or right.is_unique) + ): + _, lidx, ridx = left.join(right, how=how, return_indexers=True, sort=sort) + else: + lidx, ridx = get_join_indexers_non_unique( + left._values, right._values, sort, how + ) + + if lidx is not None and is_range_indexer(lidx, len(left)): + lidx = None + if ridx is not None and is_range_indexer(ridx, len(right)): + ridx = None + return lidx, ridx + + +def get_join_indexers_non_unique( + left: ArrayLike, + right: ArrayLike, + sort: bool = False, + how: JoinHow = "inner", +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """ + Get join indexers for left and right. + + Parameters + ---------- + left : ArrayLike + right : ArrayLike + sort : bool, default False + how : {'inner', 'outer', 'left', 'right'}, default 'inner' + + Returns + ------- + np.ndarray[np.intp] + Indexer into left. + np.ndarray[np.intp] + Indexer into right. + """ + lkey, rkey, count = _factorize_keys(left, right, sort=sort) + if how == "left": + lidx, ridx = libjoin.left_outer_join(lkey, rkey, count, sort=sort) + elif how == "right": + ridx, lidx = libjoin.left_outer_join(rkey, lkey, count, sort=sort) + elif how == "inner": + lidx, ridx = libjoin.inner_join(lkey, rkey, count, sort=sort) + elif how == "outer": + lidx, ridx = libjoin.full_outer_join(lkey, rkey, count) + return lidx, ridx + + +def restore_dropped_levels_multijoin( + left: MultiIndex, + right: MultiIndex, + dropped_level_names, + join_index: Index, + lindexer: npt.NDArray[np.intp], + rindexer: npt.NDArray[np.intp], +) -> tuple[FrozenList, FrozenList, FrozenList]: + """ + *this is an internal non-public method* + + Returns the levels, labels and names of a multi-index to multi-index join. + Depending on the type of join, this method restores the appropriate + dropped levels of the joined multi-index. + The method relies on lindexer, rindexer which hold the index positions of + left and right, where a join was feasible + + Parameters + ---------- + left : MultiIndex + left index + right : MultiIndex + right index + dropped_level_names : str array + list of non-common level names + join_index : Index + the index of the join between the + common levels of left and right + lindexer : np.ndarray[np.intp] + left indexer + rindexer : np.ndarray[np.intp] + right indexer + + Returns + ------- + levels : list of Index + levels of combined multiindexes + labels : np.ndarray[np.intp] + labels of combined multiindexes + names : List[Hashable] + names of combined multiindex levels + + """ + + def _convert_to_multiindex(index: Index) -> MultiIndex: + if isinstance(index, MultiIndex): + return index + else: + return MultiIndex.from_arrays([index._values], names=[index.name]) + + # For multi-multi joins with one overlapping level, + # the returned index if of type Index + # Assure that join_index is of type MultiIndex + # so that dropped levels can be appended + join_index = _convert_to_multiindex(join_index) + + join_levels = join_index.levels + join_codes = join_index.codes + join_names = join_index.names + + # Iterate through the levels that must be restored + for dropped_level_name in dropped_level_names: + if dropped_level_name in left.names: + idx = left + indexer = lindexer + else: + idx = right + indexer = rindexer + + # The index of the level name to be restored + name_idx = idx.names.index(dropped_level_name) + + restore_levels = idx.levels[name_idx] + # Inject -1 in the codes list where a join was not possible + # IOW indexer[i]=-1 + codes = idx.codes[name_idx] + if indexer is None: + restore_codes = codes + else: + restore_codes = algos.take_nd(codes, indexer, fill_value=-1) + + # error: Cannot determine type of "__add__" + join_levels = join_levels + [restore_levels] # type: ignore[has-type] + join_codes = join_codes + [restore_codes] # type: ignore[has-type] + join_names = join_names + [dropped_level_name] + + return join_levels, join_codes, join_names + + +class _OrderedMerge(_MergeOperation): + _merge_type = "ordered_merge" + + def __init__( + self, + left: DataFrame | Series, + right: DataFrame | Series, + on: IndexLabel | None = None, + left_on: IndexLabel | None = None, + right_on: IndexLabel | None = None, + left_index: bool = False, + right_index: bool = False, + suffixes: Suffixes = ("_x", "_y"), + fill_method: str | None = None, + how: JoinHow | Literal["asof"] = "outer", + ) -> None: + self.fill_method = fill_method + _MergeOperation.__init__( + self, + left, + right, + on=on, + left_on=left_on, + left_index=left_index, + right_index=right_index, + right_on=right_on, + how=how, + suffixes=suffixes, + sort=True, # factorize sorts + ) + + def get_result(self, copy: bool | None = True) -> DataFrame: + join_index, left_indexer, right_indexer = self._get_join_info() + + left_join_indexer: npt.NDArray[np.intp] | None + right_join_indexer: npt.NDArray[np.intp] | None + + if self.fill_method == "ffill": + if left_indexer is None: + left_join_indexer = None + else: + left_join_indexer = libjoin.ffill_indexer(left_indexer) + if right_indexer is None: + right_join_indexer = None + else: + right_join_indexer = libjoin.ffill_indexer(right_indexer) + elif self.fill_method is None: + left_join_indexer = left_indexer + right_join_indexer = right_indexer + else: + raise ValueError("fill_method must be 'ffill' or None") + + result = self._reindex_and_concat( + join_index, left_join_indexer, right_join_indexer, copy=copy + ) + self._maybe_add_join_keys(result, left_indexer, right_indexer) + + return result + + +def _asof_by_function(direction: str): + name = f"asof_join_{direction}_on_X_by_Y" + return getattr(libjoin, name, None) + + +class _AsOfMerge(_OrderedMerge): + _merge_type = "asof_merge" + + def __init__( + self, + left: DataFrame | Series, + right: DataFrame | Series, + on: IndexLabel | None = None, + left_on: IndexLabel | None = None, + right_on: IndexLabel | None = None, + left_index: bool = False, + right_index: bool = False, + by=None, + left_by=None, + right_by=None, + suffixes: Suffixes = ("_x", "_y"), + how: Literal["asof"] = "asof", + tolerance=None, + allow_exact_matches: bool = True, + direction: str = "backward", + ) -> None: + self.by = by + self.left_by = left_by + self.right_by = right_by + self.tolerance = tolerance + self.allow_exact_matches = allow_exact_matches + self.direction = direction + + # check 'direction' is valid + if self.direction not in ["backward", "forward", "nearest"]: + raise MergeError(f"direction invalid: {self.direction}") + + # validate allow_exact_matches + if not is_bool(self.allow_exact_matches): + msg = ( + "allow_exact_matches must be boolean, " + f"passed {self.allow_exact_matches}" + ) + raise MergeError(msg) + + _OrderedMerge.__init__( + self, + left, + right, + on=on, + left_on=left_on, + right_on=right_on, + left_index=left_index, + right_index=right_index, + how=how, + suffixes=suffixes, + fill_method=None, + ) + + def _validate_left_right_on(self, left_on, right_on): + left_on, right_on = super()._validate_left_right_on(left_on, right_on) + + # we only allow on to be a single item for on + if len(left_on) != 1 and not self.left_index: + raise MergeError("can only asof on a key for left") + + if len(right_on) != 1 and not self.right_index: + raise MergeError("can only asof on a key for right") + + if self.left_index and isinstance(self.left.index, MultiIndex): + raise MergeError("left can only have one index") + + if self.right_index and isinstance(self.right.index, MultiIndex): + raise MergeError("right can only have one index") + + # set 'by' columns + if self.by is not None: + if self.left_by is not None or self.right_by is not None: + raise MergeError("Can only pass by OR left_by and right_by") + self.left_by = self.right_by = self.by + if self.left_by is None and self.right_by is not None: + raise MergeError("missing left_by") + if self.left_by is not None and self.right_by is None: + raise MergeError("missing right_by") + + # GH#29130 Check that merge keys do not have dtype object + if not self.left_index: + left_on_0 = left_on[0] + if isinstance(left_on_0, _known): + lo_dtype = left_on_0.dtype + else: + lo_dtype = ( + self.left._get_label_or_level_values(left_on_0).dtype + if left_on_0 in self.left.columns + else self.left.index.get_level_values(left_on_0) + ) + else: + lo_dtype = self.left.index.dtype + + if not self.right_index: + right_on_0 = right_on[0] + if isinstance(right_on_0, _known): + ro_dtype = right_on_0.dtype + else: + ro_dtype = ( + self.right._get_label_or_level_values(right_on_0).dtype + if right_on_0 in self.right.columns + else self.right.index.get_level_values(right_on_0) + ) + else: + ro_dtype = self.right.index.dtype + + if ( + is_object_dtype(lo_dtype) + or is_object_dtype(ro_dtype) + or is_string_dtype(lo_dtype) + or is_string_dtype(ro_dtype) + ): + raise MergeError( + f"Incompatible merge dtype, {repr(ro_dtype)} and " + f"{repr(lo_dtype)}, both sides must have numeric dtype" + ) + + # add 'by' to our key-list so we can have it in the + # output as a key + if self.left_by is not None: + if not is_list_like(self.left_by): + self.left_by = [self.left_by] + if not is_list_like(self.right_by): + self.right_by = [self.right_by] + + if len(self.left_by) != len(self.right_by): + raise MergeError("left_by and right_by must be the same length") + + left_on = self.left_by + list(left_on) + right_on = self.right_by + list(right_on) + + return left_on, right_on + + def _maybe_require_matching_dtypes( + self, left_join_keys: list[ArrayLike], right_join_keys: list[ArrayLike] + ) -> None: + # TODO: why do we do this for AsOfMerge but not the others? + + def _check_dtype_match(left: ArrayLike, right: ArrayLike, i: int): + if left.dtype != right.dtype: + if isinstance(left.dtype, CategoricalDtype) and isinstance( + right.dtype, CategoricalDtype + ): + # The generic error message is confusing for categoricals. + # + # In this function, the join keys include both the original + # ones of the merge_asof() call, and also the keys passed + # to its by= argument. Unordered but equal categories + # are not supported for the former, but will fail + # later with a ValueError, so we don't *need* to check + # for them here. + msg = ( + f"incompatible merge keys [{i}] {repr(left.dtype)} and " + f"{repr(right.dtype)}, both sides category, but not equal ones" + ) + else: + msg = ( + f"incompatible merge keys [{i}] {repr(left.dtype)} and " + f"{repr(right.dtype)}, must be the same type" + ) + raise MergeError(msg) + + # validate index types are the same + for i, (lk, rk) in enumerate(zip(left_join_keys, right_join_keys)): + _check_dtype_match(lk, rk, i) + + if self.left_index: + lt = self.left.index._values + else: + lt = left_join_keys[-1] + + if self.right_index: + rt = self.right.index._values + else: + rt = right_join_keys[-1] + + _check_dtype_match(lt, rt, 0) + + def _validate_tolerance(self, left_join_keys: list[ArrayLike]) -> None: + # validate tolerance; datetime.timedelta or Timedelta if we have a DTI + if self.tolerance is not None: + if self.left_index: + lt = self.left.index._values + else: + lt = left_join_keys[-1] + + msg = ( + f"incompatible tolerance {self.tolerance}, must be compat " + f"with type {repr(lt.dtype)}" + ) + + if needs_i8_conversion(lt.dtype) or ( + isinstance(lt, ArrowExtensionArray) and lt.dtype.kind in "mM" + ): + if not isinstance(self.tolerance, datetime.timedelta): + raise MergeError(msg) + if self.tolerance < Timedelta(0): + raise MergeError("tolerance must be positive") + + elif is_integer_dtype(lt.dtype): + if not is_integer(self.tolerance): + raise MergeError(msg) + if self.tolerance < 0: + raise MergeError("tolerance must be positive") + + elif is_float_dtype(lt.dtype): + if not is_number(self.tolerance): + raise MergeError(msg) + # error: Unsupported operand types for > ("int" and "Number") + if self.tolerance < 0: # type: ignore[operator] + raise MergeError("tolerance must be positive") + + else: + raise MergeError("key must be integer, timestamp or float") + + def _convert_values_for_libjoin( + self, values: AnyArrayLike, side: str + ) -> np.ndarray: + # we require sortedness and non-null values in the join keys + if not Index(values).is_monotonic_increasing: + if isna(values).any(): + raise ValueError(f"Merge keys contain null values on {side} side") + raise ValueError(f"{side} keys must be sorted") + + if isinstance(values, ArrowExtensionArray): + values = values._maybe_convert_datelike_array() + + if needs_i8_conversion(values.dtype): + values = values.view("i8") + + elif isinstance(values, BaseMaskedArray): + # we've verified above that no nulls exist + values = values._data + elif isinstance(values, ExtensionArray): + values = values.to_numpy() + + # error: Incompatible return value type (got "Union[ExtensionArray, + # Any, ndarray[Any, Any], ndarray[Any, dtype[Any]], Index, Series]", + # expected "ndarray[Any, Any]") + return values # type: ignore[return-value] + + def _get_join_indexers(self) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """return the join indexers""" + + # values to compare + left_values = ( + self.left.index._values if self.left_index else self.left_join_keys[-1] + ) + right_values = ( + self.right.index._values if self.right_index else self.right_join_keys[-1] + ) + + # _maybe_require_matching_dtypes already checked for dtype matching + assert left_values.dtype == right_values.dtype + + tolerance = self.tolerance + if tolerance is not None: + # TODO: can we reuse a tolerance-conversion function from + # e.g. TimedeltaIndex? + if needs_i8_conversion(left_values.dtype) or ( + isinstance(left_values, ArrowExtensionArray) + and left_values.dtype.kind in "mM" + ): + tolerance = Timedelta(tolerance) + # TODO: we have no test cases with PeriodDtype here; probably + # need to adjust tolerance for that case. + if left_values.dtype.kind in "mM": + # Make sure the i8 representation for tolerance + # matches that for left_values/right_values. + if isinstance(left_values, ArrowExtensionArray): + unit = left_values.dtype.pyarrow_dtype.unit + else: + unit = ensure_wrapped_if_datetimelike(left_values).unit + tolerance = tolerance.as_unit(unit) + + tolerance = tolerance._value + + # initial type conversion as needed + left_values = self._convert_values_for_libjoin(left_values, "left") + right_values = self._convert_values_for_libjoin(right_values, "right") + + # a "by" parameter requires special handling + if self.left_by is not None: + # remove 'on' parameter from values if one existed + if self.left_index and self.right_index: + left_join_keys = self.left_join_keys + right_join_keys = self.right_join_keys + else: + left_join_keys = self.left_join_keys[0:-1] + right_join_keys = self.right_join_keys[0:-1] + + mapped = [ + _factorize_keys( + left_join_keys[n], + right_join_keys[n], + sort=False, + ) + for n in range(len(left_join_keys)) + ] + + if len(left_join_keys) == 1: + left_by_values = mapped[0][0] + right_by_values = mapped[0][1] + else: + arrs = [np.concatenate(m[:2]) for m in mapped] + shape = tuple(m[2] for m in mapped) + group_index = get_group_index( + arrs, shape=shape, sort=False, xnull=False + ) + left_len = len(left_join_keys[0]) + left_by_values = group_index[:left_len] + right_by_values = group_index[left_len:] + + left_by_values = ensure_int64(left_by_values) + right_by_values = ensure_int64(right_by_values) + + # choose appropriate function by type + func = _asof_by_function(self.direction) + return func( + left_values, + right_values, + left_by_values, + right_by_values, + self.allow_exact_matches, + tolerance, + ) + else: + # choose appropriate function by type + func = _asof_by_function(self.direction) + return func( + left_values, + right_values, + None, + None, + self.allow_exact_matches, + tolerance, + False, + ) + + +def _get_multiindex_indexer( + join_keys: list[ArrayLike], index: MultiIndex, sort: bool +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + # left & right join labels and num. of levels at each location + mapped = ( + _factorize_keys(index.levels[n]._values, join_keys[n], sort=sort) + for n in range(index.nlevels) + ) + zipped = zip(*mapped) + rcodes, lcodes, shape = (list(x) for x in zipped) + if sort: + rcodes = list(map(np.take, rcodes, index.codes)) + else: + i8copy = lambda a: a.astype("i8", subok=False, copy=True) + rcodes = list(map(i8copy, index.codes)) + + # fix right labels if there were any nulls + for i, join_key in enumerate(join_keys): + mask = index.codes[i] == -1 + if mask.any(): + # check if there already was any nulls at this location + # if there was, it is factorized to `shape[i] - 1` + a = join_key[lcodes[i] == shape[i] - 1] + if a.size == 0 or not a[0] != a[0]: + shape[i] += 1 + + rcodes[i][mask] = shape[i] - 1 + + # get flat i8 join keys + lkey, rkey = _get_join_keys(lcodes, rcodes, tuple(shape), sort) + return lkey, rkey + + +def _get_empty_indexer() -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """Return empty join indexers.""" + return ( + np.array([], dtype=np.intp), + np.array([], dtype=np.intp), + ) + + +def _get_no_sort_one_missing_indexer( + n: int, left_missing: bool +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + """ + Return join indexers where all of one side is selected without sorting + and none of the other side is selected. + + Parameters + ---------- + n : int + Length of indexers to create. + left_missing : bool + If True, the left indexer will contain only -1's. + If False, the right indexer will contain only -1's. + + Returns + ------- + np.ndarray[np.intp] + Left indexer + np.ndarray[np.intp] + Right indexer + """ + idx = np.arange(n, dtype=np.intp) + idx_missing = np.full(shape=n, fill_value=-1, dtype=np.intp) + if left_missing: + return idx_missing, idx + return idx, idx_missing + + +def _left_join_on_index( + left_ax: Index, right_ax: Index, join_keys: list[ArrayLike], sort: bool = False +) -> tuple[Index, npt.NDArray[np.intp] | None, npt.NDArray[np.intp]]: + if isinstance(right_ax, MultiIndex): + lkey, rkey = _get_multiindex_indexer(join_keys, right_ax, sort=sort) + else: + # error: Incompatible types in assignment (expression has type + # "Union[Union[ExtensionArray, ndarray[Any, Any]], Index, Series]", + # variable has type "ndarray[Any, dtype[signedinteger[Any]]]") + lkey = join_keys[0] # type: ignore[assignment] + # error: Incompatible types in assignment (expression has type "Index", + # variable has type "ndarray[Any, dtype[signedinteger[Any]]]") + rkey = right_ax._values # type: ignore[assignment] + + left_key, right_key, count = _factorize_keys(lkey, rkey, sort=sort) + left_indexer, right_indexer = libjoin.left_outer_join( + left_key, right_key, count, sort=sort + ) + + if sort or len(left_ax) != len(left_indexer): + # if asked to sort or there are 1-to-many matches + join_index = left_ax.take(left_indexer) + return join_index, left_indexer, right_indexer + + # left frame preserves order & length of its index + return left_ax, None, right_indexer + + +def _factorize_keys( + lk: ArrayLike, rk: ArrayLike, sort: bool = True +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp], int]: + """ + Encode left and right keys as enumerated types. + + This is used to get the join indexers to be used when merging DataFrames. + + Parameters + ---------- + lk : ndarray, ExtensionArray + Left key. + rk : ndarray, ExtensionArray + Right key. + sort : bool, defaults to True + If True, the encoding is done such that the unique elements in the + keys are sorted. + + Returns + ------- + np.ndarray[np.intp] + Left (resp. right if called with `key='right'`) labels, as enumerated type. + np.ndarray[np.intp] + Right (resp. left if called with `key='right'`) labels, as enumerated type. + int + Number of unique elements in union of left and right labels. + + See Also + -------- + merge : Merge DataFrame or named Series objects + with a database-style join. + algorithms.factorize : Encode the object as an enumerated type + or categorical variable. + + Examples + -------- + >>> lk = np.array(["a", "c", "b"]) + >>> rk = np.array(["a", "c"]) + + Here, the unique values are `'a', 'b', 'c'`. With the default + `sort=True`, the encoding will be `{0: 'a', 1: 'b', 2: 'c'}`: + + >>> pd.core.reshape.merge._factorize_keys(lk, rk) + (array([0, 2, 1]), array([0, 2]), 3) + + With the `sort=False`, the encoding will correspond to the order + in which the unique elements first appear: `{0: 'a', 1: 'c', 2: 'b'}`: + + >>> pd.core.reshape.merge._factorize_keys(lk, rk, sort=False) + (array([0, 1, 2]), array([0, 1]), 3) + """ + # TODO: if either is a RangeIndex, we can likely factorize more efficiently? + + if ( + isinstance(lk.dtype, DatetimeTZDtype) and isinstance(rk.dtype, DatetimeTZDtype) + ) or (lib.is_np_dtype(lk.dtype, "M") and lib.is_np_dtype(rk.dtype, "M")): + # Extract the ndarray (UTC-localized) values + # Note: we dont need the dtypes to match, as these can still be compared + lk, rk = cast("DatetimeArray", lk)._ensure_matching_resos(rk) + lk = cast("DatetimeArray", lk)._ndarray + rk = cast("DatetimeArray", rk)._ndarray + + elif ( + isinstance(lk.dtype, CategoricalDtype) + and isinstance(rk.dtype, CategoricalDtype) + and lk.dtype == rk.dtype + ): + assert isinstance(lk, Categorical) + assert isinstance(rk, Categorical) + # Cast rk to encoding so we can compare codes with lk + + rk = lk._encode_with_my_categories(rk) + + lk = ensure_int64(lk.codes) + rk = ensure_int64(rk.codes) + + elif isinstance(lk, ExtensionArray) and lk.dtype == rk.dtype: + if (isinstance(lk.dtype, ArrowDtype) and is_string_dtype(lk.dtype)) or ( + isinstance(lk.dtype, StringDtype) and lk.dtype.storage == "pyarrow" + ): + import pyarrow as pa + import pyarrow.compute as pc + + len_lk = len(lk) + lk = lk._pa_array # type: ignore[attr-defined] + rk = rk._pa_array # type: ignore[union-attr] + dc = ( + pa.chunked_array(lk.chunks + rk.chunks) # type: ignore[union-attr] + .combine_chunks() + .dictionary_encode() + ) + + llab, rlab, count = ( + pc.fill_null(dc.indices[slice(len_lk)], -1) + .to_numpy() + .astype(np.intp, copy=False), + pc.fill_null(dc.indices[slice(len_lk, None)], -1) + .to_numpy() + .astype(np.intp, copy=False), + len(dc.dictionary), + ) + + if sort: + uniques = dc.dictionary.to_numpy(zero_copy_only=False) + llab, rlab = _sort_labels(uniques, llab, rlab) + + if dc.null_count > 0: + lmask = llab == -1 + lany = lmask.any() + rmask = rlab == -1 + rany = rmask.any() + if lany: + np.putmask(llab, lmask, count) + if rany: + np.putmask(rlab, rmask, count) + count += 1 + return llab, rlab, count + + if not isinstance(lk, BaseMaskedArray) and not ( + # exclude arrow dtypes that would get cast to object + isinstance(lk.dtype, ArrowDtype) + and ( + is_numeric_dtype(lk.dtype.numpy_dtype) + or is_string_dtype(lk.dtype) + and not sort + ) + ): + lk, _ = lk._values_for_factorize() + + # error: Item "ndarray" of "Union[Any, ndarray]" has no attribute + # "_values_for_factorize" + rk, _ = rk._values_for_factorize() # type: ignore[union-attr] + + if needs_i8_conversion(lk.dtype) and lk.dtype == rk.dtype: + # GH#23917 TODO: Needs tests for non-matching dtypes + # GH#23917 TODO: needs tests for case where lk is integer-dtype + # and rk is datetime-dtype + lk = np.asarray(lk, dtype=np.int64) + rk = np.asarray(rk, dtype=np.int64) + + klass, lk, rk = _convert_arrays_and_get_rizer_klass(lk, rk) + + rizer = klass(max(len(lk), len(rk))) + + if isinstance(lk, BaseMaskedArray): + assert isinstance(rk, BaseMaskedArray) + llab = rizer.factorize(lk._data, mask=lk._mask) + rlab = rizer.factorize(rk._data, mask=rk._mask) + elif isinstance(lk, ArrowExtensionArray): + assert isinstance(rk, ArrowExtensionArray) + # we can only get here with numeric dtypes + # TODO: Remove when we have a Factorizer for Arrow + llab = rizer.factorize( + lk.to_numpy(na_value=1, dtype=lk.dtype.numpy_dtype), mask=lk.isna() + ) + rlab = rizer.factorize( + rk.to_numpy(na_value=1, dtype=lk.dtype.numpy_dtype), mask=rk.isna() + ) + else: + # Argument 1 to "factorize" of "ObjectFactorizer" has incompatible type + # "Union[ndarray[Any, dtype[signedinteger[_64Bit]]], + # ndarray[Any, dtype[object_]]]"; expected "ndarray[Any, dtype[object_]]" + llab = rizer.factorize(lk) # type: ignore[arg-type] + rlab = rizer.factorize(rk) # type: ignore[arg-type] + assert llab.dtype == np.dtype(np.intp), llab.dtype + assert rlab.dtype == np.dtype(np.intp), rlab.dtype + + count = rizer.get_count() + + if sort: + uniques = rizer.uniques.to_array() + llab, rlab = _sort_labels(uniques, llab, rlab) + + # NA group + lmask = llab == -1 + lany = lmask.any() + rmask = rlab == -1 + rany = rmask.any() + + if lany or rany: + if lany: + np.putmask(llab, lmask, count) + if rany: + np.putmask(rlab, rmask, count) + count += 1 + + return llab, rlab, count + + +def _convert_arrays_and_get_rizer_klass( + lk: ArrayLike, rk: ArrayLike +) -> tuple[type[libhashtable.Factorizer], ArrayLike, ArrayLike]: + klass: type[libhashtable.Factorizer] + if is_numeric_dtype(lk.dtype): + if lk.dtype != rk.dtype: + dtype = find_common_type([lk.dtype, rk.dtype]) + if isinstance(dtype, ExtensionDtype): + cls = dtype.construct_array_type() + if not isinstance(lk, ExtensionArray): + lk = cls._from_sequence(lk, dtype=dtype, copy=False) + else: + lk = lk.astype(dtype, copy=False) + + if not isinstance(rk, ExtensionArray): + rk = cls._from_sequence(rk, dtype=dtype, copy=False) + else: + rk = rk.astype(dtype, copy=False) + else: + lk = lk.astype(dtype, copy=False) + rk = rk.astype(dtype, copy=False) + if isinstance(lk, BaseMaskedArray): + # Invalid index type "type" for "Dict[Type[object], Type[Factorizer]]"; + # expected type "Type[object]" + klass = _factorizers[lk.dtype.type] # type: ignore[index] + elif isinstance(lk.dtype, ArrowDtype): + klass = _factorizers[lk.dtype.numpy_dtype.type] + else: + klass = _factorizers[lk.dtype.type] + + else: + klass = libhashtable.ObjectFactorizer + lk = ensure_object(lk) + rk = ensure_object(rk) + return klass, lk, rk + + +def _sort_labels( + uniques: np.ndarray, left: npt.NDArray[np.intp], right: npt.NDArray[np.intp] +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.intp]]: + llength = len(left) + labels = np.concatenate([left, right]) + + _, new_labels = algos.safe_sort(uniques, labels, use_na_sentinel=True) + new_left, new_right = new_labels[:llength], new_labels[llength:] + + return new_left, new_right + + +def _get_join_keys( + llab: list[npt.NDArray[np.int64 | np.intp]], + rlab: list[npt.NDArray[np.int64 | np.intp]], + shape: Shape, + sort: bool, +) -> tuple[npt.NDArray[np.int64], npt.NDArray[np.int64]]: + # how many levels can be done without overflow + nlev = next( + lev + for lev in range(len(shape), 0, -1) + if not is_int64_overflow_possible(shape[:lev]) + ) + + # get keys for the first `nlev` levels + stride = np.prod(shape[1:nlev], dtype="i8") + lkey = stride * llab[0].astype("i8", subok=False, copy=False) + rkey = stride * rlab[0].astype("i8", subok=False, copy=False) + + for i in range(1, nlev): + with np.errstate(divide="ignore"): + stride //= shape[i] + lkey += llab[i] * stride + rkey += rlab[i] * stride + + if nlev == len(shape): # all done! + return lkey, rkey + + # densify current keys to avoid overflow + lkey, rkey, count = _factorize_keys(lkey, rkey, sort=sort) + + llab = [lkey] + llab[nlev:] + rlab = [rkey] + rlab[nlev:] + shape = (count,) + shape[nlev:] + + return _get_join_keys(llab, rlab, shape, sort) + + +def _should_fill(lname, rname) -> bool: + if not isinstance(lname, str) or not isinstance(rname, str): + return True + return lname == rname + + +def _any(x) -> bool: + return x is not None and com.any_not_none(*x) + + +def _validate_operand(obj: DataFrame | Series) -> DataFrame: + if isinstance(obj, ABCDataFrame): + return obj + elif isinstance(obj, ABCSeries): + if obj.name is None: + raise ValueError("Cannot merge a Series without a name") + return obj.to_frame() + else: + raise TypeError( + f"Can only merge Series or DataFrame objects, a {type(obj)} was passed" + ) + + +def _items_overlap_with_suffix( + left: Index, right: Index, suffixes: Suffixes +) -> tuple[Index, Index]: + """ + Suffixes type validation. + + If two indices overlap, add suffixes to overlapping entries. + + If corresponding suffix is empty, the entry is simply converted to string. + + """ + if not is_list_like(suffixes, allow_sets=False) or isinstance(suffixes, dict): + raise TypeError( + f"Passing 'suffixes' as a {type(suffixes)}, is not supported. " + "Provide 'suffixes' as a tuple instead." + ) + + to_rename = left.intersection(right) + if len(to_rename) == 0: + return left, right + + lsuffix, rsuffix = suffixes + + if not lsuffix and not rsuffix: + raise ValueError(f"columns overlap but no suffix specified: {to_rename}") + + def renamer(x, suffix: str | None): + """ + Rename the left and right indices. + + If there is overlap, and suffix is not None, add + suffix, otherwise, leave it as-is. + + Parameters + ---------- + x : original column name + suffix : str or None + + Returns + ------- + x : renamed column name + """ + if x in to_rename and suffix is not None: + return f"{x}{suffix}" + return x + + lrenamer = partial(renamer, suffix=lsuffix) + rrenamer = partial(renamer, suffix=rsuffix) + + llabels = left._transform_index(lrenamer) + rlabels = right._transform_index(rrenamer) + + dups = [] + if not llabels.is_unique: + # Only warn when duplicates are caused because of suffixes, already duplicated + # columns in origin should not warn + dups = llabels[(llabels.duplicated()) & (~left.duplicated())].tolist() + if not rlabels.is_unique: + dups.extend(rlabels[(rlabels.duplicated()) & (~right.duplicated())].tolist()) + if dups: + raise MergeError( + f"Passing 'suffixes' which cause duplicate columns {set(dups)} is " + f"not allowed.", + ) + + return llabels, rlabels diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/pivot.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/pivot.py new file mode 100644 index 0000000000000000000000000000000000000000..b2a915589cba756c16ecaa95c3d056bd7c902c68 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/pivot.py @@ -0,0 +1,899 @@ +from __future__ import annotations + +from collections.abc import ( + Hashable, + Sequence, +) +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas.util._decorators import ( + Appender, + Substitution, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import maybe_downcast_to_dtype +from pandas.core.dtypes.common import ( + is_list_like, + is_nested_list_like, + is_scalar, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +import pandas.core.common as com +from pandas.core.frame import _shared_docs +from pandas.core.groupby import Grouper +from pandas.core.indexes.api import ( + Index, + MultiIndex, + get_objs_combined_axis, +) +from pandas.core.reshape.concat import concat +from pandas.core.reshape.util import cartesian_product +from pandas.core.series import Series + +if TYPE_CHECKING: + from pandas._typing import ( + AggFuncType, + AggFuncTypeBase, + AggFuncTypeDict, + IndexLabel, + ) + + from pandas import DataFrame + + +# Note: We need to make sure `frame` is imported before `pivot`, otherwise +# _shared_docs['pivot_table'] will not yet exist. TODO: Fix this dependency +@Substitution("\ndata : DataFrame") +@Appender(_shared_docs["pivot_table"], indents=1) +def pivot_table( + data: DataFrame, + values=None, + index=None, + columns=None, + aggfunc: AggFuncType = "mean", + fill_value=None, + margins: bool = False, + dropna: bool = True, + margins_name: Hashable = "All", + observed: bool | lib.NoDefault = lib.no_default, + sort: bool = True, +) -> DataFrame: + index = _convert_by(index) + columns = _convert_by(columns) + + if isinstance(aggfunc, list): + pieces: list[DataFrame] = [] + keys = [] + for func in aggfunc: + _table = __internal_pivot_table( + data, + values=values, + index=index, + columns=columns, + fill_value=fill_value, + aggfunc=func, + margins=margins, + dropna=dropna, + margins_name=margins_name, + observed=observed, + sort=sort, + ) + pieces.append(_table) + keys.append(getattr(func, "__name__", func)) + + table = concat(pieces, keys=keys, axis=1) + return table.__finalize__(data, method="pivot_table") + + table = __internal_pivot_table( + data, + values, + index, + columns, + aggfunc, + fill_value, + margins, + dropna, + margins_name, + observed, + sort, + ) + return table.__finalize__(data, method="pivot_table") + + +def __internal_pivot_table( + data: DataFrame, + values, + index, + columns, + aggfunc: AggFuncTypeBase | AggFuncTypeDict, + fill_value, + margins: bool, + dropna: bool, + margins_name: Hashable, + observed: bool | lib.NoDefault, + sort: bool, +) -> DataFrame: + """ + Helper of :func:`pandas.pivot_table` for any non-list ``aggfunc``. + """ + keys = index + columns + + values_passed = values is not None + if values_passed: + if is_list_like(values): + values_multi = True + values = list(values) + else: + values_multi = False + values = [values] + + # GH14938 Make sure value labels are in data + for i in values: + if i not in data: + raise KeyError(i) + + to_filter = [] + for x in keys + values: + if isinstance(x, Grouper): + x = x.key + try: + if x in data: + to_filter.append(x) + except TypeError: + pass + if len(to_filter) < len(data.columns): + data = data[to_filter] + + else: + values = data.columns + for key in keys: + try: + values = values.drop(key) + except (TypeError, ValueError, KeyError): + pass + values = list(values) + + observed_bool = False if observed is lib.no_default else observed + grouped = data.groupby(keys, observed=observed_bool, sort=sort, dropna=dropna) + if observed is lib.no_default and any( + ping._passed_categorical for ping in grouped._grouper.groupings + ): + warnings.warn( + "The default value of observed=False is deprecated and will change " + "to observed=True in a future version of pandas. Specify " + "observed=False to silence this warning and retain the current behavior", + category=FutureWarning, + stacklevel=find_stack_level(), + ) + agged = grouped.agg(aggfunc) + + if dropna and isinstance(agged, ABCDataFrame) and len(agged.columns): + agged = agged.dropna(how="all") + + table = agged + + # GH17038, this check should only happen if index is defined (not None) + if table.index.nlevels > 1 and index: + # Related GH #17123 + # If index_names are integers, determine whether the integers refer + # to the level position or name. + index_names = agged.index.names[: len(index)] + to_unstack = [] + for i in range(len(index), len(keys)): + name = agged.index.names[i] + if name is None or name in index_names: + to_unstack.append(i) + else: + to_unstack.append(name) + table = agged.unstack(to_unstack, fill_value=fill_value) + + if not dropna: + if isinstance(table.index, MultiIndex): + m = MultiIndex.from_arrays( + cartesian_product(table.index.levels), names=table.index.names + ) + table = table.reindex(m, axis=0, fill_value=fill_value) + + if isinstance(table.columns, MultiIndex): + m = MultiIndex.from_arrays( + cartesian_product(table.columns.levels), names=table.columns.names + ) + table = table.reindex(m, axis=1, fill_value=fill_value) + + if sort is True and isinstance(table, ABCDataFrame): + table = table.sort_index(axis=1) + + if fill_value is not None: + table = table.fillna(fill_value) + if aggfunc is len and not observed and lib.is_integer(fill_value): + # TODO: can we avoid this? this used to be handled by + # downcast="infer" in fillna + table = table.astype(np.int64) + + if margins: + if dropna: + data = data[data.notna().all(axis=1)] + table = _add_margins( + table, + data, + values, + rows=index, + cols=columns, + aggfunc=aggfunc, + observed=dropna, + margins_name=margins_name, + fill_value=fill_value, + ) + + # discard the top level + if values_passed and not values_multi and table.columns.nlevels > 1: + table.columns = table.columns.droplevel(0) + if len(index) == 0 and len(columns) > 0: + table = table.T + + # GH 15193 Make sure empty columns are removed if dropna=True + if isinstance(table, ABCDataFrame) and dropna: + table = table.dropna(how="all", axis=1) + + return table + + +def _add_margins( + table: DataFrame | Series, + data: DataFrame, + values, + rows, + cols, + aggfunc, + observed: bool, + margins_name: Hashable = "All", + fill_value=None, +): + if not isinstance(margins_name, str): + raise ValueError("margins_name argument must be a string") + + msg = f'Conflicting name "{margins_name}" in margins' + for level in table.index.names: + if margins_name in table.index.get_level_values(level): + raise ValueError(msg) + + grand_margin = _compute_grand_margin(data, values, aggfunc, margins_name) + + if table.ndim == 2: + # i.e. DataFrame + for level in table.columns.names[1:]: + if margins_name in table.columns.get_level_values(level): + raise ValueError(msg) + + key: str | tuple[str, ...] + if len(rows) > 1: + key = (margins_name,) + ("",) * (len(rows) - 1) + else: + key = margins_name + + if not values and isinstance(table, ABCSeries): + # If there are no values and the table is a series, then there is only + # one column in the data. Compute grand margin and return it. + return table._append(table._constructor({key: grand_margin[margins_name]})) + + elif values: + marginal_result_set = _generate_marginal_results( + table, data, values, rows, cols, aggfunc, observed, margins_name + ) + if not isinstance(marginal_result_set, tuple): + return marginal_result_set + result, margin_keys, row_margin = marginal_result_set + else: + # no values, and table is a DataFrame + assert isinstance(table, ABCDataFrame) + marginal_result_set = _generate_marginal_results_without_values( + table, data, rows, cols, aggfunc, observed, margins_name + ) + if not isinstance(marginal_result_set, tuple): + return marginal_result_set + result, margin_keys, row_margin = marginal_result_set + + row_margin = row_margin.reindex(result.columns, fill_value=fill_value) + # populate grand margin + for k in margin_keys: + if isinstance(k, str): + row_margin[k] = grand_margin[k] + else: + row_margin[k] = grand_margin[k[0]] + + from pandas import DataFrame + + margin_dummy = DataFrame(row_margin, columns=Index([key])).T + + row_names = result.index.names + # check the result column and leave floats + + for dtype in set(result.dtypes): + if isinstance(dtype, ExtensionDtype): + # Can hold NA already + continue + + cols = result.select_dtypes([dtype]).columns + margin_dummy[cols] = margin_dummy[cols].apply( + maybe_downcast_to_dtype, args=(dtype,) + ) + result = result._append(margin_dummy) + result.index.names = row_names + + return result + + +def _compute_grand_margin( + data: DataFrame, values, aggfunc, margins_name: Hashable = "All" +): + if values: + grand_margin = {} + for k, v in data[values].items(): + try: + if isinstance(aggfunc, str): + grand_margin[k] = getattr(v, aggfunc)() + elif isinstance(aggfunc, dict): + if isinstance(aggfunc[k], str): + grand_margin[k] = getattr(v, aggfunc[k])() + else: + grand_margin[k] = aggfunc[k](v) + else: + grand_margin[k] = aggfunc(v) + except TypeError: + pass + return grand_margin + else: + return {margins_name: aggfunc(data.index)} + + +def _generate_marginal_results( + table, + data: DataFrame, + values, + rows, + cols, + aggfunc, + observed: bool, + margins_name: Hashable = "All", +): + margin_keys: list | Index + if len(cols) > 0: + # need to "interleave" the margins + table_pieces = [] + margin_keys = [] + + def _all_key(key): + return (key, margins_name) + ("",) * (len(cols) - 1) + + if len(rows) > 0: + margin = data[rows + values].groupby(rows, observed=observed).agg(aggfunc) + cat_axis = 1 + + for key, piece in table.T.groupby(level=0, observed=observed): + piece = piece.T + all_key = _all_key(key) + + # we are going to mutate this, so need to copy! + piece = piece.copy() + piece[all_key] = margin[key] + + table_pieces.append(piece) + margin_keys.append(all_key) + else: + from pandas import DataFrame + + cat_axis = 0 + for key, piece in table.groupby(level=0, observed=observed): + if len(cols) > 1: + all_key = _all_key(key) + else: + all_key = margins_name + table_pieces.append(piece) + # GH31016 this is to calculate margin for each group, and assign + # corresponded key as index + transformed_piece = DataFrame(piece.apply(aggfunc)).T + if isinstance(piece.index, MultiIndex): + # We are adding an empty level + transformed_piece.index = MultiIndex.from_tuples( + [all_key], names=piece.index.names + [None] + ) + else: + transformed_piece.index = Index([all_key], name=piece.index.name) + + # append piece for margin into table_piece + table_pieces.append(transformed_piece) + margin_keys.append(all_key) + + if not table_pieces: + # GH 49240 + return table + else: + result = concat(table_pieces, axis=cat_axis) + + if len(rows) == 0: + return result + else: + result = table + margin_keys = table.columns + + if len(cols) > 0: + row_margin = data[cols + values].groupby(cols, observed=observed).agg(aggfunc) + row_margin = row_margin.stack(future_stack=True) + + # GH#26568. Use names instead of indices in case of numeric names + new_order_indices = [len(cols)] + list(range(len(cols))) + new_order_names = [row_margin.index.names[i] for i in new_order_indices] + row_margin.index = row_margin.index.reorder_levels(new_order_names) + else: + row_margin = data._constructor_sliced(np.nan, index=result.columns) + + return result, margin_keys, row_margin + + +def _generate_marginal_results_without_values( + table: DataFrame, + data: DataFrame, + rows, + cols, + aggfunc, + observed: bool, + margins_name: Hashable = "All", +): + margin_keys: list | Index + if len(cols) > 0: + # need to "interleave" the margins + margin_keys = [] + + def _all_key(): + if len(cols) == 1: + return margins_name + return (margins_name,) + ("",) * (len(cols) - 1) + + if len(rows) > 0: + margin = data.groupby(rows, observed=observed)[rows].apply(aggfunc) + all_key = _all_key() + table[all_key] = margin + result = table + margin_keys.append(all_key) + + else: + margin = data.groupby(level=0, axis=0, observed=observed).apply(aggfunc) + all_key = _all_key() + table[all_key] = margin + result = table + margin_keys.append(all_key) + return result + else: + result = table + margin_keys = table.columns + + if len(cols): + row_margin = data.groupby(cols, observed=observed)[cols].apply(aggfunc) + else: + row_margin = Series(np.nan, index=result.columns) + + return result, margin_keys, row_margin + + +def _convert_by(by): + if by is None: + by = [] + elif ( + is_scalar(by) + or isinstance(by, (np.ndarray, Index, ABCSeries, Grouper)) + or callable(by) + ): + by = [by] + else: + by = list(by) + return by + + +@Substitution("\ndata : DataFrame") +@Appender(_shared_docs["pivot"], indents=1) +def pivot( + data: DataFrame, + *, + columns: IndexLabel, + index: IndexLabel | lib.NoDefault = lib.no_default, + values: IndexLabel | lib.NoDefault = lib.no_default, +) -> DataFrame: + columns_listlike = com.convert_to_list_like(columns) + + # If columns is None we will create a MultiIndex level with None as name + # which might cause duplicated names because None is the default for + # level names + data = data.copy(deep=False) + data.index = data.index.copy() + data.index.names = [ + name if name is not None else lib.no_default for name in data.index.names + ] + + indexed: DataFrame | Series + if values is lib.no_default: + if index is not lib.no_default: + cols = com.convert_to_list_like(index) + else: + cols = [] + + append = index is lib.no_default + # error: Unsupported operand types for + ("List[Any]" and "ExtensionArray") + # error: Unsupported left operand type for + ("ExtensionArray") + indexed = data.set_index( + cols + columns_listlike, append=append # type: ignore[operator] + ) + else: + index_list: list[Index] | list[Series] + if index is lib.no_default: + if isinstance(data.index, MultiIndex): + # GH 23955 + index_list = [ + data.index.get_level_values(i) for i in range(data.index.nlevels) + ] + else: + index_list = [ + data._constructor_sliced(data.index, name=data.index.name) + ] + else: + index_list = [data[idx] for idx in com.convert_to_list_like(index)] + + data_columns = [data[col] for col in columns_listlike] + index_list.extend(data_columns) + multiindex = MultiIndex.from_arrays(index_list) + + if is_list_like(values) and not isinstance(values, tuple): + # Exclude tuple because it is seen as a single column name + values = cast(Sequence[Hashable], values) + indexed = data._constructor( + data[values]._values, index=multiindex, columns=values + ) + else: + indexed = data._constructor_sliced(data[values]._values, index=multiindex) + # error: Argument 1 to "unstack" of "DataFrame" has incompatible type "Union + # [List[Any], ExtensionArray, ndarray[Any, Any], Index, Series]"; expected + # "Hashable" + result = indexed.unstack(columns_listlike) # type: ignore[arg-type] + result.index.names = [ + name if name is not lib.no_default else None for name in result.index.names + ] + + return result + + +def crosstab( + index, + columns, + values=None, + rownames=None, + colnames=None, + aggfunc=None, + margins: bool = False, + margins_name: Hashable = "All", + dropna: bool = True, + normalize: bool | Literal[0, 1, "all", "index", "columns"] = False, +) -> DataFrame: + """ + Compute a simple cross tabulation of two (or more) factors. + + By default, computes a frequency table of the factors unless an + array of values and an aggregation function are passed. + + Parameters + ---------- + index : array-like, Series, or list of arrays/Series + Values to group by in the rows. + columns : array-like, Series, or list of arrays/Series + Values to group by in the columns. + values : array-like, optional + Array of values to aggregate according to the factors. + Requires `aggfunc` be specified. + rownames : sequence, default None + If passed, must match number of row arrays passed. + colnames : sequence, default None + If passed, must match number of column arrays passed. + aggfunc : function, optional + If specified, requires `values` be specified as well. + margins : bool, default False + Add row/column margins (subtotals). + margins_name : str, default 'All' + Name of the row/column that will contain the totals + when margins is True. + dropna : bool, default True + Do not include columns whose entries are all NaN. + normalize : bool, {'all', 'index', 'columns'}, or {0,1}, default False + Normalize by dividing all values by the sum of values. + + - If passed 'all' or `True`, will normalize over all values. + - If passed 'index' will normalize over each row. + - If passed 'columns' will normalize over each column. + - If margins is `True`, will also normalize margin values. + + Returns + ------- + DataFrame + Cross tabulation of the data. + + See Also + -------- + DataFrame.pivot : Reshape data based on column values. + pivot_table : Create a pivot table as a DataFrame. + + Notes + ----- + Any Series passed will have their name attributes used unless row or column + names for the cross-tabulation are specified. + + Any input passed containing Categorical data will have **all** of its + categories included in the cross-tabulation, even if the actual data does + not contain any instances of a particular category. + + In the event that there aren't overlapping indexes an empty DataFrame will + be returned. + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> a = np.array(["foo", "foo", "foo", "foo", "bar", "bar", + ... "bar", "bar", "foo", "foo", "foo"], dtype=object) + >>> b = np.array(["one", "one", "one", "two", "one", "one", + ... "one", "two", "two", "two", "one"], dtype=object) + >>> c = np.array(["dull", "dull", "shiny", "dull", "dull", "shiny", + ... "shiny", "dull", "shiny", "shiny", "shiny"], + ... dtype=object) + >>> pd.crosstab(a, [b, c], rownames=['a'], colnames=['b', 'c']) + b one two + c dull shiny dull shiny + a + bar 1 2 1 0 + foo 2 2 1 2 + + Here 'c' and 'f' are not represented in the data and will not be + shown in the output because dropna is True by default. Set + dropna=False to preserve categories with no data. + + >>> foo = pd.Categorical(['a', 'b'], categories=['a', 'b', 'c']) + >>> bar = pd.Categorical(['d', 'e'], categories=['d', 'e', 'f']) + >>> pd.crosstab(foo, bar) + col_0 d e + row_0 + a 1 0 + b 0 1 + >>> pd.crosstab(foo, bar, dropna=False) + col_0 d e f + row_0 + a 1 0 0 + b 0 1 0 + c 0 0 0 + """ + if values is None and aggfunc is not None: + raise ValueError("aggfunc cannot be used without values.") + + if values is not None and aggfunc is None: + raise ValueError("values cannot be used without an aggfunc.") + + if not is_nested_list_like(index): + index = [index] + if not is_nested_list_like(columns): + columns = [columns] + + common_idx = None + pass_objs = [x for x in index + columns if isinstance(x, (ABCSeries, ABCDataFrame))] + if pass_objs: + common_idx = get_objs_combined_axis(pass_objs, intersect=True, sort=False) + + rownames = _get_names(index, rownames, prefix="row") + colnames = _get_names(columns, colnames, prefix="col") + + # duplicate names mapped to unique names for pivot op + ( + rownames_mapper, + unique_rownames, + colnames_mapper, + unique_colnames, + ) = _build_names_mapper(rownames, colnames) + + from pandas import DataFrame + + data = { + **dict(zip(unique_rownames, index)), + **dict(zip(unique_colnames, columns)), + } + df = DataFrame(data, index=common_idx) + + if values is None: + df["__dummy__"] = 0 + kwargs = {"aggfunc": len, "fill_value": 0} + else: + df["__dummy__"] = values + kwargs = {"aggfunc": aggfunc} + + # error: Argument 7 to "pivot_table" of "DataFrame" has incompatible type + # "**Dict[str, object]"; expected "Union[...]" + table = df.pivot_table( + "__dummy__", + index=unique_rownames, + columns=unique_colnames, + margins=margins, + margins_name=margins_name, + dropna=dropna, + observed=False, + **kwargs, # type: ignore[arg-type] + ) + + # Post-process + if normalize is not False: + table = _normalize( + table, normalize=normalize, margins=margins, margins_name=margins_name + ) + + table = table.rename_axis(index=rownames_mapper, axis=0) + table = table.rename_axis(columns=colnames_mapper, axis=1) + + return table + + +def _normalize( + table: DataFrame, normalize, margins: bool, margins_name: Hashable = "All" +) -> DataFrame: + if not isinstance(normalize, (bool, str)): + axis_subs = {0: "index", 1: "columns"} + try: + normalize = axis_subs[normalize] + except KeyError as err: + raise ValueError("Not a valid normalize argument") from err + + if margins is False: + # Actual Normalizations + normalizers: dict[bool | str, Callable] = { + "all": lambda x: x / x.sum(axis=1).sum(axis=0), + "columns": lambda x: x / x.sum(), + "index": lambda x: x.div(x.sum(axis=1), axis=0), + } + + normalizers[True] = normalizers["all"] + + try: + f = normalizers[normalize] + except KeyError as err: + raise ValueError("Not a valid normalize argument") from err + + table = f(table) + table = table.fillna(0) + + elif margins is True: + # keep index and column of pivoted table + table_index = table.index + table_columns = table.columns + last_ind_or_col = table.iloc[-1, :].name + + # check if margin name is not in (for MI cases) and not equal to last + # index/column and save the column and index margin + if (margins_name not in last_ind_or_col) & (margins_name != last_ind_or_col): + raise ValueError(f"{margins_name} not in pivoted DataFrame") + column_margin = table.iloc[:-1, -1] + index_margin = table.iloc[-1, :-1] + + # keep the core table + table = table.iloc[:-1, :-1] + + # Normalize core + table = _normalize(table, normalize=normalize, margins=False) + + # Fix Margins + if normalize == "columns": + column_margin = column_margin / column_margin.sum() + table = concat([table, column_margin], axis=1) + table = table.fillna(0) + table.columns = table_columns + + elif normalize == "index": + index_margin = index_margin / index_margin.sum() + table = table._append(index_margin) + table = table.fillna(0) + table.index = table_index + + elif normalize == "all" or normalize is True: + column_margin = column_margin / column_margin.sum() + index_margin = index_margin / index_margin.sum() + index_margin.loc[margins_name] = 1 + table = concat([table, column_margin], axis=1) + table = table._append(index_margin) + + table = table.fillna(0) + table.index = table_index + table.columns = table_columns + + else: + raise ValueError("Not a valid normalize argument") + + else: + raise ValueError("Not a valid margins argument") + + return table + + +def _get_names(arrs, names, prefix: str = "row"): + if names is None: + names = [] + for i, arr in enumerate(arrs): + if isinstance(arr, ABCSeries) and arr.name is not None: + names.append(arr.name) + else: + names.append(f"{prefix}_{i}") + else: + if len(names) != len(arrs): + raise AssertionError("arrays and names must have the same length") + if not isinstance(names, list): + names = list(names) + + return names + + +def _build_names_mapper( + rownames: list[str], colnames: list[str] +) -> tuple[dict[str, str], list[str], dict[str, str], list[str]]: + """ + Given the names of a DataFrame's rows and columns, returns a set of unique row + and column names and mappers that convert to original names. + + A row or column name is replaced if it is duplicate among the rows of the inputs, + among the columns of the inputs or between the rows and the columns. + + Parameters + ---------- + rownames: list[str] + colnames: list[str] + + Returns + ------- + Tuple(Dict[str, str], List[str], Dict[str, str], List[str]) + + rownames_mapper: dict[str, str] + a dictionary with new row names as keys and original rownames as values + unique_rownames: list[str] + a list of rownames with duplicate names replaced by dummy names + colnames_mapper: dict[str, str] + a dictionary with new column names as keys and original column names as values + unique_colnames: list[str] + a list of column names with duplicate names replaced by dummy names + + """ + + def get_duplicates(names): + seen: set = set() + return {name for name in names if name not in seen} + + shared_names = set(rownames).intersection(set(colnames)) + dup_names = get_duplicates(rownames) | get_duplicates(colnames) | shared_names + + rownames_mapper = { + f"row_{i}": name for i, name in enumerate(rownames) if name in dup_names + } + unique_rownames = [ + f"row_{i}" if name in dup_names else name for i, name in enumerate(rownames) + ] + + colnames_mapper = { + f"col_{i}": name for i, name in enumerate(colnames) if name in dup_names + } + unique_colnames = [ + f"col_{i}" if name in dup_names else name for i, name in enumerate(colnames) + ] + + return rownames_mapper, unique_rownames, colnames_mapper, unique_colnames diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/reshape.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/reshape.py new file mode 100644 index 0000000000000000000000000000000000000000..7a49682d7c57c90ed26e890777758ad806bd961b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/reshape.py @@ -0,0 +1,989 @@ +from __future__ import annotations + +import itertools +from typing import ( + TYPE_CHECKING, + cast, +) +import warnings + +import numpy as np + +import pandas._libs.reshape as libreshape +from pandas.errors import PerformanceWarning +from pandas.util._decorators import cache_readonly +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import ( + find_common_type, + maybe_promote, +) +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_1d_only_ea_dtype, + is_integer, + needs_i8_conversion, +) +from pandas.core.dtypes.dtypes import ExtensionDtype +from pandas.core.dtypes.missing import notna + +import pandas.core.algorithms as algos +from pandas.core.algorithms import ( + factorize, + unique, +) +from pandas.core.arrays.categorical import factorize_from_iterable +from pandas.core.construction import ensure_wrapped_if_datetimelike +from pandas.core.frame import DataFrame +from pandas.core.indexes.api import ( + Index, + MultiIndex, + RangeIndex, +) +from pandas.core.reshape.concat import concat +from pandas.core.series import Series +from pandas.core.sorting import ( + compress_group_index, + decons_obs_group_ids, + get_compressed_ids, + get_group_index, + get_group_index_sorter, +) + +if TYPE_CHECKING: + from pandas._typing import ( + ArrayLike, + Level, + npt, + ) + + from pandas.core.arrays import ExtensionArray + from pandas.core.indexes.frozen import FrozenList + + +class _Unstacker: + """ + Helper class to unstack data / pivot with multi-level index + + Parameters + ---------- + index : MultiIndex + level : int or str, default last level + Level to "unstack". Accepts a name for the level. + fill_value : scalar, optional + Default value to fill in missing values if subgroups do not have the + same set of labels. By default, missing values will be replaced with + the default fill value for that data type, NaN for float, NaT for + datetimelike, etc. For integer types, by default data will converted to + float and missing values will be set to NaN. + constructor : object + Pandas ``DataFrame`` or subclass used to create unstacked + response. If None, DataFrame will be used. + + Examples + -------- + >>> index = pd.MultiIndex.from_tuples([('one', 'a'), ('one', 'b'), + ... ('two', 'a'), ('two', 'b')]) + >>> s = pd.Series(np.arange(1, 5, dtype=np.int64), index=index) + >>> s + one a 1 + b 2 + two a 3 + b 4 + dtype: int64 + + >>> s.unstack(level=-1) + a b + one 1 2 + two 3 4 + + >>> s.unstack(level=0) + one two + a 1 3 + b 2 4 + + Returns + ------- + unstacked : DataFrame + """ + + def __init__( + self, index: MultiIndex, level: Level, constructor, sort: bool = True + ) -> None: + self.constructor = constructor + self.sort = sort + + self.index = index.remove_unused_levels() + + self.level = self.index._get_level_number(level) + + # when index includes `nan`, need to lift levels/strides by 1 + self.lift = 1 if -1 in self.index.codes[self.level] else 0 + + # Note: the "pop" below alters these in-place. + self.new_index_levels = list(self.index.levels) + self.new_index_names = list(self.index.names) + + self.removed_name = self.new_index_names.pop(self.level) + self.removed_level = self.new_index_levels.pop(self.level) + self.removed_level_full = index.levels[self.level] + if not self.sort: + unique_codes = unique(self.index.codes[self.level]) + self.removed_level = self.removed_level.take(unique_codes) + self.removed_level_full = self.removed_level_full.take(unique_codes) + + # Bug fix GH 20601 + # If the data frame is too big, the number of unique index combination + # will cause int32 overflow on windows environments. + # We want to check and raise an warning before this happens + num_rows = np.max([index_level.size for index_level in self.new_index_levels]) + num_columns = self.removed_level.size + + # GH20601: This forces an overflow if the number of cells is too high. + num_cells = num_rows * num_columns + + # GH 26314: Previous ValueError raised was too restrictive for many users. + if num_cells > np.iinfo(np.int32).max: + warnings.warn( + f"The following operation may generate {num_cells} cells " + f"in the resulting pandas object.", + PerformanceWarning, + stacklevel=find_stack_level(), + ) + + self._make_selectors() + + @cache_readonly + def _indexer_and_to_sort( + self, + ) -> tuple[ + npt.NDArray[np.intp], + list[np.ndarray], # each has _some_ signed integer dtype + ]: + v = self.level + + codes = list(self.index.codes) + levs = list(self.index.levels) + to_sort = codes[:v] + codes[v + 1 :] + [codes[v]] + sizes = tuple(len(x) for x in levs[:v] + levs[v + 1 :] + [levs[v]]) + + comp_index, obs_ids = get_compressed_ids(to_sort, sizes) + ngroups = len(obs_ids) + + indexer = get_group_index_sorter(comp_index, ngroups) + return indexer, to_sort + + @cache_readonly + def sorted_labels(self) -> list[np.ndarray]: + indexer, to_sort = self._indexer_and_to_sort + if self.sort: + return [line.take(indexer) for line in to_sort] + return to_sort + + def _make_sorted_values(self, values: np.ndarray) -> np.ndarray: + if self.sort: + indexer, _ = self._indexer_and_to_sort + + sorted_values = algos.take_nd(values, indexer, axis=0) + return sorted_values + return values + + def _make_selectors(self): + new_levels = self.new_index_levels + + # make the mask + remaining_labels = self.sorted_labels[:-1] + level_sizes = tuple(len(x) for x in new_levels) + + comp_index, obs_ids = get_compressed_ids(remaining_labels, level_sizes) + ngroups = len(obs_ids) + + comp_index = ensure_platform_int(comp_index) + stride = self.index.levshape[self.level] + self.lift + self.full_shape = ngroups, stride + + selector = self.sorted_labels[-1] + stride * comp_index + self.lift + mask = np.zeros(np.prod(self.full_shape), dtype=bool) + mask.put(selector, True) + + if mask.sum() < len(self.index): + raise ValueError("Index contains duplicate entries, cannot reshape") + + self.group_index = comp_index + self.mask = mask + if self.sort: + self.compressor = comp_index.searchsorted(np.arange(ngroups)) + else: + self.compressor = np.sort(np.unique(comp_index, return_index=True)[1]) + + @cache_readonly + def mask_all(self) -> bool: + return bool(self.mask.all()) + + @cache_readonly + def arange_result(self) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.bool_]]: + # We cache this for reuse in ExtensionBlock._unstack + dummy_arr = np.arange(len(self.index), dtype=np.intp) + new_values, mask = self.get_new_values(dummy_arr, fill_value=-1) + return new_values, mask.any(0) + # TODO: in all tests we have mask.any(0).all(); can we rely on that? + + def get_result(self, values, value_columns, fill_value) -> DataFrame: + if values.ndim == 1: + values = values[:, np.newaxis] + + if value_columns is None and values.shape[1] != 1: # pragma: no cover + raise ValueError("must pass column labels for multi-column data") + + values, _ = self.get_new_values(values, fill_value) + columns = self.get_new_columns(value_columns) + index = self.new_index + + return self.constructor( + values, index=index, columns=columns, dtype=values.dtype + ) + + def get_new_values(self, values, fill_value=None): + if values.ndim == 1: + values = values[:, np.newaxis] + + sorted_values = self._make_sorted_values(values) + + # place the values + length, width = self.full_shape + stride = values.shape[1] + result_width = width * stride + result_shape = (length, result_width) + mask = self.mask + mask_all = self.mask_all + + # we can simply reshape if we don't have a mask + if mask_all and len(values): + # TODO: Under what circumstances can we rely on sorted_values + # matching values? When that holds, we can slice instead + # of take (in particular for EAs) + new_values = ( + sorted_values.reshape(length, width, stride) + .swapaxes(1, 2) + .reshape(result_shape) + ) + new_mask = np.ones(result_shape, dtype=bool) + return new_values, new_mask + + dtype = values.dtype + + # if our mask is all True, then we can use our existing dtype + if mask_all: + dtype = values.dtype + new_values = np.empty(result_shape, dtype=dtype) + else: + if isinstance(dtype, ExtensionDtype): + # GH#41875 + # We are assuming that fill_value can be held by this dtype, + # unlike the non-EA case that promotes. + cls = dtype.construct_array_type() + new_values = cls._empty(result_shape, dtype=dtype) + new_values[:] = fill_value + else: + dtype, fill_value = maybe_promote(dtype, fill_value) + new_values = np.empty(result_shape, dtype=dtype) + new_values.fill(fill_value) + + name = dtype.name + new_mask = np.zeros(result_shape, dtype=bool) + + # we need to convert to a basic dtype + # and possibly coerce an input to our output dtype + # e.g. ints -> floats + if needs_i8_conversion(values.dtype): + sorted_values = sorted_values.view("i8") + new_values = new_values.view("i8") + else: + sorted_values = sorted_values.astype(name, copy=False) + + # fill in our values & mask + libreshape.unstack( + sorted_values, + mask.view("u1"), + stride, + length, + width, + new_values, + new_mask.view("u1"), + ) + + # reconstruct dtype if needed + if needs_i8_conversion(values.dtype): + # view as datetime64 so we can wrap in DatetimeArray and use + # DTA's view method + new_values = new_values.view("M8[ns]") + new_values = ensure_wrapped_if_datetimelike(new_values) + new_values = new_values.view(values.dtype) + + return new_values, new_mask + + def get_new_columns(self, value_columns: Index | None): + if value_columns is None: + if self.lift == 0: + return self.removed_level._rename(name=self.removed_name) + + lev = self.removed_level.insert(0, item=self.removed_level._na_value) + return lev.rename(self.removed_name) + + stride = len(self.removed_level) + self.lift + width = len(value_columns) + propagator = np.repeat(np.arange(width), stride) + + new_levels: FrozenList | list[Index] + + if isinstance(value_columns, MultiIndex): + # error: Cannot determine type of "__add__" [has-type] + new_levels = value_columns.levels + ( # type: ignore[has-type] + self.removed_level_full, + ) + new_names = value_columns.names + (self.removed_name,) + + new_codes = [lab.take(propagator) for lab in value_columns.codes] + else: + new_levels = [ + value_columns, + self.removed_level_full, + ] + new_names = [value_columns.name, self.removed_name] + new_codes = [propagator] + + repeater = self._repeater + + # The entire level is then just a repetition of the single chunk: + new_codes.append(np.tile(repeater, width)) + return MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + + @cache_readonly + def _repeater(self) -> np.ndarray: + # The two indices differ only if the unstacked level had unused items: + if len(self.removed_level_full) != len(self.removed_level): + # In this case, we remap the new codes to the original level: + repeater = self.removed_level_full.get_indexer(self.removed_level) + if self.lift: + repeater = np.insert(repeater, 0, -1) + else: + # Otherwise, we just use each level item exactly once: + stride = len(self.removed_level) + self.lift + repeater = np.arange(stride) - self.lift + + return repeater + + @cache_readonly + def new_index(self) -> MultiIndex: + # Does not depend on values or value_columns + result_codes = [lab.take(self.compressor) for lab in self.sorted_labels[:-1]] + + # construct the new index + if len(self.new_index_levels) == 1: + level, level_codes = self.new_index_levels[0], result_codes[0] + if (level_codes == -1).any(): + level = level.insert(len(level), level._na_value) + return level.take(level_codes).rename(self.new_index_names[0]) + + return MultiIndex( + levels=self.new_index_levels, + codes=result_codes, + names=self.new_index_names, + verify_integrity=False, + ) + + +def _unstack_multiple( + data: Series | DataFrame, clocs, fill_value=None, sort: bool = True +): + if len(clocs) == 0: + return data + + # NOTE: This doesn't deal with hierarchical columns yet + + index = data.index + index = cast(MultiIndex, index) # caller is responsible for checking + + # GH 19966 Make sure if MultiIndexed index has tuple name, they will be + # recognised as a whole + if clocs in index.names: + clocs = [clocs] + clocs = [index._get_level_number(i) for i in clocs] + + rlocs = [i for i in range(index.nlevels) if i not in clocs] + + clevels = [index.levels[i] for i in clocs] + ccodes = [index.codes[i] for i in clocs] + cnames = [index.names[i] for i in clocs] + rlevels = [index.levels[i] for i in rlocs] + rcodes = [index.codes[i] for i in rlocs] + rnames = [index.names[i] for i in rlocs] + + shape = tuple(len(x) for x in clevels) + group_index = get_group_index(ccodes, shape, sort=False, xnull=False) + + comp_ids, obs_ids = compress_group_index(group_index, sort=False) + recons_codes = decons_obs_group_ids(comp_ids, obs_ids, shape, ccodes, xnull=False) + + if not rlocs: + # Everything is in clocs, so the dummy df has a regular index + dummy_index = Index(obs_ids, name="__placeholder__") + else: + dummy_index = MultiIndex( + levels=rlevels + [obs_ids], + codes=rcodes + [comp_ids], + names=rnames + ["__placeholder__"], + verify_integrity=False, + ) + + if isinstance(data, Series): + dummy = data.copy() + dummy.index = dummy_index + + unstacked = dummy.unstack("__placeholder__", fill_value=fill_value, sort=sort) + new_levels = clevels + new_names = cnames + new_codes = recons_codes + else: + if isinstance(data.columns, MultiIndex): + result = data + while clocs: + val = clocs.pop(0) + result = result.unstack(val, fill_value=fill_value, sort=sort) + clocs = [v if v < val else v - 1 for v in clocs] + + return result + + # GH#42579 deep=False to avoid consolidating + dummy_df = data.copy(deep=False) + dummy_df.index = dummy_index + + unstacked = dummy_df.unstack( + "__placeholder__", fill_value=fill_value, sort=sort + ) + if isinstance(unstacked, Series): + unstcols = unstacked.index + else: + unstcols = unstacked.columns + assert isinstance(unstcols, MultiIndex) # for mypy + new_levels = [unstcols.levels[0]] + clevels + new_names = [data.columns.name] + cnames + + new_codes = [unstcols.codes[0]] + new_codes.extend(rec.take(unstcols.codes[-1]) for rec in recons_codes) + + new_columns = MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + + if isinstance(unstacked, Series): + unstacked.index = new_columns + else: + unstacked.columns = new_columns + + return unstacked + + +def unstack(obj: Series | DataFrame, level, fill_value=None, sort: bool = True): + if isinstance(level, (tuple, list)): + if len(level) != 1: + # _unstack_multiple only handles MultiIndexes, + # and isn't needed for a single level + return _unstack_multiple(obj, level, fill_value=fill_value, sort=sort) + else: + level = level[0] + + if not is_integer(level) and not level == "__placeholder__": + # check if level is valid in case of regular index + obj.index._get_level_number(level) + + if isinstance(obj, DataFrame): + if isinstance(obj.index, MultiIndex): + return _unstack_frame(obj, level, fill_value=fill_value, sort=sort) + else: + return obj.T.stack(future_stack=True) + elif not isinstance(obj.index, MultiIndex): + # GH 36113 + # Give nicer error messages when unstack a Series whose + # Index is not a MultiIndex. + raise ValueError( + f"index must be a MultiIndex to unstack, {type(obj.index)} was passed" + ) + else: + if is_1d_only_ea_dtype(obj.dtype): + return _unstack_extension_series(obj, level, fill_value, sort=sort) + unstacker = _Unstacker( + obj.index, level=level, constructor=obj._constructor_expanddim, sort=sort + ) + return unstacker.get_result( + obj._values, value_columns=None, fill_value=fill_value + ) + + +def _unstack_frame( + obj: DataFrame, level, fill_value=None, sort: bool = True +) -> DataFrame: + assert isinstance(obj.index, MultiIndex) # checked by caller + unstacker = _Unstacker( + obj.index, level=level, constructor=obj._constructor, sort=sort + ) + + if not obj._can_fast_transpose: + mgr = obj._mgr.unstack(unstacker, fill_value=fill_value) + return obj._constructor_from_mgr(mgr, axes=mgr.axes) + else: + return unstacker.get_result( + obj._values, value_columns=obj.columns, fill_value=fill_value + ) + + +def _unstack_extension_series( + series: Series, level, fill_value, sort: bool +) -> DataFrame: + """ + Unstack an ExtensionArray-backed Series. + + The ExtensionDtype is preserved. + + Parameters + ---------- + series : Series + A Series with an ExtensionArray for values + level : Any + The level name or number. + fill_value : Any + The user-level (not physical storage) fill value to use for + missing values introduced by the reshape. Passed to + ``series.values.take``. + sort : bool + Whether to sort the resulting MuliIndex levels + + Returns + ------- + DataFrame + Each column of the DataFrame will have the same dtype as + the input Series. + """ + # Defer to the logic in ExtensionBlock._unstack + df = series.to_frame() + result = df.unstack(level=level, fill_value=fill_value, sort=sort) + + # equiv: result.droplevel(level=0, axis=1) + # but this avoids an extra copy + result.columns = result.columns._drop_level_numbers([0]) + return result + + +def stack(frame: DataFrame, level=-1, dropna: bool = True, sort: bool = True): + """ + Convert DataFrame to Series with multi-level Index. Columns become the + second level of the resulting hierarchical index + + Returns + ------- + stacked : Series or DataFrame + """ + + def stack_factorize(index): + if index.is_unique: + return index, np.arange(len(index)) + codes, categories = factorize_from_iterable(index) + return categories, codes + + N, K = frame.shape + + # Will also convert negative level numbers and check if out of bounds. + level_num = frame.columns._get_level_number(level) + + if isinstance(frame.columns, MultiIndex): + return _stack_multi_columns( + frame, level_num=level_num, dropna=dropna, sort=sort + ) + elif isinstance(frame.index, MultiIndex): + new_levels = list(frame.index.levels) + new_codes = [lab.repeat(K) for lab in frame.index.codes] + + clev, clab = stack_factorize(frame.columns) + new_levels.append(clev) + new_codes.append(np.tile(clab, N).ravel()) + + new_names = list(frame.index.names) + new_names.append(frame.columns.name) + new_index = MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + else: + levels, (ilab, clab) = zip(*map(stack_factorize, (frame.index, frame.columns))) + codes = ilab.repeat(K), np.tile(clab, N).ravel() + new_index = MultiIndex( + levels=levels, + codes=codes, + names=[frame.index.name, frame.columns.name], + verify_integrity=False, + ) + + new_values: ArrayLike + if not frame.empty and frame._is_homogeneous_type: + # For homogeneous EAs, frame._values will coerce to object. So + # we concatenate instead. + dtypes = list(frame.dtypes._values) + dtype = dtypes[0] + + if isinstance(dtype, ExtensionDtype): + arr = dtype.construct_array_type() + new_values = arr._concat_same_type( + [col._values for _, col in frame.items()] + ) + new_values = _reorder_for_extension_array_stack(new_values, N, K) + else: + # homogeneous, non-EA + new_values = frame._values.ravel() + + else: + # non-homogeneous + new_values = frame._values.ravel() + + if dropna: + mask = notna(new_values) + new_values = new_values[mask] + new_index = new_index[mask] + + return frame._constructor_sliced(new_values, index=new_index) + + +def stack_multiple(frame: DataFrame, level, dropna: bool = True, sort: bool = True): + # If all passed levels match up to column names, no + # ambiguity about what to do + if all(lev in frame.columns.names for lev in level): + result = frame + for lev in level: + result = stack(result, lev, dropna=dropna, sort=sort) + + # Otherwise, level numbers may change as each successive level is stacked + elif all(isinstance(lev, int) for lev in level): + # As each stack is done, the level numbers decrease, so we need + # to account for that when level is a sequence of ints + result = frame + # _get_level_number() checks level numbers are in range and converts + # negative numbers to positive + level = [frame.columns._get_level_number(lev) for lev in level] + + while level: + lev = level.pop(0) + result = stack(result, lev, dropna=dropna, sort=sort) + # Decrement all level numbers greater than current, as these + # have now shifted down by one + level = [v if v <= lev else v - 1 for v in level] + + else: + raise ValueError( + "level should contain all level names or all level " + "numbers, not a mixture of the two." + ) + + return result + + +def _stack_multi_column_index(columns: MultiIndex) -> MultiIndex: + """Creates a MultiIndex from the first N-1 levels of this MultiIndex.""" + if len(columns.levels) <= 2: + return columns.levels[0]._rename(name=columns.names[0]) + + levs = [ + [lev[c] if c >= 0 else None for c in codes] + for lev, codes in zip(columns.levels[:-1], columns.codes[:-1]) + ] + + # Remove duplicate tuples in the MultiIndex. + tuples = zip(*levs) + unique_tuples = (key for key, _ in itertools.groupby(tuples)) + new_levs = zip(*unique_tuples) + + # The dtype of each level must be explicitly set to avoid inferring the wrong type. + # See GH-36991. + return MultiIndex.from_arrays( + [ + # Not all indices can accept None values. + Index(new_lev, dtype=lev.dtype) if None not in new_lev else new_lev + for new_lev, lev in zip(new_levs, columns.levels) + ], + names=columns.names[:-1], + ) + + +def _stack_multi_columns( + frame: DataFrame, level_num: int = -1, dropna: bool = True, sort: bool = True +) -> DataFrame: + def _convert_level_number(level_num: int, columns: Index): + """ + Logic for converting the level number to something we can safely pass + to swaplevel. + + If `level_num` matches a column name return the name from + position `level_num`, otherwise return `level_num`. + """ + if level_num in columns.names: + return columns.names[level_num] + + return level_num + + this = frame.copy(deep=False) + mi_cols = this.columns # cast(MultiIndex, this.columns) + assert isinstance(mi_cols, MultiIndex) # caller is responsible + + # this makes life much simpler + if level_num != mi_cols.nlevels - 1: + # roll levels to put selected level at end + roll_columns = mi_cols + for i in range(level_num, mi_cols.nlevels - 1): + # Need to check if the ints conflict with level names + lev1 = _convert_level_number(i, roll_columns) + lev2 = _convert_level_number(i + 1, roll_columns) + roll_columns = roll_columns.swaplevel(lev1, lev2) + this.columns = mi_cols = roll_columns + + if not mi_cols._is_lexsorted() and sort: + # Workaround the edge case where 0 is one of the column names, + # which interferes with trying to sort based on the first + # level + level_to_sort = _convert_level_number(0, mi_cols) + this = this.sort_index(level=level_to_sort, axis=1) + mi_cols = this.columns + + mi_cols = cast(MultiIndex, mi_cols) + new_columns = _stack_multi_column_index(mi_cols) + + # time to ravel the values + new_data = {} + level_vals = mi_cols.levels[-1] + level_codes = unique(mi_cols.codes[-1]) + if sort: + level_codes = np.sort(level_codes) + level_vals_nan = level_vals.insert(len(level_vals), None) + + level_vals_used = np.take(level_vals_nan, level_codes) + levsize = len(level_codes) + drop_cols = [] + for key in new_columns: + try: + loc = this.columns.get_loc(key) + except KeyError: + drop_cols.append(key) + continue + + # can make more efficient? + # we almost always return a slice + # but if unsorted can get a boolean + # indexer + if not isinstance(loc, slice): + slice_len = len(loc) + else: + slice_len = loc.stop - loc.start + + if slice_len != levsize: + chunk = this.loc[:, this.columns[loc]] + chunk.columns = level_vals_nan.take(chunk.columns.codes[-1]) + value_slice = chunk.reindex(columns=level_vals_used).values + else: + subset = this.iloc[:, loc] + dtype = find_common_type(subset.dtypes.tolist()) + if isinstance(dtype, ExtensionDtype): + # TODO(EA2D): won't need special case, can go through .values + # paths below (might change to ._values) + value_slice = dtype.construct_array_type()._concat_same_type( + [x._values.astype(dtype, copy=False) for _, x in subset.items()] + ) + N, K = subset.shape + idx = np.arange(N * K).reshape(K, N).T.ravel() + value_slice = value_slice.take(idx) + else: + value_slice = subset.values + + if value_slice.ndim > 1: + # i.e. not extension + value_slice = value_slice.ravel() + + new_data[key] = value_slice + + if len(drop_cols) > 0: + new_columns = new_columns.difference(drop_cols) + + N = len(this) + + if isinstance(this.index, MultiIndex): + new_levels = list(this.index.levels) + new_names = list(this.index.names) + new_codes = [lab.repeat(levsize) for lab in this.index.codes] + else: + old_codes, old_levels = factorize_from_iterable(this.index) + new_levels = [old_levels] + new_codes = [old_codes.repeat(levsize)] + new_names = [this.index.name] # something better? + + new_levels.append(level_vals) + new_codes.append(np.tile(level_codes, N)) + new_names.append(frame.columns.names[level_num]) + + new_index = MultiIndex( + levels=new_levels, codes=new_codes, names=new_names, verify_integrity=False + ) + + result = frame._constructor(new_data, index=new_index, columns=new_columns) + + if frame.columns.nlevels > 1: + desired_columns = frame.columns._drop_level_numbers([level_num]).unique() + if not result.columns.equals(desired_columns): + result = result[desired_columns] + + # more efficient way to go about this? can do the whole masking biz but + # will only save a small amount of time... + if dropna: + result = result.dropna(axis=0, how="all") + + return result + + +def _reorder_for_extension_array_stack( + arr: ExtensionArray, n_rows: int, n_columns: int +) -> ExtensionArray: + """ + Re-orders the values when stacking multiple extension-arrays. + + The indirect stacking method used for EAs requires a followup + take to get the order correct. + + Parameters + ---------- + arr : ExtensionArray + n_rows, n_columns : int + The number of rows and columns in the original DataFrame. + + Returns + ------- + taken : ExtensionArray + The original `arr` with elements re-ordered appropriately + + Examples + -------- + >>> arr = np.array(['a', 'b', 'c', 'd', 'e', 'f']) + >>> _reorder_for_extension_array_stack(arr, 2, 3) + array(['a', 'c', 'e', 'b', 'd', 'f'], dtype='>> _reorder_for_extension_array_stack(arr, 3, 2) + array(['a', 'd', 'b', 'e', 'c', 'f'], dtype=' Series | DataFrame: + if frame.columns.nunique() != len(frame.columns): + raise ValueError("Columns with duplicate values are not supported in stack") + + # If we need to drop `level` from columns, it needs to be in descending order + drop_levnums = sorted(level, reverse=True) + stack_cols = frame.columns._drop_level_numbers( + [k for k in range(frame.columns.nlevels) if k not in level][::-1] + ) + if len(level) > 1: + # Arrange columns in the order we want to take them, e.g. level=[2, 0, 1] + sorter = np.argsort(level) + ordered_stack_cols = stack_cols._reorder_ilevels(sorter) + else: + ordered_stack_cols = stack_cols + + stack_cols_unique = stack_cols.unique() + ordered_stack_cols_unique = ordered_stack_cols.unique() + + # Grab data for each unique index to be stacked + buf = [] + for idx in stack_cols_unique: + if len(frame.columns) == 1: + data = frame.copy() + else: + # Take the data from frame corresponding to this idx value + if len(level) == 1: + idx = (idx,) + gen = iter(idx) + column_indexer = tuple( + next(gen) if k in level else slice(None) + for k in range(frame.columns.nlevels) + ) + data = frame.loc[:, column_indexer] + + if len(level) < frame.columns.nlevels: + data.columns = data.columns._drop_level_numbers(drop_levnums) + elif stack_cols.nlevels == 1: + if data.ndim == 1: + data.name = 0 + else: + data.columns = RangeIndex(len(data.columns)) + buf.append(data) + + result: Series | DataFrame + if len(buf) > 0 and not frame.empty: + result = concat(buf) + ratio = len(result) // len(frame) + else: + # input is empty + if len(level) < frame.columns.nlevels: + # concat column order may be different from dropping the levels + new_columns = frame.columns._drop_level_numbers(drop_levnums).unique() + else: + new_columns = [0] + result = DataFrame(columns=new_columns, dtype=frame._values.dtype) + ratio = 0 + + if len(level) < frame.columns.nlevels: + # concat column order may be different from dropping the levels + desired_columns = frame.columns._drop_level_numbers(drop_levnums).unique() + if not result.columns.equals(desired_columns): + result = result[desired_columns] + + # Construct the correct MultiIndex by combining the frame's index and + # stacked columns. + index_levels: list | FrozenList + if isinstance(frame.index, MultiIndex): + index_levels = frame.index.levels + index_codes = list(np.tile(frame.index.codes, (1, ratio))) + else: + codes, uniques = factorize(frame.index, use_na_sentinel=False) + index_levels = [uniques] + index_codes = list(np.tile(codes, (1, ratio))) + if isinstance(stack_cols, MultiIndex): + column_levels = ordered_stack_cols.levels + column_codes = ordered_stack_cols.drop_duplicates().codes + else: + column_levels = [ordered_stack_cols.unique()] + column_codes = [factorize(ordered_stack_cols_unique, use_na_sentinel=False)[0]] + column_codes = [np.repeat(codes, len(frame)) for codes in column_codes] + result.index = MultiIndex( + levels=index_levels + column_levels, + codes=index_codes + column_codes, + names=frame.index.names + list(ordered_stack_cols.names), + verify_integrity=False, + ) + + # sort result, but faster than calling sort_index since we know the order we need + len_df = len(frame) + n_uniques = len(ordered_stack_cols_unique) + indexer = np.arange(n_uniques) + idxs = np.tile(len_df * indexer, len_df) + np.repeat(np.arange(len_df), n_uniques) + result = result.take(idxs) + + # Reshape/rename if needed and dropna + if result.ndim == 2 and frame.columns.nlevels == len(level): + if len(result.columns) == 0: + result = Series(index=result.index) + else: + result = result.iloc[:, 0] + if result.ndim == 1: + result.name = None + + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/tile.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/tile.py new file mode 100644 index 0000000000000000000000000000000000000000..2b0c6fbb8e3bf69fcb60ce3257450260af2a9f6b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/tile.py @@ -0,0 +1,638 @@ +""" +Quantilization functions and related stuff +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, +) + +import numpy as np + +from pandas._libs import ( + Timedelta, + Timestamp, + lib, +) + +from pandas.core.dtypes.common import ( + ensure_platform_int, + is_bool_dtype, + is_integer, + is_list_like, + is_numeric_dtype, + is_scalar, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + ExtensionDtype, +) +from pandas.core.dtypes.generic import ABCSeries +from pandas.core.dtypes.missing import isna + +from pandas import ( + Categorical, + Index, + IntervalIndex, +) +import pandas.core.algorithms as algos +from pandas.core.arrays.datetimelike import dtype_to_unit + +if TYPE_CHECKING: + from pandas._typing import ( + DtypeObj, + IntervalLeftRight, + ) + + +def cut( + x, + bins, + right: bool = True, + labels=None, + retbins: bool = False, + precision: int = 3, + include_lowest: bool = False, + duplicates: str = "raise", + ordered: bool = True, +): + """ + Bin values into discrete intervals. + + Use `cut` when you need to segment and sort data values into bins. This + function is also useful for going from a continuous variable to a + categorical variable. For example, `cut` could convert ages to groups of + age ranges. Supports binning into an equal number of bins, or a + pre-specified array of bins. + + Parameters + ---------- + x : array-like + The input array to be binned. Must be 1-dimensional. + bins : int, sequence of scalars, or IntervalIndex + The criteria to bin by. + + * int : Defines the number of equal-width bins in the range of `x`. The + range of `x` is extended by .1% on each side to include the minimum + and maximum values of `x`. + * sequence of scalars : Defines the bin edges allowing for non-uniform + width. No extension of the range of `x` is done. + * IntervalIndex : Defines the exact bins to be used. Note that + IntervalIndex for `bins` must be non-overlapping. + + right : bool, default True + Indicates whether `bins` includes the rightmost edge or not. If + ``right == True`` (the default), then the `bins` ``[1, 2, 3, 4]`` + indicate (1,2], (2,3], (3,4]. This argument is ignored when + `bins` is an IntervalIndex. + labels : array or False, default None + Specifies the labels for the returned bins. Must be the same length as + the resulting bins. If False, returns only integer indicators of the + bins. This affects the type of the output container (see below). + This argument is ignored when `bins` is an IntervalIndex. If True, + raises an error. When `ordered=False`, labels must be provided. + retbins : bool, default False + Whether to return the bins or not. Useful when bins is provided + as a scalar. + precision : int, default 3 + The precision at which to store and display the bins labels. + include_lowest : bool, default False + Whether the first interval should be left-inclusive or not. + duplicates : {default 'raise', 'drop'}, optional + If bin edges are not unique, raise ValueError or drop non-uniques. + ordered : bool, default True + Whether the labels are ordered or not. Applies to returned types + Categorical and Series (with Categorical dtype). If True, + the resulting categorical will be ordered. If False, the resulting + categorical will be unordered (labels must be provided). + + Returns + ------- + out : Categorical, Series, or ndarray + An array-like object representing the respective bin for each value + of `x`. The type depends on the value of `labels`. + + * None (default) : returns a Series for Series `x` or a + Categorical for all other inputs. The values stored within + are Interval dtype. + + * sequence of scalars : returns a Series for Series `x` or a + Categorical for all other inputs. The values stored within + are whatever the type in the sequence is. + + * False : returns an ndarray of integers. + + bins : numpy.ndarray or IntervalIndex. + The computed or specified bins. Only returned when `retbins=True`. + For scalar or sequence `bins`, this is an ndarray with the computed + bins. If set `duplicates=drop`, `bins` will drop non-unique bin. For + an IntervalIndex `bins`, this is equal to `bins`. + + See Also + -------- + qcut : Discretize variable into equal-sized buckets based on rank + or based on sample quantiles. + Categorical : Array type for storing data that come from a + fixed set of values. + Series : One-dimensional array with axis labels (including time series). + IntervalIndex : Immutable Index implementing an ordered, sliceable set. + + Notes + ----- + Any NA values will be NA in the result. Out of bounds values will be NA in + the resulting Series or Categorical object. + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + Discretize into three equal-sized bins. + + >>> pd.cut(np.array([1, 7, 5, 4, 6, 3]), 3) + ... # doctest: +ELLIPSIS + [(0.994, 3.0], (5.0, 7.0], (3.0, 5.0], (3.0, 5.0], (5.0, 7.0], ... + Categories (3, interval[float64, right]): [(0.994, 3.0] < (3.0, 5.0] ... + + >>> pd.cut(np.array([1, 7, 5, 4, 6, 3]), 3, retbins=True) + ... # doctest: +ELLIPSIS + ([(0.994, 3.0], (5.0, 7.0], (3.0, 5.0], (3.0, 5.0], (5.0, 7.0], ... + Categories (3, interval[float64, right]): [(0.994, 3.0] < (3.0, 5.0] ... + array([0.994, 3. , 5. , 7. ])) + + Discovers the same bins, but assign them specific labels. Notice that + the returned Categorical's categories are `labels` and is ordered. + + >>> pd.cut(np.array([1, 7, 5, 4, 6, 3]), + ... 3, labels=["bad", "medium", "good"]) + ['bad', 'good', 'medium', 'medium', 'good', 'bad'] + Categories (3, object): ['bad' < 'medium' < 'good'] + + ``ordered=False`` will result in unordered categories when labels are passed. + This parameter can be used to allow non-unique labels: + + >>> pd.cut(np.array([1, 7, 5, 4, 6, 3]), 3, + ... labels=["B", "A", "B"], ordered=False) + ['B', 'B', 'A', 'A', 'B', 'B'] + Categories (2, object): ['A', 'B'] + + ``labels=False`` implies you just want the bins back. + + >>> pd.cut([0, 1, 1, 2], bins=4, labels=False) + array([0, 1, 1, 3]) + + Passing a Series as an input returns a Series with categorical dtype: + + >>> s = pd.Series(np.array([2, 4, 6, 8, 10]), + ... index=['a', 'b', 'c', 'd', 'e']) + >>> pd.cut(s, 3) + ... # doctest: +ELLIPSIS + a (1.992, 4.667] + b (1.992, 4.667] + c (4.667, 7.333] + d (7.333, 10.0] + e (7.333, 10.0] + dtype: category + Categories (3, interval[float64, right]): [(1.992, 4.667] < (4.667, ... + + Passing a Series as an input returns a Series with mapping value. + It is used to map numerically to intervals based on bins. + + >>> s = pd.Series(np.array([2, 4, 6, 8, 10]), + ... index=['a', 'b', 'c', 'd', 'e']) + >>> pd.cut(s, [0, 2, 4, 6, 8, 10], labels=False, retbins=True, right=False) + ... # doctest: +ELLIPSIS + (a 1.0 + b 2.0 + c 3.0 + d 4.0 + e NaN + dtype: float64, + array([ 0, 2, 4, 6, 8, 10])) + + Use `drop` optional when bins is not unique + + >>> pd.cut(s, [0, 2, 4, 6, 10, 10], labels=False, retbins=True, + ... right=False, duplicates='drop') + ... # doctest: +ELLIPSIS + (a 1.0 + b 2.0 + c 3.0 + d 3.0 + e NaN + dtype: float64, + array([ 0, 2, 4, 6, 10])) + + Passing an IntervalIndex for `bins` results in those categories exactly. + Notice that values not covered by the IntervalIndex are set to NaN. 0 + is to the left of the first bin (which is closed on the right), and 1.5 + falls between two bins. + + >>> bins = pd.IntervalIndex.from_tuples([(0, 1), (2, 3), (4, 5)]) + >>> pd.cut([0, 0.5, 1.5, 2.5, 4.5], bins) + [NaN, (0.0, 1.0], NaN, (2.0, 3.0], (4.0, 5.0]] + Categories (3, interval[int64, right]): [(0, 1] < (2, 3] < (4, 5]] + """ + # NOTE: this binning code is changed a bit from histogram for var(x) == 0 + + original = x + x_idx = _preprocess_for_cut(x) + x_idx, _ = _coerce_to_type(x_idx) + + if not np.iterable(bins): + bins = _nbins_to_bins(x_idx, bins, right) + + elif isinstance(bins, IntervalIndex): + if bins.is_overlapping: + raise ValueError("Overlapping IntervalIndex is not accepted.") + + else: + bins = Index(bins) + if not bins.is_monotonic_increasing: + raise ValueError("bins must increase monotonically.") + + fac, bins = _bins_to_cuts( + x_idx, + bins, + right=right, + labels=labels, + precision=precision, + include_lowest=include_lowest, + duplicates=duplicates, + ordered=ordered, + ) + + return _postprocess_for_cut(fac, bins, retbins, original) + + +def qcut( + x, + q, + labels=None, + retbins: bool = False, + precision: int = 3, + duplicates: str = "raise", +): + """ + Quantile-based discretization function. + + Discretize variable into equal-sized buckets based on rank or based + on sample quantiles. For example 1000 values for 10 quantiles would + produce a Categorical object indicating quantile membership for each data point. + + Parameters + ---------- + x : 1d ndarray or Series + q : int or list-like of float + Number of quantiles. 10 for deciles, 4 for quartiles, etc. Alternately + array of quantiles, e.g. [0, .25, .5, .75, 1.] for quartiles. + labels : array or False, default None + Used as labels for the resulting bins. Must be of the same length as + the resulting bins. If False, return only integer indicators of the + bins. If True, raises an error. + retbins : bool, optional + Whether to return the (bins, labels) or not. Can be useful if bins + is given as a scalar. + precision : int, optional + The precision at which to store and display the bins labels. + duplicates : {default 'raise', 'drop'}, optional + If bin edges are not unique, raise ValueError or drop non-uniques. + + Returns + ------- + out : Categorical or Series or array of integers if labels is False + The return type (Categorical or Series) depends on the input: a Series + of type category if input is a Series else Categorical. Bins are + represented as categories when categorical data is returned. + bins : ndarray of floats + Returned only if `retbins` is True. + + Notes + ----- + Out of bounds values will be NA in the resulting Categorical object + + Examples + -------- + >>> pd.qcut(range(5), 4) + ... # doctest: +ELLIPSIS + [(-0.001, 1.0], (-0.001, 1.0], (1.0, 2.0], (2.0, 3.0], (3.0, 4.0]] + Categories (4, interval[float64, right]): [(-0.001, 1.0] < (1.0, 2.0] ... + + >>> pd.qcut(range(5), 3, labels=["good", "medium", "bad"]) + ... # doctest: +SKIP + [good, good, medium, bad, bad] + Categories (3, object): [good < medium < bad] + + >>> pd.qcut(range(5), 4, labels=False) + array([0, 0, 1, 2, 3]) + """ + original = x + x_idx = _preprocess_for_cut(x) + x_idx, _ = _coerce_to_type(x_idx) + + quantiles = np.linspace(0, 1, q + 1) if is_integer(q) else q + + bins = x_idx.to_series().dropna().quantile(quantiles) + + fac, bins = _bins_to_cuts( + x_idx, + Index(bins), + labels=labels, + precision=precision, + include_lowest=True, + duplicates=duplicates, + ) + + return _postprocess_for_cut(fac, bins, retbins, original) + + +def _nbins_to_bins(x_idx: Index, nbins: int, right: bool) -> Index: + """ + If a user passed an integer N for bins, convert this to a sequence of N + equal(ish)-sized bins. + """ + if is_scalar(nbins) and nbins < 1: + raise ValueError("`bins` should be a positive integer.") + + if x_idx.size == 0: + raise ValueError("Cannot cut empty array") + + rng = (x_idx.min(), x_idx.max()) + mn, mx = rng + + if is_numeric_dtype(x_idx.dtype) and (np.isinf(mn) or np.isinf(mx)): + # GH#24314 + raise ValueError( + "cannot specify integer `bins` when input data contains infinity" + ) + + if mn == mx: # adjust end points before binning + if _is_dt_or_td(x_idx.dtype): + # using seconds=1 is pretty arbitrary here + # error: Argument 1 to "dtype_to_unit" has incompatible type + # "dtype[Any] | ExtensionDtype"; expected "DatetimeTZDtype | dtype[Any]" + unit = dtype_to_unit(x_idx.dtype) # type: ignore[arg-type] + td = Timedelta(seconds=1).as_unit(unit) + # Use DatetimeArray/TimedeltaArray method instead of linspace + # error: Item "ExtensionArray" of "ExtensionArray | ndarray[Any, Any]" + # has no attribute "_generate_range" + bins = x_idx._values._generate_range( # type: ignore[union-attr] + start=mn - td, end=mx + td, periods=nbins + 1, freq=None, unit=unit + ) + else: + mn -= 0.001 * abs(mn) if mn != 0 else 0.001 + mx += 0.001 * abs(mx) if mx != 0 else 0.001 + + bins = np.linspace(mn, mx, nbins + 1, endpoint=True) + else: # adjust end points after binning + if _is_dt_or_td(x_idx.dtype): + # Use DatetimeArray/TimedeltaArray method instead of linspace + + # error: Argument 1 to "dtype_to_unit" has incompatible type + # "dtype[Any] | ExtensionDtype"; expected "DatetimeTZDtype | dtype[Any]" + unit = dtype_to_unit(x_idx.dtype) # type: ignore[arg-type] + # error: Item "ExtensionArray" of "ExtensionArray | ndarray[Any, Any]" + # has no attribute "_generate_range" + bins = x_idx._values._generate_range( # type: ignore[union-attr] + start=mn, end=mx, periods=nbins + 1, freq=None, unit=unit + ) + else: + bins = np.linspace(mn, mx, nbins + 1, endpoint=True) + adj = (mx - mn) * 0.001 # 0.1% of the range + if right: + bins[0] -= adj + else: + bins[-1] += adj + + return Index(bins) + + +def _bins_to_cuts( + x_idx: Index, + bins: Index, + right: bool = True, + labels=None, + precision: int = 3, + include_lowest: bool = False, + duplicates: str = "raise", + ordered: bool = True, +): + if not ordered and labels is None: + raise ValueError("'labels' must be provided if 'ordered = False'") + + if duplicates not in ["raise", "drop"]: + raise ValueError( + "invalid value for 'duplicates' parameter, valid options are: raise, drop" + ) + + result: Categorical | np.ndarray + + if isinstance(bins, IntervalIndex): + # we have a fast-path here + ids = bins.get_indexer(x_idx) + cat_dtype = CategoricalDtype(bins, ordered=True) + result = Categorical.from_codes(ids, dtype=cat_dtype, validate=False) + return result, bins + + unique_bins = algos.unique(bins) + if len(unique_bins) < len(bins) and len(bins) != 2: + if duplicates == "raise": + raise ValueError( + f"Bin edges must be unique: {repr(bins)}.\n" + f"You can drop duplicate edges by setting the 'duplicates' kwarg" + ) + bins = unique_bins + + side: Literal["left", "right"] = "left" if right else "right" + + try: + ids = bins.searchsorted(x_idx, side=side) + except TypeError as err: + # e.g. test_datetime_nan_error if bins are DatetimeArray and x_idx + # is integers + if x_idx.dtype.kind == "m": + raise ValueError("bins must be of timedelta64 dtype") from err + elif x_idx.dtype.kind == bins.dtype.kind == "M": + raise ValueError( + "Cannot use timezone-naive bins with timezone-aware values, " + "or vice-versa" + ) from err + elif x_idx.dtype.kind == "M": + raise ValueError("bins must be of datetime64 dtype") from err + else: + raise + ids = ensure_platform_int(ids) + + if include_lowest: + ids[x_idx == bins[0]] = 1 + + na_mask = isna(x_idx) | (ids == len(bins)) | (ids == 0) + has_nas = na_mask.any() + + if labels is not False: + if not (labels is None or is_list_like(labels)): + raise ValueError( + "Bin labels must either be False, None or passed in as a " + "list-like argument" + ) + + if labels is None: + labels = _format_labels( + bins, precision, right=right, include_lowest=include_lowest + ) + elif ordered and len(set(labels)) != len(labels): + raise ValueError( + "labels must be unique if ordered=True; pass ordered=False " + "for duplicate labels" + ) + else: + if len(labels) != len(bins) - 1: + raise ValueError( + "Bin labels must be one fewer than the number of bin edges" + ) + + if not isinstance(getattr(labels, "dtype", None), CategoricalDtype): + labels = Categorical( + labels, + categories=labels if len(set(labels)) == len(labels) else None, + ordered=ordered, + ) + # TODO: handle mismatch between categorical label order and pandas.cut order. + np.putmask(ids, na_mask, 0) + result = algos.take_nd(labels, ids - 1) + + else: + result = ids - 1 + if has_nas: + result = result.astype(np.float64) + np.putmask(result, na_mask, np.nan) + + return result, bins + + +def _coerce_to_type(x: Index) -> tuple[Index, DtypeObj | None]: + """ + if the passed data is of datetime/timedelta, bool or nullable int type, + this method converts it to numeric so that cut or qcut method can + handle it + """ + dtype: DtypeObj | None = None + + if _is_dt_or_td(x.dtype): + dtype = x.dtype + elif is_bool_dtype(x.dtype): + # GH 20303 + x = x.astype(np.int64) + # To support cut and qcut for IntegerArray we convert to float dtype. + # Will properly support in the future. + # https://github.com/pandas-dev/pandas/pull/31290 + # https://github.com/pandas-dev/pandas/issues/31389 + elif isinstance(x.dtype, ExtensionDtype) and is_numeric_dtype(x.dtype): + x_arr = x.to_numpy(dtype=np.float64, na_value=np.nan) + x = Index(x_arr) + + return Index(x), dtype + + +def _is_dt_or_td(dtype: DtypeObj) -> bool: + # Note: the dtype here comes from an Index.dtype, so we know that that any + # dt64/td64 dtype is of a supported unit. + return isinstance(dtype, DatetimeTZDtype) or lib.is_np_dtype(dtype, "mM") + + +def _format_labels( + bins: Index, + precision: int, + right: bool = True, + include_lowest: bool = False, +): + """based on the dtype, return our labels""" + closed: IntervalLeftRight = "right" if right else "left" + + formatter: Callable[[Any], Timestamp] | Callable[[Any], Timedelta] + + if _is_dt_or_td(bins.dtype): + # error: Argument 1 to "dtype_to_unit" has incompatible type + # "dtype[Any] | ExtensionDtype"; expected "DatetimeTZDtype | dtype[Any]" + unit = dtype_to_unit(bins.dtype) # type: ignore[arg-type] + formatter = lambda x: x + adjust = lambda x: x - Timedelta(1, unit=unit).as_unit(unit) + else: + precision = _infer_precision(precision, bins) + formatter = lambda x: _round_frac(x, precision) + adjust = lambda x: x - 10 ** (-precision) + + breaks = [formatter(b) for b in bins] + if right and include_lowest: + # adjust lhs of first interval by precision to account for being right closed + breaks[0] = adjust(breaks[0]) + + if _is_dt_or_td(bins.dtype): + # error: "Index" has no attribute "as_unit" + breaks = type(bins)(breaks).as_unit(unit) # type: ignore[attr-defined] + + return IntervalIndex.from_breaks(breaks, closed=closed) + + +def _preprocess_for_cut(x) -> Index: + """ + handles preprocessing for cut where we convert passed + input to array, strip the index information and store it + separately + """ + # Check that the passed array is a Pandas or Numpy object + # We don't want to strip away a Pandas data-type here (e.g. datetimetz) + ndim = getattr(x, "ndim", None) + if ndim is None: + x = np.asarray(x) + if x.ndim != 1: + raise ValueError("Input array must be 1 dimensional") + + return Index(x) + + +def _postprocess_for_cut(fac, bins, retbins: bool, original): + """ + handles post processing for the cut method where + we combine the index information if the originally passed + datatype was a series + """ + if isinstance(original, ABCSeries): + fac = original._constructor(fac, index=original.index, name=original.name) + + if not retbins: + return fac + + if isinstance(bins, Index) and is_numeric_dtype(bins.dtype): + bins = bins._values + + return fac, bins + + +def _round_frac(x, precision: int): + """ + Round the fractional part of the given number + """ + if not np.isfinite(x) or x == 0: + return x + else: + frac, whole = np.modf(x) + if whole == 0: + digits = -int(np.floor(np.log10(abs(frac)))) - 1 + precision + else: + digits = precision + return np.around(x, digits) + + +def _infer_precision(base_precision: int, bins: Index) -> int: + """ + Infer an appropriate precision for _round_frac + """ + for precision in range(base_precision, 20): + levels = np.asarray([_round_frac(b, precision) for b in bins]) + if algos.unique(levels).size == bins.size: + return precision + return base_precision # default diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/util.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/util.py new file mode 100644 index 0000000000000000000000000000000000000000..476e3922b6989e4267aeeafd5943a80c1599b1d5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/reshape/util.py @@ -0,0 +1,85 @@ +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.core.dtypes.common import is_list_like + +if TYPE_CHECKING: + from pandas._typing import NumpyIndexT + + +def cartesian_product(X) -> list[np.ndarray]: + """ + Numpy version of itertools.product. + Sometimes faster (for large inputs)... + + Parameters + ---------- + X : list-like of list-likes + + Returns + ------- + product : list of ndarrays + + Examples + -------- + >>> cartesian_product([list('ABC'), [1, 2]]) + [array(['A', 'A', 'B', 'B', 'C', 'C'], dtype=' NumpyIndexT: + """ + Index compat for np.tile. + + Notes + ----- + Does not support multi-dimensional `num`. + """ + if isinstance(arr, np.ndarray): + return np.tile(arr, num) + + # Otherwise we have an Index + taker = np.tile(np.arange(len(arr)), num) + return arr.take(taker) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/roperator.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/roperator.py new file mode 100644 index 0000000000000000000000000000000000000000..2f320f4e9c6b984b64e0fc1268e50a8ad1a7e1fe --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/roperator.py @@ -0,0 +1,62 @@ +""" +Reversed Operations not available in the stdlib operator module. +Defining these instead of using lambdas allows us to reference them by name. +""" +from __future__ import annotations + +import operator + + +def radd(left, right): + return right + left + + +def rsub(left, right): + return right - left + + +def rmul(left, right): + return right * left + + +def rdiv(left, right): + return right / left + + +def rtruediv(left, right): + return right / left + + +def rfloordiv(left, right): + return right // left + + +def rmod(left, right): + # check if right is a string as % is the string + # formatting operation; this is a TypeError + # otherwise perform the op + if isinstance(right, str): + typ = type(left).__name__ + raise TypeError(f"{typ} cannot perform the operation mod") + + return right % left + + +def rdivmod(left, right): + return divmod(right, left) + + +def rpow(left, right): + return right**left + + +def rand_(left, right): + return operator.and_(right, left) + + +def ror_(left, right): + return operator.or_(right, left) + + +def rxor(left, right): + return operator.xor(right, left) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sample.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sample.py new file mode 100644 index 0000000000000000000000000000000000000000..eebbed3512c4eca42e401c40605838c6f69011df --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sample.py @@ -0,0 +1,154 @@ +""" +Module containing utilities for NDFrame.sample() and .GroupBy.sample() +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs import lib + +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +if TYPE_CHECKING: + from pandas._typing import AxisInt + + from pandas.core.generic import NDFrame + + +def preprocess_weights(obj: NDFrame, weights, axis: AxisInt) -> np.ndarray: + """ + Process and validate the `weights` argument to `NDFrame.sample` and + `.GroupBy.sample`. + + Returns `weights` as an ndarray[np.float64], validated except for normalizing + weights (because that must be done groupwise in groupby sampling). + """ + # If a series, align with frame + if isinstance(weights, ABCSeries): + weights = weights.reindex(obj.axes[axis]) + + # Strings acceptable if a dataframe and axis = 0 + if isinstance(weights, str): + if isinstance(obj, ABCDataFrame): + if axis == 0: + try: + weights = obj[weights] + except KeyError as err: + raise KeyError( + "String passed to weights not a valid column" + ) from err + else: + raise ValueError( + "Strings can only be passed to " + "weights when sampling from rows on " + "a DataFrame" + ) + else: + raise ValueError( + "Strings cannot be passed as weights when sampling from a Series." + ) + + if isinstance(obj, ABCSeries): + func = obj._constructor + else: + func = obj._constructor_sliced + + weights = func(weights, dtype="float64")._values + + if len(weights) != obj.shape[axis]: + raise ValueError("Weights and axis to be sampled must be of same length") + + if lib.has_infs(weights): + raise ValueError("weight vector may not include `inf` values") + + if (weights < 0).any(): + raise ValueError("weight vector many not include negative values") + + missing = np.isnan(weights) + if missing.any(): + # Don't modify weights in place + weights = weights.copy() + weights[missing] = 0 + return weights + + +def process_sampling_size( + n: int | None, frac: float | None, replace: bool +) -> int | None: + """ + Process and validate the `n` and `frac` arguments to `NDFrame.sample` and + `.GroupBy.sample`. + + Returns None if `frac` should be used (variable sampling sizes), otherwise returns + the constant sampling size. + """ + # If no frac or n, default to n=1. + if n is None and frac is None: + n = 1 + elif n is not None and frac is not None: + raise ValueError("Please enter a value for `frac` OR `n`, not both") + elif n is not None: + if n < 0: + raise ValueError( + "A negative number of rows requested. Please provide `n` >= 0." + ) + if n % 1 != 0: + raise ValueError("Only integers accepted as `n` values") + else: + assert frac is not None # for mypy + if frac > 1 and not replace: + raise ValueError( + "Replace has to be set to `True` when " + "upsampling the population `frac` > 1." + ) + if frac < 0: + raise ValueError( + "A negative number of rows requested. Please provide `frac` >= 0." + ) + + return n + + +def sample( + obj_len: int, + size: int, + replace: bool, + weights: np.ndarray | None, + random_state: np.random.RandomState | np.random.Generator, +) -> np.ndarray: + """ + Randomly sample `size` indices in `np.arange(obj_len)` + + Parameters + ---------- + obj_len : int + The length of the indices being considered + size : int + The number of values to choose + replace : bool + Allow or disallow sampling of the same row more than once. + weights : np.ndarray[np.float64] or None + If None, equal probability weighting, otherwise weights according + to the vector normalized + random_state: np.random.RandomState or np.random.Generator + State used for the random sampling + + Returns + ------- + np.ndarray[np.intp] + """ + if weights is not None: + weight_sum = weights.sum() + if weight_sum != 0: + weights = weights / weight_sum + else: + raise ValueError("Invalid weights: weights sum to zero") + + return random_state.choice(obj_len, size=size, replace=replace, p=weights).astype( + np.intp, copy=False + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/series.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/series.py new file mode 100644 index 0000000000000000000000000000000000000000..cc16c29c6c86145d9752033661ef56dbb82872cd --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/series.py @@ -0,0 +1,6642 @@ +""" +Data structure for 1-dimensional cross-sectional and time series data +""" +from __future__ import annotations + +from collections.abc import ( + Hashable, + Iterable, + Mapping, + Sequence, +) +import operator +import sys +from textwrap import dedent +from typing import ( + IO, + TYPE_CHECKING, + Any, + Callable, + Literal, + cast, + overload, +) +import warnings +import weakref + +import numpy as np + +from pandas._config import ( + using_copy_on_write, + warn_copy_on_write, +) +from pandas._config.config import _get_option + +from pandas._libs import ( + lib, + properties, + reshape, +) +from pandas._libs.lib import is_range_indexer +from pandas.compat import PYPY +from pandas.compat._constants import REF_COUNT +from pandas.compat._optional import import_optional_dependency +from pandas.compat.numpy import function as nv +from pandas.errors import ( + ChainedAssignmentError, + InvalidIndexError, + _chained_assignment_method_msg, + _chained_assignment_msg, + _chained_assignment_warning_method_msg, + _chained_assignment_warning_msg, + _check_cacher, +) +from pandas.util._decorators import ( + Appender, + Substitution, + deprecate_nonkeyword_arguments, + doc, +) +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import ( + validate_ascending, + validate_bool_kwarg, + validate_percentile, +) + +from pandas.core.dtypes.astype import astype_is_view +from pandas.core.dtypes.cast import ( + LossySetitemError, + construct_1d_arraylike_from_scalar, + find_common_type, + infer_dtype_from, + maybe_box_native, + maybe_cast_pointwise_result, +) +from pandas.core.dtypes.common import ( + is_dict_like, + is_integer, + is_iterator, + is_list_like, + is_object_dtype, + is_scalar, + pandas_dtype, + validate_all_hashable, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + ExtensionDtype, + SparseDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.inference import is_hashable +from pandas.core.dtypes.missing import ( + isna, + na_value_for_dtype, + notna, + remove_na_arraylike, +) + +from pandas.core import ( + algorithms, + base, + common as com, + missing, + nanops, + ops, + roperator, +) +from pandas.core.accessor import CachedAccessor +from pandas.core.apply import SeriesApply +from pandas.core.arrays import ExtensionArray +from pandas.core.arrays.arrow import ( + ListAccessor, + StructAccessor, +) +from pandas.core.arrays.categorical import CategoricalAccessor +from pandas.core.arrays.sparse import SparseAccessor +from pandas.core.arrays.string_ import StringDtype +from pandas.core.construction import ( + array as pd_array, + extract_array, + sanitize_array, +) +from pandas.core.generic import ( + NDFrame, + make_doc, +) +from pandas.core.indexers import ( + disallow_ndim_indexing, + unpack_1tuple, +) +from pandas.core.indexes.accessors import CombinedDatetimelikeProperties +from pandas.core.indexes.api import ( + DatetimeIndex, + Index, + MultiIndex, + PeriodIndex, + default_index, + ensure_index, +) +import pandas.core.indexes.base as ibase +from pandas.core.indexes.multi import maybe_droplevels +from pandas.core.indexing import ( + check_bool_indexer, + check_dict_or_set_indexers, +) +from pandas.core.internals import ( + SingleArrayManager, + SingleBlockManager, +) +from pandas.core.methods import selectn +from pandas.core.shared_docs import _shared_docs +from pandas.core.sorting import ( + ensure_key_mapped, + nargsort, +) +from pandas.core.strings.accessor import StringMethods +from pandas.core.tools.datetimes import to_datetime + +import pandas.io.formats.format as fmt +from pandas.io.formats.info import ( + INFO_DOCSTRING, + SeriesInfo, + series_sub_kwargs, +) +import pandas.plotting + +if TYPE_CHECKING: + from pandas._libs.internals import BlockValuesRefs + from pandas._typing import ( + AggFuncType, + AnyAll, + AnyArrayLike, + ArrayLike, + Axis, + AxisInt, + CorrelationMethod, + DropKeep, + Dtype, + DtypeObj, + FilePath, + Frequency, + IgnoreRaise, + IndexKeyFunc, + IndexLabel, + Level, + MutableMappingT, + NaPosition, + NumpySorter, + NumpyValueArrayLike, + QuantileInterpolation, + ReindexMethod, + Renamer, + Scalar, + Self, + SingleManager, + SortKind, + StorageOptions, + Suffixes, + ValueKeyFunc, + WriteBuffer, + npt, + ) + + from pandas.core.frame import DataFrame + from pandas.core.groupby.generic import SeriesGroupBy + +__all__ = ["Series"] + +_shared_doc_kwargs = { + "axes": "index", + "klass": "Series", + "axes_single_arg": "{0 or 'index'}", + "axis": """axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame.""", + "inplace": """inplace : bool, default False + If True, performs operation inplace and returns None.""", + "unique": "np.ndarray", + "duplicated": "Series", + "optional_by": "", + "optional_reindex": """ +index : array-like, optional + New labels for the index. Preferably an Index object to avoid + duplicating data. +axis : int or str, optional + Unused.""", +} + + +def _coerce_method(converter): + """ + Install the scalar coercion methods. + """ + + def wrapper(self): + if len(self) == 1: + warnings.warn( + f"Calling {converter.__name__} on a single element Series is " + "deprecated and will raise a TypeError in the future. " + f"Use {converter.__name__}(ser.iloc[0]) instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + return converter(self.iloc[0]) + raise TypeError(f"cannot convert the series to {converter}") + + wrapper.__name__ = f"__{converter.__name__}__" + return wrapper + + +# ---------------------------------------------------------------------- +# Series class + + +# error: Cannot override final attribute "ndim" (previously declared in base +# class "NDFrame") +# error: Cannot override final attribute "size" (previously declared in base +# class "NDFrame") +# definition in base class "NDFrame" +class Series(base.IndexOpsMixin, NDFrame): # type: ignore[misc] + """ + One-dimensional ndarray with axis labels (including time series). + + Labels need not be unique but must be a hashable type. The object + supports both integer- and label-based indexing and provides a host of + methods for performing operations involving the index. Statistical + methods from ndarray have been overridden to automatically exclude + missing data (currently represented as NaN). + + Operations between Series (+, -, /, \\*, \\*\\*) align values based on their + associated index values-- they need not be the same length. The result + index will be the sorted union of the two indexes. + + Parameters + ---------- + data : array-like, Iterable, dict, or scalar value + Contains data stored in Series. If data is a dict, argument order is + maintained. + index : array-like or Index (1d) + Values must be hashable and have the same length as `data`. + Non-unique index values are allowed. Will default to + RangeIndex (0, 1, 2, ..., n) if not provided. If data is dict-like + and index is None, then the keys in the data are used as the index. If the + index is not None, the resulting Series is reindexed with the index values. + dtype : str, numpy.dtype, or ExtensionDtype, optional + Data type for the output Series. If not specified, this will be + inferred from `data`. + See the :ref:`user guide ` for more usages. + name : Hashable, default None + The name to give to the Series. + copy : bool, default False + Copy input data. Only affects Series or 1d ndarray input. See examples. + + Notes + ----- + Please reference the :ref:`User Guide ` for more information. + + Examples + -------- + Constructing Series from a dictionary with an Index specified + + >>> d = {'a': 1, 'b': 2, 'c': 3} + >>> ser = pd.Series(data=d, index=['a', 'b', 'c']) + >>> ser + a 1 + b 2 + c 3 + dtype: int64 + + The keys of the dictionary match with the Index values, hence the Index + values have no effect. + + >>> d = {'a': 1, 'b': 2, 'c': 3} + >>> ser = pd.Series(data=d, index=['x', 'y', 'z']) + >>> ser + x NaN + y NaN + z NaN + dtype: float64 + + Note that the Index is first build with the keys from the dictionary. + After this the Series is reindexed with the given Index values, hence we + get all NaN as a result. + + Constructing Series from a list with `copy=False`. + + >>> r = [1, 2] + >>> ser = pd.Series(r, copy=False) + >>> ser.iloc[0] = 999 + >>> r + [1, 2] + >>> ser + 0 999 + 1 2 + dtype: int64 + + Due to input data type the Series has a `copy` of + the original data even though `copy=False`, so + the data is unchanged. + + Constructing Series from a 1d ndarray with `copy=False`. + + >>> r = np.array([1, 2]) + >>> ser = pd.Series(r, copy=False) + >>> ser.iloc[0] = 999 + >>> r + array([999, 2]) + >>> ser + 0 999 + 1 2 + dtype: int64 + + Due to input data type the Series has a `view` on + the original data, so + the data is changed as well. + """ + + _typ = "series" + _HANDLED_TYPES = (Index, ExtensionArray, np.ndarray) + + _name: Hashable + _metadata: list[str] = ["_name"] + _internal_names_set = {"index", "name"} | NDFrame._internal_names_set + _accessors = {"dt", "cat", "str", "sparse"} + _hidden_attrs = ( + base.IndexOpsMixin._hidden_attrs | NDFrame._hidden_attrs | frozenset([]) + ) + + # similar to __array_priority__, positions Series after DataFrame + # but before Index and ExtensionArray. Should NOT be overridden by subclasses. + __pandas_priority__ = 3000 + + # Override cache_readonly bc Series is mutable + # error: Incompatible types in assignment (expression has type "property", + # base class "IndexOpsMixin" defined the type as "Callable[[IndexOpsMixin], bool]") + hasnans = property( # type: ignore[assignment] + # error: "Callable[[IndexOpsMixin], bool]" has no attribute "fget" + base.IndexOpsMixin.hasnans.fget, # type: ignore[attr-defined] + doc=base.IndexOpsMixin.hasnans.__doc__, + ) + _mgr: SingleManager + + # ---------------------------------------------------------------------- + # Constructors + + def __init__( + self, + data=None, + index=None, + dtype: Dtype | None = None, + name=None, + copy: bool | None = None, + fastpath: bool | lib.NoDefault = lib.no_default, + ) -> None: + if fastpath is not lib.no_default: + warnings.warn( + "The 'fastpath' keyword in pd.Series is deprecated and will " + "be removed in a future version.", + DeprecationWarning, + stacklevel=find_stack_level(), + ) + else: + fastpath = False + + allow_mgr = False + if ( + isinstance(data, (SingleBlockManager, SingleArrayManager)) + and index is None + and dtype is None + and (copy is False or copy is None) + ): + if not allow_mgr: + # GH#52419 + warnings.warn( + f"Passing a {type(data).__name__} to {type(self).__name__} " + "is deprecated and will raise in a future version. " + "Use public APIs instead.", + DeprecationWarning, + stacklevel=2, + ) + if using_copy_on_write(): + data = data.copy(deep=False) + # GH#33357 called with just the SingleBlockManager + NDFrame.__init__(self, data) + if fastpath: + # e.g. from _box_col_values, skip validation of name + object.__setattr__(self, "_name", name) + else: + self.name = name + return + + is_pandas_object = isinstance(data, (Series, Index, ExtensionArray)) + data_dtype = getattr(data, "dtype", None) + original_dtype = dtype + + if isinstance(data, (ExtensionArray, np.ndarray)): + if copy is not False and using_copy_on_write(): + if dtype is None or astype_is_view(data.dtype, pandas_dtype(dtype)): + data = data.copy() + if copy is None: + copy = False + + # we are called internally, so short-circuit + if fastpath: + # data is a ndarray, index is defined + if not isinstance(data, (SingleBlockManager, SingleArrayManager)): + manager = _get_option("mode.data_manager", silent=True) + if manager == "block": + data = SingleBlockManager.from_array(data, index) + elif manager == "array": + data = SingleArrayManager.from_array(data, index) + allow_mgr = True + elif using_copy_on_write() and not copy: + data = data.copy(deep=False) + + if not allow_mgr: + warnings.warn( + f"Passing a {type(data).__name__} to {type(self).__name__} " + "is deprecated and will raise in a future version. " + "Use public APIs instead.", + DeprecationWarning, + stacklevel=2, + ) + + if copy: + data = data.copy() + # skips validation of the name + object.__setattr__(self, "_name", name) + NDFrame.__init__(self, data) + return + + if isinstance(data, SingleBlockManager) and using_copy_on_write() and not copy: + data = data.copy(deep=False) + + if not allow_mgr: + warnings.warn( + f"Passing a {type(data).__name__} to {type(self).__name__} " + "is deprecated and will raise in a future version. " + "Use public APIs instead.", + DeprecationWarning, + stacklevel=2, + ) + + name = ibase.maybe_extract_name(name, data, type(self)) + + if index is not None: + index = ensure_index(index) + + if dtype is not None: + dtype = self._validate_dtype(dtype) + + if data is None: + index = index if index is not None else default_index(0) + if len(index) or dtype is not None: + data = na_value_for_dtype(pandas_dtype(dtype), compat=False) + else: + data = [] + + if isinstance(data, MultiIndex): + raise NotImplementedError( + "initializing a Series from a MultiIndex is not supported" + ) + + refs = None + if isinstance(data, Index): + if dtype is not None: + data = data.astype(dtype, copy=False) + + if using_copy_on_write(): + refs = data._references + data = data._values + else: + # GH#24096 we need to ensure the index remains immutable + data = data._values.copy() + copy = False + + elif isinstance(data, np.ndarray): + if len(data.dtype): + # GH#13296 we are dealing with a compound dtype, which + # should be treated as 2D + raise ValueError( + "Cannot construct a Series from an ndarray with " + "compound dtype. Use DataFrame instead." + ) + elif isinstance(data, Series): + if index is None: + index = data.index + data = data._mgr.copy(deep=False) + else: + data = data.reindex(index, copy=copy) + copy = False + data = data._mgr + elif isinstance(data, Mapping): + data, index = self._init_dict(data, index, dtype) + dtype = None + copy = False + elif isinstance(data, (SingleBlockManager, SingleArrayManager)): + if index is None: + index = data.index + elif not data.index.equals(index) or copy: + # GH#19275 SingleBlockManager input should only be called + # internally + raise AssertionError( + "Cannot pass both SingleBlockManager " + "`data` argument and a different " + "`index` argument. `copy` must be False." + ) + + if not allow_mgr: + warnings.warn( + f"Passing a {type(data).__name__} to {type(self).__name__} " + "is deprecated and will raise in a future version. " + "Use public APIs instead.", + DeprecationWarning, + stacklevel=2, + ) + allow_mgr = True + + elif isinstance(data, ExtensionArray): + pass + else: + data = com.maybe_iterable_to_list(data) + if is_list_like(data) and not len(data) and dtype is None: + # GH 29405: Pre-2.0, this defaulted to float. + dtype = np.dtype(object) + + if index is None: + if not is_list_like(data): + data = [data] + index = default_index(len(data)) + elif is_list_like(data): + com.require_length_match(data, index) + + # create/copy the manager + if isinstance(data, (SingleBlockManager, SingleArrayManager)): + if dtype is not None: + data = data.astype(dtype=dtype, errors="ignore", copy=copy) + elif copy: + data = data.copy() + else: + data = sanitize_array(data, index, dtype, copy) + + manager = _get_option("mode.data_manager", silent=True) + if manager == "block": + data = SingleBlockManager.from_array(data, index, refs=refs) + elif manager == "array": + data = SingleArrayManager.from_array(data, index) + + NDFrame.__init__(self, data) + self.name = name + self._set_axis(0, index) + + if original_dtype is None and is_pandas_object and data_dtype == np.object_: + if self.dtype != data_dtype: + warnings.warn( + "Dtype inference on a pandas object " + "(Series, Index, ExtensionArray) is deprecated. The Series " + "constructor will keep the original dtype in the future. " + "Call `infer_objects` on the result to get the old behavior.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + def _init_dict( + self, data: Mapping, index: Index | None = None, dtype: DtypeObj | None = None + ): + """ + Derive the "_mgr" and "index" attributes of a new Series from a + dictionary input. + + Parameters + ---------- + data : dict or dict-like + Data used to populate the new Series. + index : Index or None, default None + Index for the new Series: if None, use dict keys. + dtype : np.dtype, ExtensionDtype, or None, default None + The dtype for the new Series: if None, infer from data. + + Returns + ------- + _data : BlockManager for the new Series + index : index for the new Series + """ + keys: Index | tuple + + # Looking for NaN in dict doesn't work ({np.nan : 1}[float('nan')] + # raises KeyError), so we iterate the entire dict, and align + if data: + # GH:34717, issue was using zip to extract key and values from data. + # using generators in effects the performance. + # Below is the new way of extracting the keys and values + + keys = tuple(data.keys()) + values = list(data.values()) # Generating list of values- faster way + elif index is not None: + # fastpath for Series(data=None). Just use broadcasting a scalar + # instead of reindexing. + if len(index) or dtype is not None: + values = na_value_for_dtype(pandas_dtype(dtype), compat=False) + else: + values = [] + keys = index + else: + keys, values = default_index(0), [] + + # Input is now list-like, so rely on "standard" construction: + s = Series(values, index=keys, dtype=dtype) + + # Now we just make sure the order is respected, if any + if data and index is not None: + s = s.reindex(index, copy=False) + return s._mgr, s.index + + # ---------------------------------------------------------------------- + + @property + def _constructor(self) -> Callable[..., Series]: + return Series + + def _constructor_from_mgr(self, mgr, axes): + ser = Series._from_mgr(mgr, axes=axes) + ser._name = None # caller is responsible for setting real name + + if type(self) is Series: + # This would also work `if self._constructor is Series`, but + # this check is slightly faster, benefiting the most-common case. + return ser + + # We assume that the subclass __init__ knows how to handle a + # pd.Series object. + return self._constructor(ser) + + @property + def _constructor_expanddim(self) -> Callable[..., DataFrame]: + """ + Used when a manipulation result has one higher dimension as the + original, such as Series.to_frame() + """ + from pandas.core.frame import DataFrame + + return DataFrame + + def _constructor_expanddim_from_mgr(self, mgr, axes): + from pandas.core.frame import DataFrame + + df = DataFrame._from_mgr(mgr, axes=mgr.axes) + + if type(self) is Series: + # This would also work `if self._constructor_expanddim is DataFrame`, + # but this check is slightly faster, benefiting the most-common case. + return df + + # We assume that the subclass __init__ knows how to handle a + # pd.DataFrame object. + return self._constructor_expanddim(df) + + # types + @property + def _can_hold_na(self) -> bool: + return self._mgr._can_hold_na + + # ndarray compatibility + @property + def dtype(self) -> DtypeObj: + """ + Return the dtype object of the underlying data. + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.dtype + dtype('int64') + """ + return self._mgr.dtype + + @property + def dtypes(self) -> DtypeObj: + """ + Return the dtype object of the underlying data. + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.dtypes + dtype('int64') + """ + # DataFrame compatibility + return self.dtype + + @property + def name(self) -> Hashable: + """ + Return the name of the Series. + + The name of a Series becomes its index or column name if it is used + to form a DataFrame. It is also used whenever displaying the Series + using the interpreter. + + Returns + ------- + label (hashable object) + The name of the Series, also the column name if part of a DataFrame. + + See Also + -------- + Series.rename : Sets the Series name when given a scalar input. + Index.name : Corresponding Index property. + + Examples + -------- + The Series name can be set initially when calling the constructor. + + >>> s = pd.Series([1, 2, 3], dtype=np.int64, name='Numbers') + >>> s + 0 1 + 1 2 + 2 3 + Name: Numbers, dtype: int64 + >>> s.name = "Integers" + >>> s + 0 1 + 1 2 + 2 3 + Name: Integers, dtype: int64 + + The name of a Series within a DataFrame is its column name. + + >>> df = pd.DataFrame([[1, 2], [3, 4], [5, 6]], + ... columns=["Odd Numbers", "Even Numbers"]) + >>> df + Odd Numbers Even Numbers + 0 1 2 + 1 3 4 + 2 5 6 + >>> df["Even Numbers"].name + 'Even Numbers' + """ + return self._name + + @name.setter + def name(self, value: Hashable) -> None: + validate_all_hashable(value, error_name=f"{type(self).__name__}.name") + object.__setattr__(self, "_name", value) + + @property + def values(self): + """ + Return Series as ndarray or ndarray-like depending on the dtype. + + .. warning:: + + We recommend using :attr:`Series.array` or + :meth:`Series.to_numpy`, depending on whether you need + a reference to the underlying data or a NumPy array. + + Returns + ------- + numpy.ndarray or ndarray-like + + See Also + -------- + Series.array : Reference to the underlying data. + Series.to_numpy : A NumPy array representing the underlying data. + + Examples + -------- + >>> pd.Series([1, 2, 3]).values + array([1, 2, 3]) + + >>> pd.Series(list('aabc')).values + array(['a', 'a', 'b', 'c'], dtype=object) + + >>> pd.Series(list('aabc')).astype('category').values + ['a', 'a', 'b', 'c'] + Categories (3, object): ['a', 'b', 'c'] + + Timezone aware datetime data is converted to UTC: + + >>> pd.Series(pd.date_range('20130101', periods=3, + ... tz='US/Eastern')).values + array(['2013-01-01T05:00:00.000000000', + '2013-01-02T05:00:00.000000000', + '2013-01-03T05:00:00.000000000'], dtype='datetime64[ns]') + """ + return self._mgr.external_values() + + @property + def _values(self): + """ + Return the internal repr of this data (defined by Block.interval_values). + This are the values as stored in the Block (ndarray or ExtensionArray + depending on the Block class), with datetime64[ns] and timedelta64[ns] + wrapped in ExtensionArrays to match Index._values behavior. + + Differs from the public ``.values`` for certain data types, because of + historical backwards compatibility of the public attribute (e.g. period + returns object ndarray and datetimetz a datetime64[ns] ndarray for + ``.values`` while it returns an ExtensionArray for ``._values`` in those + cases). + + Differs from ``.array`` in that this still returns the numpy array if + the Block is backed by a numpy array (except for datetime64 and + timedelta64 dtypes), while ``.array`` ensures to always return an + ExtensionArray. + + Overview: + + dtype | values | _values | array | + ----------- | ------------- | ------------- | --------------------- | + Numeric | ndarray | ndarray | NumpyExtensionArray | + Category | Categorical | Categorical | Categorical | + dt64[ns] | ndarray[M8ns] | DatetimeArray | DatetimeArray | + dt64[ns tz] | ndarray[M8ns] | DatetimeArray | DatetimeArray | + td64[ns] | ndarray[m8ns] | TimedeltaArray| TimedeltaArray | + Period | ndarray[obj] | PeriodArray | PeriodArray | + Nullable | EA | EA | EA | + + """ + return self._mgr.internal_values() + + @property + def _references(self) -> BlockValuesRefs | None: + if isinstance(self._mgr, SingleArrayManager): + return None + return self._mgr._block.refs + + # error: Decorated property not supported + @Appender(base.IndexOpsMixin.array.__doc__) # type: ignore[misc] + @property + def array(self) -> ExtensionArray: + return self._mgr.array_values() + + # ops + def ravel(self, order: str = "C") -> ArrayLike: + """ + Return the flattened underlying data as an ndarray or ExtensionArray. + + .. deprecated:: 2.2.0 + Series.ravel is deprecated. The underlying array is already 1D, so + ravel is not necessary. Use :meth:`to_numpy` for conversion to a numpy + array instead. + + Returns + ------- + numpy.ndarray or ExtensionArray + Flattened data of the Series. + + See Also + -------- + numpy.ndarray.ravel : Return a flattened array. + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.ravel() # doctest: +SKIP + array([1, 2, 3]) + """ + warnings.warn( + "Series.ravel is deprecated. The underlying array is already 1D, so " + "ravel is not necessary. Use `to_numpy()` for conversion to a numpy " + "array instead.", + FutureWarning, + stacklevel=2, + ) + arr = self._values.ravel(order=order) + if isinstance(arr, np.ndarray) and using_copy_on_write(): + arr.flags.writeable = False + return arr + + def __len__(self) -> int: + """ + Return the length of the Series. + """ + return len(self._mgr) + + def view(self, dtype: Dtype | None = None) -> Series: + """ + Create a new view of the Series. + + .. deprecated:: 2.2.0 + ``Series.view`` is deprecated and will be removed in a future version. + Use :meth:`Series.astype` as an alternative to change the dtype. + + This function will return a new Series with a view of the same + underlying values in memory, optionally reinterpreted with a new data + type. The new data type must preserve the same size in bytes as to not + cause index misalignment. + + Parameters + ---------- + dtype : data type + Data type object or one of their string representations. + + Returns + ------- + Series + A new Series object as a view of the same data in memory. + + See Also + -------- + numpy.ndarray.view : Equivalent numpy function to create a new view of + the same data in memory. + + Notes + ----- + Series are instantiated with ``dtype=float64`` by default. While + ``numpy.ndarray.view()`` will return a view with the same data type as + the original array, ``Series.view()`` (without specified dtype) + will try using ``float64`` and may fail if the original data type size + in bytes is not the same. + + Examples + -------- + Use ``astype`` to change the dtype instead. + """ + warnings.warn( + "Series.view is deprecated and will be removed in a future version. " + "Use ``astype`` as an alternative to change the dtype.", + FutureWarning, + stacklevel=2, + ) + # self.array instead of self._values so we piggyback on NumpyExtensionArray + # implementation + res_values = self.array.view(dtype) + res_ser = self._constructor(res_values, index=self.index, copy=False) + if isinstance(res_ser._mgr, SingleBlockManager): + blk = res_ser._mgr._block + blk.refs = cast("BlockValuesRefs", self._references) + blk.refs.add_reference(blk) + return res_ser.__finalize__(self, method="view") + + # ---------------------------------------------------------------------- + # NDArray Compat + def __array__( + self, dtype: npt.DTypeLike | None = None, copy: bool | None = None + ) -> np.ndarray: + """ + Return the values as a NumPy array. + + Users should not call this directly. Rather, it is invoked by + :func:`numpy.array` and :func:`numpy.asarray`. + + Parameters + ---------- + dtype : str or numpy.dtype, optional + The dtype to use for the resulting NumPy array. By default, + the dtype is inferred from the data. + + copy : bool or None, optional + See :func:`numpy.asarray`. + + Returns + ------- + numpy.ndarray + The values in the series converted to a :class:`numpy.ndarray` + with the specified `dtype`. + + See Also + -------- + array : Create a new array from data. + Series.array : Zero-copy view to the array backing the Series. + Series.to_numpy : Series method for similar behavior. + + Examples + -------- + >>> ser = pd.Series([1, 2, 3]) + >>> np.asarray(ser) + array([1, 2, 3]) + + For timezone-aware data, the timezones may be retained with + ``dtype='object'`` + + >>> tzser = pd.Series(pd.date_range('2000', periods=2, tz="CET")) + >>> np.asarray(tzser, dtype="object") + array([Timestamp('2000-01-01 00:00:00+0100', tz='CET'), + Timestamp('2000-01-02 00:00:00+0100', tz='CET')], + dtype=object) + + Or the values may be localized to UTC and the tzinfo discarded with + ``dtype='datetime64[ns]'`` + + >>> np.asarray(tzser, dtype="datetime64[ns]") # doctest: +ELLIPSIS + array(['1999-12-31T23:00:00.000000000', ...], + dtype='datetime64[ns]') + """ + values = self._values + if copy is None: + # Note: branch avoids `copy=None` for NumPy 1.x support + arr = np.asarray(values, dtype=dtype) + else: + arr = np.array(values, dtype=dtype, copy=copy) + + if copy is True: + return arr + if using_copy_on_write() and ( + copy is False or astype_is_view(values.dtype, arr.dtype) + ): + arr = arr.view() + arr.flags.writeable = False + return arr + + # ---------------------------------------------------------------------- + + def __column_consortium_standard__(self, *, api_version: str | None = None) -> Any: + """ + Provide entry point to the Consortium DataFrame Standard API. + + This is developed and maintained outside of pandas. + Please report any issues to https://github.com/data-apis/dataframe-api-compat. + """ + dataframe_api_compat = import_optional_dependency("dataframe_api_compat") + return ( + dataframe_api_compat.pandas_standard.convert_to_standard_compliant_column( + self, api_version=api_version + ) + ) + + # ---------------------------------------------------------------------- + # Unary Methods + + # coercion + __float__ = _coerce_method(float) + __int__ = _coerce_method(int) + + # ---------------------------------------------------------------------- + + # indexers + @property + def axes(self) -> list[Index]: + """ + Return a list of the row axis labels. + """ + return [self.index] + + # ---------------------------------------------------------------------- + # Indexing Methods + + def _ixs(self, i: int, axis: AxisInt = 0) -> Any: + """ + Return the i-th value or values in the Series by location. + + Parameters + ---------- + i : int + + Returns + ------- + scalar + """ + return self._values[i] + + def _slice(self, slobj: slice, axis: AxisInt = 0) -> Series: + # axis kwarg is retained for compat with NDFrame method + # _slice is *always* positional + mgr = self._mgr.get_slice(slobj, axis=axis) + out = self._constructor_from_mgr(mgr, axes=mgr.axes) + out._name = self._name + return out.__finalize__(self) + + def __getitem__(self, key): + check_dict_or_set_indexers(key) + key = com.apply_if_callable(key, self) + + if key is Ellipsis: + if using_copy_on_write() or warn_copy_on_write(): + return self.copy(deep=False) + return self + + key_is_scalar = is_scalar(key) + if isinstance(key, (list, tuple)): + key = unpack_1tuple(key) + + if is_integer(key) and self.index._should_fallback_to_positional: + warnings.warn( + # GH#50617 + "Series.__getitem__ treating keys as positions is deprecated. " + "In a future version, integer keys will always be treated " + "as labels (consistent with DataFrame behavior). To access " + "a value by position, use `ser.iloc[pos]`", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._values[key] + + elif key_is_scalar: + return self._get_value(key) + + # Convert generator to list before going through hashable part + # (We will iterate through the generator there to check for slices) + if is_iterator(key): + key = list(key) + + if is_hashable(key) and not isinstance(key, slice): + # Otherwise index.get_value will raise InvalidIndexError + try: + # For labels that don't resolve as scalars like tuples and frozensets + result = self._get_value(key) + + return result + + except (KeyError, TypeError, InvalidIndexError): + # InvalidIndexError for e.g. generator + # see test_series_getitem_corner_generator + if isinstance(key, tuple) and isinstance(self.index, MultiIndex): + # We still have the corner case where a tuple is a key + # in the first level of our MultiIndex + return self._get_values_tuple(key) + + if isinstance(key, slice): + # Do slice check before somewhat-costly is_bool_indexer + return self._getitem_slice(key) + + if com.is_bool_indexer(key): + key = check_bool_indexer(self.index, key) + key = np.asarray(key, dtype=bool) + return self._get_rows_with_mask(key) + + return self._get_with(key) + + def _get_with(self, key): + # other: fancy integer or otherwise + if isinstance(key, ABCDataFrame): + raise TypeError( + "Indexing a Series with DataFrame is not " + "supported, use the appropriate DataFrame column" + ) + elif isinstance(key, tuple): + return self._get_values_tuple(key) + + elif not is_list_like(key): + # e.g. scalars that aren't recognized by lib.is_scalar, GH#32684 + return self.loc[key] + + if not isinstance(key, (list, np.ndarray, ExtensionArray, Series, Index)): + key = list(key) + + key_type = lib.infer_dtype(key, skipna=False) + + # Note: The key_type == "boolean" case should be caught by the + # com.is_bool_indexer check in __getitem__ + if key_type == "integer": + # We need to decide whether to treat this as a positional indexer + # (i.e. self.iloc) or label-based (i.e. self.loc) + if not self.index._should_fallback_to_positional: + return self.loc[key] + else: + warnings.warn( + # GH#50617 + "Series.__getitem__ treating keys as positions is deprecated. " + "In a future version, integer keys will always be treated " + "as labels (consistent with DataFrame behavior). To access " + "a value by position, use `ser.iloc[pos]`", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.iloc[key] + + # handle the dup indexing case GH#4246 + return self.loc[key] + + def _get_values_tuple(self, key: tuple): + # mpl hackaround + if com.any_none(*key): + # mpl compat if we look up e.g. ser[:, np.newaxis]; + # see tests.series.timeseries.test_mpl_compat_hack + # the asarray is needed to avoid returning a 2D DatetimeArray + result = np.asarray(self._values[key]) + disallow_ndim_indexing(result) + return result + + if not isinstance(self.index, MultiIndex): + raise KeyError("key of type tuple not found and not a MultiIndex") + + # If key is contained, would have returned by now + indexer, new_index = self.index.get_loc_level(key) + new_ser = self._constructor(self._values[indexer], index=new_index, copy=False) + if isinstance(indexer, slice): + new_ser._mgr.add_references(self._mgr) # type: ignore[arg-type] + return new_ser.__finalize__(self) + + def _get_rows_with_mask(self, indexer: npt.NDArray[np.bool_]) -> Series: + new_mgr = self._mgr.get_rows_with_mask(indexer) + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__(self) + + def _get_value(self, label, takeable: bool = False): + """ + Quickly retrieve single value at passed index label. + + Parameters + ---------- + label : object + takeable : interpret the index as indexers, default False + + Returns + ------- + scalar value + """ + if takeable: + return self._values[label] + + # Similar to Index.get_value, but we do not fall back to positional + loc = self.index.get_loc(label) + + if is_integer(loc): + return self._values[loc] + + if isinstance(self.index, MultiIndex): + mi = self.index + new_values = self._values[loc] + if len(new_values) == 1 and mi.nlevels == 1: + # If more than one level left, we can not return a scalar + return new_values[0] + + new_index = mi[loc] + new_index = maybe_droplevels(new_index, label) + new_ser = self._constructor( + new_values, index=new_index, name=self.name, copy=False + ) + if isinstance(loc, slice): + new_ser._mgr.add_references(self._mgr) # type: ignore[arg-type] + return new_ser.__finalize__(self) + + else: + return self.iloc[loc] + + def __setitem__(self, key, value) -> None: + warn = True + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= 3: + warnings.warn( + _chained_assignment_msg, ChainedAssignmentError, stacklevel=2 + ) + elif not PYPY and not using_copy_on_write(): + ctr = sys.getrefcount(self) + ref_count = 3 + if not warn_copy_on_write() and _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count and ( + warn_copy_on_write() + or ( + not warn_copy_on_write() + and self._mgr.blocks[0].refs.has_reference() # type: ignore[union-attr] + ) + ): + warn = False + warnings.warn( + _chained_assignment_warning_msg, FutureWarning, stacklevel=2 + ) + + check_dict_or_set_indexers(key) + key = com.apply_if_callable(key, self) + cacher_needs_updating = self._check_is_chained_assignment_possible() + + if key is Ellipsis: + key = slice(None) + + if isinstance(key, slice): + indexer = self.index._convert_slice_indexer(key, kind="getitem") + return self._set_values(indexer, value, warn=warn) + + try: + self._set_with_engine(key, value, warn=warn) + except KeyError: + # We have a scalar (or for MultiIndex or object-dtype, scalar-like) + # key that is not present in self.index. + if is_integer(key): + if not self.index._should_fallback_to_positional: + # GH#33469 + self.loc[key] = value + else: + # positional setter + # can't use _mgr.setitem_inplace yet bc could have *both* + # KeyError and then ValueError, xref GH#45070 + warnings.warn( + # GH#50617 + "Series.__setitem__ treating keys as positions is deprecated. " + "In a future version, integer keys will always be treated " + "as labels (consistent with DataFrame behavior). To set " + "a value by position, use `ser.iloc[pos] = value`", + FutureWarning, + stacklevel=find_stack_level(), + ) + self._set_values(key, value) + else: + # GH#12862 adding a new key to the Series + self.loc[key] = value + + except (TypeError, ValueError, LossySetitemError): + # The key was OK, but we cannot set the value losslessly + indexer = self.index.get_loc(key) + self._set_values(indexer, value) + + except InvalidIndexError as err: + if isinstance(key, tuple) and not isinstance(self.index, MultiIndex): + # cases with MultiIndex don't get here bc they raise KeyError + # e.g. test_basic_getitem_setitem_corner + raise KeyError( + "key of type tuple not found and not a MultiIndex" + ) from err + + if com.is_bool_indexer(key): + key = check_bool_indexer(self.index, key) + key = np.asarray(key, dtype=bool) + + if ( + is_list_like(value) + and len(value) != len(self) + and not isinstance(value, Series) + and not is_object_dtype(self.dtype) + ): + # Series will be reindexed to have matching length inside + # _where call below + # GH#44265 + indexer = key.nonzero()[0] + self._set_values(indexer, value) + return + + # otherwise with listlike other we interpret series[mask] = other + # as series[mask] = other[mask] + try: + self._where(~key, value, inplace=True, warn=warn) + except InvalidIndexError: + # test_where_dups + self.iloc[key] = value + return + + else: + self._set_with(key, value, warn=warn) + + if cacher_needs_updating: + self._maybe_update_cacher(inplace=True) + + def _set_with_engine(self, key, value, warn: bool = True) -> None: + loc = self.index.get_loc(key) + + # this is equivalent to self._values[key] = value + self._mgr.setitem_inplace(loc, value, warn=warn) + + def _set_with(self, key, value, warn: bool = True) -> None: + # We got here via exception-handling off of InvalidIndexError, so + # key should always be listlike at this point. + assert not isinstance(key, tuple) + + if is_iterator(key): + # Without this, the call to infer_dtype will consume the generator + key = list(key) + + if not self.index._should_fallback_to_positional: + # Regardless of the key type, we're treating it as labels + self._set_labels(key, value, warn=warn) + + else: + # Note: key_type == "boolean" should not occur because that + # should be caught by the is_bool_indexer check in __setitem__ + key_type = lib.infer_dtype(key, skipna=False) + + if key_type == "integer": + warnings.warn( + # GH#50617 + "Series.__setitem__ treating keys as positions is deprecated. " + "In a future version, integer keys will always be treated " + "as labels (consistent with DataFrame behavior). To set " + "a value by position, use `ser.iloc[pos] = value`", + FutureWarning, + stacklevel=find_stack_level(), + ) + self._set_values(key, value, warn=warn) + else: + self._set_labels(key, value, warn=warn) + + def _set_labels(self, key, value, warn: bool = True) -> None: + key = com.asarray_tuplesafe(key) + indexer: np.ndarray = self.index.get_indexer(key) + mask = indexer == -1 + if mask.any(): + raise KeyError(f"{key[mask]} not in index") + self._set_values(indexer, value, warn=warn) + + def _set_values(self, key, value, warn: bool = True) -> None: + if isinstance(key, (Index, Series)): + key = key._values + + self._mgr = self._mgr.setitem(indexer=key, value=value, warn=warn) + self._maybe_update_cacher() + + def _set_value(self, label, value, takeable: bool = False) -> None: + """ + Quickly set single value at passed label. + + If label is not contained, a new object is created with the label + placed at the end of the result index. + + Parameters + ---------- + label : object + Partial indexing with MultiIndex not allowed. + value : object + Scalar value. + takeable : interpret the index as indexers, default False + """ + if not takeable: + try: + loc = self.index.get_loc(label) + except KeyError: + # set using a non-recursive method + self.loc[label] = value + return + else: + loc = label + + self._set_values(loc, value) + + # ---------------------------------------------------------------------- + # Lookup Caching + + @property + def _is_cached(self) -> bool: + """Return boolean indicating if self is cached or not.""" + return getattr(self, "_cacher", None) is not None + + def _get_cacher(self): + """return my cacher or None""" + cacher = getattr(self, "_cacher", None) + if cacher is not None: + cacher = cacher[1]() + return cacher + + def _reset_cacher(self) -> None: + """ + Reset the cacher. + """ + if hasattr(self, "_cacher"): + del self._cacher + + def _set_as_cached(self, item, cacher) -> None: + """ + Set the _cacher attribute on the calling object with a weakref to + cacher. + """ + if using_copy_on_write(): + return + self._cacher = (item, weakref.ref(cacher)) + + def _clear_item_cache(self) -> None: + # no-op for Series + pass + + def _check_is_chained_assignment_possible(self) -> bool: + """ + See NDFrame._check_is_chained_assignment_possible.__doc__ + """ + if self._is_view and self._is_cached: + ref = self._get_cacher() + if ref is not None and ref._is_mixed_type: + self._check_setitem_copy(t="referent", force=True) + return True + return super()._check_is_chained_assignment_possible() + + def _maybe_update_cacher( + self, clear: bool = False, verify_is_copy: bool = True, inplace: bool = False + ) -> None: + """ + See NDFrame._maybe_update_cacher.__doc__ + """ + # for CoW, we never want to update the parent DataFrame cache + # if the Series changed, but don't keep track of any cacher + if using_copy_on_write(): + return + cacher = getattr(self, "_cacher", None) + if cacher is not None: + ref: DataFrame = cacher[1]() + + # we are trying to reference a dead referent, hence + # a copy + if ref is None: + del self._cacher + elif len(self) == len(ref) and self.name in ref.columns: + # GH#42530 self.name must be in ref.columns + # to ensure column still in dataframe + # otherwise, either self or ref has swapped in new arrays + ref._maybe_cache_changed(cacher[0], self, inplace=inplace) + else: + # GH#33675 we have swapped in a new array, so parent + # reference to self is now invalid + ref._item_cache.pop(cacher[0], None) + + super()._maybe_update_cacher( + clear=clear, verify_is_copy=verify_is_copy, inplace=inplace + ) + + # ---------------------------------------------------------------------- + # Unsorted + + def repeat(self, repeats: int | Sequence[int], axis: None = None) -> Series: + """ + Repeat elements of a Series. + + Returns a new Series where each element of the current Series + is repeated consecutively a given number of times. + + Parameters + ---------- + repeats : int or array of ints + The number of repetitions for each element. This should be a + non-negative integer. Repeating 0 times will return an empty + Series. + axis : None + Unused. Parameter needed for compatibility with DataFrame. + + Returns + ------- + Series + Newly created Series with repeated elements. + + See Also + -------- + Index.repeat : Equivalent function for Index. + numpy.repeat : Similar method for :class:`numpy.ndarray`. + + Examples + -------- + >>> s = pd.Series(['a', 'b', 'c']) + >>> s + 0 a + 1 b + 2 c + dtype: object + >>> s.repeat(2) + 0 a + 0 a + 1 b + 1 b + 2 c + 2 c + dtype: object + >>> s.repeat([1, 2, 3]) + 0 a + 1 b + 1 b + 2 c + 2 c + 2 c + dtype: object + """ + nv.validate_repeat((), {"axis": axis}) + new_index = self.index.repeat(repeats) + new_values = self._values.repeat(repeats) + return self._constructor(new_values, index=new_index, copy=False).__finalize__( + self, method="repeat" + ) + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: Literal[False] = ..., + name: Level = ..., + inplace: Literal[False] = ..., + allow_duplicates: bool = ..., + ) -> DataFrame: + ... + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: Literal[True], + name: Level = ..., + inplace: Literal[False] = ..., + allow_duplicates: bool = ..., + ) -> Series: + ... + + @overload + def reset_index( + self, + level: IndexLabel = ..., + *, + drop: bool = ..., + name: Level = ..., + inplace: Literal[True], + allow_duplicates: bool = ..., + ) -> None: + ... + + def reset_index( + self, + level: IndexLabel | None = None, + *, + drop: bool = False, + name: Level = lib.no_default, + inplace: bool = False, + allow_duplicates: bool = False, + ) -> DataFrame | Series | None: + """ + Generate a new DataFrame or Series with the index reset. + + This is useful when the index needs to be treated as a column, or + when the index is meaningless and needs to be reset to the default + before another operation. + + Parameters + ---------- + level : int, str, tuple, or list, default optional + For a Series with a MultiIndex, only remove the specified levels + from the index. Removes all levels by default. + drop : bool, default False + Just reset the index, without inserting it as a column in + the new DataFrame. + name : object, optional + The name to use for the column containing the original Series + values. Uses ``self.name`` by default. This argument is ignored + when `drop` is True. + inplace : bool, default False + Modify the Series in place (do not create a new object). + allow_duplicates : bool, default False + Allow duplicate column labels to be created. + + .. versionadded:: 1.5.0 + + Returns + ------- + Series or DataFrame or None + When `drop` is False (the default), a DataFrame is returned. + The newly created columns will come first in the DataFrame, + followed by the original Series values. + When `drop` is True, a `Series` is returned. + In either case, if ``inplace=True``, no value is returned. + + See Also + -------- + DataFrame.reset_index: Analogous function for DataFrame. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4], name='foo', + ... index=pd.Index(['a', 'b', 'c', 'd'], name='idx')) + + Generate a DataFrame with default index. + + >>> s.reset_index() + idx foo + 0 a 1 + 1 b 2 + 2 c 3 + 3 d 4 + + To specify the name of the new column use `name`. + + >>> s.reset_index(name='values') + idx values + 0 a 1 + 1 b 2 + 2 c 3 + 3 d 4 + + To generate a new Series with the default set `drop` to True. + + >>> s.reset_index(drop=True) + 0 1 + 1 2 + 2 3 + 3 4 + Name: foo, dtype: int64 + + The `level` parameter is interesting for Series with a multi-level + index. + + >>> arrays = [np.array(['bar', 'bar', 'baz', 'baz']), + ... np.array(['one', 'two', 'one', 'two'])] + >>> s2 = pd.Series( + ... range(4), name='foo', + ... index=pd.MultiIndex.from_arrays(arrays, + ... names=['a', 'b'])) + + To remove a specific level from the Index, use `level`. + + >>> s2.reset_index(level='a') + a foo + b + one bar 0 + two bar 1 + one baz 2 + two baz 3 + + If `level` is not set, all levels are removed from the Index. + + >>> s2.reset_index() + a b foo + 0 bar one 0 + 1 bar two 1 + 2 baz one 2 + 3 baz two 3 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + if drop: + new_index = default_index(len(self)) + if level is not None: + level_list: Sequence[Hashable] + if not isinstance(level, (tuple, list)): + level_list = [level] + else: + level_list = level + level_list = [self.index._get_level_number(lev) for lev in level_list] + if len(level_list) < self.index.nlevels: + new_index = self.index.droplevel(level_list) + + if inplace: + self.index = new_index + elif using_copy_on_write(): + new_ser = self.copy(deep=False) + new_ser.index = new_index + return new_ser.__finalize__(self, method="reset_index") + else: + return self._constructor( + self._values.copy(), index=new_index, copy=False, dtype=self.dtype + ).__finalize__(self, method="reset_index") + elif inplace: + raise TypeError( + "Cannot reset_index inplace on a Series to create a DataFrame" + ) + else: + if name is lib.no_default: + # For backwards compatibility, keep columns as [0] instead of + # [None] when self.name is None + if self.name is None: + name = 0 + else: + name = self.name + + df = self.to_frame(name) + return df.reset_index( + level=level, drop=drop, allow_duplicates=allow_duplicates + ) + return None + + # ---------------------------------------------------------------------- + # Rendering Methods + + def __repr__(self) -> str: + """ + Return a string representation for a particular Series. + """ + # pylint: disable=invalid-repr-returned + repr_params = fmt.get_series_repr_params() + return self.to_string(**repr_params) + + @overload + def to_string( + self, + buf: None = ..., + na_rep: str = ..., + float_format: str | None = ..., + header: bool = ..., + index: bool = ..., + length: bool = ..., + dtype=..., + name=..., + max_rows: int | None = ..., + min_rows: int | None = ..., + ) -> str: + ... + + @overload + def to_string( + self, + buf: FilePath | WriteBuffer[str], + na_rep: str = ..., + float_format: str | None = ..., + header: bool = ..., + index: bool = ..., + length: bool = ..., + dtype=..., + name=..., + max_rows: int | None = ..., + min_rows: int | None = ..., + ) -> None: + ... + + def to_string( + self, + buf: FilePath | WriteBuffer[str] | None = None, + na_rep: str = "NaN", + float_format: str | None = None, + header: bool = True, + index: bool = True, + length: bool = False, + dtype: bool = False, + name: bool = False, + max_rows: int | None = None, + min_rows: int | None = None, + ) -> str | None: + """ + Render a string representation of the Series. + + Parameters + ---------- + buf : StringIO-like, optional + Buffer to write to. + na_rep : str, optional + String representation of NaN to use, default 'NaN'. + float_format : one-parameter function, optional + Formatter function to apply to columns' elements if they are + floats, default None. + header : bool, default True + Add the Series header (index name). + index : bool, optional + Add index (row) labels, default True. + length : bool, default False + Add the Series length. + dtype : bool, default False + Add the Series dtype. + name : bool, default False + Add the Series name if not None. + max_rows : int, optional + Maximum number of rows to show before truncating. If None, show + all. + min_rows : int, optional + The number of rows to display in a truncated repr (when number + of rows is above `max_rows`). + + Returns + ------- + str or None + String representation of Series if ``buf=None``, otherwise None. + + Examples + -------- + >>> ser = pd.Series([1, 2, 3]).to_string() + >>> ser + '0 1\\n1 2\\n2 3' + """ + formatter = fmt.SeriesFormatter( + self, + name=name, + length=length, + header=header, + index=index, + dtype=dtype, + na_rep=na_rep, + float_format=float_format, + min_rows=min_rows, + max_rows=max_rows, + ) + result = formatter.to_string() + + # catch contract violations + if not isinstance(result, str): + raise AssertionError( + "result must be of type str, type " + f"of result is {repr(type(result).__name__)}" + ) + + if buf is None: + return result + else: + if hasattr(buf, "write"): + buf.write(result) + else: + with open(buf, "w", encoding="utf-8") as f: + f.write(result) + return None + + @doc( + klass=_shared_doc_kwargs["klass"], + storage_options=_shared_docs["storage_options"], + examples=dedent( + """Examples + -------- + >>> s = pd.Series(["elk", "pig", "dog", "quetzal"], name="animal") + >>> print(s.to_markdown()) + | | animal | + |---:|:---------| + | 0 | elk | + | 1 | pig | + | 2 | dog | + | 3 | quetzal | + + Output markdown with a tabulate option. + + >>> print(s.to_markdown(tablefmt="grid")) + +----+----------+ + | | animal | + +====+==========+ + | 0 | elk | + +----+----------+ + | 1 | pig | + +----+----------+ + | 2 | dog | + +----+----------+ + | 3 | quetzal | + +----+----------+""" + ), + ) + def to_markdown( + self, + buf: IO[str] | None = None, + mode: str = "wt", + index: bool = True, + storage_options: StorageOptions | None = None, + **kwargs, + ) -> str | None: + """ + Print {klass} in Markdown-friendly format. + + Parameters + ---------- + buf : str, Path or StringIO-like, optional, default None + Buffer to write to. If None, the output is returned as a string. + mode : str, optional + Mode in which file is opened, "wt" by default. + index : bool, optional, default True + Add index (row) labels. + + {storage_options} + + **kwargs + These parameters will be passed to `tabulate \ + `_. + + Returns + ------- + str + {klass} in Markdown-friendly format. + + Notes + ----- + Requires the `tabulate `_ package. + + {examples} + """ + return self.to_frame().to_markdown( + buf, mode=mode, index=index, storage_options=storage_options, **kwargs + ) + + # ---------------------------------------------------------------------- + + def items(self) -> Iterable[tuple[Hashable, Any]]: + """ + Lazily iterate over (index, value) tuples. + + This method returns an iterable tuple (index, value). This is + convenient if you want to create a lazy iterator. + + Returns + ------- + iterable + Iterable of tuples containing the (index, value) pairs from a + Series. + + See Also + -------- + DataFrame.items : Iterate over (column name, Series) pairs. + DataFrame.iterrows : Iterate over DataFrame rows as (index, Series) pairs. + + Examples + -------- + >>> s = pd.Series(['A', 'B', 'C']) + >>> for index, value in s.items(): + ... print(f"Index : {index}, Value : {value}") + Index : 0, Value : A + Index : 1, Value : B + Index : 2, Value : C + """ + return zip(iter(self.index), iter(self)) + + # ---------------------------------------------------------------------- + # Misc public methods + + def keys(self) -> Index: + """ + Return alias for index. + + Returns + ------- + Index + Index of the Series. + + Examples + -------- + >>> s = pd.Series([1, 2, 3], index=[0, 1, 2]) + >>> s.keys() + Index([0, 1, 2], dtype='int64') + """ + return self.index + + @overload + def to_dict( + self, *, into: type[MutableMappingT] | MutableMappingT + ) -> MutableMappingT: + ... + + @overload + def to_dict(self, *, into: type[dict] = ...) -> dict: + ... + + # error: Incompatible default for argument "into" (default has type "type[ + # dict[Any, Any]]", argument has type "type[MutableMappingT] | MutableMappingT") + @deprecate_nonkeyword_arguments( + version="3.0", allowed_args=["self"], name="to_dict" + ) + def to_dict( + self, + into: type[MutableMappingT] + | MutableMappingT = dict, # type: ignore[assignment] + ) -> MutableMappingT: + """ + Convert Series to {label -> value} dict or dict-like object. + + Parameters + ---------- + into : class, default dict + The collections.abc.MutableMapping subclass to use as the return + object. Can be the actual class or an empty instance of the mapping + type you want. If you want a collections.defaultdict, you must + pass it initialized. + + Returns + ------- + collections.abc.MutableMapping + Key-value representation of Series. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + >>> s.to_dict() + {0: 1, 1: 2, 2: 3, 3: 4} + >>> from collections import OrderedDict, defaultdict + >>> s.to_dict(into=OrderedDict) + OrderedDict([(0, 1), (1, 2), (2, 3), (3, 4)]) + >>> dd = defaultdict(list) + >>> s.to_dict(into=dd) + defaultdict(, {0: 1, 1: 2, 2: 3, 3: 4}) + """ + # GH16122 + into_c = com.standardize_mapping(into) + + if is_object_dtype(self.dtype) or isinstance(self.dtype, ExtensionDtype): + return into_c((k, maybe_box_native(v)) for k, v in self.items()) + else: + # Not an object dtype => all types will be the same so let the default + # indexer return native python type + return into_c(self.items()) + + def to_frame(self, name: Hashable = lib.no_default) -> DataFrame: + """ + Convert Series to DataFrame. + + Parameters + ---------- + name : object, optional + The passed name should substitute for the series name (if it has + one). + + Returns + ------- + DataFrame + DataFrame representation of Series. + + Examples + -------- + >>> s = pd.Series(["a", "b", "c"], + ... name="vals") + >>> s.to_frame() + vals + 0 a + 1 b + 2 c + """ + columns: Index + if name is lib.no_default: + name = self.name + if name is None: + # default to [0], same as we would get with DataFrame(self) + columns = default_index(1) + else: + columns = Index([name]) + else: + columns = Index([name]) + + mgr = self._mgr.to_2d_mgr(columns) + df = self._constructor_expanddim_from_mgr(mgr, axes=mgr.axes) + return df.__finalize__(self, method="to_frame") + + def _set_name( + self, name, inplace: bool = False, deep: bool | None = None + ) -> Series: + """ + Set the Series name. + + Parameters + ---------- + name : str + inplace : bool + Whether to modify `self` directly or return a copy. + deep : bool|None, default None + Whether to do a deep copy, a shallow copy, or Copy on Write(None) + """ + inplace = validate_bool_kwarg(inplace, "inplace") + ser = self if inplace else self.copy(deep and not using_copy_on_write()) + ser.name = name + return ser + + @Appender( + dedent( + """ + Examples + -------- + >>> ser = pd.Series([390., 350., 30., 20.], + ... index=['Falcon', 'Falcon', 'Parrot', 'Parrot'], + ... name="Max Speed") + >>> ser + Falcon 390.0 + Falcon 350.0 + Parrot 30.0 + Parrot 20.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(["a", "b", "a", "b"]).mean() + a 210.0 + b 185.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(level=0).mean() + Falcon 370.0 + Parrot 25.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(ser > 100).mean() + Max Speed + False 25.0 + True 370.0 + Name: Max Speed, dtype: float64 + + **Grouping by Indexes** + + We can groupby different levels of a hierarchical index + using the `level` parameter: + + >>> arrays = [['Falcon', 'Falcon', 'Parrot', 'Parrot'], + ... ['Captive', 'Wild', 'Captive', 'Wild']] + >>> index = pd.MultiIndex.from_arrays(arrays, names=('Animal', 'Type')) + >>> ser = pd.Series([390., 350., 30., 20.], index=index, name="Max Speed") + >>> ser + Animal Type + Falcon Captive 390.0 + Wild 350.0 + Parrot Captive 30.0 + Wild 20.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(level=0).mean() + Animal + Falcon 370.0 + Parrot 25.0 + Name: Max Speed, dtype: float64 + >>> ser.groupby(level="Type").mean() + Type + Captive 210.0 + Wild 185.0 + Name: Max Speed, dtype: float64 + + We can also choose to include `NA` in group keys or not by defining + `dropna` parameter, the default setting is `True`. + + >>> ser = pd.Series([1, 2, 3, 3], index=["a", 'a', 'b', np.nan]) + >>> ser.groupby(level=0).sum() + a 3 + b 3 + dtype: int64 + + >>> ser.groupby(level=0, dropna=False).sum() + a 3 + b 3 + NaN 3 + dtype: int64 + + >>> arrays = ['Falcon', 'Falcon', 'Parrot', 'Parrot'] + >>> ser = pd.Series([390., 350., 30., 20.], index=arrays, name="Max Speed") + >>> ser.groupby(["a", "b", "a", np.nan]).mean() + a 210.0 + b 350.0 + Name: Max Speed, dtype: float64 + + >>> ser.groupby(["a", "b", "a", np.nan], dropna=False).mean() + a 210.0 + b 350.0 + NaN 20.0 + Name: Max Speed, dtype: float64 + """ + ) + ) + @Appender(_shared_docs["groupby"] % _shared_doc_kwargs) + def groupby( + self, + by=None, + axis: Axis = 0, + level: IndexLabel | None = None, + as_index: bool = True, + sort: bool = True, + group_keys: bool = True, + observed: bool | lib.NoDefault = lib.no_default, + dropna: bool = True, + ) -> SeriesGroupBy: + from pandas.core.groupby.generic import SeriesGroupBy + + if level is None and by is None: + raise TypeError("You have to supply one of 'by' and 'level'") + if not as_index: + raise TypeError("as_index=False only valid with DataFrame") + axis = self._get_axis_number(axis) + + return SeriesGroupBy( + obj=self, + keys=by, + axis=axis, + level=level, + as_index=as_index, + sort=sort, + group_keys=group_keys, + observed=observed, + dropna=dropna, + ) + + # ---------------------------------------------------------------------- + # Statistics, overridden ndarray methods + + # TODO: integrate bottleneck + def count(self) -> int: + """ + Return number of non-NA/null observations in the Series. + + Returns + ------- + int + Number of non-null values in the Series. + + See Also + -------- + DataFrame.count : Count non-NA cells for each column or row. + + Examples + -------- + >>> s = pd.Series([0.0, 1.0, np.nan]) + >>> s.count() + 2 + """ + return notna(self._values).sum().astype("int64") + + def mode(self, dropna: bool = True) -> Series: + """ + Return the mode(s) of the Series. + + The mode is the value that appears most often. There can be multiple modes. + + Always returns Series even if only one value is returned. + + Parameters + ---------- + dropna : bool, default True + Don't consider counts of NaN/NaT. + + Returns + ------- + Series + Modes of the Series in sorted order. + + Examples + -------- + >>> s = pd.Series([2, 4, 2, 2, 4, None]) + >>> s.mode() + 0 2.0 + dtype: float64 + + More than one mode: + + >>> s = pd.Series([2, 4, 8, 2, 4, None]) + >>> s.mode() + 0 2.0 + 1 4.0 + dtype: float64 + + With and without considering null value: + + >>> s = pd.Series([2, 4, None, None, 4, None]) + >>> s.mode(dropna=False) + 0 NaN + dtype: float64 + >>> s = pd.Series([2, 4, None, None, 4, None]) + >>> s.mode() + 0 4.0 + dtype: float64 + """ + # TODO: Add option for bins like value_counts() + values = self._values + if isinstance(values, np.ndarray): + res_values = algorithms.mode(values, dropna=dropna) + else: + res_values = values._mode(dropna=dropna) + + # Ensure index is type stable (should always use int index) + return self._constructor( + res_values, + index=range(len(res_values)), + name=self.name, + copy=False, + dtype=self.dtype, + ).__finalize__(self, method="mode") + + def unique(self) -> ArrayLike: # pylint: disable=useless-parent-delegation + """ + Return unique values of Series object. + + Uniques are returned in order of appearance. Hash table-based unique, + therefore does NOT sort. + + Returns + ------- + ndarray or ExtensionArray + The unique values returned as a NumPy array. See Notes. + + See Also + -------- + Series.drop_duplicates : Return Series with duplicate values removed. + unique : Top-level unique method for any 1-d array-like object. + Index.unique : Return Index with unique values from an Index object. + + Notes + ----- + Returns the unique values as a NumPy array. In case of an + extension-array backed Series, a new + :class:`~api.extensions.ExtensionArray` of that type with just + the unique values is returned. This includes + + * Categorical + * Period + * Datetime with Timezone + * Datetime without Timezone + * Timedelta + * Interval + * Sparse + * IntegerNA + + See Examples section. + + Examples + -------- + >>> pd.Series([2, 1, 3, 3], name='A').unique() + array([2, 1, 3]) + + >>> pd.Series([pd.Timestamp('2016-01-01') for _ in range(3)]).unique() + + ['2016-01-01 00:00:00'] + Length: 1, dtype: datetime64[ns] + + >>> pd.Series([pd.Timestamp('2016-01-01', tz='US/Eastern') + ... for _ in range(3)]).unique() + + ['2016-01-01 00:00:00-05:00'] + Length: 1, dtype: datetime64[ns, US/Eastern] + + An Categorical will return categories in the order of + appearance and with the same dtype. + + >>> pd.Series(pd.Categorical(list('baabc'))).unique() + ['b', 'a', 'c'] + Categories (3, object): ['a', 'b', 'c'] + >>> pd.Series(pd.Categorical(list('baabc'), categories=list('abc'), + ... ordered=True)).unique() + ['b', 'a', 'c'] + Categories (3, object): ['a' < 'b' < 'c'] + """ + return super().unique() + + @overload + def drop_duplicates( + self, + *, + keep: DropKeep = ..., + inplace: Literal[False] = ..., + ignore_index: bool = ..., + ) -> Series: + ... + + @overload + def drop_duplicates( + self, *, keep: DropKeep = ..., inplace: Literal[True], ignore_index: bool = ... + ) -> None: + ... + + @overload + def drop_duplicates( + self, *, keep: DropKeep = ..., inplace: bool = ..., ignore_index: bool = ... + ) -> Series | None: + ... + + def drop_duplicates( + self, + *, + keep: DropKeep = "first", + inplace: bool = False, + ignore_index: bool = False, + ) -> Series | None: + """ + Return Series with duplicate values removed. + + Parameters + ---------- + keep : {'first', 'last', ``False``}, default 'first' + Method to handle dropping duplicates: + + - 'first' : Drop duplicates except for the first occurrence. + - 'last' : Drop duplicates except for the last occurrence. + - ``False`` : Drop all duplicates. + + inplace : bool, default ``False`` + If ``True``, performs operation inplace and returns None. + + ignore_index : bool, default ``False`` + If ``True``, the resulting axis will be labeled 0, 1, …, n - 1. + + .. versionadded:: 2.0.0 + + Returns + ------- + Series or None + Series with duplicates dropped or None if ``inplace=True``. + + See Also + -------- + Index.drop_duplicates : Equivalent method on Index. + DataFrame.drop_duplicates : Equivalent method on DataFrame. + Series.duplicated : Related method on Series, indicating duplicate + Series values. + Series.unique : Return unique values as an array. + + Examples + -------- + Generate a Series with duplicated entries. + + >>> s = pd.Series(['llama', 'cow', 'llama', 'beetle', 'llama', 'hippo'], + ... name='animal') + >>> s + 0 llama + 1 cow + 2 llama + 3 beetle + 4 llama + 5 hippo + Name: animal, dtype: object + + With the 'keep' parameter, the selection behaviour of duplicated values + can be changed. The value 'first' keeps the first occurrence for each + set of duplicated entries. The default value of keep is 'first'. + + >>> s.drop_duplicates() + 0 llama + 1 cow + 3 beetle + 5 hippo + Name: animal, dtype: object + + The value 'last' for parameter 'keep' keeps the last occurrence for + each set of duplicated entries. + + >>> s.drop_duplicates(keep='last') + 1 cow + 3 beetle + 4 llama + 5 hippo + Name: animal, dtype: object + + The value ``False`` for parameter 'keep' discards all sets of + duplicated entries. + + >>> s.drop_duplicates(keep=False) + 1 cow + 3 beetle + 5 hippo + Name: animal, dtype: object + """ + inplace = validate_bool_kwarg(inplace, "inplace") + result = super().drop_duplicates(keep=keep) + + if ignore_index: + result.index = default_index(len(result)) + + if inplace: + self._update_inplace(result) + return None + else: + return result + + def duplicated(self, keep: DropKeep = "first") -> Series: + """ + Indicate duplicate Series values. + + Duplicated values are indicated as ``True`` values in the resulting + Series. Either all duplicates, all except the first or all except the + last occurrence of duplicates can be indicated. + + Parameters + ---------- + keep : {'first', 'last', False}, default 'first' + Method to handle dropping duplicates: + + - 'first' : Mark duplicates as ``True`` except for the first + occurrence. + - 'last' : Mark duplicates as ``True`` except for the last + occurrence. + - ``False`` : Mark all duplicates as ``True``. + + Returns + ------- + Series[bool] + Series indicating whether each value has occurred in the + preceding values. + + See Also + -------- + Index.duplicated : Equivalent method on pandas.Index. + DataFrame.duplicated : Equivalent method on pandas.DataFrame. + Series.drop_duplicates : Remove duplicate values from Series. + + Examples + -------- + By default, for each set of duplicated values, the first occurrence is + set on False and all others on True: + + >>> animals = pd.Series(['llama', 'cow', 'llama', 'beetle', 'llama']) + >>> animals.duplicated() + 0 False + 1 False + 2 True + 3 False + 4 True + dtype: bool + + which is equivalent to + + >>> animals.duplicated(keep='first') + 0 False + 1 False + 2 True + 3 False + 4 True + dtype: bool + + By using 'last', the last occurrence of each set of duplicated values + is set on False and all others on True: + + >>> animals.duplicated(keep='last') + 0 True + 1 False + 2 True + 3 False + 4 False + dtype: bool + + By setting keep on ``False``, all duplicates are True: + + >>> animals.duplicated(keep=False) + 0 True + 1 False + 2 True + 3 False + 4 True + dtype: bool + """ + res = self._duplicated(keep=keep) + result = self._constructor(res, index=self.index, copy=False) + return result.__finalize__(self, method="duplicated") + + def idxmin(self, axis: Axis = 0, skipna: bool = True, *args, **kwargs) -> Hashable: + """ + Return the row label of the minimum value. + + If multiple values equal the minimum, the first row label with that + value is returned. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + skipna : bool, default True + Exclude NA/null values. If the entire Series is NA, the result + will be NA. + *args, **kwargs + Additional arguments and keywords have no effect but might be + accepted for compatibility with NumPy. + + Returns + ------- + Index + Label of the minimum value. + + Raises + ------ + ValueError + If the Series is empty. + + See Also + -------- + numpy.argmin : Return indices of the minimum values + along the given axis. + DataFrame.idxmin : Return index of first occurrence of minimum + over requested axis. + Series.idxmax : Return index *label* of the first occurrence + of maximum of values. + + Notes + ----- + This method is the Series version of ``ndarray.argmin``. This method + returns the label of the minimum, while ``ndarray.argmin`` returns + the position. To get the position, use ``series.values.argmin()``. + + Examples + -------- + >>> s = pd.Series(data=[1, None, 4, 1], + ... index=['A', 'B', 'C', 'D']) + >>> s + A 1.0 + B NaN + C 4.0 + D 1.0 + dtype: float64 + + >>> s.idxmin() + 'A' + + If `skipna` is False and there is an NA value in the data, + the function returns ``nan``. + + >>> s.idxmin(skipna=False) + nan + """ + axis = self._get_axis_number(axis) + with warnings.catch_warnings(): + # TODO(3.0): this catching/filtering can be removed + # ignore warning produced by argmin since we will issue a different + # warning for idxmin + warnings.simplefilter("ignore") + i = self.argmin(axis, skipna, *args, **kwargs) + + if i == -1: + # GH#43587 give correct NA value for Index. + warnings.warn( + f"The behavior of {type(self).__name__}.idxmin with all-NA " + "values, or any-NA and skipna=False, is deprecated. In a future " + "version this will raise ValueError", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.index._na_value + return self.index[i] + + def idxmax(self, axis: Axis = 0, skipna: bool = True, *args, **kwargs) -> Hashable: + """ + Return the row label of the maximum value. + + If multiple values equal the maximum, the first row label with that + value is returned. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + skipna : bool, default True + Exclude NA/null values. If the entire Series is NA, the result + will be NA. + *args, **kwargs + Additional arguments and keywords have no effect but might be + accepted for compatibility with NumPy. + + Returns + ------- + Index + Label of the maximum value. + + Raises + ------ + ValueError + If the Series is empty. + + See Also + -------- + numpy.argmax : Return indices of the maximum values + along the given axis. + DataFrame.idxmax : Return index of first occurrence of maximum + over requested axis. + Series.idxmin : Return index *label* of the first occurrence + of minimum of values. + + Notes + ----- + This method is the Series version of ``ndarray.argmax``. This method + returns the label of the maximum, while ``ndarray.argmax`` returns + the position. To get the position, use ``series.values.argmax()``. + + Examples + -------- + >>> s = pd.Series(data=[1, None, 4, 3, 4], + ... index=['A', 'B', 'C', 'D', 'E']) + >>> s + A 1.0 + B NaN + C 4.0 + D 3.0 + E 4.0 + dtype: float64 + + >>> s.idxmax() + 'C' + + If `skipna` is False and there is an NA value in the data, + the function returns ``nan``. + + >>> s.idxmax(skipna=False) + nan + """ + axis = self._get_axis_number(axis) + with warnings.catch_warnings(): + # TODO(3.0): this catching/filtering can be removed + # ignore warning produced by argmax since we will issue a different + # warning for argmax + warnings.simplefilter("ignore") + i = self.argmax(axis, skipna, *args, **kwargs) + + if i == -1: + # GH#43587 give correct NA value for Index. + warnings.warn( + f"The behavior of {type(self).__name__}.idxmax with all-NA " + "values, or any-NA and skipna=False, is deprecated. In a future " + "version this will raise ValueError", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self.index._na_value + return self.index[i] + + def round(self, decimals: int = 0, *args, **kwargs) -> Series: + """ + Round each value in a Series to the given number of decimals. + + Parameters + ---------- + decimals : int, default 0 + Number of decimal places to round to. If decimals is negative, + it specifies the number of positions to the left of the decimal point. + *args, **kwargs + Additional arguments and keywords have no effect but might be + accepted for compatibility with NumPy. + + Returns + ------- + Series + Rounded values of the Series. + + See Also + -------- + numpy.around : Round values of an np.array. + DataFrame.round : Round values of a DataFrame. + + Examples + -------- + >>> s = pd.Series([0.1, 1.3, 2.7]) + >>> s.round() + 0 0.0 + 1 1.0 + 2 3.0 + dtype: float64 + """ + nv.validate_round(args, kwargs) + if self.dtype == "object": + raise TypeError("Expected numeric dtype, got object instead.") + new_mgr = self._mgr.round(decimals=decimals, using_cow=using_copy_on_write()) + return self._constructor_from_mgr(new_mgr, axes=new_mgr.axes).__finalize__( + self, method="round" + ) + + @overload + def quantile( + self, q: float = ..., interpolation: QuantileInterpolation = ... + ) -> float: + ... + + @overload + def quantile( + self, + q: Sequence[float] | AnyArrayLike, + interpolation: QuantileInterpolation = ..., + ) -> Series: + ... + + @overload + def quantile( + self, + q: float | Sequence[float] | AnyArrayLike = ..., + interpolation: QuantileInterpolation = ..., + ) -> float | Series: + ... + + def quantile( + self, + q: float | Sequence[float] | AnyArrayLike = 0.5, + interpolation: QuantileInterpolation = "linear", + ) -> float | Series: + """ + Return value at the given quantile. + + Parameters + ---------- + q : float or array-like, default 0.5 (50% quantile) + The quantile(s) to compute, which can lie in range: 0 <= q <= 1. + interpolation : {'linear', 'lower', 'higher', 'midpoint', 'nearest'} + This optional parameter specifies the interpolation method to use, + when the desired quantile lies between two data points `i` and `j`: + + * linear: `i + (j - i) * (x-i)/(j-i)`, where `(x-i)/(j-i)` is + the fractional part of the index surrounded by `i > j`. + * lower: `i`. + * higher: `j`. + * nearest: `i` or `j` whichever is nearest. + * midpoint: (`i` + `j`) / 2. + + Returns + ------- + float or Series + If ``q`` is an array, a Series will be returned where the + index is ``q`` and the values are the quantiles, otherwise + a float will be returned. + + See Also + -------- + core.window.Rolling.quantile : Calculate the rolling quantile. + numpy.percentile : Returns the q-th percentile(s) of the array elements. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + >>> s.quantile(.5) + 2.5 + >>> s.quantile([.25, .5, .75]) + 0.25 1.75 + 0.50 2.50 + 0.75 3.25 + dtype: float64 + """ + validate_percentile(q) + + # We dispatch to DataFrame so that core.internals only has to worry + # about 2D cases. + df = self.to_frame() + + result = df.quantile(q=q, interpolation=interpolation, numeric_only=False) + if result.ndim == 2: + result = result.iloc[:, 0] + + if is_list_like(q): + result.name = self.name + idx = Index(q, dtype=np.float64) + return self._constructor(result, index=idx, name=self.name) + else: + # scalar + return result.iloc[0] + + def corr( + self, + other: Series, + method: CorrelationMethod = "pearson", + min_periods: int | None = None, + ) -> float: + """ + Compute correlation with `other` Series, excluding missing values. + + The two `Series` objects are not required to be the same length and will be + aligned internally before the correlation function is applied. + + Parameters + ---------- + other : Series + Series with which to compute the correlation. + method : {'pearson', 'kendall', 'spearman'} or callable + Method used to compute correlation: + + - pearson : Standard correlation coefficient + - kendall : Kendall Tau correlation coefficient + - spearman : Spearman rank correlation + - callable: Callable with input two 1d ndarrays and returning a float. + + .. warning:: + Note that the returned matrix from corr will have 1 along the + diagonals and will be symmetric regardless of the callable's + behavior. + min_periods : int, optional + Minimum number of observations needed to have a valid result. + + Returns + ------- + float + Correlation with other. + + See Also + -------- + DataFrame.corr : Compute pairwise correlation between columns. + DataFrame.corrwith : Compute pairwise correlation with another + DataFrame or Series. + + Notes + ----- + Pearson, Kendall and Spearman correlation are currently computed using pairwise complete observations. + + * `Pearson correlation coefficient `_ + * `Kendall rank correlation coefficient `_ + * `Spearman's rank correlation coefficient `_ + + Automatic data alignment: as with all pandas operations, automatic data alignment is performed for this method. + ``corr()`` automatically considers values with matching indices. + + Examples + -------- + >>> def histogram_intersection(a, b): + ... v = np.minimum(a, b).sum().round(decimals=1) + ... return v + >>> s1 = pd.Series([.2, .0, .6, .2]) + >>> s2 = pd.Series([.3, .6, .0, .1]) + >>> s1.corr(s2, method=histogram_intersection) + 0.3 + + Pandas auto-aligns the values with matching indices + + >>> s1 = pd.Series([1, 2, 3], index=[0, 1, 2]) + >>> s2 = pd.Series([1, 2, 3], index=[2, 1, 0]) + >>> s1.corr(s2) + -1.0 + """ # noqa: E501 + this, other = self.align(other, join="inner", copy=False) + if len(this) == 0: + return np.nan + + this_values = this.to_numpy(dtype=float, na_value=np.nan, copy=False) + other_values = other.to_numpy(dtype=float, na_value=np.nan, copy=False) + + if method in ["pearson", "spearman", "kendall"] or callable(method): + return nanops.nancorr( + this_values, other_values, method=method, min_periods=min_periods + ) + + raise ValueError( + "method must be either 'pearson', " + "'spearman', 'kendall', or a callable, " + f"'{method}' was supplied" + ) + + def cov( + self, + other: Series, + min_periods: int | None = None, + ddof: int | None = 1, + ) -> float: + """ + Compute covariance with Series, excluding missing values. + + The two `Series` objects are not required to be the same length and + will be aligned internally before the covariance is calculated. + + Parameters + ---------- + other : Series + Series with which to compute the covariance. + min_periods : int, optional + Minimum number of observations needed to have a valid result. + ddof : int, default 1 + Delta degrees of freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + + Returns + ------- + float + Covariance between Series and other normalized by N-1 + (unbiased estimator). + + See Also + -------- + DataFrame.cov : Compute pairwise covariance of columns. + + Examples + -------- + >>> s1 = pd.Series([0.90010907, 0.13484424, 0.62036035]) + >>> s2 = pd.Series([0.12528585, 0.26962463, 0.51111198]) + >>> s1.cov(s2) + -0.01685762652715874 + """ + this, other = self.align(other, join="inner", copy=False) + if len(this) == 0: + return np.nan + this_values = this.to_numpy(dtype=float, na_value=np.nan, copy=False) + other_values = other.to_numpy(dtype=float, na_value=np.nan, copy=False) + return nanops.nancov( + this_values, other_values, min_periods=min_periods, ddof=ddof + ) + + @doc( + klass="Series", + extra_params="", + other_klass="DataFrame", + examples=dedent( + """ + Difference with previous row + + >>> s = pd.Series([1, 1, 2, 3, 5, 8]) + >>> s.diff() + 0 NaN + 1 0.0 + 2 1.0 + 3 1.0 + 4 2.0 + 5 3.0 + dtype: float64 + + Difference with 3rd previous row + + >>> s.diff(periods=3) + 0 NaN + 1 NaN + 2 NaN + 3 2.0 + 4 4.0 + 5 6.0 + dtype: float64 + + Difference with following row + + >>> s.diff(periods=-1) + 0 0.0 + 1 -1.0 + 2 -1.0 + 3 -2.0 + 4 -3.0 + 5 NaN + dtype: float64 + + Overflow in input dtype + + >>> s = pd.Series([1, 0], dtype=np.uint8) + >>> s.diff() + 0 NaN + 1 255.0 + dtype: float64""" + ), + ) + def diff(self, periods: int = 1) -> Series: + """ + First discrete difference of element. + + Calculates the difference of a {klass} element compared with another + element in the {klass} (default is element in previous row). + + Parameters + ---------- + periods : int, default 1 + Periods to shift for calculating difference, accepts negative + values. + {extra_params} + Returns + ------- + {klass} + First differences of the Series. + + See Also + -------- + {klass}.pct_change: Percent change over given number of periods. + {klass}.shift: Shift index by desired number of periods with an + optional time freq. + {other_klass}.diff: First discrete difference of object. + + Notes + ----- + For boolean dtypes, this uses :meth:`operator.xor` rather than + :meth:`operator.sub`. + The result is calculated according to current dtype in {klass}, + however dtype of the result is always float64. + + Examples + -------- + {examples} + """ + result = algorithms.diff(self._values, periods) + return self._constructor(result, index=self.index, copy=False).__finalize__( + self, method="diff" + ) + + def autocorr(self, lag: int = 1) -> float: + """ + Compute the lag-N autocorrelation. + + This method computes the Pearson correlation between + the Series and its shifted self. + + Parameters + ---------- + lag : int, default 1 + Number of lags to apply before performing autocorrelation. + + Returns + ------- + float + The Pearson correlation between self and self.shift(lag). + + See Also + -------- + Series.corr : Compute the correlation between two Series. + Series.shift : Shift index by desired number of periods. + DataFrame.corr : Compute pairwise correlation of columns. + DataFrame.corrwith : Compute pairwise correlation between rows or + columns of two DataFrame objects. + + Notes + ----- + If the Pearson correlation is not well defined return 'NaN'. + + Examples + -------- + >>> s = pd.Series([0.25, 0.5, 0.2, -0.05]) + >>> s.autocorr() # doctest: +ELLIPSIS + 0.10355... + >>> s.autocorr(lag=2) # doctest: +ELLIPSIS + -0.99999... + + If the Pearson correlation is not well defined, then 'NaN' is returned. + + >>> s = pd.Series([1, 0, 0, 0]) + >>> s.autocorr() + nan + """ + return self.corr(cast(Series, self.shift(lag))) + + def dot(self, other: AnyArrayLike) -> Series | np.ndarray: + """ + Compute the dot product between the Series and the columns of other. + + This method computes the dot product between the Series and another + one, or the Series and each columns of a DataFrame, or the Series and + each columns of an array. + + It can also be called using `self @ other`. + + Parameters + ---------- + other : Series, DataFrame or array-like + The other object to compute the dot product with its columns. + + Returns + ------- + scalar, Series or numpy.ndarray + Return the dot product of the Series and other if other is a + Series, the Series of the dot product of Series and each rows of + other if other is a DataFrame or a numpy.ndarray between the Series + and each columns of the numpy array. + + See Also + -------- + DataFrame.dot: Compute the matrix product with the DataFrame. + Series.mul: Multiplication of series and other, element-wise. + + Notes + ----- + The Series and other has to share the same index if other is a Series + or a DataFrame. + + Examples + -------- + >>> s = pd.Series([0, 1, 2, 3]) + >>> other = pd.Series([-1, 2, -3, 4]) + >>> s.dot(other) + 8 + >>> s @ other + 8 + >>> df = pd.DataFrame([[0, 1], [-2, 3], [4, -5], [6, 7]]) + >>> s.dot(df) + 0 24 + 1 14 + dtype: int64 + >>> arr = np.array([[0, 1], [-2, 3], [4, -5], [6, 7]]) + >>> s.dot(arr) + array([24, 14]) + """ + if isinstance(other, (Series, ABCDataFrame)): + common = self.index.union(other.index) + if len(common) > len(self.index) or len(common) > len(other.index): + raise ValueError("matrices are not aligned") + + left = self.reindex(index=common, copy=False) + right = other.reindex(index=common, copy=False) + lvals = left.values + rvals = right.values + else: + lvals = self.values + rvals = np.asarray(other) + if lvals.shape[0] != rvals.shape[0]: + raise Exception( + f"Dot product shape mismatch, {lvals.shape} vs {rvals.shape}" + ) + + if isinstance(other, ABCDataFrame): + return self._constructor( + np.dot(lvals, rvals), index=other.columns, copy=False + ).__finalize__(self, method="dot") + elif isinstance(other, Series): + return np.dot(lvals, rvals) + elif isinstance(rvals, np.ndarray): + return np.dot(lvals, rvals) + else: # pragma: no cover + raise TypeError(f"unsupported type: {type(other)}") + + def __matmul__(self, other): + """ + Matrix multiplication using binary `@` operator. + """ + return self.dot(other) + + def __rmatmul__(self, other): + """ + Matrix multiplication using binary `@` operator. + """ + return self.dot(np.transpose(other)) + + @doc(base.IndexOpsMixin.searchsorted, klass="Series") + # Signature of "searchsorted" incompatible with supertype "IndexOpsMixin" + def searchsorted( # type: ignore[override] + self, + value: NumpyValueArrayLike | ExtensionArray, + side: Literal["left", "right"] = "left", + sorter: NumpySorter | None = None, + ) -> npt.NDArray[np.intp] | np.intp: + return base.IndexOpsMixin.searchsorted(self, value, side=side, sorter=sorter) + + # ------------------------------------------------------------------- + # Combination + + def _append( + self, to_append, ignore_index: bool = False, verify_integrity: bool = False + ): + from pandas.core.reshape.concat import concat + + if isinstance(to_append, (list, tuple)): + to_concat = [self] + to_concat.extend(to_append) + else: + to_concat = [self, to_append] + if any(isinstance(x, (ABCDataFrame,)) for x in to_concat[1:]): + msg = "to_append should be a Series or list/tuple of Series, got DataFrame" + raise TypeError(msg) + return concat( + to_concat, ignore_index=ignore_index, verify_integrity=verify_integrity + ) + + @doc( + _shared_docs["compare"], + dedent( + """ + Returns + ------- + Series or DataFrame + If axis is 0 or 'index' the result will be a Series. + The resulting index will be a MultiIndex with 'self' and 'other' + stacked alternately at the inner level. + + If axis is 1 or 'columns' the result will be a DataFrame. + It will have two columns namely 'self' and 'other'. + + See Also + -------- + DataFrame.compare : Compare with another DataFrame and show differences. + + Notes + ----- + Matching NaNs will not appear as a difference. + + Examples + -------- + >>> s1 = pd.Series(["a", "b", "c", "d", "e"]) + >>> s2 = pd.Series(["a", "a", "c", "b", "e"]) + + Align the differences on columns + + >>> s1.compare(s2) + self other + 1 b a + 3 d b + + Stack the differences on indices + + >>> s1.compare(s2, align_axis=0) + 1 self b + other a + 3 self d + other b + dtype: object + + Keep all original rows + + >>> s1.compare(s2, keep_shape=True) + self other + 0 NaN NaN + 1 b a + 2 NaN NaN + 3 d b + 4 NaN NaN + + Keep all original rows and also all original values + + >>> s1.compare(s2, keep_shape=True, keep_equal=True) + self other + 0 a a + 1 b a + 2 c c + 3 d b + 4 e e + """ + ), + klass=_shared_doc_kwargs["klass"], + ) + def compare( + self, + other: Series, + align_axis: Axis = 1, + keep_shape: bool = False, + keep_equal: bool = False, + result_names: Suffixes = ("self", "other"), + ) -> DataFrame | Series: + return super().compare( + other=other, + align_axis=align_axis, + keep_shape=keep_shape, + keep_equal=keep_equal, + result_names=result_names, + ) + + def combine( + self, + other: Series | Hashable, + func: Callable[[Hashable, Hashable], Hashable], + fill_value: Hashable | None = None, + ) -> Series: + """ + Combine the Series with a Series or scalar according to `func`. + + Combine the Series and `other` using `func` to perform elementwise + selection for combined Series. + `fill_value` is assumed when value is missing at some index + from one of the two objects being combined. + + Parameters + ---------- + other : Series or scalar + The value(s) to be combined with the `Series`. + func : function + Function that takes two scalars as inputs and returns an element. + fill_value : scalar, optional + The value to assume when an index is missing from + one Series or the other. The default specifies to use the + appropriate NaN value for the underlying dtype of the Series. + + Returns + ------- + Series + The result of combining the Series with the other object. + + See Also + -------- + Series.combine_first : Combine Series values, choosing the calling + Series' values first. + + Examples + -------- + Consider 2 Datasets ``s1`` and ``s2`` containing + highest clocked speeds of different birds. + + >>> s1 = pd.Series({'falcon': 330.0, 'eagle': 160.0}) + >>> s1 + falcon 330.0 + eagle 160.0 + dtype: float64 + >>> s2 = pd.Series({'falcon': 345.0, 'eagle': 200.0, 'duck': 30.0}) + >>> s2 + falcon 345.0 + eagle 200.0 + duck 30.0 + dtype: float64 + + Now, to combine the two datasets and view the highest speeds + of the birds across the two datasets + + >>> s1.combine(s2, max) + duck NaN + eagle 200.0 + falcon 345.0 + dtype: float64 + + In the previous example, the resulting value for duck is missing, + because the maximum of a NaN and a float is a NaN. + So, in the example, we set ``fill_value=0``, + so the maximum value returned will be the value from some dataset. + + >>> s1.combine(s2, max, fill_value=0) + duck 30.0 + eagle 200.0 + falcon 345.0 + dtype: float64 + """ + if fill_value is None: + fill_value = na_value_for_dtype(self.dtype, compat=False) + + if isinstance(other, Series): + # If other is a Series, result is based on union of Series, + # so do this element by element + new_index = self.index.union(other.index) + new_name = ops.get_op_result_name(self, other) + new_values = np.empty(len(new_index), dtype=object) + with np.errstate(all="ignore"): + for i, idx in enumerate(new_index): + lv = self.get(idx, fill_value) + rv = other.get(idx, fill_value) + new_values[i] = func(lv, rv) + else: + # Assume that other is a scalar, so apply the function for + # each element in the Series + new_index = self.index + new_values = np.empty(len(new_index), dtype=object) + with np.errstate(all="ignore"): + new_values[:] = [func(lv, other) for lv in self._values] + new_name = self.name + + # try_float=False is to match agg_series + npvalues = lib.maybe_convert_objects(new_values, try_float=False) + # same_dtype here is a kludge to avoid casting e.g. [True, False] to + # ["True", "False"] + same_dtype = isinstance(self.dtype, (StringDtype, CategoricalDtype)) + res_values = maybe_cast_pointwise_result( + npvalues, self.dtype, same_dtype=same_dtype + ) + return self._constructor(res_values, index=new_index, name=new_name, copy=False) + + def combine_first(self, other) -> Series: + """ + Update null elements with value in the same location in 'other'. + + Combine two Series objects by filling null values in one Series with + non-null values from the other Series. Result index will be the union + of the two indexes. + + Parameters + ---------- + other : Series + The value(s) to be used for filling null values. + + Returns + ------- + Series + The result of combining the provided Series with the other object. + + See Also + -------- + Series.combine : Perform element-wise operation on two Series + using a given function. + + Examples + -------- + >>> s1 = pd.Series([1, np.nan]) + >>> s2 = pd.Series([3, 4, 5]) + >>> s1.combine_first(s2) + 0 1.0 + 1 4.0 + 2 5.0 + dtype: float64 + + Null values still persist if the location of that null value + does not exist in `other` + + >>> s1 = pd.Series({'falcon': np.nan, 'eagle': 160.0}) + >>> s2 = pd.Series({'eagle': 200.0, 'duck': 30.0}) + >>> s1.combine_first(s2) + duck 30.0 + eagle 160.0 + falcon NaN + dtype: float64 + """ + from pandas.core.reshape.concat import concat + + if self.dtype == other.dtype: + if self.index.equals(other.index): + return self.mask(self.isna(), other) + elif self._can_hold_na and not isinstance(self.dtype, SparseDtype): + this, other = self.align(other, join="outer") + return this.mask(this.isna(), other) + + new_index = self.index.union(other.index) + + this = self + # identify the index subset to keep for each series + keep_other = other.index.difference(this.index[notna(this)]) + keep_this = this.index.difference(keep_other) + + this = this.reindex(keep_this, copy=False) + other = other.reindex(keep_other, copy=False) + + if this.dtype.kind == "M" and other.dtype.kind != "M": + other = to_datetime(other) + combined = concat([this, other]) + combined = combined.reindex(new_index, copy=False) + return combined.__finalize__(self, method="combine_first") + + def update(self, other: Series | Sequence | Mapping) -> None: + """ + Modify Series in place using values from passed Series. + + Uses non-NA values from passed Series to make updates. Aligns + on index. + + Parameters + ---------- + other : Series, or object coercible into Series + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s.update(pd.Series([4, 5, 6])) + >>> s + 0 4 + 1 5 + 2 6 + dtype: int64 + + >>> s = pd.Series(['a', 'b', 'c']) + >>> s.update(pd.Series(['d', 'e'], index=[0, 2])) + >>> s + 0 d + 1 b + 2 e + dtype: object + + >>> s = pd.Series([1, 2, 3]) + >>> s.update(pd.Series([4, 5, 6, 7, 8])) + >>> s + 0 4 + 1 5 + 2 6 + dtype: int64 + + If ``other`` contains NaNs the corresponding values are not updated + in the original Series. + + >>> s = pd.Series([1, 2, 3]) + >>> s.update(pd.Series([4, np.nan, 6])) + >>> s + 0 4 + 1 2 + 2 6 + dtype: int64 + + ``other`` can also be a non-Series object type + that is coercible into a Series + + >>> s = pd.Series([1, 2, 3]) + >>> s.update([4, np.nan, 6]) + >>> s + 0 4 + 1 2 + 2 6 + dtype: int64 + + >>> s = pd.Series([1, 2, 3]) + >>> s.update({1: 9}) + >>> s + 0 1 + 1 9 + 2 3 + dtype: int64 + """ + if not PYPY and using_copy_on_write(): + if sys.getrefcount(self) <= REF_COUNT: + warnings.warn( + _chained_assignment_method_msg, + ChainedAssignmentError, + stacklevel=2, + ) + elif not PYPY and not using_copy_on_write() and self._is_view_after_cow_rules(): + ctr = sys.getrefcount(self) + ref_count = REF_COUNT + if _check_cacher(self): + # see https://github.com/pandas-dev/pandas/pull/56060#discussion_r1399245221 + ref_count += 1 + if ctr <= ref_count: + warnings.warn( + _chained_assignment_warning_method_msg, + FutureWarning, + stacklevel=2, + ) + + if not isinstance(other, Series): + other = Series(other) + + other = other.reindex_like(self) + mask = notna(other) + + self._mgr = self._mgr.putmask(mask=mask, new=other) + self._maybe_update_cacher() + + # ---------------------------------------------------------------------- + # Reindexing, sorting + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool = ..., + key: ValueKeyFunc = ..., + ) -> Series: + ... + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool = ..., + key: ValueKeyFunc = ..., + ) -> None: + ... + + @overload + def sort_values( + self, + *, + axis: Axis = ..., + ascending: bool | Sequence[bool] = ..., + inplace: bool = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + ignore_index: bool = ..., + key: ValueKeyFunc = ..., + ) -> Series | None: + ... + + def sort_values( + self, + *, + axis: Axis = 0, + ascending: bool | Sequence[bool] = True, + inplace: bool = False, + kind: SortKind = "quicksort", + na_position: NaPosition = "last", + ignore_index: bool = False, + key: ValueKeyFunc | None = None, + ) -> Series | None: + """ + Sort by the values. + + Sort a Series in ascending or descending order by some + criterion. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + ascending : bool or list of bools, default True + If True, sort values in ascending order, otherwise descending. + inplace : bool, default False + If True, perform operation in-place. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See also :func:`numpy.sort` for more + information. 'mergesort' and 'stable' are the only stable algorithms. + na_position : {'first' or 'last'}, default 'last' + Argument 'first' puts NaNs at the beginning, 'last' puts NaNs at + the end. + ignore_index : bool, default False + If True, the resulting axis will be labeled 0, 1, …, n - 1. + key : callable, optional + If not None, apply the key function to the series values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect a + ``Series`` and return an array-like. + + Returns + ------- + Series or None + Series ordered by values or None if ``inplace=True``. + + See Also + -------- + Series.sort_index : Sort by the Series indices. + DataFrame.sort_values : Sort DataFrame by the values along either axis. + DataFrame.sort_index : Sort DataFrame by indices. + + Examples + -------- + >>> s = pd.Series([np.nan, 1, 3, 10, 5]) + >>> s + 0 NaN + 1 1.0 + 2 3.0 + 3 10.0 + 4 5.0 + dtype: float64 + + Sort values ascending order (default behaviour) + + >>> s.sort_values(ascending=True) + 1 1.0 + 2 3.0 + 4 5.0 + 3 10.0 + 0 NaN + dtype: float64 + + Sort values descending order + + >>> s.sort_values(ascending=False) + 3 10.0 + 4 5.0 + 2 3.0 + 1 1.0 + 0 NaN + dtype: float64 + + Sort values putting NAs first + + >>> s.sort_values(na_position='first') + 0 NaN + 1 1.0 + 2 3.0 + 4 5.0 + 3 10.0 + dtype: float64 + + Sort a series of strings + + >>> s = pd.Series(['z', 'b', 'd', 'a', 'c']) + >>> s + 0 z + 1 b + 2 d + 3 a + 4 c + dtype: object + + >>> s.sort_values() + 3 a + 1 b + 4 c + 2 d + 0 z + dtype: object + + Sort using a key function. Your `key` function will be + given the ``Series`` of values and should return an array-like. + + >>> s = pd.Series(['a', 'B', 'c', 'D', 'e']) + >>> s.sort_values() + 1 B + 3 D + 0 a + 2 c + 4 e + dtype: object + >>> s.sort_values(key=lambda x: x.str.lower()) + 0 a + 1 B + 2 c + 3 D + 4 e + dtype: object + + NumPy ufuncs work well here. For example, we can + sort by the ``sin`` of the value + + >>> s = pd.Series([-4, -2, 0, 2, 4]) + >>> s.sort_values(key=np.sin) + 1 -2 + 4 4 + 2 0 + 0 -4 + 3 2 + dtype: int64 + + More complicated user-defined functions can be used, + as long as they expect a Series and return an array-like + + >>> s.sort_values(key=lambda x: (np.tan(x.cumsum()))) + 0 -4 + 3 2 + 4 4 + 1 -2 + 2 0 + dtype: int64 + """ + inplace = validate_bool_kwarg(inplace, "inplace") + # Validate the axis parameter + self._get_axis_number(axis) + + # GH 5856/5853 + if inplace and self._is_cached: + raise ValueError( + "This Series is a view of some other array, to " + "sort in-place you must create a copy" + ) + + if is_list_like(ascending): + ascending = cast(Sequence[bool], ascending) + if len(ascending) != 1: + raise ValueError( + f"Length of ascending ({len(ascending)}) must be 1 for Series" + ) + ascending = ascending[0] + + ascending = validate_ascending(ascending) + + if na_position not in ["first", "last"]: + raise ValueError(f"invalid na_position: {na_position}") + + # GH 35922. Make sorting stable by leveraging nargsort + if key: + values_to_sort = cast(Series, ensure_key_mapped(self, key))._values + else: + values_to_sort = self._values + sorted_index = nargsort(values_to_sort, kind, bool(ascending), na_position) + + if is_range_indexer(sorted_index, len(sorted_index)): + if inplace: + return self._update_inplace(self) + return self.copy(deep=None) + + result = self._constructor( + self._values[sorted_index], index=self.index[sorted_index], copy=False + ) + + if ignore_index: + result.index = default_index(len(sorted_index)) + + if not inplace: + return result.__finalize__(self, method="sort_values") + self._update_inplace(result) + return None + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[True], + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> None: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: Literal[False] = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> Series: + ... + + @overload + def sort_index( + self, + *, + axis: Axis = ..., + level: IndexLabel = ..., + ascending: bool | Sequence[bool] = ..., + inplace: bool = ..., + kind: SortKind = ..., + na_position: NaPosition = ..., + sort_remaining: bool = ..., + ignore_index: bool = ..., + key: IndexKeyFunc = ..., + ) -> Series | None: + ... + + def sort_index( + self, + *, + axis: Axis = 0, + level: IndexLabel | None = None, + ascending: bool | Sequence[bool] = True, + inplace: bool = False, + kind: SortKind = "quicksort", + na_position: NaPosition = "last", + sort_remaining: bool = True, + ignore_index: bool = False, + key: IndexKeyFunc | None = None, + ) -> Series | None: + """ + Sort Series by index labels. + + Returns a new Series sorted by label if `inplace` argument is + ``False``, otherwise updates the original series and returns None. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + level : int, optional + If not None, sort on values in specified index level(s). + ascending : bool or list-like of bools, default True + Sort ascending vs. descending. When the index is a MultiIndex the + sort direction can be controlled for each level individually. + inplace : bool, default False + If True, perform operation in-place. + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See also :func:`numpy.sort` for more + information. 'mergesort' and 'stable' are the only stable algorithms. For + DataFrames, this option is only applied when sorting on a single + column or label. + na_position : {'first', 'last'}, default 'last' + If 'first' puts NaNs at the beginning, 'last' puts NaNs at the end. + Not implemented for MultiIndex. + sort_remaining : bool, default True + If True and sorting by level and index is multilevel, sort by other + levels too (in order) after sorting by specified level. + ignore_index : bool, default False + If True, the resulting axis will be labeled 0, 1, …, n - 1. + key : callable, optional + If not None, apply the key function to the index values + before sorting. This is similar to the `key` argument in the + builtin :meth:`sorted` function, with the notable difference that + this `key` function should be *vectorized*. It should expect an + ``Index`` and return an ``Index`` of the same shape. + + Returns + ------- + Series or None + The original Series sorted by the labels or None if ``inplace=True``. + + See Also + -------- + DataFrame.sort_index: Sort DataFrame by the index. + DataFrame.sort_values: Sort DataFrame by the value. + Series.sort_values : Sort Series by the value. + + Examples + -------- + >>> s = pd.Series(['a', 'b', 'c', 'd'], index=[3, 2, 1, 4]) + >>> s.sort_index() + 1 c + 2 b + 3 a + 4 d + dtype: object + + Sort Descending + + >>> s.sort_index(ascending=False) + 4 d + 3 a + 2 b + 1 c + dtype: object + + By default NaNs are put at the end, but use `na_position` to place + them at the beginning + + >>> s = pd.Series(['a', 'b', 'c', 'd'], index=[3, 2, 1, np.nan]) + >>> s.sort_index(na_position='first') + NaN d + 1.0 c + 2.0 b + 3.0 a + dtype: object + + Specify index level to sort + + >>> arrays = [np.array(['qux', 'qux', 'foo', 'foo', + ... 'baz', 'baz', 'bar', 'bar']), + ... np.array(['two', 'one', 'two', 'one', + ... 'two', 'one', 'two', 'one'])] + >>> s = pd.Series([1, 2, 3, 4, 5, 6, 7, 8], index=arrays) + >>> s.sort_index(level=1) + bar one 8 + baz one 6 + foo one 4 + qux one 2 + bar two 7 + baz two 5 + foo two 3 + qux two 1 + dtype: int64 + + Does not sort by remaining levels when sorting by levels + + >>> s.sort_index(level=1, sort_remaining=False) + qux one 2 + foo one 4 + baz one 6 + bar one 8 + qux two 1 + foo two 3 + baz two 5 + bar two 7 + dtype: int64 + + Apply a key function before sorting + + >>> s = pd.Series([1, 2, 3, 4], index=['A', 'b', 'C', 'd']) + >>> s.sort_index(key=lambda x : x.str.lower()) + A 1 + b 2 + C 3 + d 4 + dtype: int64 + """ + + return super().sort_index( + axis=axis, + level=level, + ascending=ascending, + inplace=inplace, + kind=kind, + na_position=na_position, + sort_remaining=sort_remaining, + ignore_index=ignore_index, + key=key, + ) + + def argsort( + self, + axis: Axis = 0, + kind: SortKind = "quicksort", + order: None = None, + stable: None = None, + ) -> Series: + """ + Return the integer indices that would sort the Series values. + + Override ndarray.argsort. Argsorts the value, omitting NA/null values, + and places the result in the same locations as the non-NA values. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + kind : {'mergesort', 'quicksort', 'heapsort', 'stable'}, default 'quicksort' + Choice of sorting algorithm. See :func:`numpy.sort` for more + information. 'mergesort' and 'stable' are the only stable algorithms. + order : None + Has no effect but is accepted for compatibility with numpy. + stable : None + Has no effect but is accepted for compatibility with numpy. + + Returns + ------- + Series[np.intp] + Positions of values within the sort order with -1 indicating + nan values. + + See Also + -------- + numpy.ndarray.argsort : Returns the indices that would sort this array. + + Examples + -------- + >>> s = pd.Series([3, 2, 1]) + >>> s.argsort() + 0 2 + 1 1 + 2 0 + dtype: int64 + """ + if axis != -1: + # GH#54257 We allow -1 here so that np.argsort(series) works + self._get_axis_number(axis) + + values = self._values + mask = isna(values) + + if mask.any(): + # TODO(3.0): once this deprecation is enforced we can call + # self.array.argsort directly, which will close GH#43840 and + # GH#12694 + warnings.warn( + "The behavior of Series.argsort in the presence of NA values is " + "deprecated. In a future version, NA values will be ordered " + "last instead of set to -1.", + FutureWarning, + stacklevel=find_stack_level(), + ) + result = np.full(len(self), -1, dtype=np.intp) + notmask = ~mask + result[notmask] = np.argsort(values[notmask], kind=kind) + else: + result = np.argsort(values, kind=kind) + + res = self._constructor( + result, index=self.index, name=self.name, dtype=np.intp, copy=False + ) + return res.__finalize__(self, method="argsort") + + def nlargest( + self, n: int = 5, keep: Literal["first", "last", "all"] = "first" + ) -> Series: + """ + Return the largest `n` elements. + + Parameters + ---------- + n : int, default 5 + Return this many descending sorted values. + keep : {'first', 'last', 'all'}, default 'first' + When there are duplicate values that cannot all fit in a + Series of `n` elements: + + - ``first`` : return the first `n` occurrences in order + of appearance. + - ``last`` : return the last `n` occurrences in reverse + order of appearance. + - ``all`` : keep all occurrences. This can result in a Series of + size larger than `n`. + + Returns + ------- + Series + The `n` largest values in the Series, sorted in decreasing order. + + See Also + -------- + Series.nsmallest: Get the `n` smallest elements. + Series.sort_values: Sort Series by values. + Series.head: Return the first `n` rows. + + Notes + ----- + Faster than ``.sort_values(ascending=False).head(n)`` for small `n` + relative to the size of the ``Series`` object. + + Examples + -------- + >>> countries_population = {"Italy": 59000000, "France": 65000000, + ... "Malta": 434000, "Maldives": 434000, + ... "Brunei": 434000, "Iceland": 337000, + ... "Nauru": 11300, "Tuvalu": 11300, + ... "Anguilla": 11300, "Montserrat": 5200} + >>> s = pd.Series(countries_population) + >>> s + Italy 59000000 + France 65000000 + Malta 434000 + Maldives 434000 + Brunei 434000 + Iceland 337000 + Nauru 11300 + Tuvalu 11300 + Anguilla 11300 + Montserrat 5200 + dtype: int64 + + The `n` largest elements where ``n=5`` by default. + + >>> s.nlargest() + France 65000000 + Italy 59000000 + Malta 434000 + Maldives 434000 + Brunei 434000 + dtype: int64 + + The `n` largest elements where ``n=3``. Default `keep` value is 'first' + so Malta will be kept. + + >>> s.nlargest(3) + France 65000000 + Italy 59000000 + Malta 434000 + dtype: int64 + + The `n` largest elements where ``n=3`` and keeping the last duplicates. + Brunei will be kept since it is the last with value 434000 based on + the index order. + + >>> s.nlargest(3, keep='last') + France 65000000 + Italy 59000000 + Brunei 434000 + dtype: int64 + + The `n` largest elements where ``n=3`` with all duplicates kept. Note + that the returned Series has five elements due to the three duplicates. + + >>> s.nlargest(3, keep='all') + France 65000000 + Italy 59000000 + Malta 434000 + Maldives 434000 + Brunei 434000 + dtype: int64 + """ + return selectn.SelectNSeries(self, n=n, keep=keep).nlargest() + + def nsmallest( + self, n: int = 5, keep: Literal["first", "last", "all"] = "first" + ) -> Series: + """ + Return the smallest `n` elements. + + Parameters + ---------- + n : int, default 5 + Return this many ascending sorted values. + keep : {'first', 'last', 'all'}, default 'first' + When there are duplicate values that cannot all fit in a + Series of `n` elements: + + - ``first`` : return the first `n` occurrences in order + of appearance. + - ``last`` : return the last `n` occurrences in reverse + order of appearance. + - ``all`` : keep all occurrences. This can result in a Series of + size larger than `n`. + + Returns + ------- + Series + The `n` smallest values in the Series, sorted in increasing order. + + See Also + -------- + Series.nlargest: Get the `n` largest elements. + Series.sort_values: Sort Series by values. + Series.head: Return the first `n` rows. + + Notes + ----- + Faster than ``.sort_values().head(n)`` for small `n` relative to + the size of the ``Series`` object. + + Examples + -------- + >>> countries_population = {"Italy": 59000000, "France": 65000000, + ... "Brunei": 434000, "Malta": 434000, + ... "Maldives": 434000, "Iceland": 337000, + ... "Nauru": 11300, "Tuvalu": 11300, + ... "Anguilla": 11300, "Montserrat": 5200} + >>> s = pd.Series(countries_population) + >>> s + Italy 59000000 + France 65000000 + Brunei 434000 + Malta 434000 + Maldives 434000 + Iceland 337000 + Nauru 11300 + Tuvalu 11300 + Anguilla 11300 + Montserrat 5200 + dtype: int64 + + The `n` smallest elements where ``n=5`` by default. + + >>> s.nsmallest() + Montserrat 5200 + Nauru 11300 + Tuvalu 11300 + Anguilla 11300 + Iceland 337000 + dtype: int64 + + The `n` smallest elements where ``n=3``. Default `keep` value is + 'first' so Nauru and Tuvalu will be kept. + + >>> s.nsmallest(3) + Montserrat 5200 + Nauru 11300 + Tuvalu 11300 + dtype: int64 + + The `n` smallest elements where ``n=3`` and keeping the last + duplicates. Anguilla and Tuvalu will be kept since they are the last + with value 11300 based on the index order. + + >>> s.nsmallest(3, keep='last') + Montserrat 5200 + Anguilla 11300 + Tuvalu 11300 + dtype: int64 + + The `n` smallest elements where ``n=3`` with all duplicates kept. Note + that the returned Series has four elements due to the three duplicates. + + >>> s.nsmallest(3, keep='all') + Montserrat 5200 + Nauru 11300 + Tuvalu 11300 + Anguilla 11300 + dtype: int64 + """ + return selectn.SelectNSeries(self, n=n, keep=keep).nsmallest() + + @doc( + klass=_shared_doc_kwargs["klass"], + extra_params=dedent( + """copy : bool, default True + Whether to copy underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True``""" + ), + examples=dedent( + """\ + Examples + -------- + >>> s = pd.Series( + ... ["A", "B", "A", "C"], + ... index=[ + ... ["Final exam", "Final exam", "Coursework", "Coursework"], + ... ["History", "Geography", "History", "Geography"], + ... ["January", "February", "March", "April"], + ... ], + ... ) + >>> s + Final exam History January A + Geography February B + Coursework History March A + Geography April C + dtype: object + + In the following example, we will swap the levels of the indices. + Here, we will swap the levels column-wise, but levels can be swapped row-wise + in a similar manner. Note that column-wise is the default behaviour. + By not supplying any arguments for i and j, we swap the last and second to + last indices. + + >>> s.swaplevel() + Final exam January History A + February Geography B + Coursework March History A + April Geography C + dtype: object + + By supplying one argument, we can choose which index to swap the last + index with. We can for example swap the first index with the last one as + follows. + + >>> s.swaplevel(0) + January History Final exam A + February Geography Final exam B + March History Coursework A + April Geography Coursework C + dtype: object + + We can also define explicitly which indices we want to swap by supplying values + for both i and j. Here, we for example swap the first and second indices. + + >>> s.swaplevel(0, 1) + History Final exam January A + Geography Final exam February B + History Coursework March A + Geography Coursework April C + dtype: object""" + ), + ) + def swaplevel( + self, i: Level = -2, j: Level = -1, copy: bool | None = None + ) -> Series: + """ + Swap levels i and j in a :class:`MultiIndex`. + + Default is to swap the two innermost levels of the index. + + Parameters + ---------- + i, j : int or str + Levels of the indices to be swapped. Can pass level name as string. + {extra_params} + + Returns + ------- + {klass} + {klass} with levels swapped in MultiIndex. + + {examples} + """ + assert isinstance(self.index, MultiIndex) + result = self.copy(deep=copy and not using_copy_on_write()) + result.index = self.index.swaplevel(i, j) + return result + + def reorder_levels(self, order: Sequence[Level]) -> Series: + """ + Rearrange index levels using input order. + + May not drop or duplicate levels. + + Parameters + ---------- + order : list of int representing new level order + Reference level by number or key. + + Returns + ------- + type of caller (new object) + + Examples + -------- + >>> arrays = [np.array(["dog", "dog", "cat", "cat", "bird", "bird"]), + ... np.array(["white", "black", "white", "black", "white", "black"])] + >>> s = pd.Series([1, 2, 3, 3, 5, 2], index=arrays) + >>> s + dog white 1 + black 2 + cat white 3 + black 3 + bird white 5 + black 2 + dtype: int64 + >>> s.reorder_levels([1, 0]) + white dog 1 + black dog 2 + white cat 3 + black cat 3 + white bird 5 + black bird 2 + dtype: int64 + """ + if not isinstance(self.index, MultiIndex): # pragma: no cover + raise Exception("Can only reorder levels on a hierarchical axis.") + + result = self.copy(deep=None) + assert isinstance(result.index, MultiIndex) + result.index = result.index.reorder_levels(order) + return result + + def explode(self, ignore_index: bool = False) -> Series: + """ + Transform each element of a list-like to a row. + + Parameters + ---------- + ignore_index : bool, default False + If True, the resulting index will be labeled 0, 1, …, n - 1. + + Returns + ------- + Series + Exploded lists to rows; index will be duplicated for these rows. + + See Also + -------- + Series.str.split : Split string values on specified separator. + Series.unstack : Unstack, a.k.a. pivot, Series with MultiIndex + to produce DataFrame. + DataFrame.melt : Unpivot a DataFrame from wide format to long format. + DataFrame.explode : Explode a DataFrame from list-like + columns to long format. + + Notes + ----- + This routine will explode list-likes including lists, tuples, sets, + Series, and np.ndarray. The result dtype of the subset rows will + be object. Scalars will be returned unchanged, and empty list-likes will + result in a np.nan for that row. In addition, the ordering of elements in + the output will be non-deterministic when exploding sets. + + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> s = pd.Series([[1, 2, 3], 'foo', [], [3, 4]]) + >>> s + 0 [1, 2, 3] + 1 foo + 2 [] + 3 [3, 4] + dtype: object + + >>> s.explode() + 0 1 + 0 2 + 0 3 + 1 foo + 2 NaN + 3 3 + 3 4 + dtype: object + """ + if isinstance(self.dtype, ExtensionDtype): + values, counts = self._values._explode() + elif len(self) and is_object_dtype(self.dtype): + values, counts = reshape.explode(np.asarray(self._values)) + else: + result = self.copy() + return result.reset_index(drop=True) if ignore_index else result + + if ignore_index: + index: Index = default_index(len(values)) + else: + index = self.index.repeat(counts) + + return self._constructor(values, index=index, name=self.name, copy=False) + + def unstack( + self, + level: IndexLabel = -1, + fill_value: Hashable | None = None, + sort: bool = True, + ) -> DataFrame: + """ + Unstack, also known as pivot, Series with MultiIndex to produce DataFrame. + + Parameters + ---------- + level : int, str, or list of these, default last level + Level(s) to unstack, can pass level name. + fill_value : scalar value, default None + Value to use when replacing NaN values. + sort : bool, default True + Sort the level(s) in the resulting MultiIndex columns. + + Returns + ------- + DataFrame + Unstacked Series. + + Notes + ----- + Reference :ref:`the user guide ` for more examples. + + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4], + ... index=pd.MultiIndex.from_product([['one', 'two'], + ... ['a', 'b']])) + >>> s + one a 1 + b 2 + two a 3 + b 4 + dtype: int64 + + >>> s.unstack(level=-1) + a b + one 1 2 + two 3 4 + + >>> s.unstack(level=0) + one two + a 1 3 + b 2 4 + """ + from pandas.core.reshape.reshape import unstack + + return unstack(self, level, fill_value, sort) + + # ---------------------------------------------------------------------- + # function application + + def map( + self, + arg: Callable | Mapping | Series, + na_action: Literal["ignore"] | None = None, + ) -> Series: + """ + Map values of Series according to an input mapping or function. + + Used for substituting each value in a Series with another value, + that may be derived from a function, a ``dict`` or + a :class:`Series`. + + Parameters + ---------- + arg : function, collections.abc.Mapping subclass or Series + Mapping correspondence. + na_action : {None, 'ignore'}, default None + If 'ignore', propagate NaN values, without passing them to the + mapping correspondence. + + Returns + ------- + Series + Same index as caller. + + See Also + -------- + Series.apply : For applying more complex functions on a Series. + Series.replace: Replace values given in `to_replace` with `value`. + DataFrame.apply : Apply a function row-/column-wise. + DataFrame.map : Apply a function elementwise on a whole DataFrame. + + Notes + ----- + When ``arg`` is a dictionary, values in Series that are not in the + dictionary (as keys) are converted to ``NaN``. However, if the + dictionary is a ``dict`` subclass that defines ``__missing__`` (i.e. + provides a method for default values), then this default is used + rather than ``NaN``. + + Examples + -------- + >>> s = pd.Series(['cat', 'dog', np.nan, 'rabbit']) + >>> s + 0 cat + 1 dog + 2 NaN + 3 rabbit + dtype: object + + ``map`` accepts a ``dict`` or a ``Series``. Values that are not found + in the ``dict`` are converted to ``NaN``, unless the dict has a default + value (e.g. ``defaultdict``): + + >>> s.map({'cat': 'kitten', 'dog': 'puppy'}) + 0 kitten + 1 puppy + 2 NaN + 3 NaN + dtype: object + + It also accepts a function: + + >>> s.map('I am a {}'.format) + 0 I am a cat + 1 I am a dog + 2 I am a nan + 3 I am a rabbit + dtype: object + + To avoid applying the function to missing values (and keep them as + ``NaN``) ``na_action='ignore'`` can be used: + + >>> s.map('I am a {}'.format, na_action='ignore') + 0 I am a cat + 1 I am a dog + 2 NaN + 3 I am a rabbit + dtype: object + """ + new_values = self._map_values(arg, na_action=na_action) + return self._constructor(new_values, index=self.index, copy=False).__finalize__( + self, method="map" + ) + + def _gotitem(self, key, ndim, subset=None) -> Self: + """ + Sub-classes to define. Return a sliced object. + + Parameters + ---------- + key : string / list of selections + ndim : {1, 2} + Requested ndim of result. + subset : object, default None + Subset to act on. + """ + return self + + _agg_see_also_doc = dedent( + """ + See Also + -------- + Series.apply : Invoke function on a Series. + Series.transform : Transform function producing a Series with like indexes. + """ + ) + + _agg_examples_doc = dedent( + """ + Examples + -------- + >>> s = pd.Series([1, 2, 3, 4]) + >>> s + 0 1 + 1 2 + 2 3 + 3 4 + dtype: int64 + + >>> s.agg('min') + 1 + + >>> s.agg(['min', 'max']) + min 1 + max 4 + dtype: int64 + """ + ) + + @doc( + _shared_docs["aggregate"], + klass=_shared_doc_kwargs["klass"], + axis=_shared_doc_kwargs["axis"], + see_also=_agg_see_also_doc, + examples=_agg_examples_doc, + ) + def aggregate(self, func=None, axis: Axis = 0, *args, **kwargs): + # Validate the axis parameter + self._get_axis_number(axis) + + # if func is None, will switch to user-provided "named aggregation" kwargs + if func is None: + func = dict(kwargs.items()) + + op = SeriesApply(self, func, args=args, kwargs=kwargs) + result = op.agg() + return result + + agg = aggregate + + @doc( + _shared_docs["transform"], + klass=_shared_doc_kwargs["klass"], + axis=_shared_doc_kwargs["axis"], + ) + def transform( + self, func: AggFuncType, axis: Axis = 0, *args, **kwargs + ) -> DataFrame | Series: + # Validate axis argument + self._get_axis_number(axis) + ser = ( + self.copy(deep=False) + if using_copy_on_write() or warn_copy_on_write() + else self + ) + result = SeriesApply(ser, func=func, args=args, kwargs=kwargs).transform() + return result + + def apply( + self, + func: AggFuncType, + convert_dtype: bool | lib.NoDefault = lib.no_default, + args: tuple[Any, ...] = (), + *, + by_row: Literal[False, "compat"] = "compat", + **kwargs, + ) -> DataFrame | Series: + """ + Invoke function on values of Series. + + Can be ufunc (a NumPy function that applies to the entire Series) + or a Python function that only works on single values. + + Parameters + ---------- + func : function + Python function or NumPy ufunc to apply. + convert_dtype : bool, default True + Try to find better dtype for elementwise function results. If + False, leave as dtype=object. Note that the dtype is always + preserved for some extension array dtypes, such as Categorical. + + .. deprecated:: 2.1.0 + ``convert_dtype`` has been deprecated. Do ``ser.astype(object).apply()`` + instead if you want ``convert_dtype=False``. + args : tuple + Positional arguments passed to func after the series value. + by_row : False or "compat", default "compat" + If ``"compat"`` and func is a callable, func will be passed each element of + the Series, like ``Series.map``. If func is a list or dict of + callables, will first try to translate each func into pandas methods. If + that doesn't work, will try call to apply again with ``by_row="compat"`` + and if that fails, will call apply again with ``by_row=False`` + (backward compatible). + If False, the func will be passed the whole Series at once. + + ``by_row`` has no effect when ``func`` is a string. + + .. versionadded:: 2.1.0 + **kwargs + Additional keyword arguments passed to func. + + Returns + ------- + Series or DataFrame + If func returns a Series object the result will be a DataFrame. + + See Also + -------- + Series.map: For element-wise operations. + Series.agg: Only perform aggregating type operations. + Series.transform: Only perform transforming type operations. + + Notes + ----- + Functions that mutate the passed object can produce unexpected + behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` + for more details. + + Examples + -------- + Create a series with typical summer temperatures for each city. + + >>> s = pd.Series([20, 21, 12], + ... index=['London', 'New York', 'Helsinki']) + >>> s + London 20 + New York 21 + Helsinki 12 + dtype: int64 + + Square the values by defining a function and passing it as an + argument to ``apply()``. + + >>> def square(x): + ... return x ** 2 + >>> s.apply(square) + London 400 + New York 441 + Helsinki 144 + dtype: int64 + + Square the values by passing an anonymous function as an + argument to ``apply()``. + + >>> s.apply(lambda x: x ** 2) + London 400 + New York 441 + Helsinki 144 + dtype: int64 + + Define a custom function that needs additional positional + arguments and pass these additional arguments using the + ``args`` keyword. + + >>> def subtract_custom_value(x, custom_value): + ... return x - custom_value + + >>> s.apply(subtract_custom_value, args=(5,)) + London 15 + New York 16 + Helsinki 7 + dtype: int64 + + Define a custom function that takes keyword arguments + and pass these arguments to ``apply``. + + >>> def add_custom_values(x, **kwargs): + ... for month in kwargs: + ... x += kwargs[month] + ... return x + + >>> s.apply(add_custom_values, june=30, july=20, august=25) + London 95 + New York 96 + Helsinki 87 + dtype: int64 + + Use a function from the Numpy library. + + >>> s.apply(np.log) + London 2.995732 + New York 3.044522 + Helsinki 2.484907 + dtype: float64 + """ + return SeriesApply( + self, + func, + convert_dtype=convert_dtype, + by_row=by_row, + args=args, + kwargs=kwargs, + ).apply() + + def _reindex_indexer( + self, + new_index: Index | None, + indexer: npt.NDArray[np.intp] | None, + copy: bool | None, + ) -> Series: + # Note: new_index is None iff indexer is None + # if not None, indexer is np.intp + if indexer is None and ( + new_index is None or new_index.names == self.index.names + ): + if using_copy_on_write(): + return self.copy(deep=copy) + if copy or copy is None: + return self.copy(deep=copy) + return self + + new_values = algorithms.take_nd( + self._values, indexer, allow_fill=True, fill_value=None + ) + return self._constructor(new_values, index=new_index, copy=False) + + def _needs_reindex_multi(self, axes, method, level) -> bool: + """ + Check if we do need a multi reindex; this is for compat with + higher dims. + """ + return False + + @overload + def rename( + self, + index: Renamer | Hashable | None = ..., + *, + axis: Axis | None = ..., + copy: bool = ..., + inplace: Literal[True], + level: Level | None = ..., + errors: IgnoreRaise = ..., + ) -> None: + ... + + @overload + def rename( + self, + index: Renamer | Hashable | None = ..., + *, + axis: Axis | None = ..., + copy: bool = ..., + inplace: Literal[False] = ..., + level: Level | None = ..., + errors: IgnoreRaise = ..., + ) -> Series: + ... + + @overload + def rename( + self, + index: Renamer | Hashable | None = ..., + *, + axis: Axis | None = ..., + copy: bool = ..., + inplace: bool = ..., + level: Level | None = ..., + errors: IgnoreRaise = ..., + ) -> Series | None: + ... + + def rename( + self, + index: Renamer | Hashable | None = None, + *, + axis: Axis | None = None, + copy: bool | None = None, + inplace: bool = False, + level: Level | None = None, + errors: IgnoreRaise = "ignore", + ) -> Series | None: + """ + Alter Series index labels or name. + + Function / dict values must be unique (1-to-1). Labels not contained in + a dict / Series will be left as-is. Extra labels listed don't throw an + error. + + Alternatively, change ``Series.name`` with a scalar value. + + See the :ref:`user guide ` for more. + + Parameters + ---------- + index : scalar, hashable sequence, dict-like or function optional + Functions or dict-like are transformations to apply to + the index. + Scalar or hashable sequence-like will alter the ``Series.name`` + attribute. + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + copy : bool, default True + Also copy underlying data. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + inplace : bool, default False + Whether to return a new Series. If True the value of copy is ignored. + level : int or level name, default None + In case of MultiIndex, only rename labels in the specified level. + errors : {'ignore', 'raise'}, default 'ignore' + If 'raise', raise `KeyError` when a `dict-like mapper` or + `index` contains labels that are not present in the index being transformed. + If 'ignore', existing keys will be renamed and extra keys will be ignored. + + Returns + ------- + Series or None + Series with index labels or name altered or None if ``inplace=True``. + + See Also + -------- + DataFrame.rename : Corresponding DataFrame method. + Series.rename_axis : Set the name of the axis. + + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s + 0 1 + 1 2 + 2 3 + dtype: int64 + >>> s.rename("my_name") # scalar, changes Series.name + 0 1 + 1 2 + 2 3 + Name: my_name, dtype: int64 + >>> s.rename(lambda x: x ** 2) # function, changes labels + 0 1 + 1 2 + 4 3 + dtype: int64 + >>> s.rename({1: 3, 2: 5}) # mapping, changes labels + 0 1 + 3 2 + 5 3 + dtype: int64 + """ + if axis is not None: + # Make sure we raise if an invalid 'axis' is passed. + axis = self._get_axis_number(axis) + + if callable(index) or is_dict_like(index): + # error: Argument 1 to "_rename" of "NDFrame" has incompatible + # type "Union[Union[Mapping[Any, Hashable], Callable[[Any], + # Hashable]], Hashable, None]"; expected "Union[Mapping[Any, + # Hashable], Callable[[Any], Hashable], None]" + return super()._rename( + index, # type: ignore[arg-type] + copy=copy, + inplace=inplace, + level=level, + errors=errors, + ) + else: + return self._set_name(index, inplace=inplace, deep=copy) + + @Appender( + """ + Examples + -------- + >>> s = pd.Series([1, 2, 3]) + >>> s + 0 1 + 1 2 + 2 3 + dtype: int64 + + >>> s.set_axis(['a', 'b', 'c'], axis=0) + a 1 + b 2 + c 3 + dtype: int64 + """ + ) + @Substitution( + klass=_shared_doc_kwargs["klass"], + axes_single_arg=_shared_doc_kwargs["axes_single_arg"], + extended_summary_sub="", + axis_description_sub="", + see_also_sub="", + ) + @Appender(NDFrame.set_axis.__doc__) + def set_axis( + self, + labels, + *, + axis: Axis = 0, + copy: bool | None = None, + ) -> Series: + return super().set_axis(labels, axis=axis, copy=copy) + + # error: Cannot determine type of 'reindex' + @doc( + NDFrame.reindex, # type: ignore[has-type] + klass=_shared_doc_kwargs["klass"], + optional_reindex=_shared_doc_kwargs["optional_reindex"], + ) + def reindex( # type: ignore[override] + self, + index=None, + *, + axis: Axis | None = None, + method: ReindexMethod | None = None, + copy: bool | None = None, + level: Level | None = None, + fill_value: Scalar | None = None, + limit: int | None = None, + tolerance=None, + ) -> Series: + return super().reindex( + index=index, + method=method, + copy=copy, + level=level, + fill_value=fill_value, + limit=limit, + tolerance=tolerance, + ) + + @overload # type: ignore[override] + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + axis: Axis = ..., + copy: bool = ..., + inplace: Literal[True], + ) -> None: + ... + + @overload + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + axis: Axis = ..., + copy: bool = ..., + inplace: Literal[False] = ..., + ) -> Self: + ... + + @overload + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = ..., + *, + index=..., + axis: Axis = ..., + copy: bool = ..., + inplace: bool = ..., + ) -> Self | None: + ... + + @doc(NDFrame.rename_axis) + def rename_axis( + self, + mapper: IndexLabel | lib.NoDefault = lib.no_default, + *, + index=lib.no_default, + axis: Axis = 0, + copy: bool = True, + inplace: bool = False, + ) -> Self | None: + return super().rename_axis( + mapper=mapper, + index=index, + axis=axis, + copy=copy, + inplace=inplace, + ) + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: Literal[True], + errors: IgnoreRaise = ..., + ) -> None: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: Literal[False] = ..., + errors: IgnoreRaise = ..., + ) -> Series: + ... + + @overload + def drop( + self, + labels: IndexLabel = ..., + *, + axis: Axis = ..., + index: IndexLabel = ..., + columns: IndexLabel = ..., + level: Level | None = ..., + inplace: bool = ..., + errors: IgnoreRaise = ..., + ) -> Series | None: + ... + + def drop( + self, + labels: IndexLabel | None = None, + *, + axis: Axis = 0, + index: IndexLabel | None = None, + columns: IndexLabel | None = None, + level: Level | None = None, + inplace: bool = False, + errors: IgnoreRaise = "raise", + ) -> Series | None: + """ + Return Series with specified index labels removed. + + Remove elements of a Series based on specifying the index labels. + When using a multi-index, labels on different levels can be removed + by specifying the level. + + Parameters + ---------- + labels : single label or list-like + Index labels to drop. + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + index : single label or list-like + Redundant for application on Series, but 'index' can be used instead + of 'labels'. + columns : single label or list-like + No change is made to the Series; use 'index' or 'labels' instead. + level : int or level name, optional + For MultiIndex, level for which the labels will be removed. + inplace : bool, default False + If True, do operation inplace and return None. + errors : {'ignore', 'raise'}, default 'raise' + If 'ignore', suppress error and only existing labels are dropped. + + Returns + ------- + Series or None + Series with specified index labels removed or None if ``inplace=True``. + + Raises + ------ + KeyError + If none of the labels are found in the index. + + See Also + -------- + Series.reindex : Return only specified index labels of Series. + Series.dropna : Return series without null values. + Series.drop_duplicates : Return Series with duplicate values removed. + DataFrame.drop : Drop specified labels from rows or columns. + + Examples + -------- + >>> s = pd.Series(data=np.arange(3), index=['A', 'B', 'C']) + >>> s + A 0 + B 1 + C 2 + dtype: int64 + + Drop labels B en C + + >>> s.drop(labels=['B', 'C']) + A 0 + dtype: int64 + + Drop 2nd level label in MultiIndex Series + + >>> midx = pd.MultiIndex(levels=[['llama', 'cow', 'falcon'], + ... ['speed', 'weight', 'length']], + ... codes=[[0, 0, 0, 1, 1, 1, 2, 2, 2], + ... [0, 1, 2, 0, 1, 2, 0, 1, 2]]) + >>> s = pd.Series([45, 200, 1.2, 30, 250, 1.5, 320, 1, 0.3], + ... index=midx) + >>> s + llama speed 45.0 + weight 200.0 + length 1.2 + cow speed 30.0 + weight 250.0 + length 1.5 + falcon speed 320.0 + weight 1.0 + length 0.3 + dtype: float64 + + >>> s.drop(labels='weight', level=1) + llama speed 45.0 + length 1.2 + cow speed 30.0 + length 1.5 + falcon speed 320.0 + length 0.3 + dtype: float64 + """ + return super().drop( + labels=labels, + axis=axis, + index=index, + columns=columns, + level=level, + inplace=inplace, + errors=errors, + ) + + def pop(self, item: Hashable) -> Any: + """ + Return item and drops from series. Raise KeyError if not found. + + Parameters + ---------- + item : label + Index of the element that needs to be removed. + + Returns + ------- + Value that is popped from series. + + Examples + -------- + >>> ser = pd.Series([1, 2, 3]) + + >>> ser.pop(0) + 1 + + >>> ser + 1 2 + 2 3 + dtype: int64 + """ + return super().pop(item=item) + + @doc(INFO_DOCSTRING, **series_sub_kwargs) + def info( + self, + verbose: bool | None = None, + buf: IO[str] | None = None, + max_cols: int | None = None, + memory_usage: bool | str | None = None, + show_counts: bool = True, + ) -> None: + return SeriesInfo(self, memory_usage).render( + buf=buf, + max_cols=max_cols, + verbose=verbose, + show_counts=show_counts, + ) + + # TODO(3.0): this can be removed once GH#33302 deprecation is enforced + def _replace_single(self, to_replace, method: str, inplace: bool, limit): + """ + Replaces values in a Series using the fill method specified when no + replacement value is given in the replace method + """ + + result = self if inplace else self.copy() + + values = result._values + mask = missing.mask_missing(values, to_replace) + + if isinstance(values, ExtensionArray): + # dispatch to the EA's _pad_mask_inplace method + values._fill_mask_inplace(method, limit, mask) + else: + fill_f = missing.get_fill_func(method) + fill_f(values, limit=limit, mask=mask) + + if inplace: + return + return result + + def memory_usage(self, index: bool = True, deep: bool = False) -> int: + """ + Return the memory usage of the Series. + + The memory usage can optionally include the contribution of + the index and of elements of `object` dtype. + + Parameters + ---------- + index : bool, default True + Specifies whether to include the memory usage of the Series index. + deep : bool, default False + If True, introspect the data deeply by interrogating + `object` dtypes for system-level memory consumption, and include + it in the returned value. + + Returns + ------- + int + Bytes of memory consumed. + + See Also + -------- + numpy.ndarray.nbytes : Total bytes consumed by the elements of the + array. + DataFrame.memory_usage : Bytes consumed by a DataFrame. + + Examples + -------- + >>> s = pd.Series(range(3)) + >>> s.memory_usage() + 152 + + Not including the index gives the size of the rest of the data, which + is necessarily smaller: + + >>> s.memory_usage(index=False) + 24 + + The memory footprint of `object` values is ignored by default: + + >>> s = pd.Series(["a", "b"]) + >>> s.values + array(['a', 'b'], dtype=object) + >>> s.memory_usage() + 144 + >>> s.memory_usage(deep=True) + 244 + """ + v = self._memory_usage(deep=deep) + if index: + v += self.index.memory_usage(deep=deep) + return v + + def isin(self, values) -> Series: + """ + Whether elements in Series are contained in `values`. + + Return a boolean Series showing whether each element in the Series + matches an element in the passed sequence of `values` exactly. + + Parameters + ---------- + values : set or list-like + The sequence of values to test. Passing in a single string will + raise a ``TypeError``. Instead, turn a single string into a + list of one element. + + Returns + ------- + Series + Series of booleans indicating if each element is in values. + + Raises + ------ + TypeError + * If `values` is a string + + See Also + -------- + DataFrame.isin : Equivalent method on DataFrame. + + Examples + -------- + >>> s = pd.Series(['llama', 'cow', 'llama', 'beetle', 'llama', + ... 'hippo'], name='animal') + >>> s.isin(['cow', 'llama']) + 0 True + 1 True + 2 True + 3 False + 4 True + 5 False + Name: animal, dtype: bool + + To invert the boolean values, use the ``~`` operator: + + >>> ~s.isin(['cow', 'llama']) + 0 False + 1 False + 2 False + 3 True + 4 False + 5 True + Name: animal, dtype: bool + + Passing a single string as ``s.isin('llama')`` will raise an error. Use + a list of one element instead: + + >>> s.isin(['llama']) + 0 True + 1 False + 2 True + 3 False + 4 True + 5 False + Name: animal, dtype: bool + + Strings and integers are distinct and are therefore not comparable: + + >>> pd.Series([1]).isin(['1']) + 0 False + dtype: bool + >>> pd.Series([1.1]).isin(['1.1']) + 0 False + dtype: bool + """ + result = algorithms.isin(self._values, values) + return self._constructor(result, index=self.index, copy=False).__finalize__( + self, method="isin" + ) + + def between( + self, + left, + right, + inclusive: Literal["both", "neither", "left", "right"] = "both", + ) -> Series: + """ + Return boolean Series equivalent to left <= series <= right. + + This function returns a boolean vector containing `True` wherever the + corresponding Series element is between the boundary values `left` and + `right`. NA values are treated as `False`. + + Parameters + ---------- + left : scalar or list-like + Left boundary. + right : scalar or list-like + Right boundary. + inclusive : {"both", "neither", "left", "right"} + Include boundaries. Whether to set each bound as closed or open. + + .. versionchanged:: 1.3.0 + + Returns + ------- + Series + Series representing whether each element is between left and + right (inclusive). + + See Also + -------- + Series.gt : Greater than of series and other. + Series.lt : Less than of series and other. + + Notes + ----- + This function is equivalent to ``(left <= ser) & (ser <= right)`` + + Examples + -------- + >>> s = pd.Series([2, 0, 4, 8, np.nan]) + + Boundary values are included by default: + + >>> s.between(1, 4) + 0 True + 1 False + 2 True + 3 False + 4 False + dtype: bool + + With `inclusive` set to ``"neither"`` boundary values are excluded: + + >>> s.between(1, 4, inclusive="neither") + 0 True + 1 False + 2 False + 3 False + 4 False + dtype: bool + + `left` and `right` can be any scalar value: + + >>> s = pd.Series(['Alice', 'Bob', 'Carol', 'Eve']) + >>> s.between('Anna', 'Daniel') + 0 False + 1 True + 2 True + 3 False + dtype: bool + """ + if inclusive == "both": + lmask = self >= left + rmask = self <= right + elif inclusive == "left": + lmask = self >= left + rmask = self < right + elif inclusive == "right": + lmask = self > left + rmask = self <= right + elif inclusive == "neither": + lmask = self > left + rmask = self < right + else: + raise ValueError( + "Inclusive has to be either string of 'both'," + "'left', 'right', or 'neither'." + ) + + return lmask & rmask + + def case_when( + self, + caselist: list[ + tuple[ + ArrayLike | Callable[[Series], Series | np.ndarray | Sequence[bool]], + ArrayLike | Scalar | Callable[[Series], Series | np.ndarray], + ], + ], + ) -> Series: + """ + Replace values where the conditions are True. + + Parameters + ---------- + caselist : A list of tuples of conditions and expected replacements + Takes the form: ``(condition0, replacement0)``, + ``(condition1, replacement1)``, ... . + ``condition`` should be a 1-D boolean array-like object + or a callable. If ``condition`` is a callable, + it is computed on the Series + and should return a boolean Series or array. + The callable must not change the input Series + (though pandas doesn`t check it). ``replacement`` should be a + 1-D array-like object, a scalar or a callable. + If ``replacement`` is a callable, it is computed on the Series + and should return a scalar or Series. The callable + must not change the input Series + (though pandas doesn`t check it). + + .. versionadded:: 2.2.0 + + Returns + ------- + Series + + See Also + -------- + Series.mask : Replace values where the condition is True. + + Examples + -------- + >>> c = pd.Series([6, 7, 8, 9], name='c') + >>> a = pd.Series([0, 0, 1, 2]) + >>> b = pd.Series([0, 3, 4, 5]) + + >>> c.case_when(caselist=[(a.gt(0), a), # condition, replacement + ... (b.gt(0), b)]) + 0 6 + 1 3 + 2 1 + 3 2 + Name: c, dtype: int64 + """ + if not isinstance(caselist, list): + raise TypeError( + f"The caselist argument should be a list; instead got {type(caselist)}" + ) + + if not caselist: + raise ValueError( + "provide at least one boolean condition, " + "with a corresponding replacement." + ) + + for num, entry in enumerate(caselist): + if not isinstance(entry, tuple): + raise TypeError( + f"Argument {num} must be a tuple; instead got {type(entry)}." + ) + if len(entry) != 2: + raise ValueError( + f"Argument {num} must have length 2; " + "a condition and replacement; " + f"instead got length {len(entry)}." + ) + caselist = [ + ( + com.apply_if_callable(condition, self), + com.apply_if_callable(replacement, self), + ) + for condition, replacement in caselist + ] + default = self.copy() + conditions, replacements = zip(*caselist) + common_dtypes = [infer_dtype_from(arg)[0] for arg in [*replacements, default]] + if len(set(common_dtypes)) > 1: + common_dtype = find_common_type(common_dtypes) + updated_replacements = [] + for condition, replacement in zip(conditions, replacements): + if is_scalar(replacement): + replacement = construct_1d_arraylike_from_scalar( + value=replacement, length=len(condition), dtype=common_dtype + ) + elif isinstance(replacement, ABCSeries): + replacement = replacement.astype(common_dtype) + else: + replacement = pd_array(replacement, dtype=common_dtype) + updated_replacements.append(replacement) + replacements = updated_replacements + default = default.astype(common_dtype) + + counter = reversed(range(len(conditions))) + for position, condition, replacement in zip( + counter, conditions[::-1], replacements[::-1] + ): + try: + default = default.mask( + condition, other=replacement, axis=0, inplace=False, level=None + ) + except Exception as error: + raise ValueError( + f"Failed to apply condition{position} and replacement{position}." + ) from error + return default + + # error: Cannot determine type of 'isna' + @doc(NDFrame.isna, klass=_shared_doc_kwargs["klass"]) # type: ignore[has-type] + def isna(self) -> Series: + return NDFrame.isna(self) + + # error: Cannot determine type of 'isna' + @doc(NDFrame.isna, klass=_shared_doc_kwargs["klass"]) # type: ignore[has-type] + def isnull(self) -> Series: + """ + Series.isnull is an alias for Series.isna. + """ + return super().isnull() + + # error: Cannot determine type of 'notna' + @doc(NDFrame.notna, klass=_shared_doc_kwargs["klass"]) # type: ignore[has-type] + def notna(self) -> Series: + return super().notna() + + # error: Cannot determine type of 'notna' + @doc(NDFrame.notna, klass=_shared_doc_kwargs["klass"]) # type: ignore[has-type] + def notnull(self) -> Series: + """ + Series.notnull is an alias for Series.notna. + """ + return super().notnull() + + @overload + def dropna( + self, + *, + axis: Axis = ..., + inplace: Literal[False] = ..., + how: AnyAll | None = ..., + ignore_index: bool = ..., + ) -> Series: + ... + + @overload + def dropna( + self, + *, + axis: Axis = ..., + inplace: Literal[True], + how: AnyAll | None = ..., + ignore_index: bool = ..., + ) -> None: + ... + + def dropna( + self, + *, + axis: Axis = 0, + inplace: bool = False, + how: AnyAll | None = None, + ignore_index: bool = False, + ) -> Series | None: + """ + Return a new Series with missing values removed. + + See the :ref:`User Guide ` for more on which values are + considered missing, and how to work with missing data. + + Parameters + ---------- + axis : {0 or 'index'} + Unused. Parameter needed for compatibility with DataFrame. + inplace : bool, default False + If True, do operation inplace and return None. + how : str, optional + Not in use. Kept for compatibility. + ignore_index : bool, default ``False`` + If ``True``, the resulting axis will be labeled 0, 1, …, n - 1. + + .. versionadded:: 2.0.0 + + Returns + ------- + Series or None + Series with NA entries dropped from it or None if ``inplace=True``. + + See Also + -------- + Series.isna: Indicate missing values. + Series.notna : Indicate existing (non-missing) values. + Series.fillna : Replace missing values. + DataFrame.dropna : Drop rows or columns which contain NA values. + Index.dropna : Drop missing indices. + + Examples + -------- + >>> ser = pd.Series([1., 2., np.nan]) + >>> ser + 0 1.0 + 1 2.0 + 2 NaN + dtype: float64 + + Drop NA values from a Series. + + >>> ser.dropna() + 0 1.0 + 1 2.0 + dtype: float64 + + Empty strings are not considered NA values. ``None`` is considered an + NA value. + + >>> ser = pd.Series([np.nan, 2, pd.NaT, '', None, 'I stay']) + >>> ser + 0 NaN + 1 2 + 2 NaT + 3 + 4 None + 5 I stay + dtype: object + >>> ser.dropna() + 1 2 + 3 + 5 I stay + dtype: object + """ + inplace = validate_bool_kwarg(inplace, "inplace") + ignore_index = validate_bool_kwarg(ignore_index, "ignore_index") + # Validate the axis parameter + self._get_axis_number(axis or 0) + + if self._can_hold_na: + result = remove_na_arraylike(self) + else: + if not inplace: + result = self.copy(deep=None) + else: + result = self + + if ignore_index: + result.index = default_index(len(result)) + + if inplace: + return self._update_inplace(result) + else: + return result + + # ---------------------------------------------------------------------- + # Time series-oriented methods + + def to_timestamp( + self, + freq: Frequency | None = None, + how: Literal["s", "e", "start", "end"] = "start", + copy: bool | None = None, + ) -> Series: + """ + Cast to DatetimeIndex of Timestamps, at *beginning* of period. + + Parameters + ---------- + freq : str, default frequency of PeriodIndex + Desired frequency. + how : {'s', 'e', 'start', 'end'} + Convention for converting period to timestamp; start of period + vs. end. + copy : bool, default True + Whether or not to return a copy. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + Series with DatetimeIndex + + Examples + -------- + >>> idx = pd.PeriodIndex(['2023', '2024', '2025'], freq='Y') + >>> s1 = pd.Series([1, 2, 3], index=idx) + >>> s1 + 2023 1 + 2024 2 + 2025 3 + Freq: Y-DEC, dtype: int64 + + The resulting frequency of the Timestamps is `YearBegin` + + >>> s1 = s1.to_timestamp() + >>> s1 + 2023-01-01 1 + 2024-01-01 2 + 2025-01-01 3 + Freq: YS-JAN, dtype: int64 + + Using `freq` which is the offset that the Timestamps will have + + >>> s2 = pd.Series([1, 2, 3], index=idx) + >>> s2 = s2.to_timestamp(freq='M') + >>> s2 + 2023-01-31 1 + 2024-01-31 2 + 2025-01-31 3 + Freq: YE-JAN, dtype: int64 + """ + if not isinstance(self.index, PeriodIndex): + raise TypeError(f"unsupported Type {type(self.index).__name__}") + + new_obj = self.copy(deep=copy and not using_copy_on_write()) + new_index = self.index.to_timestamp(freq=freq, how=how) + setattr(new_obj, "index", new_index) + return new_obj + + def to_period(self, freq: str | None = None, copy: bool | None = None) -> Series: + """ + Convert Series from DatetimeIndex to PeriodIndex. + + Parameters + ---------- + freq : str, default None + Frequency associated with the PeriodIndex. + copy : bool, default True + Whether or not to return a copy. + + .. note:: + The `copy` keyword will change behavior in pandas 3.0. + `Copy-on-Write + `__ + will be enabled by default, which means that all methods with a + `copy` keyword will use a lazy copy mechanism to defer the copy and + ignore the `copy` keyword. The `copy` keyword will be removed in a + future version of pandas. + + You can already get the future behavior and improvements through + enabling copy on write ``pd.options.mode.copy_on_write = True`` + + Returns + ------- + Series + Series with index converted to PeriodIndex. + + Examples + -------- + >>> idx = pd.DatetimeIndex(['2023', '2024', '2025']) + >>> s = pd.Series([1, 2, 3], index=idx) + >>> s = s.to_period() + >>> s + 2023 1 + 2024 2 + 2025 3 + Freq: Y-DEC, dtype: int64 + + Viewing the index + + >>> s.index + PeriodIndex(['2023', '2024', '2025'], dtype='period[Y-DEC]') + """ + if not isinstance(self.index, DatetimeIndex): + raise TypeError(f"unsupported Type {type(self.index).__name__}") + + new_obj = self.copy(deep=copy and not using_copy_on_write()) + new_index = self.index.to_period(freq=freq) + setattr(new_obj, "index", new_index) + return new_obj + + # ---------------------------------------------------------------------- + # Add index + _AXIS_ORDERS: list[Literal["index", "columns"]] = ["index"] + _AXIS_LEN = len(_AXIS_ORDERS) + _info_axis_number: Literal[0] = 0 + _info_axis_name: Literal["index"] = "index" + + index = properties.AxisProperty( + axis=0, + doc=""" + The index (axis labels) of the Series. + + The index of a Series is used to label and identify each element of the + underlying data. The index can be thought of as an immutable ordered set + (technically a multi-set, as it may contain duplicate labels), and is + used to index and align data in pandas. + + Returns + ------- + Index + The index labels of the Series. + + See Also + -------- + Series.reindex : Conform Series to new index. + Index : The base pandas index type. + + Notes + ----- + For more information on pandas indexing, see the `indexing user guide + `__. + + Examples + -------- + To create a Series with a custom index and view the index labels: + + >>> cities = ['Kolkata', 'Chicago', 'Toronto', 'Lisbon'] + >>> populations = [14.85, 2.71, 2.93, 0.51] + >>> city_series = pd.Series(populations, index=cities) + >>> city_series.index + Index(['Kolkata', 'Chicago', 'Toronto', 'Lisbon'], dtype='object') + + To change the index labels of an existing Series: + + >>> city_series.index = ['KOL', 'CHI', 'TOR', 'LIS'] + >>> city_series.index + Index(['KOL', 'CHI', 'TOR', 'LIS'], dtype='object') + """, + ) + + # ---------------------------------------------------------------------- + # Accessor Methods + # ---------------------------------------------------------------------- + str = CachedAccessor("str", StringMethods) + dt = CachedAccessor("dt", CombinedDatetimelikeProperties) + cat = CachedAccessor("cat", CategoricalAccessor) + plot = CachedAccessor("plot", pandas.plotting.PlotAccessor) + sparse = CachedAccessor("sparse", SparseAccessor) + struct = CachedAccessor("struct", StructAccessor) + list = CachedAccessor("list", ListAccessor) + + # ---------------------------------------------------------------------- + # Add plotting methods to Series + hist = pandas.plotting.hist_series + + # ---------------------------------------------------------------------- + # Template-Based Arithmetic/Comparison Methods + + def _cmp_method(self, other, op): + res_name = ops.get_op_result_name(self, other) + + if isinstance(other, Series) and not self._indexed_same(other): + raise ValueError("Can only compare identically-labeled Series objects") + + lvalues = self._values + rvalues = extract_array(other, extract_numpy=True, extract_range=True) + + res_values = ops.comparison_op(lvalues, rvalues, op) + + return self._construct_result(res_values, name=res_name) + + def _logical_method(self, other, op): + res_name = ops.get_op_result_name(self, other) + self, other = self._align_for_op(other, align_asobject=True) + + lvalues = self._values + rvalues = extract_array(other, extract_numpy=True, extract_range=True) + + res_values = ops.logical_op(lvalues, rvalues, op) + return self._construct_result(res_values, name=res_name) + + def _arith_method(self, other, op): + self, other = self._align_for_op(other) + return base.IndexOpsMixin._arith_method(self, other, op) + + def _align_for_op(self, right, align_asobject: bool = False): + """align lhs and rhs Series""" + # TODO: Different from DataFrame._align_for_op, list, tuple and ndarray + # are not coerced here + # because Series has inconsistencies described in GH#13637 + left = self + + if isinstance(right, Series): + # avoid repeated alignment + if not left.index.equals(right.index): + if align_asobject: + if left.dtype not in (object, np.bool_) or right.dtype not in ( + object, + np.bool_, + ): + warnings.warn( + "Operation between non boolean Series with different " + "indexes will no longer return a boolean result in " + "a future version. Cast both Series to object type " + "to maintain the prior behavior.", + FutureWarning, + stacklevel=find_stack_level(), + ) + # to keep original value's dtype for bool ops + left = left.astype(object) + right = right.astype(object) + + left, right = left.align(right, copy=False) + + return left, right + + def _binop(self, other: Series, func, level=None, fill_value=None) -> Series: + """ + Perform generic binary operation with optional fill value. + + Parameters + ---------- + other : Series + func : binary operator + fill_value : float or object + Value to substitute for NA/null values. If both Series are NA in a + location, the result will be NA regardless of the passed fill value. + level : int or level name, default None + Broadcast across a level, matching Index values on the + passed MultiIndex level. + + Returns + ------- + Series + """ + this = self + + if not self.index.equals(other.index): + this, other = self.align(other, level=level, join="outer", copy=False) + + this_vals, other_vals = ops.fill_binop(this._values, other._values, fill_value) + + with np.errstate(all="ignore"): + result = func(this_vals, other_vals) + + name = ops.get_op_result_name(self, other) + out = this._construct_result(result, name) + return cast(Series, out) + + def _construct_result( + self, result: ArrayLike | tuple[ArrayLike, ArrayLike], name: Hashable + ) -> Series | tuple[Series, Series]: + """ + Construct an appropriately-labelled Series from the result of an op. + + Parameters + ---------- + result : ndarray or ExtensionArray + name : Label + + Returns + ------- + Series + In the case of __divmod__ or __rdivmod__, a 2-tuple of Series. + """ + if isinstance(result, tuple): + # produced by divmod or rdivmod + + res1 = self._construct_result(result[0], name=name) + res2 = self._construct_result(result[1], name=name) + + # GH#33427 assertions to keep mypy happy + assert isinstance(res1, Series) + assert isinstance(res2, Series) + return (res1, res2) + + # TODO: result should always be ArrayLike, but this fails for some + # JSONArray tests + dtype = getattr(result, "dtype", None) + out = self._constructor(result, index=self.index, dtype=dtype, copy=False) + out = out.__finalize__(self) + + # Set the result's name after __finalize__ is called because __finalize__ + # would set it back to self.name + out.name = name + return out + + def _flex_method(self, other, op, *, level=None, fill_value=None, axis: Axis = 0): + if axis is not None: + self._get_axis_number(axis) + + res_name = ops.get_op_result_name(self, other) + + if isinstance(other, Series): + return self._binop(other, op, level=level, fill_value=fill_value) + elif isinstance(other, (np.ndarray, list, tuple)): + if len(other) != len(self): + raise ValueError("Lengths must be equal") + other = self._constructor(other, self.index, copy=False) + result = self._binop(other, op, level=level, fill_value=fill_value) + result._name = res_name + return result + else: + if fill_value is not None: + if isna(other): + return op(self, fill_value) + self = self.fillna(fill_value) + + return op(self, other) + + @Appender(ops.make_flex_doc("eq", "series")) + def eq( + self, + other, + level: Level | None = None, + fill_value: float | None = None, + axis: Axis = 0, + ) -> Series: + return self._flex_method( + other, operator.eq, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("ne", "series")) + def ne(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.ne, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("le", "series")) + def le(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.le, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("lt", "series")) + def lt(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.lt, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("ge", "series")) + def ge(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.ge, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("gt", "series")) + def gt(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.gt, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("add", "series")) + def add(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.add, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("radd", "series")) + def radd(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.radd, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("sub", "series")) + def sub(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.sub, level=level, fill_value=fill_value, axis=axis + ) + + subtract = sub + + @Appender(ops.make_flex_doc("rsub", "series")) + def rsub(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rsub, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("mul", "series")) + def mul( + self, + other, + level: Level | None = None, + fill_value: float | None = None, + axis: Axis = 0, + ) -> Series: + return self._flex_method( + other, operator.mul, level=level, fill_value=fill_value, axis=axis + ) + + multiply = mul + + @Appender(ops.make_flex_doc("rmul", "series")) + def rmul(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rmul, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("truediv", "series")) + def truediv(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.truediv, level=level, fill_value=fill_value, axis=axis + ) + + div = truediv + divide = truediv + + @Appender(ops.make_flex_doc("rtruediv", "series")) + def rtruediv(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rtruediv, level=level, fill_value=fill_value, axis=axis + ) + + rdiv = rtruediv + + @Appender(ops.make_flex_doc("floordiv", "series")) + def floordiv(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.floordiv, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rfloordiv", "series")) + def rfloordiv(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rfloordiv, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("mod", "series")) + def mod(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.mod, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rmod", "series")) + def rmod(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rmod, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("pow", "series")) + def pow(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, operator.pow, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rpow", "series")) + def rpow(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rpow, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("divmod", "series")) + def divmod(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, divmod, level=level, fill_value=fill_value, axis=axis + ) + + @Appender(ops.make_flex_doc("rdivmod", "series")) + def rdivmod(self, other, level=None, fill_value=None, axis: Axis = 0) -> Series: + return self._flex_method( + other, roperator.rdivmod, level=level, fill_value=fill_value, axis=axis + ) + + # ---------------------------------------------------------------------- + # Reductions + + def _reduce( + self, + op, + # error: Variable "pandas.core.series.Series.str" is not valid as a type + name: str, # type: ignore[valid-type] + *, + axis: Axis = 0, + skipna: bool = True, + numeric_only: bool = False, + filter_type=None, + **kwds, + ): + """ + Perform a reduction operation. + + If we have an ndarray as a value, then simply perform the operation, + otherwise delegate to the object. + """ + delegate = self._values + + if axis is not None: + self._get_axis_number(axis) + + if isinstance(delegate, ExtensionArray): + # dispatch to ExtensionArray interface + return delegate._reduce(name, skipna=skipna, **kwds) + + else: + # dispatch to numpy arrays + if numeric_only and self.dtype.kind not in "iufcb": + # i.e. not is_numeric_dtype(self.dtype) + kwd_name = "numeric_only" + if name in ["any", "all"]: + kwd_name = "bool_only" + # GH#47500 - change to TypeError to match other methods + raise TypeError( + f"Series.{name} does not allow {kwd_name}={numeric_only} " + "with non-numeric dtypes." + ) + return op(delegate, skipna=skipna, **kwds) + + @Appender(make_doc("any", ndim=1)) + # error: Signature of "any" incompatible with supertype "NDFrame" + def any( # type: ignore[override] + self, + *, + axis: Axis = 0, + bool_only: bool = False, + skipna: bool = True, + **kwargs, + ) -> bool: + nv.validate_logical_func((), kwargs, fname="any") + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + return self._reduce( + nanops.nanany, + name="any", + axis=axis, + numeric_only=bool_only, + skipna=skipna, + filter_type="bool", + ) + + @Appender(make_doc("all", ndim=1)) + def all( + self, + axis: Axis = 0, + bool_only: bool = False, + skipna: bool = True, + **kwargs, + ) -> bool: + nv.validate_logical_func((), kwargs, fname="all") + validate_bool_kwarg(skipna, "skipna", none_allowed=False) + return self._reduce( + nanops.nanall, + name="all", + axis=axis, + numeric_only=bool_only, + skipna=skipna, + filter_type="bool", + ) + + @doc(make_doc("min", ndim=1)) + def min( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.min(self, axis, skipna, numeric_only, **kwargs) + + @doc(make_doc("max", ndim=1)) + def max( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.max(self, axis, skipna, numeric_only, **kwargs) + + @doc(make_doc("sum", ndim=1)) + def sum( + self, + axis: Axis | None = None, + skipna: bool = True, + numeric_only: bool = False, + min_count: int = 0, + **kwargs, + ): + return NDFrame.sum(self, axis, skipna, numeric_only, min_count, **kwargs) + + @doc(make_doc("prod", ndim=1)) + def prod( + self, + axis: Axis | None = None, + skipna: bool = True, + numeric_only: bool = False, + min_count: int = 0, + **kwargs, + ): + return NDFrame.prod(self, axis, skipna, numeric_only, min_count, **kwargs) + + @doc(make_doc("mean", ndim=1)) + def mean( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.mean(self, axis, skipna, numeric_only, **kwargs) + + @doc(make_doc("median", ndim=1)) + def median( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.median(self, axis, skipna, numeric_only, **kwargs) + + @doc(make_doc("sem", ndim=1)) + def sem( + self, + axis: Axis | None = None, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.sem(self, axis, skipna, ddof, numeric_only, **kwargs) + + @doc(make_doc("var", ndim=1)) + def var( + self, + axis: Axis | None = None, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.var(self, axis, skipna, ddof, numeric_only, **kwargs) + + @doc(make_doc("std", ndim=1)) + def std( + self, + axis: Axis | None = None, + skipna: bool = True, + ddof: int = 1, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.std(self, axis, skipna, ddof, numeric_only, **kwargs) + + @doc(make_doc("skew", ndim=1)) + def skew( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.skew(self, axis, skipna, numeric_only, **kwargs) + + @doc(make_doc("kurt", ndim=1)) + def kurt( + self, + axis: Axis | None = 0, + skipna: bool = True, + numeric_only: bool = False, + **kwargs, + ): + return NDFrame.kurt(self, axis, skipna, numeric_only, **kwargs) + + kurtosis = kurt + product = prod + + @doc(make_doc("cummin", ndim=1)) + def cummin(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cummin(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cummax", ndim=1)) + def cummax(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cummax(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cumsum", ndim=1)) + def cumsum(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cumsum(self, axis, skipna, *args, **kwargs) + + @doc(make_doc("cumprod", 1)) + def cumprod(self, axis: Axis | None = None, skipna: bool = True, *args, **kwargs): + return NDFrame.cumprod(self, axis, skipna, *args, **kwargs) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/shared_docs.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/shared_docs.py new file mode 100644 index 0000000000000000000000000000000000000000..25f7e7e9f832b0142af32acbb9690d0ae3f0b5e3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/shared_docs.py @@ -0,0 +1,952 @@ +from __future__ import annotations + +_shared_docs: dict[str, str] = {} + +_shared_docs[ + "aggregate" +] = """ +Aggregate using one or more operations over the specified axis. + +Parameters +---------- +func : function, str, list or dict + Function to use for aggregating the data. If a function, must either + work when passed a {klass} or when passed to {klass}.apply. + + Accepted combinations are: + + - function + - string function name + - list of functions and/or function names, e.g. ``[np.sum, 'mean']`` + - dict of axis labels -> functions, function names or list of such. +{axis} +*args + Positional arguments to pass to `func`. +**kwargs + Keyword arguments to pass to `func`. + +Returns +------- +scalar, Series or DataFrame + + The return can be: + + * scalar : when Series.agg is called with single function + * Series : when DataFrame.agg is called with a single function + * DataFrame : when DataFrame.agg is called with several functions +{see_also} +Notes +----- +The aggregation operations are always performed over an axis, either the +index (default) or the column axis. This behavior is different from +`numpy` aggregation functions (`mean`, `median`, `prod`, `sum`, `std`, +`var`), where the default is to compute the aggregation of the flattened +array, e.g., ``numpy.mean(arr_2d)`` as opposed to +``numpy.mean(arr_2d, axis=0)``. + +`agg` is an alias for `aggregate`. Use the alias. + +Functions that mutate the passed object can produce unexpected +behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` +for more details. + +A passed user-defined-function will be passed a Series for evaluation. +{examples}""" + +_shared_docs[ + "compare" +] = """ +Compare to another {klass} and show the differences. + +Parameters +---------- +other : {klass} + Object to compare with. + +align_axis : {{0 or 'index', 1 or 'columns'}}, default 1 + Determine which axis to align the comparison on. + + * 0, or 'index' : Resulting differences are stacked vertically + with rows drawn alternately from self and other. + * 1, or 'columns' : Resulting differences are aligned horizontally + with columns drawn alternately from self and other. + +keep_shape : bool, default False + If true, all rows and columns are kept. + Otherwise, only the ones with different values are kept. + +keep_equal : bool, default False + If true, the result keeps values that are equal. + Otherwise, equal values are shown as NaNs. + +result_names : tuple, default ('self', 'other') + Set the dataframes names in the comparison. + + .. versionadded:: 1.5.0 +""" + +_shared_docs[ + "groupby" +] = """ +Group %(klass)s using a mapper or by a Series of columns. + +A groupby operation involves some combination of splitting the +object, applying a function, and combining the results. This can be +used to group large amounts of data and compute operations on these +groups. + +Parameters +---------- +by : mapping, function, label, pd.Grouper or list of such + Used to determine the groups for the groupby. + If ``by`` is a function, it's called on each value of the object's + index. If a dict or Series is passed, the Series or dict VALUES + will be used to determine the groups (the Series' values are first + aligned; see ``.align()`` method). If a list or ndarray of length + equal to the selected axis is passed (see the `groupby user guide + `_), + the values are used as-is to determine the groups. A label or list + of labels may be passed to group by the columns in ``self``. + Notice that a tuple is interpreted as a (single) key. +axis : {0 or 'index', 1 or 'columns'}, default 0 + Split along rows (0) or columns (1). For `Series` this parameter + is unused and defaults to 0. + + .. deprecated:: 2.1.0 + + Will be removed and behave like axis=0 in a future version. + For ``axis=1``, do ``frame.T.groupby(...)`` instead. + +level : int, level name, or sequence of such, default None + If the axis is a MultiIndex (hierarchical), group by a particular + level or levels. Do not specify both ``by`` and ``level``. +as_index : bool, default True + Return object with group labels as the + index. Only relevant for DataFrame input. as_index=False is + effectively "SQL-style" grouped output. This argument has no effect + on filtrations (see the `filtrations in the user guide + `_), + such as ``head()``, ``tail()``, ``nth()`` and in transformations + (see the `transformations in the user guide + `_). +sort : bool, default True + Sort group keys. Get better performance by turning this off. + Note this does not influence the order of observations within each + group. Groupby preserves the order of rows within each group. If False, + the groups will appear in the same order as they did in the original DataFrame. + This argument has no effect on filtrations (see the `filtrations in the user guide + `_), + such as ``head()``, ``tail()``, ``nth()`` and in transformations + (see the `transformations in the user guide + `_). + + .. versionchanged:: 2.0.0 + + Specifying ``sort=False`` with an ordered categorical grouper will no + longer sort the values. + +group_keys : bool, default True + When calling apply and the ``by`` argument produces a like-indexed + (i.e. :ref:`a transform `) result, add group keys to + index to identify pieces. By default group keys are not included + when the result's index (and column) labels match the inputs, and + are included otherwise. + + .. versionchanged:: 1.5.0 + + Warns that ``group_keys`` will no longer be ignored when the + result from ``apply`` is a like-indexed Series or DataFrame. + Specify ``group_keys`` explicitly to include the group keys or + not. + + .. versionchanged:: 2.0.0 + + ``group_keys`` now defaults to ``True``. + +observed : bool, default False + This only applies if any of the groupers are Categoricals. + If True: only show observed values for categorical groupers. + If False: show all values for categorical groupers. + + .. deprecated:: 2.1.0 + + The default value will change to True in a future version of pandas. + +dropna : bool, default True + If True, and if group keys contain NA values, NA values together + with row/column will be dropped. + If False, NA values will also be treated as the key in groups. + +Returns +------- +pandas.api.typing.%(klass)sGroupBy + Returns a groupby object that contains information about the groups. + +See Also +-------- +resample : Convenience method for frequency conversion and resampling + of time series. + +Notes +----- +See the `user guide +`__ for more +detailed usage and examples, including splitting an object into groups, +iterating through groups, selecting a group, aggregation, and more. +""" + +_shared_docs[ + "melt" +] = """ +Unpivot a DataFrame from wide to long format, optionally leaving identifiers set. + +This function is useful to massage a DataFrame into a format where one +or more columns are identifier variables (`id_vars`), while all other +columns, considered measured variables (`value_vars`), are "unpivoted" to +the row axis, leaving just two non-identifier columns, 'variable' and +'value'. + +Parameters +---------- +id_vars : scalar, tuple, list, or ndarray, optional + Column(s) to use as identifier variables. +value_vars : scalar, tuple, list, or ndarray, optional + Column(s) to unpivot. If not specified, uses all columns that + are not set as `id_vars`. +var_name : scalar, default None + Name to use for the 'variable' column. If None it uses + ``frame.columns.name`` or 'variable'. +value_name : scalar, default 'value' + Name to use for the 'value' column, can't be an existing column label. +col_level : scalar, optional + If columns are a MultiIndex then use this level to melt. +ignore_index : bool, default True + If True, original index is ignored. If False, the original index is retained. + Index labels will be repeated as necessary. + +Returns +------- +DataFrame + Unpivoted DataFrame. + +See Also +-------- +%(other)s : Identical method. +pivot_table : Create a spreadsheet-style pivot table as a DataFrame. +DataFrame.pivot : Return reshaped DataFrame organized + by given index / column values. +DataFrame.explode : Explode a DataFrame from list-like + columns to long format. + +Notes +----- +Reference :ref:`the user guide ` for more examples. + +Examples +-------- +>>> df = pd.DataFrame({'A': {0: 'a', 1: 'b', 2: 'c'}, +... 'B': {0: 1, 1: 3, 2: 5}, +... 'C': {0: 2, 1: 4, 2: 6}}) +>>> df + A B C +0 a 1 2 +1 b 3 4 +2 c 5 6 + +>>> %(caller)sid_vars=['A'], value_vars=['B']) + A variable value +0 a B 1 +1 b B 3 +2 c B 5 + +>>> %(caller)sid_vars=['A'], value_vars=['B', 'C']) + A variable value +0 a B 1 +1 b B 3 +2 c B 5 +3 a C 2 +4 b C 4 +5 c C 6 + +The names of 'variable' and 'value' columns can be customized: + +>>> %(caller)sid_vars=['A'], value_vars=['B'], +... var_name='myVarname', value_name='myValname') + A myVarname myValname +0 a B 1 +1 b B 3 +2 c B 5 + +Original index values can be kept around: + +>>> %(caller)sid_vars=['A'], value_vars=['B', 'C'], ignore_index=False) + A variable value +0 a B 1 +1 b B 3 +2 c B 5 +0 a C 2 +1 b C 4 +2 c C 6 + +If you have multi-index columns: + +>>> df.columns = [list('ABC'), list('DEF')] +>>> df + A B C + D E F +0 a 1 2 +1 b 3 4 +2 c 5 6 + +>>> %(caller)scol_level=0, id_vars=['A'], value_vars=['B']) + A variable value +0 a B 1 +1 b B 3 +2 c B 5 + +>>> %(caller)sid_vars=[('A', 'D')], value_vars=[('B', 'E')]) + (A, D) variable_0 variable_1 value +0 a B E 1 +1 b B E 3 +2 c B E 5 +""" + +_shared_docs[ + "transform" +] = """ +Call ``func`` on self producing a {klass} with the same axis shape as self. + +Parameters +---------- +func : function, str, list-like or dict-like + Function to use for transforming the data. If a function, must either + work when passed a {klass} or when passed to {klass}.apply. If func + is both list-like and dict-like, dict-like behavior takes precedence. + + Accepted combinations are: + + - function + - string function name + - list-like of functions and/or function names, e.g. ``[np.exp, 'sqrt']`` + - dict-like of axis labels -> functions, function names or list-like of such. +{axis} +*args + Positional arguments to pass to `func`. +**kwargs + Keyword arguments to pass to `func`. + +Returns +------- +{klass} + A {klass} that must have the same length as self. + +Raises +------ +ValueError : If the returned {klass} has a different length than self. + +See Also +-------- +{klass}.agg : Only perform aggregating type operations. +{klass}.apply : Invoke function on a {klass}. + +Notes +----- +Functions that mutate the passed object can produce unexpected +behavior or errors and are not supported. See :ref:`gotchas.udf-mutation` +for more details. + +Examples +-------- +>>> df = pd.DataFrame({{'A': range(3), 'B': range(1, 4)}}) +>>> df + A B +0 0 1 +1 1 2 +2 2 3 +>>> df.transform(lambda x: x + 1) + A B +0 1 2 +1 2 3 +2 3 4 + +Even though the resulting {klass} must have the same length as the +input {klass}, it is possible to provide several input functions: + +>>> s = pd.Series(range(3)) +>>> s +0 0 +1 1 +2 2 +dtype: int64 +>>> s.transform([np.sqrt, np.exp]) + sqrt exp +0 0.000000 1.000000 +1 1.000000 2.718282 +2 1.414214 7.389056 + +You can call transform on a GroupBy object: + +>>> df = pd.DataFrame({{ +... "Date": [ +... "2015-05-08", "2015-05-07", "2015-05-06", "2015-05-05", +... "2015-05-08", "2015-05-07", "2015-05-06", "2015-05-05"], +... "Data": [5, 8, 6, 1, 50, 100, 60, 120], +... }}) +>>> df + Date Data +0 2015-05-08 5 +1 2015-05-07 8 +2 2015-05-06 6 +3 2015-05-05 1 +4 2015-05-08 50 +5 2015-05-07 100 +6 2015-05-06 60 +7 2015-05-05 120 +>>> df.groupby('Date')['Data'].transform('sum') +0 55 +1 108 +2 66 +3 121 +4 55 +5 108 +6 66 +7 121 +Name: Data, dtype: int64 + +>>> df = pd.DataFrame({{ +... "c": [1, 1, 1, 2, 2, 2, 2], +... "type": ["m", "n", "o", "m", "m", "n", "n"] +... }}) +>>> df + c type +0 1 m +1 1 n +2 1 o +3 2 m +4 2 m +5 2 n +6 2 n +>>> df['size'] = df.groupby('c')['type'].transform(len) +>>> df + c type size +0 1 m 3 +1 1 n 3 +2 1 o 3 +3 2 m 4 +4 2 m 4 +5 2 n 4 +6 2 n 4 +""" + +_shared_docs[ + "storage_options" +] = """storage_options : dict, optional + Extra options that make sense for a particular storage connection, e.g. + host, port, username, password, etc. For HTTP(S) URLs the key-value pairs + are forwarded to ``urllib.request.Request`` as header options. For other + URLs (e.g. starting with "s3://", and "gcs://") the key-value pairs are + forwarded to ``fsspec.open``. Please see ``fsspec`` and ``urllib`` for more + details, and for more examples on storage options refer `here + `_.""" + +_shared_docs[ + "compression_options" +] = """compression : str or dict, default 'infer' + For on-the-fly compression of the output data. If 'infer' and '%s' is + path-like, then detect compression from the following extensions: '.gz', + '.bz2', '.zip', '.xz', '.zst', '.tar', '.tar.gz', '.tar.xz' or '.tar.bz2' + (otherwise no compression). + Set to ``None`` for no compression. + Can also be a dict with key ``'method'`` set + to one of {``'zip'``, ``'gzip'``, ``'bz2'``, ``'zstd'``, ``'xz'``, ``'tar'``} and + other key-value pairs are forwarded to + ``zipfile.ZipFile``, ``gzip.GzipFile``, + ``bz2.BZ2File``, ``zstandard.ZstdCompressor``, ``lzma.LZMAFile`` or + ``tarfile.TarFile``, respectively. + As an example, the following could be passed for faster compression and to create + a reproducible gzip archive: + ``compression={'method': 'gzip', 'compresslevel': 1, 'mtime': 1}``. + + .. versionadded:: 1.5.0 + Added support for `.tar` files.""" + +_shared_docs[ + "decompression_options" +] = """compression : str or dict, default 'infer' + For on-the-fly decompression of on-disk data. If 'infer' and '%s' is + path-like, then detect compression from the following extensions: '.gz', + '.bz2', '.zip', '.xz', '.zst', '.tar', '.tar.gz', '.tar.xz' or '.tar.bz2' + (otherwise no compression). + If using 'zip' or 'tar', the ZIP file must contain only one data file to be read in. + Set to ``None`` for no decompression. + Can also be a dict with key ``'method'`` set + to one of {``'zip'``, ``'gzip'``, ``'bz2'``, ``'zstd'``, ``'xz'``, ``'tar'``} and + other key-value pairs are forwarded to + ``zipfile.ZipFile``, ``gzip.GzipFile``, + ``bz2.BZ2File``, ``zstandard.ZstdDecompressor``, ``lzma.LZMAFile`` or + ``tarfile.TarFile``, respectively. + As an example, the following could be passed for Zstandard decompression using a + custom compression dictionary: + ``compression={'method': 'zstd', 'dict_data': my_compression_dict}``. + + .. versionadded:: 1.5.0 + Added support for `.tar` files.""" + +_shared_docs[ + "replace" +] = """ + Replace values given in `to_replace` with `value`. + + Values of the {klass} are replaced with other values dynamically. + This differs from updating with ``.loc`` or ``.iloc``, which require + you to specify a location to update with some value. + + Parameters + ---------- + to_replace : str, regex, list, dict, Series, int, float, or None + How to find the values that will be replaced. + + * numeric, str or regex: + + - numeric: numeric values equal to `to_replace` will be + replaced with `value` + - str: string exactly matching `to_replace` will be replaced + with `value` + - regex: regexs matching `to_replace` will be replaced with + `value` + + * list of str, regex, or numeric: + + - First, if `to_replace` and `value` are both lists, they + **must** be the same length. + - Second, if ``regex=True`` then all of the strings in **both** + lists will be interpreted as regexs otherwise they will match + directly. This doesn't matter much for `value` since there + are only a few possible substitution regexes you can use. + - str, regex and numeric rules apply as above. + + * dict: + + - Dicts can be used to specify different replacement values + for different existing values. For example, + ``{{'a': 'b', 'y': 'z'}}`` replaces the value 'a' with 'b' and + 'y' with 'z'. To use a dict in this way, the optional `value` + parameter should not be given. + - For a DataFrame a dict can specify that different values + should be replaced in different columns. For example, + ``{{'a': 1, 'b': 'z'}}`` looks for the value 1 in column 'a' + and the value 'z' in column 'b' and replaces these values + with whatever is specified in `value`. The `value` parameter + should not be ``None`` in this case. You can treat this as a + special case of passing two lists except that you are + specifying the column to search in. + - For a DataFrame nested dictionaries, e.g., + ``{{'a': {{'b': np.nan}}}}``, are read as follows: look in column + 'a' for the value 'b' and replace it with NaN. The optional `value` + parameter should not be specified to use a nested dict in this + way. You can nest regular expressions as well. Note that + column names (the top-level dictionary keys in a nested + dictionary) **cannot** be regular expressions. + + * None: + + - This means that the `regex` argument must be a string, + compiled regular expression, or list, dict, ndarray or + Series of such elements. If `value` is also ``None`` then + this **must** be a nested dictionary or Series. + + See the examples section for examples of each of these. + value : scalar, dict, list, str, regex, default None + Value to replace any values matching `to_replace` with. + For a DataFrame a dict of values can be used to specify which + value to use for each column (columns not in the dict will not be + filled). Regular expressions, strings and lists or dicts of such + objects are also allowed. + {inplace} + limit : int, default None + Maximum size gap to forward or backward fill. + + .. deprecated:: 2.1.0 + regex : bool or same types as `to_replace`, default False + Whether to interpret `to_replace` and/or `value` as regular + expressions. Alternatively, this could be a regular expression or a + list, dict, or array of regular expressions in which case + `to_replace` must be ``None``. + method : {{'pad', 'ffill', 'bfill'}} + The method to use when for replacement, when `to_replace` is a + scalar, list or tuple and `value` is ``None``. + + .. deprecated:: 2.1.0 + + Returns + ------- + {klass} + Object after replacement. + + Raises + ------ + AssertionError + * If `regex` is not a ``bool`` and `to_replace` is not + ``None``. + + TypeError + * If `to_replace` is not a scalar, array-like, ``dict``, or ``None`` + * If `to_replace` is a ``dict`` and `value` is not a ``list``, + ``dict``, ``ndarray``, or ``Series`` + * If `to_replace` is ``None`` and `regex` is not compilable + into a regular expression or is a list, dict, ndarray, or + Series. + * When replacing multiple ``bool`` or ``datetime64`` objects and + the arguments to `to_replace` does not match the type of the + value being replaced + + ValueError + * If a ``list`` or an ``ndarray`` is passed to `to_replace` and + `value` but they are not the same length. + + See Also + -------- + Series.fillna : Fill NA values. + DataFrame.fillna : Fill NA values. + Series.where : Replace values based on boolean condition. + DataFrame.where : Replace values based on boolean condition. + DataFrame.map: Apply a function to a Dataframe elementwise. + Series.map: Map values of Series according to an input mapping or function. + Series.str.replace : Simple string replacement. + + Notes + ----- + * Regex substitution is performed under the hood with ``re.sub``. The + rules for substitution for ``re.sub`` are the same. + * Regular expressions will only substitute on strings, meaning you + cannot provide, for example, a regular expression matching floating + point numbers and expect the columns in your frame that have a + numeric dtype to be matched. However, if those floating point + numbers *are* strings, then you can do this. + * This method has *a lot* of options. You are encouraged to experiment + and play with this method to gain intuition about how it works. + * When dict is used as the `to_replace` value, it is like + key(s) in the dict are the to_replace part and + value(s) in the dict are the value parameter. + + Examples + -------- + + **Scalar `to_replace` and `value`** + + >>> s = pd.Series([1, 2, 3, 4, 5]) + >>> s.replace(1, 5) + 0 5 + 1 2 + 2 3 + 3 4 + 4 5 + dtype: int64 + + >>> df = pd.DataFrame({{'A': [0, 1, 2, 3, 4], + ... 'B': [5, 6, 7, 8, 9], + ... 'C': ['a', 'b', 'c', 'd', 'e']}}) + >>> df.replace(0, 5) + A B C + 0 5 5 a + 1 1 6 b + 2 2 7 c + 3 3 8 d + 4 4 9 e + + **List-like `to_replace`** + + >>> df.replace([0, 1, 2, 3], 4) + A B C + 0 4 5 a + 1 4 6 b + 2 4 7 c + 3 4 8 d + 4 4 9 e + + >>> df.replace([0, 1, 2, 3], [4, 3, 2, 1]) + A B C + 0 4 5 a + 1 3 6 b + 2 2 7 c + 3 1 8 d + 4 4 9 e + + >>> s.replace([1, 2], method='bfill') + 0 3 + 1 3 + 2 3 + 3 4 + 4 5 + dtype: int64 + + **dict-like `to_replace`** + + >>> df.replace({{0: 10, 1: 100}}) + A B C + 0 10 5 a + 1 100 6 b + 2 2 7 c + 3 3 8 d + 4 4 9 e + + >>> df.replace({{'A': 0, 'B': 5}}, 100) + A B C + 0 100 100 a + 1 1 6 b + 2 2 7 c + 3 3 8 d + 4 4 9 e + + >>> df.replace({{'A': {{0: 100, 4: 400}}}}) + A B C + 0 100 5 a + 1 1 6 b + 2 2 7 c + 3 3 8 d + 4 400 9 e + + **Regular expression `to_replace`** + + >>> df = pd.DataFrame({{'A': ['bat', 'foo', 'bait'], + ... 'B': ['abc', 'bar', 'xyz']}}) + >>> df.replace(to_replace=r'^ba.$', value='new', regex=True) + A B + 0 new abc + 1 foo new + 2 bait xyz + + >>> df.replace({{'A': r'^ba.$'}}, {{'A': 'new'}}, regex=True) + A B + 0 new abc + 1 foo bar + 2 bait xyz + + >>> df.replace(regex=r'^ba.$', value='new') + A B + 0 new abc + 1 foo new + 2 bait xyz + + >>> df.replace(regex={{r'^ba.$': 'new', 'foo': 'xyz'}}) + A B + 0 new abc + 1 xyz new + 2 bait xyz + + >>> df.replace(regex=[r'^ba.$', 'foo'], value='new') + A B + 0 new abc + 1 new new + 2 bait xyz + + Compare the behavior of ``s.replace({{'a': None}})`` and + ``s.replace('a', None)`` to understand the peculiarities + of the `to_replace` parameter: + + >>> s = pd.Series([10, 'a', 'a', 'b', 'a']) + + When one uses a dict as the `to_replace` value, it is like the + value(s) in the dict are equal to the `value` parameter. + ``s.replace({{'a': None}})`` is equivalent to + ``s.replace(to_replace={{'a': None}}, value=None, method=None)``: + + >>> s.replace({{'a': None}}) + 0 10 + 1 None + 2 None + 3 b + 4 None + dtype: object + + When ``value`` is not explicitly passed and `to_replace` is a scalar, list + or tuple, `replace` uses the method parameter (default 'pad') to do the + replacement. So this is why the 'a' values are being replaced by 10 + in rows 1 and 2 and 'b' in row 4 in this case. + + >>> s.replace('a') + 0 10 + 1 10 + 2 10 + 3 b + 4 b + dtype: object + + .. deprecated:: 2.1.0 + The 'method' parameter and padding behavior are deprecated. + + On the other hand, if ``None`` is explicitly passed for ``value``, it will + be respected: + + >>> s.replace('a', None) + 0 10 + 1 None + 2 None + 3 b + 4 None + dtype: object + + .. versionchanged:: 1.4.0 + Previously the explicit ``None`` was silently ignored. + + When ``regex=True``, ``value`` is not ``None`` and `to_replace` is a string, + the replacement will be applied in all columns of the DataFrame. + + >>> df = pd.DataFrame({{'A': [0, 1, 2, 3, 4], + ... 'B': ['a', 'b', 'c', 'd', 'e'], + ... 'C': ['f', 'g', 'h', 'i', 'j']}}) + + >>> df.replace(to_replace='^[a-g]', value='e', regex=True) + A B C + 0 0 e e + 1 1 e e + 2 2 e h + 3 3 e i + 4 4 e j + + If ``value`` is not ``None`` and `to_replace` is a dictionary, the dictionary + keys will be the DataFrame columns that the replacement will be applied. + + >>> df.replace(to_replace={{'B': '^[a-c]', 'C': '^[h-j]'}}, value='e', regex=True) + A B C + 0 0 e f + 1 1 e g + 2 2 e e + 3 3 d e + 4 4 e e +""" + +_shared_docs[ + "idxmin" +] = """ + Return index of first occurrence of minimum over requested axis. + + NA/null values are excluded. + + Parameters + ---------- + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + numeric_only : bool, default {numeric_only_default} + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + Returns + ------- + Series + Indexes of minima along the specified axis. + + Raises + ------ + ValueError + * If the row/column is empty + + See Also + -------- + Series.idxmin : Return index of the minimum element. + + Notes + ----- + This method is the DataFrame version of ``ndarray.argmin``. + + Examples + -------- + Consider a dataset containing food consumption in Argentina. + + >>> df = pd.DataFrame({{'consumption': [10.51, 103.11, 55.48], + ... 'co2_emissions': [37.2, 19.66, 1712]}}, + ... index=['Pork', 'Wheat Products', 'Beef']) + + >>> df + consumption co2_emissions + Pork 10.51 37.20 + Wheat Products 103.11 19.66 + Beef 55.48 1712.00 + + By default, it returns the index for the minimum value in each column. + + >>> df.idxmin() + consumption Pork + co2_emissions Wheat Products + dtype: object + + To return the index for the minimum value in each row, use ``axis="columns"``. + + >>> df.idxmin(axis="columns") + Pork consumption + Wheat Products co2_emissions + Beef consumption + dtype: object +""" + +_shared_docs[ + "idxmax" +] = """ + Return index of first occurrence of maximum over requested axis. + + NA/null values are excluded. + + Parameters + ---------- + axis : {{0 or 'index', 1 or 'columns'}}, default 0 + The axis to use. 0 or 'index' for row-wise, 1 or 'columns' for column-wise. + skipna : bool, default True + Exclude NA/null values. If an entire row/column is NA, the result + will be NA. + numeric_only : bool, default {numeric_only_default} + Include only `float`, `int` or `boolean` data. + + .. versionadded:: 1.5.0 + + Returns + ------- + Series + Indexes of maxima along the specified axis. + + Raises + ------ + ValueError + * If the row/column is empty + + See Also + -------- + Series.idxmax : Return index of the maximum element. + + Notes + ----- + This method is the DataFrame version of ``ndarray.argmax``. + + Examples + -------- + Consider a dataset containing food consumption in Argentina. + + >>> df = pd.DataFrame({{'consumption': [10.51, 103.11, 55.48], + ... 'co2_emissions': [37.2, 19.66, 1712]}}, + ... index=['Pork', 'Wheat Products', 'Beef']) + + >>> df + consumption co2_emissions + Pork 10.51 37.20 + Wheat Products 103.11 19.66 + Beef 55.48 1712.00 + + By default, it returns the index for the maximum value in each column. + + >>> df.idxmax() + consumption Wheat Products + co2_emissions Beef + dtype: object + + To return the index for the maximum value in each row, use ``axis="columns"``. + + >>> df.idxmax(axis="columns") + Pork co2_emissions + Wheat Products consumption + Beef co2_emissions + dtype: object +""" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sorting.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sorting.py new file mode 100644 index 0000000000000000000000000000000000000000..a431842218b3bbb97cb5373e03d2a31a4f69ca10 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sorting.py @@ -0,0 +1,748 @@ +""" miscellaneous sorting / groupby utilities """ +from __future__ import annotations + +from collections import defaultdict +from typing import ( + TYPE_CHECKING, + Callable, + DefaultDict, + cast, +) + +import numpy as np + +from pandas._libs import ( + algos, + hashtable, + lib, +) +from pandas._libs.hashtable import unique_label_indices + +from pandas.core.dtypes.common import ( + ensure_int64, + ensure_platform_int, +) +from pandas.core.dtypes.generic import ( + ABCMultiIndex, + ABCRangeIndex, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.construction import extract_array + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterable, + Sequence, + ) + + from pandas._typing import ( + ArrayLike, + AxisInt, + IndexKeyFunc, + Level, + NaPosition, + Shape, + SortKind, + npt, + ) + + from pandas import ( + MultiIndex, + Series, + ) + from pandas.core.arrays import ExtensionArray + from pandas.core.indexes.base import Index + + +def get_indexer_indexer( + target: Index, + level: Level | list[Level] | None, + ascending: list[bool] | bool, + kind: SortKind, + na_position: NaPosition, + sort_remaining: bool, + key: IndexKeyFunc, +) -> npt.NDArray[np.intp] | None: + """ + Helper method that return the indexer according to input parameters for + the sort_index method of DataFrame and Series. + + Parameters + ---------- + target : Index + level : int or level name or list of ints or list of level names + ascending : bool or list of bools, default True + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'} + na_position : {'first', 'last'} + sort_remaining : bool + key : callable, optional + + Returns + ------- + Optional[ndarray[intp]] + The indexer for the new index. + """ + + # error: Incompatible types in assignment (expression has type + # "Union[ExtensionArray, ndarray[Any, Any], Index, Series]", variable has + # type "Index") + target = ensure_key_mapped(target, key, levels=level) # type: ignore[assignment] + target = target._sort_levels_monotonic() + + if level is not None: + _, indexer = target.sortlevel( + level, + ascending=ascending, + sort_remaining=sort_remaining, + na_position=na_position, + ) + elif (np.all(ascending) and target.is_monotonic_increasing) or ( + not np.any(ascending) and target.is_monotonic_decreasing + ): + # Check monotonic-ness before sort an index (GH 11080) + return None + elif isinstance(target, ABCMultiIndex): + codes = [lev.codes for lev in target._get_codes_for_sorting()] + indexer = lexsort_indexer( + codes, orders=ascending, na_position=na_position, codes_given=True + ) + else: + # ascending can only be a Sequence for MultiIndex + indexer = nargsort( + target, + kind=kind, + ascending=cast(bool, ascending), + na_position=na_position, + ) + return indexer + + +def get_group_index( + labels, shape: Shape, sort: bool, xnull: bool +) -> npt.NDArray[np.int64]: + """ + For the particular label_list, gets the offsets into the hypothetical list + representing the totally ordered cartesian product of all possible label + combinations, *as long as* this space fits within int64 bounds; + otherwise, though group indices identify unique combinations of + labels, they cannot be deconstructed. + - If `sort`, rank of returned ids preserve lexical ranks of labels. + i.e. returned id's can be used to do lexical sort on labels; + - If `xnull` nulls (-1 labels) are passed through. + + Parameters + ---------- + labels : sequence of arrays + Integers identifying levels at each location + shape : tuple[int, ...] + Number of unique levels at each location + sort : bool + If the ranks of returned ids should match lexical ranks of labels + xnull : bool + If true nulls are excluded. i.e. -1 values in the labels are + passed through. + + Returns + ------- + An array of type int64 where two elements are equal if their corresponding + labels are equal at all location. + + Notes + ----- + The length of `labels` and `shape` must be identical. + """ + + def _int64_cut_off(shape) -> int: + acc = 1 + for i, mul in enumerate(shape): + acc *= int(mul) + if not acc < lib.i8max: + return i + return len(shape) + + def maybe_lift(lab, size: int) -> tuple[np.ndarray, int]: + # promote nan values (assigned -1 label in lab array) + # so that all output values are non-negative + return (lab + 1, size + 1) if (lab == -1).any() else (lab, size) + + labels = [ensure_int64(x) for x in labels] + lshape = list(shape) + if not xnull: + for i, (lab, size) in enumerate(zip(labels, shape)): + labels[i], lshape[i] = maybe_lift(lab, size) + + labels = list(labels) + + # Iteratively process all the labels in chunks sized so less + # than lib.i8max unique int ids will be required for each chunk + while True: + # how many levels can be done without overflow: + nlev = _int64_cut_off(lshape) + + # compute flat ids for the first `nlev` levels + stride = np.prod(lshape[1:nlev], dtype="i8") + out = stride * labels[0].astype("i8", subok=False, copy=False) + + for i in range(1, nlev): + if lshape[i] == 0: + stride = np.int64(0) + else: + stride //= lshape[i] + out += labels[i] * stride + + if xnull: # exclude nulls + mask = labels[0] == -1 + for lab in labels[1:nlev]: + mask |= lab == -1 + out[mask] = -1 + + if nlev == len(lshape): # all levels done! + break + + # compress what has been done so far in order to avoid overflow + # to retain lexical ranks, obs_ids should be sorted + comp_ids, obs_ids = compress_group_index(out, sort=sort) + + labels = [comp_ids] + labels[nlev:] + lshape = [len(obs_ids)] + lshape[nlev:] + + return out + + +def get_compressed_ids( + labels, sizes: Shape +) -> tuple[npt.NDArray[np.intp], npt.NDArray[np.int64]]: + """ + Group_index is offsets into cartesian product of all possible labels. This + space can be huge, so this function compresses it, by computing offsets + (comp_ids) into the list of unique labels (obs_group_ids). + + Parameters + ---------- + labels : list of label arrays + sizes : tuple[int] of size of the levels + + Returns + ------- + np.ndarray[np.intp] + comp_ids + np.ndarray[np.int64] + obs_group_ids + """ + ids = get_group_index(labels, sizes, sort=True, xnull=False) + return compress_group_index(ids, sort=True) + + +def is_int64_overflow_possible(shape: Shape) -> bool: + the_prod = 1 + for x in shape: + the_prod *= int(x) + + return the_prod >= lib.i8max + + +def _decons_group_index( + comp_labels: npt.NDArray[np.intp], shape: Shape +) -> list[npt.NDArray[np.intp]]: + # reconstruct labels + if is_int64_overflow_possible(shape): + # at some point group indices are factorized, + # and may not be deconstructed here! wrong path! + raise ValueError("cannot deconstruct factorized group indices!") + + label_list = [] + factor = 1 + y = np.array(0) + x = comp_labels + for i in reversed(range(len(shape))): + labels = (x - y) % (factor * shape[i]) // factor + np.putmask(labels, comp_labels < 0, -1) + label_list.append(labels) + y = labels * factor + factor *= shape[i] + return label_list[::-1] + + +def decons_obs_group_ids( + comp_ids: npt.NDArray[np.intp], + obs_ids: npt.NDArray[np.intp], + shape: Shape, + labels: Sequence[npt.NDArray[np.signedinteger]], + xnull: bool, +) -> list[npt.NDArray[np.intp]]: + """ + Reconstruct labels from observed group ids. + + Parameters + ---------- + comp_ids : np.ndarray[np.intp] + obs_ids: np.ndarray[np.intp] + shape : tuple[int] + labels : Sequence[np.ndarray[np.signedinteger]] + xnull : bool + If nulls are excluded; i.e. -1 labels are passed through. + """ + if not xnull: + lift = np.fromiter(((a == -1).any() for a in labels), dtype=np.intp) + arr_shape = np.asarray(shape, dtype=np.intp) + lift + shape = tuple(arr_shape) + + if not is_int64_overflow_possible(shape): + # obs ids are deconstructable! take the fast route! + out = _decons_group_index(obs_ids, shape) + return out if xnull or not lift.any() else [x - y for x, y in zip(out, lift)] + + indexer = unique_label_indices(comp_ids) + return [lab[indexer].astype(np.intp, subok=False, copy=True) for lab in labels] + + +def lexsort_indexer( + keys: Sequence[ArrayLike | Index | Series], + orders=None, + na_position: str = "last", + key: Callable | None = None, + codes_given: bool = False, +) -> npt.NDArray[np.intp]: + """ + Performs lexical sorting on a set of keys + + Parameters + ---------- + keys : Sequence[ArrayLike | Index | Series] + Sequence of arrays to be sorted by the indexer + Sequence[Series] is only if key is not None. + orders : bool or list of booleans, optional + Determines the sorting order for each element in keys. If a list, + it must be the same length as keys. This determines whether the + corresponding element in keys should be sorted in ascending + (True) or descending (False) order. if bool, applied to all + elements as above. if None, defaults to True. + na_position : {'first', 'last'}, default 'last' + Determines placement of NA elements in the sorted list ("last" or "first") + key : Callable, optional + Callable key function applied to every element in keys before sorting + codes_given: bool, False + Avoid categorical materialization if codes are already provided. + + Returns + ------- + np.ndarray[np.intp] + """ + from pandas.core.arrays import Categorical + + if na_position not in ["last", "first"]: + raise ValueError(f"invalid na_position: {na_position}") + + if isinstance(orders, bool): + orders = [orders] * len(keys) + elif orders is None: + orders = [True] * len(keys) + + labels = [] + + for k, order in zip(keys, orders): + k = ensure_key_mapped(k, key) + if codes_given: + codes = cast(np.ndarray, k) + n = codes.max() + 1 if len(codes) else 0 + else: + cat = Categorical(k, ordered=True) + codes = cat.codes + n = len(cat.categories) + + mask = codes == -1 + + if na_position == "last" and mask.any(): + codes = np.where(mask, n, codes) + + # not order means descending + if not order: + codes = np.where(mask, codes, n - codes - 1) + + labels.append(codes) + + return np.lexsort(labels[::-1]) + + +def nargsort( + items: ArrayLike | Index | Series, + kind: SortKind = "quicksort", + ascending: bool = True, + na_position: str = "last", + key: Callable | None = None, + mask: npt.NDArray[np.bool_] | None = None, +) -> npt.NDArray[np.intp]: + """ + Intended to be a drop-in replacement for np.argsort which handles NaNs. + + Adds ascending, na_position, and key parameters. + + (GH #6399, #5231, #27237) + + Parameters + ---------- + items : np.ndarray, ExtensionArray, Index, or Series + kind : {'quicksort', 'mergesort', 'heapsort', 'stable'}, default 'quicksort' + ascending : bool, default True + na_position : {'first', 'last'}, default 'last' + key : Optional[Callable], default None + mask : Optional[np.ndarray[bool]], default None + Passed when called by ExtensionArray.argsort. + + Returns + ------- + np.ndarray[np.intp] + """ + + if key is not None: + # see TestDataFrameSortKey, TestRangeIndex::test_sort_values_key + items = ensure_key_mapped(items, key) + return nargsort( + items, + kind=kind, + ascending=ascending, + na_position=na_position, + key=None, + mask=mask, + ) + + if isinstance(items, ABCRangeIndex): + return items.argsort(ascending=ascending) + elif not isinstance(items, ABCMultiIndex): + items = extract_array(items) + else: + raise TypeError( + "nargsort does not support MultiIndex. Use index.sort_values instead." + ) + + if mask is None: + mask = np.asarray(isna(items)) + + if not isinstance(items, np.ndarray): + # i.e. ExtensionArray + return items.argsort( + ascending=ascending, + kind=kind, + na_position=na_position, + ) + + idx = np.arange(len(items)) + non_nans = items[~mask] + non_nan_idx = idx[~mask] + + nan_idx = np.nonzero(mask)[0] + if not ascending: + non_nans = non_nans[::-1] + non_nan_idx = non_nan_idx[::-1] + indexer = non_nan_idx[non_nans.argsort(kind=kind)] + if not ascending: + indexer = indexer[::-1] + # Finally, place the NaNs at the end or the beginning according to + # na_position + if na_position == "last": + indexer = np.concatenate([indexer, nan_idx]) + elif na_position == "first": + indexer = np.concatenate([nan_idx, indexer]) + else: + raise ValueError(f"invalid na_position: {na_position}") + return ensure_platform_int(indexer) + + +def nargminmax(values: ExtensionArray, method: str, axis: AxisInt = 0): + """ + Implementation of np.argmin/argmax but for ExtensionArray and which + handles missing values. + + Parameters + ---------- + values : ExtensionArray + method : {"argmax", "argmin"} + axis : int, default 0 + + Returns + ------- + int + """ + assert method in {"argmax", "argmin"} + func = np.argmax if method == "argmax" else np.argmin + + mask = np.asarray(isna(values)) + arr_values = values._values_for_argsort() + + if arr_values.ndim > 1: + if mask.any(): + if axis == 1: + zipped = zip(arr_values, mask) + else: + zipped = zip(arr_values.T, mask.T) + return np.array([_nanargminmax(v, m, func) for v, m in zipped]) + return func(arr_values, axis=axis) + + return _nanargminmax(arr_values, mask, func) + + +def _nanargminmax(values: np.ndarray, mask: npt.NDArray[np.bool_], func) -> int: + """ + See nanargminmax.__doc__. + """ + idx = np.arange(values.shape[0]) + non_nans = values[~mask] + non_nan_idx = idx[~mask] + + return non_nan_idx[func(non_nans)] + + +def _ensure_key_mapped_multiindex( + index: MultiIndex, key: Callable, level=None +) -> MultiIndex: + """ + Returns a new MultiIndex in which key has been applied + to all levels specified in level (or all levels if level + is None). Used for key sorting for MultiIndex. + + Parameters + ---------- + index : MultiIndex + Index to which to apply the key function on the + specified levels. + key : Callable + Function that takes an Index and returns an Index of + the same shape. This key is applied to each level + separately. The name of the level can be used to + distinguish different levels for application. + level : list-like, int or str, default None + Level or list of levels to apply the key function to. + If None, key function is applied to all levels. Other + levels are left unchanged. + + Returns + ------- + labels : MultiIndex + Resulting MultiIndex with modified levels. + """ + + if level is not None: + if isinstance(level, (str, int)): + sort_levels = [level] + else: + sort_levels = level + + sort_levels = [index._get_level_number(lev) for lev in sort_levels] + else: + sort_levels = list(range(index.nlevels)) # satisfies mypy + + mapped = [ + ensure_key_mapped(index._get_level_values(level), key) + if level in sort_levels + else index._get_level_values(level) + for level in range(index.nlevels) + ] + + return type(index).from_arrays(mapped) + + +def ensure_key_mapped( + values: ArrayLike | Index | Series, key: Callable | None, levels=None +) -> ArrayLike | Index | Series: + """ + Applies a callable key function to the values function and checks + that the resulting value has the same shape. Can be called on Index + subclasses, Series, DataFrames, or ndarrays. + + Parameters + ---------- + values : Series, DataFrame, Index subclass, or ndarray + key : Optional[Callable], key to be called on the values array + levels : Optional[List], if values is a MultiIndex, list of levels to + apply the key to. + """ + from pandas.core.indexes.api import Index + + if not key: + return values + + if isinstance(values, ABCMultiIndex): + return _ensure_key_mapped_multiindex(values, key, level=levels) + + result = key(values.copy()) + if len(result) != len(values): + raise ValueError( + "User-provided `key` function must not change the shape of the array." + ) + + try: + if isinstance( + values, Index + ): # convert to a new Index subclass, not necessarily the same + result = Index(result) + else: + # try to revert to original type otherwise + type_of_values = type(values) + # error: Too many arguments for "ExtensionArray" + result = type_of_values(result) # type: ignore[call-arg] + except TypeError: + raise TypeError( + f"User-provided `key` function returned an invalid type {type(result)} \ + which could not be converted to {type(values)}." + ) + + return result + + +def get_flattened_list( + comp_ids: npt.NDArray[np.intp], + ngroups: int, + levels: Iterable[Index], + labels: Iterable[np.ndarray], +) -> list[tuple]: + """Map compressed group id -> key tuple.""" + comp_ids = comp_ids.astype(np.int64, copy=False) + arrays: DefaultDict[int, list[int]] = defaultdict(list) + for labs, level in zip(labels, levels): + table = hashtable.Int64HashTable(ngroups) + table.map_keys_to_values(comp_ids, labs.astype(np.int64, copy=False)) + for i in range(ngroups): + arrays[i].append(level[table.get_item(i)]) + return [tuple(array) for array in arrays.values()] + + +def get_indexer_dict( + label_list: list[np.ndarray], keys: list[Index] +) -> dict[Hashable, npt.NDArray[np.intp]]: + """ + Returns + ------- + dict: + Labels mapped to indexers. + """ + shape = tuple(len(x) for x in keys) + + group_index = get_group_index(label_list, shape, sort=True, xnull=True) + if np.all(group_index == -1): + # Short-circuit, lib.indices_fast will return the same + return {} + ngroups = ( + ((group_index.size and group_index.max()) + 1) + if is_int64_overflow_possible(shape) + else np.prod(shape, dtype="i8") + ) + + sorter = get_group_index_sorter(group_index, ngroups) + + sorted_labels = [lab.take(sorter) for lab in label_list] + group_index = group_index.take(sorter) + + return lib.indices_fast(sorter, group_index, keys, sorted_labels) + + +# ---------------------------------------------------------------------- +# sorting levels...cleverly? + + +def get_group_index_sorter( + group_index: npt.NDArray[np.intp], ngroups: int | None = None +) -> npt.NDArray[np.intp]: + """ + algos.groupsort_indexer implements `counting sort` and it is at least + O(ngroups), where + ngroups = prod(shape) + shape = map(len, keys) + that is, linear in the number of combinations (cartesian product) of unique + values of groupby keys. This can be huge when doing multi-key groupby. + np.argsort(kind='mergesort') is O(count x log(count)) where count is the + length of the data-frame; + Both algorithms are `stable` sort and that is necessary for correctness of + groupby operations. e.g. consider: + df.groupby(key)[col].transform('first') + + Parameters + ---------- + group_index : np.ndarray[np.intp] + signed integer dtype + ngroups : int or None, default None + + Returns + ------- + np.ndarray[np.intp] + """ + if ngroups is None: + ngroups = 1 + group_index.max() + count = len(group_index) + alpha = 0.0 # taking complexities literally; there may be + beta = 1.0 # some room for fine-tuning these parameters + do_groupsort = count > 0 and ((alpha + beta * ngroups) < (count * np.log(count))) + if do_groupsort: + sorter, _ = algos.groupsort_indexer( + ensure_platform_int(group_index), + ngroups, + ) + # sorter _should_ already be intp, but mypy is not yet able to verify + else: + sorter = group_index.argsort(kind="mergesort") + return ensure_platform_int(sorter) + + +def compress_group_index( + group_index: npt.NDArray[np.int64], sort: bool = True +) -> tuple[npt.NDArray[np.int64], npt.NDArray[np.int64]]: + """ + Group_index is offsets into cartesian product of all possible labels. This + space can be huge, so this function compresses it, by computing offsets + (comp_ids) into the list of unique labels (obs_group_ids). + """ + if len(group_index) and np.all(group_index[1:] >= group_index[:-1]): + # GH 53806: fast path for sorted group_index + unique_mask = np.concatenate( + [group_index[:1] > -1, group_index[1:] != group_index[:-1]] + ) + comp_ids = unique_mask.cumsum() + comp_ids -= 1 + obs_group_ids = group_index[unique_mask] + else: + size_hint = len(group_index) + table = hashtable.Int64HashTable(size_hint) + + group_index = ensure_int64(group_index) + + # note, group labels come out ascending (ie, 1,2,3 etc) + comp_ids, obs_group_ids = table.get_labels_groupby(group_index) + + if sort and len(obs_group_ids) > 0: + obs_group_ids, comp_ids = _reorder_by_uniques(obs_group_ids, comp_ids) + + return ensure_int64(comp_ids), ensure_int64(obs_group_ids) + + +def _reorder_by_uniques( + uniques: npt.NDArray[np.int64], labels: npt.NDArray[np.intp] +) -> tuple[npt.NDArray[np.int64], npt.NDArray[np.intp]]: + """ + Parameters + ---------- + uniques : np.ndarray[np.int64] + labels : np.ndarray[np.intp] + + Returns + ------- + np.ndarray[np.int64] + np.ndarray[np.intp] + """ + # sorter is index where elements ought to go + sorter = uniques.argsort() + + # reverse_indexer is where elements came from + reverse_indexer = np.empty(len(sorter), dtype=np.intp) + reverse_indexer.put(sorter, np.arange(len(sorter))) + + mask = labels < 0 + + # move labels to right locations (ie, unsort ascending labels) + labels = reverse_indexer.take(labels) + np.putmask(labels, mask, -1) + + # sort observed ids + uniques = uniques.take(sorter) + + return uniques, labels diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sparse/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sparse/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sparse/api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sparse/api.py new file mode 100644 index 0000000000000000000000000000000000000000..6650a5c4e90a0f73a43e6e35cdd26c1189daf256 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/sparse/api.py @@ -0,0 +1,5 @@ +from pandas.core.dtypes.dtypes import SparseDtype + +from pandas.core.arrays.sparse import SparseArray + +__all__ = ["SparseArray", "SparseDtype"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..d4ce75f768c5d1dcd8586264fe1faf756d5d5e94 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__init__.py @@ -0,0 +1,28 @@ +""" +Implementation of pandas.Series.str and its interface. + +* strings.accessor.StringMethods : Accessor for Series.str +* strings.base.BaseStringArrayMethods: Mixin ABC for EAs to implement str methods + +Most methods on the StringMethods accessor follow the pattern: + + 1. extract the array from the series (or index) + 2. Call that array's implementation of the string method + 3. Wrap the result (in a Series, index, or DataFrame) + +Pandas extension arrays implementing string methods should inherit from +pandas.core.strings.base.BaseStringArrayMethods. This is an ABC defining +the various string methods. To avoid namespace clashes and pollution, +these are prefixed with `_str_`. So ``Series.str.upper()`` calls +``Series.array._str_upper()``. The interface isn't currently public +to other string extension arrays. +""" +# Pandas current implementation is in ObjectStringArrayMixin. This is designed +# to work on object-dtype ndarrays. +# +# BaseStringArrayMethods +# - ObjectStringArrayMixin +# - StringArray +# - NumpyExtensionArray +# - Categorical +# - ArrowStringArray diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..7daf1b3c0b2130baea82bc7fca7888b0f77eae9f Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/__init__.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/base.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/base.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..a9962513d29235a8156b52314cabaefadde3fa48 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/base.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/object_array.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/object_array.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..9fa9c824897ac7944d4cc33de240ba157a45a001 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/__pycache__/object_array.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/accessor.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/accessor.py new file mode 100644 index 0000000000000000000000000000000000000000..c0e458f7968e799d7cdd937fe960e9f0c79cd3e7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/accessor.py @@ -0,0 +1,3571 @@ +from __future__ import annotations + +import codecs +from functools import wraps +import re +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, +) +import warnings + +import numpy as np + +from pandas._config import get_option + +from pandas._libs import lib +from pandas._typing import ( + AlignJoin, + DtypeObj, + F, + Scalar, + npt, +) +from pandas.util._decorators import Appender +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + ensure_object, + is_bool_dtype, + is_integer, + is_list_like, + is_object_dtype, + is_re, + is_string_dtype, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCIndex, + ABCMultiIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import isna + +from pandas.core.arrays import ExtensionArray +from pandas.core.base import NoNewAttributesMixin +from pandas.core.construction import extract_array + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + ) + + from pandas import ( + DataFrame, + Index, + Series, + ) + +_shared_docs: dict[str, str] = {} +_cpython_optimized_encoders = ( + "utf-8", + "utf8", + "latin-1", + "latin1", + "iso-8859-1", + "mbcs", + "ascii", +) +_cpython_optimized_decoders = _cpython_optimized_encoders + ("utf-16", "utf-32") + + +def forbid_nonstring_types( + forbidden: list[str] | None, name: str | None = None +) -> Callable[[F], F]: + """ + Decorator to forbid specific types for a method of StringMethods. + + For calling `.str.{method}` on a Series or Index, it is necessary to first + initialize the :class:`StringMethods` object, and then call the method. + However, different methods allow different input types, and so this can not + be checked during :meth:`StringMethods.__init__`, but must be done on a + per-method basis. This decorator exists to facilitate this process, and + make it explicit which (inferred) types are disallowed by the method. + + :meth:`StringMethods.__init__` allows the *union* of types its different + methods allow (after skipping NaNs; see :meth:`StringMethods._validate`), + namely: ['string', 'empty', 'bytes', 'mixed', 'mixed-integer']. + + The default string types ['string', 'empty'] are allowed for all methods. + For the additional types ['bytes', 'mixed', 'mixed-integer'], each method + then needs to forbid the types it is not intended for. + + Parameters + ---------- + forbidden : list-of-str or None + List of forbidden non-string types, may be one or more of + `['bytes', 'mixed', 'mixed-integer']`. + name : str, default None + Name of the method to use in the error message. By default, this is + None, in which case the name from the method being wrapped will be + copied. However, for working with further wrappers (like _pat_wrapper + and _noarg_wrapper), it is necessary to specify the name. + + Returns + ------- + func : wrapper + The method to which the decorator is applied, with an added check that + enforces the inferred type to not be in the list of forbidden types. + + Raises + ------ + TypeError + If the inferred type of the underlying data is in `forbidden`. + """ + # deal with None + forbidden = [] if forbidden is None else forbidden + + allowed_types = {"string", "empty", "bytes", "mixed", "mixed-integer"} - set( + forbidden + ) + + def _forbid_nonstring_types(func: F) -> F: + func_name = func.__name__ if name is None else name + + @wraps(func) + def wrapper(self, *args, **kwargs): + if self._inferred_dtype not in allowed_types: + msg = ( + f"Cannot use .str.{func_name} with values of " + f"inferred dtype '{self._inferred_dtype}'." + ) + raise TypeError(msg) + return func(self, *args, **kwargs) + + wrapper.__name__ = func_name + return cast(F, wrapper) + + return _forbid_nonstring_types + + +def _map_and_wrap(name: str | None, docstring: str | None): + @forbid_nonstring_types(["bytes"], name=name) + def wrapper(self): + result = getattr(self._data.array, f"_str_{name}")() + return self._wrap_result( + result, returns_string=name not in ("isnumeric", "isdecimal") + ) + + wrapper.__doc__ = docstring + return wrapper + + +class StringMethods(NoNewAttributesMixin): + """ + Vectorized string functions for Series and Index. + + NAs stay NA unless handled otherwise by a particular method. + Patterned after Python's string methods, with some inspiration from + R's stringr package. + + Examples + -------- + >>> s = pd.Series(["A_Str_Series"]) + >>> s + 0 A_Str_Series + dtype: object + + >>> s.str.split("_") + 0 [A, Str, Series] + dtype: object + + >>> s.str.replace("_", "") + 0 AStrSeries + dtype: object + """ + + # Note: see the docstring in pandas.core.strings.__init__ + # for an explanation of the implementation. + # TODO: Dispatch all the methods + # Currently the following are not dispatched to the array + # * cat + # * extractall + + def __init__(self, data) -> None: + from pandas.core.arrays.string_ import StringDtype + + self._inferred_dtype = self._validate(data) + self._is_categorical = isinstance(data.dtype, CategoricalDtype) + self._is_string = isinstance(data.dtype, StringDtype) + self._data = data + + self._index = self._name = None + if isinstance(data, ABCSeries): + self._index = data.index + self._name = data.name + + # ._values.categories works for both Series/Index + self._parent = data._values.categories if self._is_categorical else data + # save orig to blow up categoricals to the right type + self._orig = data + self._freeze() + + @staticmethod + def _validate(data): + """ + Auxiliary function for StringMethods, infers and checks dtype of data. + + This is a "first line of defence" at the creation of the StringMethods- + object, and just checks that the dtype is in the + *union* of the allowed types over all string methods below; this + restriction is then refined on a per-method basis using the decorator + @forbid_nonstring_types (more info in the corresponding docstring). + + This really should exclude all series/index with any non-string values, + but that isn't practical for performance reasons until we have a str + dtype (GH 9343 / 13877) + + Parameters + ---------- + data : The content of the Series + + Returns + ------- + dtype : inferred dtype of data + """ + if isinstance(data, ABCMultiIndex): + raise AttributeError( + "Can only use .str accessor with Index, not MultiIndex" + ) + + # see _libs/lib.pyx for list of inferred types + allowed_types = ["string", "empty", "bytes", "mixed", "mixed-integer"] + + data = extract_array(data) + + values = getattr(data, "categories", data) # categorical / normal + + inferred_dtype = lib.infer_dtype(values, skipna=True) + + if inferred_dtype not in allowed_types: + raise AttributeError("Can only use .str accessor with string values!") + return inferred_dtype + + def __getitem__(self, key): + result = self._data.array._str_getitem(key) + return self._wrap_result(result) + + def __iter__(self) -> Iterator: + raise TypeError(f"'{type(self).__name__}' object is not iterable") + + def _wrap_result( + self, + result, + name=None, + expand: bool | None = None, + fill_value=np.nan, + returns_string: bool = True, + returns_bool: bool = False, + dtype=None, + ): + from pandas import ( + Index, + MultiIndex, + ) + + if not hasattr(result, "ndim") or not hasattr(result, "dtype"): + if isinstance(result, ABCDataFrame): + result = result.__finalize__(self._orig, name="str") + return result + assert result.ndim < 3 + + # We can be wrapping a string / object / categorical result, in which + # case we'll want to return the same dtype as the input. + # Or we can be wrapping a numeric output, in which case we don't want + # to return a StringArray. + # Ideally the array method returns the right array type. + if expand is None: + # infer from ndim if expand is not specified + expand = result.ndim != 1 + elif expand is True and not isinstance(self._orig, ABCIndex): + # required when expand=True is explicitly specified + # not needed when inferred + if isinstance(result.dtype, ArrowDtype): + import pyarrow as pa + + from pandas.compat import pa_version_under11p0 + + from pandas.core.arrays.arrow.array import ArrowExtensionArray + + value_lengths = pa.compute.list_value_length(result._pa_array) + max_len = pa.compute.max(value_lengths).as_py() + min_len = pa.compute.min(value_lengths).as_py() + if result._hasna: + # ArrowExtensionArray.fillna doesn't work for list scalars + result = ArrowExtensionArray( + result._pa_array.fill_null([None] * max_len) + ) + if min_len < max_len: + # append nulls to each scalar list element up to max_len + if not pa_version_under11p0: + result = ArrowExtensionArray( + pa.compute.list_slice( + result._pa_array, + start=0, + stop=max_len, + return_fixed_size_list=True, + ) + ) + else: + all_null = np.full(max_len, fill_value=None, dtype=object) + values = result.to_numpy() + new_values = [] + for row in values: + if len(row) < max_len: + nulls = all_null[: max_len - len(row)] + row = np.append(row, nulls) + new_values.append(row) + pa_type = result._pa_array.type + result = ArrowExtensionArray(pa.array(new_values, type=pa_type)) + if name is not None: + labels = name + else: + labels = range(max_len) + result = ( + pa.compute.list_flatten(result._pa_array) + .to_numpy() + .reshape(len(result), max_len) + ) + result = { + label: ArrowExtensionArray(pa.array(res)) + for label, res in zip(labels, result.T) + } + elif is_object_dtype(result): + + def cons_row(x): + if is_list_like(x): + return x + else: + return [x] + + result = [cons_row(x) for x in result] + if result and not self._is_string: + # propagate nan values to match longest sequence (GH 18450) + max_len = max(len(x) for x in result) + result = [ + x * max_len if len(x) == 0 or x[0] is np.nan else x + for x in result + ] + + if not isinstance(expand, bool): + raise ValueError("expand must be True or False") + + if expand is False: + # if expand is False, result should have the same name + # as the original otherwise specified + if name is None: + name = getattr(result, "name", None) + if name is None: + # do not use logical or, _orig may be a DataFrame + # which has "name" column + name = self._orig.name + + # Wait until we are sure result is a Series or Index before + # checking attributes (GH 12180) + if isinstance(self._orig, ABCIndex): + # if result is a boolean np.array, return the np.array + # instead of wrapping it into a boolean Index (GH 8875) + if is_bool_dtype(result): + return result + + if expand: + result = list(result) + out: Index = MultiIndex.from_tuples(result, names=name) + if out.nlevels == 1: + # We had all tuples of length-one, which are + # better represented as a regular Index. + out = out.get_level_values(0) + return out + else: + return Index(result, name=name, dtype=dtype) + else: + index = self._orig.index + # This is a mess. + _dtype: DtypeObj | str | None = dtype + vdtype = getattr(result, "dtype", None) + if _dtype is not None: + pass + elif self._is_string: + if is_bool_dtype(vdtype): + _dtype = result.dtype + elif returns_string: + _dtype = self._orig.dtype + else: + _dtype = vdtype + elif vdtype is not None: + _dtype = vdtype + + if expand: + cons = self._orig._constructor_expanddim + result = cons(result, columns=name, index=index, dtype=_dtype) + else: + # Must be a Series + cons = self._orig._constructor + result = cons(result, name=name, index=index, dtype=_dtype) + result = result.__finalize__(self._orig, method="str") + if name is not None and result.ndim == 1: + # __finalize__ might copy over the original name, but we may + # want the new name (e.g. str.extract). + result.name = name + return result + + def _get_series_list(self, others): + """ + Auxiliary function for :meth:`str.cat`. Turn potentially mixed input + into a list of Series (elements without an index must match the length + of the calling Series/Index). + + Parameters + ---------- + others : Series, DataFrame, np.ndarray, list-like or list-like of + Objects that are either Series, Index or np.ndarray (1-dim). + + Returns + ------- + list of Series + Others transformed into list of Series. + """ + from pandas import ( + DataFrame, + Series, + ) + + # self._orig is either Series or Index + idx = self._orig if isinstance(self._orig, ABCIndex) else self._orig.index + + # Generally speaking, all objects without an index inherit the index + # `idx` of the calling Series/Index - i.e. must have matching length. + # Objects with an index (i.e. Series/Index/DataFrame) keep their own. + if isinstance(others, ABCSeries): + return [others] + elif isinstance(others, ABCIndex): + return [Series(others, index=idx, dtype=others.dtype)] + elif isinstance(others, ABCDataFrame): + return [others[x] for x in others] + elif isinstance(others, np.ndarray) and others.ndim == 2: + others = DataFrame(others, index=idx) + return [others[x] for x in others] + elif is_list_like(others, allow_sets=False): + try: + others = list(others) # ensure iterators do not get read twice etc + except TypeError: + # e.g. ser.str, raise below + pass + else: + # in case of list-like `others`, all elements must be + # either Series/Index/np.ndarray (1-dim)... + if all( + isinstance(x, (ABCSeries, ABCIndex, ExtensionArray)) + or (isinstance(x, np.ndarray) and x.ndim == 1) + for x in others + ): + los: list[Series] = [] + while others: # iterate through list and append each element + los = los + self._get_series_list(others.pop(0)) + return los + # ... or just strings + elif all(not is_list_like(x) for x in others): + return [Series(others, index=idx)] + raise TypeError( + "others must be Series, Index, DataFrame, np.ndarray " + "or list-like (either containing only strings or " + "containing only objects of type Series/Index/" + "np.ndarray[1-dim])" + ) + + @forbid_nonstring_types(["bytes", "mixed", "mixed-integer"]) + def cat( + self, + others=None, + sep: str | None = None, + na_rep=None, + join: AlignJoin = "left", + ) -> str | Series | Index: + """ + Concatenate strings in the Series/Index with given separator. + + If `others` is specified, this function concatenates the Series/Index + and elements of `others` element-wise. + If `others` is not passed, then all values in the Series/Index are + concatenated into a single string with a given `sep`. + + Parameters + ---------- + others : Series, Index, DataFrame, np.ndarray or list-like + Series, Index, DataFrame, np.ndarray (one- or two-dimensional) and + other list-likes of strings must have the same length as the + calling Series/Index, with the exception of indexed objects (i.e. + Series/Index/DataFrame) if `join` is not None. + + If others is a list-like that contains a combination of Series, + Index or np.ndarray (1-dim), then all elements will be unpacked and + must satisfy the above criteria individually. + + If others is None, the method returns the concatenation of all + strings in the calling Series/Index. + sep : str, default '' + The separator between the different elements/columns. By default + the empty string `''` is used. + na_rep : str or None, default None + Representation that is inserted for all missing values: + + - If `na_rep` is None, and `others` is None, missing values in the + Series/Index are omitted from the result. + - If `na_rep` is None, and `others` is not None, a row containing a + missing value in any of the columns (before concatenation) will + have a missing value in the result. + join : {'left', 'right', 'outer', 'inner'}, default 'left' + Determines the join-style between the calling Series/Index and any + Series/Index/DataFrame in `others` (objects without an index need + to match the length of the calling Series/Index). To disable + alignment, use `.values` on any Series/Index/DataFrame in `others`. + + Returns + ------- + str, Series or Index + If `others` is None, `str` is returned, otherwise a `Series/Index` + (same type as caller) of objects is returned. + + See Also + -------- + split : Split each string in the Series/Index. + join : Join lists contained as elements in the Series/Index. + + Examples + -------- + When not passing `others`, all values are concatenated into a single + string: + + >>> s = pd.Series(['a', 'b', np.nan, 'd']) + >>> s.str.cat(sep=' ') + 'a b d' + + By default, NA values in the Series are ignored. Using `na_rep`, they + can be given a representation: + + >>> s.str.cat(sep=' ', na_rep='?') + 'a b ? d' + + If `others` is specified, corresponding values are concatenated with + the separator. Result will be a Series of strings. + + >>> s.str.cat(['A', 'B', 'C', 'D'], sep=',') + 0 a,A + 1 b,B + 2 NaN + 3 d,D + dtype: object + + Missing values will remain missing in the result, but can again be + represented using `na_rep` + + >>> s.str.cat(['A', 'B', 'C', 'D'], sep=',', na_rep='-') + 0 a,A + 1 b,B + 2 -,C + 3 d,D + dtype: object + + If `sep` is not specified, the values are concatenated without + separation. + + >>> s.str.cat(['A', 'B', 'C', 'D'], na_rep='-') + 0 aA + 1 bB + 2 -C + 3 dD + dtype: object + + Series with different indexes can be aligned before concatenation. The + `join`-keyword works as in other methods. + + >>> t = pd.Series(['d', 'a', 'e', 'c'], index=[3, 0, 4, 2]) + >>> s.str.cat(t, join='left', na_rep='-') + 0 aa + 1 b- + 2 -c + 3 dd + dtype: object + >>> + >>> s.str.cat(t, join='outer', na_rep='-') + 0 aa + 1 b- + 2 -c + 3 dd + 4 -e + dtype: object + >>> + >>> s.str.cat(t, join='inner', na_rep='-') + 0 aa + 2 -c + 3 dd + dtype: object + >>> + >>> s.str.cat(t, join='right', na_rep='-') + 3 dd + 0 aa + 4 -e + 2 -c + dtype: object + + For more examples, see :ref:`here `. + """ + # TODO: dispatch + from pandas import ( + Index, + Series, + concat, + ) + + if isinstance(others, str): + raise ValueError("Did you mean to supply a `sep` keyword?") + if sep is None: + sep = "" + + if isinstance(self._orig, ABCIndex): + data = Series(self._orig, index=self._orig, dtype=self._orig.dtype) + else: # Series + data = self._orig + + # concatenate Series/Index with itself if no "others" + if others is None: + # error: Incompatible types in assignment (expression has type + # "ndarray", variable has type "Series") + data = ensure_object(data) # type: ignore[assignment] + na_mask = isna(data) + if na_rep is None and na_mask.any(): + return sep.join(data[~na_mask]) + elif na_rep is not None and na_mask.any(): + return sep.join(np.where(na_mask, na_rep, data)) + else: + return sep.join(data) + + try: + # turn anything in "others" into lists of Series + others = self._get_series_list(others) + except ValueError as err: # do not catch TypeError raised by _get_series_list + raise ValueError( + "If `others` contains arrays or lists (or other " + "list-likes without an index), these must all be " + "of the same length as the calling Series/Index." + ) from err + + # align if required + if any(not data.index.equals(x.index) for x in others): + # Need to add keys for uniqueness in case of duplicate columns + others = concat( + others, + axis=1, + join=(join if join == "inner" else "outer"), + keys=range(len(others)), + sort=False, + copy=False, + ) + data, others = data.align(others, join=join) + others = [others[x] for x in others] # again list of Series + + all_cols = [ensure_object(x) for x in [data] + others] + na_masks = np.array([isna(x) for x in all_cols]) + union_mask = np.logical_or.reduce(na_masks, axis=0) + + if na_rep is None and union_mask.any(): + # no na_rep means NaNs for all rows where any column has a NaN + # only necessary if there are actually any NaNs + result = np.empty(len(data), dtype=object) + np.putmask(result, union_mask, np.nan) + + not_masked = ~union_mask + result[not_masked] = cat_safe([x[not_masked] for x in all_cols], sep) + elif na_rep is not None and union_mask.any(): + # fill NaNs with na_rep in case there are actually any NaNs + all_cols = [ + np.where(nm, na_rep, col) for nm, col in zip(na_masks, all_cols) + ] + result = cat_safe(all_cols, sep) + else: + # no NaNs - can just concatenate + result = cat_safe(all_cols, sep) + + out: Index | Series + if isinstance(self._orig.dtype, CategoricalDtype): + # We need to infer the new categories. + dtype = self._orig.dtype.categories.dtype + else: + dtype = self._orig.dtype + if isinstance(self._orig, ABCIndex): + # add dtype for case that result is all-NA + if isna(result).all(): + dtype = object # type: ignore[assignment] + + out = Index(result, dtype=dtype, name=self._orig.name) + else: # Series + res_ser = Series( + result, dtype=dtype, index=data.index, name=self._orig.name, copy=False + ) + out = res_ser.__finalize__(self._orig, method="str_cat") + return out + + _shared_docs[ + "str_split" + ] = r""" + Split strings around given separator/delimiter. + + Splits the string in the Series/Index from the %(side)s, + at the specified delimiter string. + + Parameters + ---------- + pat : str%(pat_regex)s, optional + %(pat_description)s. + If not specified, split on whitespace. + n : int, default -1 (all) + Limit number of splits in output. + ``None``, 0 and -1 will be interpreted as return all splits. + expand : bool, default False + Expand the split strings into separate columns. + + - If ``True``, return DataFrame/MultiIndex expanding dimensionality. + - If ``False``, return Series/Index, containing lists of strings. + %(regex_argument)s + Returns + ------- + Series, Index, DataFrame or MultiIndex + Type matches caller unless ``expand=True`` (see Notes). + %(raises_split)s + See Also + -------- + Series.str.split : Split strings around given separator/delimiter. + Series.str.rsplit : Splits string around given separator/delimiter, + starting from the right. + Series.str.join : Join lists contained as elements in the Series/Index + with passed delimiter. + str.split : Standard library version for split. + str.rsplit : Standard library version for rsplit. + + Notes + ----- + The handling of the `n` keyword depends on the number of found splits: + + - If found splits > `n`, make first `n` splits only + - If found splits <= `n`, make all splits + - If for a certain row the number of found splits < `n`, + append `None` for padding up to `n` if ``expand=True`` + + If using ``expand=True``, Series and Index callers return DataFrame and + MultiIndex objects, respectively. + %(regex_pat_note)s + Examples + -------- + >>> s = pd.Series( + ... [ + ... "this is a regular sentence", + ... "https://docs.python.org/3/tutorial/index.html", + ... np.nan + ... ] + ... ) + >>> s + 0 this is a regular sentence + 1 https://docs.python.org/3/tutorial/index.html + 2 NaN + dtype: object + + In the default setting, the string is split by whitespace. + + >>> s.str.split() + 0 [this, is, a, regular, sentence] + 1 [https://docs.python.org/3/tutorial/index.html] + 2 NaN + dtype: object + + Without the `n` parameter, the outputs of `rsplit` and `split` + are identical. + + >>> s.str.rsplit() + 0 [this, is, a, regular, sentence] + 1 [https://docs.python.org/3/tutorial/index.html] + 2 NaN + dtype: object + + The `n` parameter can be used to limit the number of splits on the + delimiter. The outputs of `split` and `rsplit` are different. + + >>> s.str.split(n=2) + 0 [this, is, a regular sentence] + 1 [https://docs.python.org/3/tutorial/index.html] + 2 NaN + dtype: object + + >>> s.str.rsplit(n=2) + 0 [this is a, regular, sentence] + 1 [https://docs.python.org/3/tutorial/index.html] + 2 NaN + dtype: object + + The `pat` parameter can be used to split by other characters. + + >>> s.str.split(pat="/") + 0 [this is a regular sentence] + 1 [https:, , docs.python.org, 3, tutorial, index... + 2 NaN + dtype: object + + When using ``expand=True``, the split elements will expand out into + separate columns. If NaN is present, it is propagated throughout + the columns during the split. + + >>> s.str.split(expand=True) + 0 1 2 3 4 + 0 this is a regular sentence + 1 https://docs.python.org/3/tutorial/index.html None None None None + 2 NaN NaN NaN NaN NaN + + For slightly more complex use cases like splitting the html document name + from a url, a combination of parameter settings can be used. + + >>> s.str.rsplit("/", n=1, expand=True) + 0 1 + 0 this is a regular sentence None + 1 https://docs.python.org/3/tutorial index.html + 2 NaN NaN + %(regex_examples)s""" + + @Appender( + _shared_docs["str_split"] + % { + "side": "beginning", + "pat_regex": " or compiled regex", + "pat_description": "String or regular expression to split on", + "regex_argument": """ + regex : bool, default None + Determines if the passed-in pattern is a regular expression: + + - If ``True``, assumes the passed-in pattern is a regular expression + - If ``False``, treats the pattern as a literal string. + - If ``None`` and `pat` length is 1, treats `pat` as a literal string. + - If ``None`` and `pat` length is not 1, treats `pat` as a regular expression. + - Cannot be set to False if `pat` is a compiled regex + + .. versionadded:: 1.4.0 + """, + "raises_split": """ + Raises + ------ + ValueError + * if `regex` is False and `pat` is a compiled regex + """, + "regex_pat_note": """ + Use of `regex =False` with a `pat` as a compiled regex will raise an error. + """, + "method": "split", + "regex_examples": r""" + Remember to escape special characters when explicitly using regular expressions. + + >>> s = pd.Series(["foo and bar plus baz"]) + >>> s.str.split(r"and|plus", expand=True) + 0 1 2 + 0 foo bar baz + + Regular expressions can be used to handle urls or file names. + When `pat` is a string and ``regex=None`` (the default), the given `pat` is compiled + as a regex only if ``len(pat) != 1``. + + >>> s = pd.Series(['foojpgbar.jpg']) + >>> s.str.split(r".", expand=True) + 0 1 + 0 foojpgbar jpg + + >>> s.str.split(r"\.jpg", expand=True) + 0 1 + 0 foojpgbar + + When ``regex=True``, `pat` is interpreted as a regex + + >>> s.str.split(r"\.jpg", regex=True, expand=True) + 0 1 + 0 foojpgbar + + A compiled regex can be passed as `pat` + + >>> import re + >>> s.str.split(re.compile(r"\.jpg"), expand=True) + 0 1 + 0 foojpgbar + + When ``regex=False``, `pat` is interpreted as the string itself + + >>> s.str.split(r"\.jpg", regex=False, expand=True) + 0 + 0 foojpgbar.jpg + """, + } + ) + @forbid_nonstring_types(["bytes"]) + def split( + self, + pat: str | re.Pattern | None = None, + *, + n=-1, + expand: bool = False, + regex: bool | None = None, + ): + if regex is False and is_re(pat): + raise ValueError( + "Cannot use a compiled regex as replacement pattern with regex=False" + ) + if is_re(pat): + regex = True + result = self._data.array._str_split(pat, n, expand, regex) + if self._data.dtype == "category": + dtype = self._data.dtype.categories.dtype + else: + dtype = object if self._data.dtype == object else None + return self._wrap_result( + result, expand=expand, returns_string=expand, dtype=dtype + ) + + @Appender( + _shared_docs["str_split"] + % { + "side": "end", + "pat_regex": "", + "pat_description": "String to split on", + "regex_argument": "", + "raises_split": "", + "regex_pat_note": "", + "method": "rsplit", + "regex_examples": "", + } + ) + @forbid_nonstring_types(["bytes"]) + def rsplit(self, pat=None, *, n=-1, expand: bool = False): + result = self._data.array._str_rsplit(pat, n=n) + dtype = object if self._data.dtype == object else None + return self._wrap_result( + result, expand=expand, returns_string=expand, dtype=dtype + ) + + _shared_docs[ + "str_partition" + ] = """ + Split the string at the %(side)s occurrence of `sep`. + + This method splits the string at the %(side)s occurrence of `sep`, + and returns 3 elements containing the part before the separator, + the separator itself, and the part after the separator. + If the separator is not found, return %(return)s. + + Parameters + ---------- + sep : str, default whitespace + String to split on. + expand : bool, default True + If True, return DataFrame/MultiIndex expanding dimensionality. + If False, return Series/Index. + + Returns + ------- + DataFrame/MultiIndex or Series/Index of objects + + See Also + -------- + %(also)s + Series.str.split : Split strings around given separators. + str.partition : Standard library version. + + Examples + -------- + + >>> s = pd.Series(['Linda van der Berg', 'George Pitt-Rivers']) + >>> s + 0 Linda van der Berg + 1 George Pitt-Rivers + dtype: object + + >>> s.str.partition() + 0 1 2 + 0 Linda van der Berg + 1 George Pitt-Rivers + + To partition by the last space instead of the first one: + + >>> s.str.rpartition() + 0 1 2 + 0 Linda van der Berg + 1 George Pitt-Rivers + + To partition by something different than a space: + + >>> s.str.partition('-') + 0 1 2 + 0 Linda van der Berg + 1 George Pitt - Rivers + + To return a Series containing tuples instead of a DataFrame: + + >>> s.str.partition('-', expand=False) + 0 (Linda van der Berg, , ) + 1 (George Pitt, -, Rivers) + dtype: object + + Also available on indices: + + >>> idx = pd.Index(['X 123', 'Y 999']) + >>> idx + Index(['X 123', 'Y 999'], dtype='object') + + Which will create a MultiIndex: + + >>> idx.str.partition() + MultiIndex([('X', ' ', '123'), + ('Y', ' ', '999')], + ) + + Or an index with tuples with ``expand=False``: + + >>> idx.str.partition(expand=False) + Index([('X', ' ', '123'), ('Y', ' ', '999')], dtype='object') + """ + + @Appender( + _shared_docs["str_partition"] + % { + "side": "first", + "return": "3 elements containing the string itself, followed by two " + "empty strings", + "also": "rpartition : Split the string at the last occurrence of `sep`.", + } + ) + @forbid_nonstring_types(["bytes"]) + def partition(self, sep: str = " ", expand: bool = True): + result = self._data.array._str_partition(sep, expand) + if self._data.dtype == "category": + dtype = self._data.dtype.categories.dtype + else: + dtype = object if self._data.dtype == object else None + return self._wrap_result( + result, expand=expand, returns_string=expand, dtype=dtype + ) + + @Appender( + _shared_docs["str_partition"] + % { + "side": "last", + "return": "3 elements containing two empty strings, followed by the " + "string itself", + "also": "partition : Split the string at the first occurrence of `sep`.", + } + ) + @forbid_nonstring_types(["bytes"]) + def rpartition(self, sep: str = " ", expand: bool = True): + result = self._data.array._str_rpartition(sep, expand) + if self._data.dtype == "category": + dtype = self._data.dtype.categories.dtype + else: + dtype = object if self._data.dtype == object else None + return self._wrap_result( + result, expand=expand, returns_string=expand, dtype=dtype + ) + + def get(self, i): + """ + Extract element from each component at specified position or with specified key. + + Extract element from lists, tuples, dict, or strings in each element in the + Series/Index. + + Parameters + ---------- + i : int or hashable dict label + Position or key of element to extract. + + Returns + ------- + Series or Index + + Examples + -------- + >>> s = pd.Series(["String", + ... (1, 2, 3), + ... ["a", "b", "c"], + ... 123, + ... -456, + ... {1: "Hello", "2": "World"}]) + >>> s + 0 String + 1 (1, 2, 3) + 2 [a, b, c] + 3 123 + 4 -456 + 5 {1: 'Hello', '2': 'World'} + dtype: object + + >>> s.str.get(1) + 0 t + 1 2 + 2 b + 3 NaN + 4 NaN + 5 Hello + dtype: object + + >>> s.str.get(-1) + 0 g + 1 3 + 2 c + 3 NaN + 4 NaN + 5 None + dtype: object + + Return element with given key + + >>> s = pd.Series([{"name": "Hello", "value": "World"}, + ... {"name": "Goodbye", "value": "Planet"}]) + >>> s.str.get('name') + 0 Hello + 1 Goodbye + dtype: object + """ + result = self._data.array._str_get(i) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def join(self, sep: str): + """ + Join lists contained as elements in the Series/Index with passed delimiter. + + If the elements of a Series are lists themselves, join the content of these + lists using the delimiter passed to the function. + This function is an equivalent to :meth:`str.join`. + + Parameters + ---------- + sep : str + Delimiter to use between list entries. + + Returns + ------- + Series/Index: object + The list entries concatenated by intervening occurrences of the + delimiter. + + Raises + ------ + AttributeError + If the supplied Series contains neither strings nor lists. + + See Also + -------- + str.join : Standard library version of this method. + Series.str.split : Split strings around given separator/delimiter. + + Notes + ----- + If any of the list items is not a string object, the result of the join + will be `NaN`. + + Examples + -------- + Example with a list that contains non-string elements. + + >>> s = pd.Series([['lion', 'elephant', 'zebra'], + ... [1.1, 2.2, 3.3], + ... ['cat', np.nan, 'dog'], + ... ['cow', 4.5, 'goat'], + ... ['duck', ['swan', 'fish'], 'guppy']]) + >>> s + 0 [lion, elephant, zebra] + 1 [1.1, 2.2, 3.3] + 2 [cat, nan, dog] + 3 [cow, 4.5, goat] + 4 [duck, [swan, fish], guppy] + dtype: object + + Join all lists using a '-'. The lists containing object(s) of types other + than str will produce a NaN. + + >>> s.str.join('-') + 0 lion-elephant-zebra + 1 NaN + 2 NaN + 3 NaN + 4 NaN + dtype: object + """ + result = self._data.array._str_join(sep) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def contains( + self, + pat, + case: bool = True, + flags: int = 0, + na=lib.no_default, + regex: bool = True, + ): + r""" + Test if pattern or regex is contained within a string of a Series or Index. + + Return boolean Series or Index based on whether a given pattern or regex is + contained within a string of a Series or Index. + + Parameters + ---------- + pat : str + Character sequence or regular expression. + case : bool, default True + If True, case sensitive. + flags : int, default 0 (no flags) + Flags to pass through to the re module, e.g. re.IGNORECASE. + na : scalar, optional + Fill value for missing values. The default depends on dtype of the + array. For object-dtype, ``numpy.nan`` is used. For the nullable + ``StringDtype``, ``pandas.NA`` is used. For the ``"str"`` dtype, + ``False`` is used. + regex : bool, default True + If True, assumes the pat is a regular expression. + + If False, treats the pat as a literal string. + + Returns + ------- + Series or Index of boolean values + A Series or Index of boolean values indicating whether the + given pattern is contained within the string of each element + of the Series or Index. + + See Also + -------- + match : Analogous, but stricter, relying on re.match instead of re.search. + Series.str.startswith : Test if the start of each string element matches a + pattern. + Series.str.endswith : Same as startswith, but tests the end of string. + + Examples + -------- + Returning a Series of booleans using only a literal pattern. + + >>> s1 = pd.Series(['Mouse', 'dog', 'house and parrot', '23', np.nan]) + >>> s1.str.contains('og', regex=False) + 0 False + 1 True + 2 False + 3 False + 4 NaN + dtype: object + + Returning an Index of booleans using only a literal pattern. + + >>> ind = pd.Index(['Mouse', 'dog', 'house and parrot', '23.0', np.nan]) + >>> ind.str.contains('23', regex=False) + Index([False, False, False, True, nan], dtype='object') + + Specifying case sensitivity using `case`. + + >>> s1.str.contains('oG', case=True, regex=True) + 0 False + 1 False + 2 False + 3 False + 4 NaN + dtype: object + + Specifying `na` to be `False` instead of `NaN` replaces NaN values + with `False`. If Series or Index does not contain NaN values + the resultant dtype will be `bool`, otherwise, an `object` dtype. + + >>> s1.str.contains('og', na=False, regex=True) + 0 False + 1 True + 2 False + 3 False + 4 False + dtype: bool + + Returning 'house' or 'dog' when either expression occurs in a string. + + >>> s1.str.contains('house|dog', regex=True) + 0 False + 1 True + 2 True + 3 False + 4 NaN + dtype: object + + Ignoring case sensitivity using `flags` with regex. + + >>> import re + >>> s1.str.contains('PARROT', flags=re.IGNORECASE, regex=True) + 0 False + 1 False + 2 True + 3 False + 4 NaN + dtype: object + + Returning any digit using regular expression. + + >>> s1.str.contains('\\d', regex=True) + 0 False + 1 False + 2 False + 3 True + 4 NaN + dtype: object + + Ensure `pat` is a not a literal pattern when `regex` is set to True. + Note in the following example one might expect only `s2[1]` and `s2[3]` to + return `True`. However, '.0' as a regex matches any character + followed by a 0. + + >>> s2 = pd.Series(['40', '40.0', '41', '41.0', '35']) + >>> s2.str.contains('.0', regex=True) + 0 True + 1 True + 2 False + 3 True + 4 False + dtype: bool + """ + if regex and re.compile(pat).groups: + warnings.warn( + "This pattern is interpreted as a regular expression, and has " + "match groups. To actually get the groups, use str.extract.", + UserWarning, + stacklevel=find_stack_level(), + ) + + result = self._data.array._str_contains(pat, case, flags, na, regex) + return self._wrap_result(result, fill_value=na, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def match(self, pat: str, case: bool = True, flags: int = 0, na=lib.no_default): + """ + Determine if each string starts with a match of a regular expression. + + Parameters + ---------- + pat : str + Character sequence. + case : bool, default True + If True, case sensitive. + flags : int, default 0 (no flags) + Regex module flags, e.g. re.IGNORECASE. + na : scalar, optional + Fill value for missing values. The default depends on dtype of the + array. For object-dtype, ``numpy.nan`` is used. For the nullable + ``StringDtype``, ``pandas.NA`` is used. For the ``"str"`` dtype, + ``False`` is used. + + Returns + ------- + Series/Index/array of boolean values + + See Also + -------- + fullmatch : Stricter matching that requires the entire string to match. + contains : Analogous, but less strict, relying on re.search instead of + re.match. + extract : Extract matched groups. + + Examples + -------- + >>> ser = pd.Series(["horse", "eagle", "donkey"]) + >>> ser.str.match("e") + 0 False + 1 True + 2 False + dtype: bool + """ + result = self._data.array._str_match(pat, case=case, flags=flags, na=na) + return self._wrap_result(result, fill_value=na, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def fullmatch(self, pat, case: bool = True, flags: int = 0, na=lib.no_default): + """ + Determine if each string entirely matches a regular expression. + + Parameters + ---------- + pat : str + Character sequence or regular expression. + case : bool, default True + If True, case sensitive. + flags : int, default 0 (no flags) + Regex module flags, e.g. re.IGNORECASE. + na : scalar, optional + Fill value for missing values. The default depends on dtype of the + array. For object-dtype, ``numpy.nan`` is used. For the nullable + ``StringDtype``, ``pandas.NA`` is used. For the ``"str"`` dtype, + ``False`` is used. + + Returns + ------- + Series/Index/array of boolean values + + See Also + -------- + match : Similar, but also returns `True` when only a *prefix* of the string + matches the regular expression. + extract : Extract matched groups. + + Examples + -------- + >>> ser = pd.Series(["cat", "duck", "dove"]) + >>> ser.str.fullmatch(r'd.+') + 0 False + 1 True + 2 True + dtype: bool + """ + result = self._data.array._str_fullmatch(pat, case=case, flags=flags, na=na) + return self._wrap_result(result, fill_value=na, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def replace( + self, + pat: str | re.Pattern, + repl: str | Callable, + n: int = -1, + case: bool | None = None, + flags: int = 0, + regex: bool = False, + ): + r""" + Replace each occurrence of pattern/regex in the Series/Index. + + Equivalent to :meth:`str.replace` or :func:`re.sub`, depending on + the regex value. + + Parameters + ---------- + pat : str or compiled regex + String can be a character sequence or regular expression. + repl : str or callable + Replacement string or a callable. The callable is passed the regex + match object and must return a replacement string to be used. + See :func:`re.sub`. + n : int, default -1 (all) + Number of replacements to make from start. + case : bool, default None + Determines if replace is case sensitive: + + - If True, case sensitive (the default if `pat` is a string) + - Set to False for case insensitive + - Cannot be set if `pat` is a compiled regex. + + flags : int, default 0 (no flags) + Regex module flags, e.g. re.IGNORECASE. Cannot be set if `pat` is a compiled + regex. + regex : bool, default False + Determines if the passed-in pattern is a regular expression: + + - If True, assumes the passed-in pattern is a regular expression. + - If False, treats the pattern as a literal string + - Cannot be set to False if `pat` is a compiled regex or `repl` is + a callable. + + Returns + ------- + Series or Index of object + A copy of the object with all matching occurrences of `pat` replaced by + `repl`. + + Raises + ------ + ValueError + * if `regex` is False and `repl` is a callable or `pat` is a compiled + regex + * if `pat` is a compiled regex and `case` or `flags` is set + + Notes + ----- + When `pat` is a compiled regex, all flags should be included in the + compiled regex. Use of `case`, `flags`, or `regex=False` with a compiled + regex will raise an error. + + Examples + -------- + When `pat` is a string and `regex` is True, the given `pat` + is compiled as a regex. When `repl` is a string, it replaces matching + regex patterns as with :meth:`re.sub`. NaN value(s) in the Series are + left as is: + + >>> pd.Series(['foo', 'fuz', np.nan]).str.replace('f.', 'ba', regex=True) + 0 bao + 1 baz + 2 NaN + dtype: object + + When `pat` is a string and `regex` is False, every `pat` is replaced with + `repl` as with :meth:`str.replace`: + + >>> pd.Series(['f.o', 'fuz', np.nan]).str.replace('f.', 'ba', regex=False) + 0 bao + 1 fuz + 2 NaN + dtype: object + + When `repl` is a callable, it is called on every `pat` using + :func:`re.sub`. The callable should expect one positional argument + (a regex object) and return a string. + + To get the idea: + + >>> pd.Series(['foo', 'fuz', np.nan]).str.replace('f', repr, regex=True) + 0 oo + 1 uz + 2 NaN + dtype: object + + Reverse every lowercase alphabetic word: + + >>> repl = lambda m: m.group(0)[::-1] + >>> ser = pd.Series(['foo 123', 'bar baz', np.nan]) + >>> ser.str.replace(r'[a-z]+', repl, regex=True) + 0 oof 123 + 1 rab zab + 2 NaN + dtype: object + + Using regex groups (extract second group and swap case): + + >>> pat = r"(?P\w+) (?P\w+) (?P\w+)" + >>> repl = lambda m: m.group('two').swapcase() + >>> ser = pd.Series(['One Two Three', 'Foo Bar Baz']) + >>> ser.str.replace(pat, repl, regex=True) + 0 tWO + 1 bAR + dtype: object + + Using a compiled regex with flags + + >>> import re + >>> regex_pat = re.compile(r'FUZ', flags=re.IGNORECASE) + >>> pd.Series(['foo', 'fuz', np.nan]).str.replace(regex_pat, 'bar', regex=True) + 0 foo + 1 bar + 2 NaN + dtype: object + """ + # Check whether repl is valid (GH 13438, GH 15055) + if not (isinstance(repl, str) or callable(repl)): + raise TypeError("repl must be a string or callable") + + is_compiled_re = is_re(pat) + if regex or regex is None: + if is_compiled_re and (case is not None or flags != 0): + raise ValueError( + "case and flags cannot be set when pat is a compiled regex" + ) + + elif is_compiled_re: + raise ValueError( + "Cannot use a compiled regex as replacement pattern with regex=False" + ) + elif callable(repl): + raise ValueError("Cannot use a callable replacement when regex=False") + + if case is None: + case = True + + result = self._data.array._str_replace( + pat, repl, n=n, case=case, flags=flags, regex=regex + ) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def repeat(self, repeats): + """ + Duplicate each string in the Series or Index. + + Parameters + ---------- + repeats : int or sequence of int + Same value for all (int) or different value per (sequence). + + Returns + ------- + Series or pandas.Index + Series or Index of repeated string objects specified by + input parameter repeats. + + Examples + -------- + >>> s = pd.Series(['a', 'b', 'c']) + >>> s + 0 a + 1 b + 2 c + dtype: object + + Single int repeats string in Series + + >>> s.str.repeat(repeats=2) + 0 aa + 1 bb + 2 cc + dtype: object + + Sequence of int repeats corresponding string in Series + + >>> s.str.repeat(repeats=[1, 2, 3]) + 0 a + 1 bb + 2 ccc + dtype: object + """ + result = self._data.array._str_repeat(repeats) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def pad( + self, + width: int, + side: Literal["left", "right", "both"] = "left", + fillchar: str = " ", + ): + """ + Pad strings in the Series/Index up to width. + + Parameters + ---------- + width : int + Minimum width of resulting string; additional characters will be filled + with character defined in `fillchar`. + side : {'left', 'right', 'both'}, default 'left' + Side from which to fill resulting string. + fillchar : str, default ' ' + Additional character for filling, default is whitespace. + + Returns + ------- + Series or Index of object + Returns Series or Index with minimum number of char in object. + + See Also + -------- + Series.str.rjust : Fills the left side of strings with an arbitrary + character. Equivalent to ``Series.str.pad(side='left')``. + Series.str.ljust : Fills the right side of strings with an arbitrary + character. Equivalent to ``Series.str.pad(side='right')``. + Series.str.center : Fills both sides of strings with an arbitrary + character. Equivalent to ``Series.str.pad(side='both')``. + Series.str.zfill : Pad strings in the Series/Index by prepending '0' + character. Equivalent to ``Series.str.pad(side='left', fillchar='0')``. + + Examples + -------- + >>> s = pd.Series(["caribou", "tiger"]) + >>> s + 0 caribou + 1 tiger + dtype: object + + >>> s.str.pad(width=10) + 0 caribou + 1 tiger + dtype: object + + >>> s.str.pad(width=10, side='right', fillchar='-') + 0 caribou--- + 1 tiger----- + dtype: object + + >>> s.str.pad(width=10, side='both', fillchar='-') + 0 -caribou-- + 1 --tiger--- + dtype: object + """ + if not isinstance(fillchar, str): + msg = f"fillchar must be a character, not {type(fillchar).__name__}" + raise TypeError(msg) + + if len(fillchar) != 1: + raise TypeError("fillchar must be a character, not str") + + if not is_integer(width): + msg = f"width must be of integer type, not {type(width).__name__}" + raise TypeError(msg) + + result = self._data.array._str_pad(width, side=side, fillchar=fillchar) + return self._wrap_result(result) + + _shared_docs[ + "str_pad" + ] = """ + Pad %(side)s side of strings in the Series/Index. + + Equivalent to :meth:`str.%(method)s`. + + Parameters + ---------- + width : int + Minimum width of resulting string; additional characters will be filled + with ``fillchar``. + fillchar : str + Additional character for filling, default is whitespace. + + Returns + ------- + Series/Index of objects. + + Examples + -------- + For Series.str.center: + + >>> ser = pd.Series(['dog', 'bird', 'mouse']) + >>> ser.str.center(8, fillchar='.') + 0 ..dog... + 1 ..bird.. + 2 .mouse.. + dtype: object + + For Series.str.ljust: + + >>> ser = pd.Series(['dog', 'bird', 'mouse']) + >>> ser.str.ljust(8, fillchar='.') + 0 dog..... + 1 bird.... + 2 mouse... + dtype: object + + For Series.str.rjust: + + >>> ser = pd.Series(['dog', 'bird', 'mouse']) + >>> ser.str.rjust(8, fillchar='.') + 0 .....dog + 1 ....bird + 2 ...mouse + dtype: object + """ + + @Appender(_shared_docs["str_pad"] % {"side": "left and right", "method": "center"}) + @forbid_nonstring_types(["bytes"]) + def center(self, width: int, fillchar: str = " "): + return self.pad(width, side="both", fillchar=fillchar) + + @Appender(_shared_docs["str_pad"] % {"side": "right", "method": "ljust"}) + @forbid_nonstring_types(["bytes"]) + def ljust(self, width: int, fillchar: str = " "): + return self.pad(width, side="right", fillchar=fillchar) + + @Appender(_shared_docs["str_pad"] % {"side": "left", "method": "rjust"}) + @forbid_nonstring_types(["bytes"]) + def rjust(self, width: int, fillchar: str = " "): + return self.pad(width, side="left", fillchar=fillchar) + + @forbid_nonstring_types(["bytes"]) + def zfill(self, width: int): + """ + Pad strings in the Series/Index by prepending '0' characters. + + Strings in the Series/Index are padded with '0' characters on the + left of the string to reach a total string length `width`. Strings + in the Series/Index with length greater or equal to `width` are + unchanged. + + Parameters + ---------- + width : int + Minimum length of resulting string; strings with length less + than `width` be prepended with '0' characters. + + Returns + ------- + Series/Index of objects. + + See Also + -------- + Series.str.rjust : Fills the left side of strings with an arbitrary + character. + Series.str.ljust : Fills the right side of strings with an arbitrary + character. + Series.str.pad : Fills the specified sides of strings with an arbitrary + character. + Series.str.center : Fills both sides of strings with an arbitrary + character. + + Notes + ----- + Differs from :meth:`str.zfill` which has special handling + for '+'/'-' in the string. + + Examples + -------- + >>> s = pd.Series(['-1', '1', '1000', 10, np.nan]) + >>> s + 0 -1 + 1 1 + 2 1000 + 3 10 + 4 NaN + dtype: object + + Note that ``10`` and ``NaN`` are not strings, therefore they are + converted to ``NaN``. The minus sign in ``'-1'`` is treated as a + special character and the zero is added to the right of it + (:meth:`str.zfill` would have moved it to the left). ``1000`` + remains unchanged as it is longer than `width`. + + >>> s.str.zfill(3) + 0 -01 + 1 001 + 2 1000 + 3 NaN + 4 NaN + dtype: object + """ + if not is_integer(width): + msg = f"width must be of integer type, not {type(width).__name__}" + raise TypeError(msg) + f = lambda x: x.zfill(width) + result = self._data.array._str_map(f) + return self._wrap_result(result) + + def slice(self, start=None, stop=None, step=None): + """ + Slice substrings from each element in the Series or Index. + + Parameters + ---------- + start : int, optional + Start position for slice operation. + stop : int, optional + Stop position for slice operation. + step : int, optional + Step size for slice operation. + + Returns + ------- + Series or Index of object + Series or Index from sliced substring from original string object. + + See Also + -------- + Series.str.slice_replace : Replace a slice with a string. + Series.str.get : Return element at position. + Equivalent to `Series.str.slice(start=i, stop=i+1)` with `i` + being the position. + + Examples + -------- + >>> s = pd.Series(["koala", "dog", "chameleon"]) + >>> s + 0 koala + 1 dog + 2 chameleon + dtype: object + + >>> s.str.slice(start=1) + 0 oala + 1 og + 2 hameleon + dtype: object + + >>> s.str.slice(start=-1) + 0 a + 1 g + 2 n + dtype: object + + >>> s.str.slice(stop=2) + 0 ko + 1 do + 2 ch + dtype: object + + >>> s.str.slice(step=2) + 0 kaa + 1 dg + 2 caeen + dtype: object + + >>> s.str.slice(start=0, stop=5, step=3) + 0 kl + 1 d + 2 cm + dtype: object + + Equivalent behaviour to: + + >>> s.str[0:5:3] + 0 kl + 1 d + 2 cm + dtype: object + """ + result = self._data.array._str_slice(start, stop, step) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def slice_replace(self, start=None, stop=None, repl=None): + """ + Replace a positional slice of a string with another value. + + Parameters + ---------- + start : int, optional + Left index position to use for the slice. If not specified (None), + the slice is unbounded on the left, i.e. slice from the start + of the string. + stop : int, optional + Right index position to use for the slice. If not specified (None), + the slice is unbounded on the right, i.e. slice until the + end of the string. + repl : str, optional + String for replacement. If not specified (None), the sliced region + is replaced with an empty string. + + Returns + ------- + Series or Index + Same type as the original object. + + See Also + -------- + Series.str.slice : Just slicing without replacement. + + Examples + -------- + >>> s = pd.Series(['a', 'ab', 'abc', 'abdc', 'abcde']) + >>> s + 0 a + 1 ab + 2 abc + 3 abdc + 4 abcde + dtype: object + + Specify just `start`, meaning replace `start` until the end of the + string with `repl`. + + >>> s.str.slice_replace(1, repl='X') + 0 aX + 1 aX + 2 aX + 3 aX + 4 aX + dtype: object + + Specify just `stop`, meaning the start of the string to `stop` is replaced + with `repl`, and the rest of the string is included. + + >>> s.str.slice_replace(stop=2, repl='X') + 0 X + 1 X + 2 Xc + 3 Xdc + 4 Xcde + dtype: object + + Specify `start` and `stop`, meaning the slice from `start` to `stop` is + replaced with `repl`. Everything before or after `start` and `stop` is + included as is. + + >>> s.str.slice_replace(start=1, stop=3, repl='X') + 0 aX + 1 aX + 2 aX + 3 aXc + 4 aXde + dtype: object + """ + result = self._data.array._str_slice_replace(start, stop, repl) + return self._wrap_result(result) + + def decode( + self, encoding, errors: str = "strict", dtype: str | DtypeObj | None = None + ): + """ + Decode character string in the Series/Index using indicated encoding. + + Equivalent to :meth:`str.decode` in python2 and :meth:`bytes.decode` in + python3. + + Parameters + ---------- + encoding : str + errors : str, optional + Specifies the error handling scheme. + Possible values are those supported by :meth:`bytes.decode`. + dtype : str or dtype, optional + The dtype of the result. When not ``None``, must be either a string or + object dtype. When ``None``, the dtype of the result is determined by + ``pd.options.future.infer_string``. + + .. versionadded:: 2.3.0 + + Returns + ------- + Series or Index + + Examples + -------- + For Series: + + >>> ser = pd.Series([b'cow', b'123', b'()']) + >>> ser.str.decode('ascii') + 0 cow + 1 123 + 2 () + dtype: object + """ + if dtype is not None and not is_string_dtype(dtype): + raise ValueError(f"dtype must be string or object, got {dtype=}") + if dtype is None and get_option("future.infer_string"): + dtype = "str" + # TODO: Add a similar _bytes interface. + if encoding in _cpython_optimized_decoders: + # CPython optimized implementation + f = lambda x: x.decode(encoding, errors) + else: + decoder = codecs.getdecoder(encoding) + f = lambda x: decoder(x, errors)[0] + arr = self._data.array + result = arr._str_map(f) + return self._wrap_result(result, dtype=dtype) + + @forbid_nonstring_types(["bytes"]) + def encode(self, encoding, errors: str = "strict"): + """ + Encode character string in the Series/Index using indicated encoding. + + Equivalent to :meth:`str.encode`. + + Parameters + ---------- + encoding : str + errors : str, optional + + Returns + ------- + Series/Index of objects + + Examples + -------- + >>> ser = pd.Series(['cow', '123', '()']) + >>> ser.str.encode(encoding='ascii') + 0 b'cow' + 1 b'123' + 2 b'()' + dtype: object + """ + result = self._data.array._str_encode(encoding, errors) + return self._wrap_result(result, returns_string=False) + + _shared_docs[ + "str_strip" + ] = r""" + Remove %(position)s characters. + + Strip whitespaces (including newlines) or a set of specified characters + from each string in the Series/Index from %(side)s. + Replaces any non-strings in Series with NaNs. + Equivalent to :meth:`str.%(method)s`. + + Parameters + ---------- + to_strip : str or None, default None + Specifying the set of characters to be removed. + All combinations of this set of characters will be stripped. + If None then whitespaces are removed. + + Returns + ------- + Series or Index of object + + See Also + -------- + Series.str.strip : Remove leading and trailing characters in Series/Index. + Series.str.lstrip : Remove leading characters in Series/Index. + Series.str.rstrip : Remove trailing characters in Series/Index. + + Examples + -------- + >>> s = pd.Series(['1. Ant. ', '2. Bee!\n', '3. Cat?\t', np.nan, 10, True]) + >>> s + 0 1. Ant. + 1 2. Bee!\n + 2 3. Cat?\t + 3 NaN + 4 10 + 5 True + dtype: object + + >>> s.str.strip() + 0 1. Ant. + 1 2. Bee! + 2 3. Cat? + 3 NaN + 4 NaN + 5 NaN + dtype: object + + >>> s.str.lstrip('123.') + 0 Ant. + 1 Bee!\n + 2 Cat?\t + 3 NaN + 4 NaN + 5 NaN + dtype: object + + >>> s.str.rstrip('.!? \n\t') + 0 1. Ant + 1 2. Bee + 2 3. Cat + 3 NaN + 4 NaN + 5 NaN + dtype: object + + >>> s.str.strip('123.!? \n\t') + 0 Ant + 1 Bee + 2 Cat + 3 NaN + 4 NaN + 5 NaN + dtype: object + """ + + @Appender( + _shared_docs["str_strip"] + % { + "side": "left and right sides", + "method": "strip", + "position": "leading and trailing", + } + ) + @forbid_nonstring_types(["bytes"]) + def strip(self, to_strip=None): + result = self._data.array._str_strip(to_strip) + return self._wrap_result(result) + + @Appender( + _shared_docs["str_strip"] + % {"side": "left side", "method": "lstrip", "position": "leading"} + ) + @forbid_nonstring_types(["bytes"]) + def lstrip(self, to_strip=None): + result = self._data.array._str_lstrip(to_strip) + return self._wrap_result(result) + + @Appender( + _shared_docs["str_strip"] + % {"side": "right side", "method": "rstrip", "position": "trailing"} + ) + @forbid_nonstring_types(["bytes"]) + def rstrip(self, to_strip=None): + result = self._data.array._str_rstrip(to_strip) + return self._wrap_result(result) + + _shared_docs[ + "str_removefix" + ] = r""" + Remove a %(side)s from an object series. + + If the %(side)s is not present, the original string will be returned. + + Parameters + ---------- + %(side)s : str + Remove the %(side)s of the string. + + Returns + ------- + Series/Index: object + The Series or Index with given %(side)s removed. + + See Also + -------- + Series.str.remove%(other_side)s : Remove a %(other_side)s from an object series. + + Examples + -------- + >>> s = pd.Series(["str_foo", "str_bar", "no_prefix"]) + >>> s + 0 str_foo + 1 str_bar + 2 no_prefix + dtype: object + >>> s.str.removeprefix("str_") + 0 foo + 1 bar + 2 no_prefix + dtype: object + + >>> s = pd.Series(["foo_str", "bar_str", "no_suffix"]) + >>> s + 0 foo_str + 1 bar_str + 2 no_suffix + dtype: object + >>> s.str.removesuffix("_str") + 0 foo + 1 bar + 2 no_suffix + dtype: object + """ + + @Appender( + _shared_docs["str_removefix"] % {"side": "prefix", "other_side": "suffix"} + ) + @forbid_nonstring_types(["bytes"]) + def removeprefix(self, prefix: str): + result = self._data.array._str_removeprefix(prefix) + return self._wrap_result(result) + + @Appender( + _shared_docs["str_removefix"] % {"side": "suffix", "other_side": "prefix"} + ) + @forbid_nonstring_types(["bytes"]) + def removesuffix(self, suffix: str): + result = self._data.array._str_removesuffix(suffix) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def wrap(self, width: int, **kwargs): + r""" + Wrap strings in Series/Index at specified line width. + + This method has the same keyword parameters and defaults as + :class:`textwrap.TextWrapper`. + + Parameters + ---------- + width : int + Maximum line width. + expand_tabs : bool, optional + If True, tab characters will be expanded to spaces (default: True). + replace_whitespace : bool, optional + If True, each whitespace character (as defined by string.whitespace) + remaining after tab expansion will be replaced by a single space + (default: True). + drop_whitespace : bool, optional + If True, whitespace that, after wrapping, happens to end up at the + beginning or end of a line is dropped (default: True). + break_long_words : bool, optional + If True, then words longer than width will be broken in order to ensure + that no lines are longer than width. If it is false, long words will + not be broken, and some lines may be longer than width (default: True). + break_on_hyphens : bool, optional + If True, wrapping will occur preferably on whitespace and right after + hyphens in compound words, as it is customary in English. If false, + only whitespaces will be considered as potentially good places for line + breaks, but you need to set break_long_words to false if you want truly + insecable words (default: True). + + Returns + ------- + Series or Index + + Notes + ----- + Internally, this method uses a :class:`textwrap.TextWrapper` instance with + default settings. To achieve behavior matching R's stringr library str_wrap + function, use the arguments: + + - expand_tabs = False + - replace_whitespace = True + - drop_whitespace = True + - break_long_words = False + - break_on_hyphens = False + + Examples + -------- + >>> s = pd.Series(['line to be wrapped', 'another line to be wrapped']) + >>> s.str.wrap(12) + 0 line to be\nwrapped + 1 another line\nto be\nwrapped + dtype: object + """ + result = self._data.array._str_wrap(width, **kwargs) + return self._wrap_result(result) + + @forbid_nonstring_types(["bytes"]) + def get_dummies(self, sep: str = "|"): + """ + Return DataFrame of dummy/indicator variables for Series. + + Each string in Series is split by sep and returned as a DataFrame + of dummy/indicator variables. + + Parameters + ---------- + sep : str, default "|" + String to split on. + + Returns + ------- + DataFrame + Dummy variables corresponding to values of the Series. + + See Also + -------- + get_dummies : Convert categorical variable into dummy/indicator + variables. + + Examples + -------- + >>> pd.Series(['a|b', 'a', 'a|c']).str.get_dummies() + a b c + 0 1 1 0 + 1 1 0 0 + 2 1 0 1 + + >>> pd.Series(['a|b', np.nan, 'a|c']).str.get_dummies() + a b c + 0 1 1 0 + 1 0 0 0 + 2 1 0 1 + """ + # we need to cast to Series of strings as only that has all + # methods available for making the dummies... + result, name = self._data.array._str_get_dummies(sep) + return self._wrap_result( + result, + name=name, + expand=True, + returns_string=False, + ) + + @forbid_nonstring_types(["bytes"]) + def translate(self, table): + """ + Map all characters in the string through the given mapping table. + + Equivalent to standard :meth:`str.translate`. + + Parameters + ---------- + table : dict + Table is a mapping of Unicode ordinals to Unicode ordinals, strings, or + None. Unmapped characters are left untouched. + Characters mapped to None are deleted. :meth:`str.maketrans` is a + helper function for making translation tables. + + Returns + ------- + Series or Index + + Examples + -------- + >>> ser = pd.Series(["El niño", "Françoise"]) + >>> mytable = str.maketrans({'ñ': 'n', 'ç': 'c'}) + >>> ser.str.translate(mytable) + 0 El nino + 1 Francoise + dtype: object + """ + result = self._data.array._str_translate(table) + dtype = object if self._data.dtype == "object" else None + return self._wrap_result(result, dtype=dtype) + + @forbid_nonstring_types(["bytes"]) + def count(self, pat, flags: int = 0): + r""" + Count occurrences of pattern in each string of the Series/Index. + + This function is used to count the number of times a particular regex + pattern is repeated in each of the string elements of the + :class:`~pandas.Series`. + + Parameters + ---------- + pat : str + Valid regular expression. + flags : int, default 0, meaning no flags + Flags for the `re` module. For a complete list, `see here + `_. + **kwargs + For compatibility with other string methods. Not used. + + Returns + ------- + Series or Index + Same type as the calling object containing the integer counts. + + See Also + -------- + re : Standard library module for regular expressions. + str.count : Standard library version, without regular expression support. + + Notes + ----- + Some characters need to be escaped when passing in `pat`. + eg. ``'$'`` has a special meaning in regex and must be escaped when + finding this literal character. + + Examples + -------- + >>> s = pd.Series(['A', 'B', 'Aaba', 'Baca', np.nan, 'CABA', 'cat']) + >>> s.str.count('a') + 0 0.0 + 1 0.0 + 2 2.0 + 3 2.0 + 4 NaN + 5 0.0 + 6 1.0 + dtype: float64 + + Escape ``'$'`` to find the literal dollar sign. + + >>> s = pd.Series(['$', 'B', 'Aab$', '$$ca', 'C$B$', 'cat']) + >>> s.str.count('\\$') + 0 1 + 1 0 + 2 1 + 3 2 + 4 2 + 5 0 + dtype: int64 + + This is also available on Index + + >>> pd.Index(['A', 'A', 'Aaba', 'cat']).str.count('a') + Index([0, 0, 2, 1], dtype='int64') + """ + result = self._data.array._str_count(pat, flags) + return self._wrap_result(result, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def startswith( + self, pat: str | tuple[str, ...], na: Scalar | lib.NoDefault = lib.no_default + ) -> Series | Index: + """ + Test if the start of each string element matches a pattern. + + Equivalent to :meth:`str.startswith`. + + Parameters + ---------- + pat : str or tuple[str, ...] + Character sequence or tuple of strings. Regular expressions are not + accepted. + na : scalar, optional + Object shown if element tested is not a string. The default depends + on dtype of the array. For object-dtype, ``numpy.nan`` is used. + For the nullable ``StringDtype``, ``pandas.NA`` is used. + For the ``"str"`` dtype, ``False`` is used. + + Returns + ------- + Series or Index of bool + A Series of booleans indicating whether the given pattern matches + the start of each string element. + + See Also + -------- + str.startswith : Python standard library string method. + Series.str.endswith : Same as startswith, but tests the end of string. + Series.str.contains : Tests if string element contains a pattern. + + Examples + -------- + >>> s = pd.Series(['bat', 'Bear', 'cat', np.nan]) + >>> s + 0 bat + 1 Bear + 2 cat + 3 NaN + dtype: object + + >>> s.str.startswith('b') + 0 True + 1 False + 2 False + 3 NaN + dtype: object + + >>> s.str.startswith(('b', 'B')) + 0 True + 1 True + 2 False + 3 NaN + dtype: object + + Specifying `na` to be `False` instead of `NaN`. + + >>> s.str.startswith('b', na=False) + 0 True + 1 False + 2 False + 3 False + dtype: bool + """ + if not isinstance(pat, (str, tuple)): + msg = f"expected a string or tuple, not {type(pat).__name__}" + raise TypeError(msg) + result = self._data.array._str_startswith(pat, na=na) + return self._wrap_result(result, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def endswith( + self, pat: str | tuple[str, ...], na: Scalar | lib.NoDefault = lib.no_default + ) -> Series | Index: + """ + Test if the end of each string element matches a pattern. + + Equivalent to :meth:`str.endswith`. + + Parameters + ---------- + pat : str or tuple[str, ...] + Character sequence or tuple of strings. Regular expressions are not + accepted. + na : scalar, optional + Object shown if element tested is not a string. The default depends + on dtype of the array. For object-dtype, ``numpy.nan`` is used. + For the nullable ``StringDtype``, ``pandas.NA`` is used. + For the ``"str"`` dtype, ``False`` is used. + + Returns + ------- + Series or Index of bool + A Series of booleans indicating whether the given pattern matches + the end of each string element. + + See Also + -------- + str.endswith : Python standard library string method. + Series.str.startswith : Same as endswith, but tests the start of string. + Series.str.contains : Tests if string element contains a pattern. + + Examples + -------- + >>> s = pd.Series(['bat', 'bear', 'caT', np.nan]) + >>> s + 0 bat + 1 bear + 2 caT + 3 NaN + dtype: object + + >>> s.str.endswith('t') + 0 True + 1 False + 2 False + 3 NaN + dtype: object + + >>> s.str.endswith(('t', 'T')) + 0 True + 1 False + 2 True + 3 NaN + dtype: object + + Specifying `na` to be `False` instead of `NaN`. + + >>> s.str.endswith('t', na=False) + 0 True + 1 False + 2 False + 3 False + dtype: bool + """ + if not isinstance(pat, (str, tuple)): + msg = f"expected a string or tuple, not {type(pat).__name__}" + raise TypeError(msg) + result = self._data.array._str_endswith(pat, na=na) + return self._wrap_result(result, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def findall(self, pat, flags: int = 0): + """ + Find all occurrences of pattern or regular expression in the Series/Index. + + Equivalent to applying :func:`re.findall` to all the elements in the + Series/Index. + + Parameters + ---------- + pat : str + Pattern or regular expression. + flags : int, default 0 + Flags from ``re`` module, e.g. `re.IGNORECASE` (default is 0, which + means no flags). + + Returns + ------- + Series/Index of lists of strings + All non-overlapping matches of pattern or regular expression in each + string of this Series/Index. + + See Also + -------- + count : Count occurrences of pattern or regular expression in each string + of the Series/Index. + extractall : For each string in the Series, extract groups from all matches + of regular expression and return a DataFrame with one row for each + match and one column for each group. + re.findall : The equivalent ``re`` function to all non-overlapping matches + of pattern or regular expression in string, as a list of strings. + + Examples + -------- + >>> s = pd.Series(['Lion', 'Monkey', 'Rabbit']) + + The search for the pattern 'Monkey' returns one match: + + >>> s.str.findall('Monkey') + 0 [] + 1 [Monkey] + 2 [] + dtype: object + + On the other hand, the search for the pattern 'MONKEY' doesn't return any + match: + + >>> s.str.findall('MONKEY') + 0 [] + 1 [] + 2 [] + dtype: object + + Flags can be added to the pattern or regular expression. For instance, + to find the pattern 'MONKEY' ignoring the case: + + >>> import re + >>> s.str.findall('MONKEY', flags=re.IGNORECASE) + 0 [] + 1 [Monkey] + 2 [] + dtype: object + + When the pattern matches more than one string in the Series, all matches + are returned: + + >>> s.str.findall('on') + 0 [on] + 1 [on] + 2 [] + dtype: object + + Regular expressions are supported too. For instance, the search for all the + strings ending with the word 'on' is shown next: + + >>> s.str.findall('on$') + 0 [on] + 1 [] + 2 [] + dtype: object + + If the pattern is found more than once in the same string, then a list of + multiple strings is returned: + + >>> s.str.findall('b') + 0 [] + 1 [] + 2 [b, b] + dtype: object + """ + result = self._data.array._str_findall(pat, flags) + return self._wrap_result(result, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def extract( + self, pat: str, flags: int = 0, expand: bool = True + ) -> DataFrame | Series | Index: + r""" + Extract capture groups in the regex `pat` as columns in a DataFrame. + + For each subject string in the Series, extract groups from the + first match of regular expression `pat`. + + Parameters + ---------- + pat : str + Regular expression pattern with capturing groups. + flags : int, default 0 (no flags) + Flags from the ``re`` module, e.g. ``re.IGNORECASE``, that + modify regular expression matching for things like case, + spaces, etc. For more details, see :mod:`re`. + expand : bool, default True + If True, return DataFrame with one column per capture group. + If False, return a Series/Index if there is one capture group + or DataFrame if there are multiple capture groups. + + Returns + ------- + DataFrame or Series or Index + A DataFrame with one row for each subject string, and one + column for each group. Any capture group names in regular + expression pat will be used for column names; otherwise + capture group numbers will be used. The dtype of each result + column is always object, even when no match is found. If + ``expand=False`` and pat has only one capture group, then + return a Series (if subject is a Series) or Index (if subject + is an Index). + + See Also + -------- + extractall : Returns all matches (not just the first match). + + Examples + -------- + A pattern with two groups will return a DataFrame with two columns. + Non-matches will be NaN. + + >>> s = pd.Series(['a1', 'b2', 'c3']) + >>> s.str.extract(r'([ab])(\d)') + 0 1 + 0 a 1 + 1 b 2 + 2 NaN NaN + + A pattern may contain optional groups. + + >>> s.str.extract(r'([ab])?(\d)') + 0 1 + 0 a 1 + 1 b 2 + 2 NaN 3 + + Named groups will become column names in the result. + + >>> s.str.extract(r'(?P[ab])(?P\d)') + letter digit + 0 a 1 + 1 b 2 + 2 NaN NaN + + A pattern with one group will return a DataFrame with one column + if expand=True. + + >>> s.str.extract(r'[ab](\d)', expand=True) + 0 + 0 1 + 1 2 + 2 NaN + + A pattern with one group will return a Series if expand=False. + + >>> s.str.extract(r'[ab](\d)', expand=False) + 0 1 + 1 2 + 2 NaN + dtype: object + """ + from pandas import DataFrame + + if not isinstance(expand, bool): + raise ValueError("expand must be True or False") + + regex = re.compile(pat, flags=flags) + if regex.groups == 0: + raise ValueError("pattern contains no capture groups") + + if not expand and regex.groups > 1 and isinstance(self._data, ABCIndex): + raise ValueError("only one regex group is supported with Index") + + obj = self._data + result_dtype = _result_dtype(obj) + + returns_df = regex.groups > 1 or expand + + if returns_df: + name = None + columns = _get_group_names(regex) + + if obj.array.size == 0: + result = DataFrame(columns=columns, dtype=result_dtype) + + else: + result_list = self._data.array._str_extract( + pat, flags=flags, expand=returns_df + ) + + result_index: Index | None + if isinstance(obj, ABCSeries): + result_index = obj.index + else: + result_index = None + + result = DataFrame( + result_list, columns=columns, index=result_index, dtype=result_dtype + ) + + else: + name = _get_single_group_name(regex) + result = self._data.array._str_extract(pat, flags=flags, expand=returns_df) + return self._wrap_result(result, name=name, dtype=result_dtype) + + @forbid_nonstring_types(["bytes"]) + def extractall(self, pat, flags: int = 0) -> DataFrame: + r""" + Extract capture groups in the regex `pat` as columns in DataFrame. + + For each subject string in the Series, extract groups from all + matches of regular expression pat. When each subject string in the + Series has exactly one match, extractall(pat).xs(0, level='match') + is the same as extract(pat). + + Parameters + ---------- + pat : str + Regular expression pattern with capturing groups. + flags : int, default 0 (no flags) + A ``re`` module flag, for example ``re.IGNORECASE``. These allow + to modify regular expression matching for things like case, spaces, + etc. Multiple flags can be combined with the bitwise OR operator, + for example ``re.IGNORECASE | re.MULTILINE``. + + Returns + ------- + DataFrame + A ``DataFrame`` with one row for each match, and one column for each + group. Its rows have a ``MultiIndex`` with first levels that come from + the subject ``Series``. The last level is named 'match' and indexes the + matches in each item of the ``Series``. Any capture group names in + regular expression pat will be used for column names; otherwise capture + group numbers will be used. + + See Also + -------- + extract : Returns first match only (not all matches). + + Examples + -------- + A pattern with one group will return a DataFrame with one column. + Indices with no matches will not appear in the result. + + >>> s = pd.Series(["a1a2", "b1", "c1"], index=["A", "B", "C"]) + >>> s.str.extractall(r"[ab](\d)") + 0 + match + A 0 1 + 1 2 + B 0 1 + + Capture group names are used for column names of the result. + + >>> s.str.extractall(r"[ab](?P\d)") + digit + match + A 0 1 + 1 2 + B 0 1 + + A pattern with two groups will return a DataFrame with two columns. + + >>> s.str.extractall(r"(?P[ab])(?P\d)") + letter digit + match + A 0 a 1 + 1 a 2 + B 0 b 1 + + Optional groups that do not match are NaN in the result. + + >>> s.str.extractall(r"(?P[ab])?(?P\d)") + letter digit + match + A 0 a 1 + 1 a 2 + B 0 b 1 + C 0 NaN 1 + """ + # TODO: dispatch + return str_extractall(self._orig, pat, flags) + + _shared_docs[ + "find" + ] = """ + Return %(side)s indexes in each strings in the Series/Index. + + Each of returned indexes corresponds to the position where the + substring is fully contained between [start:end]. Return -1 on + failure. Equivalent to standard :meth:`str.%(method)s`. + + Parameters + ---------- + sub : str + Substring being searched. + start : int + Left edge index. + end : int + Right edge index. + + Returns + ------- + Series or Index of int. + + See Also + -------- + %(also)s + + Examples + -------- + For Series.str.find: + + >>> ser = pd.Series(["cow_", "duck_", "do_ve"]) + >>> ser.str.find("_") + 0 3 + 1 4 + 2 2 + dtype: int64 + + For Series.str.rfind: + + >>> ser = pd.Series(["_cow_", "duck_", "do_v_e"]) + >>> ser.str.rfind("_") + 0 4 + 1 4 + 2 4 + dtype: int64 + """ + + @Appender( + _shared_docs["find"] + % { + "side": "lowest", + "method": "find", + "also": "rfind : Return highest indexes in each strings.", + } + ) + @forbid_nonstring_types(["bytes"]) + def find(self, sub, start: int = 0, end=None): + if not isinstance(sub, str): + msg = f"expected a string object, not {type(sub).__name__}" + raise TypeError(msg) + + result = self._data.array._str_find(sub, start, end) + return self._wrap_result(result, returns_string=False) + + @Appender( + _shared_docs["find"] + % { + "side": "highest", + "method": "rfind", + "also": "find : Return lowest indexes in each strings.", + } + ) + @forbid_nonstring_types(["bytes"]) + def rfind(self, sub, start: int = 0, end=None): + if not isinstance(sub, str): + msg = f"expected a string object, not {type(sub).__name__}" + raise TypeError(msg) + + result = self._data.array._str_rfind(sub, start=start, end=end) + return self._wrap_result(result, returns_string=False) + + @forbid_nonstring_types(["bytes"]) + def normalize(self, form): + """ + Return the Unicode normal form for the strings in the Series/Index. + + For more information on the forms, see the + :func:`unicodedata.normalize`. + + Parameters + ---------- + form : {'NFC', 'NFKC', 'NFD', 'NFKD'} + Unicode form. + + Returns + ------- + Series/Index of objects + + Examples + -------- + >>> ser = pd.Series(['ñ']) + >>> ser.str.normalize('NFC') == ser.str.normalize('NFD') + 0 False + dtype: bool + """ + result = self._data.array._str_normalize(form) + return self._wrap_result(result) + + _shared_docs[ + "index" + ] = """ + Return %(side)s indexes in each string in Series/Index. + + Each of the returned indexes corresponds to the position where the + substring is fully contained between [start:end]. This is the same + as ``str.%(similar)s`` except instead of returning -1, it raises a + ValueError when the substring is not found. Equivalent to standard + ``str.%(method)s``. + + Parameters + ---------- + sub : str + Substring being searched. + start : int + Left edge index. + end : int + Right edge index. + + Returns + ------- + Series or Index of object + + See Also + -------- + %(also)s + + Examples + -------- + For Series.str.index: + + >>> ser = pd.Series(["horse", "eagle", "donkey"]) + >>> ser.str.index("e") + 0 4 + 1 0 + 2 4 + dtype: int64 + + For Series.str.rindex: + + >>> ser = pd.Series(["Deer", "eagle", "Sheep"]) + >>> ser.str.rindex("e") + 0 2 + 1 4 + 2 3 + dtype: int64 + """ + + @Appender( + _shared_docs["index"] + % { + "side": "lowest", + "similar": "find", + "method": "index", + "also": "rindex : Return highest indexes in each strings.", + } + ) + @forbid_nonstring_types(["bytes"]) + def index(self, sub, start: int = 0, end=None): + if not isinstance(sub, str): + msg = f"expected a string object, not {type(sub).__name__}" + raise TypeError(msg) + + result = self._data.array._str_index(sub, start=start, end=end) + return self._wrap_result(result, returns_string=False) + + @Appender( + _shared_docs["index"] + % { + "side": "highest", + "similar": "rfind", + "method": "rindex", + "also": "index : Return lowest indexes in each strings.", + } + ) + @forbid_nonstring_types(["bytes"]) + def rindex(self, sub, start: int = 0, end=None): + if not isinstance(sub, str): + msg = f"expected a string object, not {type(sub).__name__}" + raise TypeError(msg) + + result = self._data.array._str_rindex(sub, start=start, end=end) + return self._wrap_result(result, returns_string=False) + + def len(self): + """ + Compute the length of each element in the Series/Index. + + The element may be a sequence (such as a string, tuple or list) or a collection + (such as a dictionary). + + Returns + ------- + Series or Index of int + A Series or Index of integer values indicating the length of each + element in the Series or Index. + + See Also + -------- + str.len : Python built-in function returning the length of an object. + Series.size : Returns the length of the Series. + + Examples + -------- + Returns the length (number of characters) in a string. Returns the + number of entries for dictionaries, lists or tuples. + + >>> s = pd.Series(['dog', + ... '', + ... 5, + ... {'foo' : 'bar'}, + ... [2, 3, 5, 7], + ... ('one', 'two', 'three')]) + >>> s + 0 dog + 1 + 2 5 + 3 {'foo': 'bar'} + 4 [2, 3, 5, 7] + 5 (one, two, three) + dtype: object + >>> s.str.len() + 0 3.0 + 1 0.0 + 2 NaN + 3 1.0 + 4 4.0 + 5 3.0 + dtype: float64 + """ + result = self._data.array._str_len() + return self._wrap_result(result, returns_string=False) + + _shared_docs[ + "casemethods" + ] = """ + Convert strings in the Series/Index to %(type)s. + %(version)s + Equivalent to :meth:`str.%(method)s`. + + Returns + ------- + Series or Index of object + + See Also + -------- + Series.str.lower : Converts all characters to lowercase. + Series.str.upper : Converts all characters to uppercase. + Series.str.title : Converts first character of each word to uppercase and + remaining to lowercase. + Series.str.capitalize : Converts first character to uppercase and + remaining to lowercase. + Series.str.swapcase : Converts uppercase to lowercase and lowercase to + uppercase. + Series.str.casefold: Removes all case distinctions in the string. + + Examples + -------- + >>> s = pd.Series(['lower', 'CAPITALS', 'this is a sentence', 'SwApCaSe']) + >>> s + 0 lower + 1 CAPITALS + 2 this is a sentence + 3 SwApCaSe + dtype: object + + >>> s.str.lower() + 0 lower + 1 capitals + 2 this is a sentence + 3 swapcase + dtype: object + + >>> s.str.upper() + 0 LOWER + 1 CAPITALS + 2 THIS IS A SENTENCE + 3 SWAPCASE + dtype: object + + >>> s.str.title() + 0 Lower + 1 Capitals + 2 This Is A Sentence + 3 Swapcase + dtype: object + + >>> s.str.capitalize() + 0 Lower + 1 Capitals + 2 This is a sentence + 3 Swapcase + dtype: object + + >>> s.str.swapcase() + 0 LOWER + 1 capitals + 2 THIS IS A SENTENCE + 3 sWaPcAsE + dtype: object + """ + # Types: + # cases: + # upper, lower, title, capitalize, swapcase, casefold + # boolean: + # isalpha, isnumeric isalnum isdigit isdecimal isspace islower isupper istitle + # _doc_args holds dict of strings to use in substituting casemethod docs + _doc_args: dict[str, dict[str, str]] = {} + _doc_args["lower"] = {"type": "lowercase", "method": "lower", "version": ""} + _doc_args["upper"] = {"type": "uppercase", "method": "upper", "version": ""} + _doc_args["title"] = {"type": "titlecase", "method": "title", "version": ""} + _doc_args["capitalize"] = { + "type": "be capitalized", + "method": "capitalize", + "version": "", + } + _doc_args["swapcase"] = { + "type": "be swapcased", + "method": "swapcase", + "version": "", + } + _doc_args["casefold"] = { + "type": "be casefolded", + "method": "casefold", + "version": "", + } + + @Appender(_shared_docs["casemethods"] % _doc_args["lower"]) + @forbid_nonstring_types(["bytes"]) + def lower(self): + result = self._data.array._str_lower() + return self._wrap_result(result) + + @Appender(_shared_docs["casemethods"] % _doc_args["upper"]) + @forbid_nonstring_types(["bytes"]) + def upper(self): + result = self._data.array._str_upper() + return self._wrap_result(result) + + @Appender(_shared_docs["casemethods"] % _doc_args["title"]) + @forbid_nonstring_types(["bytes"]) + def title(self): + result = self._data.array._str_title() + return self._wrap_result(result) + + @Appender(_shared_docs["casemethods"] % _doc_args["capitalize"]) + @forbid_nonstring_types(["bytes"]) + def capitalize(self): + result = self._data.array._str_capitalize() + return self._wrap_result(result) + + @Appender(_shared_docs["casemethods"] % _doc_args["swapcase"]) + @forbid_nonstring_types(["bytes"]) + def swapcase(self): + result = self._data.array._str_swapcase() + return self._wrap_result(result) + + @Appender(_shared_docs["casemethods"] % _doc_args["casefold"]) + @forbid_nonstring_types(["bytes"]) + def casefold(self): + result = self._data.array._str_casefold() + return self._wrap_result(result) + + _shared_docs[ + "ismethods" + ] = """ + Check whether all characters in each string are %(type)s. + + This is equivalent to running the Python string method + :meth:`str.%(method)s` for each element of the Series/Index. If a string + has zero characters, ``False`` is returned for that check. + + Returns + ------- + Series or Index of bool + Series or Index of boolean values with the same length as the original + Series/Index. + + See Also + -------- + Series.str.isalpha : Check whether all characters are alphabetic. + Series.str.isnumeric : Check whether all characters are numeric. + Series.str.isalnum : Check whether all characters are alphanumeric. + Series.str.isdigit : Check whether all characters are digits. + Series.str.isdecimal : Check whether all characters are decimal. + Series.str.isspace : Check whether all characters are whitespace. + Series.str.islower : Check whether all characters are lowercase. + Series.str.isupper : Check whether all characters are uppercase. + Series.str.istitle : Check whether all characters are titlecase. + + Examples + -------- + **Checks for Alphabetic and Numeric Characters** + + >>> s1 = pd.Series(['one', 'one1', '1', '']) + + >>> s1.str.isalpha() + 0 True + 1 False + 2 False + 3 False + dtype: bool + + >>> s1.str.isnumeric() + 0 False + 1 False + 2 True + 3 False + dtype: bool + + >>> s1.str.isalnum() + 0 True + 1 True + 2 True + 3 False + dtype: bool + + Note that checks against characters mixed with any additional punctuation + or whitespace will evaluate to false for an alphanumeric check. + + >>> s2 = pd.Series(['A B', '1.5', '3,000']) + >>> s2.str.isalnum() + 0 False + 1 False + 2 False + dtype: bool + + **More Detailed Checks for Numeric Characters** + + There are several different but overlapping sets of numeric characters that + can be checked for. + + >>> s3 = pd.Series(['23', '³', '⅕', '']) + + The ``s3.str.isdecimal`` method checks for characters used to form numbers + in base 10. + + >>> s3.str.isdecimal() + 0 True + 1 False + 2 False + 3 False + dtype: bool + + The ``s.str.isdigit`` method is the same as ``s3.str.isdecimal`` but also + includes special digits, like superscripted and subscripted digits in + unicode. + + >>> s3.str.isdigit() + 0 True + 1 True + 2 False + 3 False + dtype: bool + + The ``s.str.isnumeric`` method is the same as ``s3.str.isdigit`` but also + includes other characters that can represent quantities such as unicode + fractions. + + >>> s3.str.isnumeric() + 0 True + 1 True + 2 True + 3 False + dtype: bool + + **Checks for Whitespace** + + >>> s4 = pd.Series([' ', '\\t\\r\\n ', '']) + >>> s4.str.isspace() + 0 True + 1 True + 2 False + dtype: bool + + **Checks for Character Case** + + >>> s5 = pd.Series(['leopard', 'Golden Eagle', 'SNAKE', '']) + + >>> s5.str.islower() + 0 True + 1 False + 2 False + 3 False + dtype: bool + + >>> s5.str.isupper() + 0 False + 1 False + 2 True + 3 False + dtype: bool + + The ``s5.str.istitle`` method checks for whether all words are in title + case (whether only the first letter of each word is capitalized). Words are + assumed to be as any sequence of non-numeric characters separated by + whitespace characters. + + >>> s5.str.istitle() + 0 False + 1 True + 2 False + 3 False + dtype: bool + """ + _doc_args["isalnum"] = {"type": "alphanumeric", "method": "isalnum"} + _doc_args["isalpha"] = {"type": "alphabetic", "method": "isalpha"} + _doc_args["isdigit"] = {"type": "digits", "method": "isdigit"} + _doc_args["isspace"] = {"type": "whitespace", "method": "isspace"} + _doc_args["islower"] = {"type": "lowercase", "method": "islower"} + _doc_args["isupper"] = {"type": "uppercase", "method": "isupper"} + _doc_args["istitle"] = {"type": "titlecase", "method": "istitle"} + _doc_args["isnumeric"] = {"type": "numeric", "method": "isnumeric"} + _doc_args["isdecimal"] = {"type": "decimal", "method": "isdecimal"} + # force _noarg_wrapper return type with dtype=np.dtype(bool) (GH 29624) + + isalnum = _map_and_wrap( + "isalnum", docstring=_shared_docs["ismethods"] % _doc_args["isalnum"] + ) + isalpha = _map_and_wrap( + "isalpha", docstring=_shared_docs["ismethods"] % _doc_args["isalpha"] + ) + isdigit = _map_and_wrap( + "isdigit", docstring=_shared_docs["ismethods"] % _doc_args["isdigit"] + ) + isspace = _map_and_wrap( + "isspace", docstring=_shared_docs["ismethods"] % _doc_args["isspace"] + ) + islower = _map_and_wrap( + "islower", docstring=_shared_docs["ismethods"] % _doc_args["islower"] + ) + isupper = _map_and_wrap( + "isupper", docstring=_shared_docs["ismethods"] % _doc_args["isupper"] + ) + istitle = _map_and_wrap( + "istitle", docstring=_shared_docs["ismethods"] % _doc_args["istitle"] + ) + isnumeric = _map_and_wrap( + "isnumeric", docstring=_shared_docs["ismethods"] % _doc_args["isnumeric"] + ) + isdecimal = _map_and_wrap( + "isdecimal", docstring=_shared_docs["ismethods"] % _doc_args["isdecimal"] + ) + + +def cat_safe(list_of_columns: list[npt.NDArray[np.object_]], sep: str): + """ + Auxiliary function for :meth:`str.cat`. + + Same signature as cat_core, but handles TypeErrors in concatenation, which + happen if the arrays in list_of columns have the wrong dtypes or content. + + Parameters + ---------- + list_of_columns : list of numpy arrays + List of arrays to be concatenated with sep; + these arrays may not contain NaNs! + sep : string + The separator string for concatenating the columns. + + Returns + ------- + nd.array + The concatenation of list_of_columns with sep. + """ + try: + result = cat_core(list_of_columns, sep) + except TypeError: + # if there are any non-string values (wrong dtype or hidden behind + # object dtype), np.sum will fail; catch and return with better message + for column in list_of_columns: + dtype = lib.infer_dtype(column, skipna=True) + if dtype not in ["string", "empty"]: + raise TypeError( + "Concatenation requires list-likes containing only " + "strings (or missing values). Offending values found in " + f"column {dtype}" + ) from None + return result + + +def cat_core(list_of_columns: list, sep: str): + """ + Auxiliary function for :meth:`str.cat` + + Parameters + ---------- + list_of_columns : list of numpy arrays + List of arrays to be concatenated with sep; + these arrays may not contain NaNs! + sep : string + The separator string for concatenating the columns. + + Returns + ------- + nd.array + The concatenation of list_of_columns with sep. + """ + if sep == "": + # no need to interleave sep if it is empty + arr_of_cols = np.asarray(list_of_columns, dtype=object) + return np.sum(arr_of_cols, axis=0) + list_with_sep = [sep] * (2 * len(list_of_columns) - 1) + list_with_sep[::2] = list_of_columns + arr_with_sep = np.asarray(list_with_sep, dtype=object) + return np.sum(arr_with_sep, axis=0) + + +def _result_dtype(arr): + # workaround #27953 + # ideally we just pass `dtype=arr.dtype` unconditionally, but this fails + # when the list of values is empty. + from pandas.core.arrays.string_ import StringDtype + + if isinstance(arr.dtype, (ArrowDtype, StringDtype)): + return arr.dtype + return object + + +def _get_single_group_name(regex: re.Pattern) -> Hashable: + if regex.groupindex: + return next(iter(regex.groupindex)) + else: + return None + + +def _get_group_names(regex: re.Pattern) -> list[Hashable]: + """ + Get named groups from compiled regex. + + Unnamed groups are numbered. + + Parameters + ---------- + regex : compiled regex + + Returns + ------- + list of column labels + """ + names = {v: k for k, v in regex.groupindex.items()} + return [names.get(1 + i, i) for i in range(regex.groups)] + + +def str_extractall(arr, pat, flags: int = 0) -> DataFrame: + regex = re.compile(pat, flags=flags) + # the regex must contain capture groups. + if regex.groups == 0: + raise ValueError("pattern contains no capture groups") + + if isinstance(arr, ABCIndex): + arr = arr.to_series().reset_index(drop=True).astype(arr.dtype) + + columns = _get_group_names(regex) + match_list = [] + index_list = [] + is_mi = arr.index.nlevels > 1 + + for subject_key, subject in arr.items(): + if isinstance(subject, str): + if not is_mi: + subject_key = (subject_key,) + + for match_i, match_tuple in enumerate(regex.findall(subject)): + if isinstance(match_tuple, str): + match_tuple = (match_tuple,) + na_tuple = [np.nan if group == "" else group for group in match_tuple] + match_list.append(na_tuple) + result_key = tuple(subject_key + (match_i,)) + index_list.append(result_key) + + from pandas import MultiIndex + + index = MultiIndex.from_tuples(index_list, names=arr.index.names + ["match"]) + dtype = _result_dtype(arr) + + result = arr._constructor_expanddim( + match_list, index=index, columns=columns, dtype=dtype + ) + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/base.py new file mode 100644 index 0000000000000000000000000000000000000000..316c86d152db32048f4de154ead0ec8fc76ec027 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/base.py @@ -0,0 +1,266 @@ +from __future__ import annotations + +import abc +from typing import ( + TYPE_CHECKING, + Callable, + Literal, +) + +from pandas._libs import lib + +if TYPE_CHECKING: + from collections.abc import Sequence + import re + + from pandas._typing import Scalar + + from pandas import Series + + +class BaseStringArrayMethods(abc.ABC): + """ + Base class for extension arrays implementing string methods. + + This is where our ExtensionArrays can override the implementation of + Series.str.. We don't expect this to work with + 3rd-party extension arrays. + + * User calls Series.str. + * pandas extracts the extension array from the Series + * pandas calls ``extension_array._str_(*args, **kwargs)`` + * pandas wraps the result, to return to the user. + + See :ref:`Series.str` for the docstring of each method. + """ + + def _str_getitem(self, key): + if isinstance(key, slice): + return self._str_slice(start=key.start, stop=key.stop, step=key.step) + else: + return self._str_get(key) + + @abc.abstractmethod + def _str_count(self, pat, flags: int = 0): + pass + + @abc.abstractmethod + def _str_pad( + self, + width: int, + side: Literal["left", "right", "both"] = "left", + fillchar: str = " ", + ): + pass + + @abc.abstractmethod + def _str_contains( + self, pat, case: bool = True, flags: int = 0, na=None, regex: bool = True + ): + pass + + @abc.abstractmethod + def _str_startswith(self, pat, na=None): + pass + + @abc.abstractmethod + def _str_endswith(self, pat, na=None): + pass + + @abc.abstractmethod + def _str_replace( + self, + pat: str | re.Pattern, + repl: str | Callable, + n: int = -1, + case: bool = True, + flags: int = 0, + regex: bool = True, + ): + pass + + @abc.abstractmethod + def _str_repeat(self, repeats: int | Sequence[int]): + pass + + @abc.abstractmethod + def _str_match( + self, + pat: str, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + pass + + @abc.abstractmethod + def _str_fullmatch( + self, + pat: str | re.Pattern, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + pass + + @abc.abstractmethod + def _str_encode(self, encoding, errors: str = "strict"): + pass + + @abc.abstractmethod + def _str_find(self, sub, start: int = 0, end=None): + pass + + @abc.abstractmethod + def _str_rfind(self, sub, start: int = 0, end=None): + pass + + @abc.abstractmethod + def _str_findall(self, pat, flags: int = 0): + pass + + @abc.abstractmethod + def _str_get(self, i): + pass + + @abc.abstractmethod + def _str_index(self, sub, start: int = 0, end=None): + pass + + @abc.abstractmethod + def _str_rindex(self, sub, start: int = 0, end=None): + pass + + @abc.abstractmethod + def _str_join(self, sep: str): + pass + + @abc.abstractmethod + def _str_partition(self, sep: str, expand): + pass + + @abc.abstractmethod + def _str_rpartition(self, sep: str, expand): + pass + + @abc.abstractmethod + def _str_len(self): + pass + + @abc.abstractmethod + def _str_slice(self, start=None, stop=None, step=None): + pass + + @abc.abstractmethod + def _str_slice_replace(self, start=None, stop=None, repl=None): + pass + + @abc.abstractmethod + def _str_translate(self, table): + pass + + @abc.abstractmethod + def _str_wrap(self, width: int, **kwargs): + pass + + @abc.abstractmethod + def _str_get_dummies(self, sep: str = "|"): + pass + + @abc.abstractmethod + def _str_isalnum(self): + pass + + @abc.abstractmethod + def _str_isalpha(self): + pass + + @abc.abstractmethod + def _str_isdecimal(self): + pass + + @abc.abstractmethod + def _str_isdigit(self): + pass + + @abc.abstractmethod + def _str_islower(self): + pass + + @abc.abstractmethod + def _str_isnumeric(self): + pass + + @abc.abstractmethod + def _str_isspace(self): + pass + + @abc.abstractmethod + def _str_istitle(self): + pass + + @abc.abstractmethod + def _str_isupper(self): + pass + + @abc.abstractmethod + def _str_capitalize(self): + pass + + @abc.abstractmethod + def _str_casefold(self): + pass + + @abc.abstractmethod + def _str_title(self): + pass + + @abc.abstractmethod + def _str_swapcase(self): + pass + + @abc.abstractmethod + def _str_lower(self): + pass + + @abc.abstractmethod + def _str_upper(self): + pass + + @abc.abstractmethod + def _str_normalize(self, form): + pass + + @abc.abstractmethod + def _str_strip(self, to_strip=None): + pass + + @abc.abstractmethod + def _str_lstrip(self, to_strip=None): + pass + + @abc.abstractmethod + def _str_rstrip(self, to_strip=None): + pass + + @abc.abstractmethod + def _str_removeprefix(self, prefix: str) -> Series: + pass + + @abc.abstractmethod + def _str_removesuffix(self, suffix: str) -> Series: + pass + + @abc.abstractmethod + def _str_split( + self, pat=None, n=-1, expand: bool = False, regex: bool | None = None + ): + pass + + @abc.abstractmethod + def _str_rsplit(self, pat=None, n=-1): + pass + + @abc.abstractmethod + def _str_extract(self, pat: str, flags: int = 0, expand: bool = True): + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/object_array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/object_array.py new file mode 100644 index 0000000000000000000000000000000000000000..e82c6c20e86d93fb61dbc64c9b55ba68b6fc6fb2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/strings/object_array.py @@ -0,0 +1,534 @@ +from __future__ import annotations + +import functools +import re +import textwrap +from typing import ( + TYPE_CHECKING, + Callable, + Literal, + cast, +) +import unicodedata +import warnings + +import numpy as np + +from pandas._libs import lib +import pandas._libs.missing as libmissing +import pandas._libs.ops as libops +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.missing import isna + +from pandas.core.strings.base import BaseStringArrayMethods + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + NpDtype, + Scalar, + ) + + from pandas import Series + + +class ObjectStringArrayMixin(BaseStringArrayMethods): + """ + String Methods operating on object-dtype ndarrays. + """ + + def __len__(self) -> int: + # For typing, _str_map relies on the object being sized. + raise NotImplementedError + + def _str_map( + self, + f, + na_value=lib.no_default, + dtype: NpDtype | None = None, + convert: bool = True, + ): + """ + Map a callable over valid elements of the array. + + Parameters + ---------- + f : Callable + A function to call on each non-NA element. + na_value : Scalar, optional + The value to set for NA values. Might also be used for the + fill value if the callable `f` raises an exception. + This defaults to ``self.dtype.na_value`` which is ``np.nan`` + for object-dtype and Categorical and ``pd.NA`` for StringArray. + dtype : Dtype, optional + The dtype of the result array. + convert : bool, default True + Whether to call `maybe_convert_objects` on the resulting ndarray + """ + if dtype is None: + dtype = np.dtype("object") + if na_value is lib.no_default: + na_value = self.dtype.na_value # type: ignore[attr-defined] + + if not len(self): + return np.array([], dtype=dtype) + + arr = np.asarray(self, dtype=object) + mask = isna(arr) + map_convert = convert and not np.all(mask) + try: + result = lib.map_infer_mask(arr, f, mask.view(np.uint8), map_convert) + except (TypeError, AttributeError) as err: + # Reraise the exception if callable `f` got wrong number of args. + # The user may want to be warned by this, instead of getting NaN + p_err = ( + r"((takes)|(missing)) (?(2)from \d+ to )?\d+ " + r"(?(3)required )positional arguments?" + ) + + if len(err.args) >= 1 and re.search(p_err, err.args[0]): + # FIXME: this should be totally avoidable + raise err + + def g(x): + # This type of fallback behavior can be removed once + # we remove object-dtype .str accessor. + try: + return f(x) + except (TypeError, AttributeError): + return na_value + + return self._str_map(g, na_value=na_value, dtype=dtype) + if not isinstance(result, np.ndarray): + return result + if na_value is not np.nan: + np.putmask(result, mask, na_value) + if convert and result.dtype == object: + result = lib.maybe_convert_objects(result) + return result + + def _str_count(self, pat, flags: int = 0): + regex = re.compile(pat, flags=flags) + f = lambda x: len(regex.findall(x)) + return self._str_map(f, dtype="int64") + + def _str_pad( + self, + width: int, + side: Literal["left", "right", "both"] = "left", + fillchar: str = " ", + ): + if side == "left": + f = lambda x: x.rjust(width, fillchar) + elif side == "right": + f = lambda x: x.ljust(width, fillchar) + elif side == "both": + f = lambda x: x.center(width, fillchar) + else: # pragma: no cover + raise ValueError("Invalid side") + return self._str_map(f) + + def _str_contains( + self, + pat, + case: bool = True, + flags: int = 0, + na=lib.no_default, + regex: bool = True, + ): + if regex: + if not case: + flags |= re.IGNORECASE + + pat = re.compile(pat, flags=flags) + + f = lambda x: pat.search(x) is not None + else: + if case: + f = lambda x: pat in x + else: + upper_pat = pat.upper() + f = lambda x: upper_pat in x.upper() + if na is not lib.no_default and not isna(na) and not isinstance(na, bool): + # GH#59561 + warnings.warn( + "Allowing a non-bool 'na' in obj.str.contains is deprecated " + "and will raise in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._str_map(f, na, dtype=np.dtype("bool")) + + def _str_startswith(self, pat, na=lib.no_default): + f = lambda x: x.startswith(pat) + if na is not lib.no_default and not isna(na) and not isinstance(na, bool): + # GH#59561 + warnings.warn( + "Allowing a non-bool 'na' in obj.str.startswith is deprecated " + "and will raise in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._str_map(f, na_value=na, dtype=np.dtype(bool)) + + def _str_endswith(self, pat, na=lib.no_default): + f = lambda x: x.endswith(pat) + if na is not lib.no_default and not isna(na) and not isinstance(na, bool): + # GH#59561 + warnings.warn( + "Allowing a non-bool 'na' in obj.str.endswith is deprecated " + "and will raise in a future version.", + FutureWarning, + stacklevel=find_stack_level(), + ) + return self._str_map(f, na_value=na, dtype=np.dtype(bool)) + + def _str_replace( + self, + pat: str | re.Pattern, + repl: str | Callable, + n: int = -1, + case: bool = True, + flags: int = 0, + regex: bool = True, + ): + if case is False: + # add case flag, if provided + flags |= re.IGNORECASE + + if regex or flags or callable(repl): + if not isinstance(pat, re.Pattern): + if regex is False: + pat = re.escape(pat) + pat = re.compile(pat, flags=flags) + + n = n if n >= 0 else 0 + f = lambda x: pat.sub(repl=repl, string=x, count=n) + else: + f = lambda x: x.replace(pat, repl, n) + + return self._str_map(f, dtype=str) + + def _str_repeat(self, repeats: int | Sequence[int]): + if lib.is_integer(repeats): + rint = cast(int, repeats) + + def scalar_rep(x): + try: + return bytes.__mul__(x, rint) + except TypeError: + return str.__mul__(x, rint) + + return self._str_map(scalar_rep, dtype=str) + else: + from pandas.core.arrays.string_ import BaseStringArray + + def rep(x, r): + if x is libmissing.NA: + return x + try: + return bytes.__mul__(x, r) + except TypeError: + return str.__mul__(x, r) + + result = libops.vec_binop( + np.asarray(self), + np.asarray(repeats, dtype=object), + rep, + ) + if isinstance(self, BaseStringArray): + # Not going through map, so we have to do this here. + result = type(self)._from_sequence(result, dtype=self.dtype) + return result + + def _str_match( + self, + pat: str, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + if not case: + flags |= re.IGNORECASE + + regex = re.compile(pat, flags=flags) + + f = lambda x: regex.match(x) is not None + return self._str_map(f, na_value=na, dtype=np.dtype(bool)) + + def _str_fullmatch( + self, + pat: str | re.Pattern, + case: bool = True, + flags: int = 0, + na: Scalar | lib.NoDefault = lib.no_default, + ): + if not case: + flags |= re.IGNORECASE + + regex = re.compile(pat, flags=flags) + + f = lambda x: regex.fullmatch(x) is not None + return self._str_map(f, na_value=na, dtype=np.dtype(bool)) + + def _str_encode(self, encoding, errors: str = "strict"): + f = lambda x: x.encode(encoding, errors=errors) + return self._str_map(f, dtype=object) + + def _str_find(self, sub, start: int = 0, end=None): + return self._str_find_(sub, start, end, side="left") + + def _str_rfind(self, sub, start: int = 0, end=None): + return self._str_find_(sub, start, end, side="right") + + def _str_find_(self, sub, start, end, side): + if side == "left": + method = "find" + elif side == "right": + method = "rfind" + else: # pragma: no cover + raise ValueError("Invalid side") + + if end is None: + f = lambda x: getattr(x, method)(sub, start) + else: + f = lambda x: getattr(x, method)(sub, start, end) + return self._str_map(f, dtype="int64") + + def _str_findall(self, pat, flags: int = 0): + regex = re.compile(pat, flags=flags) + return self._str_map(regex.findall, dtype="object") + + def _str_get(self, i): + def f(x): + if isinstance(x, dict): + return x.get(i) + elif len(x) > i >= -len(x): + return x[i] + return self.dtype.na_value # type: ignore[attr-defined] + + return self._str_map(f) + + def _str_index(self, sub, start: int = 0, end=None): + if end: + f = lambda x: x.index(sub, start, end) + else: + f = lambda x: x.index(sub, start, end) + return self._str_map(f, dtype="int64") + + def _str_rindex(self, sub, start: int = 0, end=None): + if end: + f = lambda x: x.rindex(sub, start, end) + else: + f = lambda x: x.rindex(sub, start, end) + return self._str_map(f, dtype="int64") + + def _str_join(self, sep: str): + return self._str_map(sep.join) + + def _str_partition(self, sep: str, expand): + result = self._str_map(lambda x: x.partition(sep), dtype="object") + return result + + def _str_rpartition(self, sep: str, expand): + return self._str_map(lambda x: x.rpartition(sep), dtype="object") + + def _str_len(self): + return self._str_map(len, dtype="int64") + + def _str_slice(self, start=None, stop=None, step=None): + obj = slice(start, stop, step) + return self._str_map(lambda x: x[obj]) + + def _str_slice_replace(self, start=None, stop=None, repl=None): + if repl is None: + repl = "" + + def f(x): + if x[start:stop] == "": + local_stop = start + else: + local_stop = stop + y = "" + if start is not None: + y += x[:start] + y += repl + if stop is not None: + y += x[local_stop:] + return y + + return self._str_map(f) + + def _str_split( + self, + pat: str | re.Pattern | None = None, + n=-1, + expand: bool = False, + regex: bool | None = None, + ): + if pat is None: + if n is None or n == 0: + n = -1 + f = lambda x: x.split(pat, n) + else: + new_pat: str | re.Pattern + if regex is True or isinstance(pat, re.Pattern): + new_pat = re.compile(pat) + elif regex is False: + new_pat = pat + # regex is None so link to old behavior #43563 + else: + if len(pat) == 1: + new_pat = pat + else: + new_pat = re.compile(pat) + + if isinstance(new_pat, re.Pattern): + if n is None or n == -1: + n = 0 + f = lambda x: new_pat.split(x, maxsplit=n) + else: + if n is None or n == 0: + n = -1 + f = lambda x: x.split(pat, n) + return self._str_map(f, dtype=object) + + def _str_rsplit(self, pat=None, n=-1): + if n is None or n == 0: + n = -1 + f = lambda x: x.rsplit(pat, n) + return self._str_map(f, dtype="object") + + def _str_translate(self, table): + return self._str_map(lambda x: x.translate(table)) + + def _str_wrap(self, width: int, **kwargs): + kwargs["width"] = width + tw = textwrap.TextWrapper(**kwargs) + return self._str_map(lambda s: "\n".join(tw.wrap(s))) + + def _str_get_dummies(self, sep: str = "|"): + from pandas import Series + + arr = Series(self).fillna("") + try: + arr = sep + arr + sep + except (TypeError, NotImplementedError): + arr = sep + arr.astype(str) + sep + + tags: set[str] = set() + for ts in Series(arr, copy=False).str.split(sep): + tags.update(ts) + tags2 = sorted(tags - {""}) + + dummies = np.empty((len(arr), len(tags2)), dtype=np.int64) + + def _isin(test_elements: str, element: str) -> bool: + return element in test_elements + + for i, t in enumerate(tags2): + pat = sep + t + sep + dummies[:, i] = lib.map_infer( + arr.to_numpy(), functools.partial(_isin, element=pat) + ) + return dummies, tags2 + + def _str_upper(self): + return self._str_map(lambda x: x.upper()) + + def _str_isalnum(self): + return self._str_map(str.isalnum, dtype="bool") + + def _str_isalpha(self): + return self._str_map(str.isalpha, dtype="bool") + + def _str_isdecimal(self): + return self._str_map(str.isdecimal, dtype="bool") + + def _str_isdigit(self): + return self._str_map(str.isdigit, dtype="bool") + + def _str_islower(self): + return self._str_map(str.islower, dtype="bool") + + def _str_isnumeric(self): + return self._str_map(str.isnumeric, dtype="bool") + + def _str_isspace(self): + return self._str_map(str.isspace, dtype="bool") + + def _str_istitle(self): + return self._str_map(str.istitle, dtype="bool") + + def _str_isupper(self): + return self._str_map(str.isupper, dtype="bool") + + def _str_capitalize(self): + return self._str_map(str.capitalize) + + def _str_casefold(self): + return self._str_map(str.casefold) + + def _str_title(self): + return self._str_map(str.title) + + def _str_swapcase(self): + return self._str_map(str.swapcase) + + def _str_lower(self): + return self._str_map(str.lower) + + def _str_normalize(self, form): + f = lambda x: unicodedata.normalize(form, x) + return self._str_map(f) + + def _str_strip(self, to_strip=None): + return self._str_map(lambda x: x.strip(to_strip)) + + def _str_lstrip(self, to_strip=None): + return self._str_map(lambda x: x.lstrip(to_strip)) + + def _str_rstrip(self, to_strip=None): + return self._str_map(lambda x: x.rstrip(to_strip)) + + def _str_removeprefix(self, prefix: str) -> Series: + # outstanding question on whether to use native methods for users on Python 3.9+ + # https://github.com/pandas-dev/pandas/pull/39226#issuecomment-836719770, + # in which case we could do return self._str_map(str.removeprefix) + + def removeprefix(text: str) -> str: + if text.startswith(prefix): + return text[len(prefix) :] + return text + + return self._str_map(removeprefix) + + def _str_removesuffix(self, suffix: str) -> Series: + return self._str_map(lambda x: x.removesuffix(suffix)) + + def _str_extract(self, pat: str, flags: int = 0, expand: bool = True): + regex = re.compile(pat, flags=flags) + na_value = self.dtype.na_value # type: ignore[attr-defined] + + if not expand: + + def g(x): + m = regex.search(x) + return m.groups()[0] if m else na_value + + return self._str_map(g, convert=False) + + empty_row = [na_value] * regex.groups + + def f(x): + if not isinstance(x, str): + return empty_row + m = regex.search(x) + if m: + return [na_value if item is None else item for item in m.groups()] + else: + return empty_row + + return [f(val) for val in np.asarray(self)] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git 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b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/datetimes.py new file mode 100644 index 0000000000000000000000000000000000000000..8f700cfa631327fb09b1d6d50f86eefb212f3f87 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/datetimes.py @@ -0,0 +1,1240 @@ +from __future__ import annotations + +from collections import abc +from datetime import date +from functools import partial +from itertools import islice +from typing import ( + TYPE_CHECKING, + Callable, + TypedDict, + Union, + cast, + overload, +) +import warnings + +import numpy as np + +from pandas._config import using_string_dtype + +from pandas._libs import ( + lib, + tslib, +) +from pandas._libs.tslibs import ( + OutOfBoundsDatetime, + Timedelta, + Timestamp, + astype_overflowsafe, + is_supported_dtype, + timezones as libtimezones, +) +from pandas._libs.tslibs.conversion import cast_from_unit_vectorized +from pandas._libs.tslibs.parsing import ( + DateParseError, + guess_datetime_format, +) +from pandas._libs.tslibs.strptime import array_strptime +from pandas._typing import ( + AnyArrayLike, + ArrayLike, + DateTimeErrorChoices, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import ( + ensure_object, + is_float, + is_integer, + is_integer_dtype, + is_list_like, + is_numeric_dtype, +) +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + DatetimeTZDtype, +) +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +from pandas.arrays import ( + DatetimeArray, + IntegerArray, + NumpyExtensionArray, +) +from pandas.core.algorithms import unique +from pandas.core.arrays import ArrowExtensionArray +from pandas.core.arrays.base import ExtensionArray +from pandas.core.arrays.datetimes import ( + maybe_convert_dtype, + objects_to_datetime64, + tz_to_dtype, +) +from pandas.core.construction import extract_array +from pandas.core.indexes.base import Index +from pandas.core.indexes.datetimes import DatetimeIndex + +if TYPE_CHECKING: + from collections.abc import Hashable + + from pandas._libs.tslibs.nattype import NaTType + from pandas._libs.tslibs.timedeltas import UnitChoices + + from pandas import ( + DataFrame, + Series, + ) + +# --------------------------------------------------------------------- +# types used in annotations + +ArrayConvertible = Union[list, tuple, AnyArrayLike] +Scalar = Union[float, str] +DatetimeScalar = Union[Scalar, date, np.datetime64] + +DatetimeScalarOrArrayConvertible = Union[DatetimeScalar, ArrayConvertible] + +DatetimeDictArg = Union[list[Scalar], tuple[Scalar, ...], AnyArrayLike] + + +class YearMonthDayDict(TypedDict, total=True): + year: DatetimeDictArg + month: DatetimeDictArg + day: DatetimeDictArg + + +class FulldatetimeDict(YearMonthDayDict, total=False): + hour: DatetimeDictArg + hours: DatetimeDictArg + minute: DatetimeDictArg + minutes: DatetimeDictArg + second: DatetimeDictArg + seconds: DatetimeDictArg + ms: DatetimeDictArg + us: DatetimeDictArg + ns: DatetimeDictArg + + +DictConvertible = Union[FulldatetimeDict, "DataFrame"] +start_caching_at = 50 + + +# --------------------------------------------------------------------- + + +def _guess_datetime_format_for_array(arr, dayfirst: bool | None = False) -> str | None: + # Try to guess the format based on the first non-NaN element, return None if can't + if (first_non_null := tslib.first_non_null(arr)) != -1: + if type(first_non_nan_element := arr[first_non_null]) is str: # noqa: E721 + # GH#32264 np.str_ object + guessed_format = guess_datetime_format( + first_non_nan_element, dayfirst=dayfirst + ) + if guessed_format is not None: + return guessed_format + # If there are multiple non-null elements, warn about + # how parsing might not be consistent + if tslib.first_non_null(arr[first_non_null + 1 :]) != -1: + warnings.warn( + "Could not infer format, so each element will be parsed " + "individually, falling back to `dateutil`. To ensure parsing is " + "consistent and as-expected, please specify a format.", + UserWarning, + stacklevel=find_stack_level(), + ) + return None + + +def should_cache( + arg: ArrayConvertible, unique_share: float = 0.7, check_count: int | None = None +) -> bool: + """ + Decides whether to do caching. + + If the percent of unique elements among `check_count` elements less + than `unique_share * 100` then we can do caching. + + Parameters + ---------- + arg: listlike, tuple, 1-d array, Series + unique_share: float, default=0.7, optional + 0 < unique_share < 1 + check_count: int, optional + 0 <= check_count <= len(arg) + + Returns + ------- + do_caching: bool + + Notes + ----- + By default for a sequence of less than 50 items in size, we don't do + caching; for the number of elements less than 5000, we take ten percent of + all elements to check for a uniqueness share; if the sequence size is more + than 5000, then we check only the first 500 elements. + All constants were chosen empirically by. + """ + do_caching = True + + # default realization + if check_count is None: + # in this case, the gain from caching is negligible + if len(arg) <= start_caching_at: + return False + + if len(arg) <= 5000: + check_count = len(arg) // 10 + else: + check_count = 500 + else: + assert ( + 0 <= check_count <= len(arg) + ), "check_count must be in next bounds: [0; len(arg)]" + if check_count == 0: + return False + + assert 0 < unique_share < 1, "unique_share must be in next bounds: (0; 1)" + + try: + # We can't cache if the items are not hashable. + unique_elements = set(islice(arg, check_count)) + except TypeError: + return False + if len(unique_elements) > check_count * unique_share: + do_caching = False + return do_caching + + +def _maybe_cache( + arg: ArrayConvertible, + format: str | None, + cache: bool, + convert_listlike: Callable, +) -> Series: + """ + Create a cache of unique dates from an array of dates + + Parameters + ---------- + arg : listlike, tuple, 1-d array, Series + format : string + Strftime format to parse time + cache : bool + True attempts to create a cache of converted values + convert_listlike : function + Conversion function to apply on dates + + Returns + ------- + cache_array : Series + Cache of converted, unique dates. Can be empty + """ + from pandas import Series + + cache_array = Series(dtype=object) + + if cache: + # Perform a quicker unique check + if not should_cache(arg): + return cache_array + + if not isinstance(arg, (np.ndarray, ExtensionArray, Index, ABCSeries)): + arg = np.array(arg) + + unique_dates = unique(arg) + if len(unique_dates) < len(arg): + cache_dates = convert_listlike(unique_dates, format) + # GH#45319 + try: + cache_array = Series(cache_dates, index=unique_dates, copy=False) + except OutOfBoundsDatetime: + return cache_array + # GH#39882 and GH#35888 in case of None and NaT we get duplicates + if not cache_array.index.is_unique: + cache_array = cache_array[~cache_array.index.duplicated()] + return cache_array + + +def _box_as_indexlike( + dt_array: ArrayLike, utc: bool = False, name: Hashable | None = None +) -> Index: + """ + Properly boxes the ndarray of datetimes to DatetimeIndex + if it is possible or to generic Index instead + + Parameters + ---------- + dt_array: 1-d array + Array of datetimes to be wrapped in an Index. + utc : bool + Whether to convert/localize timestamps to UTC. + name : string, default None + Name for a resulting index + + Returns + ------- + result : datetime of converted dates + - DatetimeIndex if convertible to sole datetime64 type + - general Index otherwise + """ + + if lib.is_np_dtype(dt_array.dtype, "M"): + tz = "utc" if utc else None + return DatetimeIndex(dt_array, tz=tz, name=name) + return Index(dt_array, name=name, dtype=dt_array.dtype) + + +def _convert_and_box_cache( + arg: DatetimeScalarOrArrayConvertible, + cache_array: Series, + name: Hashable | None = None, +) -> Index: + """ + Convert array of dates with a cache and wrap the result in an Index. + + Parameters + ---------- + arg : integer, float, string, datetime, list, tuple, 1-d array, Series + cache_array : Series + Cache of converted, unique dates + name : string, default None + Name for a DatetimeIndex + + Returns + ------- + result : Index-like of converted dates + """ + from pandas import Series + + result = Series(arg, dtype=cache_array.index.dtype).map(cache_array) + return _box_as_indexlike(result._values, utc=False, name=name) + + +def _convert_listlike_datetimes( + arg, + format: str | None, + name: Hashable | None = None, + utc: bool = False, + unit: str | None = None, + errors: DateTimeErrorChoices = "raise", + dayfirst: bool | None = None, + yearfirst: bool | None = None, + exact: bool = True, +): + """ + Helper function for to_datetime. Performs the conversions of 1D listlike + of dates + + Parameters + ---------- + arg : list, tuple, ndarray, Series, Index + date to be parsed + name : object + None or string for the Index name + utc : bool + Whether to convert/localize timestamps to UTC. + unit : str + None or string of the frequency of the passed data + errors : str + error handing behaviors from to_datetime, 'raise', 'coerce', 'ignore' + dayfirst : bool + dayfirst parsing behavior from to_datetime + yearfirst : bool + yearfirst parsing behavior from to_datetime + exact : bool, default True + exact format matching behavior from to_datetime + + Returns + ------- + Index-like of parsed dates + """ + if isinstance(arg, (list, tuple)): + arg = np.array(arg, dtype="O") + elif isinstance(arg, NumpyExtensionArray): + arg = np.array(arg) + + arg_dtype = getattr(arg, "dtype", None) + # these are shortcutable + tz = "utc" if utc else None + if isinstance(arg_dtype, DatetimeTZDtype): + if not isinstance(arg, (DatetimeArray, DatetimeIndex)): + return DatetimeIndex(arg, tz=tz, name=name) + if utc: + arg = arg.tz_convert(None).tz_localize("utc") + return arg + + elif isinstance(arg_dtype, ArrowDtype) and arg_dtype.type is Timestamp: + # TODO: Combine with above if DTI/DTA supports Arrow timestamps + if utc: + # pyarrow uses UTC, not lowercase utc + if isinstance(arg, Index): + arg_array = cast(ArrowExtensionArray, arg.array) + if arg_dtype.pyarrow_dtype.tz is not None: + arg_array = arg_array._dt_tz_convert("UTC") + else: + arg_array = arg_array._dt_tz_localize("UTC") + arg = Index(arg_array) + else: + # ArrowExtensionArray + if arg_dtype.pyarrow_dtype.tz is not None: + arg = arg._dt_tz_convert("UTC") + else: + arg = arg._dt_tz_localize("UTC") + return arg + + elif lib.is_np_dtype(arg_dtype, "M"): + if not is_supported_dtype(arg_dtype): + # We go to closest supported reso, i.e. "s" + arg = astype_overflowsafe( + # TODO: looks like we incorrectly raise with errors=="ignore" + np.asarray(arg), + np.dtype("M8[s]"), + is_coerce=errors == "coerce", + ) + + if not isinstance(arg, (DatetimeArray, DatetimeIndex)): + return DatetimeIndex(arg, tz=tz, name=name) + elif utc: + # DatetimeArray, DatetimeIndex + return arg.tz_localize("utc") + + return arg + + elif unit is not None: + if format is not None: + raise ValueError("cannot specify both format and unit") + return _to_datetime_with_unit(arg, unit, name, utc, errors) + elif getattr(arg, "ndim", 1) > 1: + raise TypeError( + "arg must be a string, datetime, list, tuple, 1-d array, or Series" + ) + + # warn if passing timedelta64, raise for PeriodDtype + # NB: this must come after unit transformation + try: + arg, _ = maybe_convert_dtype(arg, copy=False, tz=libtimezones.maybe_get_tz(tz)) + except TypeError: + if errors == "coerce": + npvalues = np.array(["NaT"], dtype="datetime64[ns]").repeat(len(arg)) + return DatetimeIndex(npvalues, name=name) + elif errors == "ignore": + idx = Index(arg, name=name) + return idx + raise + + arg = ensure_object(arg) + + if format is None: + format = _guess_datetime_format_for_array(arg, dayfirst=dayfirst) + + # `format` could be inferred, or user didn't ask for mixed-format parsing. + if format is not None and format != "mixed": + return _array_strptime_with_fallback(arg, name, utc, format, exact, errors) + + result, tz_parsed = objects_to_datetime64( + arg, + dayfirst=dayfirst, + yearfirst=yearfirst, + utc=utc, + errors=errors, + allow_object=True, + ) + + if tz_parsed is not None: + # We can take a shortcut since the datetime64 numpy array + # is in UTC + out_unit = np.datetime_data(result.dtype)[0] + dtype = cast(DatetimeTZDtype, tz_to_dtype(tz_parsed, out_unit)) + dt64_values = result.view(f"M8[{dtype.unit}]") + dta = DatetimeArray._simple_new(dt64_values, dtype=dtype) + return DatetimeIndex._simple_new(dta, name=name) + + return _box_as_indexlike(result, utc=utc, name=name) + + +def _array_strptime_with_fallback( + arg, + name, + utc: bool, + fmt: str, + exact: bool, + errors: str, +) -> Index: + """ + Call array_strptime, with fallback behavior depending on 'errors'. + """ + result, tz_out = array_strptime(arg, fmt, exact=exact, errors=errors, utc=utc) + if tz_out is not None: + unit = np.datetime_data(result.dtype)[0] + dtype = DatetimeTZDtype(tz=tz_out, unit=unit) + dta = DatetimeArray._simple_new(result, dtype=dtype) + if utc: + dta = dta.tz_convert("UTC") + return Index(dta, name=name) + elif result.dtype != object and utc: + unit = np.datetime_data(result.dtype)[0] + res = Index(result, dtype=f"M8[{unit}, UTC]", name=name) + return res + elif using_string_dtype() and result.dtype == object: + if lib.is_string_array(result): + return Index(result, dtype="str", name=name) + return Index(result, dtype=result.dtype, name=name) + + +def _to_datetime_with_unit(arg, unit, name, utc: bool, errors: str) -> Index: + """ + to_datetime specalized to the case where a 'unit' is passed. + """ + arg = extract_array(arg, extract_numpy=True) + + # GH#30050 pass an ndarray to tslib.array_with_unit_to_datetime + # because it expects an ndarray argument + if isinstance(arg, IntegerArray): + arr = arg.astype(f"datetime64[{unit}]") + tz_parsed = None + else: + arg = np.asarray(arg) + + if arg.dtype.kind in "iu": + # Note we can't do "f" here because that could induce unwanted + # rounding GH#14156, GH#20445 + arr = arg.astype(f"datetime64[{unit}]", copy=False) + try: + arr = astype_overflowsafe(arr, np.dtype("M8[ns]"), copy=False) + except OutOfBoundsDatetime: + if errors == "raise": + raise + arg = arg.astype(object) + return _to_datetime_with_unit(arg, unit, name, utc, errors) + tz_parsed = None + + elif arg.dtype.kind == "f": + with np.errstate(over="raise"): + try: + arr = cast_from_unit_vectorized(arg, unit=unit) + except OutOfBoundsDatetime: + if errors != "raise": + return _to_datetime_with_unit( + arg.astype(object), unit, name, utc, errors + ) + raise OutOfBoundsDatetime( + f"cannot convert input with unit '{unit}'" + ) + + arr = arr.view("M8[ns]") + tz_parsed = None + else: + arg = arg.astype(object, copy=False) + arr, tz_parsed = tslib.array_with_unit_to_datetime(arg, unit, errors=errors) + + if errors == "ignore": + # Index constructor _may_ infer to DatetimeIndex + result = Index._with_infer(arr, name=name) + else: + result = DatetimeIndex(arr, name=name) + + if not isinstance(result, DatetimeIndex): + return result + + # GH#23758: We may still need to localize the result with tz + # GH#25546: Apply tz_parsed first (from arg), then tz (from caller) + # result will be naive but in UTC + result = result.tz_localize("UTC").tz_convert(tz_parsed) + + if utc: + if result.tz is None: + result = result.tz_localize("utc") + else: + result = result.tz_convert("utc") + return result + + +def _adjust_to_origin(arg, origin, unit): + """ + Helper function for to_datetime. + Adjust input argument to the specified origin + + Parameters + ---------- + arg : list, tuple, ndarray, Series, Index + date to be adjusted + origin : 'julian' or Timestamp + origin offset for the arg + unit : str + passed unit from to_datetime, must be 'D' + + Returns + ------- + ndarray or scalar of adjusted date(s) + """ + if origin == "julian": + original = arg + j0 = Timestamp(0).to_julian_date() + if unit != "D": + raise ValueError("unit must be 'D' for origin='julian'") + try: + arg = arg - j0 + except TypeError as err: + raise ValueError( + "incompatible 'arg' type for given 'origin'='julian'" + ) from err + + # preemptively check this for a nice range + j_max = Timestamp.max.to_julian_date() - j0 + j_min = Timestamp.min.to_julian_date() - j0 + if np.any(arg > j_max) or np.any(arg < j_min): + raise OutOfBoundsDatetime( + f"{original} is Out of Bounds for origin='julian'" + ) + else: + # arg must be numeric + if not ( + (is_integer(arg) or is_float(arg)) or is_numeric_dtype(np.asarray(arg)) + ): + raise ValueError( + f"'{arg}' is not compatible with origin='{origin}'; " + "it must be numeric with a unit specified" + ) + + # we are going to offset back to unix / epoch time + try: + offset = Timestamp(origin, unit=unit) + except OutOfBoundsDatetime as err: + raise OutOfBoundsDatetime(f"origin {origin} is Out of Bounds") from err + except ValueError as err: + raise ValueError( + f"origin {origin} cannot be converted to a Timestamp" + ) from err + + if offset.tz is not None: + raise ValueError(f"origin offset {offset} must be tz-naive") + td_offset = offset - Timestamp(0) + + # convert the offset to the unit of the arg + # this should be lossless in terms of precision + ioffset = td_offset // Timedelta(1, unit=unit) + + # scalars & ndarray-like can handle the addition + if is_list_like(arg) and not isinstance(arg, (ABCSeries, Index, np.ndarray)): + arg = np.asarray(arg) + arg = arg + ioffset + return arg + + +@overload +def to_datetime( + arg: DatetimeScalar, + errors: DateTimeErrorChoices = ..., + dayfirst: bool = ..., + yearfirst: bool = ..., + utc: bool = ..., + format: str | None = ..., + exact: bool = ..., + unit: str | None = ..., + infer_datetime_format: bool = ..., + origin=..., + cache: bool = ..., +) -> Timestamp: + ... + + +@overload +def to_datetime( + arg: Series | DictConvertible, + errors: DateTimeErrorChoices = ..., + dayfirst: bool = ..., + yearfirst: bool = ..., + utc: bool = ..., + format: str | None = ..., + exact: bool = ..., + unit: str | None = ..., + infer_datetime_format: bool = ..., + origin=..., + cache: bool = ..., +) -> Series: + ... + + +@overload +def to_datetime( + arg: list | tuple | Index | ArrayLike, + errors: DateTimeErrorChoices = ..., + dayfirst: bool = ..., + yearfirst: bool = ..., + utc: bool = ..., + format: str | None = ..., + exact: bool = ..., + unit: str | None = ..., + infer_datetime_format: bool = ..., + origin=..., + cache: bool = ..., +) -> DatetimeIndex: + ... + + +def to_datetime( + arg: DatetimeScalarOrArrayConvertible | DictConvertible, + errors: DateTimeErrorChoices = "raise", + dayfirst: bool = False, + yearfirst: bool = False, + utc: bool = False, + format: str | None = None, + exact: bool | lib.NoDefault = lib.no_default, + unit: str | None = None, + infer_datetime_format: lib.NoDefault | bool = lib.no_default, + origin: str = "unix", + cache: bool = True, +) -> DatetimeIndex | Series | DatetimeScalar | NaTType | None: + """ + Convert argument to datetime. + + This function converts a scalar, array-like, :class:`Series` or + :class:`DataFrame`/dict-like to a pandas datetime object. + + Parameters + ---------- + arg : int, float, str, datetime, list, tuple, 1-d array, Series, DataFrame/dict-like + The object to convert to a datetime. If a :class:`DataFrame` is provided, the + method expects minimally the following columns: :const:`"year"`, + :const:`"month"`, :const:`"day"`. The column "year" + must be specified in 4-digit format. + errors : {'ignore', 'raise', 'coerce'}, default 'raise' + - If :const:`'raise'`, then invalid parsing will raise an exception. + - If :const:`'coerce'`, then invalid parsing will be set as :const:`NaT`. + - If :const:`'ignore'`, then invalid parsing will return the input. + dayfirst : bool, default False + Specify a date parse order if `arg` is str or is list-like. + If :const:`True`, parses dates with the day first, e.g. :const:`"10/11/12"` + is parsed as :const:`2012-11-10`. + + .. warning:: + + ``dayfirst=True`` is not strict, but will prefer to parse + with day first. + + yearfirst : bool, default False + Specify a date parse order if `arg` is str or is list-like. + + - If :const:`True` parses dates with the year first, e.g. + :const:`"10/11/12"` is parsed as :const:`2010-11-12`. + - If both `dayfirst` and `yearfirst` are :const:`True`, `yearfirst` is + preceded (same as :mod:`dateutil`). + + .. warning:: + + ``yearfirst=True`` is not strict, but will prefer to parse + with year first. + + utc : bool, default False + Control timezone-related parsing, localization and conversion. + + - If :const:`True`, the function *always* returns a timezone-aware + UTC-localized :class:`Timestamp`, :class:`Series` or + :class:`DatetimeIndex`. To do this, timezone-naive inputs are + *localized* as UTC, while timezone-aware inputs are *converted* to UTC. + + - If :const:`False` (default), inputs will not be coerced to UTC. + Timezone-naive inputs will remain naive, while timezone-aware ones + will keep their time offsets. Limitations exist for mixed + offsets (typically, daylight savings), see :ref:`Examples + ` section for details. + + .. warning:: + + In a future version of pandas, parsing datetimes with mixed time + zones will raise an error unless `utc=True`. + Please specify `utc=True` to opt in to the new behaviour + and silence this warning. To create a `Series` with mixed offsets and + `object` dtype, please use `apply` and `datetime.datetime.strptime`. + + See also: pandas general documentation about `timezone conversion and + localization + `_. + + format : str, default None + The strftime to parse time, e.g. :const:`"%d/%m/%Y"`. See + `strftime documentation + `_ for more information on choices, though + note that :const:`"%f"` will parse all the way up to nanoseconds. + You can also pass: + + - "ISO8601", to parse any `ISO8601 `_ + time string (not necessarily in exactly the same format); + - "mixed", to infer the format for each element individually. This is risky, + and you should probably use it along with `dayfirst`. + + .. note:: + + If a :class:`DataFrame` is passed, then `format` has no effect. + + exact : bool, default True + Control how `format` is used: + + - If :const:`True`, require an exact `format` match. + - If :const:`False`, allow the `format` to match anywhere in the target + string. + + Cannot be used alongside ``format='ISO8601'`` or ``format='mixed'``. + unit : str, default 'ns' + The unit of the arg (D,s,ms,us,ns) denote the unit, which is an + integer or float number. This will be based off the origin. + Example, with ``unit='ms'`` and ``origin='unix'``, this would calculate + the number of milliseconds to the unix epoch start. + infer_datetime_format : bool, default False + If :const:`True` and no `format` is given, attempt to infer the format + of the datetime strings based on the first non-NaN element, + and if it can be inferred, switch to a faster method of parsing them. + In some cases this can increase the parsing speed by ~5-10x. + + .. deprecated:: 2.0.0 + A strict version of this argument is now the default, passing it has + no effect. + + origin : scalar, default 'unix' + Define the reference date. The numeric values would be parsed as number + of units (defined by `unit`) since this reference date. + + - If :const:`'unix'` (or POSIX) time; origin is set to 1970-01-01. + - If :const:`'julian'`, unit must be :const:`'D'`, and origin is set to + beginning of Julian Calendar. Julian day number :const:`0` is assigned + to the day starting at noon on January 1, 4713 BC. + - If Timestamp convertible (Timestamp, dt.datetime, np.datetimt64 or date + string), origin is set to Timestamp identified by origin. + - If a float or integer, origin is the difference + (in units determined by the ``unit`` argument) relative to 1970-01-01. + cache : bool, default True + If :const:`True`, use a cache of unique, converted dates to apply the + datetime conversion. May produce significant speed-up when parsing + duplicate date strings, especially ones with timezone offsets. The cache + is only used when there are at least 50 values. The presence of + out-of-bounds values will render the cache unusable and may slow down + parsing. + + Returns + ------- + datetime + If parsing succeeded. + Return type depends on input (types in parenthesis correspond to + fallback in case of unsuccessful timezone or out-of-range timestamp + parsing): + + - scalar: :class:`Timestamp` (or :class:`datetime.datetime`) + - array-like: :class:`DatetimeIndex` (or :class:`Series` with + :class:`object` dtype containing :class:`datetime.datetime`) + - Series: :class:`Series` of :class:`datetime64` dtype (or + :class:`Series` of :class:`object` dtype containing + :class:`datetime.datetime`) + - DataFrame: :class:`Series` of :class:`datetime64` dtype (or + :class:`Series` of :class:`object` dtype containing + :class:`datetime.datetime`) + + Raises + ------ + ParserError + When parsing a date from string fails. + ValueError + When another datetime conversion error happens. For example when one + of 'year', 'month', day' columns is missing in a :class:`DataFrame`, or + when a Timezone-aware :class:`datetime.datetime` is found in an array-like + of mixed time offsets, and ``utc=False``. + + See Also + -------- + DataFrame.astype : Cast argument to a specified dtype. + to_timedelta : Convert argument to timedelta. + convert_dtypes : Convert dtypes. + + Notes + ----- + + Many input types are supported, and lead to different output types: + + - **scalars** can be int, float, str, datetime object (from stdlib :mod:`datetime` + module or :mod:`numpy`). They are converted to :class:`Timestamp` when + possible, otherwise they are converted to :class:`datetime.datetime`. + None/NaN/null scalars are converted to :const:`NaT`. + + - **array-like** can contain int, float, str, datetime objects. They are + converted to :class:`DatetimeIndex` when possible, otherwise they are + converted to :class:`Index` with :class:`object` dtype, containing + :class:`datetime.datetime`. None/NaN/null entries are converted to + :const:`NaT` in both cases. + + - **Series** are converted to :class:`Series` with :class:`datetime64` + dtype when possible, otherwise they are converted to :class:`Series` with + :class:`object` dtype, containing :class:`datetime.datetime`. None/NaN/null + entries are converted to :const:`NaT` in both cases. + + - **DataFrame/dict-like** are converted to :class:`Series` with + :class:`datetime64` dtype. For each row a datetime is created from assembling + the various dataframe columns. Column keys can be common abbreviations + like ['year', 'month', 'day', 'minute', 'second', 'ms', 'us', 'ns']) or + plurals of the same. + + The following causes are responsible for :class:`datetime.datetime` objects + being returned (possibly inside an :class:`Index` or a :class:`Series` with + :class:`object` dtype) instead of a proper pandas designated type + (:class:`Timestamp`, :class:`DatetimeIndex` or :class:`Series` + with :class:`datetime64` dtype): + + - when any input element is before :const:`Timestamp.min` or after + :const:`Timestamp.max`, see `timestamp limitations + `_. + + - when ``utc=False`` (default) and the input is an array-like or + :class:`Series` containing mixed naive/aware datetime, or aware with mixed + time offsets. Note that this happens in the (quite frequent) situation when + the timezone has a daylight savings policy. In that case you may wish to + use ``utc=True``. + + Examples + -------- + + **Handling various input formats** + + Assembling a datetime from multiple columns of a :class:`DataFrame`. The keys + can be common abbreviations like ['year', 'month', 'day', 'minute', 'second', + 'ms', 'us', 'ns']) or plurals of the same + + >>> df = pd.DataFrame({'year': [2015, 2016], + ... 'month': [2, 3], + ... 'day': [4, 5]}) + >>> pd.to_datetime(df) + 0 2015-02-04 + 1 2016-03-05 + dtype: datetime64[ns] + + Using a unix epoch time + + >>> pd.to_datetime(1490195805, unit='s') + Timestamp('2017-03-22 15:16:45') + >>> pd.to_datetime(1490195805433502912, unit='ns') + Timestamp('2017-03-22 15:16:45.433502912') + + .. warning:: For float arg, precision rounding might happen. To prevent + unexpected behavior use a fixed-width exact type. + + Using a non-unix epoch origin + + >>> pd.to_datetime([1, 2, 3], unit='D', + ... origin=pd.Timestamp('1960-01-01')) + DatetimeIndex(['1960-01-02', '1960-01-03', '1960-01-04'], + dtype='datetime64[ns]', freq=None) + + **Differences with strptime behavior** + + :const:`"%f"` will parse all the way up to nanoseconds. + + >>> pd.to_datetime('2018-10-26 12:00:00.0000000011', + ... format='%Y-%m-%d %H:%M:%S.%f') + Timestamp('2018-10-26 12:00:00.000000001') + + **Non-convertible date/times** + + Passing ``errors='coerce'`` will force an out-of-bounds date to :const:`NaT`, + in addition to forcing non-dates (or non-parseable dates) to :const:`NaT`. + + >>> pd.to_datetime('13000101', format='%Y%m%d', errors='coerce') + NaT + + .. _to_datetime_tz_examples: + + **Timezones and time offsets** + + The default behaviour (``utc=False``) is as follows: + + - Timezone-naive inputs are converted to timezone-naive :class:`DatetimeIndex`: + + >>> pd.to_datetime(['2018-10-26 12:00:00', '2018-10-26 13:00:15']) + DatetimeIndex(['2018-10-26 12:00:00', '2018-10-26 13:00:15'], + dtype='datetime64[ns]', freq=None) + + - Timezone-aware inputs *with constant time offset* are converted to + timezone-aware :class:`DatetimeIndex`: + + >>> pd.to_datetime(['2018-10-26 12:00 -0500', '2018-10-26 13:00 -0500']) + DatetimeIndex(['2018-10-26 12:00:00-05:00', '2018-10-26 13:00:00-05:00'], + dtype='datetime64[ns, UTC-05:00]', freq=None) + + - However, timezone-aware inputs *with mixed time offsets* (for example + issued from a timezone with daylight savings, such as Europe/Paris) + are **not successfully converted** to a :class:`DatetimeIndex`. + Parsing datetimes with mixed time zones will show a warning unless + `utc=True`. If you specify `utc=False` the warning below will be shown + and a simple :class:`Index` containing :class:`datetime.datetime` + objects will be returned: + + >>> pd.to_datetime(['2020-10-25 02:00 +0200', + ... '2020-10-25 04:00 +0100']) # doctest: +SKIP + FutureWarning: In a future version of pandas, parsing datetimes with mixed + time zones will raise an error unless `utc=True`. Please specify `utc=True` + to opt in to the new behaviour and silence this warning. To create a `Series` + with mixed offsets and `object` dtype, please use `apply` and + `datetime.datetime.strptime`. + Index([2020-10-25 02:00:00+02:00, 2020-10-25 04:00:00+01:00], + dtype='object') + + - A mix of timezone-aware and timezone-naive inputs is also converted to + a simple :class:`Index` containing :class:`datetime.datetime` objects: + + >>> from datetime import datetime + >>> pd.to_datetime(["2020-01-01 01:00:00-01:00", + ... datetime(2020, 1, 1, 3, 0)]) # doctest: +SKIP + FutureWarning: In a future version of pandas, parsing datetimes with mixed + time zones will raise an error unless `utc=True`. Please specify `utc=True` + to opt in to the new behaviour and silence this warning. To create a `Series` + with mixed offsets and `object` dtype, please use `apply` and + `datetime.datetime.strptime`. + Index([2020-01-01 01:00:00-01:00, 2020-01-01 03:00:00], dtype='object') + + | + + Setting ``utc=True`` solves most of the above issues: + + - Timezone-naive inputs are *localized* as UTC + + >>> pd.to_datetime(['2018-10-26 12:00', '2018-10-26 13:00'], utc=True) + DatetimeIndex(['2018-10-26 12:00:00+00:00', '2018-10-26 13:00:00+00:00'], + dtype='datetime64[ns, UTC]', freq=None) + + - Timezone-aware inputs are *converted* to UTC (the output represents the + exact same datetime, but viewed from the UTC time offset `+00:00`). + + >>> pd.to_datetime(['2018-10-26 12:00 -0530', '2018-10-26 12:00 -0500'], + ... utc=True) + DatetimeIndex(['2018-10-26 17:30:00+00:00', '2018-10-26 17:00:00+00:00'], + dtype='datetime64[ns, UTC]', freq=None) + + - Inputs can contain both string or datetime, the above + rules still apply + + >>> pd.to_datetime(['2018-10-26 12:00', datetime(2020, 1, 1, 18)], utc=True) + DatetimeIndex(['2018-10-26 12:00:00+00:00', '2020-01-01 18:00:00+00:00'], + dtype='datetime64[ns, UTC]', freq=None) + """ + if exact is not lib.no_default and format in {"mixed", "ISO8601"}: + raise ValueError("Cannot use 'exact' when 'format' is 'mixed' or 'ISO8601'") + if infer_datetime_format is not lib.no_default: + warnings.warn( + "The argument 'infer_datetime_format' is deprecated and will " + "be removed in a future version. " + "A strict version of it is now the default, see " + "https://pandas.pydata.org/pdeps/0004-consistent-to-datetime-parsing.html. " + "You can safely remove this argument.", + stacklevel=find_stack_level(), + ) + if errors == "ignore": + # GH#54467 + warnings.warn( + "errors='ignore' is deprecated and will raise in a future version. " + "Use to_datetime without passing `errors` and catch exceptions " + "explicitly instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if arg is None: + return None + + if origin != "unix": + arg = _adjust_to_origin(arg, origin, unit) + + convert_listlike = partial( + _convert_listlike_datetimes, + utc=utc, + unit=unit, + dayfirst=dayfirst, + yearfirst=yearfirst, + errors=errors, + exact=exact, + ) + # pylint: disable-next=used-before-assignment + result: Timestamp | NaTType | Series | Index + + if isinstance(arg, Timestamp): + result = arg + if utc: + if arg.tz is not None: + result = arg.tz_convert("utc") + else: + result = arg.tz_localize("utc") + elif isinstance(arg, ABCSeries): + cache_array = _maybe_cache(arg, format, cache, convert_listlike) + if not cache_array.empty: + result = arg.map(cache_array) + else: + values = convert_listlike(arg._values, format) + result = arg._constructor(values, index=arg.index, name=arg.name) + elif isinstance(arg, (ABCDataFrame, abc.MutableMapping)): + result = _assemble_from_unit_mappings(arg, errors, utc) + elif isinstance(arg, Index): + cache_array = _maybe_cache(arg, format, cache, convert_listlike) + if not cache_array.empty: + result = _convert_and_box_cache(arg, cache_array, name=arg.name) + else: + result = convert_listlike(arg, format, name=arg.name) + elif is_list_like(arg): + try: + # error: Argument 1 to "_maybe_cache" has incompatible type + # "Union[float, str, datetime, List[Any], Tuple[Any, ...], ExtensionArray, + # ndarray[Any, Any], Series]"; expected "Union[List[Any], Tuple[Any, ...], + # Union[Union[ExtensionArray, ndarray[Any, Any]], Index, Series], Series]" + argc = cast( + Union[list, tuple, ExtensionArray, np.ndarray, "Series", Index], arg + ) + cache_array = _maybe_cache(argc, format, cache, convert_listlike) + except OutOfBoundsDatetime: + # caching attempts to create a DatetimeIndex, which may raise + # an OOB. If that's the desired behavior, then just reraise... + if errors == "raise": + raise + # ... otherwise, continue without the cache. + from pandas import Series + + cache_array = Series([], dtype=object) # just an empty array + if not cache_array.empty: + result = _convert_and_box_cache(argc, cache_array) + else: + result = convert_listlike(argc, format) + else: + result = convert_listlike(np.array([arg]), format)[0] + if isinstance(arg, bool) and isinstance(result, np.bool_): + result = bool(result) # TODO: avoid this kludge. + + # error: Incompatible return value type (got "Union[Timestamp, NaTType, + # Series, Index]", expected "Union[DatetimeIndex, Series, float, str, + # NaTType, None]") + return result # type: ignore[return-value] + + +# mappings for assembling units +_unit_map = { + "year": "year", + "years": "year", + "month": "month", + "months": "month", + "day": "day", + "days": "day", + "hour": "h", + "hours": "h", + "minute": "m", + "minutes": "m", + "second": "s", + "seconds": "s", + "ms": "ms", + "millisecond": "ms", + "milliseconds": "ms", + "us": "us", + "microsecond": "us", + "microseconds": "us", + "ns": "ns", + "nanosecond": "ns", + "nanoseconds": "ns", +} + + +def _assemble_from_unit_mappings(arg, errors: DateTimeErrorChoices, utc: bool): + """ + assemble the unit specified fields from the arg (DataFrame) + Return a Series for actual parsing + + Parameters + ---------- + arg : DataFrame + errors : {'ignore', 'raise', 'coerce'}, default 'raise' + + - If :const:`'raise'`, then invalid parsing will raise an exception + - If :const:`'coerce'`, then invalid parsing will be set as :const:`NaT` + - If :const:`'ignore'`, then invalid parsing will return the input + utc : bool + Whether to convert/localize timestamps to UTC. + + Returns + ------- + Series + """ + from pandas import ( + DataFrame, + to_numeric, + to_timedelta, + ) + + arg = DataFrame(arg) + if not arg.columns.is_unique: + raise ValueError("cannot assemble with duplicate keys") + + # replace passed unit with _unit_map + def f(value): + if value in _unit_map: + return _unit_map[value] + + # m is case significant + if value.lower() in _unit_map: + return _unit_map[value.lower()] + + return value + + unit = {k: f(k) for k in arg.keys()} + unit_rev = {v: k for k, v in unit.items()} + + # we require at least Ymd + required = ["year", "month", "day"] + req = sorted(set(required) - set(unit_rev.keys())) + if len(req): + _required = ",".join(req) + raise ValueError( + "to assemble mappings requires at least that " + f"[year, month, day] be specified: [{_required}] is missing" + ) + + # keys we don't recognize + excess = sorted(set(unit_rev.keys()) - set(_unit_map.values())) + if len(excess): + _excess = ",".join(excess) + raise ValueError( + f"extra keys have been passed to the datetime assemblage: [{_excess}]" + ) + + def coerce(values): + # we allow coercion to if errors allows + values = to_numeric(values, errors=errors) + + # prevent overflow in case of int8 or int16 + if is_integer_dtype(values.dtype): + values = values.astype("int64", copy=False) + return values + + values = ( + coerce(arg[unit_rev["year"]]) * 10000 + + coerce(arg[unit_rev["month"]]) * 100 + + coerce(arg[unit_rev["day"]]) + ) + try: + values = to_datetime(values, format="%Y%m%d", errors=errors, utc=utc) + except (TypeError, ValueError) as err: + raise ValueError(f"cannot assemble the datetimes: {err}") from err + + units: list[UnitChoices] = ["h", "m", "s", "ms", "us", "ns"] + for u in units: + value = unit_rev.get(u) + if value is not None and value in arg: + try: + values += to_timedelta(coerce(arg[value]), unit=u, errors=errors) + except (TypeError, ValueError) as err: + raise ValueError( + f"cannot assemble the datetimes [{value}]: {err}" + ) from err + return values + + +__all__ = [ + "DateParseError", + "should_cache", + "to_datetime", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/numeric.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/numeric.py new file mode 100644 index 0000000000000000000000000000000000000000..ca703e0362611b9b2ccecdbf282104ad450a8d83 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/numeric.py @@ -0,0 +1,332 @@ +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + Literal, +) +import warnings + +import numpy as np + +from pandas._libs import ( + lib, + missing as libmissing, +) +from pandas.util._exceptions import find_stack_level +from pandas.util._validators import check_dtype_backend + +from pandas.core.dtypes.cast import maybe_downcast_numeric +from pandas.core.dtypes.common import ( + ensure_object, + is_bool_dtype, + is_decimal, + is_integer_dtype, + is_number, + is_numeric_dtype, + is_scalar, + is_string_dtype, + needs_i8_conversion, +) +from pandas.core.dtypes.dtypes import ArrowDtype +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) + +from pandas.core.arrays import BaseMaskedArray +from pandas.core.arrays.string_ import StringDtype + +if TYPE_CHECKING: + from pandas._typing import ( + DateTimeErrorChoices, + DtypeBackend, + npt, + ) + + +def to_numeric( + arg, + errors: DateTimeErrorChoices = "raise", + downcast: Literal["integer", "signed", "unsigned", "float"] | None = None, + dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default, +): + """ + Convert argument to a numeric type. + + The default return dtype is `float64` or `int64` + depending on the data supplied. Use the `downcast` parameter + to obtain other dtypes. + + Please note that precision loss may occur if really large numbers + are passed in. Due to the internal limitations of `ndarray`, if + numbers smaller than `-9223372036854775808` (np.iinfo(np.int64).min) + or larger than `18446744073709551615` (np.iinfo(np.uint64).max) are + passed in, it is very likely they will be converted to float so that + they can be stored in an `ndarray`. These warnings apply similarly to + `Series` since it internally leverages `ndarray`. + + Parameters + ---------- + arg : scalar, list, tuple, 1-d array, or Series + Argument to be converted. + errors : {'ignore', 'raise', 'coerce'}, default 'raise' + - If 'raise', then invalid parsing will raise an exception. + - If 'coerce', then invalid parsing will be set as NaN. + - If 'ignore', then invalid parsing will return the input. + + .. versionchanged:: 2.2 + + "ignore" is deprecated. Catch exceptions explicitly instead. + + downcast : str, default None + Can be 'integer', 'signed', 'unsigned', or 'float'. + If not None, and if the data has been successfully cast to a + numerical dtype (or if the data was numeric to begin with), + downcast that resulting data to the smallest numerical dtype + possible according to the following rules: + + - 'integer' or 'signed': smallest signed int dtype (min.: np.int8) + - 'unsigned': smallest unsigned int dtype (min.: np.uint8) + - 'float': smallest float dtype (min.: np.float32) + + As this behaviour is separate from the core conversion to + numeric values, any errors raised during the downcasting + will be surfaced regardless of the value of the 'errors' input. + + In addition, downcasting will only occur if the size + of the resulting data's dtype is strictly larger than + the dtype it is to be cast to, so if none of the dtypes + checked satisfy that specification, no downcasting will be + performed on the data. + dtype_backend : {'numpy_nullable', 'pyarrow'}, default 'numpy_nullable' + Back-end data type applied to the resultant :class:`DataFrame` + (still experimental). Behaviour is as follows: + + * ``"numpy_nullable"``: returns nullable-dtype-backed :class:`DataFrame` + (default). + * ``"pyarrow"``: returns pyarrow-backed nullable :class:`ArrowDtype` + DataFrame. + + .. versionadded:: 2.0 + + Returns + ------- + ret + Numeric if parsing succeeded. + Return type depends on input. Series if Series, otherwise ndarray. + + See Also + -------- + DataFrame.astype : Cast argument to a specified dtype. + to_datetime : Convert argument to datetime. + to_timedelta : Convert argument to timedelta. + numpy.ndarray.astype : Cast a numpy array to a specified type. + DataFrame.convert_dtypes : Convert dtypes. + + Examples + -------- + Take separate series and convert to numeric, coercing when told to + + >>> s = pd.Series(['1.0', '2', -3]) + >>> pd.to_numeric(s) + 0 1.0 + 1 2.0 + 2 -3.0 + dtype: float64 + >>> pd.to_numeric(s, downcast='float') + 0 1.0 + 1 2.0 + 2 -3.0 + dtype: float32 + >>> pd.to_numeric(s, downcast='signed') + 0 1 + 1 2 + 2 -3 + dtype: int8 + >>> s = pd.Series(['apple', '1.0', '2', -3]) + >>> pd.to_numeric(s, errors='coerce') + 0 NaN + 1 1.0 + 2 2.0 + 3 -3.0 + dtype: float64 + + Downcasting of nullable integer and floating dtypes is supported: + + >>> s = pd.Series([1, 2, 3], dtype="Int64") + >>> pd.to_numeric(s, downcast="integer") + 0 1 + 1 2 + 2 3 + dtype: Int8 + >>> s = pd.Series([1.0, 2.1, 3.0], dtype="Float64") + >>> pd.to_numeric(s, downcast="float") + 0 1.0 + 1 2.1 + 2 3.0 + dtype: Float32 + """ + if downcast not in (None, "integer", "signed", "unsigned", "float"): + raise ValueError("invalid downcasting method provided") + + if errors not in ("ignore", "raise", "coerce"): + raise ValueError("invalid error value specified") + if errors == "ignore": + # GH#54467 + warnings.warn( + "errors='ignore' is deprecated and will raise in a future version. " + "Use to_numeric without passing `errors` and catch exceptions " + "explicitly instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + check_dtype_backend(dtype_backend) + + is_series = False + is_index = False + is_scalars = False + + if isinstance(arg, ABCSeries): + is_series = True + values = arg.values + elif isinstance(arg, ABCIndex): + is_index = True + if needs_i8_conversion(arg.dtype): + values = arg.view("i8") + else: + values = arg.values + elif isinstance(arg, (list, tuple)): + values = np.array(arg, dtype="O") + elif is_scalar(arg): + if is_decimal(arg): + return float(arg) + if is_number(arg): + return arg + is_scalars = True + values = np.array([arg], dtype="O") + elif getattr(arg, "ndim", 1) > 1: + raise TypeError("arg must be a list, tuple, 1-d array, or Series") + else: + values = arg + + orig_values = values + + # GH33013: for IntegerArray & FloatingArray extract non-null values for casting + # save mask to reconstruct the full array after casting + mask: npt.NDArray[np.bool_] | None = None + if isinstance(values, BaseMaskedArray): + mask = values._mask + values = values._data[~mask] + + values_dtype = getattr(values, "dtype", None) + if isinstance(values_dtype, ArrowDtype): + mask = values.isna() + values = values.dropna().to_numpy() + new_mask: np.ndarray | None = None + if is_numeric_dtype(values_dtype): + pass + elif lib.is_np_dtype(values_dtype, "mM"): + values = values.view(np.int64) + else: + values = ensure_object(values) + coerce_numeric = errors not in ("ignore", "raise") + try: + values, new_mask = lib.maybe_convert_numeric( # type: ignore[call-overload] + values, + set(), + coerce_numeric=coerce_numeric, + convert_to_masked_nullable=dtype_backend is not lib.no_default + or isinstance(values_dtype, StringDtype) + and values_dtype.na_value is libmissing.NA, + ) + except (ValueError, TypeError): + if errors == "raise": + raise + values = orig_values + + if new_mask is not None: + # Remove unnecessary values, is expected later anyway and enables + # downcasting + values = values[~new_mask] + elif ( + dtype_backend is not lib.no_default + and new_mask is None + or isinstance(values_dtype, StringDtype) + and values_dtype.na_value is libmissing.NA + ): + new_mask = np.zeros(values.shape, dtype=np.bool_) + + # attempt downcast only if the data has been successfully converted + # to a numerical dtype and if a downcast method has been specified + if downcast is not None and is_numeric_dtype(values.dtype): + typecodes: str | None = None + + if downcast in ("integer", "signed"): + typecodes = np.typecodes["Integer"] + elif downcast == "unsigned" and (not len(values) or np.min(values) >= 0): + typecodes = np.typecodes["UnsignedInteger"] + elif downcast == "float": + typecodes = np.typecodes["Float"] + + # pandas support goes only to np.float32, + # as float dtypes smaller than that are + # extremely rare and not well supported + float_32_char = np.dtype(np.float32).char + float_32_ind = typecodes.index(float_32_char) + typecodes = typecodes[float_32_ind:] + + if typecodes is not None: + # from smallest to largest + for typecode in typecodes: + dtype = np.dtype(typecode) + if dtype.itemsize <= values.dtype.itemsize: + values = maybe_downcast_numeric(values, dtype) + + # successful conversion + if values.dtype == dtype: + break + + # GH33013: for IntegerArray, BooleanArray & FloatingArray need to reconstruct + # masked array + if (mask is not None or new_mask is not None) and not is_string_dtype(values.dtype): + if mask is None or (new_mask is not None and new_mask.shape == mask.shape): + # GH 52588 + mask = new_mask + else: + mask = mask.copy() + assert isinstance(mask, np.ndarray) + data = np.zeros(mask.shape, dtype=values.dtype) + data[~mask] = values + + from pandas.core.arrays import ( + ArrowExtensionArray, + BooleanArray, + FloatingArray, + IntegerArray, + ) + + klass: type[IntegerArray | BooleanArray | FloatingArray] + if is_integer_dtype(data.dtype): + klass = IntegerArray + elif is_bool_dtype(data.dtype): + klass = BooleanArray + else: + klass = FloatingArray + values = klass(data, mask) + + if dtype_backend == "pyarrow" or isinstance(values_dtype, ArrowDtype): + values = ArrowExtensionArray(values.__arrow_array__()) + + if is_series: + return arg._constructor(values, index=arg.index, name=arg.name) + elif is_index: + # because we want to coerce to numeric if possible, + # do not use _shallow_copy + from pandas import Index + + return Index(values, name=arg.name) + elif is_scalars: + return values[0] + else: + return values diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/timedeltas.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/timedeltas.py new file mode 100644 index 0000000000000000000000000000000000000000..d772c908c473109fcf7e37e06014b43226328e31 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/timedeltas.py @@ -0,0 +1,283 @@ +""" +timedelta support tools +""" +from __future__ import annotations + +from typing import ( + TYPE_CHECKING, + overload, +) +import warnings + +import numpy as np + +from pandas._libs import lib +from pandas._libs.tslibs import ( + NaT, + NaTType, +) +from pandas._libs.tslibs.timedeltas import ( + Timedelta, + disallow_ambiguous_unit, + parse_timedelta_unit, +) +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.common import is_list_like +from pandas.core.dtypes.dtypes import ArrowDtype +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) + +from pandas.core.arrays.timedeltas import sequence_to_td64ns + +if TYPE_CHECKING: + from collections.abc import Hashable + from datetime import timedelta + + from pandas._libs.tslibs.timedeltas import UnitChoices + from pandas._typing import ( + ArrayLike, + DateTimeErrorChoices, + ) + + from pandas import ( + Index, + Series, + TimedeltaIndex, + ) + + +@overload +def to_timedelta( + arg: str | float | timedelta, + unit: UnitChoices | None = ..., + errors: DateTimeErrorChoices = ..., +) -> Timedelta: + ... + + +@overload +def to_timedelta( + arg: Series, + unit: UnitChoices | None = ..., + errors: DateTimeErrorChoices = ..., +) -> Series: + ... + + +@overload +def to_timedelta( + arg: list | tuple | range | ArrayLike | Index, + unit: UnitChoices | None = ..., + errors: DateTimeErrorChoices = ..., +) -> TimedeltaIndex: + ... + + +def to_timedelta( + arg: str + | int + | float + | timedelta + | list + | tuple + | range + | ArrayLike + | Index + | Series, + unit: UnitChoices | None = None, + errors: DateTimeErrorChoices = "raise", +) -> Timedelta | TimedeltaIndex | Series: + """ + Convert argument to timedelta. + + Timedeltas are absolute differences in times, expressed in difference + units (e.g. days, hours, minutes, seconds). This method converts + an argument from a recognized timedelta format / value into + a Timedelta type. + + Parameters + ---------- + arg : str, timedelta, list-like or Series + The data to be converted to timedelta. + + .. versionchanged:: 2.0 + Strings with units 'M', 'Y' and 'y' do not represent + unambiguous timedelta values and will raise an exception. + + unit : str, optional + Denotes the unit of the arg for numeric `arg`. Defaults to ``"ns"``. + + Possible values: + + * 'W' + * 'D' / 'days' / 'day' + * 'hours' / 'hour' / 'hr' / 'h' / 'H' + * 'm' / 'minute' / 'min' / 'minutes' / 'T' + * 's' / 'seconds' / 'sec' / 'second' / 'S' + * 'ms' / 'milliseconds' / 'millisecond' / 'milli' / 'millis' / 'L' + * 'us' / 'microseconds' / 'microsecond' / 'micro' / 'micros' / 'U' + * 'ns' / 'nanoseconds' / 'nano' / 'nanos' / 'nanosecond' / 'N' + + Must not be specified when `arg` contains strings and ``errors="raise"``. + + .. deprecated:: 2.2.0 + Units 'H', 'T', 'S', 'L', 'U' and 'N' are deprecated and will be removed + in a future version. Please use 'h', 'min', 's', 'ms', 'us', and 'ns' + instead of 'H', 'T', 'S', 'L', 'U' and 'N'. + + errors : {'ignore', 'raise', 'coerce'}, default 'raise' + - If 'raise', then invalid parsing will raise an exception. + - If 'coerce', then invalid parsing will be set as NaT. + - If 'ignore', then invalid parsing will return the input. + + Returns + ------- + timedelta + If parsing succeeded. + Return type depends on input: + + - list-like: TimedeltaIndex of timedelta64 dtype + - Series: Series of timedelta64 dtype + - scalar: Timedelta + + See Also + -------- + DataFrame.astype : Cast argument to a specified dtype. + to_datetime : Convert argument to datetime. + convert_dtypes : Convert dtypes. + + Notes + ----- + If the precision is higher than nanoseconds, the precision of the duration is + truncated to nanoseconds for string inputs. + + Examples + -------- + Parsing a single string to a Timedelta: + + >>> pd.to_timedelta('1 days 06:05:01.00003') + Timedelta('1 days 06:05:01.000030') + >>> pd.to_timedelta('15.5us') + Timedelta('0 days 00:00:00.000015500') + + Parsing a list or array of strings: + + >>> pd.to_timedelta(['1 days 06:05:01.00003', '15.5us', 'nan']) + TimedeltaIndex(['1 days 06:05:01.000030', '0 days 00:00:00.000015500', NaT], + dtype='timedelta64[ns]', freq=None) + + Converting numbers by specifying the `unit` keyword argument: + + >>> pd.to_timedelta(np.arange(5), unit='s') + TimedeltaIndex(['0 days 00:00:00', '0 days 00:00:01', '0 days 00:00:02', + '0 days 00:00:03', '0 days 00:00:04'], + dtype='timedelta64[ns]', freq=None) + >>> pd.to_timedelta(np.arange(5), unit='d') + TimedeltaIndex(['0 days', '1 days', '2 days', '3 days', '4 days'], + dtype='timedelta64[ns]', freq=None) + """ + if unit is not None: + unit = parse_timedelta_unit(unit) + disallow_ambiguous_unit(unit) + + if errors not in ("ignore", "raise", "coerce"): + raise ValueError("errors must be one of 'ignore', 'raise', or 'coerce'.") + if errors == "ignore": + # GH#54467 + warnings.warn( + "errors='ignore' is deprecated and will raise in a future version. " + "Use to_timedelta without passing `errors` and catch exceptions " + "explicitly instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if arg is None: + return arg + elif isinstance(arg, ABCSeries): + values = _convert_listlike(arg._values, unit=unit, errors=errors) + return arg._constructor(values, index=arg.index, name=arg.name) + elif isinstance(arg, ABCIndex): + return _convert_listlike(arg, unit=unit, errors=errors, name=arg.name) + elif isinstance(arg, np.ndarray) and arg.ndim == 0: + # extract array scalar and process below + # error: Incompatible types in assignment (expression has type "object", + # variable has type "Union[str, int, float, timedelta, List[Any], + # Tuple[Any, ...], Union[Union[ExtensionArray, ndarray[Any, Any]], Index, + # Series]]") [assignment] + arg = lib.item_from_zerodim(arg) # type: ignore[assignment] + elif is_list_like(arg) and getattr(arg, "ndim", 1) == 1: + return _convert_listlike(arg, unit=unit, errors=errors) + elif getattr(arg, "ndim", 1) > 1: + raise TypeError( + "arg must be a string, timedelta, list, tuple, 1-d array, or Series" + ) + + if isinstance(arg, str) and unit is not None: + raise ValueError("unit must not be specified if the input is/contains a str") + + # ...so it must be a scalar value. Return scalar. + return _coerce_scalar_to_timedelta_type(arg, unit=unit, errors=errors) + + +def _coerce_scalar_to_timedelta_type( + r, unit: UnitChoices | None = "ns", errors: DateTimeErrorChoices = "raise" +): + """Convert string 'r' to a timedelta object.""" + result: Timedelta | NaTType + + try: + result = Timedelta(r, unit) + except ValueError: + if errors == "raise": + raise + if errors == "ignore": + return r + + # coerce + result = NaT + + return result + + +def _convert_listlike( + arg, + unit: UnitChoices | None = None, + errors: DateTimeErrorChoices = "raise", + name: Hashable | None = None, +): + """Convert a list of objects to a timedelta index object.""" + arg_dtype = getattr(arg, "dtype", None) + if isinstance(arg, (list, tuple)) or arg_dtype is None: + # This is needed only to ensure that in the case where we end up + # returning arg (errors == "ignore"), and where the input is a + # generator, we return a useful list-like instead of a + # used-up generator + if not hasattr(arg, "__array__"): + arg = list(arg) + arg = np.array(arg, dtype=object) + elif isinstance(arg_dtype, ArrowDtype) and arg_dtype.kind == "m": + return arg + + try: + td64arr = sequence_to_td64ns(arg, unit=unit, errors=errors, copy=False)[0] + except ValueError: + if errors == "ignore": + return arg + else: + # This else-block accounts for the cases when errors='raise' + # and errors='coerce'. If errors == 'raise', these errors + # should be raised. If errors == 'coerce', we shouldn't + # expect any errors to be raised, since all parsing errors + # cause coercion to pd.NaT. However, if an error / bug is + # introduced that causes an Exception to be raised, we would + # like to surface it. + raise + + from pandas import TimedeltaIndex + + value = TimedeltaIndex(td64arr, name=name) + return value diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/times.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/times.py new file mode 100644 index 0000000000000000000000000000000000000000..d77bcc91df7096bfad4b3eddf6355435a4b9e7f6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/tools/times.py @@ -0,0 +1,168 @@ +from __future__ import annotations + +from datetime import ( + datetime, + time, +) +from typing import TYPE_CHECKING +import warnings + +import numpy as np + +from pandas._libs.lib import is_list_like +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.generic import ( + ABCIndex, + ABCSeries, +) +from pandas.core.dtypes.missing import notna + +if TYPE_CHECKING: + from pandas._typing import DateTimeErrorChoices + + +def to_time( + arg, + format: str | None = None, + infer_time_format: bool = False, + errors: DateTimeErrorChoices = "raise", +): + """ + Parse time strings to time objects using fixed strptime formats ("%H:%M", + "%H%M", "%I:%M%p", "%I%M%p", "%H:%M:%S", "%H%M%S", "%I:%M:%S%p", + "%I%M%S%p") + + Use infer_time_format if all the strings are in the same format to speed + up conversion. + + Parameters + ---------- + arg : string in time format, datetime.time, list, tuple, 1-d array, Series + format : str, default None + Format used to convert arg into a time object. If None, fixed formats + are used. + infer_time_format: bool, default False + Infer the time format based on the first non-NaN element. If all + strings are in the same format, this will speed up conversion. + errors : {'ignore', 'raise', 'coerce'}, default 'raise' + - If 'raise', then invalid parsing will raise an exception + - If 'coerce', then invalid parsing will be set as None + - If 'ignore', then invalid parsing will return the input + + Returns + ------- + datetime.time + """ + if errors == "ignore": + # GH#54467 + warnings.warn( + "errors='ignore' is deprecated and will raise in a future version. " + "Use to_time without passing `errors` and catch exceptions " + "explicitly instead", + FutureWarning, + stacklevel=find_stack_level(), + ) + + def _convert_listlike(arg, format): + if isinstance(arg, (list, tuple)): + arg = np.array(arg, dtype="O") + + elif getattr(arg, "ndim", 1) > 1: + raise TypeError( + "arg must be a string, datetime, list, tuple, 1-d array, or Series" + ) + + arg = np.asarray(arg, dtype="O") + + if infer_time_format and format is None: + format = _guess_time_format_for_array(arg) + + times: list[time | None] = [] + if format is not None: + for element in arg: + try: + times.append(datetime.strptime(element, format).time()) + except (ValueError, TypeError) as err: + if errors == "raise": + msg = ( + f"Cannot convert {element} to a time with given " + f"format {format}" + ) + raise ValueError(msg) from err + if errors == "ignore": + return arg + else: + times.append(None) + else: + formats = _time_formats[:] + format_found = False + for element in arg: + time_object = None + try: + time_object = time.fromisoformat(element) + except (ValueError, TypeError): + for time_format in formats: + try: + time_object = datetime.strptime(element, time_format).time() + if not format_found: + # Put the found format in front + fmt = formats.pop(formats.index(time_format)) + formats.insert(0, fmt) + format_found = True + break + except (ValueError, TypeError): + continue + + if time_object is not None: + times.append(time_object) + elif errors == "raise": + raise ValueError(f"Cannot convert arg {arg} to a time") + elif errors == "ignore": + return arg + else: + times.append(None) + + return times + + if arg is None: + return arg + elif isinstance(arg, time): + return arg + elif isinstance(arg, ABCSeries): + values = _convert_listlike(arg._values, format) + return arg._constructor(values, index=arg.index, name=arg.name) + elif isinstance(arg, ABCIndex): + return _convert_listlike(arg, format) + elif is_list_like(arg): + return _convert_listlike(arg, format) + + return _convert_listlike(np.array([arg]), format)[0] + + +# Fixed time formats for time parsing +_time_formats = [ + "%H:%M", + "%H%M", + "%I:%M%p", + "%I%M%p", + "%H:%M:%S", + "%H%M%S", + "%I:%M:%S%p", + "%I%M%S%p", +] + + +def _guess_time_format_for_array(arr): + # Try to guess the format based on the first non-NaN element + non_nan_elements = notna(arr).nonzero()[0] + if len(non_nan_elements): + element = arr[non_nan_elements[0]] + for time_format in _time_formats: + try: + datetime.strptime(element, time_format) + return time_format + except ValueError: + pass + + return None diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..a107293408e6fd704a86309045d397dad7e71a1d Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/__init__.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/hashing.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/hashing.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..83f372be428e121f18b626afbedf270bf0e6b785 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/hashing.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/numba_.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/numba_.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..f7df14d1476544395ede4f37547a6a349d439a5e Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/__pycache__/numba_.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/hashing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/hashing.py new file mode 100644 index 0000000000000000000000000000000000000000..4933de32125814baa6cc96926721c0c839540b2a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/hashing.py @@ -0,0 +1,339 @@ +""" +data hash pandas / numpy objects +""" +from __future__ import annotations + +import itertools +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs.hashing import hash_object_array + +from pandas.core.dtypes.common import is_list_like +from pandas.core.dtypes.dtypes import CategoricalDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCExtensionArray, + ABCIndex, + ABCMultiIndex, + ABCSeries, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterable, + Iterator, + ) + + from pandas._typing import ( + ArrayLike, + npt, + ) + + from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + ) + + +# 16 byte long hashing key +_default_hash_key = "0123456789123456" + + +def combine_hash_arrays( + arrays: Iterator[np.ndarray], num_items: int +) -> npt.NDArray[np.uint64]: + """ + Parameters + ---------- + arrays : Iterator[np.ndarray] + num_items : int + + Returns + ------- + np.ndarray[uint64] + + Should be the same as CPython's tupleobject.c + """ + try: + first = next(arrays) + except StopIteration: + return np.array([], dtype=np.uint64) + + arrays = itertools.chain([first], arrays) + + mult = np.uint64(1000003) + out = np.zeros_like(first) + np.uint64(0x345678) + last_i = 0 + for i, a in enumerate(arrays): + inverse_i = num_items - i + out ^= a + out *= mult + mult += np.uint64(82520 + inverse_i + inverse_i) + last_i = i + assert last_i + 1 == num_items, "Fed in wrong num_items" + out += np.uint64(97531) + return out + + +def hash_pandas_object( + obj: Index | DataFrame | Series, + index: bool = True, + encoding: str = "utf8", + hash_key: str | None = _default_hash_key, + categorize: bool = True, +) -> Series: + """ + Return a data hash of the Index/Series/DataFrame. + + Parameters + ---------- + obj : Index, Series, or DataFrame + index : bool, default True + Include the index in the hash (if Series/DataFrame). + encoding : str, default 'utf8' + Encoding for data & key when strings. + hash_key : str, default _default_hash_key + Hash_key for string key to encode. + categorize : bool, default True + Whether to first categorize object arrays before hashing. This is more + efficient when the array contains duplicate values. + + Returns + ------- + Series of uint64, same length as the object + + Examples + -------- + >>> pd.util.hash_pandas_object(pd.Series([1, 2, 3])) + 0 14639053686158035780 + 1 3869563279212530728 + 2 393322362522515241 + dtype: uint64 + """ + from pandas import Series + + if hash_key is None: + hash_key = _default_hash_key + + if isinstance(obj, ABCMultiIndex): + return Series(hash_tuples(obj, encoding, hash_key), dtype="uint64", copy=False) + + elif isinstance(obj, ABCIndex): + h = hash_array(obj._values, encoding, hash_key, categorize).astype( + "uint64", copy=False + ) + ser = Series(h, index=obj, dtype="uint64", copy=False) + + elif isinstance(obj, ABCSeries): + h = hash_array(obj._values, encoding, hash_key, categorize).astype( + "uint64", copy=False + ) + if index: + index_iter = ( + hash_pandas_object( + obj.index, + index=False, + encoding=encoding, + hash_key=hash_key, + categorize=categorize, + )._values + for _ in [None] + ) + arrays = itertools.chain([h], index_iter) + h = combine_hash_arrays(arrays, 2) + + ser = Series(h, index=obj.index, dtype="uint64", copy=False) + + elif isinstance(obj, ABCDataFrame): + hashes = ( + hash_array(series._values, encoding, hash_key, categorize) + for _, series in obj.items() + ) + num_items = len(obj.columns) + if index: + index_hash_generator = ( + hash_pandas_object( + obj.index, + index=False, + encoding=encoding, + hash_key=hash_key, + categorize=categorize, + )._values + for _ in [None] + ) + num_items += 1 + + # keep `hashes` specifically a generator to keep mypy happy + _hashes = itertools.chain(hashes, index_hash_generator) + hashes = (x for x in _hashes) + h = combine_hash_arrays(hashes, num_items) + + ser = Series(h, index=obj.index, dtype="uint64", copy=False) + else: + raise TypeError(f"Unexpected type for hashing {type(obj)}") + + return ser + + +def hash_tuples( + vals: MultiIndex | Iterable[tuple[Hashable, ...]], + encoding: str = "utf8", + hash_key: str = _default_hash_key, +) -> npt.NDArray[np.uint64]: + """ + Hash an MultiIndex / listlike-of-tuples efficiently. + + Parameters + ---------- + vals : MultiIndex or listlike-of-tuples + encoding : str, default 'utf8' + hash_key : str, default _default_hash_key + + Returns + ------- + ndarray[np.uint64] of hashed values + """ + if not is_list_like(vals): + raise TypeError("must be convertible to a list-of-tuples") + + from pandas import ( + Categorical, + MultiIndex, + ) + + if not isinstance(vals, ABCMultiIndex): + mi = MultiIndex.from_tuples(vals) + else: + mi = vals + + # create a list-of-Categoricals + cat_vals = [ + Categorical._simple_new( + mi.codes[level], + CategoricalDtype(categories=mi.levels[level], ordered=False), + ) + for level in range(mi.nlevels) + ] + + # hash the list-of-ndarrays + hashes = ( + cat._hash_pandas_object(encoding=encoding, hash_key=hash_key, categorize=False) + for cat in cat_vals + ) + h = combine_hash_arrays(hashes, len(cat_vals)) + + return h + + +def hash_array( + vals: ArrayLike, + encoding: str = "utf8", + hash_key: str = _default_hash_key, + categorize: bool = True, +) -> npt.NDArray[np.uint64]: + """ + Given a 1d array, return an array of deterministic integers. + + Parameters + ---------- + vals : ndarray or ExtensionArray + encoding : str, default 'utf8' + Encoding for data & key when strings. + hash_key : str, default _default_hash_key + Hash_key for string key to encode. + categorize : bool, default True + Whether to first categorize object arrays before hashing. This is more + efficient when the array contains duplicate values. + + Returns + ------- + ndarray[np.uint64, ndim=1] + Hashed values, same length as the vals. + + Examples + -------- + >>> pd.util.hash_array(np.array([1, 2, 3])) + array([ 6238072747940578789, 15839785061582574730, 2185194620014831856], + dtype=uint64) + """ + if not hasattr(vals, "dtype"): + raise TypeError("must pass a ndarray-like") + + if isinstance(vals, ABCExtensionArray): + return vals._hash_pandas_object( + encoding=encoding, hash_key=hash_key, categorize=categorize + ) + + if not isinstance(vals, np.ndarray): + # GH#42003 + raise TypeError( + "hash_array requires np.ndarray or ExtensionArray, not " + f"{type(vals).__name__}. Use hash_pandas_object instead." + ) + + return _hash_ndarray(vals, encoding, hash_key, categorize) + + +def _hash_ndarray( + vals: np.ndarray, + encoding: str = "utf8", + hash_key: str = _default_hash_key, + categorize: bool = True, +) -> npt.NDArray[np.uint64]: + """ + See hash_array.__doc__. + """ + dtype = vals.dtype + + # _hash_ndarray only takes 64-bit values, so handle 128-bit by parts + if np.issubdtype(dtype, np.complex128): + hash_real = _hash_ndarray(vals.real, encoding, hash_key, categorize) + hash_imag = _hash_ndarray(vals.imag, encoding, hash_key, categorize) + return hash_real + 23 * hash_imag + + # First, turn whatever array this is into unsigned 64-bit ints, if we can + # manage it. + if dtype == bool: + vals = vals.astype("u8") + elif issubclass(dtype.type, (np.datetime64, np.timedelta64)): + vals = vals.view("i8").astype("u8", copy=False) + elif issubclass(dtype.type, np.number) and dtype.itemsize <= 8: + vals = vals.view(f"u{vals.dtype.itemsize}").astype("u8") + else: + # With repeated values, its MUCH faster to categorize object dtypes, + # then hash and rename categories. We allow skipping the categorization + # when the values are known/likely to be unique. + if categorize: + from pandas import ( + Categorical, + Index, + factorize, + ) + + codes, categories = factorize(vals, sort=False) + dtype = CategoricalDtype(categories=Index(categories), ordered=False) + cat = Categorical._simple_new(codes, dtype) + return cat._hash_pandas_object( + encoding=encoding, hash_key=hash_key, categorize=False + ) + + try: + vals = hash_object_array(vals, hash_key, encoding) + except TypeError: + # we have mixed types + vals = hash_object_array( + vals.astype(str).astype(object), hash_key, encoding + ) + + # Then, redistribute these 64-bit ints within the space of 64-bit ints + vals ^= vals >> 30 + vals *= np.uint64(0xBF58476D1CE4E5B9) + vals ^= vals >> 27 + vals *= np.uint64(0x94D049BB133111EB) + vals ^= vals >> 31 + return vals diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/numba_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/numba_.py new file mode 100644 index 0000000000000000000000000000000000000000..4825c9fee24b1b1272c5f245a9c7ae49f53003fc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/util/numba_.py @@ -0,0 +1,98 @@ +"""Common utilities for Numba operations""" +from __future__ import annotations + +import types +from typing import ( + TYPE_CHECKING, + Callable, +) + +import numpy as np + +from pandas.compat._optional import import_optional_dependency +from pandas.errors import NumbaUtilError + +GLOBAL_USE_NUMBA: bool = False + + +def maybe_use_numba(engine: str | None) -> bool: + """Signal whether to use numba routines.""" + return engine == "numba" or (engine is None and GLOBAL_USE_NUMBA) + + +def set_use_numba(enable: bool = False) -> None: + global GLOBAL_USE_NUMBA + if enable: + import_optional_dependency("numba") + GLOBAL_USE_NUMBA = enable + + +def get_jit_arguments( + engine_kwargs: dict[str, bool] | None = None, kwargs: dict | None = None +) -> dict[str, bool]: + """ + Return arguments to pass to numba.JIT, falling back on pandas default JIT settings. + + Parameters + ---------- + engine_kwargs : dict, default None + user passed keyword arguments for numba.JIT + kwargs : dict, default None + user passed keyword arguments to pass into the JITed function + + Returns + ------- + dict[str, bool] + nopython, nogil, parallel + + Raises + ------ + NumbaUtilError + """ + if engine_kwargs is None: + engine_kwargs = {} + + nopython = engine_kwargs.get("nopython", True) + if kwargs and nopython: + raise NumbaUtilError( + "numba does not support kwargs with nopython=True: " + "https://github.com/numba/numba/issues/2916" + ) + nogil = engine_kwargs.get("nogil", False) + parallel = engine_kwargs.get("parallel", False) + return {"nopython": nopython, "nogil": nogil, "parallel": parallel} + + +def jit_user_function(func: Callable) -> Callable: + """ + If user function is not jitted already, mark the user's function + as jitable. + + Parameters + ---------- + func : function + user defined function + + Returns + ------- + function + Numba JITed function, or function marked as JITable by numba + """ + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + if numba.extending.is_jitted(func): + # Don't jit a user passed jitted function + numba_func = func + elif getattr(np, func.__name__, False) is func or isinstance( + func, types.BuiltinFunctionType + ): + # Not necessary to jit builtins or np functions + # This will mess up register_jitable + numba_func = func + else: + numba_func = numba.extending.register_jitable(func) + + return numba_func diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..857e12e5467a6a7d2263d9add33e65b9499778fa --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__init__.py @@ -0,0 +1,23 @@ +from pandas.core.window.ewm import ( + ExponentialMovingWindow, + ExponentialMovingWindowGroupby, +) +from pandas.core.window.expanding import ( + Expanding, + ExpandingGroupby, +) +from pandas.core.window.rolling import ( + Rolling, + RollingGroupby, + Window, +) + +__all__ = [ + "Expanding", + "ExpandingGroupby", + "ExponentialMovingWindow", + "ExponentialMovingWindowGroupby", + "Rolling", + "RollingGroupby", + "Window", +] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__pycache__/__init__.cpython-310.pyc b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 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index 0000000000000000000000000000000000000000..6080f345c0ab3c27de45a6c61e4a6a5b299f5bd8 Binary files /dev/null and b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/__pycache__/rolling.cpython-310.pyc differ diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/common.py new file mode 100644 index 0000000000000000000000000000000000000000..fc8eddca09c84029b9ac92b658a47b45e4764414 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/common.py @@ -0,0 +1,169 @@ +"""Common utility functions for rolling operations""" +from __future__ import annotations + +from collections import defaultdict +from typing import cast + +import numpy as np + +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) + +from pandas.core.indexes.api import MultiIndex + + +def flex_binary_moment(arg1, arg2, f, pairwise: bool = False): + if isinstance(arg1, ABCSeries) and isinstance(arg2, ABCSeries): + X, Y = prep_binary(arg1, arg2) + return f(X, Y) + + elif isinstance(arg1, ABCDataFrame): + from pandas import DataFrame + + def dataframe_from_int_dict(data, frame_template) -> DataFrame: + result = DataFrame(data, index=frame_template.index) + if len(result.columns) > 0: + result.columns = frame_template.columns[result.columns] + else: + result.columns = frame_template.columns.copy() + return result + + results = {} + if isinstance(arg2, ABCDataFrame): + if pairwise is False: + if arg1 is arg2: + # special case in order to handle duplicate column names + for i in range(len(arg1.columns)): + results[i] = f(arg1.iloc[:, i], arg2.iloc[:, i]) + return dataframe_from_int_dict(results, arg1) + else: + if not arg1.columns.is_unique: + raise ValueError("'arg1' columns are not unique") + if not arg2.columns.is_unique: + raise ValueError("'arg2' columns are not unique") + X, Y = arg1.align(arg2, join="outer") + X, Y = prep_binary(X, Y) + res_columns = arg1.columns.union(arg2.columns) + for col in res_columns: + if col in X and col in Y: + results[col] = f(X[col], Y[col]) + return DataFrame(results, index=X.index, columns=res_columns) + elif pairwise is True: + results = defaultdict(dict) + for i in range(len(arg1.columns)): + for j in range(len(arg2.columns)): + if j < i and arg2 is arg1: + # Symmetric case + results[i][j] = results[j][i] + else: + results[i][j] = f( + *prep_binary(arg1.iloc[:, i], arg2.iloc[:, j]) + ) + + from pandas import concat + + result_index = arg1.index.union(arg2.index) + if len(result_index): + # construct result frame + result = concat( + [ + concat( + [results[i][j] for j in range(len(arg2.columns))], + ignore_index=True, + ) + for i in range(len(arg1.columns)) + ], + ignore_index=True, + axis=1, + ) + result.columns = arg1.columns + + # set the index and reorder + if arg2.columns.nlevels > 1: + # mypy needs to know columns is a MultiIndex, Index doesn't + # have levels attribute + arg2.columns = cast(MultiIndex, arg2.columns) + # GH 21157: Equivalent to MultiIndex.from_product( + # [result_index], , + # ) + # A normal MultiIndex.from_product will produce too many + # combinations. + result_level = np.tile( + result_index, len(result) // len(result_index) + ) + arg2_levels = ( + np.repeat( + arg2.columns.get_level_values(i), + len(result) // len(arg2.columns), + ) + for i in range(arg2.columns.nlevels) + ) + result_names = list(arg2.columns.names) + [result_index.name] + result.index = MultiIndex.from_arrays( + [*arg2_levels, result_level], names=result_names + ) + # GH 34440 + num_levels = len(result.index.levels) + new_order = [num_levels - 1] + list(range(num_levels - 1)) + result = result.reorder_levels(new_order).sort_index() + else: + result.index = MultiIndex.from_product( + [range(len(arg2.columns)), range(len(result_index))] + ) + result = result.swaplevel(1, 0).sort_index() + result.index = MultiIndex.from_product( + [result_index] + [arg2.columns] + ) + else: + # empty result + result = DataFrame( + index=MultiIndex( + levels=[arg1.index, arg2.columns], codes=[[], []] + ), + columns=arg2.columns, + dtype="float64", + ) + + # reset our index names to arg1 names + # reset our column names to arg2 names + # careful not to mutate the original names + result.columns = result.columns.set_names(arg1.columns.names) + result.index = result.index.set_names( + result_index.names + arg2.columns.names + ) + + return result + else: + results = { + i: f(*prep_binary(arg1.iloc[:, i], arg2)) + for i in range(len(arg1.columns)) + } + return dataframe_from_int_dict(results, arg1) + + else: + return flex_binary_moment(arg2, arg1, f) + + +def zsqrt(x): + with np.errstate(all="ignore"): + result = np.sqrt(x) + mask = x < 0 + + if isinstance(x, ABCDataFrame): + if mask._values.any(): + result[mask] = 0 + else: + if mask.any(): + result[mask] = 0 + + return result + + +def prep_binary(arg1, arg2): + # mask out values, this also makes a common index... + X = arg1 + 0 * arg2 + Y = arg2 + 0 * arg1 + + return X, Y diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/doc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/doc.py new file mode 100644 index 0000000000000000000000000000000000000000..2a5cbc04921fadacf18a89608f2c0665bd8177e2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/doc.py @@ -0,0 +1,116 @@ +"""Any shareable docstring components for rolling/expanding/ewm""" +from __future__ import annotations + +from textwrap import dedent + +from pandas.core.shared_docs import _shared_docs + +_shared_docs = dict(**_shared_docs) + + +def create_section_header(header: str) -> str: + """Create numpydoc section header""" + return f"{header}\n{'-' * len(header)}\n" + + +template_header = "\nCalculate the {window_method} {aggregation_description}.\n\n" + +template_returns = dedent( + """ + Series or DataFrame + Return type is the same as the original object with ``np.float64`` dtype.\n + """ +).replace("\n", "", 1) + +template_see_also = dedent( + """ + pandas.Series.{window_method} : Calling {window_method} with Series data. + pandas.DataFrame.{window_method} : Calling {window_method} with DataFrames. + pandas.Series.{agg_method} : Aggregating {agg_method} for Series. + pandas.DataFrame.{agg_method} : Aggregating {agg_method} for DataFrame.\n + """ +).replace("\n", "", 1) + +kwargs_numeric_only = dedent( + """ + numeric_only : bool, default False + Include only float, int, boolean columns. + + .. versionadded:: 1.5.0\n + """ +).replace("\n", "", 1) + +kwargs_scipy = dedent( + """ + **kwargs + Keyword arguments to configure the ``SciPy`` weighted window type.\n + """ +).replace("\n", "", 1) + +window_apply_parameters = dedent( + """ + func : function + Must produce a single value from an ndarray input if ``raw=True`` + or a single value from a Series if ``raw=False``. Can also accept a + Numba JIT function with ``engine='numba'`` specified. + + raw : bool, default False + * ``False`` : passes each row or column as a Series to the + function. + * ``True`` : the passed function will receive ndarray + objects instead. + If you are just applying a NumPy reduction function this will + achieve much better performance. + + engine : str, default None + * ``'cython'`` : Runs rolling apply through C-extensions from cython. + * ``'numba'`` : Runs rolling apply through JIT compiled code from numba. + Only available when ``raw`` is set to ``True``. + * ``None`` : Defaults to ``'cython'`` or globally setting ``compute.use_numba`` + + engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` and will be + applied to both the ``func`` and the ``apply`` rolling aggregation. + + args : tuple, default None + Positional arguments to be passed into func. + + kwargs : dict, default None + Keyword arguments to be passed into func.\n + """ +).replace("\n", "", 1) + +numba_notes = ( + "See :ref:`window.numba_engine` and :ref:`enhancingperf.numba` for " + "extended documentation and performance considerations for the Numba engine.\n\n" +) + + +def window_agg_numba_parameters(version: str = "1.3") -> str: + return ( + dedent( + """ + engine : str, default None + * ``'cython'`` : Runs the operation through C-extensions from cython. + * ``'numba'`` : Runs the operation through JIT compiled code from numba. + * ``None`` : Defaults to ``'cython'`` or globally setting ``compute.use_numba`` + + .. versionadded:: {version}.0 + + engine_kwargs : dict, default None + * For ``'cython'`` engine, there are no accepted ``engine_kwargs`` + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` + + .. versionadded:: {version}.0\n + """ + ) + .replace("\n", "", 1) + .replace("{version}", version) + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/ewm.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/ewm.py new file mode 100644 index 0000000000000000000000000000000000000000..9ebf32d3e536eee7233b911acb880f3d40521793 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/ewm.py @@ -0,0 +1,1095 @@ +from __future__ import annotations + +import datetime +from functools import partial +from textwrap import dedent +from typing import TYPE_CHECKING + +import numpy as np + +from pandas._libs.tslibs import Timedelta +import pandas._libs.window.aggregations as window_aggregations +from pandas.util._decorators import doc + +from pandas.core.dtypes.common import ( + is_datetime64_dtype, + is_numeric_dtype, +) +from pandas.core.dtypes.dtypes import DatetimeTZDtype +from pandas.core.dtypes.generic import ABCSeries +from pandas.core.dtypes.missing import isna + +from pandas.core import common +from pandas.core.arrays.datetimelike import dtype_to_unit +from pandas.core.indexers.objects import ( + BaseIndexer, + ExponentialMovingWindowIndexer, + GroupbyIndexer, +) +from pandas.core.util.numba_ import ( + get_jit_arguments, + maybe_use_numba, +) +from pandas.core.window.common import zsqrt +from pandas.core.window.doc import ( + _shared_docs, + create_section_header, + kwargs_numeric_only, + numba_notes, + template_header, + template_returns, + template_see_also, + window_agg_numba_parameters, +) +from pandas.core.window.numba_ import ( + generate_numba_ewm_func, + generate_numba_ewm_table_func, +) +from pandas.core.window.online import ( + EWMMeanState, + generate_online_numba_ewma_func, +) +from pandas.core.window.rolling import ( + BaseWindow, + BaseWindowGroupby, +) + +if TYPE_CHECKING: + from pandas._typing import ( + Axis, + TimedeltaConvertibleTypes, + npt, + ) + + from pandas import ( + DataFrame, + Series, + ) + from pandas.core.generic import NDFrame + + +def get_center_of_mass( + comass: float | None, + span: float | None, + halflife: float | None, + alpha: float | None, +) -> float: + valid_count = common.count_not_none(comass, span, halflife, alpha) + if valid_count > 1: + raise ValueError("comass, span, halflife, and alpha are mutually exclusive") + + # Convert to center of mass; domain checks ensure 0 < alpha <= 1 + if comass is not None: + if comass < 0: + raise ValueError("comass must satisfy: comass >= 0") + elif span is not None: + if span < 1: + raise ValueError("span must satisfy: span >= 1") + comass = (span - 1) / 2 + elif halflife is not None: + if halflife <= 0: + raise ValueError("halflife must satisfy: halflife > 0") + decay = 1 - np.exp(np.log(0.5) / halflife) + comass = 1 / decay - 1 + elif alpha is not None: + if alpha <= 0 or alpha > 1: + raise ValueError("alpha must satisfy: 0 < alpha <= 1") + comass = (1 - alpha) / alpha + else: + raise ValueError("Must pass one of comass, span, halflife, or alpha") + + return float(comass) + + +def _calculate_deltas( + times: np.ndarray | NDFrame, + halflife: float | TimedeltaConvertibleTypes | None, +) -> npt.NDArray[np.float64]: + """ + Return the diff of the times divided by the half-life. These values are used in + the calculation of the ewm mean. + + Parameters + ---------- + times : np.ndarray, Series + Times corresponding to the observations. Must be monotonically increasing + and ``datetime64[ns]`` dtype. + halflife : float, str, timedelta, optional + Half-life specifying the decay + + Returns + ------- + np.ndarray + Diff of the times divided by the half-life + """ + unit = dtype_to_unit(times.dtype) + if isinstance(times, ABCSeries): + times = times._values + _times = np.asarray(times.view(np.int64), dtype=np.float64) + _halflife = float(Timedelta(halflife).as_unit(unit)._value) + return np.diff(_times) / _halflife + + +class ExponentialMovingWindow(BaseWindow): + r""" + Provide exponentially weighted (EW) calculations. + + Exactly one of ``com``, ``span``, ``halflife``, or ``alpha`` must be + provided if ``times`` is not provided. If ``times`` is provided, + ``halflife`` and one of ``com``, ``span`` or ``alpha`` may be provided. + + Parameters + ---------- + com : float, optional + Specify decay in terms of center of mass + + :math:`\alpha = 1 / (1 + com)`, for :math:`com \geq 0`. + + span : float, optional + Specify decay in terms of span + + :math:`\alpha = 2 / (span + 1)`, for :math:`span \geq 1`. + + halflife : float, str, timedelta, optional + Specify decay in terms of half-life + + :math:`\alpha = 1 - \exp\left(-\ln(2) / halflife\right)`, for + :math:`halflife > 0`. + + If ``times`` is specified, a timedelta convertible unit over which an + observation decays to half its value. Only applicable to ``mean()``, + and halflife value will not apply to the other functions. + + alpha : float, optional + Specify smoothing factor :math:`\alpha` directly + + :math:`0 < \alpha \leq 1`. + + min_periods : int, default 0 + Minimum number of observations in window required to have a value; + otherwise, result is ``np.nan``. + + adjust : bool, default True + Divide by decaying adjustment factor in beginning periods to account + for imbalance in relative weightings (viewing EWMA as a moving average). + + - When ``adjust=True`` (default), the EW function is calculated using weights + :math:`w_i = (1 - \alpha)^i`. For example, the EW moving average of the series + [:math:`x_0, x_1, ..., x_t`] would be: + + .. math:: + y_t = \frac{x_t + (1 - \alpha)x_{t-1} + (1 - \alpha)^2 x_{t-2} + ... + (1 - + \alpha)^t x_0}{1 + (1 - \alpha) + (1 - \alpha)^2 + ... + (1 - \alpha)^t} + + - When ``adjust=False``, the exponentially weighted function is calculated + recursively: + + .. math:: + \begin{split} + y_0 &= x_0\\ + y_t &= (1 - \alpha) y_{t-1} + \alpha x_t, + \end{split} + ignore_na : bool, default False + Ignore missing values when calculating weights. + + - When ``ignore_na=False`` (default), weights are based on absolute positions. + For example, the weights of :math:`x_0` and :math:`x_2` used in calculating + the final weighted average of [:math:`x_0`, None, :math:`x_2`] are + :math:`(1-\alpha)^2` and :math:`1` if ``adjust=True``, and + :math:`(1-\alpha)^2` and :math:`\alpha` if ``adjust=False``. + + - When ``ignore_na=True``, weights are based + on relative positions. For example, the weights of :math:`x_0` and :math:`x_2` + used in calculating the final weighted average of + [:math:`x_0`, None, :math:`x_2`] are :math:`1-\alpha` and :math:`1` if + ``adjust=True``, and :math:`1-\alpha` and :math:`\alpha` if ``adjust=False``. + + axis : {0, 1}, default 0 + If ``0`` or ``'index'``, calculate across the rows. + + If ``1`` or ``'columns'``, calculate across the columns. + + For `Series` this parameter is unused and defaults to 0. + + times : np.ndarray, Series, default None + + Only applicable to ``mean()``. + + Times corresponding to the observations. Must be monotonically increasing and + ``datetime64[ns]`` dtype. + + If 1-D array like, a sequence with the same shape as the observations. + + method : str {'single', 'table'}, default 'single' + .. versionadded:: 1.4.0 + + Execute the rolling operation per single column or row (``'single'``) + or over the entire object (``'table'``). + + This argument is only implemented when specifying ``engine='numba'`` + in the method call. + + Only applicable to ``mean()`` + + Returns + ------- + pandas.api.typing.ExponentialMovingWindow + + See Also + -------- + rolling : Provides rolling window calculations. + expanding : Provides expanding transformations. + + Notes + ----- + See :ref:`Windowing Operations ` + for further usage details and examples. + + Examples + -------- + >>> df = pd.DataFrame({'B': [0, 1, 2, np.nan, 4]}) + >>> df + B + 0 0.0 + 1 1.0 + 2 2.0 + 3 NaN + 4 4.0 + + >>> df.ewm(com=0.5).mean() + B + 0 0.000000 + 1 0.750000 + 2 1.615385 + 3 1.615385 + 4 3.670213 + >>> df.ewm(alpha=2 / 3).mean() + B + 0 0.000000 + 1 0.750000 + 2 1.615385 + 3 1.615385 + 4 3.670213 + + **adjust** + + >>> df.ewm(com=0.5, adjust=True).mean() + B + 0 0.000000 + 1 0.750000 + 2 1.615385 + 3 1.615385 + 4 3.670213 + >>> df.ewm(com=0.5, adjust=False).mean() + B + 0 0.000000 + 1 0.666667 + 2 1.555556 + 3 1.555556 + 4 3.650794 + + **ignore_na** + + >>> df.ewm(com=0.5, ignore_na=True).mean() + B + 0 0.000000 + 1 0.750000 + 2 1.615385 + 3 1.615385 + 4 3.225000 + >>> df.ewm(com=0.5, ignore_na=False).mean() + B + 0 0.000000 + 1 0.750000 + 2 1.615385 + 3 1.615385 + 4 3.670213 + + **times** + + Exponentially weighted mean with weights calculated with a timedelta ``halflife`` + relative to ``times``. + + >>> times = ['2020-01-01', '2020-01-03', '2020-01-10', '2020-01-15', '2020-01-17'] + >>> df.ewm(halflife='4 days', times=pd.DatetimeIndex(times)).mean() + B + 0 0.000000 + 1 0.585786 + 2 1.523889 + 3 1.523889 + 4 3.233686 + """ + + _attributes = [ + "com", + "span", + "halflife", + "alpha", + "min_periods", + "adjust", + "ignore_na", + "axis", + "times", + "method", + ] + + def __init__( + self, + obj: NDFrame, + com: float | None = None, + span: float | None = None, + halflife: float | TimedeltaConvertibleTypes | None = None, + alpha: float | None = None, + min_periods: int | None = 0, + adjust: bool = True, + ignore_na: bool = False, + axis: Axis = 0, + times: np.ndarray | NDFrame | None = None, + method: str = "single", + *, + selection=None, + ) -> None: + super().__init__( + obj=obj, + min_periods=1 if min_periods is None else max(int(min_periods), 1), + on=None, + center=False, + closed=None, + method=method, + axis=axis, + selection=selection, + ) + self.com = com + self.span = span + self.halflife = halflife + self.alpha = alpha + self.adjust = adjust + self.ignore_na = ignore_na + self.times = times + if self.times is not None: + if not self.adjust: + raise NotImplementedError("times is not supported with adjust=False.") + times_dtype = getattr(self.times, "dtype", None) + if not ( + is_datetime64_dtype(times_dtype) + or isinstance(times_dtype, DatetimeTZDtype) + ): + raise ValueError("times must be datetime64 dtype.") + if len(self.times) != len(obj): + raise ValueError("times must be the same length as the object.") + if not isinstance(self.halflife, (str, datetime.timedelta, np.timedelta64)): + raise ValueError("halflife must be a timedelta convertible object") + if isna(self.times).any(): + raise ValueError("Cannot convert NaT values to integer") + self._deltas = _calculate_deltas(self.times, self.halflife) + # Halflife is no longer applicable when calculating COM + # But allow COM to still be calculated if the user passes other decay args + if common.count_not_none(self.com, self.span, self.alpha) > 0: + self._com = get_center_of_mass(self.com, self.span, None, self.alpha) + else: + self._com = 1.0 + else: + if self.halflife is not None and isinstance( + self.halflife, (str, datetime.timedelta, np.timedelta64) + ): + raise ValueError( + "halflife can only be a timedelta convertible argument if " + "times is not None." + ) + # Without times, points are equally spaced + self._deltas = np.ones( + max(self.obj.shape[self.axis] - 1, 0), dtype=np.float64 + ) + self._com = get_center_of_mass( + # error: Argument 3 to "get_center_of_mass" has incompatible type + # "Union[float, Any, None, timedelta64, signedinteger[_64Bit]]"; + # expected "Optional[float]" + self.com, + self.span, + self.halflife, # type: ignore[arg-type] + self.alpha, + ) + + def _check_window_bounds( + self, start: np.ndarray, end: np.ndarray, num_vals: int + ) -> None: + # emw algorithms are iterative with each point + # ExponentialMovingWindowIndexer "bounds" are the entire window + pass + + def _get_window_indexer(self) -> BaseIndexer: + """ + Return an indexer class that will compute the window start and end bounds + """ + return ExponentialMovingWindowIndexer() + + def online( + self, engine: str = "numba", engine_kwargs=None + ) -> OnlineExponentialMovingWindow: + """ + Return an ``OnlineExponentialMovingWindow`` object to calculate + exponentially moving window aggregations in an online method. + + .. versionadded:: 1.3.0 + + Parameters + ---------- + engine: str, default ``'numba'`` + Execution engine to calculate online aggregations. + Applies to all supported aggregation methods. + + engine_kwargs : dict, default None + Applies to all supported aggregation methods. + + * For ``'numba'`` engine, the engine can accept ``nopython``, ``nogil`` + and ``parallel`` dictionary keys. The values must either be ``True`` or + ``False``. The default ``engine_kwargs`` for the ``'numba'`` engine is + ``{{'nopython': True, 'nogil': False, 'parallel': False}}`` and will be + applied to the function + + Returns + ------- + OnlineExponentialMovingWindow + """ + return OnlineExponentialMovingWindow( + obj=self.obj, + com=self.com, + span=self.span, + halflife=self.halflife, + alpha=self.alpha, + min_periods=self.min_periods, + adjust=self.adjust, + ignore_na=self.ignore_na, + axis=self.axis, + times=self.times, + engine=engine, + engine_kwargs=engine_kwargs, + selection=self._selection, + ) + + @doc( + _shared_docs["aggregate"], + see_also=dedent( + """ + See Also + -------- + pandas.DataFrame.rolling.aggregate + """ + ), + examples=dedent( + """ + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + >>> df + A B C + 0 1 4 7 + 1 2 5 8 + 2 3 6 9 + + >>> df.ewm(alpha=0.5).mean() + A B C + 0 1.000000 4.000000 7.000000 + 1 1.666667 4.666667 7.666667 + 2 2.428571 5.428571 8.428571 + """ + ), + klass="Series/Dataframe", + axis="", + ) + def aggregate(self, func, *args, **kwargs): + return super().aggregate(func, *args, **kwargs) + + agg = aggregate + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4]) + >>> ser.ewm(alpha=.2).mean() + 0 1.000000 + 1 1.555556 + 2 2.147541 + 3 2.775068 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) mean", + agg_method="mean", + ) + def mean( + self, + numeric_only: bool = False, + engine=None, + engine_kwargs=None, + ): + if maybe_use_numba(engine): + if self.method == "single": + func = generate_numba_ewm_func + else: + func = generate_numba_ewm_table_func + ewm_func = func( + **get_jit_arguments(engine_kwargs), + com=self._com, + adjust=self.adjust, + ignore_na=self.ignore_na, + deltas=tuple(self._deltas), + normalize=True, + ) + return self._apply(ewm_func, name="mean") + elif engine in ("cython", None): + if engine_kwargs is not None: + raise ValueError("cython engine does not accept engine_kwargs") + + deltas = None if self.times is None else self._deltas + window_func = partial( + window_aggregations.ewm, + com=self._com, + adjust=self.adjust, + ignore_na=self.ignore_na, + deltas=deltas, + normalize=True, + ) + return self._apply(window_func, name="mean", numeric_only=numeric_only) + else: + raise ValueError("engine must be either 'numba' or 'cython'") + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4]) + >>> ser.ewm(alpha=.2).sum() + 0 1.000 + 1 2.800 + 2 5.240 + 3 8.192 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) sum", + agg_method="sum", + ) + def sum( + self, + numeric_only: bool = False, + engine=None, + engine_kwargs=None, + ): + if not self.adjust: + raise NotImplementedError("sum is not implemented with adjust=False") + if maybe_use_numba(engine): + if self.method == "single": + func = generate_numba_ewm_func + else: + func = generate_numba_ewm_table_func + ewm_func = func( + **get_jit_arguments(engine_kwargs), + com=self._com, + adjust=self.adjust, + ignore_na=self.ignore_na, + deltas=tuple(self._deltas), + normalize=False, + ) + return self._apply(ewm_func, name="sum") + elif engine in ("cython", None): + if engine_kwargs is not None: + raise ValueError("cython engine does not accept engine_kwargs") + + deltas = None if self.times is None else self._deltas + window_func = partial( + window_aggregations.ewm, + com=self._com, + adjust=self.adjust, + ignore_na=self.ignore_na, + deltas=deltas, + normalize=False, + ) + return self._apply(window_func, name="sum", numeric_only=numeric_only) + else: + raise ValueError("engine must be either 'numba' or 'cython'") + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """\ + bias : bool, default False + Use a standard estimation bias correction. + """ + ), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4]) + >>> ser.ewm(alpha=.2).std() + 0 NaN + 1 0.707107 + 2 0.995893 + 3 1.277320 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) standard deviation", + agg_method="std", + ) + def std(self, bias: bool = False, numeric_only: bool = False): + if ( + numeric_only + and self._selected_obj.ndim == 1 + and not is_numeric_dtype(self._selected_obj.dtype) + ): + # Raise directly so error message says std instead of var + raise NotImplementedError( + f"{type(self).__name__}.std does not implement numeric_only" + ) + return zsqrt(self.var(bias=bias, numeric_only=numeric_only)) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """\ + bias : bool, default False + Use a standard estimation bias correction. + """ + ), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4]) + >>> ser.ewm(alpha=.2).var() + 0 NaN + 1 0.500000 + 2 0.991803 + 3 1.631547 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) variance", + agg_method="var", + ) + def var(self, bias: bool = False, numeric_only: bool = False): + window_func = window_aggregations.ewmcov + wfunc = partial( + window_func, + com=self._com, + adjust=self.adjust, + ignore_na=self.ignore_na, + bias=bias, + ) + + def var_func(values, begin, end, min_periods): + return wfunc(values, begin, end, min_periods, values) + + return self._apply(var_func, name="var", numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """\ + other : Series or DataFrame , optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndex DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + bias : bool, default False + Use a standard estimation bias correction. + """ + ), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser1 = pd.Series([1, 2, 3, 4]) + >>> ser2 = pd.Series([10, 11, 13, 16]) + >>> ser1.ewm(alpha=.2).cov(ser2) + 0 NaN + 1 0.500000 + 2 1.524590 + 3 3.408836 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) sample covariance", + agg_method="cov", + ) + def cov( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + bias: bool = False, + numeric_only: bool = False, + ): + from pandas import Series + + self._validate_numeric_only("cov", numeric_only) + + def cov_func(x, y): + x_array = self._prep_values(x) + y_array = self._prep_values(y) + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + start, end = window_indexer.get_window_bounds( + num_values=len(x_array), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + result = window_aggregations.ewmcov( + x_array, + start, + end, + # error: Argument 4 to "ewmcov" has incompatible type + # "Optional[int]"; expected "int" + self.min_periods, # type: ignore[arg-type] + y_array, + self._com, + self.adjust, + self.ignore_na, + bias, + ) + return Series(result, index=x.index, name=x.name, copy=False) + + return self._apply_pairwise( + self._selected_obj, other, pairwise, cov_func, numeric_only + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """\ + other : Series or DataFrame, optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndex DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + """ + ), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser1 = pd.Series([1, 2, 3, 4]) + >>> ser2 = pd.Series([10, 11, 13, 16]) + >>> ser1.ewm(alpha=.2).corr(ser2) + 0 NaN + 1 1.000000 + 2 0.982821 + 3 0.977802 + dtype: float64 + """ + ), + window_method="ewm", + aggregation_description="(exponential weighted moment) sample correlation", + agg_method="corr", + ) + def corr( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + numeric_only: bool = False, + ): + from pandas import Series + + self._validate_numeric_only("corr", numeric_only) + + def cov_func(x, y): + x_array = self._prep_values(x) + y_array = self._prep_values(y) + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + start, end = window_indexer.get_window_bounds( + num_values=len(x_array), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + + def _cov(X, Y): + return window_aggregations.ewmcov( + X, + start, + end, + min_periods, + Y, + self._com, + self.adjust, + self.ignore_na, + True, + ) + + with np.errstate(all="ignore"): + cov = _cov(x_array, y_array) + x_var = _cov(x_array, x_array) + y_var = _cov(y_array, y_array) + result = cov / zsqrt(x_var * y_var) + return Series(result, index=x.index, name=x.name, copy=False) + + return self._apply_pairwise( + self._selected_obj, other, pairwise, cov_func, numeric_only + ) + + +class ExponentialMovingWindowGroupby(BaseWindowGroupby, ExponentialMovingWindow): + """ + Provide an exponential moving window groupby implementation. + """ + + _attributes = ExponentialMovingWindow._attributes + BaseWindowGroupby._attributes + + def __init__(self, obj, *args, _grouper=None, **kwargs) -> None: + super().__init__(obj, *args, _grouper=_grouper, **kwargs) + + if not obj.empty and self.times is not None: + # sort the times and recalculate the deltas according to the groups + groupby_order = np.concatenate(list(self._grouper.indices.values())) + self._deltas = _calculate_deltas( + self.times.take(groupby_order), + self.halflife, + ) + + def _get_window_indexer(self) -> GroupbyIndexer: + """ + Return an indexer class that will compute the window start and end bounds + + Returns + ------- + GroupbyIndexer + """ + window_indexer = GroupbyIndexer( + groupby_indices=self._grouper.indices, + window_indexer=ExponentialMovingWindowIndexer, + ) + return window_indexer + + +class OnlineExponentialMovingWindow(ExponentialMovingWindow): + def __init__( + self, + obj: NDFrame, + com: float | None = None, + span: float | None = None, + halflife: float | TimedeltaConvertibleTypes | None = None, + alpha: float | None = None, + min_periods: int | None = 0, + adjust: bool = True, + ignore_na: bool = False, + axis: Axis = 0, + times: np.ndarray | NDFrame | None = None, + engine: str = "numba", + engine_kwargs: dict[str, bool] | None = None, + *, + selection=None, + ) -> None: + if times is not None: + raise NotImplementedError( + "times is not implemented with online operations." + ) + super().__init__( + obj=obj, + com=com, + span=span, + halflife=halflife, + alpha=alpha, + min_periods=min_periods, + adjust=adjust, + ignore_na=ignore_na, + axis=axis, + times=times, + selection=selection, + ) + self._mean = EWMMeanState( + self._com, self.adjust, self.ignore_na, self.axis, obj.shape + ) + if maybe_use_numba(engine): + self.engine = engine + self.engine_kwargs = engine_kwargs + else: + raise ValueError("'numba' is the only supported engine") + + def reset(self) -> None: + """ + Reset the state captured by `update` calls. + """ + self._mean.reset() + + def aggregate(self, func, *args, **kwargs): + raise NotImplementedError("aggregate is not implemented.") + + def std(self, bias: bool = False, *args, **kwargs): + raise NotImplementedError("std is not implemented.") + + def corr( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + numeric_only: bool = False, + ): + raise NotImplementedError("corr is not implemented.") + + def cov( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + bias: bool = False, + numeric_only: bool = False, + ): + raise NotImplementedError("cov is not implemented.") + + def var(self, bias: bool = False, numeric_only: bool = False): + raise NotImplementedError("var is not implemented.") + + def mean(self, *args, update=None, update_times=None, **kwargs): + """ + Calculate an online exponentially weighted mean. + + Parameters + ---------- + update: DataFrame or Series, default None + New values to continue calculating the + exponentially weighted mean from the last values and weights. + Values should be float64 dtype. + + ``update`` needs to be ``None`` the first time the + exponentially weighted mean is calculated. + + update_times: Series or 1-D np.ndarray, default None + New times to continue calculating the + exponentially weighted mean from the last values and weights. + If ``None``, values are assumed to be evenly spaced + in time. + This feature is currently unsupported. + + Returns + ------- + DataFrame or Series + + Examples + -------- + >>> df = pd.DataFrame({"a": range(5), "b": range(5, 10)}) + >>> online_ewm = df.head(2).ewm(0.5).online() + >>> online_ewm.mean() + a b + 0 0.00 5.00 + 1 0.75 5.75 + >>> online_ewm.mean(update=df.tail(3)) + a b + 2 1.615385 6.615385 + 3 2.550000 7.550000 + 4 3.520661 8.520661 + >>> online_ewm.reset() + >>> online_ewm.mean() + a b + 0 0.00 5.00 + 1 0.75 5.75 + """ + result_kwargs = {} + is_frame = self._selected_obj.ndim == 2 + if update_times is not None: + raise NotImplementedError("update_times is not implemented.") + update_deltas = np.ones( + max(self._selected_obj.shape[self.axis - 1] - 1, 0), dtype=np.float64 + ) + if update is not None: + if self._mean.last_ewm is None: + raise ValueError( + "Must call mean with update=None first before passing update" + ) + result_from = 1 + result_kwargs["index"] = update.index + if is_frame: + last_value = self._mean.last_ewm[np.newaxis, :] + result_kwargs["columns"] = update.columns + else: + last_value = self._mean.last_ewm + result_kwargs["name"] = update.name + np_array = np.concatenate((last_value, update.to_numpy())) + else: + result_from = 0 + result_kwargs["index"] = self._selected_obj.index + if is_frame: + result_kwargs["columns"] = self._selected_obj.columns + else: + result_kwargs["name"] = self._selected_obj.name + np_array = self._selected_obj.astype(np.float64, copy=False).to_numpy() + ewma_func = generate_online_numba_ewma_func( + **get_jit_arguments(self.engine_kwargs) + ) + result = self._mean.run_ewm( + np_array if is_frame else np_array[:, np.newaxis], + update_deltas, + self.min_periods, + ewma_func, + ) + if not is_frame: + result = result.squeeze() + result = result[result_from:] + result = self._selected_obj._constructor(result, **result_kwargs) + return result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/expanding.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/expanding.py new file mode 100644 index 0000000000000000000000000000000000000000..aac10596ffc699c2b229f959b9c1b26393384b03 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/expanding.py @@ -0,0 +1,964 @@ +from __future__ import annotations + +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, +) + +from pandas.util._decorators import ( + deprecate_kwarg, + doc, +) + +from pandas.core.indexers.objects import ( + BaseIndexer, + ExpandingIndexer, + GroupbyIndexer, +) +from pandas.core.window.doc import ( + _shared_docs, + create_section_header, + kwargs_numeric_only, + numba_notes, + template_header, + template_returns, + template_see_also, + window_agg_numba_parameters, + window_apply_parameters, +) +from pandas.core.window.rolling import ( + BaseWindowGroupby, + RollingAndExpandingMixin, +) + +if TYPE_CHECKING: + from pandas._typing import ( + Axis, + QuantileInterpolation, + WindowingRankType, + ) + + from pandas import ( + DataFrame, + Series, + ) + from pandas.core.generic import NDFrame + + +class Expanding(RollingAndExpandingMixin): + """ + Provide expanding window calculations. + + Parameters + ---------- + min_periods : int, default 1 + Minimum number of observations in window required to have a value; + otherwise, result is ``np.nan``. + + axis : int or str, default 0 + If ``0`` or ``'index'``, roll across the rows. + + If ``1`` or ``'columns'``, roll across the columns. + + For `Series` this parameter is unused and defaults to 0. + + method : str {'single', 'table'}, default 'single' + Execute the rolling operation per single column or row (``'single'``) + or over the entire object (``'table'``). + + This argument is only implemented when specifying ``engine='numba'`` + in the method call. + + .. versionadded:: 1.3.0 + + Returns + ------- + pandas.api.typing.Expanding + + See Also + -------- + rolling : Provides rolling window calculations. + ewm : Provides exponential weighted functions. + + Notes + ----- + See :ref:`Windowing Operations ` for further usage details + and examples. + + Examples + -------- + >>> df = pd.DataFrame({"B": [0, 1, 2, np.nan, 4]}) + >>> df + B + 0 0.0 + 1 1.0 + 2 2.0 + 3 NaN + 4 4.0 + + **min_periods** + + Expanding sum with 1 vs 3 observations needed to calculate a value. + + >>> df.expanding(1).sum() + B + 0 0.0 + 1 1.0 + 2 3.0 + 3 3.0 + 4 7.0 + >>> df.expanding(3).sum() + B + 0 NaN + 1 NaN + 2 3.0 + 3 3.0 + 4 7.0 + """ + + _attributes: list[str] = ["min_periods", "axis", "method"] + + def __init__( + self, + obj: NDFrame, + min_periods: int = 1, + axis: Axis = 0, + method: str = "single", + selection=None, + ) -> None: + super().__init__( + obj=obj, + min_periods=min_periods, + axis=axis, + method=method, + selection=selection, + ) + + def _get_window_indexer(self) -> BaseIndexer: + """ + Return an indexer class that will compute the window start and end bounds + """ + return ExpandingIndexer() + + @doc( + _shared_docs["aggregate"], + see_also=dedent( + """ + See Also + -------- + pandas.DataFrame.aggregate : Similar DataFrame method. + pandas.Series.aggregate : Similar Series method. + """ + ), + examples=dedent( + """ + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + >>> df + A B C + 0 1 4 7 + 1 2 5 8 + 2 3 6 9 + + >>> df.ewm(alpha=0.5).mean() + A B C + 0 1.000000 4.000000 7.000000 + 1 1.666667 4.666667 7.666667 + 2 2.428571 5.428571 8.428571 + """ + ), + klass="Series/Dataframe", + axis="", + ) + def aggregate(self, func, *args, **kwargs): + return super().aggregate(func, *args, **kwargs) + + agg = aggregate + + @doc( + template_header, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().count() + a 1.0 + b 2.0 + c 3.0 + d 4.0 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="count of non NaN observations", + agg_method="count", + ) + def count(self, numeric_only: bool = False): + return super().count(numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + window_apply_parameters, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().apply(lambda s: s.max() - 2 * s.min()) + a -1.0 + b 0.0 + c 1.0 + d 2.0 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="custom aggregation function", + agg_method="apply", + ) + def apply( + self, + func: Callable[..., Any], + raw: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + args: tuple[Any, ...] | None = None, + kwargs: dict[str, Any] | None = None, + ): + return super().apply( + func, + raw=raw, + engine=engine, + engine_kwargs=engine_kwargs, + args=args, + kwargs=kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().sum() + a 1.0 + b 3.0 + c 6.0 + d 10.0 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="sum", + agg_method="sum", + ) + def sum( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().sum( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([3, 2, 1, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().max() + a 3.0 + b 3.0 + c 3.0 + d 4.0 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="maximum", + agg_method="max", + ) + def max( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().max( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([2, 3, 4, 1], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().min() + a 2.0 + b 2.0 + c 2.0 + d 1.0 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="minimum", + agg_method="min", + ) + def min( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().min( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().mean() + a 1.0 + b 1.5 + c 2.0 + d 2.5 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="mean", + agg_method="mean", + ) + def mean( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().mean( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser.expanding().median() + a 1.0 + b 1.5 + c 2.0 + d 2.5 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="median", + agg_method="median", + ) + def median( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().median( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements.\n + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + window_agg_numba_parameters("1.4"), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "numpy.std : Equivalent method for NumPy array.\n", + template_see_also, + create_section_header("Notes"), + dedent( + """ + The default ``ddof`` of 1 used in :meth:`Series.std` is different + than the default ``ddof`` of 0 in :func:`numpy.std`. + + A minimum of one period is required for the rolling calculation.\n + """ + ).replace("\n", "", 1), + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([5, 5, 6, 7, 5, 5, 5]) + + >>> s.expanding(3).std() + 0 NaN + 1 NaN + 2 0.577350 + 3 0.957427 + 4 0.894427 + 5 0.836660 + 6 0.786796 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="expanding", + aggregation_description="standard deviation", + agg_method="std", + ) + def std( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().std( + ddof=ddof, + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements.\n + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + window_agg_numba_parameters("1.4"), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "numpy.var : Equivalent method for NumPy array.\n", + template_see_also, + create_section_header("Notes"), + dedent( + """ + The default ``ddof`` of 1 used in :meth:`Series.var` is different + than the default ``ddof`` of 0 in :func:`numpy.var`. + + A minimum of one period is required for the rolling calculation.\n + """ + ).replace("\n", "", 1), + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([5, 5, 6, 7, 5, 5, 5]) + + >>> s.expanding(3).var() + 0 NaN + 1 NaN + 2 0.333333 + 3 0.916667 + 4 0.800000 + 5 0.700000 + 6 0.619048 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="expanding", + aggregation_description="variance", + agg_method="var", + ) + def var( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().var( + ddof=ddof, + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements.\n + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + "A minimum of one period is required for the calculation.\n\n", + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([0, 1, 2, 3]) + + >>> s.expanding().sem() + 0 NaN + 1 0.707107 + 2 0.707107 + 3 0.745356 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="expanding", + aggregation_description="standard error of mean", + agg_method="sem", + ) + def sem(self, ddof: int = 1, numeric_only: bool = False): + return super().sem(ddof=ddof, numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "scipy.stats.skew : Third moment of a probability density.\n", + template_see_also, + create_section_header("Notes"), + "A minimum of three periods is required for the rolling calculation.\n\n", + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([-1, 0, 2, -1, 2], index=['a', 'b', 'c', 'd', 'e']) + >>> ser.expanding().skew() + a NaN + b NaN + c 0.935220 + d 1.414214 + e 0.315356 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="unbiased skewness", + agg_method="skew", + ) + def skew(self, numeric_only: bool = False): + return super().skew(numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "scipy.stats.kurtosis : Reference SciPy method.\n", + template_see_also, + create_section_header("Notes"), + "A minimum of four periods is required for the calculation.\n\n", + create_section_header("Examples"), + dedent( + """ + The example below will show a rolling calculation with a window size of + four matching the equivalent function call using `scipy.stats`. + + >>> arr = [1, 2, 3, 4, 999] + >>> import scipy.stats + >>> print(f"{{scipy.stats.kurtosis(arr[:-1], bias=False):.6f}}") + -1.200000 + >>> print(f"{{scipy.stats.kurtosis(arr, bias=False):.6f}}") + 4.999874 + >>> s = pd.Series(arr) + >>> s.expanding(4).kurt() + 0 NaN + 1 NaN + 2 NaN + 3 -1.200000 + 4 4.999874 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="expanding", + aggregation_description="Fisher's definition of kurtosis without bias", + agg_method="kurt", + ) + def kurt(self, numeric_only: bool = False): + return super().kurt(numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + quantile : float + Quantile to compute. 0 <= quantile <= 1. + + .. deprecated:: 2.1.0 + This will be renamed to 'q' in a future version. + interpolation : {{'linear', 'lower', 'higher', 'midpoint', 'nearest'}} + This optional parameter specifies the interpolation method to use, + when the desired quantile lies between two data points `i` and `j`: + + * linear: `i + (j - i) * fraction`, where `fraction` is the + fractional part of the index surrounded by `i` and `j`. + * lower: `i`. + * higher: `j`. + * nearest: `i` or `j` whichever is nearest. + * midpoint: (`i` + `j`) / 2. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4, 5, 6], index=['a', 'b', 'c', 'd', 'e', 'f']) + >>> ser.expanding(min_periods=4).quantile(.25) + a NaN + b NaN + c NaN + d 1.75 + e 2.00 + f 2.25 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="quantile", + agg_method="quantile", + ) + @deprecate_kwarg(old_arg_name="quantile", new_arg_name="q") + def quantile( + self, + q: float, + interpolation: QuantileInterpolation = "linear", + numeric_only: bool = False, + ): + return super().quantile( + q=q, + interpolation=interpolation, + numeric_only=numeric_only, + ) + + @doc( + template_header, + ".. versionadded:: 1.4.0 \n\n", + create_section_header("Parameters"), + dedent( + """ + method : {{'average', 'min', 'max'}}, default 'average' + How to rank the group of records that have the same value (i.e. ties): + + * average: average rank of the group + * min: lowest rank in the group + * max: highest rank in the group + + ascending : bool, default True + Whether or not the elements should be ranked in ascending order. + pct : bool, default False + Whether or not to display the returned rankings in percentile + form. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([1, 4, 2, 3, 5, 3]) + >>> s.expanding().rank() + 0 1.0 + 1 2.0 + 2 2.0 + 3 3.0 + 4 5.0 + 5 3.5 + dtype: float64 + + >>> s.expanding().rank(method="max") + 0 1.0 + 1 2.0 + 2 2.0 + 3 3.0 + 4 5.0 + 5 4.0 + dtype: float64 + + >>> s.expanding().rank(method="min") + 0 1.0 + 1 2.0 + 2 2.0 + 3 3.0 + 4 5.0 + 5 3.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="expanding", + aggregation_description="rank", + agg_method="rank", + ) + def rank( + self, + method: WindowingRankType = "average", + ascending: bool = True, + pct: bool = False, + numeric_only: bool = False, + ): + return super().rank( + method=method, + ascending=ascending, + pct=pct, + numeric_only=numeric_only, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + other : Series or DataFrame, optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndexed DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser1 = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser2 = pd.Series([10, 11, 13, 16], index=['a', 'b', 'c', 'd']) + >>> ser1.expanding().cov(ser2) + a NaN + b 0.500000 + c 1.500000 + d 3.333333 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="sample covariance", + agg_method="cov", + ) + def cov( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + return super().cov( + other=other, + pairwise=pairwise, + ddof=ddof, + numeric_only=numeric_only, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + other : Series or DataFrame, optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndexed DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + dedent( + """ + cov : Similar method to calculate covariance. + numpy.corrcoef : NumPy Pearson's correlation calculation. + """ + ).replace("\n", "", 1), + template_see_also, + create_section_header("Notes"), + dedent( + """ + This function uses Pearson's definition of correlation + (https://en.wikipedia.org/wiki/Pearson_correlation_coefficient). + + When `other` is not specified, the output will be self correlation (e.g. + all 1's), except for :class:`~pandas.DataFrame` inputs with `pairwise` + set to `True`. + + Function will return ``NaN`` for correlations of equal valued sequences; + this is the result of a 0/0 division error. + + When `pairwise` is set to `False`, only matching columns between `self` and + `other` will be used. + + When `pairwise` is set to `True`, the output will be a MultiIndex DataFrame + with the original index on the first level, and the `other` DataFrame + columns on the second level. + + In the case of missing elements, only complete pairwise observations + will be used.\n + """ + ), + create_section_header("Examples"), + dedent( + """\ + >>> ser1 = pd.Series([1, 2, 3, 4], index=['a', 'b', 'c', 'd']) + >>> ser2 = pd.Series([10, 11, 13, 16], index=['a', 'b', 'c', 'd']) + >>> ser1.expanding().corr(ser2) + a NaN + b 1.000000 + c 0.981981 + d 0.975900 + dtype: float64 + """ + ), + window_method="expanding", + aggregation_description="correlation", + agg_method="corr", + ) + def corr( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + return super().corr( + other=other, + pairwise=pairwise, + ddof=ddof, + numeric_only=numeric_only, + ) + + +class ExpandingGroupby(BaseWindowGroupby, Expanding): + """ + Provide a expanding groupby implementation. + """ + + _attributes = Expanding._attributes + BaseWindowGroupby._attributes + + def _get_window_indexer(self) -> GroupbyIndexer: + """ + Return an indexer class that will compute the window start and end bounds + + Returns + ------- + GroupbyIndexer + """ + window_indexer = GroupbyIndexer( + groupby_indices=self._grouper.indices, + window_indexer=ExpandingIndexer, + ) + return window_indexer diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/numba_.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/numba_.py new file mode 100644 index 0000000000000000000000000000000000000000..9357945e78c631a3fada24ec3015ca0cf183b99c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/numba_.py @@ -0,0 +1,351 @@ +from __future__ import annotations + +import functools +from typing import ( + TYPE_CHECKING, + Any, + Callable, +) + +import numpy as np + +from pandas.compat._optional import import_optional_dependency + +from pandas.core.util.numba_ import jit_user_function + +if TYPE_CHECKING: + from pandas._typing import Scalar + + +@functools.cache +def generate_numba_apply_func( + func: Callable[..., Scalar], + nopython: bool, + nogil: bool, + parallel: bool, +): + """ + Generate a numba jitted apply function specified by values from engine_kwargs. + + 1. jit the user's function + 2. Return a rolling apply function with the jitted function inline + + Configurations specified in engine_kwargs apply to both the user's + function _AND_ the rolling apply function. + + Parameters + ---------- + func : function + function to be applied to each window and will be JITed + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + numba_func = jit_user_function(func) + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def roll_apply( + values: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + minimum_periods: int, + *args: Any, + ) -> np.ndarray: + result = np.empty(len(begin)) + for i in numba.prange(len(result)): + start = begin[i] + stop = end[i] + window = values[start:stop] + count_nan = np.sum(np.isnan(window)) + if len(window) - count_nan >= minimum_periods: + result[i] = numba_func(window, *args) + else: + result[i] = np.nan + return result + + return roll_apply + + +@functools.cache +def generate_numba_ewm_func( + nopython: bool, + nogil: bool, + parallel: bool, + com: float, + adjust: bool, + ignore_na: bool, + deltas: tuple, + normalize: bool, +): + """ + Generate a numba jitted ewm mean or sum function specified by values + from engine_kwargs. + + Parameters + ---------- + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + com : float + adjust : bool + ignore_na : bool + deltas : tuple + normalize : bool + + Returns + ------- + Numba function + """ + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def ewm( + values: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + minimum_periods: int, + ) -> np.ndarray: + result = np.empty(len(values)) + alpha = 1.0 / (1.0 + com) + old_wt_factor = 1.0 - alpha + new_wt = 1.0 if adjust else alpha + + for i in numba.prange(len(begin)): + start = begin[i] + stop = end[i] + window = values[start:stop] + sub_result = np.empty(len(window)) + + weighted = window[0] + nobs = int(not np.isnan(weighted)) + sub_result[0] = weighted if nobs >= minimum_periods else np.nan + old_wt = 1.0 + + for j in range(1, len(window)): + cur = window[j] + is_observation = not np.isnan(cur) + nobs += is_observation + if not np.isnan(weighted): + if is_observation or not ignore_na: + if normalize: + # note that len(deltas) = len(vals) - 1 and deltas[i] + # is to be used in conjunction with vals[i+1] + old_wt *= old_wt_factor ** deltas[start + j - 1] + else: + weighted = old_wt_factor * weighted + if is_observation: + if normalize: + # avoid numerical errors on constant series + if weighted != cur: + weighted = old_wt * weighted + new_wt * cur + if normalize: + weighted = weighted / (old_wt + new_wt) + if adjust: + old_wt += new_wt + else: + old_wt = 1.0 + else: + weighted += cur + elif is_observation: + weighted = cur + + sub_result[j] = weighted if nobs >= minimum_periods else np.nan + + result[start:stop] = sub_result + + return result + + return ewm + + +@functools.cache +def generate_numba_table_func( + func: Callable[..., np.ndarray], + nopython: bool, + nogil: bool, + parallel: bool, +): + """ + Generate a numba jitted function to apply window calculations table-wise. + + Func will be passed a M window size x N number of columns array, and + must return a 1 x N number of columns array. Func is intended to operate + row-wise, but the result will be transposed for axis=1. + + 1. jit the user's function + 2. Return a rolling apply function with the jitted function inline + + Parameters + ---------- + func : function + function to be applied to each window and will be JITed + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + numba_func = jit_user_function(func) + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def roll_table( + values: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + minimum_periods: int, + *args: Any, + ): + result = np.empty((len(begin), values.shape[1])) + min_periods_mask = np.empty(result.shape) + for i in numba.prange(len(result)): + start = begin[i] + stop = end[i] + window = values[start:stop] + count_nan = np.sum(np.isnan(window), axis=0) + sub_result = numba_func(window, *args) + nan_mask = len(window) - count_nan >= minimum_periods + min_periods_mask[i, :] = nan_mask + result[i, :] = sub_result + result = np.where(min_periods_mask, result, np.nan) + return result + + return roll_table + + +# This function will no longer be needed once numba supports +# axis for all np.nan* agg functions +# https://github.com/numba/numba/issues/1269 +@functools.cache +def generate_manual_numpy_nan_agg_with_axis(nan_func): + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=True, nogil=True, parallel=True) + def nan_agg_with_axis(table): + result = np.empty(table.shape[1]) + for i in numba.prange(table.shape[1]): + partition = table[:, i] + result[i] = nan_func(partition) + return result + + return nan_agg_with_axis + + +@functools.cache +def generate_numba_ewm_table_func( + nopython: bool, + nogil: bool, + parallel: bool, + com: float, + adjust: bool, + ignore_na: bool, + deltas: tuple, + normalize: bool, +): + """ + Generate a numba jitted ewm mean or sum function applied table wise specified + by values from engine_kwargs. + + Parameters + ---------- + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + com : float + adjust : bool + ignore_na : bool + deltas : tuple + normalize: bool + + Returns + ------- + Numba function + """ + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def ewm_table( + values: np.ndarray, + begin: np.ndarray, + end: np.ndarray, + minimum_periods: int, + ) -> np.ndarray: + alpha = 1.0 / (1.0 + com) + old_wt_factor = 1.0 - alpha + new_wt = 1.0 if adjust else alpha + old_wt = np.ones(values.shape[1]) + + result = np.empty(values.shape) + weighted = values[0].copy() + nobs = (~np.isnan(weighted)).astype(np.int64) + result[0] = np.where(nobs >= minimum_periods, weighted, np.nan) + for i in range(1, len(values)): + cur = values[i] + is_observations = ~np.isnan(cur) + nobs += is_observations.astype(np.int64) + for j in numba.prange(len(cur)): + if not np.isnan(weighted[j]): + if is_observations[j] or not ignore_na: + if normalize: + # note that len(deltas) = len(vals) - 1 and deltas[i] + # is to be used in conjunction with vals[i+1] + old_wt[j] *= old_wt_factor ** deltas[i - 1] + else: + weighted[j] = old_wt_factor * weighted[j] + if is_observations[j]: + if normalize: + # avoid numerical errors on constant series + if weighted[j] != cur[j]: + weighted[j] = ( + old_wt[j] * weighted[j] + new_wt * cur[j] + ) + if normalize: + weighted[j] = weighted[j] / (old_wt[j] + new_wt) + if adjust: + old_wt[j] += new_wt + else: + old_wt[j] = 1.0 + else: + weighted[j] += cur[j] + elif is_observations[j]: + weighted[j] = cur[j] + + result[i] = np.where(nobs >= minimum_periods, weighted, np.nan) + + return result + + return ewm_table diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/online.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/online.py new file mode 100644 index 0000000000000000000000000000000000000000..29d1f740e021fd30d3bfc7d72a5e6baefe62ac4c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/online.py @@ -0,0 +1,118 @@ +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.compat._optional import import_optional_dependency + + +def generate_online_numba_ewma_func( + nopython: bool, + nogil: bool, + parallel: bool, +): + """ + Generate a numba jitted groupby ewma function specified by values + from engine_kwargs. + + Parameters + ---------- + nopython : bool + nopython to be passed into numba.jit + nogil : bool + nogil to be passed into numba.jit + parallel : bool + parallel to be passed into numba.jit + + Returns + ------- + Numba function + """ + if TYPE_CHECKING: + import numba + else: + numba = import_optional_dependency("numba") + + @numba.jit(nopython=nopython, nogil=nogil, parallel=parallel) + def online_ewma( + values: np.ndarray, + deltas: np.ndarray, + minimum_periods: int, + old_wt_factor: float, + new_wt: float, + old_wt: np.ndarray, + adjust: bool, + ignore_na: bool, + ): + """ + Compute online exponentially weighted mean per column over 2D values. + + Takes the first observation as is, then computes the subsequent + exponentially weighted mean accounting minimum periods. + """ + result = np.empty(values.shape) + weighted_avg = values[0].copy() + nobs = (~np.isnan(weighted_avg)).astype(np.int64) + result[0] = np.where(nobs >= minimum_periods, weighted_avg, np.nan) + + for i in range(1, len(values)): + cur = values[i] + is_observations = ~np.isnan(cur) + nobs += is_observations.astype(np.int64) + for j in numba.prange(len(cur)): + if not np.isnan(weighted_avg[j]): + if is_observations[j] or not ignore_na: + # note that len(deltas) = len(vals) - 1 and deltas[i] is to be + # used in conjunction with vals[i+1] + old_wt[j] *= old_wt_factor ** deltas[j - 1] + if is_observations[j]: + # avoid numerical errors on constant series + if weighted_avg[j] != cur[j]: + weighted_avg[j] = ( + (old_wt[j] * weighted_avg[j]) + (new_wt * cur[j]) + ) / (old_wt[j] + new_wt) + if adjust: + old_wt[j] += new_wt + else: + old_wt[j] = 1.0 + elif is_observations[j]: + weighted_avg[j] = cur[j] + + result[i] = np.where(nobs >= minimum_periods, weighted_avg, np.nan) + + return result, old_wt + + return online_ewma + + +class EWMMeanState: + def __init__(self, com, adjust, ignore_na, axis, shape) -> None: + alpha = 1.0 / (1.0 + com) + self.axis = axis + self.shape = shape + self.adjust = adjust + self.ignore_na = ignore_na + self.new_wt = 1.0 if adjust else alpha + self.old_wt_factor = 1.0 - alpha + self.old_wt = np.ones(self.shape[self.axis - 1]) + self.last_ewm = None + + def run_ewm(self, weighted_avg, deltas, min_periods, ewm_func): + result, old_wt = ewm_func( + weighted_avg, + deltas, + min_periods, + self.old_wt_factor, + self.new_wt, + self.old_wt, + self.adjust, + self.ignore_na, + ) + self.old_wt = old_wt + self.last_ewm = result[-1] + return result + + def reset(self) -> None: + self.old_wt = np.ones(self.shape[self.axis - 1]) + self.last_ewm = None diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/rolling.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/rolling.py new file mode 100644 index 0000000000000000000000000000000000000000..68cec16ec9eca8b34fadd9e67221219ebd7fe736 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/core/window/rolling.py @@ -0,0 +1,2930 @@ +""" +Provide a generic structure to support window functions, +similar to how we have a Groupby object. +""" +from __future__ import annotations + +import copy +from datetime import timedelta +from functools import partial +import inspect +from textwrap import dedent +from typing import ( + TYPE_CHECKING, + Any, + Callable, + Literal, +) + +import numpy as np + +from pandas._libs.tslibs import ( + BaseOffset, + Timedelta, + to_offset, +) +import pandas._libs.window.aggregations as window_aggregations +from pandas.compat._optional import import_optional_dependency +from pandas.errors import DataError +from pandas.util._decorators import ( + deprecate_kwarg, + doc, +) + +from pandas.core.dtypes.common import ( + ensure_float64, + is_bool, + is_integer, + is_numeric_dtype, + needs_i8_conversion, +) +from pandas.core.dtypes.dtypes import ArrowDtype +from pandas.core.dtypes.generic import ( + ABCDataFrame, + ABCSeries, +) +from pandas.core.dtypes.missing import notna + +from pandas.core._numba import executor +from pandas.core.algorithms import factorize +from pandas.core.apply import ResamplerWindowApply +from pandas.core.arrays import ExtensionArray +from pandas.core.base import SelectionMixin +import pandas.core.common as com +from pandas.core.indexers.objects import ( + BaseIndexer, + FixedWindowIndexer, + GroupbyIndexer, + VariableWindowIndexer, +) +from pandas.core.indexes.api import ( + DatetimeIndex, + Index, + MultiIndex, + PeriodIndex, + TimedeltaIndex, +) +from pandas.core.reshape.concat import concat +from pandas.core.util.numba_ import ( + get_jit_arguments, + maybe_use_numba, +) +from pandas.core.window.common import ( + flex_binary_moment, + zsqrt, +) +from pandas.core.window.doc import ( + _shared_docs, + create_section_header, + kwargs_numeric_only, + kwargs_scipy, + numba_notes, + template_header, + template_returns, + template_see_also, + window_agg_numba_parameters, + window_apply_parameters, +) +from pandas.core.window.numba_ import ( + generate_manual_numpy_nan_agg_with_axis, + generate_numba_apply_func, + generate_numba_table_func, +) + +if TYPE_CHECKING: + from collections.abc import ( + Hashable, + Iterator, + Sized, + ) + + from pandas._typing import ( + ArrayLike, + Axis, + NDFrameT, + QuantileInterpolation, + WindowingRankType, + npt, + ) + + from pandas import ( + DataFrame, + Series, + ) + from pandas.core.generic import NDFrame + from pandas.core.groupby.ops import BaseGrouper + +from pandas.core.arrays.datetimelike import dtype_to_unit + + +class BaseWindow(SelectionMixin): + """Provides utilities for performing windowing operations.""" + + _attributes: list[str] = [] + exclusions: frozenset[Hashable] = frozenset() + _on: Index + + def __init__( + self, + obj: NDFrame, + window=None, + min_periods: int | None = None, + center: bool | None = False, + win_type: str | None = None, + axis: Axis = 0, + on: str | Index | None = None, + closed: str | None = None, + step: int | None = None, + method: str = "single", + *, + selection=None, + ) -> None: + self.obj = obj + self.on = on + self.closed = closed + self.step = step + self.window = window + self.min_periods = min_periods + self.center = center + self.win_type = win_type + self.axis = obj._get_axis_number(axis) if axis is not None else None + self.method = method + self._win_freq_i8: int | None = None + if self.on is None: + if self.axis == 0: + self._on = self.obj.index + else: + # i.e. self.axis == 1 + self._on = self.obj.columns + elif isinstance(self.on, Index): + self._on = self.on + elif isinstance(self.obj, ABCDataFrame) and self.on in self.obj.columns: + self._on = Index(self.obj[self.on]) + else: + raise ValueError( + f"invalid on specified as {self.on}, " + "must be a column (of DataFrame), an Index or None" + ) + + self._selection = selection + self._validate() + + def _validate(self) -> None: + if self.center is not None and not is_bool(self.center): + raise ValueError("center must be a boolean") + if self.min_periods is not None: + if not is_integer(self.min_periods): + raise ValueError("min_periods must be an integer") + if self.min_periods < 0: + raise ValueError("min_periods must be >= 0") + if is_integer(self.window) and self.min_periods > self.window: + raise ValueError( + f"min_periods {self.min_periods} must be <= window {self.window}" + ) + if self.closed is not None and self.closed not in [ + "right", + "both", + "left", + "neither", + ]: + raise ValueError("closed must be 'right', 'left', 'both' or 'neither'") + if not isinstance(self.obj, (ABCSeries, ABCDataFrame)): + raise TypeError(f"invalid type: {type(self)}") + if isinstance(self.window, BaseIndexer): + # Validate that the passed BaseIndexer subclass has + # a get_window_bounds with the correct signature. + get_window_bounds_signature = inspect.signature( + self.window.get_window_bounds + ).parameters.keys() + expected_signature = inspect.signature( + BaseIndexer().get_window_bounds + ).parameters.keys() + if get_window_bounds_signature != expected_signature: + raise ValueError( + f"{type(self.window).__name__} does not implement " + f"the correct signature for get_window_bounds" + ) + if self.method not in ["table", "single"]: + raise ValueError("method must be 'table' or 'single") + if self.step is not None: + if not is_integer(self.step): + raise ValueError("step must be an integer") + if self.step < 0: + raise ValueError("step must be >= 0") + + def _check_window_bounds( + self, start: np.ndarray, end: np.ndarray, num_vals: int + ) -> None: + if len(start) != len(end): + raise ValueError( + f"start ({len(start)}) and end ({len(end)}) bounds must be the " + f"same length" + ) + if len(start) != (num_vals + (self.step or 1) - 1) // (self.step or 1): + raise ValueError( + f"start and end bounds ({len(start)}) must be the same length " + f"as the object ({num_vals}) divided by the step ({self.step}) " + f"if given and rounded up" + ) + + def _slice_axis_for_step(self, index: Index, result: Sized | None = None) -> Index: + """ + Slices the index for a given result and the preset step. + """ + return ( + index + if result is None or len(result) == len(index) + else index[:: self.step] + ) + + def _validate_numeric_only(self, name: str, numeric_only: bool) -> None: + """ + Validate numeric_only argument, raising if invalid for the input. + + Parameters + ---------- + name : str + Name of the operator (kernel). + numeric_only : bool + Value passed by user. + """ + if ( + self._selected_obj.ndim == 1 + and numeric_only + and not is_numeric_dtype(self._selected_obj.dtype) + ): + raise NotImplementedError( + f"{type(self).__name__}.{name} does not implement numeric_only" + ) + + def _make_numeric_only(self, obj: NDFrameT) -> NDFrameT: + """Subset DataFrame to numeric columns. + + Parameters + ---------- + obj : DataFrame + + Returns + ------- + obj subset to numeric-only columns. + """ + result = obj.select_dtypes(include=["number"], exclude=["timedelta"]) + return result + + def _create_data(self, obj: NDFrameT, numeric_only: bool = False) -> NDFrameT: + """ + Split data into blocks & return conformed data. + """ + # filter out the on from the object + if self.on is not None and not isinstance(self.on, Index) and obj.ndim == 2: + obj = obj.reindex(columns=obj.columns.difference([self.on]), copy=False) + if obj.ndim > 1 and (numeric_only or self.axis == 1): + # GH: 20649 in case of mixed dtype and axis=1 we have to convert everything + # to float to calculate the complete row at once. We exclude all non-numeric + # dtypes. + obj = self._make_numeric_only(obj) + if self.axis == 1: + obj = obj.astype("float64", copy=False) + obj._mgr = obj._mgr.consolidate() + return obj + + def _gotitem(self, key, ndim, subset=None): + """ + Sub-classes to define. Return a sliced object. + + Parameters + ---------- + key : str / list of selections + ndim : {1, 2} + requested ndim of result + subset : object, default None + subset to act on + """ + # create a new object to prevent aliasing + if subset is None: + subset = self.obj + + # we need to make a shallow copy of ourselves + # with the same groupby + kwargs = {attr: getattr(self, attr) for attr in self._attributes} + + selection = self._infer_selection(key, subset) + new_win = type(self)(subset, selection=selection, **kwargs) + return new_win + + def __getattr__(self, attr: str): + if attr in self._internal_names_set: + return object.__getattribute__(self, attr) + if attr in self.obj: + return self[attr] + + raise AttributeError( + f"'{type(self).__name__}' object has no attribute '{attr}'" + ) + + def _dir_additions(self): + return self.obj._dir_additions() + + def __repr__(self) -> str: + """ + Provide a nice str repr of our rolling object. + """ + attrs_list = ( + f"{attr_name}={getattr(self, attr_name)}" + for attr_name in self._attributes + if getattr(self, attr_name, None) is not None and attr_name[0] != "_" + ) + attrs = ",".join(attrs_list) + return f"{type(self).__name__} [{attrs}]" + + def __iter__(self) -> Iterator: + obj = self._selected_obj.set_axis(self._on) + obj = self._create_data(obj) + indexer = self._get_window_indexer() + + start, end = indexer.get_window_bounds( + num_values=len(obj), + min_periods=self.min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + self._check_window_bounds(start, end, len(obj)) + + for s, e in zip(start, end): + result = obj.iloc[slice(s, e)] + yield result + + def _prep_values(self, values: ArrayLike) -> np.ndarray: + """Convert input to numpy arrays for Cython routines""" + if needs_i8_conversion(values.dtype): + raise NotImplementedError( + f"ops for {type(self).__name__} for this " + f"dtype {values.dtype} are not implemented" + ) + # GH #12373 : rolling functions error on float32 data + # make sure the data is coerced to float64 + try: + if isinstance(values, ExtensionArray): + values = values.to_numpy(np.float64, na_value=np.nan) + else: + values = ensure_float64(values) + except (ValueError, TypeError) as err: + raise TypeError(f"cannot handle this type -> {values.dtype}") from err + + # Convert inf to nan for C funcs + inf = np.isinf(values) + if inf.any(): + values = np.where(inf, np.nan, values) + + return values + + def _insert_on_column(self, result: DataFrame, obj: DataFrame) -> None: + # if we have an 'on' column we want to put it back into + # the results in the same location + from pandas import Series + + if self.on is not None and not self._on.equals(obj.index): + name = self._on.name + extra_col = Series(self._on, index=self.obj.index, name=name, copy=False) + if name in result.columns: + # TODO: sure we want to overwrite results? + result[name] = extra_col + elif name in result.index.names: + pass + elif name in self._selected_obj.columns: + # insert in the same location as we had in _selected_obj + old_cols = self._selected_obj.columns + new_cols = result.columns + old_loc = old_cols.get_loc(name) + overlap = new_cols.intersection(old_cols[:old_loc]) + new_loc = len(overlap) + result.insert(new_loc, name, extra_col) + else: + # insert at the end + result[name] = extra_col + + @property + def _index_array(self) -> npt.NDArray[np.int64] | None: + # TODO: why do we get here with e.g. MultiIndex? + if isinstance(self._on, (PeriodIndex, DatetimeIndex, TimedeltaIndex)): + return self._on.asi8 + elif isinstance(self._on.dtype, ArrowDtype) and self._on.dtype.kind in "mM": + return self._on.to_numpy(dtype=np.int64) + return None + + def _resolve_output(self, out: DataFrame, obj: DataFrame) -> DataFrame: + """Validate and finalize result.""" + if out.shape[1] == 0 and obj.shape[1] > 0: + raise DataError("No numeric types to aggregate") + if out.shape[1] == 0: + return obj.astype("float64") + + self._insert_on_column(out, obj) + return out + + def _get_window_indexer(self) -> BaseIndexer: + """ + Return an indexer class that will compute the window start and end bounds + """ + if isinstance(self.window, BaseIndexer): + return self.window + if self._win_freq_i8 is not None: + return VariableWindowIndexer( + index_array=self._index_array, + window_size=self._win_freq_i8, + center=self.center, + ) + return FixedWindowIndexer(window_size=self.window) + + def _apply_series( + self, homogeneous_func: Callable[..., ArrayLike], name: str | None = None + ) -> Series: + """ + Series version of _apply_columnwise + """ + obj = self._create_data(self._selected_obj) + + if name == "count": + # GH 12541: Special case for count where we support date-like types + obj = notna(obj).astype(int) + try: + values = self._prep_values(obj._values) + except (TypeError, NotImplementedError) as err: + raise DataError("No numeric types to aggregate") from err + + result = homogeneous_func(values) + index = self._slice_axis_for_step(obj.index, result) + return obj._constructor(result, index=index, name=obj.name) + + def _apply_columnwise( + self, + homogeneous_func: Callable[..., ArrayLike], + name: str, + numeric_only: bool = False, + ) -> DataFrame | Series: + """ + Apply the given function to the DataFrame broken down into homogeneous + sub-frames. + """ + self._validate_numeric_only(name, numeric_only) + if self._selected_obj.ndim == 1: + return self._apply_series(homogeneous_func, name) + + obj = self._create_data(self._selected_obj, numeric_only) + if name == "count": + # GH 12541: Special case for count where we support date-like types + obj = notna(obj).astype(int) + obj._mgr = obj._mgr.consolidate() + + if self.axis == 1: + obj = obj.T + + taker = [] + res_values = [] + for i, arr in enumerate(obj._iter_column_arrays()): + # GH#42736 operate column-wise instead of block-wise + # As of 2.0, hfunc will raise for nuisance columns + try: + arr = self._prep_values(arr) + except (TypeError, NotImplementedError) as err: + raise DataError( + f"Cannot aggregate non-numeric type: {arr.dtype}" + ) from err + res = homogeneous_func(arr) + res_values.append(res) + taker.append(i) + + index = self._slice_axis_for_step( + obj.index, res_values[0] if len(res_values) > 0 else None + ) + df = type(obj)._from_arrays( + res_values, + index=index, + columns=obj.columns.take(taker), + verify_integrity=False, + ) + + if self.axis == 1: + df = df.T + + return self._resolve_output(df, obj) + + def _apply_tablewise( + self, + homogeneous_func: Callable[..., ArrayLike], + name: str | None = None, + numeric_only: bool = False, + ) -> DataFrame | Series: + """ + Apply the given function to the DataFrame across the entire object + """ + if self._selected_obj.ndim == 1: + raise ValueError("method='table' not applicable for Series objects.") + obj = self._create_data(self._selected_obj, numeric_only) + values = self._prep_values(obj.to_numpy()) + values = values.T if self.axis == 1 else values + result = homogeneous_func(values) + result = result.T if self.axis == 1 else result + index = self._slice_axis_for_step(obj.index, result) + columns = ( + obj.columns + if result.shape[1] == len(obj.columns) + else obj.columns[:: self.step] + ) + out = obj._constructor(result, index=index, columns=columns) + + return self._resolve_output(out, obj) + + def _apply_pairwise( + self, + target: DataFrame | Series, + other: DataFrame | Series | None, + pairwise: bool | None, + func: Callable[[DataFrame | Series, DataFrame | Series], DataFrame | Series], + numeric_only: bool, + ) -> DataFrame | Series: + """ + Apply the given pairwise function given 2 pandas objects (DataFrame/Series) + """ + target = self._create_data(target, numeric_only) + if other is None: + other = target + # only default unset + pairwise = True if pairwise is None else pairwise + elif not isinstance(other, (ABCDataFrame, ABCSeries)): + raise ValueError("other must be a DataFrame or Series") + elif other.ndim == 2 and numeric_only: + other = self._make_numeric_only(other) + + return flex_binary_moment(target, other, func, pairwise=bool(pairwise)) + + def _apply( + self, + func: Callable[..., Any], + name: str, + numeric_only: bool = False, + numba_args: tuple[Any, ...] = (), + **kwargs, + ): + """ + Rolling statistical measure using supplied function. + + Designed to be used with passed-in Cython array-based functions. + + Parameters + ---------- + func : callable function to apply + name : str, + numba_args : tuple + args to be passed when func is a numba func + **kwargs + additional arguments for rolling function and window function + + Returns + ------- + y : type of input + """ + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + + def homogeneous_func(values: np.ndarray): + # calculation function + + if values.size == 0: + return values.copy() + + def calc(x): + start, end = window_indexer.get_window_bounds( + num_values=len(x), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + self._check_window_bounds(start, end, len(x)) + + return func(x, start, end, min_periods, *numba_args) + + with np.errstate(all="ignore"): + result = calc(values) + + return result + + if self.method == "single": + return self._apply_columnwise(homogeneous_func, name, numeric_only) + else: + return self._apply_tablewise(homogeneous_func, name, numeric_only) + + def _numba_apply( + self, + func: Callable[..., Any], + engine_kwargs: dict[str, bool] | None = None, + **func_kwargs, + ): + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + obj = self._create_data(self._selected_obj) + if self.axis == 1: + obj = obj.T + values = self._prep_values(obj.to_numpy()) + if values.ndim == 1: + values = values.reshape(-1, 1) + start, end = window_indexer.get_window_bounds( + num_values=len(values), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + self._check_window_bounds(start, end, len(values)) + # For now, map everything to float to match the Cython impl + # even though it is wrong + # TODO: Could preserve correct dtypes in future + # xref #53214 + dtype_mapping = executor.float_dtype_mapping + aggregator = executor.generate_shared_aggregator( + func, + dtype_mapping, + is_grouped_kernel=False, + **get_jit_arguments(engine_kwargs), + ) + result = aggregator( + values.T, start=start, end=end, min_periods=min_periods, **func_kwargs + ).T + result = result.T if self.axis == 1 else result + index = self._slice_axis_for_step(obj.index, result) + if obj.ndim == 1: + result = result.squeeze() + out = obj._constructor(result, index=index, name=obj.name) + return out + else: + columns = self._slice_axis_for_step(obj.columns, result.T) + out = obj._constructor(result, index=index, columns=columns) + return self._resolve_output(out, obj) + + def aggregate(self, func, *args, **kwargs): + result = ResamplerWindowApply(self, func, args=args, kwargs=kwargs).agg() + if result is None: + return self.apply(func, raw=False, args=args, kwargs=kwargs) + return result + + agg = aggregate + + +class BaseWindowGroupby(BaseWindow): + """ + Provide the groupby windowing facilities. + """ + + _grouper: BaseGrouper + _as_index: bool + _attributes: list[str] = ["_grouper"] + + def __init__( + self, + obj: DataFrame | Series, + *args, + _grouper: BaseGrouper, + _as_index: bool = True, + **kwargs, + ) -> None: + from pandas.core.groupby.ops import BaseGrouper + + if not isinstance(_grouper, BaseGrouper): + raise ValueError("Must pass a BaseGrouper object.") + self._grouper = _grouper + self._as_index = _as_index + # GH 32262: It's convention to keep the grouping column in + # groupby., but unexpected to users in + # groupby.rolling. + obj = obj.drop(columns=self._grouper.names, errors="ignore") + # GH 15354 + if kwargs.get("step") is not None: + raise NotImplementedError("step not implemented for groupby") + super().__init__(obj, *args, **kwargs) + + def _apply( + self, + func: Callable[..., Any], + name: str, + numeric_only: bool = False, + numba_args: tuple[Any, ...] = (), + **kwargs, + ) -> DataFrame | Series: + result = super()._apply( + func, + name, + numeric_only, + numba_args, + **kwargs, + ) + # Reconstruct the resulting MultiIndex + # 1st set of levels = group by labels + # 2nd set of levels = original DataFrame/Series index + grouped_object_index = self.obj.index + grouped_index_name = [*grouped_object_index.names] + groupby_keys = copy.copy(self._grouper.names) + result_index_names = groupby_keys + grouped_index_name + + drop_columns = [ + key + for key in self._grouper.names + if key not in self.obj.index.names or key is None + ] + + if len(drop_columns) != len(groupby_keys): + # Our result will have still kept the column in the result + result = result.drop(columns=drop_columns, errors="ignore") + + codes = self._grouper.codes + levels = copy.copy(self._grouper.levels) + + group_indices = self._grouper.indices.values() + if group_indices: + indexer = np.concatenate(list(group_indices)) + else: + indexer = np.array([], dtype=np.intp) + codes = [c.take(indexer) for c in codes] + + # if the index of the original dataframe needs to be preserved, append + # this index (but reordered) to the codes/levels from the groupby + if grouped_object_index is not None: + idx = grouped_object_index.take(indexer) + if not isinstance(idx, MultiIndex): + idx = MultiIndex.from_arrays([idx]) + codes.extend(list(idx.codes)) + levels.extend(list(idx.levels)) + + result_index = MultiIndex( + levels, codes, names=result_index_names, verify_integrity=False + ) + + result.index = result_index + if not self._as_index: + result = result.reset_index(level=list(range(len(groupby_keys)))) + return result + + def _apply_pairwise( + self, + target: DataFrame | Series, + other: DataFrame | Series | None, + pairwise: bool | None, + func: Callable[[DataFrame | Series, DataFrame | Series], DataFrame | Series], + numeric_only: bool, + ) -> DataFrame | Series: + """ + Apply the given pairwise function given 2 pandas objects (DataFrame/Series) + """ + # Manually drop the grouping column first + target = target.drop(columns=self._grouper.names, errors="ignore") + result = super()._apply_pairwise(target, other, pairwise, func, numeric_only) + # 1) Determine the levels + codes of the groupby levels + if other is not None and not all( + len(group) == len(other) for group in self._grouper.indices.values() + ): + # GH 42915 + # len(other) != len(any group), so must reindex (expand) the result + # from flex_binary_moment to a "transform"-like result + # per groupby combination + old_result_len = len(result) + result = concat( + [ + result.take(gb_indices).reindex(result.index) + for gb_indices in self._grouper.indices.values() + ] + ) + + gb_pairs = ( + com.maybe_make_list(pair) for pair in self._grouper.indices.keys() + ) + groupby_codes = [] + groupby_levels = [] + # e.g. [[1, 2], [4, 5]] as [[1, 4], [2, 5]] + for gb_level_pair in map(list, zip(*gb_pairs)): + labels = np.repeat(np.array(gb_level_pair), old_result_len) + codes, levels = factorize(labels) + groupby_codes.append(codes) + groupby_levels.append(levels) + else: + # pairwise=True or len(other) == len(each group), so repeat + # the groupby labels by the number of columns in the original object + groupby_codes = self._grouper.codes + # error: Incompatible types in assignment (expression has type + # "List[Index]", variable has type "List[Union[ndarray, Index]]") + groupby_levels = self._grouper.levels # type: ignore[assignment] + + group_indices = self._grouper.indices.values() + if group_indices: + indexer = np.concatenate(list(group_indices)) + else: + indexer = np.array([], dtype=np.intp) + + if target.ndim == 1: + repeat_by = 1 + else: + repeat_by = len(target.columns) + groupby_codes = [ + np.repeat(c.take(indexer), repeat_by) for c in groupby_codes + ] + # 2) Determine the levels + codes of the result from super()._apply_pairwise + if isinstance(result.index, MultiIndex): + result_codes = list(result.index.codes) + result_levels = list(result.index.levels) + result_names = list(result.index.names) + else: + idx_codes, idx_levels = factorize(result.index) + result_codes = [idx_codes] + result_levels = [idx_levels] + result_names = [result.index.name] + + # 3) Create the resulting index by combining 1) + 2) + result_codes = groupby_codes + result_codes + result_levels = groupby_levels + result_levels + result_names = self._grouper.names + result_names + + result_index = MultiIndex( + result_levels, result_codes, names=result_names, verify_integrity=False + ) + result.index = result_index + return result + + def _create_data(self, obj: NDFrameT, numeric_only: bool = False) -> NDFrameT: + """ + Split data into blocks & return conformed data. + """ + # Ensure the object we're rolling over is monotonically sorted relative + # to the groups + # GH 36197 + if not obj.empty: + groupby_order = np.concatenate(list(self._grouper.indices.values())).astype( + np.int64 + ) + obj = obj.take(groupby_order) + return super()._create_data(obj, numeric_only) + + def _gotitem(self, key, ndim, subset=None): + # we are setting the index on the actual object + # here so our index is carried through to the selected obj + # when we do the splitting for the groupby + if self.on is not None: + # GH 43355 + subset = self.obj.set_index(self._on) + return super()._gotitem(key, ndim, subset=subset) + + +class Window(BaseWindow): + """ + Provide rolling window calculations. + + Parameters + ---------- + window : int, timedelta, str, offset, or BaseIndexer subclass + Size of the moving window. + + If an integer, the fixed number of observations used for + each window. + + If a timedelta, str, or offset, the time period of each window. Each + window will be a variable sized based on the observations included in + the time-period. This is only valid for datetimelike indexes. + To learn more about the offsets & frequency strings, please see `this link + `__. + + If a BaseIndexer subclass, the window boundaries + based on the defined ``get_window_bounds`` method. Additional rolling + keyword arguments, namely ``min_periods``, ``center``, ``closed`` and + ``step`` will be passed to ``get_window_bounds``. + + min_periods : int, default None + Minimum number of observations in window required to have a value; + otherwise, result is ``np.nan``. + + For a window that is specified by an offset, ``min_periods`` will default to 1. + + For a window that is specified by an integer, ``min_periods`` will default + to the size of the window. + + center : bool, default False + If False, set the window labels as the right edge of the window index. + + If True, set the window labels as the center of the window index. + + win_type : str, default None + If ``None``, all points are evenly weighted. + + If a string, it must be a valid `scipy.signal window function + `__. + + Certain Scipy window types require additional parameters to be passed + in the aggregation function. The additional parameters must match + the keywords specified in the Scipy window type method signature. + + on : str, optional + For a DataFrame, a column label or Index level on which + to calculate the rolling window, rather than the DataFrame's index. + + Provided integer column is ignored and excluded from result since + an integer index is not used to calculate the rolling window. + + axis : int or str, default 0 + If ``0`` or ``'index'``, roll across the rows. + + If ``1`` or ``'columns'``, roll across the columns. + + For `Series` this parameter is unused and defaults to 0. + + .. deprecated:: 2.1.0 + + The axis keyword is deprecated. For ``axis=1``, + transpose the DataFrame first instead. + + closed : str, default None + If ``'right'``, the first point in the window is excluded from calculations. + + If ``'left'``, the last point in the window is excluded from calculations. + + If ``'both'``, the no points in the window are excluded from calculations. + + If ``'neither'``, the first and last points in the window are excluded + from calculations. + + Default ``None`` (``'right'``). + + step : int, default None + + .. versionadded:: 1.5.0 + + Evaluate the window at every ``step`` result, equivalent to slicing as + ``[::step]``. ``window`` must be an integer. Using a step argument other + than None or 1 will produce a result with a different shape than the input. + + method : str {'single', 'table'}, default 'single' + + .. versionadded:: 1.3.0 + + Execute the rolling operation per single column or row (``'single'``) + or over the entire object (``'table'``). + + This argument is only implemented when specifying ``engine='numba'`` + in the method call. + + Returns + ------- + pandas.api.typing.Window or pandas.api.typing.Rolling + An instance of Window is returned if ``win_type`` is passed. Otherwise, + an instance of Rolling is returned. + + See Also + -------- + expanding : Provides expanding transformations. + ewm : Provides exponential weighted functions. + + Notes + ----- + See :ref:`Windowing Operations ` for further usage details + and examples. + + Examples + -------- + >>> df = pd.DataFrame({'B': [0, 1, 2, np.nan, 4]}) + >>> df + B + 0 0.0 + 1 1.0 + 2 2.0 + 3 NaN + 4 4.0 + + **window** + + Rolling sum with a window length of 2 observations. + + >>> df.rolling(2).sum() + B + 0 NaN + 1 1.0 + 2 3.0 + 3 NaN + 4 NaN + + Rolling sum with a window span of 2 seconds. + + >>> df_time = pd.DataFrame({'B': [0, 1, 2, np.nan, 4]}, + ... index=[pd.Timestamp('20130101 09:00:00'), + ... pd.Timestamp('20130101 09:00:02'), + ... pd.Timestamp('20130101 09:00:03'), + ... pd.Timestamp('20130101 09:00:05'), + ... pd.Timestamp('20130101 09:00:06')]) + + >>> df_time + B + 2013-01-01 09:00:00 0.0 + 2013-01-01 09:00:02 1.0 + 2013-01-01 09:00:03 2.0 + 2013-01-01 09:00:05 NaN + 2013-01-01 09:00:06 4.0 + + >>> df_time.rolling('2s').sum() + B + 2013-01-01 09:00:00 0.0 + 2013-01-01 09:00:02 1.0 + 2013-01-01 09:00:03 3.0 + 2013-01-01 09:00:05 NaN + 2013-01-01 09:00:06 4.0 + + Rolling sum with forward looking windows with 2 observations. + + >>> indexer = pd.api.indexers.FixedForwardWindowIndexer(window_size=2) + >>> df.rolling(window=indexer, min_periods=1).sum() + B + 0 1.0 + 1 3.0 + 2 2.0 + 3 4.0 + 4 4.0 + + **min_periods** + + Rolling sum with a window length of 2 observations, but only needs a minimum of 1 + observation to calculate a value. + + >>> df.rolling(2, min_periods=1).sum() + B + 0 0.0 + 1 1.0 + 2 3.0 + 3 2.0 + 4 4.0 + + **center** + + Rolling sum with the result assigned to the center of the window index. + + >>> df.rolling(3, min_periods=1, center=True).sum() + B + 0 1.0 + 1 3.0 + 2 3.0 + 3 6.0 + 4 4.0 + + >>> df.rolling(3, min_periods=1, center=False).sum() + B + 0 0.0 + 1 1.0 + 2 3.0 + 3 3.0 + 4 6.0 + + **step** + + Rolling sum with a window length of 2 observations, minimum of 1 observation to + calculate a value, and a step of 2. + + >>> df.rolling(2, min_periods=1, step=2).sum() + B + 0 0.0 + 2 3.0 + 4 4.0 + + **win_type** + + Rolling sum with a window length of 2, using the Scipy ``'gaussian'`` + window type. ``std`` is required in the aggregation function. + + >>> df.rolling(2, win_type='gaussian').sum(std=3) + B + 0 NaN + 1 0.986207 + 2 2.958621 + 3 NaN + 4 NaN + + **on** + + Rolling sum with a window length of 2 days. + + >>> df = pd.DataFrame({ + ... 'A': [pd.to_datetime('2020-01-01'), + ... pd.to_datetime('2020-01-01'), + ... pd.to_datetime('2020-01-02'),], + ... 'B': [1, 2, 3], }, + ... index=pd.date_range('2020', periods=3)) + + >>> df + A B + 2020-01-01 2020-01-01 1 + 2020-01-02 2020-01-01 2 + 2020-01-03 2020-01-02 3 + + >>> df.rolling('2D', on='A').sum() + A B + 2020-01-01 2020-01-01 1.0 + 2020-01-02 2020-01-01 3.0 + 2020-01-03 2020-01-02 6.0 + """ + + _attributes = [ + "window", + "min_periods", + "center", + "win_type", + "axis", + "on", + "closed", + "step", + "method", + ] + + def _validate(self): + super()._validate() + + if not isinstance(self.win_type, str): + raise ValueError(f"Invalid win_type {self.win_type}") + signal = import_optional_dependency( + "scipy.signal.windows", extra="Scipy is required to generate window weight." + ) + self._scipy_weight_generator = getattr(signal, self.win_type, None) + if self._scipy_weight_generator is None: + raise ValueError(f"Invalid win_type {self.win_type}") + + if isinstance(self.window, BaseIndexer): + raise NotImplementedError( + "BaseIndexer subclasses not implemented with win_types." + ) + if not is_integer(self.window) or self.window < 0: + raise ValueError("window must be an integer 0 or greater") + + if self.method != "single": + raise NotImplementedError("'single' is the only supported method type.") + + def _center_window(self, result: np.ndarray, offset: int) -> np.ndarray: + """ + Center the result in the window for weighted rolling aggregations. + """ + if offset > 0: + lead_indexer = [slice(offset, None)] + result = np.copy(result[tuple(lead_indexer)]) + return result + + def _apply( + self, + func: Callable[[np.ndarray, int, int], np.ndarray], + name: str, + numeric_only: bool = False, + numba_args: tuple[Any, ...] = (), + **kwargs, + ): + """ + Rolling with weights statistical measure using supplied function. + + Designed to be used with passed-in Cython array-based functions. + + Parameters + ---------- + func : callable function to apply + name : str, + numeric_only : bool, default False + Whether to only operate on bool, int, and float columns + numba_args : tuple + unused + **kwargs + additional arguments for scipy windows if necessary + + Returns + ------- + y : type of input + """ + # "None" not callable [misc] + window = self._scipy_weight_generator( # type: ignore[misc] + self.window, **kwargs + ) + offset = (len(window) - 1) // 2 if self.center else 0 + + def homogeneous_func(values: np.ndarray): + # calculation function + + if values.size == 0: + return values.copy() + + def calc(x): + additional_nans = np.array([np.nan] * offset) + x = np.concatenate((x, additional_nans)) + return func( + x, + window, + self.min_periods if self.min_periods is not None else len(window), + ) + + with np.errstate(all="ignore"): + # Our weighted aggregations return memoryviews + result = np.asarray(calc(values)) + + if self.center: + result = self._center_window(result, offset) + + return result + + return self._apply_columnwise(homogeneous_func, name, numeric_only)[ + :: self.step + ] + + @doc( + _shared_docs["aggregate"], + see_also=dedent( + """ + See Also + -------- + pandas.DataFrame.aggregate : Similar DataFrame method. + pandas.Series.aggregate : Similar Series method. + """ + ), + examples=dedent( + """ + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + >>> df + A B C + 0 1 4 7 + 1 2 5 8 + 2 3 6 9 + + >>> df.rolling(2, win_type="boxcar").agg("mean") + A B C + 0 NaN NaN NaN + 1 1.5 4.5 7.5 + 2 2.5 5.5 8.5 + """ + ), + klass="Series/DataFrame", + axis="", + ) + def aggregate(self, func, *args, **kwargs): + result = ResamplerWindowApply(self, func, args=args, kwargs=kwargs).agg() + if result is None: + # these must apply directly + result = func(self) + + return result + + agg = aggregate + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + kwargs_scipy, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([0, 1, 5, 2, 8]) + + To get an instance of :class:`~pandas.core.window.rolling.Window` we need + to pass the parameter `win_type`. + + >>> type(ser.rolling(2, win_type='gaussian')) + + + In order to use the `SciPy` Gaussian window we need to provide the parameters + `M` and `std`. The parameter `M` corresponds to 2 in our example. + We pass the second parameter `std` as a parameter of the following method + (`sum` in this case): + + >>> ser.rolling(2, win_type='gaussian').sum(std=3) + 0 NaN + 1 0.986207 + 2 5.917243 + 3 6.903450 + 4 9.862071 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="weighted window sum", + agg_method="sum", + ) + def sum(self, numeric_only: bool = False, **kwargs): + window_func = window_aggregations.roll_weighted_sum + # error: Argument 1 to "_apply" of "Window" has incompatible type + # "Callable[[ndarray, ndarray, int], ndarray]"; expected + # "Callable[[ndarray, int, int], ndarray]" + return self._apply( + window_func, # type: ignore[arg-type] + name="sum", + numeric_only=numeric_only, + **kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + kwargs_scipy, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([0, 1, 5, 2, 8]) + + To get an instance of :class:`~pandas.core.window.rolling.Window` we need + to pass the parameter `win_type`. + + >>> type(ser.rolling(2, win_type='gaussian')) + + + In order to use the `SciPy` Gaussian window we need to provide the parameters + `M` and `std`. The parameter `M` corresponds to 2 in our example. + We pass the second parameter `std` as a parameter of the following method: + + >>> ser.rolling(2, win_type='gaussian').mean(std=3) + 0 NaN + 1 0.5 + 2 3.0 + 3 3.5 + 4 5.0 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="weighted window mean", + agg_method="mean", + ) + def mean(self, numeric_only: bool = False, **kwargs): + window_func = window_aggregations.roll_weighted_mean + # error: Argument 1 to "_apply" of "Window" has incompatible type + # "Callable[[ndarray, ndarray, int], ndarray]"; expected + # "Callable[[ndarray, int, int], ndarray]" + return self._apply( + window_func, # type: ignore[arg-type] + name="mean", + numeric_only=numeric_only, + **kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + kwargs_scipy, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([0, 1, 5, 2, 8]) + + To get an instance of :class:`~pandas.core.window.rolling.Window` we need + to pass the parameter `win_type`. + + >>> type(ser.rolling(2, win_type='gaussian')) + + + In order to use the `SciPy` Gaussian window we need to provide the parameters + `M` and `std`. The parameter `M` corresponds to 2 in our example. + We pass the second parameter `std` as a parameter of the following method: + + >>> ser.rolling(2, win_type='gaussian').var(std=3) + 0 NaN + 1 0.5 + 2 8.0 + 3 4.5 + 4 18.0 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="weighted window variance", + agg_method="var", + ) + def var(self, ddof: int = 1, numeric_only: bool = False, **kwargs): + window_func = partial(window_aggregations.roll_weighted_var, ddof=ddof) + kwargs.pop("name", None) + return self._apply(window_func, name="var", numeric_only=numeric_only, **kwargs) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + kwargs_scipy, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([0, 1, 5, 2, 8]) + + To get an instance of :class:`~pandas.core.window.rolling.Window` we need + to pass the parameter `win_type`. + + >>> type(ser.rolling(2, win_type='gaussian')) + + + In order to use the `SciPy` Gaussian window we need to provide the parameters + `M` and `std`. The parameter `M` corresponds to 2 in our example. + We pass the second parameter `std` as a parameter of the following method: + + >>> ser.rolling(2, win_type='gaussian').std(std=3) + 0 NaN + 1 0.707107 + 2 2.828427 + 3 2.121320 + 4 4.242641 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="weighted window standard deviation", + agg_method="std", + ) + def std(self, ddof: int = 1, numeric_only: bool = False, **kwargs): + return zsqrt( + self.var(ddof=ddof, name="std", numeric_only=numeric_only, **kwargs) + ) + + +class RollingAndExpandingMixin(BaseWindow): + def count(self, numeric_only: bool = False): + window_func = window_aggregations.roll_sum + return self._apply(window_func, name="count", numeric_only=numeric_only) + + def apply( + self, + func: Callable[..., Any], + raw: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + args: tuple[Any, ...] | None = None, + kwargs: dict[str, Any] | None = None, + ): + if args is None: + args = () + if kwargs is None: + kwargs = {} + + if not is_bool(raw): + raise ValueError("raw parameter must be `True` or `False`") + + numba_args: tuple[Any, ...] = () + if maybe_use_numba(engine): + if raw is False: + raise ValueError("raw must be `True` when using the numba engine") + numba_args = args + if self.method == "single": + apply_func = generate_numba_apply_func( + func, **get_jit_arguments(engine_kwargs, kwargs) + ) + else: + apply_func = generate_numba_table_func( + func, **get_jit_arguments(engine_kwargs, kwargs) + ) + elif engine in ("cython", None): + if engine_kwargs is not None: + raise ValueError("cython engine does not accept engine_kwargs") + apply_func = self._generate_cython_apply_func(args, kwargs, raw, func) + else: + raise ValueError("engine must be either 'numba' or 'cython'") + + return self._apply( + apply_func, + name="apply", + numba_args=numba_args, + ) + + def _generate_cython_apply_func( + self, + args: tuple[Any, ...], + kwargs: dict[str, Any], + raw: bool | np.bool_, + function: Callable[..., Any], + ) -> Callable[[np.ndarray, np.ndarray, np.ndarray, int], np.ndarray]: + from pandas import Series + + window_func = partial( + window_aggregations.roll_apply, + args=args, + kwargs=kwargs, + raw=raw, + function=function, + ) + + def apply_func(values, begin, end, min_periods, raw=raw): + if not raw: + # GH 45912 + values = Series(values, index=self._on, copy=False) + return window_func(values, begin, end, min_periods) + + return apply_func + + def sum( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + func = generate_manual_numpy_nan_agg_with_axis(np.nansum) + return self.apply( + func, + raw=True, + engine=engine, + engine_kwargs=engine_kwargs, + ) + else: + from pandas.core._numba.kernels import sliding_sum + + return self._numba_apply(sliding_sum, engine_kwargs) + window_func = window_aggregations.roll_sum + return self._apply(window_func, name="sum", numeric_only=numeric_only) + + def max( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + func = generate_manual_numpy_nan_agg_with_axis(np.nanmax) + return self.apply( + func, + raw=True, + engine=engine, + engine_kwargs=engine_kwargs, + ) + else: + from pandas.core._numba.kernels import sliding_min_max + + return self._numba_apply(sliding_min_max, engine_kwargs, is_max=True) + window_func = window_aggregations.roll_max + return self._apply(window_func, name="max", numeric_only=numeric_only) + + def min( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + func = generate_manual_numpy_nan_agg_with_axis(np.nanmin) + return self.apply( + func, + raw=True, + engine=engine, + engine_kwargs=engine_kwargs, + ) + else: + from pandas.core._numba.kernels import sliding_min_max + + return self._numba_apply(sliding_min_max, engine_kwargs, is_max=False) + window_func = window_aggregations.roll_min + return self._apply(window_func, name="min", numeric_only=numeric_only) + + def mean( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + func = generate_manual_numpy_nan_agg_with_axis(np.nanmean) + return self.apply( + func, + raw=True, + engine=engine, + engine_kwargs=engine_kwargs, + ) + else: + from pandas.core._numba.kernels import sliding_mean + + return self._numba_apply(sliding_mean, engine_kwargs) + window_func = window_aggregations.roll_mean + return self._apply(window_func, name="mean", numeric_only=numeric_only) + + def median( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + func = generate_manual_numpy_nan_agg_with_axis(np.nanmedian) + else: + func = np.nanmedian + + return self.apply( + func, + raw=True, + engine=engine, + engine_kwargs=engine_kwargs, + ) + window_func = window_aggregations.roll_median_c + return self._apply(window_func, name="median", numeric_only=numeric_only) + + def std( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + raise NotImplementedError("std not supported with method='table'") + from pandas.core._numba.kernels import sliding_var + + return zsqrt(self._numba_apply(sliding_var, engine_kwargs, ddof=ddof)) + window_func = window_aggregations.roll_var + + def zsqrt_func(values, begin, end, min_periods): + return zsqrt(window_func(values, begin, end, min_periods, ddof=ddof)) + + return self._apply( + zsqrt_func, + name="std", + numeric_only=numeric_only, + ) + + def var( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + if maybe_use_numba(engine): + if self.method == "table": + raise NotImplementedError("var not supported with method='table'") + from pandas.core._numba.kernels import sliding_var + + return self._numba_apply(sliding_var, engine_kwargs, ddof=ddof) + window_func = partial(window_aggregations.roll_var, ddof=ddof) + return self._apply( + window_func, + name="var", + numeric_only=numeric_only, + ) + + def skew(self, numeric_only: bool = False): + window_func = window_aggregations.roll_skew + return self._apply( + window_func, + name="skew", + numeric_only=numeric_only, + ) + + def sem(self, ddof: int = 1, numeric_only: bool = False): + # Raise here so error message says sem instead of std + self._validate_numeric_only("sem", numeric_only) + return self.std(numeric_only=numeric_only) / ( + self.count(numeric_only=numeric_only) - ddof + ).pow(0.5) + + def kurt(self, numeric_only: bool = False): + window_func = window_aggregations.roll_kurt + return self._apply( + window_func, + name="kurt", + numeric_only=numeric_only, + ) + + def quantile( + self, + q: float, + interpolation: QuantileInterpolation = "linear", + numeric_only: bool = False, + ): + if q == 1.0: + window_func = window_aggregations.roll_max + elif q == 0.0: + window_func = window_aggregations.roll_min + else: + window_func = partial( + window_aggregations.roll_quantile, + quantile=q, + interpolation=interpolation, + ) + + return self._apply(window_func, name="quantile", numeric_only=numeric_only) + + def rank( + self, + method: WindowingRankType = "average", + ascending: bool = True, + pct: bool = False, + numeric_only: bool = False, + ): + window_func = partial( + window_aggregations.roll_rank, + method=method, + ascending=ascending, + percentile=pct, + ) + + return self._apply(window_func, name="rank", numeric_only=numeric_only) + + def cov( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + if self.step is not None: + raise NotImplementedError("step not implemented for cov") + self._validate_numeric_only("cov", numeric_only) + + from pandas import Series + + def cov_func(x, y): + x_array = self._prep_values(x) + y_array = self._prep_values(y) + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + start, end = window_indexer.get_window_bounds( + num_values=len(x_array), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + self._check_window_bounds(start, end, len(x_array)) + + with np.errstate(all="ignore"): + mean_x_y = window_aggregations.roll_mean( + x_array * y_array, start, end, min_periods + ) + mean_x = window_aggregations.roll_mean(x_array, start, end, min_periods) + mean_y = window_aggregations.roll_mean(y_array, start, end, min_periods) + count_x_y = window_aggregations.roll_sum( + notna(x_array + y_array).astype(np.float64), start, end, 0 + ) + result = (mean_x_y - mean_x * mean_y) * (count_x_y / (count_x_y - ddof)) + return Series(result, index=x.index, name=x.name, copy=False) + + return self._apply_pairwise( + self._selected_obj, other, pairwise, cov_func, numeric_only + ) + + def corr( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + if self.step is not None: + raise NotImplementedError("step not implemented for corr") + self._validate_numeric_only("corr", numeric_only) + + from pandas import Series + + def corr_func(x, y): + x_array = self._prep_values(x) + y_array = self._prep_values(y) + window_indexer = self._get_window_indexer() + min_periods = ( + self.min_periods + if self.min_periods is not None + else window_indexer.window_size + ) + start, end = window_indexer.get_window_bounds( + num_values=len(x_array), + min_periods=min_periods, + center=self.center, + closed=self.closed, + step=self.step, + ) + self._check_window_bounds(start, end, len(x_array)) + + with np.errstate(all="ignore"): + mean_x_y = window_aggregations.roll_mean( + x_array * y_array, start, end, min_periods + ) + mean_x = window_aggregations.roll_mean(x_array, start, end, min_periods) + mean_y = window_aggregations.roll_mean(y_array, start, end, min_periods) + count_x_y = window_aggregations.roll_sum( + notna(x_array + y_array).astype(np.float64), start, end, 0 + ) + x_var = window_aggregations.roll_var( + x_array, start, end, min_periods, ddof + ) + y_var = window_aggregations.roll_var( + y_array, start, end, min_periods, ddof + ) + numerator = (mean_x_y - mean_x * mean_y) * ( + count_x_y / (count_x_y - ddof) + ) + denominator = (x_var * y_var) ** 0.5 + result = numerator / denominator + return Series(result, index=x.index, name=x.name, copy=False) + + return self._apply_pairwise( + self._selected_obj, other, pairwise, corr_func, numeric_only + ) + + +class Rolling(RollingAndExpandingMixin): + _attributes: list[str] = [ + "window", + "min_periods", + "center", + "win_type", + "axis", + "on", + "closed", + "step", + "method", + ] + + def _validate(self): + super()._validate() + + # we allow rolling on a datetimelike index + if ( + self.obj.empty + or isinstance(self._on, (DatetimeIndex, TimedeltaIndex, PeriodIndex)) + or (isinstance(self._on.dtype, ArrowDtype) and self._on.dtype.kind in "mM") + ) and isinstance(self.window, (str, BaseOffset, timedelta)): + self._validate_datetimelike_monotonic() + + # this will raise ValueError on non-fixed freqs + try: + freq = to_offset(self.window) + except (TypeError, ValueError) as err: + raise ValueError( + f"passed window {self.window} is not " + "compatible with a datetimelike index" + ) from err + if isinstance(self._on, PeriodIndex): + # error: Incompatible types in assignment (expression has type + # "float", variable has type "Optional[int]") + self._win_freq_i8 = freq.nanos / ( # type: ignore[assignment] + self._on.freq.nanos / self._on.freq.n + ) + else: + try: + unit = dtype_to_unit(self._on.dtype) # type: ignore[arg-type] + except TypeError: + # if not a datetime dtype, eg for empty dataframes + unit = "ns" + self._win_freq_i8 = Timedelta(freq.nanos).as_unit(unit)._value + + # min_periods must be an integer + if self.min_periods is None: + self.min_periods = 1 + + if self.step is not None: + raise NotImplementedError( + "step is not supported with frequency windows" + ) + + elif isinstance(self.window, BaseIndexer): + # Passed BaseIndexer subclass should handle all other rolling kwargs + pass + elif not is_integer(self.window) or self.window < 0: + raise ValueError("window must be an integer 0 or greater") + + def _validate_datetimelike_monotonic(self) -> None: + """ + Validate self._on is monotonic (increasing or decreasing) and has + no NaT values for frequency windows. + """ + if self._on.hasnans: + self._raise_monotonic_error("values must not have NaT") + if not (self._on.is_monotonic_increasing or self._on.is_monotonic_decreasing): + self._raise_monotonic_error("values must be monotonic") + + def _raise_monotonic_error(self, msg: str): + on = self.on + if on is None: + if self.axis == 0: + on = "index" + else: + on = "column" + raise ValueError(f"{on} {msg}") + + @doc( + _shared_docs["aggregate"], + see_also=dedent( + """ + See Also + -------- + pandas.Series.rolling : Calling object with Series data. + pandas.DataFrame.rolling : Calling object with DataFrame data. + """ + ), + examples=dedent( + """ + Examples + -------- + >>> df = pd.DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + >>> df + A B C + 0 1 4 7 + 1 2 5 8 + 2 3 6 9 + + >>> df.rolling(2).sum() + A B C + 0 NaN NaN NaN + 1 3.0 9.0 15.0 + 2 5.0 11.0 17.0 + + >>> df.rolling(2).agg({"A": "sum", "B": "min"}) + A B + 0 NaN NaN + 1 3.0 4.0 + 2 5.0 5.0 + """ + ), + klass="Series/Dataframe", + axis="", + ) + def aggregate(self, func, *args, **kwargs): + return super().aggregate(func, *args, **kwargs) + + agg = aggregate + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([2, 3, np.nan, 10]) + >>> s.rolling(2).count() + 0 NaN + 1 2.0 + 2 1.0 + 3 1.0 + dtype: float64 + >>> s.rolling(3).count() + 0 NaN + 1 NaN + 2 2.0 + 3 2.0 + dtype: float64 + >>> s.rolling(4).count() + 0 NaN + 1 NaN + 2 NaN + 3 3.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="count of non NaN observations", + agg_method="count", + ) + def count(self, numeric_only: bool = False): + return super().count(numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + window_apply_parameters, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 6, 5, 4]) + >>> ser.rolling(2).apply(lambda s: s.sum() - s.min()) + 0 NaN + 1 6.0 + 2 6.0 + 3 5.0 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="custom aggregation function", + agg_method="apply", + ) + def apply( + self, + func: Callable[..., Any], + raw: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + args: tuple[Any, ...] | None = None, + kwargs: dict[str, Any] | None = None, + ): + return super().apply( + func, + raw=raw, + engine=engine, + engine_kwargs=engine_kwargs, + args=args, + kwargs=kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([1, 2, 3, 4, 5]) + >>> s + 0 1 + 1 2 + 2 3 + 3 4 + 4 5 + dtype: int64 + + >>> s.rolling(3).sum() + 0 NaN + 1 NaN + 2 6.0 + 3 9.0 + 4 12.0 + dtype: float64 + + >>> s.rolling(3, center=True).sum() + 0 NaN + 1 6.0 + 2 9.0 + 3 12.0 + 4 NaN + dtype: float64 + + For DataFrame, each sum is computed column-wise. + + >>> df = pd.DataFrame({{"A": s, "B": s ** 2}}) + >>> df + A B + 0 1 1 + 1 2 4 + 2 3 9 + 3 4 16 + 4 5 25 + + >>> df.rolling(3).sum() + A B + 0 NaN NaN + 1 NaN NaN + 2 6.0 14.0 + 3 9.0 29.0 + 4 12.0 50.0 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="sum", + agg_method="sum", + ) + def sum( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().sum( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 2, 3, 4]) + >>> ser.rolling(2).max() + 0 NaN + 1 2.0 + 2 3.0 + 3 4.0 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="maximum", + agg_method="max", + ) + def max( + self, + numeric_only: bool = False, + *args, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + **kwargs, + ): + return super().max( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """ + Performing a rolling minimum with a window size of 3. + + >>> s = pd.Series([4, 3, 5, 2, 6]) + >>> s.rolling(3).min() + 0 NaN + 1 NaN + 2 3.0 + 3 2.0 + 4 2.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="minimum", + agg_method="min", + ) + def min( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().min( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """ + The below examples will show rolling mean calculations with window sizes of + two and three, respectively. + + >>> s = pd.Series([1, 2, 3, 4]) + >>> s.rolling(2).mean() + 0 NaN + 1 1.5 + 2 2.5 + 3 3.5 + dtype: float64 + + >>> s.rolling(3).mean() + 0 NaN + 1 NaN + 2 2.0 + 3 3.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="mean", + agg_method="mean", + ) + def mean( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().mean( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + window_agg_numba_parameters(), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + numba_notes, + create_section_header("Examples"), + dedent( + """ + Compute the rolling median of a series with a window size of 3. + + >>> s = pd.Series([0, 1, 2, 3, 4]) + >>> s.rolling(3).median() + 0 NaN + 1 NaN + 2 1.0 + 3 2.0 + 4 3.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="median", + agg_method="median", + ) + def median( + self, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().median( + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + window_agg_numba_parameters("1.4"), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "numpy.std : Equivalent method for NumPy array.\n", + template_see_also, + create_section_header("Notes"), + dedent( + """ + The default ``ddof`` of 1 used in :meth:`Series.std` is different + than the default ``ddof`` of 0 in :func:`numpy.std`. + + A minimum of one period is required for the rolling calculation.\n + """ + ).replace("\n", "", 1), + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([5, 5, 6, 7, 5, 5, 5]) + >>> s.rolling(3).std() + 0 NaN + 1 NaN + 2 0.577350 + 3 1.000000 + 4 1.000000 + 5 1.154701 + 6 0.000000 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="standard deviation", + agg_method="std", + ) + def std( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().std( + ddof=ddof, + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + window_agg_numba_parameters("1.4"), + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "numpy.var : Equivalent method for NumPy array.\n", + template_see_also, + create_section_header("Notes"), + dedent( + """ + The default ``ddof`` of 1 used in :meth:`Series.var` is different + than the default ``ddof`` of 0 in :func:`numpy.var`. + + A minimum of one period is required for the rolling calculation.\n + """ + ).replace("\n", "", 1), + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([5, 5, 6, 7, 5, 5, 5]) + >>> s.rolling(3).var() + 0 NaN + 1 NaN + 2 0.333333 + 3 1.000000 + 4 1.000000 + 5 1.333333 + 6 0.000000 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="variance", + agg_method="var", + ) + def var( + self, + ddof: int = 1, + numeric_only: bool = False, + engine: Literal["cython", "numba"] | None = None, + engine_kwargs: dict[str, bool] | None = None, + ): + return super().var( + ddof=ddof, + numeric_only=numeric_only, + engine=engine, + engine_kwargs=engine_kwargs, + ) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "scipy.stats.skew : Third moment of a probability density.\n", + template_see_also, + create_section_header("Notes"), + dedent( + """ + A minimum of three periods is required for the rolling calculation.\n + """ + ), + create_section_header("Examples"), + dedent( + """\ + >>> ser = pd.Series([1, 5, 2, 7, 15, 6]) + >>> ser.rolling(3).skew().round(6) + 0 NaN + 1 NaN + 2 1.293343 + 3 -0.585583 + 4 0.670284 + 5 1.652317 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="unbiased skewness", + agg_method="skew", + ) + def skew(self, numeric_only: bool = False): + return super().skew(numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Notes"), + "A minimum of one period is required for the calculation.\n\n", + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([0, 1, 2, 3]) + >>> s.rolling(2, min_periods=1).sem() + 0 NaN + 1 0.707107 + 2 0.707107 + 3 0.707107 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="standard error of mean", + agg_method="sem", + ) + def sem(self, ddof: int = 1, numeric_only: bool = False): + # Raise here so error message says sem instead of std + self._validate_numeric_only("sem", numeric_only) + return self.std(numeric_only=numeric_only) / ( + self.count(numeric_only) - ddof + ).pow(0.5) + + @doc( + template_header, + create_section_header("Parameters"), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + "scipy.stats.kurtosis : Reference SciPy method.\n", + template_see_also, + create_section_header("Notes"), + "A minimum of four periods is required for the calculation.\n\n", + create_section_header("Examples"), + dedent( + """ + The example below will show a rolling calculation with a window size of + four matching the equivalent function call using `scipy.stats`. + + >>> arr = [1, 2, 3, 4, 999] + >>> import scipy.stats + >>> print(f"{{scipy.stats.kurtosis(arr[:-1], bias=False):.6f}}") + -1.200000 + >>> print(f"{{scipy.stats.kurtosis(arr[1:], bias=False):.6f}}") + 3.999946 + >>> s = pd.Series(arr) + >>> s.rolling(4).kurt() + 0 NaN + 1 NaN + 2 NaN + 3 -1.200000 + 4 3.999946 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="Fisher's definition of kurtosis without bias", + agg_method="kurt", + ) + def kurt(self, numeric_only: bool = False): + return super().kurt(numeric_only=numeric_only) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + quantile : float + Quantile to compute. 0 <= quantile <= 1. + + .. deprecated:: 2.1.0 + This will be renamed to 'q' in a future version. + interpolation : {{'linear', 'lower', 'higher', 'midpoint', 'nearest'}} + This optional parameter specifies the interpolation method to use, + when the desired quantile lies between two data points `i` and `j`: + + * linear: `i + (j - i) * fraction`, where `fraction` is the + fractional part of the index surrounded by `i` and `j`. + * lower: `i`. + * higher: `j`. + * nearest: `i` or `j` whichever is nearest. + * midpoint: (`i` + `j`) / 2. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([1, 2, 3, 4]) + >>> s.rolling(2).quantile(.4, interpolation='lower') + 0 NaN + 1 1.0 + 2 2.0 + 3 3.0 + dtype: float64 + + >>> s.rolling(2).quantile(.4, interpolation='midpoint') + 0 NaN + 1 1.5 + 2 2.5 + 3 3.5 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="quantile", + agg_method="quantile", + ) + @deprecate_kwarg(old_arg_name="quantile", new_arg_name="q") + def quantile( + self, + q: float, + interpolation: QuantileInterpolation = "linear", + numeric_only: bool = False, + ): + return super().quantile( + q=q, + interpolation=interpolation, + numeric_only=numeric_only, + ) + + @doc( + template_header, + ".. versionadded:: 1.4.0 \n\n", + create_section_header("Parameters"), + dedent( + """ + method : {{'average', 'min', 'max'}}, default 'average' + How to rank the group of records that have the same value (i.e. ties): + + * average: average rank of the group + * min: lowest rank in the group + * max: highest rank in the group + + ascending : bool, default True + Whether or not the elements should be ranked in ascending order. + pct : bool, default False + Whether or not to display the returned rankings in percentile + form. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """ + >>> s = pd.Series([1, 4, 2, 3, 5, 3]) + >>> s.rolling(3).rank() + 0 NaN + 1 NaN + 2 2.0 + 3 2.0 + 4 3.0 + 5 1.5 + dtype: float64 + + >>> s.rolling(3).rank(method="max") + 0 NaN + 1 NaN + 2 2.0 + 3 2.0 + 4 3.0 + 5 2.0 + dtype: float64 + + >>> s.rolling(3).rank(method="min") + 0 NaN + 1 NaN + 2 2.0 + 3 2.0 + 4 3.0 + 5 1.0 + dtype: float64 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="rank", + agg_method="rank", + ) + def rank( + self, + method: WindowingRankType = "average", + ascending: bool = True, + pct: bool = False, + numeric_only: bool = False, + ): + return super().rank( + method=method, + ascending=ascending, + pct=pct, + numeric_only=numeric_only, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + other : Series or DataFrame, optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndexed DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + template_see_also, + create_section_header("Examples"), + dedent( + """\ + >>> ser1 = pd.Series([1, 2, 3, 4]) + >>> ser2 = pd.Series([1, 4, 5, 8]) + >>> ser1.rolling(2).cov(ser2) + 0 NaN + 1 1.5 + 2 0.5 + 3 1.5 + dtype: float64 + """ + ), + window_method="rolling", + aggregation_description="sample covariance", + agg_method="cov", + ) + def cov( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + return super().cov( + other=other, + pairwise=pairwise, + ddof=ddof, + numeric_only=numeric_only, + ) + + @doc( + template_header, + create_section_header("Parameters"), + dedent( + """ + other : Series or DataFrame, optional + If not supplied then will default to self and produce pairwise + output. + pairwise : bool, default None + If False then only matching columns between self and other will be + used and the output will be a DataFrame. + If True then all pairwise combinations will be calculated and the + output will be a MultiIndexed DataFrame in the case of DataFrame + inputs. In the case of missing elements, only complete pairwise + observations will be used. + ddof : int, default 1 + Delta Degrees of Freedom. The divisor used in calculations + is ``N - ddof``, where ``N`` represents the number of elements. + """ + ).replace("\n", "", 1), + kwargs_numeric_only, + create_section_header("Returns"), + template_returns, + create_section_header("See Also"), + dedent( + """ + cov : Similar method to calculate covariance. + numpy.corrcoef : NumPy Pearson's correlation calculation. + """ + ).replace("\n", "", 1), + template_see_also, + create_section_header("Notes"), + dedent( + """ + This function uses Pearson's definition of correlation + (https://en.wikipedia.org/wiki/Pearson_correlation_coefficient). + + When `other` is not specified, the output will be self correlation (e.g. + all 1's), except for :class:`~pandas.DataFrame` inputs with `pairwise` + set to `True`. + + Function will return ``NaN`` for correlations of equal valued sequences; + this is the result of a 0/0 division error. + + When `pairwise` is set to `False`, only matching columns between `self` and + `other` will be used. + + When `pairwise` is set to `True`, the output will be a MultiIndex DataFrame + with the original index on the first level, and the `other` DataFrame + columns on the second level. + + In the case of missing elements, only complete pairwise observations + will be used.\n + """ + ).replace("\n", "", 1), + create_section_header("Examples"), + dedent( + """ + The below example shows a rolling calculation with a window size of + four matching the equivalent function call using :meth:`numpy.corrcoef`. + + >>> v1 = [3, 3, 3, 5, 8] + >>> v2 = [3, 4, 4, 4, 8] + >>> np.corrcoef(v1[:-1], v2[:-1]) + array([[1. , 0.33333333], + [0.33333333, 1. ]]) + >>> np.corrcoef(v1[1:], v2[1:]) + array([[1. , 0.9169493], + [0.9169493, 1. ]]) + >>> s1 = pd.Series(v1) + >>> s2 = pd.Series(v2) + >>> s1.rolling(4).corr(s2) + 0 NaN + 1 NaN + 2 NaN + 3 0.333333 + 4 0.916949 + dtype: float64 + + The below example shows a similar rolling calculation on a + DataFrame using the pairwise option. + + >>> matrix = np.array([[51., 35.], + ... [49., 30.], + ... [47., 32.], + ... [46., 31.], + ... [50., 36.]]) + >>> np.corrcoef(matrix[:-1, 0], matrix[:-1, 1]) + array([[1. , 0.6263001], + [0.6263001, 1. ]]) + >>> np.corrcoef(matrix[1:, 0], matrix[1:, 1]) + array([[1. , 0.55536811], + [0.55536811, 1. ]]) + >>> df = pd.DataFrame(matrix, columns=['X', 'Y']) + >>> df + X Y + 0 51.0 35.0 + 1 49.0 30.0 + 2 47.0 32.0 + 3 46.0 31.0 + 4 50.0 36.0 + >>> df.rolling(4).corr(pairwise=True) + X Y + 0 X NaN NaN + Y NaN NaN + 1 X NaN NaN + Y NaN NaN + 2 X NaN NaN + Y NaN NaN + 3 X 1.000000 0.626300 + Y 0.626300 1.000000 + 4 X 1.000000 0.555368 + Y 0.555368 1.000000 + """ + ).replace("\n", "", 1), + window_method="rolling", + aggregation_description="correlation", + agg_method="corr", + ) + def corr( + self, + other: DataFrame | Series | None = None, + pairwise: bool | None = None, + ddof: int = 1, + numeric_only: bool = False, + ): + return super().corr( + other=other, + pairwise=pairwise, + ddof=ddof, + numeric_only=numeric_only, + ) + + +Rolling.__doc__ = Window.__doc__ + + +class RollingGroupby(BaseWindowGroupby, Rolling): + """ + Provide a rolling groupby implementation. + """ + + _attributes = Rolling._attributes + BaseWindowGroupby._attributes + + def _get_window_indexer(self) -> GroupbyIndexer: + """ + Return an indexer class that will compute the window start and end bounds + + Returns + ------- + GroupbyIndexer + """ + rolling_indexer: type[BaseIndexer] + indexer_kwargs: dict[str, Any] | None = None + index_array = self._index_array + if isinstance(self.window, BaseIndexer): + rolling_indexer = type(self.window) + indexer_kwargs = self.window.__dict__.copy() + assert isinstance(indexer_kwargs, dict) # for mypy + # We'll be using the index of each group later + indexer_kwargs.pop("index_array", None) + window = self.window + elif self._win_freq_i8 is not None: + rolling_indexer = VariableWindowIndexer + # error: Incompatible types in assignment (expression has type + # "int", variable has type "BaseIndexer") + window = self._win_freq_i8 # type: ignore[assignment] + else: + rolling_indexer = FixedWindowIndexer + window = self.window + window_indexer = GroupbyIndexer( + index_array=index_array, + window_size=window, + groupby_indices=self._grouper.indices, + window_indexer=rolling_indexer, + indexer_kwargs=indexer_kwargs, + ) + return window_indexer + + def _validate_datetimelike_monotonic(self): + """ + Validate that each group in self._on is monotonic + """ + # GH 46061 + if self._on.hasnans: + self._raise_monotonic_error("values must not have NaT") + for group_indices in self._grouper.indices.values(): + group_on = self._on.take(group_indices) + if not ( + group_on.is_monotonic_increasing or group_on.is_monotonic_decreasing + ): + on = "index" if self.on is None else self.on + raise ValueError( + f"Each group within {on} must be monotonic. " + f"Sort the values in {on} first." + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_api.py new file mode 100644 index 0000000000000000000000000000000000000000..60bcb97aaa3642be064bcacd130edf2084c4a55c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_api.py @@ -0,0 +1,383 @@ +from __future__ import annotations + +import pytest + +import pandas as pd +from pandas import api +import pandas._testing as tm +from pandas.api import ( + extensions as api_extensions, + indexers as api_indexers, + interchange as api_interchange, + types as api_types, + typing as api_typing, +) + + +class Base: + def check(self, namespace, expected, ignored=None): + # see which names are in the namespace, minus optional + # ignored ones + # compare vs the expected + + result = sorted( + f for f in dir(namespace) if not f.startswith("__") and f != "annotations" + ) + if ignored is not None: + result = sorted(set(result) - set(ignored)) + + expected = sorted(expected) + tm.assert_almost_equal(result, expected) + + +class TestPDApi(Base): + # these are optionally imported based on testing + # & need to be ignored + ignored = ["tests", "locale", "conftest", "_version_meson"] + + # top-level sub-packages + public_lib = [ + "api", + "arrays", + "options", + "test", + "testing", + "errors", + "plotting", + "io", + "tseries", + ] + private_lib = ["compat", "core", "pandas", "util", "_built_with_meson"] + + # misc + misc = ["IndexSlice", "NaT", "NA"] + + # top-level classes + classes = [ + "ArrowDtype", + "Categorical", + "CategoricalIndex", + "DataFrame", + "DateOffset", + "DatetimeIndex", + "ExcelFile", + "ExcelWriter", + "Flags", + "Grouper", + "HDFStore", + "Index", + "MultiIndex", + "Period", + "PeriodIndex", + "RangeIndex", + "Series", + "SparseDtype", + "StringDtype", + "Timedelta", + "TimedeltaIndex", + "Timestamp", + "Interval", + "IntervalIndex", + "CategoricalDtype", + "PeriodDtype", + "IntervalDtype", + "DatetimeTZDtype", + "BooleanDtype", + "Int8Dtype", + "Int16Dtype", + "Int32Dtype", + "Int64Dtype", + "UInt8Dtype", + "UInt16Dtype", + "UInt32Dtype", + "UInt64Dtype", + "Float32Dtype", + "Float64Dtype", + "NamedAgg", + ] + + # these are already deprecated; awaiting removal + deprecated_classes: list[str] = [] + + # external modules exposed in pandas namespace + modules: list[str] = [] + + # top-level functions + funcs = [ + "array", + "bdate_range", + "concat", + "crosstab", + "cut", + "date_range", + "interval_range", + "eval", + "factorize", + "get_dummies", + "from_dummies", + "infer_freq", + "isna", + "isnull", + "lreshape", + "melt", + "notna", + "notnull", + "offsets", + "merge", + "merge_ordered", + "merge_asof", + "period_range", + "pivot", + "pivot_table", + "qcut", + "show_versions", + "timedelta_range", + "unique", + "value_counts", + "wide_to_long", + ] + + # top-level option funcs + funcs_option = [ + "reset_option", + "describe_option", + "get_option", + "option_context", + "set_option", + "set_eng_float_format", + ] + + # top-level read_* funcs + funcs_read = [ + "read_clipboard", + "read_csv", + "read_excel", + "read_fwf", + "read_gbq", + "read_hdf", + "read_html", + "read_xml", + "read_json", + "read_pickle", + "read_sas", + "read_sql", + "read_sql_query", + "read_sql_table", + "read_stata", + "read_table", + "read_feather", + "read_parquet", + "read_orc", + "read_spss", + ] + + # top-level json funcs + funcs_json = ["json_normalize"] + + # top-level to_* funcs + funcs_to = ["to_datetime", "to_numeric", "to_pickle", "to_timedelta"] + + # top-level to deprecate in the future + deprecated_funcs_in_future: list[str] = [] + + # these are already deprecated; awaiting removal + deprecated_funcs: list[str] = [] + + # private modules in pandas namespace + private_modules = [ + "_config", + "_libs", + "_is_numpy_dev", + "_pandas_datetime_CAPI", + "_pandas_parser_CAPI", + "_testing", + "_typing", + ] + if not pd._built_with_meson: + private_modules.append("_version") + + def test_api(self): + checkthese = ( + self.public_lib + + self.private_lib + + self.misc + + self.modules + + self.classes + + self.funcs + + self.funcs_option + + self.funcs_read + + self.funcs_json + + self.funcs_to + + self.private_modules + ) + self.check(namespace=pd, expected=checkthese, ignored=self.ignored) + + def test_api_all(self): + expected = set( + self.public_lib + + self.misc + + self.modules + + self.classes + + self.funcs + + self.funcs_option + + self.funcs_read + + self.funcs_json + + self.funcs_to + ) - set(self.deprecated_classes) + actual = set(pd.__all__) + + extraneous = actual - expected + assert not extraneous + + missing = expected - actual + assert not missing + + def test_depr(self): + deprecated_list = ( + self.deprecated_classes + + self.deprecated_funcs + + self.deprecated_funcs_in_future + ) + for depr in deprecated_list: + with tm.assert_produces_warning(FutureWarning): + _ = getattr(pd, depr) + + +class TestApi(Base): + allowed_api_dirs = [ + "types", + "extensions", + "indexers", + "interchange", + "typing", + ] + allowed_typing = [ + "DataFrameGroupBy", + "DatetimeIndexResamplerGroupby", + "Expanding", + "ExpandingGroupby", + "ExponentialMovingWindow", + "ExponentialMovingWindowGroupby", + "JsonReader", + "NaTType", + "NAType", + "PeriodIndexResamplerGroupby", + "Resampler", + "Rolling", + "RollingGroupby", + "SeriesGroupBy", + "StataReader", + "TimedeltaIndexResamplerGroupby", + "TimeGrouper", + "Window", + ] + allowed_api_types = [ + "is_any_real_numeric_dtype", + "is_array_like", + "is_bool", + "is_bool_dtype", + "is_categorical_dtype", + "is_complex", + "is_complex_dtype", + "is_datetime64_any_dtype", + "is_datetime64_dtype", + "is_datetime64_ns_dtype", + "is_datetime64tz_dtype", + "is_dict_like", + "is_dtype_equal", + "is_extension_array_dtype", + "is_file_like", + "is_float", + "is_float_dtype", + "is_hashable", + "is_int64_dtype", + "is_integer", + "is_integer_dtype", + "is_interval", + "is_interval_dtype", + "is_iterator", + "is_list_like", + "is_named_tuple", + "is_number", + "is_numeric_dtype", + "is_object_dtype", + "is_period_dtype", + "is_re", + "is_re_compilable", + "is_scalar", + "is_signed_integer_dtype", + "is_sparse", + "is_string_dtype", + "is_timedelta64_dtype", + "is_timedelta64_ns_dtype", + "is_unsigned_integer_dtype", + "pandas_dtype", + "infer_dtype", + "union_categoricals", + "CategoricalDtype", + "DatetimeTZDtype", + "IntervalDtype", + "PeriodDtype", + ] + allowed_api_interchange = ["from_dataframe", "DataFrame"] + allowed_api_indexers = [ + "check_array_indexer", + "BaseIndexer", + "FixedForwardWindowIndexer", + "VariableOffsetWindowIndexer", + ] + allowed_api_extensions = [ + "no_default", + "ExtensionDtype", + "register_extension_dtype", + "register_dataframe_accessor", + "register_index_accessor", + "register_series_accessor", + "take", + "ExtensionArray", + "ExtensionScalarOpsMixin", + ] + + def test_api(self): + self.check(api, self.allowed_api_dirs) + + def test_api_typing(self): + self.check(api_typing, self.allowed_typing) + + def test_api_types(self): + self.check(api_types, self.allowed_api_types) + + def test_api_interchange(self): + self.check(api_interchange, self.allowed_api_interchange) + + def test_api_indexers(self): + self.check(api_indexers, self.allowed_api_indexers) + + def test_api_extensions(self): + self.check(api_extensions, self.allowed_api_extensions) + + +class TestTesting(Base): + funcs = [ + "assert_frame_equal", + "assert_series_equal", + "assert_index_equal", + "assert_extension_array_equal", + ] + + def test_testing(self): + from pandas import testing + + self.check(testing, self.funcs) + + def test_util_in_top_level(self): + with pytest.raises(AttributeError, match="foo"): + pd.util.foo + + +def test_pandas_array_alias(): + msg = "PandasArray has been renamed NumpyExtensionArray" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = pd.arrays.PandasArray + + assert res is pd.arrays.NumpyExtensionArray diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_types.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_types.py new file mode 100644 index 0000000000000000000000000000000000000000..fbaa6e7e18bcaa9a574b741b5361818f1be01ecf --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/api/test_types.py @@ -0,0 +1,62 @@ +from __future__ import annotations + +import pandas._testing as tm +from pandas.api import types +from pandas.tests.api.test_api import Base + + +class TestTypes(Base): + allowed = [ + "is_any_real_numeric_dtype", + "is_bool", + "is_bool_dtype", + "is_categorical_dtype", + "is_complex", + "is_complex_dtype", + "is_datetime64_any_dtype", + "is_datetime64_dtype", + "is_datetime64_ns_dtype", + "is_datetime64tz_dtype", + "is_dtype_equal", + "is_float", + "is_float_dtype", + "is_int64_dtype", + "is_integer", + "is_integer_dtype", + "is_number", + "is_numeric_dtype", + "is_object_dtype", + "is_scalar", + "is_sparse", + "is_string_dtype", + "is_signed_integer_dtype", + "is_timedelta64_dtype", + "is_timedelta64_ns_dtype", + "is_unsigned_integer_dtype", + "is_period_dtype", + "is_interval", + "is_interval_dtype", + "is_re", + "is_re_compilable", + "is_dict_like", + "is_iterator", + "is_file_like", + "is_list_like", + "is_hashable", + "is_array_like", + "is_named_tuple", + "pandas_dtype", + "union_categoricals", + "infer_dtype", + "is_extension_array_dtype", + ] + deprecated: list[str] = [] + dtypes = ["CategoricalDtype", "DatetimeTZDtype", "PeriodDtype", "IntervalDtype"] + + def test_types(self): + self.check(types, self.allowed + self.dtypes + self.deprecated) + + def test_deprecated_from_api_types(self): + for t in self.deprecated: + with tm.assert_produces_warning(FutureWarning): + getattr(types, t)(1) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/common.py new file mode 100644 index 0000000000000000000000000000000000000000..b4d153df54059ca2a82f336e19afb4297eb218a2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/common.py @@ -0,0 +1,7 @@ +from pandas.core.groupby.base import transformation_kernels + +# There is no Series.cumcount or DataFrame.cumcount +series_transform_kernels = [ + x for x in sorted(transformation_kernels) if x != "cumcount" +] +frame_transform_kernels = [x for x in sorted(transformation_kernels) if x != "cumcount"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply.py new file mode 100644 index 0000000000000000000000000000000000000000..1a776892b7bb754e16aaa34e6dbe281b354ee751 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply.py @@ -0,0 +1,1739 @@ +from datetime import datetime +import warnings + +import numpy as np +import pytest + +from pandas.compat import is_platform_arm + +from pandas.core.dtypes.dtypes import CategoricalDtype + +import pandas as pd +from pandas import ( + DataFrame, + MultiIndex, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm +from pandas.tests.frame.common import zip_frames +from pandas.util.version import Version + + +@pytest.fixture +def int_frame_const_col(): + """ + Fixture for DataFrame of ints which are constant per column + + Columns are ['A', 'B', 'C'], with values (per column): [1, 2, 3] + """ + df = DataFrame( + np.tile(np.arange(3, dtype="int64"), 6).reshape(6, -1) + 1, + columns=["A", "B", "C"], + ) + return df + + +@pytest.fixture(params=["python", pytest.param("numba", marks=pytest.mark.single_cpu)]) +def engine(request): + if request.param == "numba": + pytest.importorskip("numba") + return request.param + + +def test_apply(float_frame, engine, request): + if engine == "numba": + mark = pytest.mark.xfail(reason="numba engine not supporting numpy ufunc yet") + request.node.add_marker(mark) + with np.errstate(all="ignore"): + # ufunc + result = np.sqrt(float_frame["A"]) + expected = float_frame.apply(np.sqrt, engine=engine)["A"] + tm.assert_series_equal(result, expected) + + # aggregator + result = float_frame.apply(np.mean, engine=engine)["A"] + expected = np.mean(float_frame["A"]) + assert result == expected + + d = float_frame.index[0] + result = float_frame.apply(np.mean, axis=1, engine=engine) + expected = np.mean(float_frame.xs(d)) + assert result[d] == expected + assert result.index is float_frame.index + + +@pytest.mark.parametrize("axis", [0, 1]) +@pytest.mark.parametrize("raw", [True, False]) +def test_apply_args(float_frame, axis, raw, engine, request): + if engine == "numba": + numba = pytest.importorskip("numba") + if Version(numba.__version__) == Version("0.61") and is_platform_arm(): + pytest.skip(f"Segfaults on ARM platforms with numba {numba.__version__}") + mark = pytest.mark.xfail(reason="numba engine doesn't support args") + request.node.add_marker(mark) + result = float_frame.apply( + lambda x, y: x + y, axis, args=(1,), raw=raw, engine=engine + ) + expected = float_frame + 1 + tm.assert_frame_equal(result, expected) + + +def test_apply_categorical_func(): + # GH 9573 + df = DataFrame({"c0": ["A", "A", "B", "B"], "c1": ["C", "C", "D", "D"]}) + result = df.apply(lambda ts: ts.astype("category")) + + assert result.shape == (4, 2) + assert isinstance(result["c0"].dtype, CategoricalDtype) + assert isinstance(result["c1"].dtype, CategoricalDtype) + + +def test_apply_axis1_with_ea(): + # GH#36785 + expected = DataFrame({"A": [Timestamp("2013-01-01", tz="UTC")]}) + result = expected.apply(lambda x: x, axis=1) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "data, dtype", + [(1, None), (1, CategoricalDtype([1])), (Timestamp("2013-01-01", tz="UTC"), None)], +) +def test_agg_axis1_duplicate_index(data, dtype): + # GH 42380 + expected = DataFrame([[data], [data]], index=["a", "a"], dtype=dtype) + result = expected.agg(lambda x: x, axis=1) + tm.assert_frame_equal(result, expected) + + +def test_apply_mixed_datetimelike(): + # mixed datetimelike + # GH 7778 + expected = DataFrame( + { + "A": date_range("20130101", periods=3), + "B": pd.to_timedelta(np.arange(3), unit="s"), + } + ) + result = expected.apply(lambda x: x, axis=1) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", [np.sqrt, np.mean]) +def test_apply_empty(func, engine): + # empty + empty_frame = DataFrame() + + result = empty_frame.apply(func, engine=engine) + assert result.empty + + +def test_apply_float_frame(float_frame, engine): + no_rows = float_frame[:0] + result = no_rows.apply(lambda x: x.mean(), engine=engine) + expected = Series(np.nan, index=float_frame.columns) + tm.assert_series_equal(result, expected) + + no_cols = float_frame.loc[:, []] + result = no_cols.apply(lambda x: x.mean(), axis=1, engine=engine) + expected = Series(np.nan, index=float_frame.index) + tm.assert_series_equal(result, expected) + + +def test_apply_empty_except_index(engine): + # GH 2476 + expected = DataFrame(index=["a"]) + result = expected.apply(lambda x: x["a"], axis=1, engine=engine) + tm.assert_frame_equal(result, expected) + + +def test_apply_with_reduce_empty(): + # reduce with an empty DataFrame + empty_frame = DataFrame() + + x = [] + result = empty_frame.apply(x.append, axis=1, result_type="expand") + tm.assert_frame_equal(result, empty_frame) + result = empty_frame.apply(x.append, axis=1, result_type="reduce") + expected = Series([], dtype=np.float64) + tm.assert_series_equal(result, expected) + + empty_with_cols = DataFrame(columns=["a", "b", "c"]) + result = empty_with_cols.apply(x.append, axis=1, result_type="expand") + tm.assert_frame_equal(result, empty_with_cols) + result = empty_with_cols.apply(x.append, axis=1, result_type="reduce") + expected = Series([], dtype=np.float64) + tm.assert_series_equal(result, expected) + + # Ensure that x.append hasn't been called + assert x == [] + + +@pytest.mark.parametrize("func", ["sum", "prod", "any", "all"]) +def test_apply_funcs_over_empty(func): + # GH 28213 + df = DataFrame(columns=["a", "b", "c"]) + + result = df.apply(getattr(np, func)) + expected = getattr(df, func)() + if func in ("sum", "prod"): + expected = expected.astype(float) + tm.assert_series_equal(result, expected) + + +def test_nunique_empty(): + # GH 28213 + df = DataFrame(columns=["a", "b", "c"]) + + result = df.nunique() + expected = Series(0, index=df.columns) + tm.assert_series_equal(result, expected) + + result = df.T.nunique() + expected = Series([], dtype=np.float64) + tm.assert_series_equal(result, expected) + + +def test_apply_standard_nonunique(): + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]], index=["a", "a", "c"]) + + result = df.apply(lambda s: s[0], axis=1) + expected = Series([1, 4, 7], ["a", "a", "c"]) + tm.assert_series_equal(result, expected) + + result = df.T.apply(lambda s: s[0], axis=0) + tm.assert_series_equal(result, expected) + + +def test_apply_broadcast_scalars(float_frame): + # scalars + result = float_frame.apply(np.mean, result_type="broadcast") + expected = DataFrame([float_frame.mean()], index=float_frame.index) + tm.assert_frame_equal(result, expected) + + +def test_apply_broadcast_scalars_axis1(float_frame): + result = float_frame.apply(np.mean, axis=1, result_type="broadcast") + m = float_frame.mean(axis=1) + expected = DataFrame({c: m for c in float_frame.columns}) + tm.assert_frame_equal(result, expected) + + +def test_apply_broadcast_lists_columns(float_frame): + # lists + result = float_frame.apply( + lambda x: list(range(len(float_frame.columns))), + axis=1, + result_type="broadcast", + ) + m = list(range(len(float_frame.columns))) + expected = DataFrame( + [m] * len(float_frame.index), + dtype="float64", + index=float_frame.index, + columns=float_frame.columns, + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_broadcast_lists_index(float_frame): + result = float_frame.apply( + lambda x: list(range(len(float_frame.index))), result_type="broadcast" + ) + m = list(range(len(float_frame.index))) + expected = DataFrame( + {c: m for c in float_frame.columns}, + dtype="float64", + index=float_frame.index, + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_broadcast_list_lambda_func(int_frame_const_col): + # preserve columns + df = int_frame_const_col + result = df.apply(lambda x: [1, 2, 3], axis=1, result_type="broadcast") + tm.assert_frame_equal(result, df) + + +def test_apply_broadcast_series_lambda_func(int_frame_const_col): + df = int_frame_const_col + result = df.apply( + lambda x: Series([1, 2, 3], index=list("abc")), + axis=1, + result_type="broadcast", + ) + expected = df.copy() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("axis", [0, 1]) +def test_apply_raw_float_frame(float_frame, axis, engine): + if engine == "numba": + pytest.skip("numba can't handle when UDF returns None.") + + def _assert_raw(x): + assert isinstance(x, np.ndarray) + assert x.ndim == 1 + + float_frame.apply(_assert_raw, axis=axis, engine=engine, raw=True) + + +@pytest.mark.parametrize("axis", [0, 1]) +def test_apply_raw_float_frame_lambda(float_frame, axis, engine): + result = float_frame.apply(np.mean, axis=axis, engine=engine, raw=True) + expected = float_frame.apply(lambda x: x.values.mean(), axis=axis) + tm.assert_series_equal(result, expected) + + +def test_apply_raw_float_frame_no_reduction(float_frame, engine): + # no reduction + result = float_frame.apply(lambda x: x * 2, engine=engine, raw=True) + expected = float_frame * 2 + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("axis", [0, 1]) +def test_apply_raw_mixed_type_frame(axis, engine): + if engine == "numba": + pytest.skip("isinstance check doesn't work with numba") + + def _assert_raw(x): + assert isinstance(x, np.ndarray) + assert x.ndim == 1 + + # Mixed dtype (GH-32423) + df = DataFrame( + { + "a": 1.0, + "b": 2, + "c": "foo", + "float32": np.array([1.0] * 10, dtype="float32"), + "int32": np.array([1] * 10, dtype="int32"), + }, + index=np.arange(10), + ) + df.apply(_assert_raw, axis=axis, engine=engine, raw=True) + + +def test_apply_axis1(float_frame): + d = float_frame.index[0] + result = float_frame.apply(np.mean, axis=1)[d] + expected = np.mean(float_frame.xs(d)) + assert result == expected + + +def test_apply_mixed_dtype_corner(): + df = DataFrame({"A": ["foo"], "B": [1.0]}) + result = df[:0].apply(np.mean, axis=1) + # the result here is actually kind of ambiguous, should it be a Series + # or a DataFrame? + expected = Series(np.nan, index=pd.Index([], dtype="int64")) + tm.assert_series_equal(result, expected) + + +def test_apply_mixed_dtype_corner_indexing(): + df = DataFrame({"A": ["foo"], "B": [1.0]}) + result = df.apply(lambda x: x["A"], axis=1) + expected = Series(["foo"], index=[0]) + tm.assert_series_equal(result, expected) + + result = df.apply(lambda x: x["B"], axis=1) + expected = Series([1.0], index=[0]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore::RuntimeWarning") +@pytest.mark.parametrize("ax", ["index", "columns"]) +@pytest.mark.parametrize( + "func", [lambda x: x, lambda x: x.mean()], ids=["identity", "mean"] +) +@pytest.mark.parametrize("raw", [True, False]) +@pytest.mark.parametrize("axis", [0, 1]) +def test_apply_empty_infer_type(ax, func, raw, axis, engine, request): + df = DataFrame(**{ax: ["a", "b", "c"]}) + + with np.errstate(all="ignore"): + test_res = func(np.array([], dtype="f8")) + is_reduction = not isinstance(test_res, np.ndarray) + + result = df.apply(func, axis=axis, engine=engine, raw=raw) + if is_reduction: + agg_axis = df._get_agg_axis(axis) + assert isinstance(result, Series) + assert result.index is agg_axis + else: + assert isinstance(result, DataFrame) + + +def test_apply_empty_infer_type_broadcast(): + no_cols = DataFrame(index=["a", "b", "c"]) + result = no_cols.apply(lambda x: x.mean(), result_type="broadcast") + assert isinstance(result, DataFrame) + + +def test_apply_with_args_kwds_add_some(float_frame): + def add_some(x, howmuch=0): + return x + howmuch + + result = float_frame.apply(add_some, howmuch=2) + expected = float_frame.apply(lambda x: x + 2) + tm.assert_frame_equal(result, expected) + + +def test_apply_with_args_kwds_agg_and_add(float_frame): + def agg_and_add(x, howmuch=0): + return x.mean() + howmuch + + result = float_frame.apply(agg_and_add, howmuch=2) + expected = float_frame.apply(lambda x: x.mean() + 2) + tm.assert_series_equal(result, expected) + + +def test_apply_with_args_kwds_subtract_and_divide(float_frame): + def subtract_and_divide(x, sub, divide=1): + return (x - sub) / divide + + result = float_frame.apply(subtract_and_divide, args=(2,), divide=2) + expected = float_frame.apply(lambda x: (x - 2.0) / 2.0) + tm.assert_frame_equal(result, expected) + + +def test_apply_yield_list(float_frame): + result = float_frame.apply(list) + tm.assert_frame_equal(result, float_frame) + + +def test_apply_reduce_Series(float_frame): + float_frame.iloc[::2, float_frame.columns.get_loc("A")] = np.nan + expected = float_frame.mean(1) + result = float_frame.apply(np.mean, axis=1) + tm.assert_series_equal(result, expected) + + +def test_apply_reduce_to_dict(): + # GH 25196 37544 + data = DataFrame([[1, 2], [3, 4]], columns=["c0", "c1"], index=["i0", "i1"]) + + result = data.apply(dict, axis=0) + expected = Series([{"i0": 1, "i1": 3}, {"i0": 2, "i1": 4}], index=data.columns) + tm.assert_series_equal(result, expected) + + result = data.apply(dict, axis=1) + expected = Series([{"c0": 1, "c1": 2}, {"c0": 3, "c1": 4}], index=data.index) + tm.assert_series_equal(result, expected) + + +def test_apply_differently_indexed(): + df = DataFrame(np.random.default_rng(2).standard_normal((20, 10))) + + result = df.apply(Series.describe, axis=0) + expected = DataFrame({i: v.describe() for i, v in df.items()}, columns=df.columns) + tm.assert_frame_equal(result, expected) + + result = df.apply(Series.describe, axis=1) + expected = DataFrame({i: v.describe() for i, v in df.T.items()}, columns=df.index).T + tm.assert_frame_equal(result, expected) + + +def test_apply_bug(): + # GH 6125 + positions = DataFrame( + [ + [1, "ABC0", 50], + [1, "YUM0", 20], + [1, "DEF0", 20], + [2, "ABC1", 50], + [2, "YUM1", 20], + [2, "DEF1", 20], + ], + columns=["a", "market", "position"], + ) + + def f(r): + return r["market"] + + expected = positions.apply(f, axis=1) + + positions = DataFrame( + [ + [datetime(2013, 1, 1), "ABC0", 50], + [datetime(2013, 1, 2), "YUM0", 20], + [datetime(2013, 1, 3), "DEF0", 20], + [datetime(2013, 1, 4), "ABC1", 50], + [datetime(2013, 1, 5), "YUM1", 20], + [datetime(2013, 1, 6), "DEF1", 20], + ], + columns=["a", "market", "position"], + ) + result = positions.apply(f, axis=1) + tm.assert_series_equal(result, expected) + + +def test_apply_convert_objects(): + expected = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + result = expected.apply(lambda x: x, axis=1) + tm.assert_frame_equal(result, expected) + + +def test_apply_attach_name(float_frame): + result = float_frame.apply(lambda x: x.name) + expected = Series(float_frame.columns, index=float_frame.columns) + tm.assert_series_equal(result, expected) + + +def test_apply_attach_name_axis1(float_frame): + result = float_frame.apply(lambda x: x.name, axis=1) + expected = Series(float_frame.index, index=float_frame.index) + tm.assert_series_equal(result, expected) + + +def test_apply_attach_name_non_reduction(float_frame): + # non-reductions + result = float_frame.apply(lambda x: np.repeat(x.name, len(x))) + expected = DataFrame( + np.tile(float_frame.columns, (len(float_frame.index), 1)), + index=float_frame.index, + columns=float_frame.columns, + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_attach_name_non_reduction_axis1(float_frame): + result = float_frame.apply(lambda x: np.repeat(x.name, len(x)), axis=1) + expected = Series( + np.repeat(t[0], len(float_frame.columns)) for t in float_frame.itertuples() + ) + expected.index = float_frame.index + tm.assert_series_equal(result, expected) + + +def test_apply_multi_index(): + index = MultiIndex.from_arrays([["a", "a", "b"], ["c", "d", "d"]]) + s = DataFrame([[1, 2], [3, 4], [5, 6]], index=index, columns=["col1", "col2"]) + result = s.apply(lambda x: Series({"min": min(x), "max": max(x)}), 1) + expected = DataFrame([[1, 2], [3, 4], [5, 6]], index=index, columns=["min", "max"]) + tm.assert_frame_equal(result, expected, check_like=True) + + +@pytest.mark.parametrize( + "df, dicts", + [ + [ + DataFrame([["foo", "bar"], ["spam", "eggs"]]), + Series([{0: "foo", 1: "spam"}, {0: "bar", 1: "eggs"}]), + ], + [DataFrame([[0, 1], [2, 3]]), Series([{0: 0, 1: 2}, {0: 1, 1: 3}])], + ], +) +def test_apply_dict(df, dicts): + # GH 8735 + fn = lambda x: x.to_dict() + reduce_true = df.apply(fn, result_type="reduce") + reduce_false = df.apply(fn, result_type="expand") + reduce_none = df.apply(fn) + + tm.assert_series_equal(reduce_true, dicts) + tm.assert_frame_equal(reduce_false, df) + tm.assert_series_equal(reduce_none, dicts) + + +def test_apply_non_numpy_dtype(): + # GH 12244 + df = DataFrame({"dt": date_range("2015-01-01", periods=3, tz="Europe/Brussels")}) + result = df.apply(lambda x: x) + tm.assert_frame_equal(result, df) + + result = df.apply(lambda x: x + pd.Timedelta("1day")) + expected = DataFrame( + {"dt": date_range("2015-01-02", periods=3, tz="Europe/Brussels")} + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_non_numpy_dtype_category(): + df = DataFrame({"dt": ["a", "b", "c", "a"]}, dtype="category") + result = df.apply(lambda x: x) + tm.assert_frame_equal(result, df) + + +def test_apply_dup_names_multi_agg(): + # GH 21063 + df = DataFrame([[0, 1], [2, 3]], columns=["a", "a"]) + expected = DataFrame([[0, 1]], columns=["a", "a"], index=["min"]) + result = df.agg(["min"]) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("op", ["apply", "agg"]) +def test_apply_nested_result_axis_1(op): + # GH 13820 + def apply_list(row): + return [2 * row["A"], 2 * row["C"], 2 * row["B"]] + + df = DataFrame(np.zeros((4, 4)), columns=list("ABCD")) + result = getattr(df, op)(apply_list, axis=1) + expected = Series( + [[0.0, 0.0, 0.0], [0.0, 0.0, 0.0], [0.0, 0.0, 0.0], [0.0, 0.0, 0.0]] + ) + tm.assert_series_equal(result, expected) + + +def test_apply_noreduction_tzaware_object(): + # https://github.com/pandas-dev/pandas/issues/31505 + expected = DataFrame( + {"foo": [Timestamp("2020", tz="UTC")]}, dtype="datetime64[ns, UTC]" + ) + result = expected.apply(lambda x: x) + tm.assert_frame_equal(result, expected) + result = expected.apply(lambda x: x.copy()) + tm.assert_frame_equal(result, expected) + + +def test_apply_function_runs_once(): + # https://github.com/pandas-dev/pandas/issues/30815 + + df = DataFrame({"a": [1, 2, 3]}) + names = [] # Save row names function is applied to + + def reducing_function(row): + names.append(row.name) + + def non_reducing_function(row): + names.append(row.name) + return row + + for func in [reducing_function, non_reducing_function]: + del names[:] + + df.apply(func, axis=1) + assert names == list(df.index) + + +def test_apply_raw_function_runs_once(engine): + # https://github.com/pandas-dev/pandas/issues/34506 + if engine == "numba": + pytest.skip("appending to list outside of numba func is not supported") + + df = DataFrame({"a": [1, 2, 3]}) + values = [] # Save row values function is applied to + + def reducing_function(row): + values.extend(row) + + def non_reducing_function(row): + values.extend(row) + return row + + for func in [reducing_function, non_reducing_function]: + del values[:] + + df.apply(func, engine=engine, raw=True, axis=1) + assert values == list(df.a.to_list()) + + +def test_apply_with_byte_string(): + # GH 34529 + df = DataFrame(np.array([b"abcd", b"efgh"]), columns=["col"]) + expected = DataFrame(np.array([b"abcd", b"efgh"]), columns=["col"], dtype=object) + # After we make the apply we expect a dataframe just + # like the original but with the object datatype + result = df.apply(lambda x: x.astype("object")) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("val", ["asd", 12, None, np.nan]) +def test_apply_category_equalness(val): + # Check if categorical comparisons on apply, GH 21239 + df_values = ["asd", None, 12, "asd", "cde", np.nan] + df = DataFrame({"a": df_values}, dtype="category") + + result = df.a.apply(lambda x: x == val) + expected = Series( + [np.nan if pd.isnull(x) else x == val for x in df_values], name="a" + ) + tm.assert_series_equal(result, expected) + + +# the user has supplied an opaque UDF where +# they are transforming the input that requires +# us to infer the output + + +def test_infer_row_shape(): + # GH 17437 + # if row shape is changing, infer it + df = DataFrame(np.random.default_rng(2).random((10, 2))) + result = df.apply(np.fft.fft, axis=0).shape + assert result == (10, 2) + + result = df.apply(np.fft.rfft, axis=0).shape + assert result == (6, 2) + + +@pytest.mark.parametrize( + "ops, by_row, expected", + [ + ({"a": lambda x: x + 1}, "compat", DataFrame({"a": [2, 3]})), + ({"a": lambda x: x + 1}, False, DataFrame({"a": [2, 3]})), + ({"a": lambda x: x.sum()}, "compat", Series({"a": 3})), + ({"a": lambda x: x.sum()}, False, Series({"a": 3})), + ( + {"a": ["sum", np.sum, lambda x: x.sum()]}, + "compat", + DataFrame({"a": [3, 3, 3]}, index=["sum", "sum", ""]), + ), + ( + {"a": ["sum", np.sum, lambda x: x.sum()]}, + False, + DataFrame({"a": [3, 3, 3]}, index=["sum", "sum", ""]), + ), + ({"a": lambda x: 1}, "compat", DataFrame({"a": [1, 1]})), + ({"a": lambda x: 1}, False, Series({"a": 1})), + ], +) +def test_dictlike_lambda(ops, by_row, expected): + # GH53601 + df = DataFrame({"a": [1, 2]}) + result = df.apply(ops, by_row=by_row) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "ops", + [ + {"a": lambda x: x + 1}, + {"a": lambda x: x.sum()}, + {"a": ["sum", np.sum, lambda x: x.sum()]}, + {"a": lambda x: 1}, + ], +) +def test_dictlike_lambda_raises(ops): + # GH53601 + df = DataFrame({"a": [1, 2]}) + with pytest.raises(ValueError, match="by_row=True not allowed"): + df.apply(ops, by_row=True) + + +def test_with_dictlike_columns(): + # GH 17602 + df = DataFrame([[1, 2], [1, 2]], columns=["a", "b"]) + result = df.apply(lambda x: {"s": x["a"] + x["b"]}, axis=1) + expected = Series([{"s": 3} for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + df["tm"] = [ + Timestamp("2017-05-01 00:00:00"), + Timestamp("2017-05-02 00:00:00"), + ] + result = df.apply(lambda x: {"s": x["a"] + x["b"]}, axis=1) + tm.assert_series_equal(result, expected) + + # compose a series + result = (df["a"] + df["b"]).apply(lambda x: {"s": x}) + expected = Series([{"s": 3}, {"s": 3}]) + tm.assert_series_equal(result, expected) + + +def test_with_dictlike_columns_with_datetime(): + # GH 18775 + df = DataFrame() + df["author"] = ["X", "Y", "Z"] + df["publisher"] = ["BBC", "NBC", "N24"] + df["date"] = pd.to_datetime( + ["17-10-2010 07:15:30", "13-05-2011 08:20:35", "15-01-2013 09:09:09"], + dayfirst=True, + ) + result = df.apply(lambda x: {}, axis=1) + expected = Series([{}, {}, {}]) + tm.assert_series_equal(result, expected) + + +def test_with_dictlike_columns_with_infer(): + # GH 17602 + df = DataFrame([[1, 2], [1, 2]], columns=["a", "b"]) + result = df.apply(lambda x: {"s": x["a"] + x["b"]}, axis=1, result_type="expand") + expected = DataFrame({"s": [3, 3]}) + tm.assert_frame_equal(result, expected) + + df["tm"] = [ + Timestamp("2017-05-01 00:00:00"), + Timestamp("2017-05-02 00:00:00"), + ] + result = df.apply(lambda x: {"s": x["a"] + x["b"]}, axis=1, result_type="expand") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, by_row, expected", + [ + ([lambda x: x + 1], "compat", DataFrame({("a", ""): [2, 3]})), + ([lambda x: x + 1], False, DataFrame({("a", ""): [2, 3]})), + ([lambda x: x.sum()], "compat", DataFrame({"a": [3]}, index=[""])), + ([lambda x: x.sum()], False, DataFrame({"a": [3]}, index=[""])), + ( + ["sum", np.sum, lambda x: x.sum()], + "compat", + DataFrame({"a": [3, 3, 3]}, index=["sum", "sum", ""]), + ), + ( + ["sum", np.sum, lambda x: x.sum()], + False, + DataFrame({"a": [3, 3, 3]}, index=["sum", "sum", ""]), + ), + ( + [lambda x: x + 1, lambda x: 3], + "compat", + DataFrame([[2, 3], [3, 3]], columns=[["a", "a"], ["", ""]]), + ), + ( + [lambda x: 2, lambda x: 3], + False, + DataFrame({"a": [2, 3]}, ["", ""]), + ), + ], +) +def test_listlike_lambda(ops, by_row, expected): + # GH53601 + df = DataFrame({"a": [1, 2]}) + result = df.apply(ops, by_row=by_row) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "ops", + [ + [lambda x: x + 1], + [lambda x: x.sum()], + ["sum", np.sum, lambda x: x.sum()], + [lambda x: x + 1, lambda x: 3], + ], +) +def test_listlike_lambda_raises(ops): + # GH53601 + df = DataFrame({"a": [1, 2]}) + with pytest.raises(ValueError, match="by_row=True not allowed"): + df.apply(ops, by_row=True) + + +def test_with_listlike_columns(): + # GH 17348 + df = DataFrame( + { + "a": Series(np.random.default_rng(2).standard_normal(4)), + "b": ["a", "list", "of", "words"], + "ts": date_range("2016-10-01", periods=4, freq="h"), + } + ) + + result = df[["a", "b"]].apply(tuple, axis=1) + expected = Series([t[1:] for t in df[["a", "b"]].itertuples()]) + tm.assert_series_equal(result, expected) + + result = df[["a", "ts"]].apply(tuple, axis=1) + expected = Series([t[1:] for t in df[["a", "ts"]].itertuples()]) + tm.assert_series_equal(result, expected) + + +def test_with_listlike_columns_returning_list(): + # GH 18919 + df = DataFrame({"x": Series([["a", "b"], ["q"]]), "y": Series([["z"], ["q", "t"]])}) + df.index = MultiIndex.from_tuples([("i0", "j0"), ("i1", "j1")]) + + result = df.apply(lambda row: [el for el in row["x"] if el in row["y"]], axis=1) + expected = Series([[], ["q"]], index=df.index) + tm.assert_series_equal(result, expected) + + +def test_infer_output_shape_columns(): + # GH 18573 + + df = DataFrame( + { + "number": [1.0, 2.0], + "string": ["foo", "bar"], + "datetime": [ + Timestamp("2017-11-29 03:30:00"), + Timestamp("2017-11-29 03:45:00"), + ], + } + ) + result = df.apply(lambda row: (row.number, row.string), axis=1) + expected = Series([(t.number, t.string) for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + +def test_infer_output_shape_listlike_columns(): + # GH 16353 + + df = DataFrame( + np.random.default_rng(2).standard_normal((6, 3)), columns=["A", "B", "C"] + ) + + result = df.apply(lambda x: [1, 2, 3], axis=1) + expected = Series([[1, 2, 3] for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + result = df.apply(lambda x: [1, 2], axis=1) + expected = Series([[1, 2] for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("val", [1, 2]) +def test_infer_output_shape_listlike_columns_np_func(val): + # GH 17970 + df = DataFrame({"a": [1, 2, 3]}, index=list("abc")) + + result = df.apply(lambda row: np.ones(val), axis=1) + expected = Series([np.ones(val) for t in df.itertuples()], index=df.index) + tm.assert_series_equal(result, expected) + + +def test_infer_output_shape_listlike_columns_with_timestamp(): + # GH 17892 + df = DataFrame( + { + "a": [ + Timestamp("2010-02-01"), + Timestamp("2010-02-04"), + Timestamp("2010-02-05"), + Timestamp("2010-02-06"), + ], + "b": [9, 5, 4, 3], + "c": [5, 3, 4, 2], + "d": [1, 2, 3, 4], + } + ) + + def fun(x): + return (1, 2) + + result = df.apply(fun, axis=1) + expected = Series([(1, 2) for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("lst", [[1, 2, 3], [1, 2]]) +def test_consistent_coerce_for_shapes(lst): + # we want column names to NOT be propagated + # just because the shape matches the input shape + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 3)), columns=["A", "B", "C"] + ) + + result = df.apply(lambda x: lst, axis=1) + expected = Series([lst for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + +def test_consistent_names(int_frame_const_col): + # if a Series is returned, we should use the resulting index names + df = int_frame_const_col + + result = df.apply( + lambda x: Series([1, 2, 3], index=["test", "other", "cols"]), axis=1 + ) + expected = int_frame_const_col.rename( + columns={"A": "test", "B": "other", "C": "cols"} + ) + tm.assert_frame_equal(result, expected) + + result = df.apply(lambda x: Series([1, 2], index=["test", "other"]), axis=1) + expected = expected[["test", "other"]] + tm.assert_frame_equal(result, expected) + + +def test_result_type(int_frame_const_col): + # result_type should be consistent no matter which + # path we take in the code + df = int_frame_const_col + + result = df.apply(lambda x: [1, 2, 3], axis=1, result_type="expand") + expected = df.copy() + expected.columns = [0, 1, 2] + tm.assert_frame_equal(result, expected) + + +def test_result_type_shorter_list(int_frame_const_col): + # result_type should be consistent no matter which + # path we take in the code + df = int_frame_const_col + result = df.apply(lambda x: [1, 2], axis=1, result_type="expand") + expected = df[["A", "B"]].copy() + expected.columns = [0, 1] + tm.assert_frame_equal(result, expected) + + +def test_result_type_broadcast(int_frame_const_col, request, engine): + # result_type should be consistent no matter which + # path we take in the code + if engine == "numba": + mark = pytest.mark.xfail(reason="numba engine doesn't support list return") + request.node.add_marker(mark) + df = int_frame_const_col + # broadcast result + result = df.apply( + lambda x: [1, 2, 3], axis=1, result_type="broadcast", engine=engine + ) + expected = df.copy() + tm.assert_frame_equal(result, expected) + + +def test_result_type_broadcast_series_func(int_frame_const_col, engine, request): + # result_type should be consistent no matter which + # path we take in the code + if engine == "numba": + mark = pytest.mark.xfail( + reason="numba Series constructor only support ndarrays not list data" + ) + request.node.add_marker(mark) + df = int_frame_const_col + columns = ["other", "col", "names"] + result = df.apply( + lambda x: Series([1, 2, 3], index=columns), + axis=1, + result_type="broadcast", + engine=engine, + ) + expected = df.copy() + tm.assert_frame_equal(result, expected) + + +def test_result_type_series_result(int_frame_const_col, engine, request): + # result_type should be consistent no matter which + # path we take in the code + if engine == "numba": + mark = pytest.mark.xfail( + reason="numba Series constructor only support ndarrays not list data" + ) + request.node.add_marker(mark) + df = int_frame_const_col + # series result + result = df.apply(lambda x: Series([1, 2, 3], index=x.index), axis=1, engine=engine) + expected = df.copy() + tm.assert_frame_equal(result, expected) + + +def test_result_type_series_result_other_index(int_frame_const_col, engine, request): + # result_type should be consistent no matter which + # path we take in the code + + if engine == "numba": + mark = pytest.mark.xfail( + reason="no support in numba Series constructor for list of columns" + ) + request.node.add_marker(mark) + df = int_frame_const_col + # series result with other index + columns = ["other", "col", "names"] + result = df.apply(lambda x: Series([1, 2, 3], index=columns), axis=1, engine=engine) + expected = df.copy() + expected.columns = columns + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "box", + [lambda x: list(x), lambda x: tuple(x), lambda x: np.array(x, dtype="int64")], + ids=["list", "tuple", "array"], +) +def test_consistency_for_boxed(box, int_frame_const_col): + # passing an array or list should not affect the output shape + df = int_frame_const_col + + result = df.apply(lambda x: box([1, 2]), axis=1) + expected = Series([box([1, 2]) for t in df.itertuples()]) + tm.assert_series_equal(result, expected) + + result = df.apply(lambda x: box([1, 2]), axis=1, result_type="expand") + expected = int_frame_const_col[["A", "B"]].rename(columns={"A": 0, "B": 1}) + tm.assert_frame_equal(result, expected) + + +def test_agg_transform(axis, float_frame): + other_axis = 1 if axis in {0, "index"} else 0 + + with np.errstate(all="ignore"): + f_abs = np.abs(float_frame) + f_sqrt = np.sqrt(float_frame) + + # ufunc + expected = f_sqrt.copy() + result = float_frame.apply(np.sqrt, axis=axis) + tm.assert_frame_equal(result, expected) + + # list-like + result = float_frame.apply([np.sqrt], axis=axis) + expected = f_sqrt.copy() + if axis in {0, "index"}: + expected.columns = MultiIndex.from_product([float_frame.columns, ["sqrt"]]) + else: + expected.index = MultiIndex.from_product([float_frame.index, ["sqrt"]]) + tm.assert_frame_equal(result, expected) + + # multiple items in list + # these are in the order as if we are applying both + # functions per series and then concatting + result = float_frame.apply([np.abs, np.sqrt], axis=axis) + expected = zip_frames([f_abs, f_sqrt], axis=other_axis) + if axis in {0, "index"}: + expected.columns = MultiIndex.from_product( + [float_frame.columns, ["absolute", "sqrt"]] + ) + else: + expected.index = MultiIndex.from_product( + [float_frame.index, ["absolute", "sqrt"]] + ) + tm.assert_frame_equal(result, expected) + + +def test_demo(): + # demonstration tests + df = DataFrame({"A": range(5), "B": 5}) + + result = df.agg(["min", "max"]) + expected = DataFrame( + {"A": [0, 4], "B": [5, 5]}, columns=["A", "B"], index=["min", "max"] + ) + tm.assert_frame_equal(result, expected) + + +def test_demo_dict_agg(): + # demonstration tests + df = DataFrame({"A": range(5), "B": 5}) + result = df.agg({"A": ["min", "max"], "B": ["sum", "max"]}) + expected = DataFrame( + {"A": [4.0, 0.0, np.nan], "B": [5.0, np.nan, 25.0]}, + columns=["A", "B"], + index=["max", "min", "sum"], + ) + tm.assert_frame_equal(result.reindex_like(expected), expected) + + +def test_agg_with_name_as_column_name(): + # GH 36212 - Column name is "name" + data = {"name": ["foo", "bar"]} + df = DataFrame(data) + + # result's name should be None + result = df.agg({"name": "count"}) + expected = Series({"name": 2}) + tm.assert_series_equal(result, expected) + + # Check if name is still preserved when aggregating series instead + result = df["name"].agg({"name": "count"}) + expected = Series({"name": 2}, name="name") + tm.assert_series_equal(result, expected) + + +def test_agg_multiple_mixed(): + # GH 20909 + mdf = DataFrame( + { + "A": [1, 2, 3], + "B": [1.0, 2.0, 3.0], + "C": ["foo", "bar", "baz"], + } + ) + expected = DataFrame( + { + "A": [1, 6], + "B": [1.0, 6.0], + "C": ["bar", "foobarbaz"], + }, + index=["min", "sum"], + ) + # sorted index + result = mdf.agg(["min", "sum"]) + tm.assert_frame_equal(result, expected) + + result = mdf[["C", "B", "A"]].agg(["sum", "min"]) + # GH40420: the result of .agg should have an index that is sorted + # according to the arguments provided to agg. + expected = expected[["C", "B", "A"]].reindex(["sum", "min"]) + tm.assert_frame_equal(result, expected) + + +def test_agg_multiple_mixed_raises(): + # GH 20909 + mdf = DataFrame( + { + "A": [1, 2, 3], + "B": [1.0, 2.0, 3.0], + "C": ["foo", "bar", "baz"], + "D": date_range("20130101", periods=3), + } + ) + + # sorted index + msg = "does not support reduction" + with pytest.raises(TypeError, match=msg): + mdf.agg(["min", "sum"]) + + with pytest.raises(TypeError, match=msg): + mdf[["D", "C", "B", "A"]].agg(["sum", "min"]) + + +def test_agg_reduce(axis, float_frame): + other_axis = 1 if axis in {0, "index"} else 0 + name1, name2 = float_frame.axes[other_axis].unique()[:2].sort_values() + + # all reducers + expected = pd.concat( + [ + float_frame.mean(axis=axis), + float_frame.max(axis=axis), + float_frame.sum(axis=axis), + ], + axis=1, + ) + expected.columns = ["mean", "max", "sum"] + expected = expected.T if axis in {0, "index"} else expected + + result = float_frame.agg(["mean", "max", "sum"], axis=axis) + tm.assert_frame_equal(result, expected) + + # dict input with scalars + func = {name1: "mean", name2: "sum"} + result = float_frame.agg(func, axis=axis) + expected = Series( + [ + float_frame.loc(other_axis)[name1].mean(), + float_frame.loc(other_axis)[name2].sum(), + ], + index=[name1, name2], + ) + tm.assert_series_equal(result, expected) + + # dict input with lists + func = {name1: ["mean"], name2: ["sum"]} + result = float_frame.agg(func, axis=axis) + expected = DataFrame( + { + name1: Series([float_frame.loc(other_axis)[name1].mean()], index=["mean"]), + name2: Series([float_frame.loc(other_axis)[name2].sum()], index=["sum"]), + } + ) + expected = expected.T if axis in {1, "columns"} else expected + tm.assert_frame_equal(result, expected) + + # dict input with lists with multiple + func = {name1: ["mean", "sum"], name2: ["sum", "max"]} + result = float_frame.agg(func, axis=axis) + expected = pd.concat( + { + name1: Series( + [ + float_frame.loc(other_axis)[name1].mean(), + float_frame.loc(other_axis)[name1].sum(), + ], + index=["mean", "sum"], + ), + name2: Series( + [ + float_frame.loc(other_axis)[name2].sum(), + float_frame.loc(other_axis)[name2].max(), + ], + index=["sum", "max"], + ), + }, + axis=1, + ) + expected = expected.T if axis in {1, "columns"} else expected + tm.assert_frame_equal(result, expected) + + +def test_nuiscance_columns(): + # GH 15015 + df = DataFrame( + { + "A": [1, 2, 3], + "B": [1.0, 2.0, 3.0], + "C": ["foo", "bar", "baz"], + "D": date_range("20130101", periods=3), + } + ) + + result = df.agg("min") + expected = Series([1, 1.0, "bar", Timestamp("20130101")], index=df.columns) + tm.assert_series_equal(result, expected) + + result = df.agg(["min"]) + expected = DataFrame( + [[1, 1.0, "bar", Timestamp("20130101").as_unit("ns")]], + index=["min"], + columns=df.columns, + ) + tm.assert_frame_equal(result, expected) + + msg = "does not support reduction" + with pytest.raises(TypeError, match=msg): + df.agg("sum") + + result = df[["A", "B", "C"]].agg("sum") + expected = Series([6, 6.0, "foobarbaz"], index=["A", "B", "C"]) + tm.assert_series_equal(result, expected) + + msg = "does not support reduction" + with pytest.raises(TypeError, match=msg): + df.agg(["sum"]) + + +@pytest.mark.parametrize("how", ["agg", "apply"]) +def test_non_callable_aggregates(how): + # GH 16405 + # 'size' is a property of frame/series + # validate that this is working + # GH 39116 - expand to apply + df = DataFrame( + {"A": [None, 2, 3], "B": [1.0, np.nan, 3.0], "C": ["foo", None, "bar"]} + ) + + # Function aggregate + result = getattr(df, how)({"A": "count"}) + expected = Series({"A": 2}) + + tm.assert_series_equal(result, expected) + + # Non-function aggregate + result = getattr(df, how)({"A": "size"}) + expected = Series({"A": 3}) + + tm.assert_series_equal(result, expected) + + # Mix function and non-function aggs + result1 = getattr(df, how)(["count", "size"]) + result2 = getattr(df, how)( + {"A": ["count", "size"], "B": ["count", "size"], "C": ["count", "size"]} + ) + expected = DataFrame( + { + "A": {"count": 2, "size": 3}, + "B": {"count": 2, "size": 3}, + "C": {"count": 2, "size": 3}, + } + ) + + tm.assert_frame_equal(result1, result2, check_like=True) + tm.assert_frame_equal(result2, expected, check_like=True) + + # Just functional string arg is same as calling df.arg() + result = getattr(df, how)("count") + expected = df.count() + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("how", ["agg", "apply"]) +def test_size_as_str(how, axis): + # GH 39934 + df = DataFrame( + {"A": [None, 2, 3], "B": [1.0, np.nan, 3.0], "C": ["foo", None, "bar"]} + ) + # Just a string attribute arg same as calling df.arg + # on the columns + result = getattr(df, how)("size", axis=axis) + if axis in (0, "index"): + expected = Series(df.shape[0], index=df.columns) + else: + expected = Series(df.shape[1], index=df.index) + tm.assert_series_equal(result, expected) + + +def test_agg_listlike_result(): + # GH-29587 user defined function returning list-likes + df = DataFrame({"A": [2, 2, 3], "B": [1.5, np.nan, 1.5], "C": ["foo", None, "bar"]}) + + def func(group_col): + return list(group_col.dropna().unique()) + + result = df.agg(func) + expected = Series([[2, 3], [1.5], ["foo", "bar"]], index=["A", "B", "C"]) + tm.assert_series_equal(result, expected) + + result = df.agg([func]) + expected = expected.to_frame("func").T + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("axis", [0, 1]) +@pytest.mark.parametrize( + "args, kwargs", + [ + ((1, 2, 3), {}), + ((8, 7, 15), {}), + ((1, 2), {}), + ((1,), {"b": 2}), + ((), {"a": 1, "b": 2}), + ((), {"a": 2, "b": 1}), + ((), {"a": 1, "b": 2, "c": 3}), + ], +) +def test_agg_args_kwargs(axis, args, kwargs): + def f(x, a, b, c=3): + return x.sum() + (a + b) / c + + df = DataFrame([[1, 2], [3, 4]]) + + if axis == 0: + expected = Series([5.0, 7.0]) + else: + expected = Series([4.0, 8.0]) + + result = df.agg(f, axis, *args, **kwargs) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("num_cols", [2, 3, 5]) +def test_frequency_is_original(num_cols, engine, request): + # GH 22150 + if engine == "numba": + mark = pytest.mark.xfail(reason="numba engine only supports numeric indices") + request.node.add_marker(mark) + index = pd.DatetimeIndex(["1950-06-30", "1952-10-24", "1953-05-29"]) + original = index.copy() + df = DataFrame(1, index=index, columns=range(num_cols)) + df.apply(lambda x: x, engine=engine) + assert index.freq == original.freq + + +def test_apply_datetime_tz_issue(engine, request): + # GH 29052 + + if engine == "numba": + mark = pytest.mark.xfail( + reason="numba engine doesn't support non-numeric indexes" + ) + request.node.add_marker(mark) + + timestamps = [ + Timestamp("2019-03-15 12:34:31.909000+0000", tz="UTC"), + Timestamp("2019-03-15 12:34:34.359000+0000", tz="UTC"), + Timestamp("2019-03-15 12:34:34.660000+0000", tz="UTC"), + ] + df = DataFrame(data=[0, 1, 2], index=timestamps) + result = df.apply(lambda x: x.name, axis=1, engine=engine) + expected = Series(index=timestamps, data=timestamps) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("df", [DataFrame({"A": ["a", None], "B": ["c", "d"]})]) +@pytest.mark.parametrize("method", ["min", "max", "sum"]) +def test_mixed_column_raises(df, method, using_infer_string): + # GH 16832 + if method == "sum": + msg = r'can only concatenate str \(not "int"\) to str|does not support' + else: + msg = "not supported between instances of 'str' and 'float'" + if not using_infer_string: + with pytest.raises(TypeError, match=msg): + getattr(df, method)() + else: + getattr(df, method)() + + +@pytest.mark.parametrize("col", [1, 1.0, True, "a", np.nan]) +def test_apply_dtype(col): + # GH 31466 + df = DataFrame([[1.0, col]], columns=["a", "b"]) + result = df.apply(lambda x: x.dtype) + expected = df.dtypes + + tm.assert_series_equal(result, expected) + + +def test_apply_mutating(using_array_manager, using_copy_on_write, warn_copy_on_write): + # GH#35462 case where applied func pins a new BlockManager to a row + df = DataFrame({"a": range(100), "b": range(100, 200)}) + df_orig = df.copy() + + def func(row): + mgr = row._mgr + row.loc["a"] += 1 + assert row._mgr is not mgr + return row + + expected = df.copy() + expected["a"] += 1 + + with tm.assert_cow_warning(warn_copy_on_write): + result = df.apply(func, axis=1) + + tm.assert_frame_equal(result, expected) + if using_copy_on_write or using_array_manager: + # INFO(CoW) With copy on write, mutating a viewing row doesn't mutate the parent + # INFO(ArrayManager) With BlockManager, the row is a view and mutated in place, + # with ArrayManager the row is not a view, and thus not mutated in place + tm.assert_frame_equal(df, df_orig) + else: + tm.assert_frame_equal(df, result) + + +def test_apply_empty_list_reduce(): + # GH#35683 get columns correct + df = DataFrame([[1, 2], [3, 4], [5, 6], [7, 8], [9, 10]], columns=["a", "b"]) + + result = df.apply(lambda x: [], result_type="reduce") + expected = Series({"a": [], "b": []}, dtype=object) + tm.assert_series_equal(result, expected) + + +def test_apply_no_suffix_index(engine, request): + # GH36189 + if engine == "numba": + mark = pytest.mark.xfail( + reason="numba engine doesn't support list-likes/dict-like callables" + ) + request.node.add_marker(mark) + pdf = DataFrame([[4, 9]] * 3, columns=["A", "B"]) + result = pdf.apply(["sum", lambda x: x.sum(), lambda x: x.sum()], engine=engine) + expected = DataFrame( + {"A": [12, 12, 12], "B": [27, 27, 27]}, index=["sum", "", ""] + ) + + tm.assert_frame_equal(result, expected) + + +def test_apply_raw_returns_string(engine): + # https://github.com/pandas-dev/pandas/issues/35940 + if engine == "numba": + pytest.skip("No object dtype support in numba") + df = DataFrame({"A": ["aa", "bbb"]}) + result = df.apply(lambda x: x[0], engine=engine, axis=1, raw=True) + expected = Series(["aa", "bbb"]) + tm.assert_series_equal(result, expected) + + +def test_aggregation_func_column_order(): + # GH40420: the result of .agg should have an index that is sorted + # according to the arguments provided to agg. + df = DataFrame( + [ + (1, 0, 0), + (2, 0, 0), + (3, 0, 0), + (4, 5, 4), + (5, 6, 6), + (6, 7, 7), + ], + columns=("att1", "att2", "att3"), + ) + + def sum_div2(s): + return s.sum() / 2 + + aggs = ["sum", sum_div2, "count", "min"] + result = df.agg(aggs) + expected = DataFrame( + { + "att1": [21.0, 10.5, 6.0, 1.0], + "att2": [18.0, 9.0, 6.0, 0.0], + "att3": [17.0, 8.5, 6.0, 0.0], + }, + index=["sum", "sum_div2", "count", "min"], + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_getitem_axis_1(engine, request): + # GH 13427 + if engine == "numba": + mark = pytest.mark.xfail( + reason="numba engine not supporting duplicate index values" + ) + request.node.add_marker(mark) + df = DataFrame({"a": [0, 1, 2], "b": [1, 2, 3]}) + result = df[["a", "a"]].apply( + lambda x: x.iloc[0] + x.iloc[1], axis=1, engine=engine + ) + expected = Series([0, 2, 4]) + tm.assert_series_equal(result, expected) + + +def test_nuisance_depr_passes_through_warnings(): + # GH 43740 + # DataFrame.agg with list-likes may emit warnings for both individual + # args and for entire columns, but we only want to emit once. We + # catch and suppress the warnings for individual args, but need to make + # sure if some other warnings were raised, they get passed through to + # the user. + + def expected_warning(x): + warnings.warn("Hello, World!") + return x.sum() + + df = DataFrame({"a": [1, 2, 3]}) + with tm.assert_produces_warning(UserWarning, match="Hello, World!"): + df.agg([expected_warning]) + + +def test_apply_type(): + # GH 46719 + df = DataFrame( + {"col1": [3, "string", float], "col2": [0.25, datetime(2020, 1, 1), np.nan]}, + index=["a", "b", "c"], + ) + + # axis=0 + result = df.apply(type, axis=0) + expected = Series({"col1": Series, "col2": Series}) + tm.assert_series_equal(result, expected) + + # axis=1 + result = df.apply(type, axis=1) + expected = Series({"a": Series, "b": Series, "c": Series}) + tm.assert_series_equal(result, expected) + + +def test_apply_on_empty_dataframe(engine): + # GH 39111 + df = DataFrame({"a": [1, 2], "b": [3, 0]}) + result = df.head(0).apply(lambda x: max(x["a"], x["b"]), axis=1, engine=engine) + expected = Series([], dtype=np.float64) + tm.assert_series_equal(result, expected) + + +def test_apply_return_list(): + df = DataFrame({"a": [1, 2], "b": [2, 3]}) + result = df.apply(lambda x: [x.values]) + expected = DataFrame({"a": [[1, 2]], "b": [[2, 3]]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "test, constant", + [ + ({"a": [1, 2, 3], "b": [1, 1, 1]}, {"a": [1, 2, 3], "b": [1]}), + ({"a": [2, 2, 2], "b": [1, 1, 1]}, {"a": [2], "b": [1]}), + ], +) +def test_unique_agg_type_is_series(test, constant): + # GH#22558 + df1 = DataFrame(test) + expected = Series(data=constant, index=["a", "b"], dtype="object") + aggregation = {"a": "unique", "b": "unique"} + + result = df1.agg(aggregation) + + tm.assert_series_equal(result, expected) + + +def test_any_apply_keyword_non_zero_axis_regression(): + # https://github.com/pandas-dev/pandas/issues/48656 + df = DataFrame({"A": [1, 2, 0], "B": [0, 2, 0], "C": [0, 0, 0]}) + expected = Series([True, True, False]) + tm.assert_series_equal(df.any(axis=1), expected) + + result = df.apply("any", axis=1) + tm.assert_series_equal(result, expected) + + result = df.apply("any", 1) + tm.assert_series_equal(result, expected) + + +def test_agg_mapping_func_deprecated(): + # GH 53325 + df = DataFrame({"x": [1, 2, 3]}) + + def foo1(x, a=1, c=0): + return x + a + c + + def foo2(x, b=2, c=0): + return x + b + c + + # single func already takes the vectorized path + result = df.agg(foo1, 0, 3, c=4) + expected = df + 7 + tm.assert_frame_equal(result, expected) + + msg = "using .+ in Series.agg cannot aggregate and" + + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.agg([foo1, foo2], 0, 3, c=4) + expected = DataFrame( + [[8, 8], [9, 9], [10, 10]], columns=[["x", "x"], ["foo1", "foo2"]] + ) + tm.assert_frame_equal(result, expected) + + # TODO: the result below is wrong, should be fixed (GH53325) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.agg({"x": foo1}, 0, 3, c=4) + expected = DataFrame([2, 3, 4], columns=["x"]) + tm.assert_frame_equal(result, expected) + + +def test_agg_std(): + df = DataFrame(np.arange(6).reshape(3, 2), columns=["A", "B"]) + + with tm.assert_produces_warning(FutureWarning, match="using DataFrame.std"): + result = df.agg(np.std) + expected = Series({"A": 2.0, "B": 2.0}, dtype=float) + tm.assert_series_equal(result, expected) + + with tm.assert_produces_warning(FutureWarning, match="using Series.std"): + result = df.agg([np.std]) + expected = DataFrame({"A": 2.0, "B": 2.0}, index=["std"]) + tm.assert_frame_equal(result, expected) + + +def test_agg_dist_like_and_nonunique_columns(): + # GH#51099 + df = DataFrame( + {"A": [None, 2, 3], "B": [1.0, np.nan, 3.0], "C": ["foo", None, "bar"]} + ) + df.columns = ["A", "A", "C"] + + result = df.agg({"A": "count"}) + expected = df["A"].count() + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply_relabeling.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply_relabeling.py new file mode 100644 index 0000000000000000000000000000000000000000..723bdd349c0cb8a8f3fe73ded665b6d22260ffb5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_apply_relabeling.py @@ -0,0 +1,113 @@ +import numpy as np +import pytest + +from pandas.compat.numpy import np_version_gte1p25 + +import pandas as pd +import pandas._testing as tm + + +def test_agg_relabel(): + # GH 26513 + df = pd.DataFrame({"A": [1, 2, 1, 2], "B": [1, 2, 3, 4], "C": [3, 4, 5, 6]}) + + # simplest case with one column, one func + result = df.agg(foo=("B", "sum")) + expected = pd.DataFrame({"B": [10]}, index=pd.Index(["foo"])) + tm.assert_frame_equal(result, expected) + + # test on same column with different methods + result = df.agg(foo=("B", "sum"), bar=("B", "min")) + expected = pd.DataFrame({"B": [10, 1]}, index=pd.Index(["foo", "bar"])) + + tm.assert_frame_equal(result, expected) + + +def test_agg_relabel_multi_columns_multi_methods(): + # GH 26513, test on multiple columns with multiple methods + df = pd.DataFrame({"A": [1, 2, 1, 2], "B": [1, 2, 3, 4], "C": [3, 4, 5, 6]}) + result = df.agg( + foo=("A", "sum"), + bar=("B", "mean"), + cat=("A", "min"), + dat=("B", "max"), + f=("A", "max"), + g=("C", "min"), + ) + expected = pd.DataFrame( + { + "A": [6.0, np.nan, 1.0, np.nan, 2.0, np.nan], + "B": [np.nan, 2.5, np.nan, 4.0, np.nan, np.nan], + "C": [np.nan, np.nan, np.nan, np.nan, np.nan, 3.0], + }, + index=pd.Index(["foo", "bar", "cat", "dat", "f", "g"]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.xfail(np_version_gte1p25, reason="name of min now equals name of np.min") +def test_agg_relabel_partial_functions(): + # GH 26513, test on partial, functools or more complex cases + df = pd.DataFrame({"A": [1, 2, 1, 2], "B": [1, 2, 3, 4], "C": [3, 4, 5, 6]}) + msg = "using Series.[mean|min]" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.agg(foo=("A", np.mean), bar=("A", "mean"), cat=("A", min)) + expected = pd.DataFrame( + {"A": [1.5, 1.5, 1.0]}, index=pd.Index(["foo", "bar", "cat"]) + ) + tm.assert_frame_equal(result, expected) + + msg = "using Series.[mean|min|max|sum]" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.agg( + foo=("A", min), + bar=("A", np.min), + cat=("B", max), + dat=("C", "min"), + f=("B", np.sum), + kk=("B", lambda x: min(x)), + ) + expected = pd.DataFrame( + { + "A": [1.0, 1.0, np.nan, np.nan, np.nan, np.nan], + "B": [np.nan, np.nan, 4.0, np.nan, 10.0, 1.0], + "C": [np.nan, np.nan, np.nan, 3.0, np.nan, np.nan], + }, + index=pd.Index(["foo", "bar", "cat", "dat", "f", "kk"]), + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_namedtuple(): + # GH 26513 + df = pd.DataFrame({"A": [0, 1], "B": [1, 2]}) + result = df.agg( + foo=pd.NamedAgg("B", "sum"), + bar=pd.NamedAgg("B", "min"), + cat=pd.NamedAgg(column="B", aggfunc="count"), + fft=pd.NamedAgg("B", aggfunc="max"), + ) + + expected = pd.DataFrame( + {"B": [3, 1, 2, 2]}, index=pd.Index(["foo", "bar", "cat", "fft"]) + ) + tm.assert_frame_equal(result, expected) + + result = df.agg( + foo=pd.NamedAgg("A", "min"), + bar=pd.NamedAgg(column="B", aggfunc="max"), + cat=pd.NamedAgg(column="A", aggfunc="max"), + ) + expected = pd.DataFrame( + {"A": [0.0, np.nan, 1.0], "B": [np.nan, 2.0, np.nan]}, + index=pd.Index(["foo", "bar", "cat"]), + ) + tm.assert_frame_equal(result, expected) + + +def test_reconstruct_func(): + # GH 28472, test to ensure reconstruct_func isn't moved; + # This method is used by other libraries (e.g. dask) + result = pd.core.apply.reconstruct_func("min") + expected = (False, "min", None, None) + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_transform.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_transform.py new file mode 100644 index 0000000000000000000000000000000000000000..558d76ae8fdc4b95d46bbe94e15822779bd7c53f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_frame_transform.py @@ -0,0 +1,264 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, + Series, +) +import pandas._testing as tm +from pandas.tests.apply.common import frame_transform_kernels +from pandas.tests.frame.common import zip_frames + + +def unpack_obj(obj, klass, axis): + """ + Helper to ensure we have the right type of object for a test parametrized + over frame_or_series. + """ + if klass is not DataFrame: + obj = obj["A"] + if axis != 0: + pytest.skip(f"Test is only for DataFrame with axis={axis}") + return obj + + +def test_transform_ufunc(axis, float_frame, frame_or_series): + # GH 35964 + obj = unpack_obj(float_frame, frame_or_series, axis) + + with np.errstate(all="ignore"): + f_sqrt = np.sqrt(obj) + + # ufunc + result = obj.transform(np.sqrt, axis=axis) + expected = f_sqrt + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, names", + [ + ([np.sqrt], ["sqrt"]), + ([np.abs, np.sqrt], ["absolute", "sqrt"]), + (np.array([np.sqrt]), ["sqrt"]), + (np.array([np.abs, np.sqrt]), ["absolute", "sqrt"]), + ], +) +def test_transform_listlike(axis, float_frame, ops, names): + # GH 35964 + other_axis = 1 if axis in {0, "index"} else 0 + with np.errstate(all="ignore"): + expected = zip_frames([op(float_frame) for op in ops], axis=other_axis) + if axis in {0, "index"}: + expected.columns = MultiIndex.from_product([float_frame.columns, names]) + else: + expected.index = MultiIndex.from_product([float_frame.index, names]) + result = float_frame.transform(ops, axis=axis) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("ops", [[], np.array([])]) +def test_transform_empty_listlike(float_frame, ops, frame_or_series): + obj = unpack_obj(float_frame, frame_or_series, 0) + + with pytest.raises(ValueError, match="No transform functions were provided"): + obj.transform(ops) + + +def test_transform_listlike_func_with_args(): + # GH 50624 + df = DataFrame({"x": [1, 2, 3]}) + + def foo1(x, a=1, c=0): + return x + a + c + + def foo2(x, b=2, c=0): + return x + b + c + + msg = r"foo1\(\) got an unexpected keyword argument 'b'" + with pytest.raises(TypeError, match=msg): + df.transform([foo1, foo2], 0, 3, b=3, c=4) + + result = df.transform([foo1, foo2], 0, 3, c=4) + expected = DataFrame( + [[8, 8], [9, 9], [10, 10]], + columns=MultiIndex.from_tuples([("x", "foo1"), ("x", "foo2")]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("box", [dict, Series]) +def test_transform_dictlike(axis, float_frame, box): + # GH 35964 + if axis in (0, "index"): + e = float_frame.columns[0] + expected = float_frame[[e]].transform(np.abs) + else: + e = float_frame.index[0] + expected = float_frame.iloc[[0]].transform(np.abs) + result = float_frame.transform(box({e: np.abs}), axis=axis) + tm.assert_frame_equal(result, expected) + + +def test_transform_dictlike_mixed(): + # GH 40018 - mix of lists and non-lists in values of a dictionary + df = DataFrame({"a": [1, 2], "b": [1, 4], "c": [1, 4]}) + result = df.transform({"b": ["sqrt", "abs"], "c": "sqrt"}) + expected = DataFrame( + [[1.0, 1, 1.0], [2.0, 4, 2.0]], + columns=MultiIndex([("b", "c"), ("sqrt", "abs")], [(0, 0, 1), (0, 1, 0)]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "ops", + [ + {}, + {"A": []}, + {"A": [], "B": "cumsum"}, + {"A": "cumsum", "B": []}, + {"A": [], "B": ["cumsum"]}, + {"A": ["cumsum"], "B": []}, + ], +) +def test_transform_empty_dictlike(float_frame, ops, frame_or_series): + obj = unpack_obj(float_frame, frame_or_series, 0) + + with pytest.raises(ValueError, match="No transform functions were provided"): + obj.transform(ops) + + +@pytest.mark.parametrize("use_apply", [True, False]) +def test_transform_udf(axis, float_frame, use_apply, frame_or_series): + # GH 35964 + obj = unpack_obj(float_frame, frame_or_series, axis) + + # transform uses UDF either via apply or passing the entire DataFrame + def func(x): + # transform is using apply iff x is not a DataFrame + if use_apply == isinstance(x, frame_or_series): + # Force transform to fallback + raise ValueError + return x + 1 + + result = obj.transform(func, axis=axis) + expected = obj + 1 + tm.assert_equal(result, expected) + + +wont_fail = ["ffill", "bfill", "fillna", "pad", "backfill", "shift"] +frame_kernels_raise = [x for x in frame_transform_kernels if x not in wont_fail] + + +@pytest.mark.parametrize("op", [*frame_kernels_raise, lambda x: x + 1]) +def test_transform_bad_dtype(op, frame_or_series, request): + # GH 35964 + if op == "ngroup": + request.applymarker( + pytest.mark.xfail(raises=ValueError, reason="ngroup not valid for NDFrame") + ) + + obj = DataFrame({"A": 3 * [object]}) # DataFrame that will fail on most transforms + obj = tm.get_obj(obj, frame_or_series) + error = TypeError + msg = "|".join( + [ + "not supported between instances of 'type' and 'type'", + "unsupported operand type", + ] + ) + + with pytest.raises(error, match=msg): + obj.transform(op) + with pytest.raises(error, match=msg): + obj.transform([op]) + with pytest.raises(error, match=msg): + obj.transform({"A": op}) + with pytest.raises(error, match=msg): + obj.transform({"A": [op]}) + + +@pytest.mark.parametrize("op", frame_kernels_raise) +def test_transform_failure_typeerror(request, op): + # GH 35964 + + if op == "ngroup": + request.applymarker( + pytest.mark.xfail(raises=ValueError, reason="ngroup not valid for NDFrame") + ) + + # Using object makes most transform kernels fail + df = DataFrame({"A": 3 * [object], "B": [1, 2, 3]}) + error = TypeError + msg = "|".join( + [ + "not supported between instances of 'type' and 'type'", + "unsupported operand type", + ] + ) + + with pytest.raises(error, match=msg): + df.transform([op]) + + with pytest.raises(error, match=msg): + df.transform({"A": op, "B": op}) + + with pytest.raises(error, match=msg): + df.transform({"A": [op], "B": [op]}) + + with pytest.raises(error, match=msg): + df.transform({"A": [op, "shift"], "B": [op]}) + + +def test_transform_failure_valueerror(): + # GH 40211 + def op(x): + if np.sum(np.sum(x)) < 10: + raise ValueError + return x + + df = DataFrame({"A": [1, 2, 3], "B": [400, 500, 600]}) + msg = "Transform function failed" + + with pytest.raises(ValueError, match=msg): + df.transform([op]) + + with pytest.raises(ValueError, match=msg): + df.transform({"A": op, "B": op}) + + with pytest.raises(ValueError, match=msg): + df.transform({"A": [op], "B": [op]}) + + with pytest.raises(ValueError, match=msg): + df.transform({"A": [op, "shift"], "B": [op]}) + + +@pytest.mark.parametrize("use_apply", [True, False]) +def test_transform_passes_args(use_apply, frame_or_series): + # GH 35964 + # transform uses UDF either via apply or passing the entire DataFrame + expected_args = [1, 2] + expected_kwargs = {"c": 3} + + def f(x, a, b, c): + # transform is using apply iff x is not a DataFrame + if use_apply == isinstance(x, frame_or_series): + # Force transform to fallback + raise ValueError + assert [a, b] == expected_args + assert c == expected_kwargs["c"] + return x + + frame_or_series([1]).transform(f, 0, *expected_args, **expected_kwargs) + + +def test_transform_empty_dataframe(): + # https://github.com/pandas-dev/pandas/issues/39636 + df = DataFrame([], columns=["col1", "col2"]) + result = df.transform(lambda x: x + 10) + tm.assert_frame_equal(result, df) + + result = df["col1"].transform(lambda x: x + 10) + tm.assert_series_equal(result, df["col1"]) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_invalid_arg.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_invalid_arg.py new file mode 100644 index 0000000000000000000000000000000000000000..68f3fe36546a09404f4f390ace4f6266c1512abe --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_invalid_arg.py @@ -0,0 +1,363 @@ +# Tests specifically aimed at detecting bad arguments. +# This file is organized by reason for exception. +# 1. always invalid argument values +# 2. missing column(s) +# 3. incompatible ops/dtype/args/kwargs +# 4. invalid result shape/type +# If your test does not fit into one of these categories, add to this list. + +from itertools import chain +import re + +import numpy as np +import pytest + +from pandas.errors import SpecificationError + +from pandas import ( + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +@pytest.mark.parametrize("result_type", ["foo", 1]) +def test_result_type_error(result_type): + # allowed result_type + df = DataFrame( + np.tile(np.arange(3, dtype="int64"), 6).reshape(6, -1) + 1, + columns=["A", "B", "C"], + ) + + msg = ( + "invalid value for result_type, must be one of " + "{None, 'reduce', 'broadcast', 'expand'}" + ) + with pytest.raises(ValueError, match=msg): + df.apply(lambda x: [1, 2, 3], axis=1, result_type=result_type) + + +def test_apply_invalid_axis_value(): + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]], index=["a", "a", "c"]) + msg = "No axis named 2 for object type DataFrame" + with pytest.raises(ValueError, match=msg): + df.apply(lambda x: x, 2) + + +def test_agg_raises(): + # GH 26513 + df = DataFrame({"A": [0, 1], "B": [1, 2]}) + msg = "Must provide" + + with pytest.raises(TypeError, match=msg): + df.agg() + + +def test_map_with_invalid_na_action_raises(): + # https://github.com/pandas-dev/pandas/issues/32815 + s = Series([1, 2, 3]) + msg = "na_action must either be 'ignore' or None" + with pytest.raises(ValueError, match=msg): + s.map(lambda x: x, na_action="____") + + +@pytest.mark.parametrize("input_na_action", ["____", True]) +def test_map_arg_is_dict_with_invalid_na_action_raises(input_na_action): + # https://github.com/pandas-dev/pandas/issues/46588 + s = Series([1, 2, 3]) + msg = f"na_action must either be 'ignore' or None, {input_na_action} was passed" + with pytest.raises(ValueError, match=msg): + s.map({1: 2}, na_action=input_na_action) + + +@pytest.mark.parametrize("method", ["apply", "agg", "transform"]) +@pytest.mark.parametrize("func", [{"A": {"B": "sum"}}, {"A": {"B": ["sum"]}}]) +def test_nested_renamer(frame_or_series, method, func): + # GH 35964 + obj = frame_or_series({"A": [1]}) + match = "nested renamer is not supported" + with pytest.raises(SpecificationError, match=match): + getattr(obj, method)(func) + + +@pytest.mark.parametrize( + "renamer", + [{"foo": ["min", "max"]}, {"foo": ["min", "max"], "bar": ["sum", "mean"]}], +) +def test_series_nested_renamer(renamer): + s = Series(range(6), dtype="int64", name="series") + msg = "nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + s.agg(renamer) + + +def test_apply_dict_depr(): + tsdf = DataFrame( + np.random.default_rng(2).standard_normal((10, 3)), + columns=["A", "B", "C"], + index=date_range("1/1/2000", periods=10), + ) + msg = "nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + tsdf.A.agg({"foo": ["sum", "mean"]}) + + +@pytest.mark.parametrize("method", ["agg", "transform"]) +def test_dict_nested_renaming_depr(method): + df = DataFrame({"A": range(5), "B": 5}) + + # nested renaming + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + getattr(df, method)({"A": {"foo": "min"}, "B": {"bar": "max"}}) + + +@pytest.mark.parametrize("method", ["apply", "agg", "transform"]) +@pytest.mark.parametrize("func", [{"B": "sum"}, {"B": ["sum"]}]) +def test_missing_column(method, func): + # GH 40004 + obj = DataFrame({"A": [1]}) + match = re.escape("Column(s) ['B'] do not exist") + with pytest.raises(KeyError, match=match): + getattr(obj, method)(func) + + +def test_transform_mixed_column_name_dtypes(): + # GH39025 + df = DataFrame({"a": ["1"]}) + msg = r"Column\(s\) \[1, 'b'\] do not exist" + with pytest.raises(KeyError, match=msg): + df.transform({"a": int, 1: str, "b": int}) + + +@pytest.mark.parametrize( + "how, args", [("pct_change", ()), ("nsmallest", (1, ["a", "b"])), ("tail", 1)] +) +def test_apply_str_axis_1_raises(how, args): + # GH 39211 - some ops don't support axis=1 + df = DataFrame({"a": [1, 2], "b": [3, 4]}) + msg = f"Operation {how} does not support axis=1" + with pytest.raises(ValueError, match=msg): + df.apply(how, axis=1, args=args) + + +def test_transform_axis_1_raises(): + # GH 35964 + msg = "No axis named 1 for object type Series" + with pytest.raises(ValueError, match=msg): + Series([1]).transform("sum", axis=1) + + +def test_apply_modify_traceback(): + data = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + data.loc[4, "C"] = np.nan + + def transform(row): + if row["C"].startswith("shin") and row["A"] == "foo": + row["D"] = 7 + return row + + msg = "'float' object has no attribute 'startswith'" + with pytest.raises(AttributeError, match=msg): + data.apply(transform, axis=1) + + +@pytest.mark.parametrize( + "df, func, expected", + tm.get_cython_table_params( + DataFrame([["a", "b"], ["b", "a"]]), [["cumprod", TypeError]] + ), +) +def test_agg_cython_table_raises_frame(df, func, expected, axis, using_infer_string): + # GH 21224 + if using_infer_string: + expected = (expected, NotImplementedError) + + msg = ( + "can't multiply sequence by non-int of type 'str'" + "|cannot perform cumprod with type str" # NotImplementedError python backend + "|operation 'cumprod' not supported for dtype 'str'" # TypeError pyarrow + ) + warn = None if isinstance(func, str) else FutureWarning + with pytest.raises(expected, match=msg): + with tm.assert_produces_warning(warn, match="using DataFrame.cumprod"): + df.agg(func, axis=axis) + + +@pytest.mark.parametrize( + "series, func, expected", + chain( + tm.get_cython_table_params( + Series("a b c".split()), + [ + ("mean", TypeError), # mean raises TypeError + ("prod", TypeError), + ("std", TypeError), + ("var", TypeError), + ("median", TypeError), + ("cumprod", TypeError), + ], + ) + ), +) +def test_agg_cython_table_raises_series(series, func, expected, using_infer_string): + # GH21224 + msg = r"[Cc]ould not convert|can't multiply sequence by non-int of type" + if func == "median" or func is np.nanmedian or func is np.median: + msg = r"Cannot convert \['a' 'b' 'c'\] to numeric" + + if using_infer_string and func in ("cumprod", np.cumprod, np.nancumprod): + expected = (expected, NotImplementedError) + + msg = ( + msg + "|does not support|has no kernel|Cannot perform|cannot perform|operation" + ) + warn = None if isinstance(func, str) else FutureWarning + + with pytest.raises(expected, match=msg): + # e.g. Series('a b'.split()).cumprod() will raise + with tm.assert_produces_warning(warn, match="is currently using Series.*"): + series.agg(func) + + +def test_agg_none_to_type(): + # GH 40543 + df = DataFrame({"a": [None]}) + msg = re.escape("int() argument must be a string") + with pytest.raises(TypeError, match=msg): + df.agg({"a": lambda x: int(x.iloc[0])}) + + +def test_transform_none_to_type(): + # GH#34377 + df = DataFrame({"a": [None]}) + msg = "argument must be a" + with pytest.raises(TypeError, match=msg): + df.transform({"a": lambda x: int(x.iloc[0])}) + + +@pytest.mark.parametrize( + "func", + [ + lambda x: np.array([1, 2]).reshape(-1, 2), + lambda x: [1, 2], + lambda x: Series([1, 2]), + ], +) +def test_apply_broadcast_error(func): + df = DataFrame( + np.tile(np.arange(3, dtype="int64"), 6).reshape(6, -1) + 1, + columns=["A", "B", "C"], + ) + + # > 1 ndim + msg = "too many dims to broadcast|cannot broadcast result" + with pytest.raises(ValueError, match=msg): + df.apply(func, axis=1, result_type="broadcast") + + +def test_transform_and_agg_err_agg(axis, float_frame): + # cannot both transform and agg + msg = "cannot combine transform and aggregation operations" + with pytest.raises(ValueError, match=msg): + with np.errstate(all="ignore"): + float_frame.agg(["max", "sqrt"], axis=axis) + + +@pytest.mark.filterwarnings("ignore::FutureWarning") # GH53325 +@pytest.mark.parametrize( + "func, msg", + [ + (["sqrt", "max"], "cannot combine transform and aggregation"), + ( + {"foo": np.sqrt, "bar": "sum"}, + "cannot perform both aggregation and transformation", + ), + ], +) +def test_transform_and_agg_err_series(string_series, func, msg): + # we are trying to transform with an aggregator + with pytest.raises(ValueError, match=msg): + with np.errstate(all="ignore"): + string_series.agg(func) + + +@pytest.mark.parametrize("func", [["max", "min"], ["max", "sqrt"]]) +def test_transform_wont_agg_frame(axis, float_frame, func): + # GH 35964 + # cannot both transform and agg + msg = "Function did not transform" + with pytest.raises(ValueError, match=msg): + float_frame.transform(func, axis=axis) + + +@pytest.mark.parametrize("func", [["min", "max"], ["sqrt", "max"]]) +def test_transform_wont_agg_series(string_series, func): + # GH 35964 + # we are trying to transform with an aggregator + msg = "Function did not transform" + + with pytest.raises(ValueError, match=msg): + string_series.transform(func) + + +@pytest.mark.parametrize( + "op_wrapper", [lambda x: x, lambda x: [x], lambda x: {"A": x}, lambda x: {"A": [x]}] +) +def test_transform_reducer_raises(all_reductions, frame_or_series, op_wrapper): + # GH 35964 + op = op_wrapper(all_reductions) + + obj = DataFrame({"A": [1, 2, 3]}) + obj = tm.get_obj(obj, frame_or_series) + + msg = "Function did not transform" + with pytest.raises(ValueError, match=msg): + obj.transform(op) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_numba.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_numba.py new file mode 100644 index 0000000000000000000000000000000000000000..c211073f758881fdd9e2acf72b30e86b9aa49cb2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_numba.py @@ -0,0 +1,129 @@ +import numpy as np +import pytest + +from pandas.compat import is_platform_arm +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, +) +import pandas._testing as tm +from pandas.util.version import Version + +pytestmark = [td.skip_if_no("numba"), pytest.mark.single_cpu, pytest.mark.skipif()] + +numba = pytest.importorskip("numba") +pytestmark.append( + pytest.mark.skipif( + Version(numba.__version__) == Version("0.61") and is_platform_arm(), + reason=f"Segfaults on ARM platforms with numba {numba.__version__}", + ) +) + + +@pytest.fixture(params=[0, 1]) +def apply_axis(request): + return request.param + + +def test_numba_vs_python_noop(float_frame, apply_axis): + func = lambda x: x + result = float_frame.apply(func, engine="numba", axis=apply_axis) + expected = float_frame.apply(func, engine="python", axis=apply_axis) + tm.assert_frame_equal(result, expected) + + +def test_numba_vs_python_string_index(): + # GH#56189 + df = DataFrame( + 1, + index=Index(["a", "b"], dtype=pd.StringDtype(na_value=np.nan)), + columns=Index(["x", "y"], dtype=pd.StringDtype(na_value=np.nan)), + ) + func = lambda x: x + result = df.apply(func, engine="numba", axis=0) + expected = df.apply(func, engine="python", axis=0) + tm.assert_frame_equal( + result, expected, check_column_type=False, check_index_type=False + ) + + +def test_numba_vs_python_indexing(): + frame = DataFrame( + {"a": [1, 2, 3], "b": [4, 5, 6], "c": [7.0, 8.0, 9.0]}, + index=Index(["A", "B", "C"]), + ) + row_func = lambda x: x["c"] + result = frame.apply(row_func, engine="numba", axis=1) + expected = frame.apply(row_func, engine="python", axis=1) + tm.assert_series_equal(result, expected) + + col_func = lambda x: x["A"] + result = frame.apply(col_func, engine="numba", axis=0) + expected = frame.apply(col_func, engine="python", axis=0) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "reduction", + [lambda x: x.mean(), lambda x: x.min(), lambda x: x.max(), lambda x: x.sum()], +) +def test_numba_vs_python_reductions(reduction, apply_axis): + df = DataFrame(np.ones((4, 4), dtype=np.float64)) + result = df.apply(reduction, engine="numba", axis=apply_axis) + expected = df.apply(reduction, engine="python", axis=apply_axis) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("colnames", [[1, 2, 3], [1.0, 2.0, 3.0]]) +def test_numba_numeric_colnames(colnames): + # Check that numeric column names lower properly and can be indxed on + df = DataFrame( + np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]], dtype=np.int64), columns=colnames + ) + first_col = colnames[0] + f = lambda x: x[first_col] # Get the first column + result = df.apply(f, engine="numba", axis=1) + expected = df.apply(f, engine="python", axis=1) + tm.assert_series_equal(result, expected) + + +def test_numba_parallel_unsupported(float_frame): + f = lambda x: x + with pytest.raises( + NotImplementedError, + match="Parallel apply is not supported when raw=False and engine='numba'", + ): + float_frame.apply(f, engine="numba", engine_kwargs={"parallel": True}) + + +def test_numba_nonunique_unsupported(apply_axis): + f = lambda x: x + df = DataFrame({"a": [1, 2]}, index=Index(["a", "a"])) + with pytest.raises( + NotImplementedError, + match="The index/columns must be unique when raw=False and engine='numba'", + ): + df.apply(f, engine="numba", axis=apply_axis) + + +def test_numba_unsupported_dtypes(apply_axis): + pytest.importorskip("pyarrow") + f = lambda x: x + df = DataFrame({"a": [1, 2], "b": ["a", "b"], "c": [4, 5]}) + df["c"] = df["c"].astype("double[pyarrow]") + + with pytest.raises( + ValueError, + match="Column b must have a numeric dtype. Found 'object|str' instead", + ): + df.apply(f, engine="numba", axis=apply_axis) + + with pytest.raises( + ValueError, + match="Column c is backed by an extension array, " + "which is not supported by the numba engine.", + ): + df["c"].to_frame().apply(f, engine="numba", axis=apply_axis) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply.py new file mode 100644 index 0000000000000000000000000000000000000000..69f84ca74ab0b44e177a4a79a1ef5a6c893efbe8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply.py @@ -0,0 +1,701 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + concat, + date_range, + timedelta_range, +) +import pandas._testing as tm +from pandas.tests.apply.common import series_transform_kernels + + +@pytest.fixture(params=[False, "compat"]) +def by_row(request): + return request.param + + +def test_series_map_box_timedelta(by_row): + # GH#11349 + ser = Series(timedelta_range("1 day 1 s", periods=3, freq="h")) + + def f(x): + return x.total_seconds() if by_row else x.dt.total_seconds() + + result = ser.apply(f, by_row=by_row) + + expected = ser.map(lambda x: x.total_seconds()) + tm.assert_series_equal(result, expected) + + expected = Series([86401.0, 90001.0, 93601.0]) + tm.assert_series_equal(result, expected) + + +def test_apply(datetime_series, by_row): + result = datetime_series.apply(np.sqrt, by_row=by_row) + with np.errstate(all="ignore"): + expected = np.sqrt(datetime_series) + tm.assert_series_equal(result, expected) + + # element-wise apply (ufunc) + result = datetime_series.apply(np.exp, by_row=by_row) + expected = np.exp(datetime_series) + tm.assert_series_equal(result, expected) + + # empty series + s = Series(dtype=object, name="foo", index=Index([], name="bar")) + rs = s.apply(lambda x: x, by_row=by_row) + tm.assert_series_equal(s, rs) + + # check all metadata (GH 9322) + assert s is not rs + assert s.index is rs.index + assert s.dtype == rs.dtype + assert s.name == rs.name + + # index but no data + s = Series(index=[1, 2, 3], dtype=np.float64) + rs = s.apply(lambda x: x, by_row=by_row) + tm.assert_series_equal(s, rs) + + +def test_apply_map_same_length_inference_bug(): + s = Series([1, 2]) + + def f(x): + return (x, x + 1) + + result = s.apply(f, by_row="compat") + expected = s.map(f) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("convert_dtype", [True, False]) +def test_apply_convert_dtype_deprecated(convert_dtype): + ser = Series(np.random.default_rng(2).standard_normal(10)) + + def func(x): + return x if x > 0 else np.nan + + with tm.assert_produces_warning(FutureWarning): + ser.apply(func, convert_dtype=convert_dtype, by_row="compat") + + +def test_apply_args(): + s = Series(["foo,bar"]) + + result = s.apply(str.split, args=(",",)) + assert result[0] == ["foo", "bar"] + assert isinstance(result[0], list) + + +@pytest.mark.parametrize( + "args, kwargs, increment", + [((), {}, 0), ((), {"a": 1}, 1), ((2, 3), {}, 32), ((1,), {"c": 2}, 201)], +) +def test_agg_args(args, kwargs, increment): + # GH 43357 + def f(x, a=0, b=0, c=0): + return x + a + 10 * b + 100 * c + + s = Series([1, 2]) + msg = ( + "in Series.agg cannot aggregate and has been deprecated. " + "Use Series.transform to keep behavior unchanged." + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = s.agg(f, 0, *args, **kwargs) + expected = s + increment + tm.assert_series_equal(result, expected) + + +def test_agg_mapping_func_deprecated(): + # GH 53325 + s = Series([1, 2, 3]) + + def foo1(x, a=1, c=0): + return x + a + c + + def foo2(x, b=2, c=0): + return x + b + c + + msg = "using .+ in Series.agg cannot aggregate and" + with tm.assert_produces_warning(FutureWarning, match=msg): + s.agg(foo1, 0, 3, c=4) + with tm.assert_produces_warning(FutureWarning, match=msg): + s.agg([foo1, foo2], 0, 3, c=4) + with tm.assert_produces_warning(FutureWarning, match=msg): + s.agg({"a": foo1, "b": foo2}, 0, 3, c=4) + + +def test_series_apply_map_box_timestamps(by_row): + # GH#2689, GH#2627 + ser = Series(date_range("1/1/2000", periods=10)) + + def func(x): + return (x.hour, x.day, x.month) + + if not by_row: + msg = "Series' object has no attribute 'hour'" + with pytest.raises(AttributeError, match=msg): + ser.apply(func, by_row=by_row) + return + + result = ser.apply(func, by_row=by_row) + expected = ser.map(func) + tm.assert_series_equal(result, expected) + + +def test_apply_box_dt64(): + # ufunc will not be boxed. Same test cases as the test_map_box + vals = [pd.Timestamp("2011-01-01"), pd.Timestamp("2011-01-02")] + ser = Series(vals, dtype="M8[ns]") + assert ser.dtype == "datetime64[ns]" + # boxed value must be Timestamp instance + res = ser.apply(lambda x: f"{type(x).__name__}_{x.day}_{x.tz}", by_row="compat") + exp = Series(["Timestamp_1_None", "Timestamp_2_None"]) + tm.assert_series_equal(res, exp) + + +def test_apply_box_dt64tz(): + vals = [ + pd.Timestamp("2011-01-01", tz="US/Eastern"), + pd.Timestamp("2011-01-02", tz="US/Eastern"), + ] + ser = Series(vals, dtype="M8[ns, US/Eastern]") + assert ser.dtype == "datetime64[ns, US/Eastern]" + res = ser.apply(lambda x: f"{type(x).__name__}_{x.day}_{x.tz}", by_row="compat") + exp = Series(["Timestamp_1_US/Eastern", "Timestamp_2_US/Eastern"]) + tm.assert_series_equal(res, exp) + + +def test_apply_box_td64(): + # timedelta + vals = [pd.Timedelta("1 days"), pd.Timedelta("2 days")] + ser = Series(vals) + assert ser.dtype == "timedelta64[ns]" + res = ser.apply(lambda x: f"{type(x).__name__}_{x.days}", by_row="compat") + exp = Series(["Timedelta_1", "Timedelta_2"]) + tm.assert_series_equal(res, exp) + + +def test_apply_box_period(): + # period + vals = [pd.Period("2011-01-01", freq="M"), pd.Period("2011-01-02", freq="M")] + ser = Series(vals) + assert ser.dtype == "Period[M]" + res = ser.apply(lambda x: f"{type(x).__name__}_{x.freqstr}", by_row="compat") + exp = Series(["Period_M", "Period_M"]) + tm.assert_series_equal(res, exp) + + +def test_apply_datetimetz(by_row): + values = date_range("2011-01-01", "2011-01-02", freq="h").tz_localize("Asia/Tokyo") + s = Series(values, name="XX") + + result = s.apply(lambda x: x + pd.offsets.Day(), by_row=by_row) + exp_values = date_range("2011-01-02", "2011-01-03", freq="h").tz_localize( + "Asia/Tokyo" + ) + exp = Series(exp_values, name="XX") + tm.assert_series_equal(result, exp) + + result = s.apply(lambda x: x.hour if by_row else x.dt.hour, by_row=by_row) + exp = Series(list(range(24)) + [0], name="XX", dtype="int64" if by_row else "int32") + tm.assert_series_equal(result, exp) + + # not vectorized + def f(x): + return str(x.tz) if by_row else str(x.dt.tz) + + result = s.apply(f, by_row=by_row) + if by_row: + exp = Series(["Asia/Tokyo"] * 25, name="XX") + tm.assert_series_equal(result, exp) + else: + assert result == "Asia/Tokyo" + + +def test_apply_categorical(by_row, using_infer_string): + values = pd.Categorical(list("ABBABCD"), categories=list("DCBA"), ordered=True) + ser = Series(values, name="XX", index=list("abcdefg")) + + if not by_row: + msg = "Series' object has no attribute 'lower" + with pytest.raises(AttributeError, match=msg): + ser.apply(lambda x: x.lower(), by_row=by_row) + assert ser.apply(lambda x: "A", by_row=by_row) == "A" + return + + result = ser.apply(lambda x: x.lower(), by_row=by_row) + + # should be categorical dtype when the number of categories are + # the same + values = pd.Categorical(list("abbabcd"), categories=list("dcba"), ordered=True) + exp = Series(values, name="XX", index=list("abcdefg")) + tm.assert_series_equal(result, exp) + tm.assert_categorical_equal(result.values, exp.values) + + result = ser.apply(lambda x: "A") + exp = Series(["A"] * 7, name="XX", index=list("abcdefg")) + tm.assert_series_equal(result, exp) + assert result.dtype == object if not using_infer_string else "str" + + +@pytest.mark.parametrize("series", [["1-1", "1-1", np.nan], ["1-1", "1-2", np.nan]]) +def test_apply_categorical_with_nan_values(series, by_row): + # GH 20714 bug fixed in: GH 24275 + s = Series(series, dtype="category") + if not by_row: + msg = "'Series' object has no attribute 'split'" + with pytest.raises(AttributeError, match=msg): + s.apply(lambda x: x.split("-")[0], by_row=by_row) + return + + result = s.apply(lambda x: x.split("-")[0], by_row=by_row) + result = result.astype(object) + expected = Series(["1", "1", np.nan], dtype="category") + expected = expected.astype(object) + tm.assert_series_equal(result, expected) + + +def test_apply_empty_integer_series_with_datetime_index(by_row): + # GH 21245 + s = Series([], index=date_range(start="2018-01-01", periods=0), dtype=int) + result = s.apply(lambda x: x, by_row=by_row) + tm.assert_series_equal(result, s) + + +def test_apply_dataframe_iloc(): + uintDF = DataFrame(np.uint64([1, 2, 3, 4, 5]), columns=["Numbers"]) + indexDF = DataFrame([2, 3, 2, 1, 2], columns=["Indices"]) + + def retrieve(targetRow, targetDF): + val = targetDF["Numbers"].iloc[targetRow] + return val + + result = indexDF["Indices"].apply(retrieve, args=(uintDF,)) + expected = Series([3, 4, 3, 2, 3], name="Indices", dtype="uint64") + tm.assert_series_equal(result, expected) + + +def test_transform(string_series, by_row): + # transforming functions + + with np.errstate(all="ignore"): + f_sqrt = np.sqrt(string_series) + f_abs = np.abs(string_series) + + # ufunc + result = string_series.apply(np.sqrt, by_row=by_row) + expected = f_sqrt.copy() + tm.assert_series_equal(result, expected) + + # list-like + result = string_series.apply([np.sqrt], by_row=by_row) + expected = f_sqrt.to_frame().copy() + expected.columns = ["sqrt"] + tm.assert_frame_equal(result, expected) + + result = string_series.apply(["sqrt"], by_row=by_row) + tm.assert_frame_equal(result, expected) + + # multiple items in list + # these are in the order as if we are applying both functions per + # series and then concatting + expected = concat([f_sqrt, f_abs], axis=1) + expected.columns = ["sqrt", "absolute"] + result = string_series.apply([np.sqrt, np.abs], by_row=by_row) + tm.assert_frame_equal(result, expected) + + # dict, provide renaming + expected = concat([f_sqrt, f_abs], axis=1) + expected.columns = ["foo", "bar"] + expected = expected.unstack().rename("series") + + result = string_series.apply({"foo": np.sqrt, "bar": np.abs}, by_row=by_row) + tm.assert_series_equal(result.reindex_like(expected), expected) + + +@pytest.mark.parametrize("op", series_transform_kernels) +def test_transform_partial_failure(op, request): + # GH 35964 + if op in ("ffill", "bfill", "pad", "backfill", "shift"): + request.applymarker( + pytest.mark.xfail(reason=f"{op} is successful on any dtype") + ) + + # Using object makes most transform kernels fail + ser = Series(3 * [object]) + + if op in ("fillna", "ngroup"): + error = ValueError + msg = "Transform function failed" + else: + error = TypeError + msg = "|".join( + [ + "not supported between instances of 'type' and 'type'", + "unsupported operand type", + ] + ) + + with pytest.raises(error, match=msg): + ser.transform([op, "shift"]) + + with pytest.raises(error, match=msg): + ser.transform({"A": op, "B": "shift"}) + + with pytest.raises(error, match=msg): + ser.transform({"A": [op], "B": ["shift"]}) + + with pytest.raises(error, match=msg): + ser.transform({"A": [op, "shift"], "B": [op]}) + + +def test_transform_partial_failure_valueerror(): + # GH 40211 + def noop(x): + return x + + def raising_op(_): + raise ValueError + + ser = Series(3 * [object]) + msg = "Transform function failed" + + with pytest.raises(ValueError, match=msg): + ser.transform([noop, raising_op]) + + with pytest.raises(ValueError, match=msg): + ser.transform({"A": raising_op, "B": noop}) + + with pytest.raises(ValueError, match=msg): + ser.transform({"A": [raising_op], "B": [noop]}) + + with pytest.raises(ValueError, match=msg): + ser.transform({"A": [noop, raising_op], "B": [noop]}) + + +def test_demo(): + # demonstration tests + s = Series(range(6), dtype="int64", name="series") + + result = s.agg(["min", "max"]) + expected = Series([0, 5], index=["min", "max"], name="series") + tm.assert_series_equal(result, expected) + + result = s.agg({"foo": "min"}) + expected = Series([0], index=["foo"], name="series") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", [str, lambda x: str(x)]) +def test_apply_map_evaluate_lambdas_the_same(string_series, func, by_row): + # test that we are evaluating row-by-row first if by_row="compat" + # else vectorized evaluation + result = string_series.apply(func, by_row=by_row) + + if by_row: + expected = string_series.map(func) + tm.assert_series_equal(result, expected) + else: + assert result == str(string_series) + + +def test_agg_evaluate_lambdas(string_series): + # GH53325 + # in the future, the result will be a Series class. + + with tm.assert_produces_warning(FutureWarning): + result = string_series.agg(lambda x: type(x)) + assert isinstance(result, Series) and len(result) == len(string_series) + + with tm.assert_produces_warning(FutureWarning): + result = string_series.agg(type) + assert isinstance(result, Series) and len(result) == len(string_series) + + +@pytest.mark.parametrize("op_name", ["agg", "apply"]) +def test_with_nested_series(datetime_series, op_name): + # GH 2316 + # .agg with a reducer and a transform, what to do + msg = "cannot aggregate" + warning = FutureWarning if op_name == "agg" else None + with tm.assert_produces_warning(warning, match=msg): + # GH52123 + result = getattr(datetime_series, op_name)( + lambda x: Series([x, x**2], index=["x", "x^2"]) + ) + expected = DataFrame({"x": datetime_series, "x^2": datetime_series**2}) + tm.assert_frame_equal(result, expected) + + with tm.assert_produces_warning(FutureWarning, match=msg): + result = datetime_series.agg(lambda x: Series([x, x**2], index=["x", "x^2"])) + tm.assert_frame_equal(result, expected) + + +def test_replicate_describe(string_series): + # this also tests a result set that is all scalars + expected = string_series.describe() + result = string_series.apply( + { + "count": "count", + "mean": "mean", + "std": "std", + "min": "min", + "25%": lambda x: x.quantile(0.25), + "50%": "median", + "75%": lambda x: x.quantile(0.75), + "max": "max", + }, + ) + tm.assert_series_equal(result, expected) + + +def test_reduce(string_series): + # reductions with named functions + result = string_series.agg(["sum", "mean"]) + expected = Series( + [string_series.sum(), string_series.mean()], + ["sum", "mean"], + name=string_series.name, + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "how, kwds", + [("agg", {}), ("apply", {"by_row": "compat"}), ("apply", {"by_row": False})], +) +def test_non_callable_aggregates(how, kwds): + # test agg using non-callable series attributes + # GH 39116 - expand to apply + s = Series([1, 2, None]) + + # Calling agg w/ just a string arg same as calling s.arg + result = getattr(s, how)("size", **kwds) + expected = s.size + assert result == expected + + # test when mixed w/ callable reducers + result = getattr(s, how)(["size", "count", "mean"], **kwds) + expected = Series({"size": 3.0, "count": 2.0, "mean": 1.5}) + tm.assert_series_equal(result, expected) + + result = getattr(s, how)({"size": "size", "count": "count", "mean": "mean"}, **kwds) + tm.assert_series_equal(result, expected) + + +def test_series_apply_no_suffix_index(by_row): + # GH36189 + s = Series([4] * 3) + result = s.apply(["sum", lambda x: x.sum(), lambda x: x.sum()], by_row=by_row) + expected = Series([12, 12, 12], index=["sum", "", ""]) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "dti,exp", + [ + ( + Series([1, 2], index=pd.DatetimeIndex([0, 31536000000])), + DataFrame(np.repeat([[1, 2]], 2, axis=0), dtype="int64"), + ), + ( + Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ), + DataFrame(np.repeat([[1, 2]], 10, axis=0), dtype="int64"), + ), + ], +) +@pytest.mark.parametrize("aware", [True, False]) +def test_apply_series_on_date_time_index_aware_series(dti, exp, aware): + # GH 25959 + # Calling apply on a localized time series should not cause an error + if aware: + index = dti.tz_localize("UTC").index + else: + index = dti.index + result = Series(index).apply(lambda x: Series([1, 2])) + tm.assert_frame_equal(result, exp) + + +@pytest.mark.parametrize( + "by_row, expected", [("compat", Series(np.ones(10), dtype="int64")), (False, 1)] +) +def test_apply_scalar_on_date_time_index_aware_series(by_row, expected): + # GH 25959 + # Calling apply on a localized time series should not cause an error + series = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10, tz="UTC"), + ) + result = Series(series.index).apply(lambda x: 1, by_row=by_row) + tm.assert_equal(result, expected) + + +def test_apply_to_timedelta(by_row): + list_of_valid_strings = ["00:00:01", "00:00:02"] + a = pd.to_timedelta(list_of_valid_strings) + b = Series(list_of_valid_strings).apply(pd.to_timedelta, by_row=by_row) + tm.assert_series_equal(Series(a), b) + + list_of_strings = ["00:00:01", np.nan, pd.NaT, pd.NaT] + + a = pd.to_timedelta(list_of_strings) + ser = Series(list_of_strings) + b = ser.apply(pd.to_timedelta, by_row=by_row) + tm.assert_series_equal(Series(a), b) + + +@pytest.mark.parametrize( + "ops, names", + [ + ([np.sum], ["sum"]), + ([np.sum, np.mean], ["sum", "mean"]), + (np.array([np.sum]), ["sum"]), + (np.array([np.sum, np.mean]), ["sum", "mean"]), + ], +) +@pytest.mark.parametrize( + "how, kwargs", + [["agg", {}], ["apply", {"by_row": "compat"}], ["apply", {"by_row": False}]], +) +def test_apply_listlike_reducer(string_series, ops, names, how, kwargs): + # GH 39140 + expected = Series({name: op(string_series) for name, op in zip(names, ops)}) + expected.name = "series" + warn = FutureWarning if how == "agg" else None + msg = f"using Series.[{'|'.join(names)}]" + with tm.assert_produces_warning(warn, match=msg): + result = getattr(string_series, how)(ops, **kwargs) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "ops", + [ + {"A": np.sum}, + {"A": np.sum, "B": np.mean}, + Series({"A": np.sum}), + Series({"A": np.sum, "B": np.mean}), + ], +) +@pytest.mark.parametrize( + "how, kwargs", + [["agg", {}], ["apply", {"by_row": "compat"}], ["apply", {"by_row": False}]], +) +def test_apply_dictlike_reducer(string_series, ops, how, kwargs, by_row): + # GH 39140 + expected = Series({name: op(string_series) for name, op in ops.items()}) + expected.name = string_series.name + warn = FutureWarning if how == "agg" else None + msg = "using Series.[sum|mean]" + with tm.assert_produces_warning(warn, match=msg): + result = getattr(string_series, how)(ops, **kwargs) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, names", + [ + ([np.sqrt], ["sqrt"]), + ([np.abs, np.sqrt], ["absolute", "sqrt"]), + (np.array([np.sqrt]), ["sqrt"]), + (np.array([np.abs, np.sqrt]), ["absolute", "sqrt"]), + ], +) +def test_apply_listlike_transformer(string_series, ops, names, by_row): + # GH 39140 + with np.errstate(all="ignore"): + expected = concat([op(string_series) for op in ops], axis=1) + expected.columns = names + result = string_series.apply(ops, by_row=by_row) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, expected", + [ + ([lambda x: x], DataFrame({"": [1, 2, 3]})), + ([lambda x: x.sum()], Series([6], index=[""])), + ], +) +def test_apply_listlike_lambda(ops, expected, by_row): + # GH53400 + ser = Series([1, 2, 3]) + result = ser.apply(ops, by_row=by_row) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "ops", + [ + {"A": np.sqrt}, + {"A": np.sqrt, "B": np.exp}, + Series({"A": np.sqrt}), + Series({"A": np.sqrt, "B": np.exp}), + ], +) +def test_apply_dictlike_transformer(string_series, ops, by_row): + # GH 39140 + with np.errstate(all="ignore"): + expected = concat({name: op(string_series) for name, op in ops.items()}) + expected.name = string_series.name + result = string_series.apply(ops, by_row=by_row) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, expected", + [ + ( + {"a": lambda x: x}, + Series([1, 2, 3], index=MultiIndex.from_arrays([["a"] * 3, range(3)])), + ), + ({"a": lambda x: x.sum()}, Series([6], index=["a"])), + ], +) +def test_apply_dictlike_lambda(ops, by_row, expected): + # GH53400 + ser = Series([1, 2, 3]) + result = ser.apply(ops, by_row=by_row) + tm.assert_equal(result, expected) + + +def test_apply_retains_column_name(by_row): + # GH 16380 + df = DataFrame({"x": range(3)}, Index(range(3), name="x")) + result = df.x.apply(lambda x: Series(range(x + 1), Index(range(x + 1), name="y"))) + expected = DataFrame( + [[0.0, np.nan, np.nan], [0.0, 1.0, np.nan], [0.0, 1.0, 2.0]], + columns=Index(range(3), name="y"), + index=Index(range(3), name="x"), + ) + tm.assert_frame_equal(result, expected) + + +def test_apply_type(): + # GH 46719 + s = Series([3, "string", float], index=["a", "b", "c"]) + result = s.apply(type) + expected = Series([int, str, type], index=["a", "b", "c"]) + tm.assert_series_equal(result, expected) + + +def test_series_apply_unpack_nested_data(): + # GH#55189 + ser = Series([[1, 2, 3], [4, 5, 6, 7]]) + result = ser.apply(lambda x: Series(x)) + expected = DataFrame({0: [1.0, 4.0], 1: [2.0, 5.0], 2: [3.0, 6.0], 3: [np.nan, 7]}) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply_relabeling.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply_relabeling.py new file mode 100644 index 0000000000000000000000000000000000000000..cdfa054f91c9b67261d715cd7812a53d1b2d4b2f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_apply_relabeling.py @@ -0,0 +1,39 @@ +import pandas as pd +import pandas._testing as tm + + +def test_relabel_no_duplicated_method(): + # this is to test there is no duplicated method used in agg + df = pd.DataFrame({"A": [1, 2, 1, 2], "B": [1, 2, 3, 4]}) + + result = df["A"].agg(foo="sum") + expected = df["A"].agg({"foo": "sum"}) + tm.assert_series_equal(result, expected) + + result = df["B"].agg(foo="min", bar="max") + expected = df["B"].agg({"foo": "min", "bar": "max"}) + tm.assert_series_equal(result, expected) + + msg = "using Series.[sum|min|max]" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df["B"].agg(foo=sum, bar=min, cat="max") + msg = "using Series.[sum|min|max]" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df["B"].agg({"foo": sum, "bar": min, "cat": "max"}) + tm.assert_series_equal(result, expected) + + +def test_relabel_duplicated_method(): + # this is to test with nested renaming, duplicated method can be used + # if they are assigned with different new names + df = pd.DataFrame({"A": [1, 2, 1, 2], "B": [1, 2, 3, 4]}) + + result = df["A"].agg(foo="sum", bar="sum") + expected = pd.Series([6, 6], index=["foo", "bar"], name="A") + tm.assert_series_equal(result, expected) + + msg = "using Series.min" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df["B"].agg(foo=min, bar="min") + expected = pd.Series([1, 1], index=["foo", "bar"], name="B") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_transform.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_transform.py new file mode 100644 index 0000000000000000000000000000000000000000..82592c4711ece5a7f4b6d421d743e1adbd78c345 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_series_transform.py @@ -0,0 +1,84 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, + Series, + concat, +) +import pandas._testing as tm + + +@pytest.mark.parametrize( + "args, kwargs, increment", + [((), {}, 0), ((), {"a": 1}, 1), ((2, 3), {}, 32), ((1,), {"c": 2}, 201)], +) +def test_agg_args(args, kwargs, increment): + # GH 43357 + def f(x, a=0, b=0, c=0): + return x + a + 10 * b + 100 * c + + s = Series([1, 2]) + result = s.transform(f, 0, *args, **kwargs) + expected = s + increment + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "ops, names", + [ + ([np.sqrt], ["sqrt"]), + ([np.abs, np.sqrt], ["absolute", "sqrt"]), + (np.array([np.sqrt]), ["sqrt"]), + (np.array([np.abs, np.sqrt]), ["absolute", "sqrt"]), + ], +) +def test_transform_listlike(string_series, ops, names): + # GH 35964 + with np.errstate(all="ignore"): + expected = concat([op(string_series) for op in ops], axis=1) + expected.columns = names + result = string_series.transform(ops) + tm.assert_frame_equal(result, expected) + + +def test_transform_listlike_func_with_args(): + # GH 50624 + + s = Series([1, 2, 3]) + + def foo1(x, a=1, c=0): + return x + a + c + + def foo2(x, b=2, c=0): + return x + b + c + + msg = r"foo1\(\) got an unexpected keyword argument 'b'" + with pytest.raises(TypeError, match=msg): + s.transform([foo1, foo2], 0, 3, b=3, c=4) + + result = s.transform([foo1, foo2], 0, 3, c=4) + expected = DataFrame({"foo1": [8, 9, 10], "foo2": [8, 9, 10]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("box", [dict, Series]) +def test_transform_dictlike(string_series, box): + # GH 35964 + with np.errstate(all="ignore"): + expected = concat([np.sqrt(string_series), np.abs(string_series)], axis=1) + expected.columns = ["foo", "bar"] + result = string_series.transform(box({"foo": np.sqrt, "bar": np.abs})) + tm.assert_frame_equal(result, expected) + + +def test_transform_dictlike_mixed(): + # GH 40018 - mix of lists and non-lists in values of a dictionary + df = Series([1, 4]) + result = df.transform({"b": ["sqrt", "abs"], "c": "sqrt"}) + expected = DataFrame( + [[1.0, 1, 1.0], [2.0, 4, 2.0]], + columns=MultiIndex([("b", "c"), ("sqrt", "abs")], [(0, 0, 1), (0, 1, 0)]), + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_str.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_str.py new file mode 100644 index 0000000000000000000000000000000000000000..17e8322dc40e1ef0e65ed6d63a6e4af3a373e29b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/apply/test_str.py @@ -0,0 +1,326 @@ +from itertools import chain +import operator + +import numpy as np +import pytest + +from pandas.core.dtypes.common import is_number + +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm +from pandas.tests.apply.common import ( + frame_transform_kernels, + series_transform_kernels, +) + + +@pytest.mark.parametrize("func", ["sum", "mean", "min", "max", "std"]) +@pytest.mark.parametrize( + "args,kwds", + [ + pytest.param([], {}, id="no_args_or_kwds"), + pytest.param([1], {}, id="axis_from_args"), + pytest.param([], {"axis": 1}, id="axis_from_kwds"), + pytest.param([], {"numeric_only": True}, id="optional_kwds"), + pytest.param([1, True], {"numeric_only": True}, id="args_and_kwds"), + ], +) +@pytest.mark.parametrize("how", ["agg", "apply"]) +def test_apply_with_string_funcs(request, float_frame, func, args, kwds, how): + if len(args) > 1 and how == "agg": + request.applymarker( + pytest.mark.xfail( + raises=TypeError, + reason="agg/apply signature mismatch - agg passes 2nd " + "argument to func", + ) + ) + result = getattr(float_frame, how)(func, *args, **kwds) + expected = getattr(float_frame, func)(*args, **kwds) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("arg", ["sum", "mean", "min", "max", "std"]) +def test_with_string_args(datetime_series, arg): + result = datetime_series.apply(arg) + expected = getattr(datetime_series, arg)() + assert result == expected + + +@pytest.mark.parametrize("op", ["mean", "median", "std", "var"]) +@pytest.mark.parametrize("how", ["agg", "apply"]) +def test_apply_np_reducer(op, how): + # GH 39116 + float_frame = DataFrame({"a": [1, 2], "b": [3, 4]}) + result = getattr(float_frame, how)(op) + # pandas ddof defaults to 1, numpy to 0 + kwargs = {"ddof": 1} if op in ("std", "var") else {} + expected = Series( + getattr(np, op)(float_frame, axis=0, **kwargs), index=float_frame.columns + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "op", ["abs", "ceil", "cos", "cumsum", "exp", "log", "sqrt", "square"] +) +@pytest.mark.parametrize("how", ["transform", "apply"]) +def test_apply_np_transformer(float_frame, op, how): + # GH 39116 + + # float_frame will _usually_ have negative values, which will + # trigger the warning here, but let's put one in just to be sure + float_frame.iloc[0, 0] = -1.0 + warn = None + if op in ["log", "sqrt"]: + warn = RuntimeWarning + + with tm.assert_produces_warning(warn, check_stacklevel=False): + # float_frame fixture is defined in conftest.py, so we don't check the + # stacklevel as otherwise the test would fail. + result = getattr(float_frame, how)(op) + expected = getattr(np, op)(float_frame) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "series, func, expected", + chain( + tm.get_cython_table_params( + Series(dtype=np.float64), + [ + ("sum", 0), + ("max", np.nan), + ("min", np.nan), + ("all", True), + ("any", False), + ("mean", np.nan), + ("prod", 1), + ("std", np.nan), + ("var", np.nan), + ("median", np.nan), + ], + ), + tm.get_cython_table_params( + Series([np.nan, 1, 2, 3]), + [ + ("sum", 6), + ("max", 3), + ("min", 1), + ("all", True), + ("any", True), + ("mean", 2), + ("prod", 6), + ("std", 1), + ("var", 1), + ("median", 2), + ], + ), + tm.get_cython_table_params( + Series("a b c".split()), + [ + ("sum", "abc"), + ("max", "c"), + ("min", "a"), + ("all", True), + ("any", True), + ], + ), + ), +) +def test_agg_cython_table_series(series, func, expected): + # GH21224 + # test reducing functions in + # pandas.core.base.SelectionMixin._cython_table + warn = None if isinstance(func, str) else FutureWarning + with tm.assert_produces_warning(warn, match="is currently using Series.*"): + result = series.agg(func) + if is_number(expected): + assert np.isclose(result, expected, equal_nan=True) + else: + assert result == expected + + +@pytest.mark.parametrize( + "series, func, expected", + chain( + tm.get_cython_table_params( + Series(dtype=np.float64), + [ + ("cumprod", Series([], dtype=np.float64)), + ("cumsum", Series([], dtype=np.float64)), + ], + ), + tm.get_cython_table_params( + Series([np.nan, 1, 2, 3]), + [ + ("cumprod", Series([np.nan, 1, 2, 6])), + ("cumsum", Series([np.nan, 1, 3, 6])), + ], + ), + tm.get_cython_table_params( + Series("a b c".split()), [("cumsum", Series(["a", "ab", "abc"]))] + ), + ), +) +def test_agg_cython_table_transform_series(series, func, expected): + # GH21224 + # test transforming functions in + # pandas.core.base.SelectionMixin._cython_table (cumprod, cumsum) + warn = None if isinstance(func, str) else FutureWarning + with tm.assert_produces_warning(warn, match="is currently using Series.*"): + result = series.agg(func) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "df, func, expected", + chain( + tm.get_cython_table_params( + DataFrame(), + [ + ("sum", Series(dtype="float64")), + ("max", Series(dtype="float64")), + ("min", Series(dtype="float64")), + ("all", Series(dtype=bool)), + ("any", Series(dtype=bool)), + ("mean", Series(dtype="float64")), + ("prod", Series(dtype="float64")), + ("std", Series(dtype="float64")), + ("var", Series(dtype="float64")), + ("median", Series(dtype="float64")), + ], + ), + tm.get_cython_table_params( + DataFrame([[np.nan, 1], [1, 2]]), + [ + ("sum", Series([1.0, 3])), + ("max", Series([1.0, 2])), + ("min", Series([1.0, 1])), + ("all", Series([True, True])), + ("any", Series([True, True])), + ("mean", Series([1, 1.5])), + ("prod", Series([1.0, 2])), + ("std", Series([np.nan, 0.707107])), + ("var", Series([np.nan, 0.5])), + ("median", Series([1, 1.5])), + ], + ), + ), +) +def test_agg_cython_table_frame(df, func, expected, axis): + # GH 21224 + # test reducing functions in + # pandas.core.base.SelectionMixin._cython_table + warn = None if isinstance(func, str) else FutureWarning + with tm.assert_produces_warning(warn, match="is currently using DataFrame.*"): + # GH#53425 + result = df.agg(func, axis=axis) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "df, func, expected", + chain( + tm.get_cython_table_params( + DataFrame(), [("cumprod", DataFrame()), ("cumsum", DataFrame())] + ), + tm.get_cython_table_params( + DataFrame([[np.nan, 1], [1, 2]]), + [ + ("cumprod", DataFrame([[np.nan, 1], [1, 2]])), + ("cumsum", DataFrame([[np.nan, 1], [1, 3]])), + ], + ), + ), +) +def test_agg_cython_table_transform_frame(df, func, expected, axis): + # GH 21224 + # test transforming functions in + # pandas.core.base.SelectionMixin._cython_table (cumprod, cumsum) + if axis in ("columns", 1): + # operating blockwise doesn't let us preserve dtypes + expected = expected.astype("float64") + + warn = None if isinstance(func, str) else FutureWarning + with tm.assert_produces_warning(warn, match="is currently using DataFrame.*"): + # GH#53425 + result = df.agg(func, axis=axis) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("op", series_transform_kernels) +def test_transform_groupby_kernel_series(request, string_series, op): + # GH 35964 + if op == "ngroup": + request.applymarker( + pytest.mark.xfail(raises=ValueError, reason="ngroup not valid for NDFrame") + ) + args = [0.0] if op == "fillna" else [] + ones = np.ones(string_series.shape[0]) + + warn = FutureWarning if op == "fillna" else None + msg = "SeriesGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + expected = string_series.groupby(ones).transform(op, *args) + result = string_series.transform(op, 0, *args) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("op", frame_transform_kernels) +def test_transform_groupby_kernel_frame(request, axis, float_frame, op): + if op == "ngroup": + request.applymarker( + pytest.mark.xfail(raises=ValueError, reason="ngroup not valid for NDFrame") + ) + + # GH 35964 + + args = [0.0] if op == "fillna" else [] + if axis in (0, "index"): + ones = np.ones(float_frame.shape[0]) + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + else: + ones = np.ones(float_frame.shape[1]) + msg = "DataFrame.groupby with axis=1 is deprecated" + + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = float_frame.groupby(ones, axis=axis) + + warn = FutureWarning if op == "fillna" else None + op_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=op_msg): + expected = gb.transform(op, *args) + + result = float_frame.transform(op, axis, *args) + tm.assert_frame_equal(result, expected) + + # same thing, but ensuring we have multiple blocks + assert "E" not in float_frame.columns + float_frame["E"] = float_frame["A"].copy() + assert len(float_frame._mgr.arrays) > 1 + + if axis in (0, "index"): + ones = np.ones(float_frame.shape[0]) + else: + ones = np.ones(float_frame.shape[1]) + with tm.assert_produces_warning(FutureWarning, match=msg): + gb2 = float_frame.groupby(ones, axis=axis) + warn = FutureWarning if op == "fillna" else None + op_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=op_msg): + expected2 = gb2.transform(op, *args) + result2 = float_frame.transform(op, axis, *args) + tm.assert_frame_equal(result2, expected2) + + +@pytest.mark.parametrize("method", ["abs", "shift", "pct_change", "cumsum", "rank"]) +def test_transform_method_name(method): + # GH 19760 + df = DataFrame({"A": [-1, 2]}) + result = df.transform(method) + expected = operator.methodcaller(method)(df) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/common.py new file mode 100644 index 0000000000000000000000000000000000000000..b608df1554154f4723a0147ea02c04c780839c65 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/common.py @@ -0,0 +1,155 @@ +""" +Assertion helpers for arithmetic tests. +""" +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + Series, + array, +) +import pandas._testing as tm +from pandas.core.arrays import ( + BooleanArray, + NumpyExtensionArray, +) + + +def assert_cannot_add(left, right, msg="cannot add"): + """ + Helper to assert that left and right cannot be added. + + Parameters + ---------- + left : object + right : object + msg : str, default "cannot add" + """ + with pytest.raises(TypeError, match=msg): + left + right + with pytest.raises(TypeError, match=msg): + right + left + + +def assert_invalid_addsub_type(left, right, msg=None): + """ + Helper to assert that left and right can be neither added nor subtracted. + + Parameters + ---------- + left : object + right : object + msg : str or None, default None + """ + with pytest.raises(TypeError, match=msg): + left + right + with pytest.raises(TypeError, match=msg): + right + left + with pytest.raises(TypeError, match=msg): + left - right + with pytest.raises(TypeError, match=msg): + right - left + + +def get_upcast_box(left, right, is_cmp: bool = False): + """ + Get the box to use for 'expected' in an arithmetic or comparison operation. + + Parameters + left : Any + right : Any + is_cmp : bool, default False + Whether the operation is a comparison method. + """ + + if isinstance(left, DataFrame) or isinstance(right, DataFrame): + return DataFrame + if isinstance(left, Series) or isinstance(right, Series): + if is_cmp and isinstance(left, Index): + # Index does not defer for comparisons + return np.array + return Series + if isinstance(left, Index) or isinstance(right, Index): + if is_cmp: + return np.array + return Index + return tm.to_array + + +def assert_invalid_comparison(left, right, box): + """ + Assert that comparison operations with mismatched types behave correctly. + + Parameters + ---------- + left : np.ndarray, ExtensionArray, Index, or Series + right : object + box : {pd.DataFrame, pd.Series, pd.Index, pd.array, tm.to_array} + """ + # Not for tznaive-tzaware comparison + + # Note: not quite the same as how we do this for tm.box_expected + xbox = box if box not in [Index, array] else np.array + + def xbox2(x): + # Eventually we'd like this to be tighter, but for now we'll + # just exclude NumpyExtensionArray[bool] + if isinstance(x, NumpyExtensionArray): + return x._ndarray + if isinstance(x, BooleanArray): + # NB: we are assuming no pd.NAs for now + return x.astype(bool) + return x + + # rev_box: box to use for reversed comparisons + rev_box = xbox + if isinstance(right, Index) and isinstance(left, Series): + rev_box = np.array + + result = xbox2(left == right) + expected = xbox(np.zeros(result.shape, dtype=np.bool_)) + + tm.assert_equal(result, expected) + + result = xbox2(right == left) + tm.assert_equal(result, rev_box(expected)) + + result = xbox2(left != right) + tm.assert_equal(result, ~expected) + + result = xbox2(right != left) + tm.assert_equal(result, rev_box(~expected)) + + msg = "|".join( + [ + "Invalid comparison between", + "Cannot compare type", + "not supported between", + "invalid type promotion", + ( + # GH#36706 npdev 1.20.0 2020-09-28 + r"The DTypes and " + r" do not have a common DType. " + "For example they cannot be stored in a single array unless the " + "dtype is `object`." + ), + ] + ) + with pytest.raises(TypeError, match=msg): + left < right + with pytest.raises(TypeError, match=msg): + left <= right + with pytest.raises(TypeError, match=msg): + left > right + with pytest.raises(TypeError, match=msg): + left >= right + with pytest.raises(TypeError, match=msg): + right < left + with pytest.raises(TypeError, match=msg): + right <= left + with pytest.raises(TypeError, match=msg): + right > left + with pytest.raises(TypeError, match=msg): + right >= left diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..c7703b34a5e38e7a3887d727b0a8c954016ad836 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/conftest.py @@ -0,0 +1,139 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import Index + + +@pytest.fixture(params=[1, np.array(1, dtype=np.int64)]) +def one(request): + """ + Several variants of integer value 1. The zero-dim integer array + behaves like an integer. + + This fixture can be used to check that datetimelike indexes handle + addition and subtraction of integers and zero-dimensional arrays + of integers. + + Examples + -------- + dti = pd.date_range('2016-01-01', periods=2, freq='h') + dti + DatetimeIndex(['2016-01-01 00:00:00', '2016-01-01 01:00:00'], + dtype='datetime64[ns]', freq='h') + dti + one + DatetimeIndex(['2016-01-01 01:00:00', '2016-01-01 02:00:00'], + dtype='datetime64[ns]', freq='h') + """ + return request.param + + +zeros = [ + box_cls([0] * 5, dtype=dtype) + for box_cls in [Index, np.array, pd.array] + for dtype in [np.int64, np.uint64, np.float64] +] +zeros.extend([box_cls([-0.0] * 5, dtype=np.float64) for box_cls in [Index, np.array]]) +zeros.extend([np.array(0, dtype=dtype) for dtype in [np.int64, np.uint64, np.float64]]) +zeros.extend([np.array(-0.0, dtype=np.float64)]) +zeros.extend([0, 0.0, -0.0]) + + +@pytest.fixture(params=zeros) +def zero(request): + """ + Several types of scalar zeros and length 5 vectors of zeros. + + This fixture can be used to check that numeric-dtype indexes handle + division by any zero numeric-dtype. + + Uses vector of length 5 for broadcasting with `numeric_idx` fixture, + which creates numeric-dtype vectors also of length 5. + + Examples + -------- + arr = RangeIndex(5) + arr / zeros + Index([nan, inf, inf, inf, inf], dtype='float64') + """ + return request.param + + +# ------------------------------------------------------------------ +# Scalar Fixtures + + +@pytest.fixture( + params=[ + pd.Timedelta("10m7s").to_pytimedelta(), + pd.Timedelta("10m7s"), + pd.Timedelta("10m7s").to_timedelta64(), + ], + ids=lambda x: type(x).__name__, +) +def scalar_td(request): + """ + Several variants of Timedelta scalars representing 10 minutes and 7 seconds. + """ + return request.param + + +@pytest.fixture( + params=[ + pd.offsets.Day(3), + pd.offsets.Hour(72), + pd.Timedelta(days=3).to_pytimedelta(), + pd.Timedelta("72:00:00"), + np.timedelta64(3, "D"), + np.timedelta64(72, "h"), + ], + ids=lambda x: type(x).__name__, +) +def three_days(request): + """ + Several timedelta-like and DateOffset objects that each represent + a 3-day timedelta + """ + return request.param + + +@pytest.fixture( + params=[ + pd.offsets.Hour(2), + pd.offsets.Minute(120), + pd.Timedelta(hours=2).to_pytimedelta(), + pd.Timedelta(seconds=2 * 3600), + np.timedelta64(2, "h"), + np.timedelta64(120, "m"), + ], + ids=lambda x: type(x).__name__, +) +def two_hours(request): + """ + Several timedelta-like and DateOffset objects that each represent + a 2-hour timedelta + """ + return request.param + + +_common_mismatch = [ + pd.offsets.YearBegin(2), + pd.offsets.MonthBegin(1), + pd.offsets.Minute(), +] + + +@pytest.fixture( + params=[ + np.timedelta64(4, "h"), + pd.Timedelta(hours=23).to_pytimedelta(), + pd.Timedelta("23:00:00"), + ] + + _common_mismatch +) +def not_daily(request): + """ + Several timedelta-like and DateOffset instances that are _not_ + compatible with Daily frequencies. + """ + return request.param diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_array_ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_array_ops.py new file mode 100644 index 0000000000000000000000000000000000000000..2c347d965bbf7353a6a4e81ca955341f8041b6de --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_array_ops.py @@ -0,0 +1,39 @@ +import operator + +import numpy as np +import pytest + +import pandas._testing as tm +from pandas.core.ops.array_ops import ( + comparison_op, + na_logical_op, +) + + +def test_na_logical_op_2d(): + left = np.arange(8).reshape(4, 2) + right = left.astype(object) + right[0, 0] = np.nan + + # Check that we fall back to the vec_binop branch + with pytest.raises(TypeError, match="unsupported operand type"): + operator.or_(left, right) + + result = na_logical_op(left, right, operator.or_) + expected = right + tm.assert_numpy_array_equal(result, expected) + + +def test_object_comparison_2d(): + left = np.arange(9).reshape(3, 3).astype(object) + right = left.T + + result = comparison_op(left, right, operator.eq) + expected = np.eye(3).astype(bool) + tm.assert_numpy_array_equal(result, expected) + + # Ensure that cython doesn't raise on non-writeable arg, which + # we can get from np.broadcast_to + right.flags.writeable = False + result = comparison_op(left, right, operator.ne) + tm.assert_numpy_array_equal(result, ~expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..d6f3a13ce670596a12ca10b9e8d02d69d63c96fb --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_categorical.py @@ -0,0 +1,25 @@ +import numpy as np + +from pandas import ( + Categorical, + Series, +) +import pandas._testing as tm + + +class TestCategoricalComparisons: + def test_categorical_nan_equality(self): + cat = Series(Categorical(["a", "b", "c", np.nan])) + expected = Series([True, True, True, False]) + result = cat == cat + tm.assert_series_equal(result, expected) + + def test_categorical_tuple_equality(self): + # GH 18050 + ser = Series([(0, 0), (0, 1), (0, 0), (1, 0), (1, 1)]) + expected = Series([True, False, True, False, False]) + result = ser == (0, 0) + tm.assert_series_equal(result, expected) + + result = ser.astype("category") == (0, 0) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_datetime64.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_datetime64.py new file mode 100644 index 0000000000000000000000000000000000000000..a468449efd507fae37f3fcb15f64a3e1bf551f93 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_datetime64.py @@ -0,0 +1,2469 @@ +# Arithmetic tests for DataFrame/Series/Index/Array classes that should +# behave identically. +# Specifically for datetime64 and datetime64tz dtypes +from datetime import ( + datetime, + time, + timedelta, +) +from itertools import ( + product, + starmap, +) +import operator + +import numpy as np +import pytest +import pytz + +from pandas._libs.tslibs.conversion import localize_pydatetime +from pandas._libs.tslibs.offsets import shift_months +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import ( + DateOffset, + DatetimeIndex, + NaT, + Period, + Series, + Timedelta, + TimedeltaIndex, + Timestamp, + date_range, +) +import pandas._testing as tm +from pandas.core import roperator +from pandas.tests.arithmetic.common import ( + assert_cannot_add, + assert_invalid_addsub_type, + assert_invalid_comparison, + get_upcast_box, +) + +# ------------------------------------------------------------------ +# Comparisons + + +class TestDatetime64ArrayLikeComparisons: + # Comparison tests for datetime64 vectors fully parametrized over + # DataFrame/Series/DatetimeIndex/DatetimeArray. Ideally all comparison + # tests will eventually end up here. + + def test_compare_zerodim(self, tz_naive_fixture, box_with_array): + # Test comparison with zero-dimensional array is unboxed + tz = tz_naive_fixture + box = box_with_array + dti = date_range("20130101", periods=3, tz=tz) + + other = np.array(dti.to_numpy()[0]) + + dtarr = tm.box_expected(dti, box) + xbox = get_upcast_box(dtarr, other, True) + result = dtarr <= other + expected = np.array([True, False, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "other", + [ + "foo", + -1, + 99, + 4.0, + object(), + timedelta(days=2), + # GH#19800, GH#19301 datetime.date comparison raises to + # match DatetimeIndex/Timestamp. This also matches the behavior + # of stdlib datetime.datetime + datetime(2001, 1, 1).date(), + # GH#19301 None and NaN are *not* cast to NaT for comparisons + None, + np.nan, + ], + ) + def test_dt64arr_cmp_scalar_invalid(self, other, tz_naive_fixture, box_with_array): + # GH#22074, GH#15966 + tz = tz_naive_fixture + + rng = date_range("1/1/2000", periods=10, tz=tz) + dtarr = tm.box_expected(rng, box_with_array) + assert_invalid_comparison(dtarr, other, box_with_array) + + @pytest.mark.parametrize( + "other", + [ + # GH#4968 invalid date/int comparisons + list(range(10)), + np.arange(10), + np.arange(10).astype(np.float32), + np.arange(10).astype(object), + pd.timedelta_range("1ns", periods=10).array, + np.array(pd.timedelta_range("1ns", periods=10)), + list(pd.timedelta_range("1ns", periods=10)), + pd.timedelta_range("1 Day", periods=10).astype(object), + pd.period_range("1971-01-01", freq="D", periods=10).array, + pd.period_range("1971-01-01", freq="D", periods=10).astype(object), + ], + ) + def test_dt64arr_cmp_arraylike_invalid( + self, other, tz_naive_fixture, box_with_array + ): + tz = tz_naive_fixture + + dta = date_range("1970-01-01", freq="ns", periods=10, tz=tz)._data + obj = tm.box_expected(dta, box_with_array) + assert_invalid_comparison(obj, other, box_with_array) + + def test_dt64arr_cmp_mixed_invalid(self, tz_naive_fixture): + tz = tz_naive_fixture + + dta = date_range("1970-01-01", freq="h", periods=5, tz=tz)._data + + other = np.array([0, 1, 2, dta[3], Timedelta(days=1)]) + result = dta == other + expected = np.array([False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = dta != other + tm.assert_numpy_array_equal(result, ~expected) + + msg = "Invalid comparison between|Cannot compare type|not supported between" + with pytest.raises(TypeError, match=msg): + dta < other + with pytest.raises(TypeError, match=msg): + dta > other + with pytest.raises(TypeError, match=msg): + dta <= other + with pytest.raises(TypeError, match=msg): + dta >= other + + def test_dt64arr_nat_comparison(self, tz_naive_fixture, box_with_array): + # GH#22242, GH#22163 DataFrame considered NaT == ts incorrectly + tz = tz_naive_fixture + box = box_with_array + + ts = Timestamp("2021-01-01", tz=tz) + ser = Series([ts, NaT]) + + obj = tm.box_expected(ser, box) + xbox = get_upcast_box(obj, ts, True) + + expected = Series([True, False], dtype=np.bool_) + expected = tm.box_expected(expected, xbox) + + result = obj == ts + tm.assert_equal(result, expected) + + +class TestDatetime64SeriesComparison: + # TODO: moved from tests.series.test_operators; needs cleanup + + @pytest.mark.parametrize( + "pair", + [ + ( + [Timestamp("2011-01-01"), NaT, Timestamp("2011-01-03")], + [NaT, NaT, Timestamp("2011-01-03")], + ), + ( + [Timedelta("1 days"), NaT, Timedelta("3 days")], + [NaT, NaT, Timedelta("3 days")], + ), + ( + [Period("2011-01", freq="M"), NaT, Period("2011-03", freq="M")], + [NaT, NaT, Period("2011-03", freq="M")], + ), + ], + ) + @pytest.mark.parametrize("reverse", [True, False]) + @pytest.mark.parametrize("dtype", [None, object]) + @pytest.mark.parametrize( + "op, expected", + [ + (operator.eq, Series([False, False, True])), + (operator.ne, Series([True, True, False])), + (operator.lt, Series([False, False, False])), + (operator.gt, Series([False, False, False])), + (operator.ge, Series([False, False, True])), + (operator.le, Series([False, False, True])), + ], + ) + def test_nat_comparisons( + self, + dtype, + index_or_series, + reverse, + pair, + op, + expected, + ): + box = index_or_series + lhs, rhs = pair + if reverse: + # add lhs / rhs switched data + lhs, rhs = rhs, lhs + + left = Series(lhs, dtype=dtype) + right = box(rhs, dtype=dtype) + + result = op(left, right) + + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "data", + [ + [Timestamp("2011-01-01"), NaT, Timestamp("2011-01-03")], + [Timedelta("1 days"), NaT, Timedelta("3 days")], + [Period("2011-01", freq="M"), NaT, Period("2011-03", freq="M")], + ], + ) + @pytest.mark.parametrize("dtype", [None, object]) + def test_nat_comparisons_scalar(self, dtype, data, box_with_array): + box = box_with_array + + left = Series(data, dtype=dtype) + left = tm.box_expected(left, box) + xbox = get_upcast_box(left, NaT, True) + + expected = [False, False, False] + expected = tm.box_expected(expected, xbox) + if box is pd.array and dtype is object: + expected = pd.array(expected, dtype="bool") + + tm.assert_equal(left == NaT, expected) + tm.assert_equal(NaT == left, expected) + + expected = [True, True, True] + expected = tm.box_expected(expected, xbox) + if box is pd.array and dtype is object: + expected = pd.array(expected, dtype="bool") + tm.assert_equal(left != NaT, expected) + tm.assert_equal(NaT != left, expected) + + expected = [False, False, False] + expected = tm.box_expected(expected, xbox) + if box is pd.array and dtype is object: + expected = pd.array(expected, dtype="bool") + tm.assert_equal(left < NaT, expected) + tm.assert_equal(NaT > left, expected) + tm.assert_equal(left <= NaT, expected) + tm.assert_equal(NaT >= left, expected) + + tm.assert_equal(left > NaT, expected) + tm.assert_equal(NaT < left, expected) + tm.assert_equal(left >= NaT, expected) + tm.assert_equal(NaT <= left, expected) + + @pytest.mark.parametrize("val", [datetime(2000, 1, 4), datetime(2000, 1, 5)]) + def test_series_comparison_scalars(self, val): + series = Series(date_range("1/1/2000", periods=10)) + + result = series > val + expected = Series([x > val for x in series]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "left,right", [("lt", "gt"), ("le", "ge"), ("eq", "eq"), ("ne", "ne")] + ) + def test_timestamp_compare_series(self, left, right): + # see gh-4982 + # Make sure we can compare Timestamps on the right AND left hand side. + ser = Series(date_range("20010101", periods=10), name="dates") + s_nat = ser.copy(deep=True) + + ser[0] = Timestamp("nat") + ser[3] = Timestamp("nat") + + left_f = getattr(operator, left) + right_f = getattr(operator, right) + + # No NaT + expected = left_f(ser, Timestamp("20010109")) + result = right_f(Timestamp("20010109"), ser) + tm.assert_series_equal(result, expected) + + # NaT + expected = left_f(ser, Timestamp("nat")) + result = right_f(Timestamp("nat"), ser) + tm.assert_series_equal(result, expected) + + # Compare to Timestamp with series containing NaT + expected = left_f(s_nat, Timestamp("20010109")) + result = right_f(Timestamp("20010109"), s_nat) + tm.assert_series_equal(result, expected) + + # Compare to NaT with series containing NaT + expected = left_f(s_nat, NaT) + result = right_f(NaT, s_nat) + tm.assert_series_equal(result, expected) + + def test_dt64arr_timestamp_equality(self, box_with_array): + # GH#11034 + box = box_with_array + + ser = Series([Timestamp("2000-01-29 01:59:00"), Timestamp("2000-01-30"), NaT]) + ser = tm.box_expected(ser, box) + xbox = get_upcast_box(ser, ser, True) + + result = ser != ser + expected = tm.box_expected([False, False, True], xbox) + tm.assert_equal(result, expected) + + if box is pd.DataFrame: + # alignment for frame vs series comparisons deprecated + # in GH#46795 enforced 2.0 + with pytest.raises(ValueError, match="not aligned"): + ser != ser[0] + + else: + result = ser != ser[0] + expected = tm.box_expected([False, True, True], xbox) + tm.assert_equal(result, expected) + + if box is pd.DataFrame: + # alignment for frame vs series comparisons deprecated + # in GH#46795 enforced 2.0 + with pytest.raises(ValueError, match="not aligned"): + ser != ser[2] + else: + result = ser != ser[2] + expected = tm.box_expected([True, True, True], xbox) + tm.assert_equal(result, expected) + + result = ser == ser + expected = tm.box_expected([True, True, False], xbox) + tm.assert_equal(result, expected) + + if box is pd.DataFrame: + # alignment for frame vs series comparisons deprecated + # in GH#46795 enforced 2.0 + with pytest.raises(ValueError, match="not aligned"): + ser == ser[0] + else: + result = ser == ser[0] + expected = tm.box_expected([True, False, False], xbox) + tm.assert_equal(result, expected) + + if box is pd.DataFrame: + # alignment for frame vs series comparisons deprecated + # in GH#46795 enforced 2.0 + with pytest.raises(ValueError, match="not aligned"): + ser == ser[2] + else: + result = ser == ser[2] + expected = tm.box_expected([False, False, False], xbox) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "datetimelike", + [ + Timestamp("20130101"), + datetime(2013, 1, 1), + np.datetime64("2013-01-01T00:00", "ns"), + ], + ) + @pytest.mark.parametrize( + "op,expected", + [ + (operator.lt, [True, False, False, False]), + (operator.le, [True, True, False, False]), + (operator.eq, [False, True, False, False]), + (operator.gt, [False, False, False, True]), + ], + ) + def test_dt64_compare_datetime_scalar(self, datetimelike, op, expected): + # GH#17965, test for ability to compare datetime64[ns] columns + # to datetimelike + ser = Series( + [ + Timestamp("20120101"), + Timestamp("20130101"), + np.nan, + Timestamp("20130103"), + ], + name="A", + ) + result = op(ser, datetimelike) + expected = Series(expected, name="A") + tm.assert_series_equal(result, expected) + + +class TestDatetimeIndexComparisons: + # TODO: moved from tests.indexes.test_base; parametrize and de-duplicate + def test_comparators(self, comparison_op): + index = date_range("2020-01-01", periods=10) + element = index[len(index) // 2] + element = Timestamp(element).to_datetime64() + + arr = np.array(index) + arr_result = comparison_op(arr, element) + index_result = comparison_op(index, element) + + assert isinstance(index_result, np.ndarray) + tm.assert_numpy_array_equal(arr_result, index_result) + + @pytest.mark.parametrize( + "other", + [datetime(2016, 1, 1), Timestamp("2016-01-01"), np.datetime64("2016-01-01")], + ) + def test_dti_cmp_datetimelike(self, other, tz_naive_fixture): + tz = tz_naive_fixture + dti = date_range("2016-01-01", periods=2, tz=tz) + if tz is not None: + if isinstance(other, np.datetime64): + pytest.skip(f"{type(other).__name__} is not tz aware") + other = localize_pydatetime(other, dti.tzinfo) + + result = dti == other + expected = np.array([True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = dti > other + expected = np.array([False, True]) + tm.assert_numpy_array_equal(result, expected) + + result = dti >= other + expected = np.array([True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = dti < other + expected = np.array([False, False]) + tm.assert_numpy_array_equal(result, expected) + + result = dti <= other + expected = np.array([True, False]) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("dtype", [None, object]) + def test_dti_cmp_nat(self, dtype, box_with_array): + left = DatetimeIndex([Timestamp("2011-01-01"), NaT, Timestamp("2011-01-03")]) + right = DatetimeIndex([NaT, NaT, Timestamp("2011-01-03")]) + + left = tm.box_expected(left, box_with_array) + right = tm.box_expected(right, box_with_array) + xbox = get_upcast_box(left, right, True) + + lhs, rhs = left, right + if dtype is object: + lhs, rhs = left.astype(object), right.astype(object) + + result = rhs == lhs + expected = np.array([False, False, True]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + result = lhs != rhs + expected = np.array([True, True, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + expected = np.array([False, False, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(lhs == NaT, expected) + tm.assert_equal(NaT == rhs, expected) + + expected = np.array([True, True, True]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(lhs != NaT, expected) + tm.assert_equal(NaT != lhs, expected) + + expected = np.array([False, False, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(lhs < NaT, expected) + tm.assert_equal(NaT > lhs, expected) + + def test_dti_cmp_nat_behaves_like_float_cmp_nan(self): + fidx1 = pd.Index([1.0, np.nan, 3.0, np.nan, 5.0, 7.0]) + fidx2 = pd.Index([2.0, 3.0, np.nan, np.nan, 6.0, 7.0]) + + didx1 = DatetimeIndex( + ["2014-01-01", NaT, "2014-03-01", NaT, "2014-05-01", "2014-07-01"] + ) + didx2 = DatetimeIndex( + ["2014-02-01", "2014-03-01", NaT, NaT, "2014-06-01", "2014-07-01"] + ) + darr = np.array( + [ + np.datetime64("2014-02-01 00:00"), + np.datetime64("2014-03-01 00:00"), + np.datetime64("nat"), + np.datetime64("nat"), + np.datetime64("2014-06-01 00:00"), + np.datetime64("2014-07-01 00:00"), + ] + ) + + cases = [(fidx1, fidx2), (didx1, didx2), (didx1, darr)] + + # Check pd.NaT is handles as the same as np.nan + with tm.assert_produces_warning(None): + for idx1, idx2 in cases: + result = idx1 < idx2 + expected = np.array([True, False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = idx2 > idx1 + expected = np.array([True, False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 <= idx2 + expected = np.array([True, False, False, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx2 >= idx1 + expected = np.array([True, False, False, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 == idx2 + expected = np.array([False, False, False, False, False, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 != idx2 + expected = np.array([True, True, True, True, True, False]) + tm.assert_numpy_array_equal(result, expected) + + with tm.assert_produces_warning(None): + for idx1, val in [(fidx1, np.nan), (didx1, NaT)]: + result = idx1 < val + expected = np.array([False, False, False, False, False, False]) + tm.assert_numpy_array_equal(result, expected) + result = idx1 > val + tm.assert_numpy_array_equal(result, expected) + + result = idx1 <= val + tm.assert_numpy_array_equal(result, expected) + result = idx1 >= val + tm.assert_numpy_array_equal(result, expected) + + result = idx1 == val + tm.assert_numpy_array_equal(result, expected) + + result = idx1 != val + expected = np.array([True, True, True, True, True, True]) + tm.assert_numpy_array_equal(result, expected) + + # Check pd.NaT is handles as the same as np.nan + with tm.assert_produces_warning(None): + for idx1, val in [(fidx1, 3), (didx1, datetime(2014, 3, 1))]: + result = idx1 < val + expected = np.array([True, False, False, False, False, False]) + tm.assert_numpy_array_equal(result, expected) + result = idx1 > val + expected = np.array([False, False, False, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 <= val + expected = np.array([True, False, True, False, False, False]) + tm.assert_numpy_array_equal(result, expected) + result = idx1 >= val + expected = np.array([False, False, True, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 == val + expected = np.array([False, False, True, False, False, False]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 != val + expected = np.array([True, True, False, True, True, True]) + tm.assert_numpy_array_equal(result, expected) + + def test_comparison_tzawareness_compat(self, comparison_op, box_with_array): + # GH#18162 + op = comparison_op + box = box_with_array + + dr = date_range("2016-01-01", periods=6) + dz = dr.tz_localize("US/Pacific") + + dr = tm.box_expected(dr, box) + dz = tm.box_expected(dz, box) + + if box is pd.DataFrame: + tolist = lambda x: x.astype(object).values.tolist()[0] + else: + tolist = list + + if op not in [operator.eq, operator.ne]: + msg = ( + r"Invalid comparison between dtype=datetime64\[ns.*\] " + "and (Timestamp|DatetimeArray|list|ndarray)" + ) + with pytest.raises(TypeError, match=msg): + op(dr, dz) + + with pytest.raises(TypeError, match=msg): + op(dr, tolist(dz)) + with pytest.raises(TypeError, match=msg): + op(dr, np.array(tolist(dz), dtype=object)) + with pytest.raises(TypeError, match=msg): + op(dz, dr) + + with pytest.raises(TypeError, match=msg): + op(dz, tolist(dr)) + with pytest.raises(TypeError, match=msg): + op(dz, np.array(tolist(dr), dtype=object)) + + # The aware==aware and naive==naive comparisons should *not* raise + assert np.all(dr == dr) + assert np.all(dr == tolist(dr)) + assert np.all(tolist(dr) == dr) + assert np.all(np.array(tolist(dr), dtype=object) == dr) + assert np.all(dr == np.array(tolist(dr), dtype=object)) + + assert np.all(dz == dz) + assert np.all(dz == tolist(dz)) + assert np.all(tolist(dz) == dz) + assert np.all(np.array(tolist(dz), dtype=object) == dz) + assert np.all(dz == np.array(tolist(dz), dtype=object)) + + def test_comparison_tzawareness_compat_scalars(self, comparison_op, box_with_array): + # GH#18162 + op = comparison_op + + dr = date_range("2016-01-01", periods=6) + dz = dr.tz_localize("US/Pacific") + + dr = tm.box_expected(dr, box_with_array) + dz = tm.box_expected(dz, box_with_array) + + # Check comparisons against scalar Timestamps + ts = Timestamp("2000-03-14 01:59") + ts_tz = Timestamp("2000-03-14 01:59", tz="Europe/Amsterdam") + + assert np.all(dr > ts) + msg = r"Invalid comparison between dtype=datetime64\[ns.*\] and Timestamp" + if op not in [operator.eq, operator.ne]: + with pytest.raises(TypeError, match=msg): + op(dr, ts_tz) + + assert np.all(dz > ts_tz) + if op not in [operator.eq, operator.ne]: + with pytest.raises(TypeError, match=msg): + op(dz, ts) + + if op not in [operator.eq, operator.ne]: + # GH#12601: Check comparison against Timestamps and DatetimeIndex + with pytest.raises(TypeError, match=msg): + op(ts, dz) + + @pytest.mark.parametrize( + "other", + [datetime(2016, 1, 1), Timestamp("2016-01-01"), np.datetime64("2016-01-01")], + ) + # Bug in NumPy? https://github.com/numpy/numpy/issues/13841 + # Raising in __eq__ will fallback to NumPy, which warns, fails, + # then re-raises the original exception. So we just need to ignore. + @pytest.mark.filterwarnings("ignore:elementwise comp:DeprecationWarning") + def test_scalar_comparison_tzawareness( + self, comparison_op, other, tz_aware_fixture, box_with_array + ): + op = comparison_op + tz = tz_aware_fixture + dti = date_range("2016-01-01", periods=2, tz=tz) + + dtarr = tm.box_expected(dti, box_with_array) + xbox = get_upcast_box(dtarr, other, True) + if op in [operator.eq, operator.ne]: + exbool = op is operator.ne + expected = np.array([exbool, exbool], dtype=bool) + expected = tm.box_expected(expected, xbox) + + result = op(dtarr, other) + tm.assert_equal(result, expected) + + result = op(other, dtarr) + tm.assert_equal(result, expected) + else: + msg = ( + r"Invalid comparison between dtype=datetime64\[ns, .*\] " + f"and {type(other).__name__}" + ) + with pytest.raises(TypeError, match=msg): + op(dtarr, other) + with pytest.raises(TypeError, match=msg): + op(other, dtarr) + + def test_nat_comparison_tzawareness(self, comparison_op): + # GH#19276 + # tzaware DatetimeIndex should not raise when compared to NaT + op = comparison_op + + dti = DatetimeIndex( + ["2014-01-01", NaT, "2014-03-01", NaT, "2014-05-01", "2014-07-01"] + ) + expected = np.array([op == operator.ne] * len(dti)) + result = op(dti, NaT) + tm.assert_numpy_array_equal(result, expected) + + result = op(dti.tz_localize("US/Pacific"), NaT) + tm.assert_numpy_array_equal(result, expected) + + def test_dti_cmp_str(self, tz_naive_fixture): + # GH#22074 + # regardless of tz, we expect these comparisons are valid + tz = tz_naive_fixture + rng = date_range("1/1/2000", periods=10, tz=tz) + other = "1/1/2000" + + result = rng == other + expected = np.array([True] + [False] * 9) + tm.assert_numpy_array_equal(result, expected) + + result = rng != other + expected = np.array([False] + [True] * 9) + tm.assert_numpy_array_equal(result, expected) + + result = rng < other + expected = np.array([False] * 10) + tm.assert_numpy_array_equal(result, expected) + + result = rng <= other + expected = np.array([True] + [False] * 9) + tm.assert_numpy_array_equal(result, expected) + + result = rng > other + expected = np.array([False] + [True] * 9) + tm.assert_numpy_array_equal(result, expected) + + result = rng >= other + expected = np.array([True] * 10) + tm.assert_numpy_array_equal(result, expected) + + def test_dti_cmp_list(self): + rng = date_range("1/1/2000", periods=10) + + result = rng == list(rng) + expected = rng == rng + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize( + "other", + [ + pd.timedelta_range("1D", periods=10), + pd.timedelta_range("1D", periods=10).to_series(), + pd.timedelta_range("1D", periods=10).asi8.view("m8[ns]"), + ], + ids=lambda x: type(x).__name__, + ) + def test_dti_cmp_tdi_tzawareness(self, other): + # GH#22074 + # reversion test that we _don't_ call _assert_tzawareness_compat + # when comparing against TimedeltaIndex + dti = date_range("2000-01-01", periods=10, tz="Asia/Tokyo") + + result = dti == other + expected = np.array([False] * 10) + tm.assert_numpy_array_equal(result, expected) + + result = dti != other + expected = np.array([True] * 10) + tm.assert_numpy_array_equal(result, expected) + msg = "Invalid comparison between" + with pytest.raises(TypeError, match=msg): + dti < other + with pytest.raises(TypeError, match=msg): + dti <= other + with pytest.raises(TypeError, match=msg): + dti > other + with pytest.raises(TypeError, match=msg): + dti >= other + + def test_dti_cmp_object_dtype(self): + # GH#22074 + dti = date_range("2000-01-01", periods=10, tz="Asia/Tokyo") + + other = dti.astype("O") + + result = dti == other + expected = np.array([True] * 10) + tm.assert_numpy_array_equal(result, expected) + + other = dti.tz_localize(None) + result = dti != other + tm.assert_numpy_array_equal(result, expected) + + other = np.array(list(dti[:5]) + [Timedelta(days=1)] * 5) + result = dti == other + expected = np.array([True] * 5 + [False] * 5) + tm.assert_numpy_array_equal(result, expected) + msg = ">=' not supported between instances of 'Timestamp' and 'Timedelta'" + with pytest.raises(TypeError, match=msg): + dti >= other + + +# ------------------------------------------------------------------ +# Arithmetic + + +class TestDatetime64Arithmetic: + # This class is intended for "finished" tests that are fully parametrized + # over DataFrame/Series/Index/DatetimeArray + + # ------------------------------------------------------------- + # Addition/Subtraction of timedelta-like + + @pytest.mark.arm_slow + def test_dt64arr_add_timedeltalike_scalar( + self, tz_naive_fixture, two_hours, box_with_array + ): + # GH#22005, GH#22163 check DataFrame doesn't raise TypeError + tz = tz_naive_fixture + + rng = date_range("2000-01-01", "2000-02-01", tz=tz) + expected = date_range("2000-01-01 02:00", "2000-02-01 02:00", tz=tz) + + rng = tm.box_expected(rng, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = rng + two_hours + tm.assert_equal(result, expected) + + result = two_hours + rng + tm.assert_equal(result, expected) + + rng += two_hours + tm.assert_equal(rng, expected) + + def test_dt64arr_sub_timedeltalike_scalar( + self, tz_naive_fixture, two_hours, box_with_array + ): + tz = tz_naive_fixture + + rng = date_range("2000-01-01", "2000-02-01", tz=tz) + expected = date_range("1999-12-31 22:00", "2000-01-31 22:00", tz=tz) + + rng = tm.box_expected(rng, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = rng - two_hours + tm.assert_equal(result, expected) + + rng -= two_hours + tm.assert_equal(rng, expected) + + def test_dt64_array_sub_dt_with_different_timezone(self, box_with_array): + t1 = date_range("20130101", periods=3).tz_localize("US/Eastern") + t1 = tm.box_expected(t1, box_with_array) + t2 = Timestamp("20130101").tz_localize("CET") + tnaive = Timestamp(20130101) + + result = t1 - t2 + expected = TimedeltaIndex( + ["0 days 06:00:00", "1 days 06:00:00", "2 days 06:00:00"] + ) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = t2 - t1 + expected = TimedeltaIndex( + ["-1 days +18:00:00", "-2 days +18:00:00", "-3 days +18:00:00"] + ) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + msg = "Cannot subtract tz-naive and tz-aware datetime-like objects" + with pytest.raises(TypeError, match=msg): + t1 - tnaive + + with pytest.raises(TypeError, match=msg): + tnaive - t1 + + def test_dt64_array_sub_dt64_array_with_different_timezone(self, box_with_array): + t1 = date_range("20130101", periods=3).tz_localize("US/Eastern") + t1 = tm.box_expected(t1, box_with_array) + t2 = date_range("20130101", periods=3).tz_localize("CET") + t2 = tm.box_expected(t2, box_with_array) + tnaive = date_range("20130101", periods=3) + + result = t1 - t2 + expected = TimedeltaIndex( + ["0 days 06:00:00", "0 days 06:00:00", "0 days 06:00:00"] + ) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = t2 - t1 + expected = TimedeltaIndex( + ["-1 days +18:00:00", "-1 days +18:00:00", "-1 days +18:00:00"] + ) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + msg = "Cannot subtract tz-naive and tz-aware datetime-like objects" + with pytest.raises(TypeError, match=msg): + t1 - tnaive + + with pytest.raises(TypeError, match=msg): + tnaive - t1 + + def test_dt64arr_add_sub_td64_nat(self, box_with_array, tz_naive_fixture): + # GH#23320 special handling for timedelta64("NaT") + tz = tz_naive_fixture + + dti = date_range("1994-04-01", periods=9, tz=tz, freq="QS") + other = np.timedelta64("NaT") + expected = DatetimeIndex(["NaT"] * 9, tz=tz).as_unit("ns") + + obj = tm.box_expected(dti, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = obj + other + tm.assert_equal(result, expected) + result = other + obj + tm.assert_equal(result, expected) + result = obj - other + tm.assert_equal(result, expected) + msg = "cannot subtract" + with pytest.raises(TypeError, match=msg): + other - obj + + def test_dt64arr_add_sub_td64ndarray(self, tz_naive_fixture, box_with_array): + tz = tz_naive_fixture + dti = date_range("2016-01-01", periods=3, tz=tz) + tdi = TimedeltaIndex(["-1 Day", "-1 Day", "-1 Day"]) + tdarr = tdi.values + + expected = date_range("2015-12-31", "2016-01-02", periods=3, tz=tz) + + dtarr = tm.box_expected(dti, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = dtarr + tdarr + tm.assert_equal(result, expected) + result = tdarr + dtarr + tm.assert_equal(result, expected) + + expected = date_range("2016-01-02", "2016-01-04", periods=3, tz=tz) + expected = tm.box_expected(expected, box_with_array) + + result = dtarr - tdarr + tm.assert_equal(result, expected) + msg = "cannot subtract|(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + tdarr - dtarr + + # ----------------------------------------------------------------- + # Subtraction of datetime-like scalars + + @pytest.mark.parametrize( + "ts", + [ + Timestamp("2013-01-01"), + Timestamp("2013-01-01").to_pydatetime(), + Timestamp("2013-01-01").to_datetime64(), + # GH#7996, GH#22163 ensure non-nano datetime64 is converted to nano + # for DataFrame operation + np.datetime64("2013-01-01", "D"), + ], + ) + def test_dt64arr_sub_dtscalar(self, box_with_array, ts): + # GH#8554, GH#22163 DataFrame op should _not_ return dt64 dtype + idx = date_range("2013-01-01", periods=3)._with_freq(None) + idx = tm.box_expected(idx, box_with_array) + + expected = TimedeltaIndex(["0 Days", "1 Day", "2 Days"]) + expected = tm.box_expected(expected, box_with_array) + + result = idx - ts + tm.assert_equal(result, expected) + + result = ts - idx + tm.assert_equal(result, -expected) + tm.assert_equal(result, -expected) + + def test_dt64arr_sub_timestamp_tzaware(self, box_with_array): + ser = date_range("2014-03-17", periods=2, freq="D", tz="US/Eastern") + ser = ser._with_freq(None) + ts = ser[0] + + ser = tm.box_expected(ser, box_with_array) + + delta_series = Series([np.timedelta64(0, "D"), np.timedelta64(1, "D")]) + expected = tm.box_expected(delta_series, box_with_array) + + tm.assert_equal(ser - ts, expected) + tm.assert_equal(ts - ser, -expected) + + def test_dt64arr_sub_NaT(self, box_with_array, unit): + # GH#18808 + dti = DatetimeIndex([NaT, Timestamp("19900315")]).as_unit(unit) + ser = tm.box_expected(dti, box_with_array) + + result = ser - NaT + expected = Series([NaT, NaT], dtype=f"timedelta64[{unit}]") + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + dti_tz = dti.tz_localize("Asia/Tokyo") + ser_tz = tm.box_expected(dti_tz, box_with_array) + + result = ser_tz - NaT + expected = Series([NaT, NaT], dtype=f"timedelta64[{unit}]") + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + # ------------------------------------------------------------- + # Subtraction of datetime-like array-like + + def test_dt64arr_sub_dt64object_array(self, box_with_array, tz_naive_fixture): + dti = date_range("2016-01-01", periods=3, tz=tz_naive_fixture) + expected = dti - dti + + obj = tm.box_expected(dti, box_with_array) + expected = tm.box_expected(expected, box_with_array).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + result = obj - obj.astype(object) + tm.assert_equal(result, expected) + + def test_dt64arr_naive_sub_dt64ndarray(self, box_with_array): + dti = date_range("2016-01-01", periods=3, tz=None) + dt64vals = dti.values + + dtarr = tm.box_expected(dti, box_with_array) + + expected = dtarr - dtarr + result = dtarr - dt64vals + tm.assert_equal(result, expected) + result = dt64vals - dtarr + tm.assert_equal(result, expected) + + def test_dt64arr_aware_sub_dt64ndarray_raises( + self, tz_aware_fixture, box_with_array + ): + tz = tz_aware_fixture + dti = date_range("2016-01-01", periods=3, tz=tz) + dt64vals = dti.values + + dtarr = tm.box_expected(dti, box_with_array) + msg = "Cannot subtract tz-naive and tz-aware datetime" + with pytest.raises(TypeError, match=msg): + dtarr - dt64vals + with pytest.raises(TypeError, match=msg): + dt64vals - dtarr + + # ------------------------------------------------------------- + # Addition of datetime-like others (invalid) + + def test_dt64arr_add_dtlike_raises(self, tz_naive_fixture, box_with_array): + # GH#22163 ensure DataFrame doesn't cast Timestamp to i8 + # GH#9631 + tz = tz_naive_fixture + + dti = date_range("2016-01-01", periods=3, tz=tz) + if tz is None: + dti2 = dti.tz_localize("US/Eastern") + else: + dti2 = dti.tz_localize(None) + dtarr = tm.box_expected(dti, box_with_array) + + assert_cannot_add(dtarr, dti.values) + assert_cannot_add(dtarr, dti) + assert_cannot_add(dtarr, dtarr) + assert_cannot_add(dtarr, dti[0]) + assert_cannot_add(dtarr, dti[0].to_pydatetime()) + assert_cannot_add(dtarr, dti[0].to_datetime64()) + assert_cannot_add(dtarr, dti2[0]) + assert_cannot_add(dtarr, dti2[0].to_pydatetime()) + assert_cannot_add(dtarr, np.datetime64("2011-01-01", "D")) + + # ------------------------------------------------------------- + # Other Invalid Addition/Subtraction + + # Note: freq here includes both Tick and non-Tick offsets; this is + # relevant because historically integer-addition was allowed if we had + # a freq. + @pytest.mark.parametrize("freq", ["h", "D", "W", "2ME", "MS", "QE", "B", None]) + @pytest.mark.parametrize("dtype", [None, "uint8"]) + def test_dt64arr_addsub_intlike( + self, request, dtype, index_or_series_or_array, freq, tz_naive_fixture + ): + # GH#19959, GH#19123, GH#19012 + # GH#55860 use index_or_series_or_array instead of box_with_array + # bc DataFrame alignment makes it inapplicable + tz = tz_naive_fixture + + if freq is None: + dti = DatetimeIndex(["NaT", "2017-04-05 06:07:08"], tz=tz) + else: + dti = date_range("2016-01-01", periods=2, freq=freq, tz=tz) + + obj = index_or_series_or_array(dti) + other = np.array([4, -1]) + if dtype is not None: + other = other.astype(dtype) + + msg = "|".join( + [ + "Addition/subtraction of integers", + "cannot subtract DatetimeArray from", + # IntegerArray + "can only perform ops with numeric values", + "unsupported operand type.*Categorical", + r"unsupported operand type\(s\) for -: 'int' and 'Timestamp'", + ] + ) + assert_invalid_addsub_type(obj, 1, msg) + assert_invalid_addsub_type(obj, np.int64(2), msg) + assert_invalid_addsub_type(obj, np.array(3, dtype=np.int64), msg) + assert_invalid_addsub_type(obj, other, msg) + assert_invalid_addsub_type(obj, np.array(other), msg) + assert_invalid_addsub_type(obj, pd.array(other), msg) + assert_invalid_addsub_type(obj, pd.Categorical(other), msg) + assert_invalid_addsub_type(obj, pd.Index(other), msg) + assert_invalid_addsub_type(obj, Series(other), msg) + + @pytest.mark.parametrize( + "other", + [ + 3.14, + np.array([2.0, 3.0]), + # GH#13078 datetime +/- Period is invalid + Period("2011-01-01", freq="D"), + # https://github.com/pandas-dev/pandas/issues/10329 + time(1, 2, 3), + ], + ) + @pytest.mark.parametrize("dti_freq", [None, "D"]) + def test_dt64arr_add_sub_invalid(self, dti_freq, other, box_with_array): + dti = DatetimeIndex(["2011-01-01", "2011-01-02"], freq=dti_freq) + dtarr = tm.box_expected(dti, box_with_array) + msg = "|".join( + [ + "unsupported operand type", + "cannot (add|subtract)", + "cannot use operands with types", + "ufunc '?(add|subtract)'? cannot use operands with types", + "Concatenation operation is not implemented for NumPy arrays", + ] + ) + assert_invalid_addsub_type(dtarr, other, msg) + + @pytest.mark.parametrize("pi_freq", ["D", "W", "Q", "h"]) + @pytest.mark.parametrize("dti_freq", [None, "D"]) + def test_dt64arr_add_sub_parr( + self, dti_freq, pi_freq, box_with_array, box_with_array2 + ): + # GH#20049 subtracting PeriodIndex should raise TypeError + dti = DatetimeIndex(["2011-01-01", "2011-01-02"], freq=dti_freq) + pi = dti.to_period(pi_freq) + + dtarr = tm.box_expected(dti, box_with_array) + parr = tm.box_expected(pi, box_with_array2) + msg = "|".join( + [ + "cannot (add|subtract)", + "unsupported operand", + "descriptor.*requires", + "ufunc.*cannot use operands", + ] + ) + assert_invalid_addsub_type(dtarr, parr, msg) + + @pytest.mark.filterwarnings("ignore::pandas.errors.PerformanceWarning") + def test_dt64arr_addsub_time_objects_raises(self, box_with_array, tz_naive_fixture): + # https://github.com/pandas-dev/pandas/issues/10329 + + tz = tz_naive_fixture + + obj1 = date_range("2012-01-01", periods=3, tz=tz) + obj2 = [time(i, i, i) for i in range(3)] + + obj1 = tm.box_expected(obj1, box_with_array) + obj2 = tm.box_expected(obj2, box_with_array) + + msg = "|".join( + [ + "unsupported operand", + "cannot subtract DatetimeArray from ndarray", + ] + ) + # pandas.errors.PerformanceWarning: Non-vectorized DateOffset being + # applied to Series or DatetimeIndex + # we aren't testing that here, so ignore. + assert_invalid_addsub_type(obj1, obj2, msg=msg) + + # ------------------------------------------------------------- + # Other invalid operations + + @pytest.mark.parametrize( + "dt64_series", + [ + Series([Timestamp("19900315"), Timestamp("19900315")]), + Series([NaT, Timestamp("19900315")]), + Series([NaT, NaT], dtype="datetime64[ns]"), + ], + ) + @pytest.mark.parametrize("one", [1, 1.0, np.array(1)]) + def test_dt64_mul_div_numeric_invalid(self, one, dt64_series, box_with_array): + obj = tm.box_expected(dt64_series, box_with_array) + + msg = "cannot perform .* with this index type" + + # multiplication + with pytest.raises(TypeError, match=msg): + obj * one + with pytest.raises(TypeError, match=msg): + one * obj + + # division + with pytest.raises(TypeError, match=msg): + obj / one + with pytest.raises(TypeError, match=msg): + one / obj + + +class TestDatetime64DateOffsetArithmetic: + # ------------------------------------------------------------- + # Tick DateOffsets + + # TODO: parametrize over timezone? + @pytest.mark.parametrize("unit", ["s", "ms", "us", "ns"]) + def test_dt64arr_series_add_tick_DateOffset(self, box_with_array, unit): + # GH#4532 + # operate with pd.offsets + ser = Series( + [Timestamp("20130101 9:01"), Timestamp("20130101 9:02")] + ).dt.as_unit(unit) + expected = Series( + [Timestamp("20130101 9:01:05"), Timestamp("20130101 9:02:05")] + ).dt.as_unit(unit) + + ser = tm.box_expected(ser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = ser + pd.offsets.Second(5) + tm.assert_equal(result, expected) + + result2 = pd.offsets.Second(5) + ser + tm.assert_equal(result2, expected) + + def test_dt64arr_series_sub_tick_DateOffset(self, box_with_array): + # GH#4532 + # operate with pd.offsets + ser = Series([Timestamp("20130101 9:01"), Timestamp("20130101 9:02")]) + expected = Series( + [Timestamp("20130101 9:00:55"), Timestamp("20130101 9:01:55")] + ) + + ser = tm.box_expected(ser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = ser - pd.offsets.Second(5) + tm.assert_equal(result, expected) + + result2 = -pd.offsets.Second(5) + ser + tm.assert_equal(result2, expected) + msg = "(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + pd.offsets.Second(5) - ser + + @pytest.mark.parametrize( + "cls_name", ["Day", "Hour", "Minute", "Second", "Milli", "Micro", "Nano"] + ) + def test_dt64arr_add_sub_tick_DateOffset_smoke(self, cls_name, box_with_array): + # GH#4532 + # smoke tests for valid DateOffsets + ser = Series([Timestamp("20130101 9:01"), Timestamp("20130101 9:02")]) + ser = tm.box_expected(ser, box_with_array) + + offset_cls = getattr(pd.offsets, cls_name) + ser + offset_cls(5) + offset_cls(5) + ser + ser - offset_cls(5) + + def test_dti_add_tick_tzaware(self, tz_aware_fixture, box_with_array): + # GH#21610, GH#22163 ensure DataFrame doesn't return object-dtype + tz = tz_aware_fixture + if tz == "US/Pacific": + dates = date_range("2012-11-01", periods=3, tz=tz) + offset = dates + pd.offsets.Hour(5) + assert dates[0] + pd.offsets.Hour(5) == offset[0] + + dates = date_range("2010-11-01 00:00", periods=3, tz=tz, freq="h") + expected = DatetimeIndex( + ["2010-11-01 05:00", "2010-11-01 06:00", "2010-11-01 07:00"], + freq="h", + tz=tz, + ).as_unit("ns") + + dates = tm.box_expected(dates, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + for scalar in [pd.offsets.Hour(5), np.timedelta64(5, "h"), timedelta(hours=5)]: + offset = dates + scalar + tm.assert_equal(offset, expected) + offset = scalar + dates + tm.assert_equal(offset, expected) + + roundtrip = offset - scalar + tm.assert_equal(roundtrip, dates) + + msg = "|".join( + ["bad operand type for unary -", "cannot subtract DatetimeArray"] + ) + with pytest.raises(TypeError, match=msg): + scalar - dates + + # ------------------------------------------------------------- + # RelativeDelta DateOffsets + + @pytest.mark.parametrize("unit", ["s", "ms", "us", "ns"]) + def test_dt64arr_add_sub_relativedelta_offsets(self, box_with_array, unit): + # GH#10699 + vec = DatetimeIndex( + [ + Timestamp("2000-01-05 00:15:00"), + Timestamp("2000-01-31 00:23:00"), + Timestamp("2000-01-01"), + Timestamp("2000-03-31"), + Timestamp("2000-02-29"), + Timestamp("2000-12-31"), + Timestamp("2000-05-15"), + Timestamp("2001-06-15"), + ] + ).as_unit(unit) + vec = tm.box_expected(vec, box_with_array) + vec_items = vec.iloc[0] if box_with_array is pd.DataFrame else vec + + # DateOffset relativedelta fastpath + relative_kwargs = [ + ("years", 2), + ("months", 5), + ("days", 3), + ("hours", 5), + ("minutes", 10), + ("seconds", 2), + ("microseconds", 5), + ] + for i, (offset_unit, value) in enumerate(relative_kwargs): + off = DateOffset(**{offset_unit: value}) + + exp_unit = unit + if offset_unit == "microseconds" and unit != "ns": + exp_unit = "us" + + # TODO(GH#55564): as_unit will be unnecessary + expected = DatetimeIndex([x + off for x in vec_items]).as_unit(exp_unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec + off) + + expected = DatetimeIndex([x - off for x in vec_items]).as_unit(exp_unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec - off) + + off = DateOffset(**dict(relative_kwargs[: i + 1])) + + expected = DatetimeIndex([x + off for x in vec_items]).as_unit(exp_unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec + off) + + expected = DatetimeIndex([x - off for x in vec_items]).as_unit(exp_unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec - off) + msg = "(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + off - vec + + # ------------------------------------------------------------- + # Non-Tick, Non-RelativeDelta DateOffsets + + # TODO: redundant with test_dt64arr_add_sub_DateOffset? that includes + # tz-aware cases which this does not + @pytest.mark.filterwarnings("ignore::pandas.errors.PerformanceWarning") + @pytest.mark.parametrize( + "cls_and_kwargs", + [ + "YearBegin", + ("YearBegin", {"month": 5}), + "YearEnd", + ("YearEnd", {"month": 5}), + "MonthBegin", + "MonthEnd", + "SemiMonthEnd", + "SemiMonthBegin", + "Week", + ("Week", {"weekday": 3}), + "Week", + ("Week", {"weekday": 6}), + "BusinessDay", + "BDay", + "QuarterEnd", + "QuarterBegin", + "CustomBusinessDay", + "CDay", + "CBMonthEnd", + "CBMonthBegin", + "BMonthBegin", + "BMonthEnd", + "BusinessHour", + "BYearBegin", + "BYearEnd", + "BQuarterBegin", + ("LastWeekOfMonth", {"weekday": 2}), + ( + "FY5253Quarter", + { + "qtr_with_extra_week": 1, + "startingMonth": 1, + "weekday": 2, + "variation": "nearest", + }, + ), + ("FY5253", {"weekday": 0, "startingMonth": 2, "variation": "nearest"}), + ("WeekOfMonth", {"weekday": 2, "week": 2}), + "Easter", + ("DateOffset", {"day": 4}), + ("DateOffset", {"month": 5}), + ], + ) + @pytest.mark.parametrize("normalize", [True, False]) + @pytest.mark.parametrize("n", [0, 5]) + @pytest.mark.parametrize("unit", ["s", "ms", "us", "ns"]) + @pytest.mark.parametrize("tz", [None, "US/Central"]) + def test_dt64arr_add_sub_DateOffsets( + self, box_with_array, n, normalize, cls_and_kwargs, unit, tz + ): + # GH#10699 + # assert vectorized operation matches pointwise operations + + if isinstance(cls_and_kwargs, tuple): + # If cls_name param is a tuple, then 2nd entry is kwargs for + # the offset constructor + cls_name, kwargs = cls_and_kwargs + else: + cls_name = cls_and_kwargs + kwargs = {} + + if n == 0 and cls_name in [ + "WeekOfMonth", + "LastWeekOfMonth", + "FY5253Quarter", + "FY5253", + ]: + # passing n = 0 is invalid for these offset classes + return + + vec = ( + DatetimeIndex( + [ + Timestamp("2000-01-05 00:15:00"), + Timestamp("2000-01-31 00:23:00"), + Timestamp("2000-01-01"), + Timestamp("2000-03-31"), + Timestamp("2000-02-29"), + Timestamp("2000-12-31"), + Timestamp("2000-05-15"), + Timestamp("2001-06-15"), + ] + ) + .as_unit(unit) + .tz_localize(tz) + ) + vec = tm.box_expected(vec, box_with_array) + vec_items = vec.iloc[0] if box_with_array is pd.DataFrame else vec + + offset_cls = getattr(pd.offsets, cls_name) + offset = offset_cls(n, normalize=normalize, **kwargs) + + # TODO(GH#55564): as_unit will be unnecessary + expected = DatetimeIndex([x + offset for x in vec_items]).as_unit(unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec + offset) + tm.assert_equal(expected, offset + vec) + + expected = DatetimeIndex([x - offset for x in vec_items]).as_unit(unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, vec - offset) + + expected = DatetimeIndex([offset + x for x in vec_items]).as_unit(unit) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(expected, offset + vec) + msg = "(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + offset - vec + + @pytest.mark.parametrize( + "other", + [ + np.array([pd.offsets.MonthEnd(), pd.offsets.Day(n=2)]), + np.array([pd.offsets.DateOffset(years=1), pd.offsets.MonthEnd()]), + np.array( # matching offsets + [pd.offsets.DateOffset(years=1), pd.offsets.DateOffset(years=1)] + ), + ], + ) + @pytest.mark.parametrize("op", [operator.add, roperator.radd, operator.sub]) + def test_dt64arr_add_sub_offset_array( + self, tz_naive_fixture, box_with_array, op, other + ): + # GH#18849 + # GH#10699 array of offsets + + tz = tz_naive_fixture + dti = date_range("2017-01-01", periods=2, tz=tz) + dtarr = tm.box_expected(dti, box_with_array) + + expected = DatetimeIndex([op(dti[n], other[n]) for n in range(len(dti))]) + expected = tm.box_expected(expected, box_with_array).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res = op(dtarr, other) + tm.assert_equal(res, expected) + + # Same thing but boxing other + other = tm.box_expected(other, box_with_array) + if box_with_array is pd.array and op is roperator.radd: + # We expect a NumpyExtensionArray, not ndarray[object] here + expected = pd.array(expected, dtype=object) + with tm.assert_produces_warning(PerformanceWarning): + res = op(dtarr, other) + tm.assert_equal(res, expected) + + @pytest.mark.parametrize( + "op, offset, exp, exp_freq", + [ + ( + "__add__", + DateOffset(months=3, days=10), + [ + Timestamp("2014-04-11"), + Timestamp("2015-04-11"), + Timestamp("2016-04-11"), + Timestamp("2017-04-11"), + ], + None, + ), + ( + "__add__", + DateOffset(months=3), + [ + Timestamp("2014-04-01"), + Timestamp("2015-04-01"), + Timestamp("2016-04-01"), + Timestamp("2017-04-01"), + ], + "YS-APR", + ), + ( + "__sub__", + DateOffset(months=3, days=10), + [ + Timestamp("2013-09-21"), + Timestamp("2014-09-21"), + Timestamp("2015-09-21"), + Timestamp("2016-09-21"), + ], + None, + ), + ( + "__sub__", + DateOffset(months=3), + [ + Timestamp("2013-10-01"), + Timestamp("2014-10-01"), + Timestamp("2015-10-01"), + Timestamp("2016-10-01"), + ], + "YS-OCT", + ), + ], + ) + def test_dti_add_sub_nonzero_mth_offset( + self, op, offset, exp, exp_freq, tz_aware_fixture, box_with_array + ): + # GH 26258 + tz = tz_aware_fixture + date = date_range(start="01 Jan 2014", end="01 Jan 2017", freq="YS", tz=tz) + date = tm.box_expected(date, box_with_array, False) + mth = getattr(date, op) + result = mth(offset) + + expected = DatetimeIndex(exp, tz=tz).as_unit("ns") + expected = tm.box_expected(expected, box_with_array, False) + tm.assert_equal(result, expected) + + def test_dt64arr_series_add_DateOffset_with_milli(self): + # GH 57529 + dti = DatetimeIndex( + [ + "2000-01-01 00:00:00.012345678", + "2000-01-31 00:00:00.012345678", + "2000-02-29 00:00:00.012345678", + ], + dtype="datetime64[ns]", + ) + result = dti + DateOffset(milliseconds=4) + expected = DatetimeIndex( + [ + "2000-01-01 00:00:00.016345678", + "2000-01-31 00:00:00.016345678", + "2000-02-29 00:00:00.016345678", + ], + dtype="datetime64[ns]", + ) + tm.assert_index_equal(result, expected) + + result = dti + DateOffset(days=1, milliseconds=4) + expected = DatetimeIndex( + [ + "2000-01-02 00:00:00.016345678", + "2000-02-01 00:00:00.016345678", + "2000-03-01 00:00:00.016345678", + ], + dtype="datetime64[ns]", + ) + tm.assert_index_equal(result, expected) + + +class TestDatetime64OverflowHandling: + # TODO: box + de-duplicate + + def test_dt64_overflow_masking(self, box_with_array): + # GH#25317 + left = Series([Timestamp("1969-12-31")], dtype="M8[ns]") + right = Series([NaT]) + + left = tm.box_expected(left, box_with_array) + right = tm.box_expected(right, box_with_array) + + expected = TimedeltaIndex([NaT], dtype="m8[ns]") + expected = tm.box_expected(expected, box_with_array) + + result = left - right + tm.assert_equal(result, expected) + + def test_dt64_series_arith_overflow(self): + # GH#12534, fixed by GH#19024 + dt = Timestamp("1700-01-31") + td = Timedelta("20000 Days") + dti = date_range("1949-09-30", freq="100YE", periods=4) + ser = Series(dti) + msg = "Overflow in int64 addition" + with pytest.raises(OverflowError, match=msg): + ser - dt + with pytest.raises(OverflowError, match=msg): + dt - ser + with pytest.raises(OverflowError, match=msg): + ser + td + with pytest.raises(OverflowError, match=msg): + td + ser + + ser.iloc[-1] = NaT + expected = Series( + ["2004-10-03", "2104-10-04", "2204-10-04", "NaT"], dtype="datetime64[ns]" + ) + res = ser + td + tm.assert_series_equal(res, expected) + res = td + ser + tm.assert_series_equal(res, expected) + + ser.iloc[1:] = NaT + expected = Series(["91279 Days", "NaT", "NaT", "NaT"], dtype="timedelta64[ns]") + res = ser - dt + tm.assert_series_equal(res, expected) + res = dt - ser + tm.assert_series_equal(res, -expected) + + def test_datetimeindex_sub_timestamp_overflow(self): + dtimax = pd.to_datetime(["2021-12-28 17:19", Timestamp.max]).as_unit("ns") + dtimin = pd.to_datetime(["2021-12-28 17:19", Timestamp.min]).as_unit("ns") + + tsneg = Timestamp("1950-01-01").as_unit("ns") + ts_neg_variants = [ + tsneg, + tsneg.to_pydatetime(), + tsneg.to_datetime64().astype("datetime64[ns]"), + tsneg.to_datetime64().astype("datetime64[D]"), + ] + + tspos = Timestamp("1980-01-01").as_unit("ns") + ts_pos_variants = [ + tspos, + tspos.to_pydatetime(), + tspos.to_datetime64().astype("datetime64[ns]"), + tspos.to_datetime64().astype("datetime64[D]"), + ] + msg = "Overflow in int64 addition" + for variant in ts_neg_variants: + with pytest.raises(OverflowError, match=msg): + dtimax - variant + + expected = Timestamp.max._value - tspos._value + for variant in ts_pos_variants: + res = dtimax - variant + assert res[1]._value == expected + + expected = Timestamp.min._value - tsneg._value + for variant in ts_neg_variants: + res = dtimin - variant + assert res[1]._value == expected + + for variant in ts_pos_variants: + with pytest.raises(OverflowError, match=msg): + dtimin - variant + + def test_datetimeindex_sub_datetimeindex_overflow(self): + # GH#22492, GH#22508 + dtimax = pd.to_datetime(["2021-12-28 17:19", Timestamp.max]).as_unit("ns") + dtimin = pd.to_datetime(["2021-12-28 17:19", Timestamp.min]).as_unit("ns") + + ts_neg = pd.to_datetime(["1950-01-01", "1950-01-01"]).as_unit("ns") + ts_pos = pd.to_datetime(["1980-01-01", "1980-01-01"]).as_unit("ns") + + # General tests + expected = Timestamp.max._value - ts_pos[1]._value + result = dtimax - ts_pos + assert result[1]._value == expected + + expected = Timestamp.min._value - ts_neg[1]._value + result = dtimin - ts_neg + assert result[1]._value == expected + msg = "Overflow in int64 addition" + with pytest.raises(OverflowError, match=msg): + dtimax - ts_neg + + with pytest.raises(OverflowError, match=msg): + dtimin - ts_pos + + # Edge cases + tmin = pd.to_datetime([Timestamp.min]) + t1 = tmin + Timedelta.max + Timedelta("1us") + with pytest.raises(OverflowError, match=msg): + t1 - tmin + + tmax = pd.to_datetime([Timestamp.max]) + t2 = tmax + Timedelta.min - Timedelta("1us") + with pytest.raises(OverflowError, match=msg): + tmax - t2 + + +class TestTimestampSeriesArithmetic: + def test_empty_series_add_sub(self, box_with_array): + # GH#13844 + a = Series(dtype="M8[ns]") + b = Series(dtype="m8[ns]") + a = box_with_array(a) + b = box_with_array(b) + tm.assert_equal(a, a + b) + tm.assert_equal(a, a - b) + tm.assert_equal(a, b + a) + msg = "cannot subtract" + with pytest.raises(TypeError, match=msg): + b - a + + def test_operators_datetimelike(self): + # ## timedelta64 ### + td1 = Series([timedelta(minutes=5, seconds=3)] * 3) + td1.iloc[2] = np.nan + + # ## datetime64 ### + dt1 = Series( + [ + Timestamp("20111230"), + Timestamp("20120101"), + Timestamp("20120103"), + ] + ) + dt1.iloc[2] = np.nan + dt2 = Series( + [ + Timestamp("20111231"), + Timestamp("20120102"), + Timestamp("20120104"), + ] + ) + dt1 - dt2 + dt2 - dt1 + + # datetime64 with timetimedelta + dt1 + td1 + td1 + dt1 + dt1 - td1 + + # timetimedelta with datetime64 + td1 + dt1 + dt1 + td1 + + def test_dt64ser_sub_datetime_dtype(self, unit): + ts = Timestamp(datetime(1993, 1, 7, 13, 30, 00)) + dt = datetime(1993, 6, 22, 13, 30) + ser = Series([ts], dtype=f"M8[{unit}]") + result = ser - dt + + # the expected unit is the max of `unit` and the unit imputed to `dt`, + # which is "us" + exp_unit = tm.get_finest_unit(unit, "us") + assert result.dtype == f"timedelta64[{exp_unit}]" + + # ------------------------------------------------------------- + # TODO: This next block of tests came from tests.series.test_operators, + # needs to be de-duplicated and parametrized over `box` classes + + @pytest.mark.parametrize( + "left, right, op_fail", + [ + [ + [Timestamp("20111230"), Timestamp("20120101"), NaT], + [Timestamp("20111231"), Timestamp("20120102"), Timestamp("20120104")], + ["__sub__", "__rsub__"], + ], + [ + [Timestamp("20111230"), Timestamp("20120101"), NaT], + [timedelta(minutes=5, seconds=3), timedelta(minutes=5, seconds=3), NaT], + ["__add__", "__radd__", "__sub__"], + ], + [ + [ + Timestamp("20111230", tz="US/Eastern"), + Timestamp("20111230", tz="US/Eastern"), + NaT, + ], + [timedelta(minutes=5, seconds=3), NaT, timedelta(minutes=5, seconds=3)], + ["__add__", "__radd__", "__sub__"], + ], + ], + ) + def test_operators_datetimelike_invalid( + self, left, right, op_fail, all_arithmetic_operators + ): + # these are all TypeError ops + op_str = all_arithmetic_operators + arg1 = Series(left) + arg2 = Series(right) + # check that we are getting a TypeError + # with 'operate' (from core/ops.py) for the ops that are not + # defined + op = getattr(arg1, op_str, None) + # Previously, _validate_for_numeric_binop in core/indexes/base.py + # did this for us. + if op_str not in op_fail: + with pytest.raises( + TypeError, match="operate|[cC]annot|unsupported operand" + ): + op(arg2) + else: + # Smoke test + op(arg2) + + def test_sub_single_tz(self, unit): + # GH#12290 + s1 = Series([Timestamp("2016-02-10", tz="America/Sao_Paulo")]).dt.as_unit(unit) + s2 = Series([Timestamp("2016-02-08", tz="America/Sao_Paulo")]).dt.as_unit(unit) + result = s1 - s2 + expected = Series([Timedelta("2days")]).dt.as_unit(unit) + tm.assert_series_equal(result, expected) + result = s2 - s1 + expected = Series([Timedelta("-2days")]).dt.as_unit(unit) + tm.assert_series_equal(result, expected) + + def test_dt64tz_series_sub_dtitz(self): + # GH#19071 subtracting tzaware DatetimeIndex from tzaware Series + # (with same tz) raises, fixed by #19024 + dti = date_range("1999-09-30", periods=10, tz="US/Pacific") + ser = Series(dti) + expected = Series(TimedeltaIndex(["0days"] * 10)) + + res = dti - ser + tm.assert_series_equal(res, expected) + res = ser - dti + tm.assert_series_equal(res, expected) + + def test_sub_datetime_compat(self, unit): + # see GH#14088 + ser = Series([datetime(2016, 8, 23, 12, tzinfo=pytz.utc), NaT]).dt.as_unit(unit) + dt = datetime(2016, 8, 22, 12, tzinfo=pytz.utc) + # The datetime object has "us" so we upcast lower units + exp_unit = tm.get_finest_unit(unit, "us") + exp = Series([Timedelta("1 days"), NaT]).dt.as_unit(exp_unit) + result = ser - dt + tm.assert_series_equal(result, exp) + result2 = ser - Timestamp(dt) + tm.assert_series_equal(result2, exp) + + def test_dt64_series_add_mixed_tick_DateOffset(self): + # GH#4532 + # operate with pd.offsets + s = Series([Timestamp("20130101 9:01"), Timestamp("20130101 9:02")]) + + result = s + pd.offsets.Milli(5) + result2 = pd.offsets.Milli(5) + s + expected = Series( + [Timestamp("20130101 9:01:00.005"), Timestamp("20130101 9:02:00.005")] + ) + tm.assert_series_equal(result, expected) + tm.assert_series_equal(result2, expected) + + result = s + pd.offsets.Minute(5) + pd.offsets.Milli(5) + expected = Series( + [Timestamp("20130101 9:06:00.005"), Timestamp("20130101 9:07:00.005")] + ) + tm.assert_series_equal(result, expected) + + def test_datetime64_ops_nat(self, unit): + # GH#11349 + datetime_series = Series([NaT, Timestamp("19900315")]).dt.as_unit(unit) + nat_series_dtype_timestamp = Series([NaT, NaT], dtype=f"datetime64[{unit}]") + single_nat_dtype_datetime = Series([NaT], dtype=f"datetime64[{unit}]") + + # subtraction + tm.assert_series_equal(-NaT + datetime_series, nat_series_dtype_timestamp) + msg = "bad operand type for unary -: 'DatetimeArray'" + with pytest.raises(TypeError, match=msg): + -single_nat_dtype_datetime + datetime_series + + tm.assert_series_equal( + -NaT + nat_series_dtype_timestamp, nat_series_dtype_timestamp + ) + with pytest.raises(TypeError, match=msg): + -single_nat_dtype_datetime + nat_series_dtype_timestamp + + # addition + tm.assert_series_equal( + nat_series_dtype_timestamp + NaT, nat_series_dtype_timestamp + ) + tm.assert_series_equal( + NaT + nat_series_dtype_timestamp, nat_series_dtype_timestamp + ) + + tm.assert_series_equal( + nat_series_dtype_timestamp + NaT, nat_series_dtype_timestamp + ) + tm.assert_series_equal( + NaT + nat_series_dtype_timestamp, nat_series_dtype_timestamp + ) + + # ------------------------------------------------------------- + # Timezone-Centric Tests + + def test_operators_datetimelike_with_timezones(self): + tz = "US/Eastern" + dt1 = Series(date_range("2000-01-01 09:00:00", periods=5, tz=tz), name="foo") + dt2 = dt1.copy() + dt2.iloc[2] = np.nan + + td1 = Series(pd.timedelta_range("1 days 1 min", periods=5, freq="h")) + td2 = td1.copy() + td2.iloc[1] = np.nan + assert td2._values.freq is None + + result = dt1 + td1[0] + exp = (dt1.dt.tz_localize(None) + td1[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = dt2 + td2[0] + exp = (dt2.dt.tz_localize(None) + td2[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + # odd numpy behavior with scalar timedeltas + result = td1[0] + dt1 + exp = (dt1.dt.tz_localize(None) + td1[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = td2[0] + dt2 + exp = (dt2.dt.tz_localize(None) + td2[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = dt1 - td1[0] + exp = (dt1.dt.tz_localize(None) - td1[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + msg = "(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + td1[0] - dt1 + + result = dt2 - td2[0] + exp = (dt2.dt.tz_localize(None) - td2[0]).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + with pytest.raises(TypeError, match=msg): + td2[0] - dt2 + + result = dt1 + td1 + exp = (dt1.dt.tz_localize(None) + td1).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = dt2 + td2 + exp = (dt2.dt.tz_localize(None) + td2).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = dt1 - td1 + exp = (dt1.dt.tz_localize(None) - td1).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + + result = dt2 - td2 + exp = (dt2.dt.tz_localize(None) - td2).dt.tz_localize(tz) + tm.assert_series_equal(result, exp) + msg = "cannot (add|subtract)" + with pytest.raises(TypeError, match=msg): + td1 - dt1 + with pytest.raises(TypeError, match=msg): + td2 - dt2 + + +class TestDatetimeIndexArithmetic: + # ------------------------------------------------------------- + # Binary operations DatetimeIndex and TimedeltaIndex/array + + def test_dti_add_tdi(self, tz_naive_fixture): + # GH#17558 + tz = tz_naive_fixture + dti = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10) + tdi = pd.timedelta_range("0 days", periods=10) + expected = date_range("2017-01-01", periods=10, tz=tz) + expected = expected._with_freq(None) + + # add with TimedeltaIndex + result = dti + tdi + tm.assert_index_equal(result, expected) + + result = tdi + dti + tm.assert_index_equal(result, expected) + + # add with timedelta64 array + result = dti + tdi.values + tm.assert_index_equal(result, expected) + + result = tdi.values + dti + tm.assert_index_equal(result, expected) + + def test_dti_iadd_tdi(self, tz_naive_fixture): + # GH#17558 + tz = tz_naive_fixture + dti = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10) + tdi = pd.timedelta_range("0 days", periods=10) + expected = date_range("2017-01-01", periods=10, tz=tz) + expected = expected._with_freq(None) + + # iadd with TimedeltaIndex + result = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10) + result += tdi + tm.assert_index_equal(result, expected) + + result = pd.timedelta_range("0 days", periods=10) + result += dti + tm.assert_index_equal(result, expected) + + # iadd with timedelta64 array + result = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10) + result += tdi.values + tm.assert_index_equal(result, expected) + + result = pd.timedelta_range("0 days", periods=10) + result += dti + tm.assert_index_equal(result, expected) + + def test_dti_sub_tdi(self, tz_naive_fixture): + # GH#17558 + tz = tz_naive_fixture + dti = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10) + tdi = pd.timedelta_range("0 days", periods=10) + expected = date_range("2017-01-01", periods=10, tz=tz, freq="-1D") + expected = expected._with_freq(None) + + # sub with TimedeltaIndex + result = dti - tdi + tm.assert_index_equal(result, expected) + + msg = "cannot subtract .*TimedeltaArray" + with pytest.raises(TypeError, match=msg): + tdi - dti + + # sub with timedelta64 array + result = dti - tdi.values + tm.assert_index_equal(result, expected) + + msg = "cannot subtract a datelike from a TimedeltaArray" + with pytest.raises(TypeError, match=msg): + tdi.values - dti + + def test_dti_isub_tdi(self, tz_naive_fixture, unit): + # GH#17558 + tz = tz_naive_fixture + dti = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10).as_unit(unit) + tdi = pd.timedelta_range("0 days", periods=10, unit=unit) + expected = date_range("2017-01-01", periods=10, tz=tz, freq="-1D", unit=unit) + expected = expected._with_freq(None) + + # isub with TimedeltaIndex + result = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10).as_unit(unit) + result -= tdi + tm.assert_index_equal(result, expected) + + # DTA.__isub__ GH#43904 + dta = dti._data.copy() + dta -= tdi + tm.assert_datetime_array_equal(dta, expected._data) + + out = dti._data.copy() + np.subtract(out, tdi, out=out) + tm.assert_datetime_array_equal(out, expected._data) + + msg = "cannot subtract a datelike from a TimedeltaArray" + with pytest.raises(TypeError, match=msg): + tdi -= dti + + # isub with timedelta64 array + result = DatetimeIndex([Timestamp("2017-01-01", tz=tz)] * 10).as_unit(unit) + result -= tdi.values + tm.assert_index_equal(result, expected) + + with pytest.raises(TypeError, match=msg): + tdi.values -= dti + + with pytest.raises(TypeError, match=msg): + tdi._values -= dti + + # ------------------------------------------------------------- + # Binary Operations DatetimeIndex and datetime-like + # TODO: A couple other tests belong in this section. Move them in + # A PR where there isn't already a giant diff. + + # ------------------------------------------------------------- + + def test_dta_add_sub_index(self, tz_naive_fixture): + # Check that DatetimeArray defers to Index classes + dti = date_range("20130101", periods=3, tz=tz_naive_fixture) + dta = dti.array + result = dta - dti + expected = dti - dti + tm.assert_index_equal(result, expected) + + tdi = result + result = dta + tdi + expected = dti + tdi + tm.assert_index_equal(result, expected) + + result = dta - tdi + expected = dti - tdi + tm.assert_index_equal(result, expected) + + def test_sub_dti_dti(self, unit): + # previously performed setop (deprecated in 0.16.0), now changed to + # return subtraction -> TimeDeltaIndex (GH ...) + + dti = date_range("20130101", periods=3, unit=unit) + dti_tz = date_range("20130101", periods=3, unit=unit).tz_localize("US/Eastern") + expected = TimedeltaIndex([0, 0, 0]).as_unit(unit) + + result = dti - dti + tm.assert_index_equal(result, expected) + + result = dti_tz - dti_tz + tm.assert_index_equal(result, expected) + msg = "Cannot subtract tz-naive and tz-aware datetime-like objects" + with pytest.raises(TypeError, match=msg): + dti_tz - dti + + with pytest.raises(TypeError, match=msg): + dti - dti_tz + + # isub + dti -= dti + tm.assert_index_equal(dti, expected) + + # different length raises ValueError + dti1 = date_range("20130101", periods=3, unit=unit) + dti2 = date_range("20130101", periods=4, unit=unit) + msg = "cannot add indices of unequal length" + with pytest.raises(ValueError, match=msg): + dti1 - dti2 + + # NaN propagation + dti1 = DatetimeIndex(["2012-01-01", np.nan, "2012-01-03"]).as_unit(unit) + dti2 = DatetimeIndex(["2012-01-02", "2012-01-03", np.nan]).as_unit(unit) + expected = TimedeltaIndex(["1 days", np.nan, np.nan]).as_unit(unit) + result = dti2 - dti1 + tm.assert_index_equal(result, expected) + + # ------------------------------------------------------------------- + # TODO: Most of this block is moved from series or frame tests, needs + # cleanup, box-parametrization, and de-duplication + + @pytest.mark.parametrize("op", [operator.add, operator.sub]) + def test_timedelta64_equal_timedelta_supported_ops(self, op, box_with_array): + ser = Series( + [ + Timestamp("20130301"), + Timestamp("20130228 23:00:00"), + Timestamp("20130228 22:00:00"), + Timestamp("20130228 21:00:00"), + ] + ) + obj = box_with_array(ser) + + intervals = ["D", "h", "m", "s", "us"] + + def timedelta64(*args): + # see casting notes in NumPy gh-12927 + return np.sum(list(starmap(np.timedelta64, zip(args, intervals)))) + + for d, h, m, s, us in product(*([range(2)] * 5)): + nptd = timedelta64(d, h, m, s, us) + pytd = timedelta(days=d, hours=h, minutes=m, seconds=s, microseconds=us) + lhs = op(obj, nptd) + rhs = op(obj, pytd) + + tm.assert_equal(lhs, rhs) + + def test_ops_nat_mixed_datetime64_timedelta64(self): + # GH#11349 + timedelta_series = Series([NaT, Timedelta("1s")]) + datetime_series = Series([NaT, Timestamp("19900315")]) + nat_series_dtype_timedelta = Series([NaT, NaT], dtype="timedelta64[ns]") + nat_series_dtype_timestamp = Series([NaT, NaT], dtype="datetime64[ns]") + single_nat_dtype_datetime = Series([NaT], dtype="datetime64[ns]") + single_nat_dtype_timedelta = Series([NaT], dtype="timedelta64[ns]") + + # subtraction + tm.assert_series_equal( + datetime_series - single_nat_dtype_datetime, nat_series_dtype_timedelta + ) + + tm.assert_series_equal( + datetime_series - single_nat_dtype_timedelta, nat_series_dtype_timestamp + ) + tm.assert_series_equal( + -single_nat_dtype_timedelta + datetime_series, nat_series_dtype_timestamp + ) + + # without a Series wrapping the NaT, it is ambiguous + # whether it is a datetime64 or timedelta64 + # defaults to interpreting it as timedelta64 + tm.assert_series_equal( + nat_series_dtype_timestamp - single_nat_dtype_datetime, + nat_series_dtype_timedelta, + ) + + tm.assert_series_equal( + nat_series_dtype_timestamp - single_nat_dtype_timedelta, + nat_series_dtype_timestamp, + ) + tm.assert_series_equal( + -single_nat_dtype_timedelta + nat_series_dtype_timestamp, + nat_series_dtype_timestamp, + ) + msg = "cannot subtract a datelike" + with pytest.raises(TypeError, match=msg): + timedelta_series - single_nat_dtype_datetime + + # addition + tm.assert_series_equal( + nat_series_dtype_timestamp + single_nat_dtype_timedelta, + nat_series_dtype_timestamp, + ) + tm.assert_series_equal( + single_nat_dtype_timedelta + nat_series_dtype_timestamp, + nat_series_dtype_timestamp, + ) + + tm.assert_series_equal( + nat_series_dtype_timestamp + single_nat_dtype_timedelta, + nat_series_dtype_timestamp, + ) + tm.assert_series_equal( + single_nat_dtype_timedelta + nat_series_dtype_timestamp, + nat_series_dtype_timestamp, + ) + + tm.assert_series_equal( + nat_series_dtype_timedelta + single_nat_dtype_datetime, + nat_series_dtype_timestamp, + ) + tm.assert_series_equal( + single_nat_dtype_datetime + nat_series_dtype_timedelta, + nat_series_dtype_timestamp, + ) + + def test_ufunc_coercions(self, unit): + idx = date_range("2011-01-01", periods=3, freq="2D", name="x", unit=unit) + + delta = np.timedelta64(1, "D") + exp = date_range("2011-01-02", periods=3, freq="2D", name="x", unit=unit) + for result in [idx + delta, np.add(idx, delta)]: + assert isinstance(result, DatetimeIndex) + tm.assert_index_equal(result, exp) + assert result.freq == "2D" + + exp = date_range("2010-12-31", periods=3, freq="2D", name="x", unit=unit) + + for result in [idx - delta, np.subtract(idx, delta)]: + assert isinstance(result, DatetimeIndex) + tm.assert_index_equal(result, exp) + assert result.freq == "2D" + + # When adding/subtracting an ndarray (which has no .freq), the result + # does not infer freq + idx = idx._with_freq(None) + delta = np.array( + [np.timedelta64(1, "D"), np.timedelta64(2, "D"), np.timedelta64(3, "D")] + ) + exp = DatetimeIndex( + ["2011-01-02", "2011-01-05", "2011-01-08"], name="x" + ).as_unit(unit) + + for result in [idx + delta, np.add(idx, delta)]: + tm.assert_index_equal(result, exp) + assert result.freq == exp.freq + + exp = DatetimeIndex( + ["2010-12-31", "2011-01-01", "2011-01-02"], name="x" + ).as_unit(unit) + for result in [idx - delta, np.subtract(idx, delta)]: + assert isinstance(result, DatetimeIndex) + tm.assert_index_equal(result, exp) + assert result.freq == exp.freq + + def test_dti_add_series(self, tz_naive_fixture, names): + # GH#13905 + tz = tz_naive_fixture + index = DatetimeIndex( + ["2016-06-28 05:30", "2016-06-28 05:31"], tz=tz, name=names[0] + ).as_unit("ns") + ser = Series([Timedelta(seconds=5)] * 2, index=index, name=names[1]) + expected = Series(index + Timedelta(seconds=5), index=index, name=names[2]) + + # passing name arg isn't enough when names[2] is None + expected.name = names[2] + assert expected.dtype == index.dtype + result = ser + index + tm.assert_series_equal(result, expected) + result2 = index + ser + tm.assert_series_equal(result2, expected) + + expected = index + Timedelta(seconds=5) + result3 = ser.values + index + tm.assert_index_equal(result3, expected) + result4 = index + ser.values + tm.assert_index_equal(result4, expected) + + @pytest.mark.parametrize("op", [operator.add, roperator.radd, operator.sub]) + def test_dti_addsub_offset_arraylike( + self, tz_naive_fixture, names, op, index_or_series + ): + # GH#18849, GH#19744 + other_box = index_or_series + + tz = tz_naive_fixture + dti = date_range("2017-01-01", periods=2, tz=tz, name=names[0]) + other = other_box([pd.offsets.MonthEnd(), pd.offsets.Day(n=2)], name=names[1]) + + xbox = get_upcast_box(dti, other) + + with tm.assert_produces_warning(PerformanceWarning): + res = op(dti, other) + + expected = DatetimeIndex( + [op(dti[n], other[n]) for n in range(len(dti))], name=names[2], freq="infer" + ) + expected = tm.box_expected(expected, xbox).astype(object) + tm.assert_equal(res, expected) + + @pytest.mark.parametrize("other_box", [pd.Index, np.array]) + def test_dti_addsub_object_arraylike( + self, tz_naive_fixture, box_with_array, other_box + ): + tz = tz_naive_fixture + + dti = date_range("2017-01-01", periods=2, tz=tz) + dtarr = tm.box_expected(dti, box_with_array) + other = other_box([pd.offsets.MonthEnd(), Timedelta(days=4)]) + xbox = get_upcast_box(dtarr, other) + + expected = DatetimeIndex(["2017-01-31", "2017-01-06"], tz=tz_naive_fixture) + expected = tm.box_expected(expected, xbox).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + result = dtarr + other + tm.assert_equal(result, expected) + + expected = DatetimeIndex(["2016-12-31", "2016-12-29"], tz=tz_naive_fixture) + expected = tm.box_expected(expected, xbox).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + result = dtarr - other + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("years", [-1, 0, 1]) +@pytest.mark.parametrize("months", [-2, 0, 2]) +@pytest.mark.parametrize("unit", ["s", "ms", "us", "ns"]) +def test_shift_months(years, months, unit): + dti = DatetimeIndex( + [ + Timestamp("2000-01-05 00:15:00"), + Timestamp("2000-01-31 00:23:00"), + Timestamp("2000-01-01"), + Timestamp("2000-02-29"), + Timestamp("2000-12-31"), + ] + ).as_unit(unit) + shifted = shift_months(dti.asi8, years * 12 + months, reso=dti._data._creso) + shifted_dt64 = shifted.view(f"M8[{dti.unit}]") + actual = DatetimeIndex(shifted_dt64) + + raw = [x + pd.offsets.DateOffset(years=years, months=months) for x in dti] + expected = DatetimeIndex(raw).as_unit(dti.unit) + tm.assert_index_equal(actual, expected) + + +def test_dt64arr_addsub_object_dtype_2d(): + # block-wise DataFrame operations will require operating on 2D + # DatetimeArray/TimedeltaArray, so check that specifically. + dti = date_range("1994-02-13", freq="2W", periods=4) + dta = dti._data.reshape((4, 1)) + + other = np.array([[pd.offsets.Day(n)] for n in range(4)]) + assert other.shape == dta.shape + + with tm.assert_produces_warning(PerformanceWarning): + result = dta + other + with tm.assert_produces_warning(PerformanceWarning): + expected = (dta[:, 0] + other[:, 0]).reshape(-1, 1) + + tm.assert_numpy_array_equal(result, expected) + + with tm.assert_produces_warning(PerformanceWarning): + # Case where we expect to get a TimedeltaArray back + result2 = dta - dta.astype(object) + + assert result2.shape == (4, 1) + assert all(td._value == 0 for td in result2.ravel()) + + +def test_non_nano_dt64_addsub_np_nat_scalars(): + # GH 52295 + ser = Series([1233242342344, 232432434324, 332434242344], dtype="datetime64[ms]") + result = ser - np.datetime64("nat", "ms") + expected = Series([NaT] * 3, dtype="timedelta64[ms]") + tm.assert_series_equal(result, expected) + + result = ser + np.timedelta64("nat", "ms") + expected = Series([NaT] * 3, dtype="datetime64[ms]") + tm.assert_series_equal(result, expected) + + +def test_non_nano_dt64_addsub_np_nat_scalars_unitless(): + # GH 52295 + # TODO: Can we default to the ser unit? + ser = Series([1233242342344, 232432434324, 332434242344], dtype="datetime64[ms]") + result = ser - np.datetime64("nat") + expected = Series([NaT] * 3, dtype="timedelta64[ns]") + tm.assert_series_equal(result, expected) + + result = ser + np.timedelta64("nat") + expected = Series([NaT] * 3, dtype="datetime64[ns]") + tm.assert_series_equal(result, expected) + + +def test_non_nano_dt64_addsub_np_nat_scalars_unsupported_unit(): + # GH 52295 + ser = Series([12332, 23243, 33243], dtype="datetime64[s]") + result = ser - np.datetime64("nat", "D") + expected = Series([NaT] * 3, dtype="timedelta64[s]") + tm.assert_series_equal(result, expected) + + result = ser + np.timedelta64("nat", "D") + expected = Series([NaT] * 3, dtype="datetime64[s]") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_interval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_interval.py new file mode 100644 index 0000000000000000000000000000000000000000..0e316cf419cb0d3be489f474a9c6d889e668e7c9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_interval.py @@ -0,0 +1,306 @@ +import operator + +import numpy as np +import pytest + +from pandas.core.dtypes.common import is_list_like + +import pandas as pd +from pandas import ( + Categorical, + Index, + Interval, + IntervalIndex, + Period, + Series, + Timedelta, + Timestamp, + date_range, + period_range, + timedelta_range, +) +import pandas._testing as tm +from pandas.core.arrays import ( + BooleanArray, + IntervalArray, +) +from pandas.tests.arithmetic.common import get_upcast_box + + +@pytest.fixture( + params=[ + (Index([0, 2, 4, 4]), Index([1, 3, 5, 8])), + (Index([0.0, 1.0, 2.0, np.nan]), Index([1.0, 2.0, 3.0, np.nan])), + ( + timedelta_range("0 days", periods=3).insert(3, pd.NaT), + timedelta_range("1 day", periods=3).insert(3, pd.NaT), + ), + ( + date_range("20170101", periods=3).insert(3, pd.NaT), + date_range("20170102", periods=3).insert(3, pd.NaT), + ), + ( + date_range("20170101", periods=3, tz="US/Eastern").insert(3, pd.NaT), + date_range("20170102", periods=3, tz="US/Eastern").insert(3, pd.NaT), + ), + ], + ids=lambda x: str(x[0].dtype), +) +def left_right_dtypes(request): + """ + Fixture for building an IntervalArray from various dtypes + """ + return request.param + + +@pytest.fixture +def interval_array(left_right_dtypes): + """ + Fixture to generate an IntervalArray of various dtypes containing NA if possible + """ + left, right = left_right_dtypes + return IntervalArray.from_arrays(left, right) + + +def create_categorical_intervals(left, right, closed="right"): + return Categorical(IntervalIndex.from_arrays(left, right, closed)) + + +def create_series_intervals(left, right, closed="right"): + return Series(IntervalArray.from_arrays(left, right, closed)) + + +def create_series_categorical_intervals(left, right, closed="right"): + return Series(Categorical(IntervalIndex.from_arrays(left, right, closed))) + + +class TestComparison: + @pytest.fixture(params=[operator.eq, operator.ne]) + def op(self, request): + return request.param + + @pytest.fixture( + params=[ + IntervalArray.from_arrays, + IntervalIndex.from_arrays, + create_categorical_intervals, + create_series_intervals, + create_series_categorical_intervals, + ], + ids=[ + "IntervalArray", + "IntervalIndex", + "Categorical[Interval]", + "Series[Interval]", + "Series[Categorical[Interval]]", + ], + ) + def interval_constructor(self, request): + """ + Fixture for all pandas native interval constructors. + To be used as the LHS of IntervalArray comparisons. + """ + return request.param + + def elementwise_comparison(self, op, interval_array, other): + """ + Helper that performs elementwise comparisons between `array` and `other` + """ + other = other if is_list_like(other) else [other] * len(interval_array) + expected = np.array([op(x, y) for x, y in zip(interval_array, other)]) + if isinstance(other, Series): + return Series(expected, index=other.index) + return expected + + def test_compare_scalar_interval(self, op, interval_array): + # matches first interval + other = interval_array[0] + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + # matches on a single endpoint but not both + other = Interval(interval_array.left[0], interval_array.right[1]) + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + def test_compare_scalar_interval_mixed_closed(self, op, closed, other_closed): + interval_array = IntervalArray.from_arrays(range(2), range(1, 3), closed=closed) + other = Interval(0, 1, closed=other_closed) + + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + def test_compare_scalar_na(self, op, interval_array, nulls_fixture, box_with_array): + box = box_with_array + obj = tm.box_expected(interval_array, box) + result = op(obj, nulls_fixture) + + if nulls_fixture is pd.NA: + # GH#31882 + exp = np.ones(interval_array.shape, dtype=bool) + expected = BooleanArray(exp, exp) + else: + expected = self.elementwise_comparison(op, interval_array, nulls_fixture) + + if not (box is Index and nulls_fixture is pd.NA): + # don't cast expected from BooleanArray to ndarray[object] + xbox = get_upcast_box(obj, nulls_fixture, True) + expected = tm.box_expected(expected, xbox) + + tm.assert_equal(result, expected) + + rev = op(nulls_fixture, obj) + tm.assert_equal(rev, expected) + + @pytest.mark.parametrize( + "other", + [ + 0, + 1.0, + True, + "foo", + Timestamp("2017-01-01"), + Timestamp("2017-01-01", tz="US/Eastern"), + Timedelta("0 days"), + Period("2017-01-01", "D"), + ], + ) + def test_compare_scalar_other(self, op, interval_array, other): + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + def test_compare_list_like_interval(self, op, interval_array, interval_constructor): + # same endpoints + other = interval_constructor(interval_array.left, interval_array.right) + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_equal(result, expected) + + # different endpoints + other = interval_constructor( + interval_array.left[::-1], interval_array.right[::-1] + ) + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_equal(result, expected) + + # all nan endpoints + other = interval_constructor([np.nan] * 4, [np.nan] * 4) + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_equal(result, expected) + + def test_compare_list_like_interval_mixed_closed( + self, op, interval_constructor, closed, other_closed + ): + interval_array = IntervalArray.from_arrays(range(2), range(1, 3), closed=closed) + other = interval_constructor(range(2), range(1, 3), closed=other_closed) + + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "other", + [ + ( + Interval(0, 1), + Interval(Timedelta("1 day"), Timedelta("2 days")), + Interval(4, 5, "both"), + Interval(10, 20, "neither"), + ), + (0, 1.5, Timestamp("20170103"), np.nan), + ( + Timestamp("20170102", tz="US/Eastern"), + Timedelta("2 days"), + "baz", + pd.NaT, + ), + ], + ) + def test_compare_list_like_object(self, op, interval_array, other): + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + def test_compare_list_like_nan(self, op, interval_array, nulls_fixture): + other = [nulls_fixture] * 4 + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "other", + [ + np.arange(4, dtype="int64"), + np.arange(4, dtype="float64"), + date_range("2017-01-01", periods=4), + date_range("2017-01-01", periods=4, tz="US/Eastern"), + timedelta_range("0 days", periods=4), + period_range("2017-01-01", periods=4, freq="D"), + Categorical(list("abab")), + Categorical(date_range("2017-01-01", periods=4)), + pd.array(list("abcd")), + pd.array(["foo", 3.14, None, object()], dtype=object), + ], + ids=lambda x: str(x.dtype), + ) + def test_compare_list_like_other(self, op, interval_array, other): + result = op(interval_array, other) + expected = self.elementwise_comparison(op, interval_array, other) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("length", [1, 3, 5]) + @pytest.mark.parametrize("other_constructor", [IntervalArray, list]) + def test_compare_length_mismatch_errors(self, op, other_constructor, length): + interval_array = IntervalArray.from_arrays(range(4), range(1, 5)) + other = other_constructor([Interval(0, 1)] * length) + with pytest.raises(ValueError, match="Lengths must match to compare"): + op(interval_array, other) + + @pytest.mark.parametrize( + "constructor, expected_type, assert_func", + [ + (IntervalIndex, np.array, tm.assert_numpy_array_equal), + (Series, Series, tm.assert_series_equal), + ], + ) + def test_index_series_compat(self, op, constructor, expected_type, assert_func): + # IntervalIndex/Series that rely on IntervalArray for comparisons + breaks = range(4) + index = constructor(IntervalIndex.from_breaks(breaks)) + + # scalar comparisons + other = index[0] + result = op(index, other) + expected = expected_type(self.elementwise_comparison(op, index, other)) + assert_func(result, expected) + + other = breaks[0] + result = op(index, other) + expected = expected_type(self.elementwise_comparison(op, index, other)) + assert_func(result, expected) + + # list-like comparisons + other = IntervalArray.from_breaks(breaks) + result = op(index, other) + expected = expected_type(self.elementwise_comparison(op, index, other)) + assert_func(result, expected) + + other = [index[0], breaks[0], "foo"] + result = op(index, other) + expected = expected_type(self.elementwise_comparison(op, index, other)) + assert_func(result, expected) + + @pytest.mark.parametrize("scalars", ["a", False, 1, 1.0, None]) + def test_comparison_operations(self, scalars): + # GH #28981 + expected = Series([False, False]) + s = Series([Interval(0, 1), Interval(1, 2)], dtype="interval") + result = s == scalars + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_numeric.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_numeric.py new file mode 100644 index 0000000000000000000000000000000000000000..d8c1786b6b422c32a0f396b43f51d75b2b3ffe25 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_numeric.py @@ -0,0 +1,1567 @@ +# Arithmetic tests for DataFrame/Series/Index/Array classes that should +# behave identically. +# Specifically for numeric dtypes +from __future__ import annotations + +from collections import abc +from datetime import timedelta +from decimal import Decimal +import operator + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + Index, + RangeIndex, + Series, + Timedelta, + TimedeltaIndex, + array, + date_range, +) +import pandas._testing as tm +from pandas.core import ops +from pandas.core.computation import expressions as expr +from pandas.tests.arithmetic.common import ( + assert_invalid_addsub_type, + assert_invalid_comparison, +) + + +@pytest.fixture(autouse=True, params=[0, 1000000], ids=["numexpr", "python"]) +def switch_numexpr_min_elements(request, monkeypatch): + with monkeypatch.context() as m: + m.setattr(expr, "_MIN_ELEMENTS", request.param) + yield request.param + + +@pytest.fixture(params=[Index, Series, tm.to_array]) +def box_pandas_1d_array(request): + """ + Fixture to test behavior for Index, Series and tm.to_array classes + """ + return request.param + + +@pytest.fixture( + params=[ + # TODO: add more dtypes here + Index(np.arange(5, dtype="float64")), + Index(np.arange(5, dtype="int64")), + Index(np.arange(5, dtype="uint64")), + RangeIndex(5), + ], + ids=lambda x: type(x).__name__, +) +def numeric_idx(request): + """ + Several types of numeric-dtypes Index objects + """ + return request.param + + +@pytest.fixture( + params=[Index, Series, tm.to_array, np.array, list], ids=lambda x: x.__name__ +) +def box_1d_array(request): + """ + Fixture to test behavior for Index, Series, tm.to_array, numpy Array and list + classes + """ + return request.param + + +def adjust_negative_zero(zero, expected): + """ + Helper to adjust the expected result if we are dividing by -0.0 + as opposed to 0.0 + """ + if np.signbit(np.array(zero)).any(): + # All entries in the `zero` fixture should be either + # all-negative or no-negative. + assert np.signbit(np.array(zero)).all() + + expected *= -1 + + return expected + + +def compare_op(series, other, op): + left = np.abs(series) if op in (ops.rpow, operator.pow) else series + right = np.abs(other) if op in (ops.rpow, operator.pow) else other + + cython_or_numpy = op(left, right) + python = left.combine(right, op) + if isinstance(other, Series) and not other.index.equals(series.index): + python.index = python.index._with_freq(None) + tm.assert_series_equal(cython_or_numpy, python) + + +# TODO: remove this kludge once mypy stops giving false positives here +# List comprehension has incompatible type List[PandasObject]; expected List[RangeIndex] +# See GH#29725 +_ldtypes = ["i1", "i2", "i4", "i8", "u1", "u2", "u4", "u8", "f2", "f4", "f8"] +lefts: list[Index | Series] = [RangeIndex(10, 40, 10)] +lefts.extend([Series([10, 20, 30], dtype=dtype) for dtype in _ldtypes]) +lefts.extend([Index([10, 20, 30], dtype=dtype) for dtype in _ldtypes if dtype != "f2"]) + +# ------------------------------------------------------------------ +# Comparisons + + +class TestNumericComparisons: + def test_operator_series_comparison_zerorank(self): + # GH#13006 + result = np.float64(0) > Series([1, 2, 3]) + expected = 0.0 > Series([1, 2, 3]) + tm.assert_series_equal(result, expected) + result = Series([1, 2, 3]) < np.float64(0) + expected = Series([1, 2, 3]) < 0.0 + tm.assert_series_equal(result, expected) + result = np.array([0, 1, 2])[0] > Series([0, 1, 2]) + expected = 0.0 > Series([1, 2, 3]) + tm.assert_series_equal(result, expected) + + def test_df_numeric_cmp_dt64_raises(self, box_with_array, fixed_now_ts): + # GH#8932, GH#22163 + ts = fixed_now_ts + obj = np.array(range(5)) + obj = tm.box_expected(obj, box_with_array) + + assert_invalid_comparison(obj, ts, box_with_array) + + def test_compare_invalid(self): + # GH#8058 + # ops testing + a = Series(np.random.default_rng(2).standard_normal(5), name=0) + b = Series(np.random.default_rng(2).standard_normal(5)) + b.name = pd.Timestamp("2000-01-01") + tm.assert_series_equal(a / b, 1 / (b / a)) + + def test_numeric_cmp_string_numexpr_path(self, box_with_array, monkeypatch): + # GH#36377, GH#35700 + box = box_with_array + xbox = box if box is not Index else np.ndarray + + obj = Series(np.random.default_rng(2).standard_normal(51)) + obj = tm.box_expected(obj, box, transpose=False) + with monkeypatch.context() as m: + m.setattr(expr, "_MIN_ELEMENTS", 50) + result = obj == "a" + + expected = Series(np.zeros(51, dtype=bool)) + expected = tm.box_expected(expected, xbox, transpose=False) + tm.assert_equal(result, expected) + + with monkeypatch.context() as m: + m.setattr(expr, "_MIN_ELEMENTS", 50) + result = obj != "a" + tm.assert_equal(result, ~expected) + + msg = "Invalid comparison between dtype=float64 and str" + with pytest.raises(TypeError, match=msg): + obj < "a" + + +# ------------------------------------------------------------------ +# Numeric dtypes Arithmetic with Datetime/Timedelta Scalar + + +class TestNumericArraylikeArithmeticWithDatetimeLike: + @pytest.mark.parametrize("box_cls", [np.array, Index, Series]) + @pytest.mark.parametrize( + "left", lefts, ids=lambda x: type(x).__name__ + str(x.dtype) + ) + def test_mul_td64arr(self, left, box_cls): + # GH#22390 + right = np.array([1, 2, 3], dtype="m8[s]") + right = box_cls(right) + + expected = TimedeltaIndex(["10s", "40s", "90s"], dtype=right.dtype) + + if isinstance(left, Series) or box_cls is Series: + expected = Series(expected) + assert expected.dtype == right.dtype + + result = left * right + tm.assert_equal(result, expected) + + result = right * left + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("box_cls", [np.array, Index, Series]) + @pytest.mark.parametrize( + "left", lefts, ids=lambda x: type(x).__name__ + str(x.dtype) + ) + def test_div_td64arr(self, left, box_cls): + # GH#22390 + right = np.array([10, 40, 90], dtype="m8[s]") + right = box_cls(right) + + expected = TimedeltaIndex(["1s", "2s", "3s"], dtype=right.dtype) + if isinstance(left, Series) or box_cls is Series: + expected = Series(expected) + assert expected.dtype == right.dtype + + result = right / left + tm.assert_equal(result, expected) + + result = right // left + tm.assert_equal(result, expected) + + # (true_) needed for min-versions build 2022-12-26 + msg = "ufunc '(true_)?divide' cannot use operands with types" + with pytest.raises(TypeError, match=msg): + left / right + + msg = "ufunc 'floor_divide' cannot use operands with types" + with pytest.raises(TypeError, match=msg): + left // right + + # TODO: also test Tick objects; + # see test_numeric_arr_rdiv_tdscalar for note on these failing + @pytest.mark.parametrize( + "scalar_td", + [ + Timedelta(days=1), + Timedelta(days=1).to_timedelta64(), + Timedelta(days=1).to_pytimedelta(), + Timedelta(days=1).to_timedelta64().astype("timedelta64[s]"), + Timedelta(days=1).to_timedelta64().astype("timedelta64[ms]"), + ], + ids=lambda x: type(x).__name__, + ) + def test_numeric_arr_mul_tdscalar(self, scalar_td, numeric_idx, box_with_array): + # GH#19333 + box = box_with_array + index = numeric_idx + expected = TimedeltaIndex([Timedelta(days=n) for n in range(len(index))]) + if isinstance(scalar_td, np.timedelta64): + dtype = scalar_td.dtype + expected = expected.astype(dtype) + elif type(scalar_td) is timedelta: + expected = expected.astype("m8[us]") + + index = tm.box_expected(index, box) + expected = tm.box_expected(expected, box) + + result = index * scalar_td + tm.assert_equal(result, expected) + + commute = scalar_td * index + tm.assert_equal(commute, expected) + + @pytest.mark.parametrize( + "scalar_td", + [ + Timedelta(days=1), + Timedelta(days=1).to_timedelta64(), + Timedelta(days=1).to_pytimedelta(), + ], + ids=lambda x: type(x).__name__, + ) + @pytest.mark.parametrize("dtype", [np.int64, np.float64]) + def test_numeric_arr_mul_tdscalar_numexpr_path( + self, dtype, scalar_td, box_with_array + ): + # GH#44772 for the float64 case + box = box_with_array + + arr_i8 = np.arange(2 * 10**4).astype(np.int64, copy=False) + arr = arr_i8.astype(dtype, copy=False) + obj = tm.box_expected(arr, box, transpose=False) + + expected = arr_i8.view("timedelta64[D]").astype("timedelta64[ns]") + if type(scalar_td) is timedelta: + expected = expected.astype("timedelta64[us]") + + expected = tm.box_expected(expected, box, transpose=False) + + result = obj * scalar_td + tm.assert_equal(result, expected) + + result = scalar_td * obj + tm.assert_equal(result, expected) + + def test_numeric_arr_rdiv_tdscalar(self, three_days, numeric_idx, box_with_array): + box = box_with_array + + index = numeric_idx[1:3] + + expected = TimedeltaIndex(["3 Days", "36 Hours"]) + if isinstance(three_days, np.timedelta64): + dtype = three_days.dtype + if dtype < np.dtype("m8[s]"): + # i.e. resolution is lower -> use lowest supported resolution + dtype = np.dtype("m8[s]") + expected = expected.astype(dtype) + elif type(three_days) is timedelta: + expected = expected.astype("m8[us]") + elif isinstance( + three_days, + (pd.offsets.Day, pd.offsets.Hour, pd.offsets.Minute, pd.offsets.Second), + ): + # closest reso is Second + expected = expected.astype("m8[s]") + + index = tm.box_expected(index, box) + expected = tm.box_expected(expected, box) + + result = three_days / index + tm.assert_equal(result, expected) + + msg = "cannot use operands with types dtype" + with pytest.raises(TypeError, match=msg): + index / three_days + + @pytest.mark.parametrize( + "other", + [ + Timedelta(hours=31), + Timedelta(hours=31).to_pytimedelta(), + Timedelta(hours=31).to_timedelta64(), + Timedelta(hours=31).to_timedelta64().astype("m8[h]"), + np.timedelta64("NaT"), + np.timedelta64("NaT", "D"), + pd.offsets.Minute(3), + pd.offsets.Second(0), + # GH#28080 numeric+datetimelike should raise; Timestamp used + # to raise NullFrequencyError but that behavior was removed in 1.0 + pd.Timestamp("2021-01-01", tz="Asia/Tokyo"), + pd.Timestamp("2021-01-01"), + pd.Timestamp("2021-01-01").to_pydatetime(), + pd.Timestamp("2021-01-01", tz="UTC").to_pydatetime(), + pd.Timestamp("2021-01-01").to_datetime64(), + np.datetime64("NaT", "ns"), + pd.NaT, + ], + ids=repr, + ) + def test_add_sub_datetimedeltalike_invalid( + self, numeric_idx, other, box_with_array + ): + box = box_with_array + + left = tm.box_expected(numeric_idx, box) + msg = "|".join( + [ + "unsupported operand type", + "Addition/subtraction of integers and integer-arrays", + "Instead of adding/subtracting", + "cannot use operands with types dtype", + "Concatenation operation is not implemented for NumPy arrays", + "Cannot (add|subtract) NaT (to|from) ndarray", + # pd.array vs np.datetime64 case + r"operand type\(s\) all returned NotImplemented from __array_ufunc__", + "can only perform ops with numeric values", + "cannot subtract DatetimeArray from ndarray", + # pd.Timedelta(1) + Index([0, 1, 2]) + "Cannot add or subtract Timedelta from integers", + ] + ) + assert_invalid_addsub_type(left, other, msg) + + +# ------------------------------------------------------------------ +# Arithmetic + + +class TestDivisionByZero: + def test_div_zero(self, zero, numeric_idx): + idx = numeric_idx + + expected = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64) + # We only adjust for Index, because Series does not yet apply + # the adjustment correctly. + expected2 = adjust_negative_zero(zero, expected) + + result = idx / zero + tm.assert_index_equal(result, expected2) + ser_compat = Series(idx).astype("i8") / np.array(zero).astype("i8") + tm.assert_series_equal(ser_compat, Series(expected)) + + def test_floordiv_zero(self, zero, numeric_idx): + idx = numeric_idx + + expected = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64) + # We only adjust for Index, because Series does not yet apply + # the adjustment correctly. + expected2 = adjust_negative_zero(zero, expected) + + result = idx // zero + tm.assert_index_equal(result, expected2) + ser_compat = Series(idx).astype("i8") // np.array(zero).astype("i8") + tm.assert_series_equal(ser_compat, Series(expected)) + + def test_mod_zero(self, zero, numeric_idx): + idx = numeric_idx + + expected = Index([np.nan, np.nan, np.nan, np.nan, np.nan], dtype=np.float64) + result = idx % zero + tm.assert_index_equal(result, expected) + ser_compat = Series(idx).astype("i8") % np.array(zero).astype("i8") + tm.assert_series_equal(ser_compat, Series(result)) + + def test_divmod_zero(self, zero, numeric_idx): + idx = numeric_idx + + exleft = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64) + exright = Index([np.nan, np.nan, np.nan, np.nan, np.nan], dtype=np.float64) + exleft = adjust_negative_zero(zero, exleft) + + result = divmod(idx, zero) + tm.assert_index_equal(result[0], exleft) + tm.assert_index_equal(result[1], exright) + + @pytest.mark.parametrize("op", [operator.truediv, operator.floordiv]) + def test_div_negative_zero(self, zero, numeric_idx, op): + # Check that -1 / -0.0 returns np.inf, not -np.inf + if numeric_idx.dtype == np.uint64: + pytest.skip(f"Div by negative 0 not relevant for {numeric_idx.dtype}") + idx = numeric_idx - 3 + + expected = Index([-np.inf, -np.inf, -np.inf, np.nan, np.inf], dtype=np.float64) + expected = adjust_negative_zero(zero, expected) + + result = op(idx, zero) + tm.assert_index_equal(result, expected) + + # ------------------------------------------------------------------ + + @pytest.mark.parametrize("dtype1", [np.int64, np.float64, np.uint64]) + def test_ser_div_ser( + self, + switch_numexpr_min_elements, + dtype1, + any_real_numpy_dtype, + ): + # no longer do integer div for any ops, but deal with the 0's + dtype2 = any_real_numpy_dtype + + first = Series([3, 4, 5, 8], name="first").astype(dtype1) + second = Series([0, 0, 0, 3], name="second").astype(dtype2) + + with np.errstate(all="ignore"): + expected = Series( + first.values.astype(np.float64) / second.values, + dtype="float64", + name=None, + ) + expected.iloc[0:3] = np.inf + if first.dtype == "int64" and second.dtype == "float32": + # when using numexpr, the casting rules are slightly different + # and int64/float32 combo results in float32 instead of float64 + if expr.USE_NUMEXPR and switch_numexpr_min_elements == 0: + expected = expected.astype("float32") + + result = first / second + tm.assert_series_equal(result, expected) + assert not result.equals(second / first) + + @pytest.mark.parametrize("dtype1", [np.int64, np.float64, np.uint64]) + def test_ser_divmod_zero(self, dtype1, any_real_numpy_dtype): + # GH#26987 + dtype2 = any_real_numpy_dtype + left = Series([1, 1]).astype(dtype1) + right = Series([0, 2]).astype(dtype2) + + # GH#27321 pandas convention is to set 1 // 0 to np.inf, as opposed + # to numpy which sets to np.nan; patch `expected[0]` below + expected = left // right, left % right + expected = list(expected) + expected[0] = expected[0].astype(np.float64) + expected[0][0] = np.inf + result = divmod(left, right) + + tm.assert_series_equal(result[0], expected[0]) + tm.assert_series_equal(result[1], expected[1]) + + # rdivmod case + result = divmod(left.values, right) + tm.assert_series_equal(result[0], expected[0]) + tm.assert_series_equal(result[1], expected[1]) + + def test_ser_divmod_inf(self): + left = Series([np.inf, 1.0]) + right = Series([np.inf, 2.0]) + + expected = left // right, left % right + result = divmod(left, right) + + tm.assert_series_equal(result[0], expected[0]) + tm.assert_series_equal(result[1], expected[1]) + + # rdivmod case + result = divmod(left.values, right) + tm.assert_series_equal(result[0], expected[0]) + tm.assert_series_equal(result[1], expected[1]) + + def test_rdiv_zero_compat(self): + # GH#8674 + zero_array = np.array([0] * 5) + data = np.random.default_rng(2).standard_normal(5) + expected = Series([0.0] * 5) + + result = zero_array / Series(data) + tm.assert_series_equal(result, expected) + + result = Series(zero_array) / data + tm.assert_series_equal(result, expected) + + result = Series(zero_array) / Series(data) + tm.assert_series_equal(result, expected) + + def test_div_zero_inf_signs(self): + # GH#9144, inf signing + ser = Series([-1, 0, 1], name="first") + expected = Series([-np.inf, np.nan, np.inf], name="first") + + result = ser / 0 + tm.assert_series_equal(result, expected) + + def test_rdiv_zero(self): + # GH#9144 + ser = Series([-1, 0, 1], name="first") + expected = Series([0.0, np.nan, 0.0], name="first") + + result = 0 / ser + tm.assert_series_equal(result, expected) + + def test_floordiv_div(self): + # GH#9144 + ser = Series([-1, 0, 1], name="first") + + result = ser // 0 + expected = Series([-np.inf, np.nan, np.inf], name="first") + tm.assert_series_equal(result, expected) + + def test_df_div_zero_df(self): + # integer div, but deal with the 0's (GH#9144) + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + result = df / df + + first = Series([1.0, 1.0, 1.0, 1.0]) + second = Series([np.nan, np.nan, np.nan, 1]) + expected = pd.DataFrame({"first": first, "second": second}) + tm.assert_frame_equal(result, expected) + + def test_df_div_zero_array(self): + # integer div, but deal with the 0's (GH#9144) + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + + first = Series([1.0, 1.0, 1.0, 1.0]) + second = Series([np.nan, np.nan, np.nan, 1]) + expected = pd.DataFrame({"first": first, "second": second}) + + with np.errstate(all="ignore"): + arr = df.values.astype("float") / df.values + result = pd.DataFrame(arr, index=df.index, columns=df.columns) + tm.assert_frame_equal(result, expected) + + def test_df_div_zero_int(self): + # integer div, but deal with the 0's (GH#9144) + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + + result = df / 0 + expected = pd.DataFrame(np.inf, index=df.index, columns=df.columns) + expected.iloc[0:3, 1] = np.nan + tm.assert_frame_equal(result, expected) + + # numpy has a slightly different (wrong) treatment + with np.errstate(all="ignore"): + arr = df.values.astype("float64") / 0 + result2 = pd.DataFrame(arr, index=df.index, columns=df.columns) + tm.assert_frame_equal(result2, expected) + + def test_df_div_zero_series_does_not_commute(self): + # integer div, but deal with the 0's (GH#9144) + df = pd.DataFrame(np.random.default_rng(2).standard_normal((10, 5))) + ser = df[0] + res = ser / df + res2 = df / ser + assert not res.fillna(0).equals(res2.fillna(0)) + + # ------------------------------------------------------------------ + # Mod By Zero + + def test_df_mod_zero_df(self, using_array_manager): + # GH#3590, modulo as ints + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + # this is technically wrong, as the integer portion is coerced to float + first = Series([0, 0, 0, 0]) + if not using_array_manager: + # INFO(ArrayManager) BlockManager doesn't preserve dtype per column + # while ArrayManager performs op column-wisedoes and thus preserves + # dtype if possible + first = first.astype("float64") + second = Series([np.nan, np.nan, np.nan, 0]) + expected = pd.DataFrame({"first": first, "second": second}) + result = df % df + tm.assert_frame_equal(result, expected) + + # GH#38939 If we dont pass copy=False, df is consolidated and + # result["first"] is float64 instead of int64 + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}, copy=False) + first = Series([0, 0, 0, 0], dtype="int64") + second = Series([np.nan, np.nan, np.nan, 0]) + expected = pd.DataFrame({"first": first, "second": second}) + result = df % df + tm.assert_frame_equal(result, expected) + + def test_df_mod_zero_array(self): + # GH#3590, modulo as ints + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + + # this is technically wrong, as the integer portion is coerced to float + # ### + first = Series([0, 0, 0, 0], dtype="float64") + second = Series([np.nan, np.nan, np.nan, 0]) + expected = pd.DataFrame({"first": first, "second": second}) + + # numpy has a slightly different (wrong) treatment + with np.errstate(all="ignore"): + arr = df.values % df.values + result2 = pd.DataFrame(arr, index=df.index, columns=df.columns, dtype="float64") + result2.iloc[0:3, 1] = np.nan + tm.assert_frame_equal(result2, expected) + + def test_df_mod_zero_int(self): + # GH#3590, modulo as ints + df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + + result = df % 0 + expected = pd.DataFrame(np.nan, index=df.index, columns=df.columns) + tm.assert_frame_equal(result, expected) + + # numpy has a slightly different (wrong) treatment + with np.errstate(all="ignore"): + arr = df.values.astype("float64") % 0 + result2 = pd.DataFrame(arr, index=df.index, columns=df.columns) + tm.assert_frame_equal(result2, expected) + + def test_df_mod_zero_series_does_not_commute(self): + # GH#3590, modulo as ints + # not commutative with series + df = pd.DataFrame(np.random.default_rng(2).standard_normal((10, 5))) + ser = df[0] + res = ser % df + res2 = df % ser + assert not res.fillna(0).equals(res2.fillna(0)) + + +class TestMultiplicationDivision: + # __mul__, __rmul__, __div__, __rdiv__, __floordiv__, __rfloordiv__ + # for non-timestamp/timedelta/period dtypes + + def test_divide_decimal(self, box_with_array): + # resolves issue GH#9787 + box = box_with_array + ser = Series([Decimal(10)]) + expected = Series([Decimal(5)]) + + ser = tm.box_expected(ser, box) + expected = tm.box_expected(expected, box) + + result = ser / Decimal(2) + + tm.assert_equal(result, expected) + + result = ser // Decimal(2) + tm.assert_equal(result, expected) + + def test_div_equiv_binop(self): + # Test Series.div as well as Series.__div__ + # float/integer issue + # GH#7785 + first = Series([1, 0], name="first") + second = Series([-0.01, -0.02], name="second") + expected = Series([-0.01, -np.inf]) + + result = second.div(first) + tm.assert_series_equal(result, expected, check_names=False) + + result = second / first + tm.assert_series_equal(result, expected) + + def test_div_int(self, numeric_idx): + idx = numeric_idx + result = idx / 1 + expected = idx.astype("float64") + tm.assert_index_equal(result, expected) + + result = idx / 2 + expected = Index(idx.values / 2) + tm.assert_index_equal(result, expected) + + @pytest.mark.parametrize("op", [operator.mul, ops.rmul, operator.floordiv]) + def test_mul_int_identity(self, op, numeric_idx, box_with_array): + idx = numeric_idx + idx = tm.box_expected(idx, box_with_array) + + result = op(idx, 1) + tm.assert_equal(result, idx) + + def test_mul_int_array(self, numeric_idx): + idx = numeric_idx + didx = idx * idx + + result = idx * np.array(5, dtype="int64") + tm.assert_index_equal(result, idx * 5) + + arr_dtype = "uint64" if idx.dtype == np.uint64 else "int64" + result = idx * np.arange(5, dtype=arr_dtype) + tm.assert_index_equal(result, didx) + + def test_mul_int_series(self, numeric_idx): + idx = numeric_idx + didx = idx * idx + + arr_dtype = "uint64" if idx.dtype == np.uint64 else "int64" + result = idx * Series(np.arange(5, dtype=arr_dtype)) + tm.assert_series_equal(result, Series(didx)) + + def test_mul_float_series(self, numeric_idx): + idx = numeric_idx + rng5 = np.arange(5, dtype="float64") + + result = idx * Series(rng5 + 0.1) + expected = Series(rng5 * (rng5 + 0.1)) + tm.assert_series_equal(result, expected) + + def test_mul_index(self, numeric_idx): + idx = numeric_idx + + result = idx * idx + tm.assert_index_equal(result, idx**2) + + def test_mul_datelike_raises(self, numeric_idx): + idx = numeric_idx + msg = "cannot perform __rmul__ with this index type" + with pytest.raises(TypeError, match=msg): + idx * date_range("20130101", periods=5) + + def test_mul_size_mismatch_raises(self, numeric_idx): + idx = numeric_idx + msg = "operands could not be broadcast together" + with pytest.raises(ValueError, match=msg): + idx * idx[0:3] + with pytest.raises(ValueError, match=msg): + idx * np.array([1, 2]) + + @pytest.mark.parametrize("op", [operator.pow, ops.rpow]) + def test_pow_float(self, op, numeric_idx, box_with_array): + # test power calculations both ways, GH#14973 + box = box_with_array + idx = numeric_idx + expected = Index(op(idx.values, 2.0)) + + idx = tm.box_expected(idx, box) + expected = tm.box_expected(expected, box) + + result = op(idx, 2.0) + tm.assert_equal(result, expected) + + def test_modulo(self, numeric_idx, box_with_array): + # GH#9244 + box = box_with_array + idx = numeric_idx + expected = Index(idx.values % 2) + + idx = tm.box_expected(idx, box) + expected = tm.box_expected(expected, box) + + result = idx % 2 + tm.assert_equal(result, expected) + + def test_divmod_scalar(self, numeric_idx): + idx = numeric_idx + + result = divmod(idx, 2) + with np.errstate(all="ignore"): + div, mod = divmod(idx.values, 2) + + expected = Index(div), Index(mod) + for r, e in zip(result, expected): + tm.assert_index_equal(r, e) + + def test_divmod_ndarray(self, numeric_idx): + idx = numeric_idx + other = np.ones(idx.values.shape, dtype=idx.values.dtype) * 2 + + result = divmod(idx, other) + with np.errstate(all="ignore"): + div, mod = divmod(idx.values, other) + + expected = Index(div), Index(mod) + for r, e in zip(result, expected): + tm.assert_index_equal(r, e) + + def test_divmod_series(self, numeric_idx): + idx = numeric_idx + other = np.ones(idx.values.shape, dtype=idx.values.dtype) * 2 + + result = divmod(idx, Series(other)) + with np.errstate(all="ignore"): + div, mod = divmod(idx.values, other) + + expected = Series(div), Series(mod) + for r, e in zip(result, expected): + tm.assert_series_equal(r, e) + + @pytest.mark.parametrize("other", [np.nan, 7, -23, 2.718, -3.14, np.inf]) + def test_ops_np_scalar(self, other): + vals = np.random.default_rng(2).standard_normal((5, 3)) + f = lambda x: pd.DataFrame( + x, index=list("ABCDE"), columns=["jim", "joe", "jolie"] + ) + + df = f(vals) + + tm.assert_frame_equal(df / np.array(other), f(vals / other)) + tm.assert_frame_equal(np.array(other) * df, f(vals * other)) + tm.assert_frame_equal(df + np.array(other), f(vals + other)) + tm.assert_frame_equal(np.array(other) - df, f(other - vals)) + + # TODO: This came from series.test.test_operators, needs cleanup + def test_operators_frame(self): + # rpow does not work with DataFrame + ts = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + ts.name = "ts" + + df = pd.DataFrame({"A": ts}) + + tm.assert_series_equal(ts + ts, ts + df["A"], check_names=False) + tm.assert_series_equal(ts**ts, ts ** df["A"], check_names=False) + tm.assert_series_equal(ts < ts, ts < df["A"], check_names=False) + tm.assert_series_equal(ts / ts, ts / df["A"], check_names=False) + + # TODO: this came from tests.series.test_analytics, needs cleanup and + # de-duplication with test_modulo above + def test_modulo2(self): + with np.errstate(all="ignore"): + # GH#3590, modulo as ints + p = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]}) + result = p["first"] % p["second"] + expected = Series(p["first"].values % p["second"].values, dtype="float64") + expected.iloc[0:3] = np.nan + tm.assert_series_equal(result, expected) + + result = p["first"] % 0 + expected = Series(np.nan, index=p.index, name="first") + tm.assert_series_equal(result, expected) + + p = p.astype("float64") + result = p["first"] % p["second"] + expected = Series(p["first"].values % p["second"].values) + tm.assert_series_equal(result, expected) + + p = p.astype("float64") + result = p["first"] % p["second"] + result2 = p["second"] % p["first"] + assert not result.equals(result2) + + def test_modulo_zero_int(self): + # GH#9144 + with np.errstate(all="ignore"): + s = Series([0, 1]) + + result = s % 0 + expected = Series([np.nan, np.nan]) + tm.assert_series_equal(result, expected) + + result = 0 % s + expected = Series([np.nan, 0.0]) + tm.assert_series_equal(result, expected) + + +class TestAdditionSubtraction: + # __add__, __sub__, __radd__, __rsub__, __iadd__, __isub__ + # for non-timestamp/timedelta/period dtypes + + @pytest.mark.parametrize( + "first, second, expected", + [ + ( + Series([1, 2, 3], index=list("ABC"), name="x"), + Series([2, 2, 2], index=list("ABD"), name="x"), + Series([3.0, 4.0, np.nan, np.nan], index=list("ABCD"), name="x"), + ), + ( + Series([1, 2, 3], index=list("ABC"), name="x"), + Series([2, 2, 2, 2], index=list("ABCD"), name="x"), + Series([3, 4, 5, np.nan], index=list("ABCD"), name="x"), + ), + ], + ) + def test_add_series(self, first, second, expected): + # GH#1134 + tm.assert_series_equal(first + second, expected) + tm.assert_series_equal(second + first, expected) + + @pytest.mark.parametrize( + "first, second, expected", + [ + ( + pd.DataFrame({"x": [1, 2, 3]}, index=list("ABC")), + pd.DataFrame({"x": [2, 2, 2]}, index=list("ABD")), + pd.DataFrame({"x": [3.0, 4.0, np.nan, np.nan]}, index=list("ABCD")), + ), + ( + pd.DataFrame({"x": [1, 2, 3]}, index=list("ABC")), + pd.DataFrame({"x": [2, 2, 2, 2]}, index=list("ABCD")), + pd.DataFrame({"x": [3, 4, 5, np.nan]}, index=list("ABCD")), + ), + ], + ) + def test_add_frames(self, first, second, expected): + # GH#1134 + tm.assert_frame_equal(first + second, expected) + tm.assert_frame_equal(second + first, expected) + + # TODO: This came from series.test.test_operators, needs cleanup + def test_series_frame_radd_bug(self, fixed_now_ts): + # GH#353 + vals = Series([str(i) for i in range(5)]) + result = "foo_" + vals + expected = vals.map(lambda x: "foo_" + x) + tm.assert_series_equal(result, expected) + + frame = pd.DataFrame({"vals": vals}) + result = "foo_" + frame + expected = pd.DataFrame({"vals": vals.map(lambda x: "foo_" + x)}) + tm.assert_frame_equal(result, expected) + + ts = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + + # really raise this time + fix_now = fixed_now_ts.to_pydatetime() + msg = "|".join( + [ + "unsupported operand type", + # wrong error message, see https://github.com/numpy/numpy/issues/18832 + "Concatenation operation", + ] + ) + with pytest.raises(TypeError, match=msg): + fix_now + ts + + with pytest.raises(TypeError, match=msg): + ts + fix_now + + # TODO: This came from series.test.test_operators, needs cleanup + def test_datetime64_with_index(self): + # arithmetic integer ops with an index + ser = Series(np.random.default_rng(2).standard_normal(5)) + expected = ser - ser.index.to_series() + result = ser - ser.index + tm.assert_series_equal(result, expected) + + # GH#4629 + # arithmetic datetime64 ops with an index + ser = Series( + date_range("20130101", periods=5), + index=date_range("20130101", periods=5), + ) + expected = ser - ser.index.to_series() + result = ser - ser.index + tm.assert_series_equal(result, expected) + + msg = "cannot subtract PeriodArray from DatetimeArray" + with pytest.raises(TypeError, match=msg): + # GH#18850 + result = ser - ser.index.to_period() + + df = pd.DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), + index=date_range("20130101", periods=5), + ) + df["date"] = pd.Timestamp("20130102") + df["expected"] = df["date"] - df.index.to_series() + df["result"] = df["date"] - df.index + tm.assert_series_equal(df["result"], df["expected"], check_names=False) + + # TODO: taken from tests.frame.test_operators, needs cleanup + def test_frame_operators(self, float_frame): + frame = float_frame + + garbage = np.random.default_rng(2).random(4) + colSeries = Series(garbage, index=np.array(frame.columns)) + + idSum = frame + frame + seriesSum = frame + colSeries + + for col, series in idSum.items(): + for idx, val in series.items(): + origVal = frame[col][idx] * 2 + if not np.isnan(val): + assert val == origVal + else: + assert np.isnan(origVal) + + for col, series in seriesSum.items(): + for idx, val in series.items(): + origVal = frame[col][idx] + colSeries[col] + if not np.isnan(val): + assert val == origVal + else: + assert np.isnan(origVal) + + def test_frame_operators_col_align(self, float_frame): + frame2 = pd.DataFrame(float_frame, columns=["D", "C", "B", "A"]) + added = frame2 + frame2 + expected = frame2 * 2 + tm.assert_frame_equal(added, expected) + + def test_frame_operators_none_to_nan(self): + df = pd.DataFrame({"a": ["a", None, "b"]}) + tm.assert_frame_equal(df + df, pd.DataFrame({"a": ["aa", np.nan, "bb"]})) + + @pytest.mark.parametrize("dtype", ("float", "int64")) + def test_frame_operators_empty_like(self, dtype): + # Test for issue #10181 + frames = [ + pd.DataFrame(dtype=dtype), + pd.DataFrame(columns=["A"], dtype=dtype), + pd.DataFrame(index=[0], dtype=dtype), + ] + for df in frames: + assert (df + df).equals(df) + tm.assert_frame_equal(df + df, df) + + @pytest.mark.parametrize( + "func", + [lambda x: x * 2, lambda x: x[::2], lambda x: 5], + ids=["multiply", "slice", "constant"], + ) + def test_series_operators_arithmetic(self, all_arithmetic_functions, func): + op = all_arithmetic_functions + series = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + other = func(series) + compare_op(series, other, op) + + @pytest.mark.parametrize( + "func", [lambda x: x + 1, lambda x: 5], ids=["add", "constant"] + ) + def test_series_operators_compare(self, comparison_op, func): + op = comparison_op + series = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + other = func(series) + compare_op(series, other, op) + + @pytest.mark.parametrize( + "func", + [lambda x: x * 2, lambda x: x[::2], lambda x: 5], + ids=["multiply", "slice", "constant"], + ) + def test_divmod(self, func): + series = Series( + np.arange(10, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + other = func(series) + results = divmod(series, other) + if isinstance(other, abc.Iterable) and len(series) != len(other): + # if the lengths don't match, this is the test where we use + # `tser[::2]`. Pad every other value in `other_np` with nan. + other_np = [] + for n in other: + other_np.append(n) + other_np.append(np.nan) + else: + other_np = other + other_np = np.asarray(other_np) + with np.errstate(all="ignore"): + expecteds = divmod(series.values, np.asarray(other_np)) + + for result, expected in zip(results, expecteds): + # check the values, name, and index separately + tm.assert_almost_equal(np.asarray(result), expected) + + assert result.name == series.name + tm.assert_index_equal(result.index, series.index._with_freq(None)) + + def test_series_divmod_zero(self): + # Check that divmod uses pandas convention for division by zero, + # which does not match numpy. + # pandas convention has + # 1/0 == np.inf + # -1/0 == -np.inf + # 1/-0.0 == -np.inf + # -1/-0.0 == np.inf + tser = Series( + np.arange(1, 11, dtype=np.float64), + index=date_range("2020-01-01", periods=10), + name="ts", + ) + other = tser * 0 + + result = divmod(tser, other) + exp1 = Series([np.inf] * len(tser), index=tser.index, name="ts") + exp2 = Series([np.nan] * len(tser), index=tser.index, name="ts") + tm.assert_series_equal(result[0], exp1) + tm.assert_series_equal(result[1], exp2) + + +class TestUFuncCompat: + # TODO: add more dtypes + @pytest.mark.parametrize("holder", [Index, RangeIndex, Series]) + @pytest.mark.parametrize("dtype", [np.int64, np.uint64, np.float64]) + def test_ufunc_compat(self, holder, dtype): + box = Series if holder is Series else Index + + if holder is RangeIndex: + if dtype != np.int64: + pytest.skip(f"dtype {dtype} not relevant for RangeIndex") + idx = RangeIndex(0, 5, name="foo") + else: + idx = holder(np.arange(5, dtype=dtype), name="foo") + result = np.sin(idx) + expected = box(np.sin(np.arange(5, dtype=dtype)), name="foo") + tm.assert_equal(result, expected) + + # TODO: add more dtypes + @pytest.mark.parametrize("holder", [Index, Series]) + @pytest.mark.parametrize("dtype", [np.int64, np.uint64, np.float64]) + def test_ufunc_coercions(self, holder, dtype): + idx = holder([1, 2, 3, 4, 5], dtype=dtype, name="x") + box = Series if holder is Series else Index + + result = np.sqrt(idx) + assert result.dtype == "f8" and isinstance(result, box) + exp = Index(np.sqrt(np.array([1, 2, 3, 4, 5], dtype=np.float64)), name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + result = np.divide(idx, 2.0) + assert result.dtype == "f8" and isinstance(result, box) + exp = Index([0.5, 1.0, 1.5, 2.0, 2.5], dtype=np.float64, name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + # _evaluate_numeric_binop + result = idx + 2.0 + assert result.dtype == "f8" and isinstance(result, box) + exp = Index([3.0, 4.0, 5.0, 6.0, 7.0], dtype=np.float64, name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + result = idx - 2.0 + assert result.dtype == "f8" and isinstance(result, box) + exp = Index([-1.0, 0.0, 1.0, 2.0, 3.0], dtype=np.float64, name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + result = idx * 1.0 + assert result.dtype == "f8" and isinstance(result, box) + exp = Index([1.0, 2.0, 3.0, 4.0, 5.0], dtype=np.float64, name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + result = idx / 2.0 + assert result.dtype == "f8" and isinstance(result, box) + exp = Index([0.5, 1.0, 1.5, 2.0, 2.5], dtype=np.float64, name="x") + exp = tm.box_expected(exp, box) + tm.assert_equal(result, exp) + + # TODO: add more dtypes + @pytest.mark.parametrize("holder", [Index, Series]) + @pytest.mark.parametrize("dtype", [np.int64, np.uint64, np.float64]) + def test_ufunc_multiple_return_values(self, holder, dtype): + obj = holder([1, 2, 3], dtype=dtype, name="x") + box = Series if holder is Series else Index + + result = np.modf(obj) + assert isinstance(result, tuple) + exp1 = Index([0.0, 0.0, 0.0], dtype=np.float64, name="x") + exp2 = Index([1.0, 2.0, 3.0], dtype=np.float64, name="x") + tm.assert_equal(result[0], tm.box_expected(exp1, box)) + tm.assert_equal(result[1], tm.box_expected(exp2, box)) + + def test_ufunc_at(self): + s = Series([0, 1, 2], index=[1, 2, 3], name="x") + np.add.at(s, [0, 2], 10) + expected = Series([10, 1, 12], index=[1, 2, 3], name="x") + tm.assert_series_equal(s, expected) + + +class TestObjectDtypeEquivalence: + # Tests that arithmetic operations match operations executed elementwise + + @pytest.mark.parametrize("dtype", [None, object]) + def test_numarr_with_dtype_add_nan(self, dtype, box_with_array): + box = box_with_array + ser = Series([1, 2, 3], dtype=dtype) + expected = Series([np.nan, np.nan, np.nan], dtype=dtype) + + ser = tm.box_expected(ser, box) + expected = tm.box_expected(expected, box) + + result = np.nan + ser + tm.assert_equal(result, expected) + + result = ser + np.nan + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("dtype", [None, object]) + def test_numarr_with_dtype_add_int(self, dtype, box_with_array): + box = box_with_array + ser = Series([1, 2, 3], dtype=dtype) + expected = Series([2, 3, 4], dtype=dtype) + + ser = tm.box_expected(ser, box) + expected = tm.box_expected(expected, box) + + result = 1 + ser + tm.assert_equal(result, expected) + + result = ser + 1 + tm.assert_equal(result, expected) + + # TODO: moved from tests.series.test_operators; needs cleanup + @pytest.mark.parametrize( + "op", + [operator.add, operator.sub, operator.mul, operator.truediv, operator.floordiv], + ) + def test_operators_reverse_object(self, op): + # GH#56 + arr = Series( + np.random.default_rng(2).standard_normal(10), + index=np.arange(10), + dtype=object, + ) + + result = op(1.0, arr) + expected = op(1.0, arr.astype(float)) + tm.assert_series_equal(result.astype(float), expected) + + +class TestNumericArithmeticUnsorted: + # Tests in this class have been moved from type-specific test modules + # but not yet sorted, parametrized, and de-duplicated + @pytest.mark.parametrize( + "op", + [ + operator.add, + operator.sub, + operator.mul, + operator.floordiv, + operator.truediv, + ], + ) + @pytest.mark.parametrize( + "idx1", + [ + RangeIndex(0, 10, 1), + RangeIndex(0, 20, 2), + RangeIndex(-10, 10, 2), + RangeIndex(5, -5, -1), + ], + ) + @pytest.mark.parametrize( + "idx2", + [ + RangeIndex(0, 10, 1), + RangeIndex(0, 20, 2), + RangeIndex(-10, 10, 2), + RangeIndex(5, -5, -1), + ], + ) + def test_binops_index(self, op, idx1, idx2): + idx1 = idx1._rename("foo") + idx2 = idx2._rename("bar") + result = op(idx1, idx2) + expected = op(Index(idx1.to_numpy()), Index(idx2.to_numpy())) + tm.assert_index_equal(result, expected, exact="equiv") + + @pytest.mark.parametrize( + "op", + [ + operator.add, + operator.sub, + operator.mul, + operator.floordiv, + operator.truediv, + ], + ) + @pytest.mark.parametrize( + "idx", + [ + RangeIndex(0, 10, 1), + RangeIndex(0, 20, 2), + RangeIndex(-10, 10, 2), + RangeIndex(5, -5, -1), + ], + ) + @pytest.mark.parametrize("scalar", [-1, 1, 2]) + def test_binops_index_scalar(self, op, idx, scalar): + result = op(idx, scalar) + expected = op(Index(idx.to_numpy()), scalar) + tm.assert_index_equal(result, expected, exact="equiv") + + @pytest.mark.parametrize("idx1", [RangeIndex(0, 10, 1), RangeIndex(0, 20, 2)]) + @pytest.mark.parametrize("idx2", [RangeIndex(0, 10, 1), RangeIndex(0, 20, 2)]) + def test_binops_index_pow(self, idx1, idx2): + # numpy does not allow powers of negative integers so test separately + # https://github.com/numpy/numpy/pull/8127 + idx1 = idx1._rename("foo") + idx2 = idx2._rename("bar") + result = pow(idx1, idx2) + expected = pow(Index(idx1.to_numpy()), Index(idx2.to_numpy())) + tm.assert_index_equal(result, expected, exact="equiv") + + @pytest.mark.parametrize("idx", [RangeIndex(0, 10, 1), RangeIndex(0, 20, 2)]) + @pytest.mark.parametrize("scalar", [1, 2]) + def test_binops_index_scalar_pow(self, idx, scalar): + # numpy does not allow powers of negative integers so test separately + # https://github.com/numpy/numpy/pull/8127 + result = pow(idx, scalar) + expected = pow(Index(idx.to_numpy()), scalar) + tm.assert_index_equal(result, expected, exact="equiv") + + # TODO: divmod? + @pytest.mark.parametrize( + "op", + [ + operator.add, + operator.sub, + operator.mul, + operator.floordiv, + operator.truediv, + operator.pow, + operator.mod, + ], + ) + def test_arithmetic_with_frame_or_series(self, op): + # check that we return NotImplemented when operating with Series + # or DataFrame + index = RangeIndex(5) + other = Series(np.random.default_rng(2).standard_normal(5)) + + expected = op(Series(index), other) + result = op(index, other) + tm.assert_series_equal(result, expected) + + other = pd.DataFrame(np.random.default_rng(2).standard_normal((2, 5))) + expected = op(pd.DataFrame([index, index]), other) + result = op(index, other) + tm.assert_frame_equal(result, expected) + + def test_numeric_compat2(self): + # validate that we are handling the RangeIndex overrides to numeric ops + # and returning RangeIndex where possible + + idx = RangeIndex(0, 10, 2) + + result = idx * 2 + expected = RangeIndex(0, 20, 4) + tm.assert_index_equal(result, expected, exact=True) + + result = idx + 2 + expected = RangeIndex(2, 12, 2) + tm.assert_index_equal(result, expected, exact=True) + + result = idx - 2 + expected = RangeIndex(-2, 8, 2) + tm.assert_index_equal(result, expected, exact=True) + + result = idx / 2 + expected = RangeIndex(0, 5, 1).astype("float64") + tm.assert_index_equal(result, expected, exact=True) + + result = idx / 4 + expected = RangeIndex(0, 10, 2) / 4 + tm.assert_index_equal(result, expected, exact=True) + + result = idx // 1 + expected = idx + tm.assert_index_equal(result, expected, exact=True) + + # __mul__ + result = idx * idx + expected = Index(idx.values * idx.values) + tm.assert_index_equal(result, expected, exact=True) + + # __pow__ + idx = RangeIndex(0, 1000, 2) + result = idx**2 + expected = Index(idx._values) ** 2 + tm.assert_index_equal(Index(result.values), expected, exact=True) + + @pytest.mark.parametrize( + "idx, div, expected", + [ + # TODO: add more dtypes + (RangeIndex(0, 1000, 2), 2, RangeIndex(0, 500, 1)), + (RangeIndex(-99, -201, -3), -3, RangeIndex(33, 67, 1)), + ( + RangeIndex(0, 1000, 1), + 2, + Index(RangeIndex(0, 1000, 1)._values) // 2, + ), + ( + RangeIndex(0, 100, 1), + 2.0, + Index(RangeIndex(0, 100, 1)._values) // 2.0, + ), + (RangeIndex(0), 50, RangeIndex(0)), + (RangeIndex(2, 4, 2), 3, RangeIndex(0, 1, 1)), + (RangeIndex(-5, -10, -6), 4, RangeIndex(-2, -1, 1)), + (RangeIndex(-100, -200, 3), 2, RangeIndex(0)), + ], + ) + def test_numeric_compat2_floordiv(self, idx, div, expected): + # __floordiv__ + tm.assert_index_equal(idx // div, expected, exact=True) + + @pytest.mark.parametrize("dtype", [np.int64, np.float64]) + @pytest.mark.parametrize("delta", [1, 0, -1]) + def test_addsub_arithmetic(self, dtype, delta): + # GH#8142 + delta = dtype(delta) + index = Index([10, 11, 12], dtype=dtype) + result = index + delta + expected = Index(index.values + delta, dtype=dtype) + tm.assert_index_equal(result, expected) + + # this subtraction used to fail + result = index - delta + expected = Index(index.values - delta, dtype=dtype) + tm.assert_index_equal(result, expected) + + tm.assert_index_equal(index + index, 2 * index) + tm.assert_index_equal(index - index, 0 * index) + assert not (index - index).empty + + def test_pow_nan_with_zero(self, box_with_array): + left = Index([np.nan, np.nan, np.nan]) + right = Index([0, 0, 0]) + expected = Index([1.0, 1.0, 1.0]) + + left = tm.box_expected(left, box_with_array) + right = tm.box_expected(right, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = left**right + tm.assert_equal(result, expected) + + +def test_fill_value_inf_masking(): + # GH #27464 make sure we mask 0/1 with Inf and not NaN + df = pd.DataFrame({"A": [0, 1, 2], "B": [1.1, None, 1.1]}) + + other = pd.DataFrame({"A": [1.1, 1.2, 1.3]}, index=[0, 2, 3]) + + result = df.rfloordiv(other, fill_value=1) + + expected = pd.DataFrame( + {"A": [np.inf, 1.0, 0.0, 1.0], "B": [0.0, np.nan, 0.0, np.nan]} + ) + tm.assert_frame_equal(result, expected) + + +def test_dataframe_div_silenced(): + # GH#26793 + pdf1 = pd.DataFrame( + { + "A": np.arange(10), + "B": [np.nan, 1, 2, 3, 4] * 2, + "C": [np.nan] * 10, + "D": np.arange(10), + }, + index=list("abcdefghij"), + columns=list("ABCD"), + ) + pdf2 = pd.DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + index=list("abcdefghjk"), + columns=list("ABCX"), + ) + with tm.assert_produces_warning(None): + pdf1.div(pdf2, fill_value=0) + + +@pytest.mark.parametrize( + "data, expected_data", + [([0, 1, 2], [0, 2, 4])], +) +def test_integer_array_add_list_like( + box_pandas_1d_array, box_1d_array, data, expected_data +): + # GH22606 Verify operators with IntegerArray and list-likes + arr = array(data, dtype="Int64") + container = box_pandas_1d_array(arr) + left = container + box_1d_array(data) + right = box_1d_array(data) + container + + if Series in [box_1d_array, box_pandas_1d_array]: + cls = Series + elif Index in [box_1d_array, box_pandas_1d_array]: + cls = Index + else: + cls = array + + expected = cls(expected_data, dtype="Int64") + + tm.assert_equal(left, expected) + tm.assert_equal(right, expected) + + +def test_sub_multiindex_swapped_levels(): + # GH 9952 + df = pd.DataFrame( + {"a": np.random.default_rng(2).standard_normal(6)}, + index=pd.MultiIndex.from_product( + [["a", "b"], [0, 1, 2]], names=["levA", "levB"] + ), + ) + df2 = df.copy() + df2.index = df2.index.swaplevel(0, 1) + result = df - df2 + expected = pd.DataFrame([0.0] * 6, columns=["a"], index=df.index) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("power", [1, 2, 5]) +@pytest.mark.parametrize("string_size", [0, 1, 2, 5]) +def test_empty_str_comparison(power, string_size): + # GH 37348 + a = np.array(range(10**power)) + right = pd.DataFrame(a, dtype=np.int64) + left = " " * string_size + + result = right == left + expected = pd.DataFrame(np.zeros(right.shape, dtype=bool)) + tm.assert_frame_equal(result, expected) + + +def test_series_add_sub_with_UInt64(): + # GH 22023 + series1 = Series([1, 2, 3]) + series2 = Series([2, 1, 3], dtype="UInt64") + + result = series1 + series2 + expected = Series([3, 3, 6], dtype="Float64") + tm.assert_series_equal(result, expected) + + result = series1 - series2 + expected = Series([-1, 1, 0], dtype="Float64") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_object.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_object.py new file mode 100644 index 0000000000000000000000000000000000000000..44e485d40ba536ba08fabb8d2f5aa4e439177010 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_object.py @@ -0,0 +1,414 @@ +# Arithmetic tests for DataFrame/Series/Index/Array classes that should +# behave identically. +# Specifically for object dtype +import datetime +from decimal import Decimal +import operator + +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Series, + Timestamp, + option_context, +) +import pandas._testing as tm +from pandas.core import ops + +# ------------------------------------------------------------------ +# Comparisons + + +class TestObjectComparisons: + def test_comparison_object_numeric_nas(self, comparison_op): + ser = Series(np.random.default_rng(2).standard_normal(10), dtype=object) + shifted = ser.shift(2) + + func = comparison_op + + result = func(ser, shifted) + expected = func(ser.astype(float), shifted.astype(float)) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "infer_string", [False, pytest.param(True, marks=td.skip_if_no("pyarrow"))] + ) + def test_object_comparisons(self, infer_string): + with option_context("future.infer_string", infer_string): + ser = Series(["a", "b", np.nan, "c", "a"]) + + result = ser == "a" + expected = Series([True, False, False, False, True]) + tm.assert_series_equal(result, expected) + + result = ser < "a" + expected = Series([False, False, False, False, False]) + tm.assert_series_equal(result, expected) + + result = ser != "a" + expected = -(ser == "a") + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("dtype", [None, object]) + def test_more_na_comparisons(self, dtype): + left = Series(["a", np.nan, "c"], dtype=dtype) + right = Series(["a", np.nan, "d"], dtype=dtype) + + result = left == right + expected = Series([True, False, False]) + tm.assert_series_equal(result, expected) + + result = left != right + expected = Series([False, True, True]) + tm.assert_series_equal(result, expected) + + result = left == np.nan + expected = Series([False, False, False]) + tm.assert_series_equal(result, expected) + + result = left != np.nan + expected = Series([True, True, True]) + tm.assert_series_equal(result, expected) + + +# ------------------------------------------------------------------ +# Arithmetic + + +class TestArithmetic: + def test_add_period_to_array_of_offset(self): + # GH#50162 + per = pd.Period("2012-1-1", freq="D") + pi = pd.period_range("2012-1-1", periods=10, freq="D") + idx = per - pi + + expected = pd.Index([x + per for x in idx], dtype=object) + result = idx + per + tm.assert_index_equal(result, expected) + + result = per + idx + tm.assert_index_equal(result, expected) + + # TODO: parametrize + def test_pow_ops_object(self): + # GH#22922 + # pow is weird with masking & 1, so testing here + a = Series([1, np.nan, 1, np.nan], dtype=object) + b = Series([1, np.nan, np.nan, 1], dtype=object) + result = a**b + expected = Series(a.values**b.values, dtype=object) + tm.assert_series_equal(result, expected) + + result = b**a + expected = Series(b.values**a.values, dtype=object) + + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("op", [operator.add, ops.radd]) + @pytest.mark.parametrize("other", ["category", "Int64"]) + def test_add_extension_scalar(self, other, box_with_array, op): + # GH#22378 + # Check that scalars satisfying is_extension_array_dtype(obj) + # do not incorrectly try to dispatch to an ExtensionArray operation + + arr = Series(["a", "b", "c"]) + expected = Series([op(x, other) for x in arr]) + + arr = tm.box_expected(arr, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = op(arr, other) + tm.assert_equal(result, expected) + + def test_objarr_add_str(self, box_with_array): + ser = Series(["x", np.nan, "x"]) + expected = Series(["xa", np.nan, "xa"]) + + ser = tm.box_expected(ser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = ser + "a" + tm.assert_equal(result, expected) + + def test_objarr_radd_str(self, box_with_array): + ser = Series(["x", np.nan, "x"]) + expected = Series(["ax", np.nan, "ax"]) + + ser = tm.box_expected(ser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = "a" + ser + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "data", + [ + [1, 2, 3], + [1.1, 2.2, 3.3], + [Timestamp("2011-01-01"), Timestamp("2011-01-02"), pd.NaT], + ["x", "y", 1], + ], + ) + @pytest.mark.parametrize("dtype", [None, object]) + def test_objarr_radd_str_invalid(self, dtype, data, box_with_array): + ser = Series(data, dtype=dtype) + + ser = tm.box_expected(ser, box_with_array) + msg = "|".join( + [ + "can only concatenate str", + "did not contain a loop with signature matching types", + "unsupported operand type", + "must be str", + ] + ) + with pytest.raises(TypeError, match=msg): + "foo_" + ser + + @pytest.mark.parametrize("op", [operator.add, ops.radd, operator.sub, ops.rsub]) + def test_objarr_add_invalid(self, op, box_with_array): + # invalid ops + box = box_with_array + + obj_ser = Series(list("abc"), dtype=object, name="objects") + + obj_ser = tm.box_expected(obj_ser, box) + msg = "|".join( + [ + "can only concatenate str", + "unsupported operand type", + "must be str", + "has no kernel", + "operation 'add' not supported", + "operation 'radd' not supported", + "operation 'sub' not supported", + "operation 'rsub' not supported", + ] + ) + with pytest.raises(Exception, match=msg): + op(obj_ser, 1) + with pytest.raises(Exception, match=msg): + op(obj_ser, np.array(1, dtype=np.int64)) + + # TODO: Moved from tests.series.test_operators; needs cleanup + def test_operators_na_handling(self): + ser = Series(["foo", "bar", "baz", np.nan]) + result = "prefix_" + ser + expected = Series(["prefix_foo", "prefix_bar", "prefix_baz", np.nan]) + tm.assert_series_equal(result, expected) + + result = ser + "_suffix" + expected = Series(["foo_suffix", "bar_suffix", "baz_suffix", np.nan]) + tm.assert_series_equal(result, expected) + + # TODO: parametrize over box + @pytest.mark.parametrize("dtype", [None, object]) + def test_series_with_dtype_radd_timedelta(self, dtype): + # note this test is _not_ aimed at timedelta64-dtyped Series + # as of 2.0 we retain object dtype when ser.dtype == object + ser = Series( + [pd.Timedelta("1 days"), pd.Timedelta("2 days"), pd.Timedelta("3 days")], + dtype=dtype, + ) + expected = Series( + [pd.Timedelta("4 days"), pd.Timedelta("5 days"), pd.Timedelta("6 days")], + dtype=dtype, + ) + + result = pd.Timedelta("3 days") + ser + tm.assert_series_equal(result, expected) + + result = ser + pd.Timedelta("3 days") + tm.assert_series_equal(result, expected) + + # TODO: cleanup & parametrize over box + def test_mixed_timezone_series_ops_object(self): + # GH#13043 + ser = Series( + [ + Timestamp("2015-01-01", tz="US/Eastern"), + Timestamp("2015-01-01", tz="Asia/Tokyo"), + ], + name="xxx", + ) + assert ser.dtype == object + + exp = Series( + [ + Timestamp("2015-01-02", tz="US/Eastern"), + Timestamp("2015-01-02", tz="Asia/Tokyo"), + ], + name="xxx", + ) + tm.assert_series_equal(ser + pd.Timedelta("1 days"), exp) + tm.assert_series_equal(pd.Timedelta("1 days") + ser, exp) + + # object series & object series + ser2 = Series( + [ + Timestamp("2015-01-03", tz="US/Eastern"), + Timestamp("2015-01-05", tz="Asia/Tokyo"), + ], + name="xxx", + ) + assert ser2.dtype == object + exp = Series( + [pd.Timedelta("2 days"), pd.Timedelta("4 days")], name="xxx", dtype=object + ) + tm.assert_series_equal(ser2 - ser, exp) + tm.assert_series_equal(ser - ser2, -exp) + + ser = Series( + [pd.Timedelta("01:00:00"), pd.Timedelta("02:00:00")], + name="xxx", + dtype=object, + ) + assert ser.dtype == object + + exp = Series( + [pd.Timedelta("01:30:00"), pd.Timedelta("02:30:00")], + name="xxx", + dtype=object, + ) + tm.assert_series_equal(ser + pd.Timedelta("00:30:00"), exp) + tm.assert_series_equal(pd.Timedelta("00:30:00") + ser, exp) + + # TODO: cleanup & parametrize over box + def test_iadd_preserves_name(self): + # GH#17067, GH#19723 __iadd__ and __isub__ should preserve index name + ser = Series([1, 2, 3]) + ser.index.name = "foo" + + ser.index += 1 + assert ser.index.name == "foo" + + ser.index -= 1 + assert ser.index.name == "foo" + + def test_add_string(self): + # from bug report + index = pd.Index(["a", "b", "c"]) + index2 = index + "foo" + + assert "a" not in index2 + assert "afoo" in index2 + + def test_iadd_string(self): + index = pd.Index(["a", "b", "c"]) + # doesn't fail test unless there is a check before `+=` + assert "a" in index + + index += "_x" + assert "a_x" in index + + def test_add(self): + index = pd.Index([str(i) for i in range(10)]) + expected = pd.Index(index.values * 2) + tm.assert_index_equal(index + index, expected) + tm.assert_index_equal(index + index.tolist(), expected) + tm.assert_index_equal(index.tolist() + index, expected) + + # test add and radd + index = pd.Index(list("abc")) + expected = pd.Index(["a1", "b1", "c1"]) + tm.assert_index_equal(index + "1", expected) + expected = pd.Index(["1a", "1b", "1c"]) + tm.assert_index_equal("1" + index, expected) + + def test_sub_fail(self): + index = pd.Index([str(i) for i in range(10)]) + + msg = "unsupported operand type|Cannot broadcast|sub' not supported" + with pytest.raises(TypeError, match=msg): + index - "a" + with pytest.raises(TypeError, match=msg): + index - index + with pytest.raises(TypeError, match=msg): + index - index.tolist() + with pytest.raises(TypeError, match=msg): + index.tolist() - index + + def test_sub_object(self): + # GH#19369 + index = pd.Index([Decimal(1), Decimal(2)]) + expected = pd.Index([Decimal(0), Decimal(1)]) + + result = index - Decimal(1) + tm.assert_index_equal(result, expected) + + result = index - pd.Index([Decimal(1), Decimal(1)]) + tm.assert_index_equal(result, expected) + + msg = "unsupported operand type" + with pytest.raises(TypeError, match=msg): + index - "foo" + + with pytest.raises(TypeError, match=msg): + index - np.array([2, "foo"], dtype=object) + + def test_rsub_object(self, fixed_now_ts): + # GH#19369 + index = pd.Index([Decimal(1), Decimal(2)]) + expected = pd.Index([Decimal(1), Decimal(0)]) + + result = Decimal(2) - index + tm.assert_index_equal(result, expected) + + result = np.array([Decimal(2), Decimal(2)]) - index + tm.assert_index_equal(result, expected) + + msg = "unsupported operand type" + with pytest.raises(TypeError, match=msg): + "foo" - index + + with pytest.raises(TypeError, match=msg): + np.array([True, fixed_now_ts]) - index + + +class MyIndex(pd.Index): + # Simple index subclass that tracks ops calls. + + _calls: int + + @classmethod + def _simple_new(cls, values, name=None, dtype=None): + result = object.__new__(cls) + result._data = values + result._name = name + result._calls = 0 + result._reset_identity() + + return result + + def __add__(self, other): + self._calls += 1 + return self._simple_new(self._data) + + def __radd__(self, other): + return self.__add__(other) + + +@pytest.mark.parametrize( + "other", + [ + [datetime.timedelta(1), datetime.timedelta(2)], + [datetime.datetime(2000, 1, 1), datetime.datetime(2000, 1, 2)], + [pd.Period("2000"), pd.Period("2001")], + ["a", "b"], + ], + ids=["timedelta", "datetime", "period", "object"], +) +def test_index_ops_defer_to_unknown_subclasses(other): + # https://github.com/pandas-dev/pandas/issues/31109 + values = np.array( + [datetime.date(2000, 1, 1), datetime.date(2000, 1, 2)], dtype=object + ) + a = MyIndex._simple_new(values) + other = pd.Index(other) + result = other + a + assert isinstance(result, MyIndex) + assert a._calls == 1 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_period.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_period.py new file mode 100644 index 0000000000000000000000000000000000000000..5535fe8ff928d10b994bd6556229e0163a358ab0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_period.py @@ -0,0 +1,1675 @@ +# Arithmetic tests for DataFrame/Series/Index/Array classes that should +# behave identically. +# Specifically for Period dtype +import operator + +import numpy as np +import pytest + +from pandas._libs.tslibs import ( + IncompatibleFrequency, + Period, + Timestamp, + to_offset, +) +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import ( + PeriodIndex, + Series, + Timedelta, + TimedeltaIndex, + period_range, +) +import pandas._testing as tm +from pandas.core import ops +from pandas.core.arrays import TimedeltaArray +from pandas.tests.arithmetic.common import ( + assert_invalid_addsub_type, + assert_invalid_comparison, + get_upcast_box, +) + +_common_mismatch = [ + pd.offsets.YearBegin(2), + pd.offsets.MonthBegin(1), + pd.offsets.Minute(), +] + + +@pytest.fixture( + params=[ + Timedelta(minutes=30).to_pytimedelta(), + np.timedelta64(30, "s"), + Timedelta(seconds=30), + ] + + _common_mismatch +) +def not_hourly(request): + """ + Several timedelta-like and DateOffset instances that are _not_ + compatible with Hourly frequencies. + """ + return request.param + + +@pytest.fixture( + params=[ + np.timedelta64(365, "D"), + Timedelta(days=365).to_pytimedelta(), + Timedelta(days=365), + ] + + _common_mismatch +) +def mismatched_freq(request): + """ + Several timedelta-like and DateOffset instances that are _not_ + compatible with Monthly or Annual frequencies. + """ + return request.param + + +# ------------------------------------------------------------------ +# Comparisons + + +class TestPeriodArrayLikeComparisons: + # Comparison tests for PeriodDtype vectors fully parametrized over + # DataFrame/Series/PeriodIndex/PeriodArray. Ideally all comparison + # tests will eventually end up here. + + @pytest.mark.parametrize("other", ["2017", Period("2017", freq="D")]) + def test_eq_scalar(self, other, box_with_array): + idx = PeriodIndex(["2017", "2017", "2018"], freq="D") + idx = tm.box_expected(idx, box_with_array) + xbox = get_upcast_box(idx, other, True) + + expected = np.array([True, True, False]) + expected = tm.box_expected(expected, xbox) + + result = idx == other + + tm.assert_equal(result, expected) + + def test_compare_zerodim(self, box_with_array): + # GH#26689 make sure we unbox zero-dimensional arrays + + pi = period_range("2000", periods=4) + other = np.array(pi.to_numpy()[0]) + + pi = tm.box_expected(pi, box_with_array) + xbox = get_upcast_box(pi, other, True) + + result = pi <= other + expected = np.array([True, False, False, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "scalar", + [ + "foo", + Timestamp("2021-01-01"), + Timedelta(days=4), + 9, + 9.5, + 2000, # specifically don't consider 2000 to match Period("2000", "D") + False, + None, + ], + ) + def test_compare_invalid_scalar(self, box_with_array, scalar): + # GH#28980 + # comparison with scalar that cannot be interpreted as a Period + pi = period_range("2000", periods=4) + parr = tm.box_expected(pi, box_with_array) + assert_invalid_comparison(parr, scalar, box_with_array) + + @pytest.mark.parametrize( + "other", + [ + pd.date_range("2000", periods=4).array, + pd.timedelta_range("1D", periods=4).array, + np.arange(4), + np.arange(4).astype(np.float64), + list(range(4)), + # match Period semantics by not treating integers as Periods + [2000, 2001, 2002, 2003], + np.arange(2000, 2004), + np.arange(2000, 2004).astype(object), + pd.Index([2000, 2001, 2002, 2003]), + ], + ) + def test_compare_invalid_listlike(self, box_with_array, other): + pi = period_range("2000", periods=4) + parr = tm.box_expected(pi, box_with_array) + assert_invalid_comparison(parr, other, box_with_array) + + @pytest.mark.parametrize("other_box", [list, np.array, lambda x: x.astype(object)]) + def test_compare_object_dtype(self, box_with_array, other_box): + pi = period_range("2000", periods=5) + parr = tm.box_expected(pi, box_with_array) + + other = other_box(pi) + xbox = get_upcast_box(parr, other, True) + + expected = np.array([True, True, True, True, True]) + expected = tm.box_expected(expected, xbox) + + result = parr == other + tm.assert_equal(result, expected) + result = parr <= other + tm.assert_equal(result, expected) + result = parr >= other + tm.assert_equal(result, expected) + + result = parr != other + tm.assert_equal(result, ~expected) + result = parr < other + tm.assert_equal(result, ~expected) + result = parr > other + tm.assert_equal(result, ~expected) + + other = other_box(pi[::-1]) + + expected = np.array([False, False, True, False, False]) + expected = tm.box_expected(expected, xbox) + result = parr == other + tm.assert_equal(result, expected) + + expected = np.array([True, True, True, False, False]) + expected = tm.box_expected(expected, xbox) + result = parr <= other + tm.assert_equal(result, expected) + + expected = np.array([False, False, True, True, True]) + expected = tm.box_expected(expected, xbox) + result = parr >= other + tm.assert_equal(result, expected) + + expected = np.array([True, True, False, True, True]) + expected = tm.box_expected(expected, xbox) + result = parr != other + tm.assert_equal(result, expected) + + expected = np.array([True, True, False, False, False]) + expected = tm.box_expected(expected, xbox) + result = parr < other + tm.assert_equal(result, expected) + + expected = np.array([False, False, False, True, True]) + expected = tm.box_expected(expected, xbox) + result = parr > other + tm.assert_equal(result, expected) + + +class TestPeriodIndexComparisons: + # TODO: parameterize over boxes + + def test_pi_cmp_period(self): + idx = period_range("2007-01", periods=20, freq="M") + per = idx[10] + + result = idx < per + exp = idx.values < idx.values[10] + tm.assert_numpy_array_equal(result, exp) + + # Tests Period.__richcmp__ against ndarray[object, ndim=2] + result = idx.values.reshape(10, 2) < per + tm.assert_numpy_array_equal(result, exp.reshape(10, 2)) + + # Tests Period.__richcmp__ against ndarray[object, ndim=0] + result = idx < np.array(per) + tm.assert_numpy_array_equal(result, exp) + + # TODO: moved from test_datetime64; de-duplicate with version below + def test_parr_cmp_period_scalar2(self, box_with_array): + pi = period_range("2000-01-01", periods=10, freq="D") + + val = pi[3] + expected = [x > val for x in pi] + + ser = tm.box_expected(pi, box_with_array) + xbox = get_upcast_box(ser, val, True) + + expected = tm.box_expected(expected, xbox) + result = ser > val + tm.assert_equal(result, expected) + + val = pi[5] + result = ser > val + expected = [x > val for x in pi] + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("freq", ["M", "2M", "3M"]) + def test_parr_cmp_period_scalar(self, freq, box_with_array): + # GH#13200 + base = PeriodIndex(["2011-01", "2011-02", "2011-03", "2011-04"], freq=freq) + base = tm.box_expected(base, box_with_array) + per = Period("2011-02", freq=freq) + xbox = get_upcast_box(base, per, True) + + exp = np.array([False, True, False, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base == per, exp) + tm.assert_equal(per == base, exp) + + exp = np.array([True, False, True, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base != per, exp) + tm.assert_equal(per != base, exp) + + exp = np.array([False, False, True, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base > per, exp) + tm.assert_equal(per < base, exp) + + exp = np.array([True, False, False, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base < per, exp) + tm.assert_equal(per > base, exp) + + exp = np.array([False, True, True, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base >= per, exp) + tm.assert_equal(per <= base, exp) + + exp = np.array([True, True, False, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base <= per, exp) + tm.assert_equal(per >= base, exp) + + @pytest.mark.parametrize("freq", ["M", "2M", "3M"]) + def test_parr_cmp_pi(self, freq, box_with_array): + # GH#13200 + base = PeriodIndex(["2011-01", "2011-02", "2011-03", "2011-04"], freq=freq) + base = tm.box_expected(base, box_with_array) + + # TODO: could also box idx? + idx = PeriodIndex(["2011-02", "2011-01", "2011-03", "2011-05"], freq=freq) + + xbox = get_upcast_box(base, idx, True) + + exp = np.array([False, False, True, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base == idx, exp) + + exp = np.array([True, True, False, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base != idx, exp) + + exp = np.array([False, True, False, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base > idx, exp) + + exp = np.array([True, False, False, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base < idx, exp) + + exp = np.array([False, True, True, False]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base >= idx, exp) + + exp = np.array([True, False, True, True]) + exp = tm.box_expected(exp, xbox) + tm.assert_equal(base <= idx, exp) + + @pytest.mark.parametrize("freq", ["M", "2M", "3M"]) + def test_parr_cmp_pi_mismatched_freq(self, freq, box_with_array): + # GH#13200 + # different base freq + base = PeriodIndex(["2011-01", "2011-02", "2011-03", "2011-04"], freq=freq) + base = tm.box_expected(base, box_with_array) + + msg = rf"Invalid comparison between dtype=period\[{freq}\] and Period" + with pytest.raises(TypeError, match=msg): + base <= Period("2011", freq="Y") + + with pytest.raises(TypeError, match=msg): + Period("2011", freq="Y") >= base + + # TODO: Could parametrize over boxes for idx? + idx = PeriodIndex(["2011", "2012", "2013", "2014"], freq="Y") + rev_msg = r"Invalid comparison between dtype=period\[Y-DEC\] and PeriodArray" + idx_msg = rev_msg if box_with_array in [tm.to_array, pd.array] else msg + with pytest.raises(TypeError, match=idx_msg): + base <= idx + + # Different frequency + msg = rf"Invalid comparison between dtype=period\[{freq}\] and Period" + with pytest.raises(TypeError, match=msg): + base <= Period("2011", freq="4M") + + with pytest.raises(TypeError, match=msg): + Period("2011", freq="4M") >= base + + idx = PeriodIndex(["2011", "2012", "2013", "2014"], freq="4M") + rev_msg = r"Invalid comparison between dtype=period\[4M\] and PeriodArray" + idx_msg = rev_msg if box_with_array in [tm.to_array, pd.array] else msg + with pytest.raises(TypeError, match=idx_msg): + base <= idx + + @pytest.mark.parametrize("freq", ["M", "2M", "3M"]) + def test_pi_cmp_nat(self, freq): + idx1 = PeriodIndex(["2011-01", "2011-02", "NaT", "2011-05"], freq=freq) + per = idx1[1] + + result = idx1 > per + exp = np.array([False, False, False, True]) + tm.assert_numpy_array_equal(result, exp) + result = per < idx1 + tm.assert_numpy_array_equal(result, exp) + + result = idx1 == pd.NaT + exp = np.array([False, False, False, False]) + tm.assert_numpy_array_equal(result, exp) + result = pd.NaT == idx1 + tm.assert_numpy_array_equal(result, exp) + + result = idx1 != pd.NaT + exp = np.array([True, True, True, True]) + tm.assert_numpy_array_equal(result, exp) + result = pd.NaT != idx1 + tm.assert_numpy_array_equal(result, exp) + + idx2 = PeriodIndex(["2011-02", "2011-01", "2011-04", "NaT"], freq=freq) + result = idx1 < idx2 + exp = np.array([True, False, False, False]) + tm.assert_numpy_array_equal(result, exp) + + result = idx1 == idx2 + exp = np.array([False, False, False, False]) + tm.assert_numpy_array_equal(result, exp) + + result = idx1 != idx2 + exp = np.array([True, True, True, True]) + tm.assert_numpy_array_equal(result, exp) + + result = idx1 == idx1 + exp = np.array([True, True, False, True]) + tm.assert_numpy_array_equal(result, exp) + + result = idx1 != idx1 + exp = np.array([False, False, True, False]) + tm.assert_numpy_array_equal(result, exp) + + @pytest.mark.parametrize("freq", ["M", "2M", "3M"]) + def test_pi_cmp_nat_mismatched_freq_raises(self, freq): + idx1 = PeriodIndex(["2011-01", "2011-02", "NaT", "2011-05"], freq=freq) + + diff = PeriodIndex(["2011-02", "2011-01", "2011-04", "NaT"], freq="4M") + msg = rf"Invalid comparison between dtype=period\[{freq}\] and PeriodArray" + with pytest.raises(TypeError, match=msg): + idx1 > diff + + result = idx1 == diff + expected = np.array([False, False, False, False], dtype=bool) + tm.assert_numpy_array_equal(result, expected) + + # TODO: De-duplicate with test_pi_cmp_nat + @pytest.mark.parametrize("dtype", [object, None]) + def test_comp_nat(self, dtype): + left = PeriodIndex([Period("2011-01-01"), pd.NaT, Period("2011-01-03")]) + right = PeriodIndex([pd.NaT, pd.NaT, Period("2011-01-03")]) + + if dtype is not None: + left = left.astype(dtype) + right = right.astype(dtype) + + result = left == right + expected = np.array([False, False, True]) + tm.assert_numpy_array_equal(result, expected) + + result = left != right + expected = np.array([True, True, False]) + tm.assert_numpy_array_equal(result, expected) + + expected = np.array([False, False, False]) + tm.assert_numpy_array_equal(left == pd.NaT, expected) + tm.assert_numpy_array_equal(pd.NaT == right, expected) + + expected = np.array([True, True, True]) + tm.assert_numpy_array_equal(left != pd.NaT, expected) + tm.assert_numpy_array_equal(pd.NaT != left, expected) + + expected = np.array([False, False, False]) + tm.assert_numpy_array_equal(left < pd.NaT, expected) + tm.assert_numpy_array_equal(pd.NaT > left, expected) + + +class TestPeriodSeriesComparisons: + def test_cmp_series_period_series_mixed_freq(self): + # GH#13200 + base = Series( + [ + Period("2011", freq="Y"), + Period("2011-02", freq="M"), + Period("2013", freq="Y"), + Period("2011-04", freq="M"), + ] + ) + + ser = Series( + [ + Period("2012", freq="Y"), + Period("2011-01", freq="M"), + Period("2013", freq="Y"), + Period("2011-05", freq="M"), + ] + ) + + exp = Series([False, False, True, False]) + tm.assert_series_equal(base == ser, exp) + + exp = Series([True, True, False, True]) + tm.assert_series_equal(base != ser, exp) + + exp = Series([False, True, False, False]) + tm.assert_series_equal(base > ser, exp) + + exp = Series([True, False, False, True]) + tm.assert_series_equal(base < ser, exp) + + exp = Series([False, True, True, False]) + tm.assert_series_equal(base >= ser, exp) + + exp = Series([True, False, True, True]) + tm.assert_series_equal(base <= ser, exp) + + +class TestPeriodIndexSeriesComparisonConsistency: + """Test PeriodIndex and Period Series Ops consistency""" + + # TODO: needs parametrization+de-duplication + + def _check(self, values, func, expected): + # Test PeriodIndex and Period Series Ops consistency + + idx = PeriodIndex(values) + result = func(idx) + + # check that we don't pass an unwanted type to tm.assert_equal + assert isinstance(expected, (pd.Index, np.ndarray)) + tm.assert_equal(result, expected) + + s = Series(values) + result = func(s) + + exp = Series(expected, name=values.name) + tm.assert_series_equal(result, exp) + + def test_pi_comp_period(self): + idx = PeriodIndex( + ["2011-01", "2011-02", "2011-03", "2011-04"], freq="M", name="idx" + ) + per = idx[2] + + f = lambda x: x == per + exp = np.array([False, False, True, False], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: per == x + self._check(idx, f, exp) + + f = lambda x: x != per + exp = np.array([True, True, False, True], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: per != x + self._check(idx, f, exp) + + f = lambda x: per >= x + exp = np.array([True, True, True, False], dtype=np.bool_) + self._check(idx, f, exp) + + f = lambda x: x > per + exp = np.array([False, False, False, True], dtype=np.bool_) + self._check(idx, f, exp) + + f = lambda x: per >= x + exp = np.array([True, True, True, False], dtype=np.bool_) + self._check(idx, f, exp) + + def test_pi_comp_period_nat(self): + idx = PeriodIndex( + ["2011-01", "NaT", "2011-03", "2011-04"], freq="M", name="idx" + ) + per = idx[2] + + f = lambda x: x == per + exp = np.array([False, False, True, False], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: per == x + self._check(idx, f, exp) + + f = lambda x: x == pd.NaT + exp = np.array([False, False, False, False], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: pd.NaT == x + self._check(idx, f, exp) + + f = lambda x: x != per + exp = np.array([True, True, False, True], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: per != x + self._check(idx, f, exp) + + f = lambda x: x != pd.NaT + exp = np.array([True, True, True, True], dtype=np.bool_) + self._check(idx, f, exp) + f = lambda x: pd.NaT != x + self._check(idx, f, exp) + + f = lambda x: per >= x + exp = np.array([True, False, True, False], dtype=np.bool_) + self._check(idx, f, exp) + + f = lambda x: x < per + exp = np.array([True, False, False, False], dtype=np.bool_) + self._check(idx, f, exp) + + f = lambda x: x > pd.NaT + exp = np.array([False, False, False, False], dtype=np.bool_) + self._check(idx, f, exp) + + f = lambda x: pd.NaT >= x + exp = np.array([False, False, False, False], dtype=np.bool_) + self._check(idx, f, exp) + + +# ------------------------------------------------------------------ +# Arithmetic + + +class TestPeriodFrameArithmetic: + def test_ops_frame_period(self): + # GH#13043 + df = pd.DataFrame( + { + "A": [Period("2015-01", freq="M"), Period("2015-02", freq="M")], + "B": [Period("2014-01", freq="M"), Period("2014-02", freq="M")], + } + ) + assert df["A"].dtype == "Period[M]" + assert df["B"].dtype == "Period[M]" + + p = Period("2015-03", freq="M") + off = p.freq + # dtype will be object because of original dtype + exp = pd.DataFrame( + { + "A": np.array([2 * off, 1 * off], dtype=object), + "B": np.array([14 * off, 13 * off], dtype=object), + } + ) + tm.assert_frame_equal(p - df, exp) + tm.assert_frame_equal(df - p, -1 * exp) + + df2 = pd.DataFrame( + { + "A": [Period("2015-05", freq="M"), Period("2015-06", freq="M")], + "B": [Period("2015-05", freq="M"), Period("2015-06", freq="M")], + } + ) + assert df2["A"].dtype == "Period[M]" + assert df2["B"].dtype == "Period[M]" + + exp = pd.DataFrame( + { + "A": np.array([4 * off, 4 * off], dtype=object), + "B": np.array([16 * off, 16 * off], dtype=object), + } + ) + tm.assert_frame_equal(df2 - df, exp) + tm.assert_frame_equal(df - df2, -1 * exp) + + +class TestPeriodIndexArithmetic: + # --------------------------------------------------------------- + # __add__/__sub__ with PeriodIndex + # PeriodIndex + other is defined for integers and timedelta-like others + # PeriodIndex - other is defined for integers, timedelta-like others, + # and PeriodIndex (with matching freq) + + def test_parr_add_iadd_parr_raises(self, box_with_array): + rng = period_range("1/1/2000", freq="D", periods=5) + other = period_range("1/6/2000", freq="D", periods=5) + # TODO: parametrize over boxes for other? + + rng = tm.box_expected(rng, box_with_array) + # An earlier implementation of PeriodIndex addition performed + # a set operation (union). This has since been changed to + # raise a TypeError. See GH#14164 and GH#13077 for historical + # reference. + msg = r"unsupported operand type\(s\) for \+: .* and .*" + with pytest.raises(TypeError, match=msg): + rng + other + + with pytest.raises(TypeError, match=msg): + rng += other + + def test_pi_sub_isub_pi(self): + # GH#20049 + # For historical reference see GH#14164, GH#13077. + # PeriodIndex subtraction originally performed set difference, + # then changed to raise TypeError before being implemented in GH#20049 + rng = period_range("1/1/2000", freq="D", periods=5) + other = period_range("1/6/2000", freq="D", periods=5) + + off = rng.freq + expected = pd.Index([-5 * off] * 5) + result = rng - other + tm.assert_index_equal(result, expected) + + rng -= other + tm.assert_index_equal(rng, expected) + + def test_pi_sub_pi_with_nat(self): + rng = period_range("1/1/2000", freq="D", periods=5) + other = rng[1:].insert(0, pd.NaT) + assert other[1:].equals(rng[1:]) + + result = rng - other + off = rng.freq + expected = pd.Index([pd.NaT, 0 * off, 0 * off, 0 * off, 0 * off]) + tm.assert_index_equal(result, expected) + + def test_parr_sub_pi_mismatched_freq(self, box_with_array, box_with_array2): + rng = period_range("1/1/2000", freq="D", periods=5) + other = period_range("1/6/2000", freq="h", periods=5) + + rng = tm.box_expected(rng, box_with_array) + other = tm.box_expected(other, box_with_array2) + msg = r"Input has different freq=[hD] from PeriodArray\(freq=[Dh]\)" + with pytest.raises(IncompatibleFrequency, match=msg): + rng - other + + @pytest.mark.parametrize("n", [1, 2, 3, 4]) + def test_sub_n_gt_1_ticks(self, tick_classes, n): + # GH 23878 + p1_d = "19910905" + p2_d = "19920406" + p1 = PeriodIndex([p1_d], freq=tick_classes(n)) + p2 = PeriodIndex([p2_d], freq=tick_classes(n)) + + expected = PeriodIndex([p2_d], freq=p2.freq.base) - PeriodIndex( + [p1_d], freq=p1.freq.base + ) + + tm.assert_index_equal((p2 - p1), expected) + + @pytest.mark.parametrize("n", [1, 2, 3, 4]) + @pytest.mark.parametrize( + "offset, kwd_name", + [ + (pd.offsets.YearEnd, "month"), + (pd.offsets.QuarterEnd, "startingMonth"), + (pd.offsets.MonthEnd, None), + (pd.offsets.Week, "weekday"), + ], + ) + def test_sub_n_gt_1_offsets(self, offset, kwd_name, n): + # GH 23878 + kwds = {kwd_name: 3} if kwd_name is not None else {} + p1_d = "19910905" + p2_d = "19920406" + freq = offset(n, normalize=False, **kwds) + p1 = PeriodIndex([p1_d], freq=freq) + p2 = PeriodIndex([p2_d], freq=freq) + + result = p2 - p1 + expected = PeriodIndex([p2_d], freq=freq.base) - PeriodIndex( + [p1_d], freq=freq.base + ) + + tm.assert_index_equal(result, expected) + + # ------------------------------------------------------------- + # Invalid Operations + + @pytest.mark.parametrize( + "other", + [ + # datetime scalars + Timestamp("2016-01-01"), + Timestamp("2016-01-01").to_pydatetime(), + Timestamp("2016-01-01").to_datetime64(), + # datetime-like arrays + pd.date_range("2016-01-01", periods=3, freq="h"), + pd.date_range("2016-01-01", periods=3, tz="Europe/Brussels"), + pd.date_range("2016-01-01", periods=3, freq="s")._data, + pd.date_range("2016-01-01", periods=3, tz="Asia/Tokyo")._data, + # Miscellaneous invalid types + 3.14, + np.array([2.0, 3.0, 4.0]), + ], + ) + def test_parr_add_sub_invalid(self, other, box_with_array): + # GH#23215 + rng = period_range("1/1/2000", freq="D", periods=3) + rng = tm.box_expected(rng, box_with_array) + + msg = "|".join( + [ + r"(:?cannot add PeriodArray and .*)", + r"(:?cannot subtract .* from (:?a\s)?.*)", + r"(:?unsupported operand type\(s\) for \+: .* and .*)", + r"unsupported operand type\(s\) for [+-]: .* and .*", + ] + ) + assert_invalid_addsub_type(rng, other, msg) + with pytest.raises(TypeError, match=msg): + rng + other + with pytest.raises(TypeError, match=msg): + other + rng + with pytest.raises(TypeError, match=msg): + rng - other + with pytest.raises(TypeError, match=msg): + other - rng + + # ----------------------------------------------------------------- + # __add__/__sub__ with ndarray[datetime64] and ndarray[timedelta64] + + def test_pi_add_sub_td64_array_non_tick_raises(self): + rng = period_range("1/1/2000", freq="Q", periods=3) + tdi = TimedeltaIndex(["-1 Day", "-1 Day", "-1 Day"]) + tdarr = tdi.values + + msg = r"Cannot add or subtract timedelta64\[ns\] dtype from period\[Q-DEC\]" + with pytest.raises(TypeError, match=msg): + rng + tdarr + with pytest.raises(TypeError, match=msg): + tdarr + rng + + with pytest.raises(TypeError, match=msg): + rng - tdarr + msg = r"cannot subtract PeriodArray from TimedeltaArray" + with pytest.raises(TypeError, match=msg): + tdarr - rng + + def test_pi_add_sub_td64_array_tick(self): + # PeriodIndex + Timedelta-like is allowed only with + # tick-like frequencies + rng = period_range("1/1/2000", freq="90D", periods=3) + tdi = TimedeltaIndex(["-1 Day", "-1 Day", "-1 Day"]) + tdarr = tdi.values + + expected = period_range("12/31/1999", freq="90D", periods=3) + result = rng + tdi + tm.assert_index_equal(result, expected) + result = rng + tdarr + tm.assert_index_equal(result, expected) + result = tdi + rng + tm.assert_index_equal(result, expected) + result = tdarr + rng + tm.assert_index_equal(result, expected) + + expected = period_range("1/2/2000", freq="90D", periods=3) + + result = rng - tdi + tm.assert_index_equal(result, expected) + result = rng - tdarr + tm.assert_index_equal(result, expected) + + msg = r"cannot subtract .* from .*" + with pytest.raises(TypeError, match=msg): + tdarr - rng + + with pytest.raises(TypeError, match=msg): + tdi - rng + + @pytest.mark.parametrize("pi_freq", ["D", "W", "Q", "h"]) + @pytest.mark.parametrize("tdi_freq", [None, "h"]) + def test_parr_sub_td64array(self, box_with_array, tdi_freq, pi_freq): + box = box_with_array + xbox = box if box not in [pd.array, tm.to_array] else pd.Index + + tdi = TimedeltaIndex(["1 hours", "2 hours"], freq=tdi_freq) + dti = Timestamp("2018-03-07 17:16:40") + tdi + pi = dti.to_period(pi_freq) + + # TODO: parametrize over box for pi? + td64obj = tm.box_expected(tdi, box) + + if pi_freq == "h": + result = pi - td64obj + expected = (pi.to_timestamp("s") - tdi).to_period(pi_freq) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(result, expected) + + # Subtract from scalar + result = pi[0] - td64obj + expected = (pi[0].to_timestamp("s") - tdi).to_period(pi_freq) + expected = tm.box_expected(expected, box) + tm.assert_equal(result, expected) + + elif pi_freq == "D": + # Tick, but non-compatible + msg = ( + "Cannot add/subtract timedelta-like from PeriodArray that is " + "not an integer multiple of the PeriodArray's freq." + ) + with pytest.raises(IncompatibleFrequency, match=msg): + pi - td64obj + + with pytest.raises(IncompatibleFrequency, match=msg): + pi[0] - td64obj + + else: + # With non-Tick freq, we could not add timedelta64 array regardless + # of what its resolution is + msg = "Cannot add or subtract timedelta64" + with pytest.raises(TypeError, match=msg): + pi - td64obj + with pytest.raises(TypeError, match=msg): + pi[0] - td64obj + + # ----------------------------------------------------------------- + # operations with array/Index of DateOffset objects + + @pytest.mark.parametrize("box", [np.array, pd.Index]) + def test_pi_add_offset_array(self, box): + # GH#18849 + pi = PeriodIndex([Period("2015Q1"), Period("2016Q2")]) + offs = box( + [ + pd.offsets.QuarterEnd(n=1, startingMonth=12), + pd.offsets.QuarterEnd(n=-2, startingMonth=12), + ] + ) + expected = PeriodIndex([Period("2015Q2"), Period("2015Q4")]).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res = pi + offs + tm.assert_index_equal(res, expected) + + with tm.assert_produces_warning(PerformanceWarning): + res2 = offs + pi + tm.assert_index_equal(res2, expected) + + unanchored = np.array([pd.offsets.Hour(n=1), pd.offsets.Minute(n=-2)]) + # addition/subtraction ops with incompatible offsets should issue + # a PerformanceWarning and _then_ raise a TypeError. + msg = r"Input cannot be converted to Period\(freq=Q-DEC\)" + with pytest.raises(IncompatibleFrequency, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + pi + unanchored + with pytest.raises(IncompatibleFrequency, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + unanchored + pi + + @pytest.mark.parametrize("box", [np.array, pd.Index]) + def test_pi_sub_offset_array(self, box): + # GH#18824 + pi = PeriodIndex([Period("2015Q1"), Period("2016Q2")]) + other = box( + [ + pd.offsets.QuarterEnd(n=1, startingMonth=12), + pd.offsets.QuarterEnd(n=-2, startingMonth=12), + ] + ) + + expected = PeriodIndex([pi[n] - other[n] for n in range(len(pi))]) + expected = expected.astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res = pi - other + tm.assert_index_equal(res, expected) + + anchored = box([pd.offsets.MonthEnd(), pd.offsets.Day(n=2)]) + + # addition/subtraction ops with anchored offsets should issue + # a PerformanceWarning and _then_ raise a TypeError. + msg = r"Input has different freq=-1M from Period\(freq=Q-DEC\)" + with pytest.raises(IncompatibleFrequency, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + pi - anchored + with pytest.raises(IncompatibleFrequency, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + anchored - pi + + def test_pi_add_iadd_int(self, one): + # Variants of `one` for #19012 + rng = period_range("2000-01-01 09:00", freq="h", periods=10) + result = rng + one + expected = period_range("2000-01-01 10:00", freq="h", periods=10) + tm.assert_index_equal(result, expected) + rng += one + tm.assert_index_equal(rng, expected) + + def test_pi_sub_isub_int(self, one): + """ + PeriodIndex.__sub__ and __isub__ with several representations of + the integer 1, e.g. int, np.int64, np.uint8, ... + """ + rng = period_range("2000-01-01 09:00", freq="h", periods=10) + result = rng - one + expected = period_range("2000-01-01 08:00", freq="h", periods=10) + tm.assert_index_equal(result, expected) + rng -= one + tm.assert_index_equal(rng, expected) + + @pytest.mark.parametrize("five", [5, np.array(5, dtype=np.int64)]) + def test_pi_sub_intlike(self, five): + rng = period_range("2007-01", periods=50) + + result = rng - five + exp = rng + (-five) + tm.assert_index_equal(result, exp) + + def test_pi_add_sub_int_array_freqn_gt1(self): + # GH#47209 test adding array of ints when freq.n > 1 matches + # scalar behavior + pi = period_range("2016-01-01", periods=10, freq="2D") + arr = np.arange(10) + result = pi + arr + expected = pd.Index([x + y for x, y in zip(pi, arr)]) + tm.assert_index_equal(result, expected) + + result = pi - arr + expected = pd.Index([x - y for x, y in zip(pi, arr)]) + tm.assert_index_equal(result, expected) + + def test_pi_sub_isub_offset(self): + # offset + # DateOffset + rng = period_range("2014", "2024", freq="Y") + result = rng - pd.offsets.YearEnd(5) + expected = period_range("2009", "2019", freq="Y") + tm.assert_index_equal(result, expected) + rng -= pd.offsets.YearEnd(5) + tm.assert_index_equal(rng, expected) + + rng = period_range("2014-01", "2016-12", freq="M") + result = rng - pd.offsets.MonthEnd(5) + expected = period_range("2013-08", "2016-07", freq="M") + tm.assert_index_equal(result, expected) + + rng -= pd.offsets.MonthEnd(5) + tm.assert_index_equal(rng, expected) + + @pytest.mark.parametrize("transpose", [True, False]) + def test_pi_add_offset_n_gt1(self, box_with_array, transpose): + # GH#23215 + # add offset to PeriodIndex with freq.n > 1 + + per = Period("2016-01", freq="2M") + pi = PeriodIndex([per]) + + expected = PeriodIndex(["2016-03"], freq="2M") + + pi = tm.box_expected(pi, box_with_array, transpose=transpose) + expected = tm.box_expected(expected, box_with_array, transpose=transpose) + + result = pi + per.freq + tm.assert_equal(result, expected) + + result = per.freq + pi + tm.assert_equal(result, expected) + + def test_pi_add_offset_n_gt1_not_divisible(self, box_with_array): + # GH#23215 + # PeriodIndex with freq.n > 1 add offset with offset.n % freq.n != 0 + pi = PeriodIndex(["2016-01"], freq="2M") + expected = PeriodIndex(["2016-04"], freq="2M") + + pi = tm.box_expected(pi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = pi + to_offset("3ME") + tm.assert_equal(result, expected) + + result = to_offset("3ME") + pi + tm.assert_equal(result, expected) + + # --------------------------------------------------------------- + # __add__/__sub__ with integer arrays + + @pytest.mark.parametrize("int_holder", [np.array, pd.Index]) + @pytest.mark.parametrize("op", [operator.add, ops.radd]) + def test_pi_add_intarray(self, int_holder, op): + # GH#19959 + pi = PeriodIndex([Period("2015Q1"), Period("NaT")]) + other = int_holder([4, -1]) + + result = op(pi, other) + expected = PeriodIndex([Period("2016Q1"), Period("NaT")]) + tm.assert_index_equal(result, expected) + + @pytest.mark.parametrize("int_holder", [np.array, pd.Index]) + def test_pi_sub_intarray(self, int_holder): + # GH#19959 + pi = PeriodIndex([Period("2015Q1"), Period("NaT")]) + other = int_holder([4, -1]) + + result = pi - other + expected = PeriodIndex([Period("2014Q1"), Period("NaT")]) + tm.assert_index_equal(result, expected) + + msg = r"bad operand type for unary -: 'PeriodArray'" + with pytest.raises(TypeError, match=msg): + other - pi + + # --------------------------------------------------------------- + # Timedelta-like (timedelta, timedelta64, Timedelta, Tick) + # TODO: Some of these are misnomers because of non-Tick DateOffsets + + def test_parr_add_timedeltalike_minute_gt1(self, three_days, box_with_array): + # GH#23031 adding a time-delta-like offset to a PeriodArray that has + # minute frequency with n != 1. A more general case is tested below + # in test_pi_add_timedeltalike_tick_gt1, but here we write out the + # expected result more explicitly. + other = three_days + rng = period_range("2014-05-01", periods=3, freq="2D") + rng = tm.box_expected(rng, box_with_array) + + expected = PeriodIndex(["2014-05-04", "2014-05-06", "2014-05-08"], freq="2D") + expected = tm.box_expected(expected, box_with_array) + + result = rng + other + tm.assert_equal(result, expected) + + result = other + rng + tm.assert_equal(result, expected) + + # subtraction + expected = PeriodIndex(["2014-04-28", "2014-04-30", "2014-05-02"], freq="2D") + expected = tm.box_expected(expected, box_with_array) + result = rng - other + tm.assert_equal(result, expected) + + msg = "|".join( + [ + r"bad operand type for unary -: 'PeriodArray'", + r"cannot subtract PeriodArray from timedelta64\[[hD]\]", + ] + ) + with pytest.raises(TypeError, match=msg): + other - rng + + @pytest.mark.parametrize("freqstr", ["5ns", "5us", "5ms", "5s", "5min", "5h", "5d"]) + def test_parr_add_timedeltalike_tick_gt1(self, three_days, freqstr, box_with_array): + # GH#23031 adding a time-delta-like offset to a PeriodArray that has + # tick-like frequency with n != 1 + other = three_days + rng = period_range("2014-05-01", periods=6, freq=freqstr) + first = rng[0] + rng = tm.box_expected(rng, box_with_array) + + expected = period_range(first + other, periods=6, freq=freqstr) + expected = tm.box_expected(expected, box_with_array) + + result = rng + other + tm.assert_equal(result, expected) + + result = other + rng + tm.assert_equal(result, expected) + + # subtraction + expected = period_range(first - other, periods=6, freq=freqstr) + expected = tm.box_expected(expected, box_with_array) + result = rng - other + tm.assert_equal(result, expected) + msg = "|".join( + [ + r"bad operand type for unary -: 'PeriodArray'", + r"cannot subtract PeriodArray from timedelta64\[[hD]\]", + ] + ) + with pytest.raises(TypeError, match=msg): + other - rng + + def test_pi_add_iadd_timedeltalike_daily(self, three_days): + # Tick + other = three_days + rng = period_range("2014-05-01", "2014-05-15", freq="D") + expected = period_range("2014-05-04", "2014-05-18", freq="D") + + result = rng + other + tm.assert_index_equal(result, expected) + + rng += other + tm.assert_index_equal(rng, expected) + + def test_pi_sub_isub_timedeltalike_daily(self, three_days): + # Tick-like 3 Days + other = three_days + rng = period_range("2014-05-01", "2014-05-15", freq="D") + expected = period_range("2014-04-28", "2014-05-12", freq="D") + + result = rng - other + tm.assert_index_equal(result, expected) + + rng -= other + tm.assert_index_equal(rng, expected) + + def test_parr_add_sub_timedeltalike_freq_mismatch_daily( + self, not_daily, box_with_array + ): + other = not_daily + rng = period_range("2014-05-01", "2014-05-15", freq="D") + rng = tm.box_expected(rng, box_with_array) + + msg = "|".join( + [ + # non-timedelta-like DateOffset + "Input has different freq(=.+)? from Period.*?\\(freq=D\\)", + # timedelta/td64/Timedelta but not a multiple of 24H + "Cannot add/subtract timedelta-like from PeriodArray that is " + "not an integer multiple of the PeriodArray's freq.", + ] + ) + with pytest.raises(IncompatibleFrequency, match=msg): + rng + other + with pytest.raises(IncompatibleFrequency, match=msg): + rng += other + with pytest.raises(IncompatibleFrequency, match=msg): + rng - other + with pytest.raises(IncompatibleFrequency, match=msg): + rng -= other + + def test_pi_add_iadd_timedeltalike_hourly(self, two_hours): + other = two_hours + rng = period_range("2014-01-01 10:00", "2014-01-05 10:00", freq="h") + expected = period_range("2014-01-01 12:00", "2014-01-05 12:00", freq="h") + + result = rng + other + tm.assert_index_equal(result, expected) + + rng += other + tm.assert_index_equal(rng, expected) + + def test_parr_add_timedeltalike_mismatched_freq_hourly( + self, not_hourly, box_with_array + ): + other = not_hourly + rng = period_range("2014-01-01 10:00", "2014-01-05 10:00", freq="h") + rng = tm.box_expected(rng, box_with_array) + msg = "|".join( + [ + # non-timedelta-like DateOffset + "Input has different freq(=.+)? from Period.*?\\(freq=h\\)", + # timedelta/td64/Timedelta but not a multiple of 24H + "Cannot add/subtract timedelta-like from PeriodArray that is " + "not an integer multiple of the PeriodArray's freq.", + ] + ) + + with pytest.raises(IncompatibleFrequency, match=msg): + rng + other + + with pytest.raises(IncompatibleFrequency, match=msg): + rng += other + + def test_pi_sub_isub_timedeltalike_hourly(self, two_hours): + other = two_hours + rng = period_range("2014-01-01 10:00", "2014-01-05 10:00", freq="h") + expected = period_range("2014-01-01 08:00", "2014-01-05 08:00", freq="h") + + result = rng - other + tm.assert_index_equal(result, expected) + + rng -= other + tm.assert_index_equal(rng, expected) + + def test_add_iadd_timedeltalike_annual(self): + # offset + # DateOffset + rng = period_range("2014", "2024", freq="Y") + result = rng + pd.offsets.YearEnd(5) + expected = period_range("2019", "2029", freq="Y") + tm.assert_index_equal(result, expected) + rng += pd.offsets.YearEnd(5) + tm.assert_index_equal(rng, expected) + + def test_pi_add_sub_timedeltalike_freq_mismatch_annual(self, mismatched_freq): + other = mismatched_freq + rng = period_range("2014", "2024", freq="Y") + msg = "Input has different freq(=.+)? from Period.*?\\(freq=Y-DEC\\)" + with pytest.raises(IncompatibleFrequency, match=msg): + rng + other + with pytest.raises(IncompatibleFrequency, match=msg): + rng += other + with pytest.raises(IncompatibleFrequency, match=msg): + rng - other + with pytest.raises(IncompatibleFrequency, match=msg): + rng -= other + + def test_pi_add_iadd_timedeltalike_M(self): + rng = period_range("2014-01", "2016-12", freq="M") + expected = period_range("2014-06", "2017-05", freq="M") + + result = rng + pd.offsets.MonthEnd(5) + tm.assert_index_equal(result, expected) + + rng += pd.offsets.MonthEnd(5) + tm.assert_index_equal(rng, expected) + + def test_pi_add_sub_timedeltalike_freq_mismatch_monthly(self, mismatched_freq): + other = mismatched_freq + rng = period_range("2014-01", "2016-12", freq="M") + msg = "Input has different freq(=.+)? from Period.*?\\(freq=M\\)" + with pytest.raises(IncompatibleFrequency, match=msg): + rng + other + with pytest.raises(IncompatibleFrequency, match=msg): + rng += other + with pytest.raises(IncompatibleFrequency, match=msg): + rng - other + with pytest.raises(IncompatibleFrequency, match=msg): + rng -= other + + @pytest.mark.parametrize("transpose", [True, False]) + def test_parr_add_sub_td64_nat(self, box_with_array, transpose): + # GH#23320 special handling for timedelta64("NaT") + pi = period_range("1994-04-01", periods=9, freq="19D") + other = np.timedelta64("NaT") + expected = PeriodIndex(["NaT"] * 9, freq="19D") + + obj = tm.box_expected(pi, box_with_array, transpose=transpose) + expected = tm.box_expected(expected, box_with_array, transpose=transpose) + + result = obj + other + tm.assert_equal(result, expected) + result = other + obj + tm.assert_equal(result, expected) + result = obj - other + tm.assert_equal(result, expected) + msg = r"cannot subtract .* from .*" + with pytest.raises(TypeError, match=msg): + other - obj + + @pytest.mark.parametrize( + "other", + [ + np.array(["NaT"] * 9, dtype="m8[ns]"), + TimedeltaArray._from_sequence(["NaT"] * 9, dtype="m8[ns]"), + ], + ) + def test_parr_add_sub_tdt64_nat_array(self, box_with_array, other): + pi = period_range("1994-04-01", periods=9, freq="19D") + expected = PeriodIndex(["NaT"] * 9, freq="19D") + + obj = tm.box_expected(pi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = obj + other + tm.assert_equal(result, expected) + result = other + obj + tm.assert_equal(result, expected) + result = obj - other + tm.assert_equal(result, expected) + msg = r"cannot subtract .* from .*" + with pytest.raises(TypeError, match=msg): + other - obj + + # some but not *all* NaT + other = other.copy() + other[0] = np.timedelta64(0, "ns") + expected = PeriodIndex([pi[0]] + ["NaT"] * 8, freq="19D") + expected = tm.box_expected(expected, box_with_array) + + result = obj + other + tm.assert_equal(result, expected) + result = other + obj + tm.assert_equal(result, expected) + result = obj - other + tm.assert_equal(result, expected) + with pytest.raises(TypeError, match=msg): + other - obj + + # --------------------------------------------------------------- + # Unsorted + + def test_parr_add_sub_index(self): + # Check that PeriodArray defers to Index on arithmetic ops + pi = period_range("2000-12-31", periods=3) + parr = pi.array + + result = parr - pi + expected = pi - pi + tm.assert_index_equal(result, expected) + + def test_parr_add_sub_object_array(self): + pi = period_range("2000-12-31", periods=3, freq="D") + parr = pi.array + + other = np.array([Timedelta(days=1), pd.offsets.Day(2), 3]) + + with tm.assert_produces_warning(PerformanceWarning): + result = parr + other + + expected = PeriodIndex( + ["2001-01-01", "2001-01-03", "2001-01-05"], freq="D" + )._data.astype(object) + tm.assert_equal(result, expected) + + with tm.assert_produces_warning(PerformanceWarning): + result = parr - other + + expected = PeriodIndex(["2000-12-30"] * 3, freq="D")._data.astype(object) + tm.assert_equal(result, expected) + + def test_period_add_timestamp_raises(self, box_with_array): + # GH#17983 + ts = Timestamp("2017") + per = Period("2017", freq="M") + + arr = pd.Index([per], dtype="Period[M]") + arr = tm.box_expected(arr, box_with_array) + + msg = "cannot add PeriodArray and Timestamp" + with pytest.raises(TypeError, match=msg): + arr + ts + with pytest.raises(TypeError, match=msg): + ts + arr + msg = "cannot add PeriodArray and DatetimeArray" + with pytest.raises(TypeError, match=msg): + arr + Series([ts]) + with pytest.raises(TypeError, match=msg): + Series([ts]) + arr + with pytest.raises(TypeError, match=msg): + arr + pd.Index([ts]) + with pytest.raises(TypeError, match=msg): + pd.Index([ts]) + arr + + if box_with_array is pd.DataFrame: + msg = "cannot add PeriodArray and DatetimeArray" + else: + msg = r"unsupported operand type\(s\) for \+: 'Period' and 'DatetimeArray" + with pytest.raises(TypeError, match=msg): + arr + pd.DataFrame([ts]) + if box_with_array is pd.DataFrame: + msg = "cannot add PeriodArray and DatetimeArray" + else: + msg = r"unsupported operand type\(s\) for \+: 'DatetimeArray' and 'Period'" + with pytest.raises(TypeError, match=msg): + pd.DataFrame([ts]) + arr + + +class TestPeriodSeriesArithmetic: + def test_parr_add_timedeltalike_scalar(self, three_days, box_with_array): + # GH#13043 + ser = Series( + [Period("2015-01-01", freq="D"), Period("2015-01-02", freq="D")], + name="xxx", + ) + assert ser.dtype == "Period[D]" + + expected = Series( + [Period("2015-01-04", freq="D"), Period("2015-01-05", freq="D")], + name="xxx", + ) + + obj = tm.box_expected(ser, box_with_array) + if box_with_array is pd.DataFrame: + assert (obj.dtypes == "Period[D]").all() + + expected = tm.box_expected(expected, box_with_array) + + result = obj + three_days + tm.assert_equal(result, expected) + + result = three_days + obj + tm.assert_equal(result, expected) + + def test_ops_series_period(self): + # GH#13043 + ser = Series( + [Period("2015-01-01", freq="D"), Period("2015-01-02", freq="D")], + name="xxx", + ) + assert ser.dtype == "Period[D]" + + per = Period("2015-01-10", freq="D") + off = per.freq + # dtype will be object because of original dtype + expected = Series([9 * off, 8 * off], name="xxx", dtype=object) + tm.assert_series_equal(per - ser, expected) + tm.assert_series_equal(ser - per, -1 * expected) + + s2 = Series( + [Period("2015-01-05", freq="D"), Period("2015-01-04", freq="D")], + name="xxx", + ) + assert s2.dtype == "Period[D]" + + expected = Series([4 * off, 2 * off], name="xxx", dtype=object) + tm.assert_series_equal(s2 - ser, expected) + tm.assert_series_equal(ser - s2, -1 * expected) + + +class TestPeriodIndexSeriesMethods: + """Test PeriodIndex and Period Series Ops consistency""" + + def _check(self, values, func, expected): + idx = PeriodIndex(values) + result = func(idx) + tm.assert_equal(result, expected) + + ser = Series(values) + result = func(ser) + + exp = Series(expected, name=values.name) + tm.assert_series_equal(result, exp) + + def test_pi_ops(self): + idx = PeriodIndex( + ["2011-01", "2011-02", "2011-03", "2011-04"], freq="M", name="idx" + ) + + expected = PeriodIndex( + ["2011-03", "2011-04", "2011-05", "2011-06"], freq="M", name="idx" + ) + + self._check(idx, lambda x: x + 2, expected) + self._check(idx, lambda x: 2 + x, expected) + + self._check(idx + 2, lambda x: x - 2, idx) + + result = idx - Period("2011-01", freq="M") + off = idx.freq + exp = pd.Index([0 * off, 1 * off, 2 * off, 3 * off], name="idx") + tm.assert_index_equal(result, exp) + + result = Period("2011-01", freq="M") - idx + exp = pd.Index([0 * off, -1 * off, -2 * off, -3 * off], name="idx") + tm.assert_index_equal(result, exp) + + @pytest.mark.parametrize("ng", ["str", 1.5]) + @pytest.mark.parametrize( + "func", + [ + lambda obj, ng: obj + ng, + lambda obj, ng: ng + obj, + lambda obj, ng: obj - ng, + lambda obj, ng: ng - obj, + lambda obj, ng: np.add(obj, ng), + lambda obj, ng: np.add(ng, obj), + lambda obj, ng: np.subtract(obj, ng), + lambda obj, ng: np.subtract(ng, obj), + ], + ) + def test_parr_ops_errors(self, ng, func, box_with_array): + idx = PeriodIndex( + ["2011-01", "2011-02", "2011-03", "2011-04"], freq="M", name="idx" + ) + obj = tm.box_expected(idx, box_with_array) + msg = "|".join( + [ + r"unsupported operand type\(s\)", + "can only concatenate", + r"must be str", + "object to str implicitly", + ] + ) + + with pytest.raises(TypeError, match=msg): + func(obj, ng) + + def test_pi_ops_nat(self): + idx = PeriodIndex( + ["2011-01", "2011-02", "NaT", "2011-04"], freq="M", name="idx" + ) + expected = PeriodIndex( + ["2011-03", "2011-04", "NaT", "2011-06"], freq="M", name="idx" + ) + + self._check(idx, lambda x: x + 2, expected) + self._check(idx, lambda x: 2 + x, expected) + self._check(idx, lambda x: np.add(x, 2), expected) + + self._check(idx + 2, lambda x: x - 2, idx) + self._check(idx + 2, lambda x: np.subtract(x, 2), idx) + + # freq with mult + idx = PeriodIndex( + ["2011-01", "2011-02", "NaT", "2011-04"], freq="2M", name="idx" + ) + expected = PeriodIndex( + ["2011-07", "2011-08", "NaT", "2011-10"], freq="2M", name="idx" + ) + + self._check(idx, lambda x: x + 3, expected) + self._check(idx, lambda x: 3 + x, expected) + self._check(idx, lambda x: np.add(x, 3), expected) + + self._check(idx + 3, lambda x: x - 3, idx) + self._check(idx + 3, lambda x: np.subtract(x, 3), idx) + + def test_pi_ops_array_int(self): + idx = PeriodIndex( + ["2011-01", "2011-02", "NaT", "2011-04"], freq="M", name="idx" + ) + f = lambda x: x + np.array([1, 2, 3, 4]) + exp = PeriodIndex( + ["2011-02", "2011-04", "NaT", "2011-08"], freq="M", name="idx" + ) + self._check(idx, f, exp) + + f = lambda x: np.add(x, np.array([4, -1, 1, 2])) + exp = PeriodIndex( + ["2011-05", "2011-01", "NaT", "2011-06"], freq="M", name="idx" + ) + self._check(idx, f, exp) + + f = lambda x: x - np.array([1, 2, 3, 4]) + exp = PeriodIndex( + ["2010-12", "2010-12", "NaT", "2010-12"], freq="M", name="idx" + ) + self._check(idx, f, exp) + + f = lambda x: np.subtract(x, np.array([3, 2, 3, -2])) + exp = PeriodIndex( + ["2010-10", "2010-12", "NaT", "2011-06"], freq="M", name="idx" + ) + self._check(idx, f, exp) + + def test_pi_ops_offset(self): + idx = PeriodIndex( + ["2011-01-01", "2011-02-01", "2011-03-01", "2011-04-01"], + freq="D", + name="idx", + ) + f = lambda x: x + pd.offsets.Day() + exp = PeriodIndex( + ["2011-01-02", "2011-02-02", "2011-03-02", "2011-04-02"], + freq="D", + name="idx", + ) + self._check(idx, f, exp) + + f = lambda x: x + pd.offsets.Day(2) + exp = PeriodIndex( + ["2011-01-03", "2011-02-03", "2011-03-03", "2011-04-03"], + freq="D", + name="idx", + ) + self._check(idx, f, exp) + + f = lambda x: x - pd.offsets.Day(2) + exp = PeriodIndex( + ["2010-12-30", "2011-01-30", "2011-02-27", "2011-03-30"], + freq="D", + name="idx", + ) + self._check(idx, f, exp) + + def test_pi_offset_errors(self): + idx = PeriodIndex( + ["2011-01-01", "2011-02-01", "2011-03-01", "2011-04-01"], + freq="D", + name="idx", + ) + ser = Series(idx) + + msg = ( + "Cannot add/subtract timedelta-like from PeriodArray that is not " + "an integer multiple of the PeriodArray's freq" + ) + for obj in [idx, ser]: + with pytest.raises(IncompatibleFrequency, match=msg): + obj + pd.offsets.Hour(2) + + with pytest.raises(IncompatibleFrequency, match=msg): + pd.offsets.Hour(2) + obj + + with pytest.raises(IncompatibleFrequency, match=msg): + obj - pd.offsets.Hour(2) + + def test_pi_sub_period(self): + # GH#13071 + idx = PeriodIndex( + ["2011-01", "2011-02", "2011-03", "2011-04"], freq="M", name="idx" + ) + + result = idx - Period("2012-01", freq="M") + off = idx.freq + exp = pd.Index([-12 * off, -11 * off, -10 * off, -9 * off], name="idx") + tm.assert_index_equal(result, exp) + + result = np.subtract(idx, Period("2012-01", freq="M")) + tm.assert_index_equal(result, exp) + + result = Period("2012-01", freq="M") - idx + exp = pd.Index([12 * off, 11 * off, 10 * off, 9 * off], name="idx") + tm.assert_index_equal(result, exp) + + result = np.subtract(Period("2012-01", freq="M"), idx) + tm.assert_index_equal(result, exp) + + exp = TimedeltaIndex([np.nan, np.nan, np.nan, np.nan], name="idx") + result = idx - Period("NaT", freq="M") + tm.assert_index_equal(result, exp) + assert result.freq == exp.freq + + result = Period("NaT", freq="M") - idx + tm.assert_index_equal(result, exp) + assert result.freq == exp.freq + + def test_pi_sub_pdnat(self): + # GH#13071, GH#19389 + idx = PeriodIndex( + ["2011-01", "2011-02", "NaT", "2011-04"], freq="M", name="idx" + ) + exp = TimedeltaIndex([pd.NaT] * 4, name="idx") + tm.assert_index_equal(pd.NaT - idx, exp) + tm.assert_index_equal(idx - pd.NaT, exp) + + def test_pi_sub_period_nat(self): + # GH#13071 + idx = PeriodIndex( + ["2011-01", "NaT", "2011-03", "2011-04"], freq="M", name="idx" + ) + + result = idx - Period("2012-01", freq="M") + off = idx.freq + exp = pd.Index([-12 * off, pd.NaT, -10 * off, -9 * off], name="idx") + tm.assert_index_equal(result, exp) + + result = Period("2012-01", freq="M") - idx + exp = pd.Index([12 * off, pd.NaT, 10 * off, 9 * off], name="idx") + tm.assert_index_equal(result, exp) + + exp = TimedeltaIndex([np.nan, np.nan, np.nan, np.nan], name="idx") + tm.assert_index_equal(idx - Period("NaT", freq="M"), exp) + tm.assert_index_equal(Period("NaT", freq="M") - idx, exp) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_timedelta64.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_timedelta64.py new file mode 100644 index 0000000000000000000000000000000000000000..d02e827d435cf16c806b5130f5949143f51c15e3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/arithmetic/test_timedelta64.py @@ -0,0 +1,2179 @@ +# Arithmetic tests for DataFrame/Series/Index/Array classes that should +# behave identically. +from datetime import ( + datetime, + timedelta, +) + +import numpy as np +import pytest + +from pandas.errors import ( + OutOfBoundsDatetime, + PerformanceWarning, +) + +import pandas as pd +from pandas import ( + DataFrame, + DatetimeIndex, + Index, + NaT, + Series, + Timedelta, + TimedeltaIndex, + Timestamp, + offsets, + timedelta_range, +) +import pandas._testing as tm +from pandas.core.arrays import NumpyExtensionArray +from pandas.tests.arithmetic.common import ( + assert_invalid_addsub_type, + assert_invalid_comparison, + get_upcast_box, +) + + +def assert_dtype(obj, expected_dtype): + """ + Helper to check the dtype for a Series, Index, or single-column DataFrame. + """ + dtype = tm.get_dtype(obj) + + assert dtype == expected_dtype + + +def get_expected_name(box, names): + if box is DataFrame: + # Since we are operating with a DataFrame and a non-DataFrame, + # the non-DataFrame is cast to Series and its name ignored. + exname = names[0] + elif box in [tm.to_array, pd.array]: + exname = names[1] + else: + exname = names[2] + return exname + + +# ------------------------------------------------------------------ +# Timedelta64[ns] dtype Comparisons + + +class TestTimedelta64ArrayLikeComparisons: + # Comparison tests for timedelta64[ns] vectors fully parametrized over + # DataFrame/Series/TimedeltaIndex/TimedeltaArray. Ideally all comparison + # tests will eventually end up here. + + def test_compare_timedelta64_zerodim(self, box_with_array): + # GH#26689 should unbox when comparing with zerodim array + box = box_with_array + xbox = box_with_array if box_with_array not in [Index, pd.array] else np.ndarray + + tdi = timedelta_range("2h", periods=4) + other = np.array(tdi.to_numpy()[0]) + + tdi = tm.box_expected(tdi, box) + res = tdi <= other + expected = np.array([True, False, False, False]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(res, expected) + + @pytest.mark.parametrize( + "td_scalar", + [ + timedelta(days=1), + Timedelta(days=1), + Timedelta(days=1).to_timedelta64(), + offsets.Hour(24), + ], + ) + def test_compare_timedeltalike_scalar(self, box_with_array, td_scalar): + # regression test for GH#5963 + box = box_with_array + xbox = box if box not in [Index, pd.array] else np.ndarray + + ser = Series([timedelta(days=1), timedelta(days=2)]) + ser = tm.box_expected(ser, box) + actual = ser > td_scalar + expected = Series([False, True]) + expected = tm.box_expected(expected, xbox) + tm.assert_equal(actual, expected) + + @pytest.mark.parametrize( + "invalid", + [ + 345600000000000, + "a", + Timestamp("2021-01-01"), + Timestamp("2021-01-01").now("UTC"), + Timestamp("2021-01-01").now().to_datetime64(), + Timestamp("2021-01-01").now().to_pydatetime(), + Timestamp("2021-01-01").date(), + np.array(4), # zero-dim mismatched dtype + ], + ) + def test_td64_comparisons_invalid(self, box_with_array, invalid): + # GH#13624 for str + box = box_with_array + + rng = timedelta_range("1 days", periods=10) + obj = tm.box_expected(rng, box) + + assert_invalid_comparison(obj, invalid, box) + + @pytest.mark.parametrize( + "other", + [ + list(range(10)), + np.arange(10), + np.arange(10).astype(np.float32), + np.arange(10).astype(object), + pd.date_range("1970-01-01", periods=10, tz="UTC").array, + np.array(pd.date_range("1970-01-01", periods=10)), + list(pd.date_range("1970-01-01", periods=10)), + pd.date_range("1970-01-01", periods=10).astype(object), + pd.period_range("1971-01-01", freq="D", periods=10).array, + pd.period_range("1971-01-01", freq="D", periods=10).astype(object), + ], + ) + def test_td64arr_cmp_arraylike_invalid(self, other, box_with_array): + # We don't parametrize this over box_with_array because listlike + # other plays poorly with assert_invalid_comparison reversed checks + + rng = timedelta_range("1 days", periods=10)._data + rng = tm.box_expected(rng, box_with_array) + assert_invalid_comparison(rng, other, box_with_array) + + def test_td64arr_cmp_mixed_invalid(self): + rng = timedelta_range("1 days", periods=5)._data + other = np.array([0, 1, 2, rng[3], Timestamp("2021-01-01")]) + + result = rng == other + expected = np.array([False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = rng != other + tm.assert_numpy_array_equal(result, ~expected) + + msg = "Invalid comparison between|Cannot compare type|not supported between" + with pytest.raises(TypeError, match=msg): + rng < other + with pytest.raises(TypeError, match=msg): + rng > other + with pytest.raises(TypeError, match=msg): + rng <= other + with pytest.raises(TypeError, match=msg): + rng >= other + + +class TestTimedelta64ArrayComparisons: + # TODO: All of these need to be parametrized over box + + @pytest.mark.parametrize("dtype", [None, object]) + def test_comp_nat(self, dtype): + left = TimedeltaIndex([Timedelta("1 days"), NaT, Timedelta("3 days")]) + right = TimedeltaIndex([NaT, NaT, Timedelta("3 days")]) + + lhs, rhs = left, right + if dtype is object: + lhs, rhs = left.astype(object), right.astype(object) + + result = rhs == lhs + expected = np.array([False, False, True]) + tm.assert_numpy_array_equal(result, expected) + + result = rhs != lhs + expected = np.array([True, True, False]) + tm.assert_numpy_array_equal(result, expected) + + expected = np.array([False, False, False]) + tm.assert_numpy_array_equal(lhs == NaT, expected) + tm.assert_numpy_array_equal(NaT == rhs, expected) + + expected = np.array([True, True, True]) + tm.assert_numpy_array_equal(lhs != NaT, expected) + tm.assert_numpy_array_equal(NaT != lhs, expected) + + expected = np.array([False, False, False]) + tm.assert_numpy_array_equal(lhs < NaT, expected) + tm.assert_numpy_array_equal(NaT > lhs, expected) + + @pytest.mark.parametrize( + "idx2", + [ + TimedeltaIndex( + ["2 day", "2 day", NaT, NaT, "1 day 00:00:02", "5 days 00:00:03"] + ), + np.array( + [ + np.timedelta64(2, "D"), + np.timedelta64(2, "D"), + np.timedelta64("nat"), + np.timedelta64("nat"), + np.timedelta64(1, "D") + np.timedelta64(2, "s"), + np.timedelta64(5, "D") + np.timedelta64(3, "s"), + ] + ), + ], + ) + def test_comparisons_nat(self, idx2): + idx1 = TimedeltaIndex( + [ + "1 day", + NaT, + "1 day 00:00:01", + NaT, + "1 day 00:00:01", + "5 day 00:00:03", + ] + ) + # Check pd.NaT is handles as the same as np.nan + result = idx1 < idx2 + expected = np.array([True, False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = idx2 > idx1 + expected = np.array([True, False, False, False, True, False]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 <= idx2 + expected = np.array([True, False, False, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx2 >= idx1 + expected = np.array([True, False, False, False, True, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 == idx2 + expected = np.array([False, False, False, False, False, True]) + tm.assert_numpy_array_equal(result, expected) + + result = idx1 != idx2 + expected = np.array([True, True, True, True, True, False]) + tm.assert_numpy_array_equal(result, expected) + + # TODO: better name + def test_comparisons_coverage(self): + rng = timedelta_range("1 days", periods=10) + + result = rng < rng[3] + expected = np.array([True, True, True] + [False] * 7) + tm.assert_numpy_array_equal(result, expected) + + result = rng == list(rng) + exp = rng == rng + tm.assert_numpy_array_equal(result, exp) + + +# ------------------------------------------------------------------ +# Timedelta64[ns] dtype Arithmetic Operations + + +class TestTimedelta64ArithmeticUnsorted: + # Tests moved from type-specific test files but not + # yet sorted/parametrized/de-duplicated + + def test_ufunc_coercions(self): + # normal ops are also tested in tseries/test_timedeltas.py + idx = TimedeltaIndex(["2h", "4h", "6h", "8h", "10h"], freq="2h", name="x") + + for result in [idx * 2, np.multiply(idx, 2)]: + assert isinstance(result, TimedeltaIndex) + exp = TimedeltaIndex(["4h", "8h", "12h", "16h", "20h"], freq="4h", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "4h" + + for result in [idx / 2, np.divide(idx, 2)]: + assert isinstance(result, TimedeltaIndex) + exp = TimedeltaIndex(["1h", "2h", "3h", "4h", "5h"], freq="h", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "h" + + for result in [-idx, np.negative(idx)]: + assert isinstance(result, TimedeltaIndex) + exp = TimedeltaIndex( + ["-2h", "-4h", "-6h", "-8h", "-10h"], freq="-2h", name="x" + ) + tm.assert_index_equal(result, exp) + assert result.freq == "-2h" + + idx = TimedeltaIndex(["-2h", "-1h", "0h", "1h", "2h"], freq="h", name="x") + for result in [abs(idx), np.absolute(idx)]: + assert isinstance(result, TimedeltaIndex) + exp = TimedeltaIndex(["2h", "1h", "0h", "1h", "2h"], freq=None, name="x") + tm.assert_index_equal(result, exp) + assert result.freq is None + + def test_subtraction_ops(self): + # with datetimes/timedelta and tdi/dti + tdi = TimedeltaIndex(["1 days", NaT, "2 days"], name="foo") + dti = pd.date_range("20130101", periods=3, name="bar") + td = Timedelta("1 days") + dt = Timestamp("20130101") + + msg = "cannot subtract a datelike from a TimedeltaArray" + with pytest.raises(TypeError, match=msg): + tdi - dt + with pytest.raises(TypeError, match=msg): + tdi - dti + + msg = r"unsupported operand type\(s\) for -" + with pytest.raises(TypeError, match=msg): + td - dt + + msg = "(bad|unsupported) operand type for unary" + with pytest.raises(TypeError, match=msg): + td - dti + + result = dt - dti + expected = TimedeltaIndex(["0 days", "-1 days", "-2 days"], name="bar") + tm.assert_index_equal(result, expected) + + result = dti - dt + expected = TimedeltaIndex(["0 days", "1 days", "2 days"], name="bar") + tm.assert_index_equal(result, expected) + + result = tdi - td + expected = TimedeltaIndex(["0 days", NaT, "1 days"], name="foo") + tm.assert_index_equal(result, expected) + + result = td - tdi + expected = TimedeltaIndex(["0 days", NaT, "-1 days"], name="foo") + tm.assert_index_equal(result, expected) + + result = dti - td + expected = DatetimeIndex( + ["20121231", "20130101", "20130102"], dtype="M8[ns]", freq="D", name="bar" + ) + tm.assert_index_equal(result, expected) + + result = dt - tdi + expected = DatetimeIndex( + ["20121231", NaT, "20121230"], dtype="M8[ns]", name="foo" + ) + tm.assert_index_equal(result, expected) + + def test_subtraction_ops_with_tz(self, box_with_array): + # check that dt/dti subtraction ops with tz are validated + dti = pd.date_range("20130101", periods=3) + dti = tm.box_expected(dti, box_with_array) + ts = Timestamp("20130101") + dt = ts.to_pydatetime() + dti_tz = pd.date_range("20130101", periods=3).tz_localize("US/Eastern") + dti_tz = tm.box_expected(dti_tz, box_with_array) + ts_tz = Timestamp("20130101").tz_localize("US/Eastern") + ts_tz2 = Timestamp("20130101").tz_localize("CET") + dt_tz = ts_tz.to_pydatetime() + td = Timedelta("1 days") + + def _check(result, expected): + assert result == expected + assert isinstance(result, Timedelta) + + # scalars + result = ts - ts + expected = Timedelta("0 days") + _check(result, expected) + + result = dt_tz - ts_tz + expected = Timedelta("0 days") + _check(result, expected) + + result = ts_tz - dt_tz + expected = Timedelta("0 days") + _check(result, expected) + + # tz mismatches + msg = "Cannot subtract tz-naive and tz-aware datetime-like objects." + with pytest.raises(TypeError, match=msg): + dt_tz - ts + msg = "can't subtract offset-naive and offset-aware datetimes" + with pytest.raises(TypeError, match=msg): + dt_tz - dt + msg = "can't subtract offset-naive and offset-aware datetimes" + with pytest.raises(TypeError, match=msg): + dt - dt_tz + msg = "Cannot subtract tz-naive and tz-aware datetime-like objects." + with pytest.raises(TypeError, match=msg): + ts - dt_tz + with pytest.raises(TypeError, match=msg): + ts_tz2 - ts + with pytest.raises(TypeError, match=msg): + ts_tz2 - dt + + msg = "Cannot subtract tz-naive and tz-aware" + # with dti + with pytest.raises(TypeError, match=msg): + dti - ts_tz + with pytest.raises(TypeError, match=msg): + dti_tz - ts + + result = dti_tz - dt_tz + expected = TimedeltaIndex(["0 days", "1 days", "2 days"]) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = dt_tz - dti_tz + expected = TimedeltaIndex(["0 days", "-1 days", "-2 days"]) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = dti_tz - ts_tz + expected = TimedeltaIndex(["0 days", "1 days", "2 days"]) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = ts_tz - dti_tz + expected = TimedeltaIndex(["0 days", "-1 days", "-2 days"]) + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + result = td - td + expected = Timedelta("0 days") + _check(result, expected) + + result = dti_tz - td + expected = DatetimeIndex( + ["20121231", "20130101", "20130102"], tz="US/Eastern" + ).as_unit("ns") + expected = tm.box_expected(expected, box_with_array) + tm.assert_equal(result, expected) + + def test_dti_tdi_numeric_ops(self): + # These are normally union/diff set-like ops + tdi = TimedeltaIndex(["1 days", NaT, "2 days"], name="foo") + dti = pd.date_range("20130101", periods=3, name="bar") + + result = tdi - tdi + expected = TimedeltaIndex(["0 days", NaT, "0 days"], name="foo") + tm.assert_index_equal(result, expected) + + result = tdi + tdi + expected = TimedeltaIndex(["2 days", NaT, "4 days"], name="foo") + tm.assert_index_equal(result, expected) + + result = dti - tdi # name will be reset + expected = DatetimeIndex(["20121231", NaT, "20130101"], dtype="M8[ns]") + tm.assert_index_equal(result, expected) + + def test_addition_ops(self): + # with datetimes/timedelta and tdi/dti + tdi = TimedeltaIndex(["1 days", NaT, "2 days"], name="foo") + dti = pd.date_range("20130101", periods=3, name="bar") + td = Timedelta("1 days") + dt = Timestamp("20130101") + + result = tdi + dt + expected = DatetimeIndex( + ["20130102", NaT, "20130103"], dtype="M8[ns]", name="foo" + ) + tm.assert_index_equal(result, expected) + + result = dt + tdi + expected = DatetimeIndex( + ["20130102", NaT, "20130103"], dtype="M8[ns]", name="foo" + ) + tm.assert_index_equal(result, expected) + + result = td + tdi + expected = TimedeltaIndex(["2 days", NaT, "3 days"], name="foo") + tm.assert_index_equal(result, expected) + + result = tdi + td + expected = TimedeltaIndex(["2 days", NaT, "3 days"], name="foo") + tm.assert_index_equal(result, expected) + + # unequal length + msg = "cannot add indices of unequal length" + with pytest.raises(ValueError, match=msg): + tdi + dti[0:1] + with pytest.raises(ValueError, match=msg): + tdi[0:1] + dti + + # random indexes + msg = "Addition/subtraction of integers and integer-arrays" + with pytest.raises(TypeError, match=msg): + tdi + Index([1, 2, 3], dtype=np.int64) + + # this is a union! + # FIXME: don't leave commented-out + # pytest.raises(TypeError, lambda : Index([1,2,3]) + tdi) + + result = tdi + dti # name will be reset + expected = DatetimeIndex(["20130102", NaT, "20130105"], dtype="M8[ns]") + tm.assert_index_equal(result, expected) + + result = dti + tdi # name will be reset + expected = DatetimeIndex(["20130102", NaT, "20130105"], dtype="M8[ns]") + tm.assert_index_equal(result, expected) + + result = dt + td + expected = Timestamp("20130102") + assert result == expected + + result = td + dt + expected = Timestamp("20130102") + assert result == expected + + # TODO: Needs more informative name, probably split up into + # more targeted tests + @pytest.mark.parametrize("freq", ["D", "B"]) + def test_timedelta(self, freq): + index = pd.date_range("1/1/2000", periods=50, freq=freq) + + shifted = index + timedelta(1) + back = shifted + timedelta(-1) + back = back._with_freq("infer") + tm.assert_index_equal(index, back) + + if freq == "D": + expected = pd.tseries.offsets.Day(1) + assert index.freq == expected + assert shifted.freq == expected + assert back.freq == expected + else: # freq == 'B' + assert index.freq == pd.tseries.offsets.BusinessDay(1) + assert shifted.freq is None + assert back.freq == pd.tseries.offsets.BusinessDay(1) + + result = index - timedelta(1) + expected = index + timedelta(-1) + tm.assert_index_equal(result, expected) + + def test_timedelta_tick_arithmetic(self): + # GH#4134, buggy with timedeltas + rng = pd.date_range("2013", "2014") + s = Series(rng) + result1 = rng - offsets.Hour(1) + result2 = DatetimeIndex(s - np.timedelta64(100000000)) + result3 = rng - np.timedelta64(100000000) + result4 = DatetimeIndex(s - offsets.Hour(1)) + + assert result1.freq == rng.freq + result1 = result1._with_freq(None) + tm.assert_index_equal(result1, result4) + + assert result3.freq == rng.freq + result3 = result3._with_freq(None) + tm.assert_index_equal(result2, result3) + + def test_tda_add_sub_index(self): + # Check that TimedeltaArray defers to Index on arithmetic ops + tdi = TimedeltaIndex(["1 days", NaT, "2 days"]) + tda = tdi.array + + dti = pd.date_range("1999-12-31", periods=3, freq="D") + + result = tda + dti + expected = tdi + dti + tm.assert_index_equal(result, expected) + + result = tda + tdi + expected = tdi + tdi + tm.assert_index_equal(result, expected) + + result = tda - tdi + expected = tdi - tdi + tm.assert_index_equal(result, expected) + + def test_tda_add_dt64_object_array(self, box_with_array, tz_naive_fixture): + # Result should be cast back to DatetimeArray + box = box_with_array + + dti = pd.date_range("2016-01-01", periods=3, tz=tz_naive_fixture) + dti = dti._with_freq(None) + tdi = dti - dti + + obj = tm.box_expected(tdi, box) + other = tm.box_expected(dti, box) + + with tm.assert_produces_warning(PerformanceWarning): + result = obj + other.astype(object) + tm.assert_equal(result, other.astype(object)) + + # ------------------------------------------------------------- + # Binary operations TimedeltaIndex and timedelta-like + + def test_tdi_iadd_timedeltalike(self, two_hours, box_with_array): + # only test adding/sub offsets as + is now numeric + rng = timedelta_range("1 days", "10 days") + expected = timedelta_range("1 days 02:00:00", "10 days 02:00:00", freq="D") + + rng = tm.box_expected(rng, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + orig_rng = rng + rng += two_hours + tm.assert_equal(rng, expected) + if box_with_array is not Index: + # Check that operation is actually inplace + tm.assert_equal(orig_rng, expected) + + def test_tdi_isub_timedeltalike(self, two_hours, box_with_array): + # only test adding/sub offsets as - is now numeric + rng = timedelta_range("1 days", "10 days") + expected = timedelta_range("0 days 22:00:00", "9 days 22:00:00") + + rng = tm.box_expected(rng, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + orig_rng = rng + rng -= two_hours + tm.assert_equal(rng, expected) + if box_with_array is not Index: + # Check that operation is actually inplace + tm.assert_equal(orig_rng, expected) + + # ------------------------------------------------------------- + + def test_tdi_ops_attributes(self): + rng = timedelta_range("2 days", periods=5, freq="2D", name="x") + + result = rng + 1 * rng.freq + exp = timedelta_range("4 days", periods=5, freq="2D", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "2D" + + result = rng - 2 * rng.freq + exp = timedelta_range("-2 days", periods=5, freq="2D", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "2D" + + result = rng * 2 + exp = timedelta_range("4 days", periods=5, freq="4D", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "4D" + + result = rng / 2 + exp = timedelta_range("1 days", periods=5, freq="D", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "D" + + result = -rng + exp = timedelta_range("-2 days", periods=5, freq="-2D", name="x") + tm.assert_index_equal(result, exp) + assert result.freq == "-2D" + + rng = timedelta_range("-2 days", periods=5, freq="D", name="x") + + result = abs(rng) + exp = TimedeltaIndex( + ["2 days", "1 days", "0 days", "1 days", "2 days"], name="x" + ) + tm.assert_index_equal(result, exp) + assert result.freq is None + + +class TestAddSubNaTMasking: + # TODO: parametrize over boxes + + @pytest.mark.parametrize("str_ts", ["1950-01-01", "1980-01-01"]) + def test_tdarr_add_timestamp_nat_masking(self, box_with_array, str_ts): + # GH#17991 checking for overflow-masking with NaT + tdinat = pd.to_timedelta(["24658 days 11:15:00", "NaT"]) + tdobj = tm.box_expected(tdinat, box_with_array) + + ts = Timestamp(str_ts) + ts_variants = [ + ts, + ts.to_pydatetime(), + ts.to_datetime64().astype("datetime64[ns]"), + ts.to_datetime64().astype("datetime64[D]"), + ] + + for variant in ts_variants: + res = tdobj + variant + if box_with_array is DataFrame: + assert res.iloc[1, 1] is NaT + else: + assert res[1] is NaT + + def test_tdi_add_overflow(self): + # See GH#14068 + # preliminary test scalar analogue of vectorized tests below + # TODO: Make raised error message more informative and test + with pytest.raises(OutOfBoundsDatetime, match="10155196800000000000"): + pd.to_timedelta(106580, "D") + Timestamp("2000") + with pytest.raises(OutOfBoundsDatetime, match="10155196800000000000"): + Timestamp("2000") + pd.to_timedelta(106580, "D") + + _NaT = NaT._value + 1 + msg = "Overflow in int64 addition" + with pytest.raises(OverflowError, match=msg): + pd.to_timedelta([106580], "D") + Timestamp("2000") + with pytest.raises(OverflowError, match=msg): + Timestamp("2000") + pd.to_timedelta([106580], "D") + with pytest.raises(OverflowError, match=msg): + pd.to_timedelta([_NaT]) - Timedelta("1 days") + with pytest.raises(OverflowError, match=msg): + pd.to_timedelta(["5 days", _NaT]) - Timedelta("1 days") + with pytest.raises(OverflowError, match=msg): + ( + pd.to_timedelta([_NaT, "5 days", "1 hours"]) + - pd.to_timedelta(["7 seconds", _NaT, "4 hours"]) + ) + + # These should not overflow! + exp = TimedeltaIndex([NaT]) + result = pd.to_timedelta([NaT]) - Timedelta("1 days") + tm.assert_index_equal(result, exp) + + exp = TimedeltaIndex(["4 days", NaT]) + result = pd.to_timedelta(["5 days", NaT]) - Timedelta("1 days") + tm.assert_index_equal(result, exp) + + exp = TimedeltaIndex([NaT, NaT, "5 hours"]) + result = pd.to_timedelta([NaT, "5 days", "1 hours"]) + pd.to_timedelta( + ["7 seconds", NaT, "4 hours"] + ) + tm.assert_index_equal(result, exp) + + +class TestTimedeltaArraylikeAddSubOps: + # Tests for timedelta64[ns] __add__, __sub__, __radd__, __rsub__ + + def test_sub_nat_retain_unit(self): + ser = pd.to_timedelta(Series(["00:00:01"])).astype("m8[s]") + + result = ser - NaT + expected = Series([NaT], dtype="m8[s]") + tm.assert_series_equal(result, expected) + + # TODO: moved from tests.indexes.timedeltas.test_arithmetic; needs + # parametrization+de-duplication + def test_timedelta_ops_with_missing_values(self): + # setup + s1 = pd.to_timedelta(Series(["00:00:01"])) + s2 = pd.to_timedelta(Series(["00:00:02"])) + + sn = pd.to_timedelta(Series([NaT], dtype="m8[ns]")) + + df1 = DataFrame(["00:00:01"]).apply(pd.to_timedelta) + df2 = DataFrame(["00:00:02"]).apply(pd.to_timedelta) + + dfn = DataFrame([NaT._value]).apply(pd.to_timedelta) + + scalar1 = pd.to_timedelta("00:00:01") + scalar2 = pd.to_timedelta("00:00:02") + timedelta_NaT = pd.to_timedelta("NaT") + + actual = scalar1 + scalar1 + assert actual == scalar2 + actual = scalar2 - scalar1 + assert actual == scalar1 + + actual = s1 + s1 + tm.assert_series_equal(actual, s2) + actual = s2 - s1 + tm.assert_series_equal(actual, s1) + + actual = s1 + scalar1 + tm.assert_series_equal(actual, s2) + actual = scalar1 + s1 + tm.assert_series_equal(actual, s2) + actual = s2 - scalar1 + tm.assert_series_equal(actual, s1) + actual = -scalar1 + s2 + tm.assert_series_equal(actual, s1) + + actual = s1 + timedelta_NaT + tm.assert_series_equal(actual, sn) + actual = timedelta_NaT + s1 + tm.assert_series_equal(actual, sn) + actual = s1 - timedelta_NaT + tm.assert_series_equal(actual, sn) + actual = -timedelta_NaT + s1 + tm.assert_series_equal(actual, sn) + + msg = "unsupported operand type" + with pytest.raises(TypeError, match=msg): + s1 + np.nan + with pytest.raises(TypeError, match=msg): + np.nan + s1 + with pytest.raises(TypeError, match=msg): + s1 - np.nan + with pytest.raises(TypeError, match=msg): + -np.nan + s1 + + actual = s1 + NaT + tm.assert_series_equal(actual, sn) + actual = s2 - NaT + tm.assert_series_equal(actual, sn) + + actual = s1 + df1 + tm.assert_frame_equal(actual, df2) + actual = s2 - df1 + tm.assert_frame_equal(actual, df1) + actual = df1 + s1 + tm.assert_frame_equal(actual, df2) + actual = df2 - s1 + tm.assert_frame_equal(actual, df1) + + actual = df1 + df1 + tm.assert_frame_equal(actual, df2) + actual = df2 - df1 + tm.assert_frame_equal(actual, df1) + + actual = df1 + scalar1 + tm.assert_frame_equal(actual, df2) + actual = df2 - scalar1 + tm.assert_frame_equal(actual, df1) + + actual = df1 + timedelta_NaT + tm.assert_frame_equal(actual, dfn) + actual = df1 - timedelta_NaT + tm.assert_frame_equal(actual, dfn) + + msg = "cannot subtract a datelike from|unsupported operand type" + with pytest.raises(TypeError, match=msg): + df1 + np.nan + with pytest.raises(TypeError, match=msg): + df1 - np.nan + + actual = df1 + NaT # NaT is datetime, not timedelta + tm.assert_frame_equal(actual, dfn) + actual = df1 - NaT + tm.assert_frame_equal(actual, dfn) + + # TODO: moved from tests.series.test_operators, needs splitting, cleanup, + # de-duplication, box-parametrization... + def test_operators_timedelta64(self): + # series ops + v1 = pd.date_range("2012-1-1", periods=3, freq="D") + v2 = pd.date_range("2012-1-2", periods=3, freq="D") + rs = Series(v2) - Series(v1) + xp = Series(1e9 * 3600 * 24, rs.index).astype("int64").astype("timedelta64[ns]") + tm.assert_series_equal(rs, xp) + assert rs.dtype == "timedelta64[ns]" + + df = DataFrame({"A": v1}) + td = Series([timedelta(days=i) for i in range(3)]) + assert td.dtype == "timedelta64[ns]" + + # series on the rhs + result = df["A"] - df["A"].shift() + assert result.dtype == "timedelta64[ns]" + + result = df["A"] + td + assert result.dtype == "M8[ns]" + + # scalar Timestamp on rhs + maxa = df["A"].max() + assert isinstance(maxa, Timestamp) + + resultb = df["A"] - df["A"].max() + assert resultb.dtype == "timedelta64[ns]" + + # timestamp on lhs + result = resultb + df["A"] + values = [Timestamp("20111230"), Timestamp("20120101"), Timestamp("20120103")] + expected = Series(values, dtype="M8[ns]", name="A") + tm.assert_series_equal(result, expected) + + # datetimes on rhs + result = df["A"] - datetime(2001, 1, 1) + expected = Series([timedelta(days=4017 + i) for i in range(3)], name="A") + tm.assert_series_equal(result, expected) + assert result.dtype == "m8[ns]" + + d = datetime(2001, 1, 1, 3, 4) + resulta = df["A"] - d + assert resulta.dtype == "m8[ns]" + + # roundtrip + resultb = resulta + d + tm.assert_series_equal(df["A"], resultb) + + # timedeltas on rhs + td = timedelta(days=1) + resulta = df["A"] + td + resultb = resulta - td + tm.assert_series_equal(resultb, df["A"]) + assert resultb.dtype == "M8[ns]" + + # roundtrip + td = timedelta(minutes=5, seconds=3) + resulta = df["A"] + td + resultb = resulta - td + tm.assert_series_equal(df["A"], resultb) + assert resultb.dtype == "M8[ns]" + + # inplace + value = rs[2] + np.timedelta64(timedelta(minutes=5, seconds=1)) + rs[2] += np.timedelta64(timedelta(minutes=5, seconds=1)) + assert rs[2] == value + + def test_timedelta64_ops_nat(self): + # GH 11349 + timedelta_series = Series([NaT, Timedelta("1s")]) + nat_series_dtype_timedelta = Series([NaT, NaT], dtype="timedelta64[ns]") + single_nat_dtype_timedelta = Series([NaT], dtype="timedelta64[ns]") + + # subtraction + tm.assert_series_equal(timedelta_series - NaT, nat_series_dtype_timedelta) + tm.assert_series_equal(-NaT + timedelta_series, nat_series_dtype_timedelta) + + tm.assert_series_equal( + timedelta_series - single_nat_dtype_timedelta, nat_series_dtype_timedelta + ) + tm.assert_series_equal( + -single_nat_dtype_timedelta + timedelta_series, nat_series_dtype_timedelta + ) + + # addition + tm.assert_series_equal( + nat_series_dtype_timedelta + NaT, nat_series_dtype_timedelta + ) + tm.assert_series_equal( + NaT + nat_series_dtype_timedelta, nat_series_dtype_timedelta + ) + + tm.assert_series_equal( + nat_series_dtype_timedelta + single_nat_dtype_timedelta, + nat_series_dtype_timedelta, + ) + tm.assert_series_equal( + single_nat_dtype_timedelta + nat_series_dtype_timedelta, + nat_series_dtype_timedelta, + ) + + tm.assert_series_equal(timedelta_series + NaT, nat_series_dtype_timedelta) + tm.assert_series_equal(NaT + timedelta_series, nat_series_dtype_timedelta) + + tm.assert_series_equal( + timedelta_series + single_nat_dtype_timedelta, nat_series_dtype_timedelta + ) + tm.assert_series_equal( + single_nat_dtype_timedelta + timedelta_series, nat_series_dtype_timedelta + ) + + tm.assert_series_equal( + nat_series_dtype_timedelta + NaT, nat_series_dtype_timedelta + ) + tm.assert_series_equal( + NaT + nat_series_dtype_timedelta, nat_series_dtype_timedelta + ) + + tm.assert_series_equal( + nat_series_dtype_timedelta + single_nat_dtype_timedelta, + nat_series_dtype_timedelta, + ) + tm.assert_series_equal( + single_nat_dtype_timedelta + nat_series_dtype_timedelta, + nat_series_dtype_timedelta, + ) + + # multiplication + tm.assert_series_equal( + nat_series_dtype_timedelta * 1.0, nat_series_dtype_timedelta + ) + tm.assert_series_equal( + 1.0 * nat_series_dtype_timedelta, nat_series_dtype_timedelta + ) + + tm.assert_series_equal(timedelta_series * 1, timedelta_series) + tm.assert_series_equal(1 * timedelta_series, timedelta_series) + + tm.assert_series_equal(timedelta_series * 1.5, Series([NaT, Timedelta("1.5s")])) + tm.assert_series_equal(1.5 * timedelta_series, Series([NaT, Timedelta("1.5s")])) + + tm.assert_series_equal(timedelta_series * np.nan, nat_series_dtype_timedelta) + tm.assert_series_equal(np.nan * timedelta_series, nat_series_dtype_timedelta) + + # division + tm.assert_series_equal(timedelta_series / 2, Series([NaT, Timedelta("0.5s")])) + tm.assert_series_equal(timedelta_series / 2.0, Series([NaT, Timedelta("0.5s")])) + tm.assert_series_equal(timedelta_series / np.nan, nat_series_dtype_timedelta) + + # ------------------------------------------------------------- + # Binary operations td64 arraylike and datetime-like + + @pytest.mark.parametrize("cls", [Timestamp, datetime, np.datetime64]) + def test_td64arr_add_sub_datetimelike_scalar( + self, cls, box_with_array, tz_naive_fixture + ): + # GH#11925, GH#29558, GH#23215 + tz = tz_naive_fixture + + dt_scalar = Timestamp("2012-01-01", tz=tz) + if cls is datetime: + ts = dt_scalar.to_pydatetime() + elif cls is np.datetime64: + if tz_naive_fixture is not None: + pytest.skip(f"{cls} doesn support {tz_naive_fixture}") + ts = dt_scalar.to_datetime64() + else: + ts = dt_scalar + + tdi = timedelta_range("1 day", periods=3) + expected = pd.date_range("2012-01-02", periods=3, tz=tz) + + tdarr = tm.box_expected(tdi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + tm.assert_equal(ts + tdarr, expected) + tm.assert_equal(tdarr + ts, expected) + + expected2 = pd.date_range("2011-12-31", periods=3, freq="-1D", tz=tz) + expected2 = tm.box_expected(expected2, box_with_array) + + tm.assert_equal(ts - tdarr, expected2) + tm.assert_equal(ts + (-tdarr), expected2) + + msg = "cannot subtract a datelike" + with pytest.raises(TypeError, match=msg): + tdarr - ts + + def test_td64arr_add_datetime64_nat(self, box_with_array): + # GH#23215 + other = np.datetime64("NaT") + + tdi = timedelta_range("1 day", periods=3) + expected = DatetimeIndex(["NaT", "NaT", "NaT"], dtype="M8[ns]") + + tdser = tm.box_expected(tdi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + tm.assert_equal(tdser + other, expected) + tm.assert_equal(other + tdser, expected) + + def test_td64arr_sub_dt64_array(self, box_with_array): + dti = pd.date_range("2016-01-01", periods=3) + tdi = TimedeltaIndex(["-1 Day"] * 3) + dtarr = dti.values + expected = DatetimeIndex(dtarr) - tdi + + tdi = tm.box_expected(tdi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + msg = "cannot subtract a datelike from" + with pytest.raises(TypeError, match=msg): + tdi - dtarr + + # TimedeltaIndex.__rsub__ + result = dtarr - tdi + tm.assert_equal(result, expected) + + def test_td64arr_add_dt64_array(self, box_with_array): + dti = pd.date_range("2016-01-01", periods=3) + tdi = TimedeltaIndex(["-1 Day"] * 3) + dtarr = dti.values + expected = DatetimeIndex(dtarr) + tdi + + tdi = tm.box_expected(tdi, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = tdi + dtarr + tm.assert_equal(result, expected) + result = dtarr + tdi + tm.assert_equal(result, expected) + + # ------------------------------------------------------------------ + # Invalid __add__/__sub__ operations + + @pytest.mark.parametrize("pi_freq", ["D", "W", "Q", "h"]) + @pytest.mark.parametrize("tdi_freq", [None, "h"]) + def test_td64arr_sub_periodlike( + self, box_with_array, box_with_array2, tdi_freq, pi_freq + ): + # GH#20049 subtracting PeriodIndex should raise TypeError + tdi = TimedeltaIndex(["1 hours", "2 hours"], freq=tdi_freq) + dti = Timestamp("2018-03-07 17:16:40") + tdi + pi = dti.to_period(pi_freq) + per = pi[0] + + tdi = tm.box_expected(tdi, box_with_array) + pi = tm.box_expected(pi, box_with_array2) + msg = "cannot subtract|unsupported operand type" + with pytest.raises(TypeError, match=msg): + tdi - pi + + # GH#13078 subtraction of Period scalar not supported + with pytest.raises(TypeError, match=msg): + tdi - per + + @pytest.mark.parametrize( + "other", + [ + # GH#12624 for str case + "a", + # GH#19123 + 1, + 1.5, + np.array(2), + ], + ) + def test_td64arr_addsub_numeric_scalar_invalid(self, box_with_array, other): + # vector-like others are tested in test_td64arr_add_sub_numeric_arr_invalid + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + tdarr = tm.box_expected(tdser, box_with_array) + + assert_invalid_addsub_type(tdarr, other) + + @pytest.mark.parametrize( + "vec", + [ + np.array([1, 2, 3]), + Index([1, 2, 3]), + Series([1, 2, 3]), + DataFrame([[1, 2, 3]]), + ], + ids=lambda x: type(x).__name__, + ) + def test_td64arr_addsub_numeric_arr_invalid( + self, box_with_array, vec, any_real_numpy_dtype + ): + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + tdarr = tm.box_expected(tdser, box_with_array) + + vector = vec.astype(any_real_numpy_dtype) + assert_invalid_addsub_type(tdarr, vector) + + def test_td64arr_add_sub_int(self, box_with_array, one): + # Variants of `one` for #19012, deprecated GH#22535 + rng = timedelta_range("1 days 09:00:00", freq="h", periods=10) + tdarr = tm.box_expected(rng, box_with_array) + + msg = "Addition/subtraction of integers" + assert_invalid_addsub_type(tdarr, one, msg) + + # TODO: get inplace ops into assert_invalid_addsub_type + with pytest.raises(TypeError, match=msg): + tdarr += one + with pytest.raises(TypeError, match=msg): + tdarr -= one + + def test_td64arr_add_sub_integer_array(self, box_with_array): + # GH#19959, deprecated GH#22535 + # GH#22696 for DataFrame case, check that we don't dispatch to numpy + # implementation, which treats int64 as m8[ns] + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + rng = timedelta_range("1 days 09:00:00", freq="h", periods=3) + tdarr = tm.box_expected(rng, box) + other = tm.box_expected([4, 3, 2], xbox) + + msg = "Addition/subtraction of integers and integer-arrays" + assert_invalid_addsub_type(tdarr, other, msg) + + def test_td64arr_addsub_integer_array_no_freq(self, box_with_array): + # GH#19959 + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + tdi = TimedeltaIndex(["1 Day", "NaT", "3 Hours"]) + tdarr = tm.box_expected(tdi, box) + other = tm.box_expected([14, -1, 16], xbox) + + msg = "Addition/subtraction of integers" + assert_invalid_addsub_type(tdarr, other, msg) + + # ------------------------------------------------------------------ + # Operations with timedelta-like others + + def test_td64arr_add_sub_td64_array(self, box_with_array): + box = box_with_array + dti = pd.date_range("2016-01-01", periods=3) + tdi = dti - dti.shift(1) + tdarr = tdi.values + + expected = 2 * tdi + tdi = tm.box_expected(tdi, box) + expected = tm.box_expected(expected, box) + + result = tdi + tdarr + tm.assert_equal(result, expected) + result = tdarr + tdi + tm.assert_equal(result, expected) + + expected_sub = 0 * tdi + result = tdi - tdarr + tm.assert_equal(result, expected_sub) + result = tdarr - tdi + tm.assert_equal(result, expected_sub) + + def test_td64arr_add_sub_tdi(self, box_with_array, names): + # GH#17250 make sure result dtype is correct + # GH#19043 make sure names are propagated correctly + box = box_with_array + exname = get_expected_name(box, names) + + tdi = TimedeltaIndex(["0 days", "1 day"], name=names[1]) + tdi = np.array(tdi) if box in [tm.to_array, pd.array] else tdi + ser = Series([Timedelta(hours=3), Timedelta(hours=4)], name=names[0]) + expected = Series([Timedelta(hours=3), Timedelta(days=1, hours=4)], name=exname) + + ser = tm.box_expected(ser, box) + expected = tm.box_expected(expected, box) + + result = tdi + ser + tm.assert_equal(result, expected) + assert_dtype(result, "timedelta64[ns]") + + result = ser + tdi + tm.assert_equal(result, expected) + assert_dtype(result, "timedelta64[ns]") + + expected = Series( + [Timedelta(hours=-3), Timedelta(days=1, hours=-4)], name=exname + ) + expected = tm.box_expected(expected, box) + + result = tdi - ser + tm.assert_equal(result, expected) + assert_dtype(result, "timedelta64[ns]") + + result = ser - tdi + tm.assert_equal(result, -expected) + assert_dtype(result, "timedelta64[ns]") + + @pytest.mark.parametrize("tdnat", [np.timedelta64("NaT"), NaT]) + def test_td64arr_add_sub_td64_nat(self, box_with_array, tdnat): + # GH#18808, GH#23320 special handling for timedelta64("NaT") + box = box_with_array + tdi = TimedeltaIndex([NaT, Timedelta("1s")]) + expected = TimedeltaIndex(["NaT"] * 2) + + obj = tm.box_expected(tdi, box) + expected = tm.box_expected(expected, box) + + result = obj + tdnat + tm.assert_equal(result, expected) + result = tdnat + obj + tm.assert_equal(result, expected) + result = obj - tdnat + tm.assert_equal(result, expected) + result = tdnat - obj + tm.assert_equal(result, expected) + + def test_td64arr_add_timedeltalike(self, two_hours, box_with_array): + # only test adding/sub offsets as + is now numeric + # GH#10699 for Tick cases + box = box_with_array + rng = timedelta_range("1 days", "10 days") + expected = timedelta_range("1 days 02:00:00", "10 days 02:00:00", freq="D") + rng = tm.box_expected(rng, box) + expected = tm.box_expected(expected, box) + + result = rng + two_hours + tm.assert_equal(result, expected) + + result = two_hours + rng + tm.assert_equal(result, expected) + + def test_td64arr_sub_timedeltalike(self, two_hours, box_with_array): + # only test adding/sub offsets as - is now numeric + # GH#10699 for Tick cases + box = box_with_array + rng = timedelta_range("1 days", "10 days") + expected = timedelta_range("0 days 22:00:00", "9 days 22:00:00") + + rng = tm.box_expected(rng, box) + expected = tm.box_expected(expected, box) + + result = rng - two_hours + tm.assert_equal(result, expected) + + result = two_hours - rng + tm.assert_equal(result, -expected) + + # ------------------------------------------------------------------ + # __add__/__sub__ with DateOffsets and arrays of DateOffsets + + def test_td64arr_add_sub_offset_index(self, names, box_with_array): + # GH#18849, GH#19744 + box = box_with_array + exname = get_expected_name(box, names) + + tdi = TimedeltaIndex(["1 days 00:00:00", "3 days 04:00:00"], name=names[0]) + other = Index([offsets.Hour(n=1), offsets.Minute(n=-2)], name=names[1]) + other = np.array(other) if box in [tm.to_array, pd.array] else other + + expected = TimedeltaIndex( + [tdi[n] + other[n] for n in range(len(tdi))], freq="infer", name=exname + ) + expected_sub = TimedeltaIndex( + [tdi[n] - other[n] for n in range(len(tdi))], freq="infer", name=exname + ) + + tdi = tm.box_expected(tdi, box) + expected = tm.box_expected(expected, box).astype(object, copy=False) + expected_sub = tm.box_expected(expected_sub, box).astype(object, copy=False) + + with tm.assert_produces_warning(PerformanceWarning): + res = tdi + other + tm.assert_equal(res, expected) + + with tm.assert_produces_warning(PerformanceWarning): + res2 = other + tdi + tm.assert_equal(res2, expected) + + with tm.assert_produces_warning(PerformanceWarning): + res_sub = tdi - other + tm.assert_equal(res_sub, expected_sub) + + def test_td64arr_add_sub_offset_array(self, box_with_array): + # GH#18849, GH#18824 + box = box_with_array + tdi = TimedeltaIndex(["1 days 00:00:00", "3 days 04:00:00"]) + other = np.array([offsets.Hour(n=1), offsets.Minute(n=-2)]) + + expected = TimedeltaIndex( + [tdi[n] + other[n] for n in range(len(tdi))], freq="infer" + ) + expected_sub = TimedeltaIndex( + [tdi[n] - other[n] for n in range(len(tdi))], freq="infer" + ) + + tdi = tm.box_expected(tdi, box) + expected = tm.box_expected(expected, box).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res = tdi + other + tm.assert_equal(res, expected) + + with tm.assert_produces_warning(PerformanceWarning): + res2 = other + tdi + tm.assert_equal(res2, expected) + + expected_sub = tm.box_expected(expected_sub, box_with_array).astype(object) + with tm.assert_produces_warning(PerformanceWarning): + res_sub = tdi - other + tm.assert_equal(res_sub, expected_sub) + + def test_td64arr_with_offset_series(self, names, box_with_array): + # GH#18849 + box = box_with_array + box2 = Series if box in [Index, tm.to_array, pd.array] else box + exname = get_expected_name(box, names) + + tdi = TimedeltaIndex(["1 days 00:00:00", "3 days 04:00:00"], name=names[0]) + other = Series([offsets.Hour(n=1), offsets.Minute(n=-2)], name=names[1]) + + expected_add = Series( + [tdi[n] + other[n] for n in range(len(tdi))], name=exname, dtype=object + ) + obj = tm.box_expected(tdi, box) + expected_add = tm.box_expected(expected_add, box2).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res = obj + other + tm.assert_equal(res, expected_add) + + with tm.assert_produces_warning(PerformanceWarning): + res2 = other + obj + tm.assert_equal(res2, expected_add) + + expected_sub = Series( + [tdi[n] - other[n] for n in range(len(tdi))], name=exname, dtype=object + ) + expected_sub = tm.box_expected(expected_sub, box2).astype(object) + + with tm.assert_produces_warning(PerformanceWarning): + res3 = obj - other + tm.assert_equal(res3, expected_sub) + + @pytest.mark.parametrize("obox", [np.array, Index, Series]) + def test_td64arr_addsub_anchored_offset_arraylike(self, obox, box_with_array): + # GH#18824 + tdi = TimedeltaIndex(["1 days 00:00:00", "3 days 04:00:00"]) + tdi = tm.box_expected(tdi, box_with_array) + + anchored = obox([offsets.MonthEnd(), offsets.Day(n=2)]) + + # addition/subtraction ops with anchored offsets should issue + # a PerformanceWarning and _then_ raise a TypeError. + msg = "has incorrect type|cannot add the type MonthEnd" + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + tdi + anchored + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + anchored + tdi + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + tdi - anchored + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + anchored - tdi + + # ------------------------------------------------------------------ + # Unsorted + + def test_td64arr_add_sub_object_array(self, box_with_array): + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + tdi = timedelta_range("1 day", periods=3, freq="D") + tdarr = tm.box_expected(tdi, box) + + other = np.array([Timedelta(days=1), offsets.Day(2), Timestamp("2000-01-04")]) + + with tm.assert_produces_warning(PerformanceWarning): + result = tdarr + other + + expected = Index( + [Timedelta(days=2), Timedelta(days=4), Timestamp("2000-01-07")] + ) + expected = tm.box_expected(expected, xbox).astype(object) + tm.assert_equal(result, expected) + + msg = "unsupported operand type|cannot subtract a datelike" + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(PerformanceWarning): + tdarr - other + + with tm.assert_produces_warning(PerformanceWarning): + result = other - tdarr + + expected = Index([Timedelta(0), Timedelta(0), Timestamp("2000-01-01")]) + expected = tm.box_expected(expected, xbox).astype(object) + tm.assert_equal(result, expected) + + +class TestTimedeltaArraylikeMulDivOps: + # Tests for timedelta64[ns] + # __mul__, __rmul__, __div__, __rdiv__, __floordiv__, __rfloordiv__ + + # ------------------------------------------------------------------ + # Multiplication + # organized with scalar others first, then array-like + + def test_td64arr_mul_int(self, box_with_array): + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box_with_array) + + result = idx * 1 + tm.assert_equal(result, idx) + + result = 1 * idx + tm.assert_equal(result, idx) + + def test_td64arr_mul_tdlike_scalar_raises(self, two_hours, box_with_array): + rng = timedelta_range("1 days", "10 days", name="foo") + rng = tm.box_expected(rng, box_with_array) + msg = "|".join( + [ + "argument must be an integer", + "cannot use operands with types dtype", + "Cannot multiply with", + ] + ) + with pytest.raises(TypeError, match=msg): + rng * two_hours + + def test_tdi_mul_int_array_zerodim(self, box_with_array): + rng5 = np.arange(5, dtype="int64") + idx = TimedeltaIndex(rng5) + expected = TimedeltaIndex(rng5 * 5) + + idx = tm.box_expected(idx, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = idx * np.array(5, dtype="int64") + tm.assert_equal(result, expected) + + def test_tdi_mul_int_array(self, box_with_array): + rng5 = np.arange(5, dtype="int64") + idx = TimedeltaIndex(rng5) + expected = TimedeltaIndex(rng5**2) + + idx = tm.box_expected(idx, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = idx * rng5 + tm.assert_equal(result, expected) + + def test_tdi_mul_int_series(self, box_with_array): + box = box_with_array + xbox = Series if box in [Index, tm.to_array, pd.array] else box + + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + expected = TimedeltaIndex(np.arange(5, dtype="int64") ** 2) + + idx = tm.box_expected(idx, box) + expected = tm.box_expected(expected, xbox) + + result = idx * Series(np.arange(5, dtype="int64")) + tm.assert_equal(result, expected) + + def test_tdi_mul_float_series(self, box_with_array): + box = box_with_array + xbox = Series if box in [Index, tm.to_array, pd.array] else box + + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box) + + rng5f = np.arange(5, dtype="float64") + expected = TimedeltaIndex(rng5f * (rng5f + 1.0)) + expected = tm.box_expected(expected, xbox) + + result = idx * Series(rng5f + 1.0) + tm.assert_equal(result, expected) + + # TODO: Put Series/DataFrame in others? + @pytest.mark.parametrize( + "other", + [ + np.arange(1, 11), + Index(np.arange(1, 11), np.int64), + Index(range(1, 11), np.uint64), + Index(range(1, 11), np.float64), + pd.RangeIndex(1, 11), + ], + ids=lambda x: type(x).__name__, + ) + def test_tdi_rmul_arraylike(self, other, box_with_array): + box = box_with_array + + tdi = TimedeltaIndex(["1 Day"] * 10) + expected = timedelta_range("1 days", "10 days")._with_freq(None) + + tdi = tm.box_expected(tdi, box) + xbox = get_upcast_box(tdi, other) + + expected = tm.box_expected(expected, xbox) + + result = other * tdi + tm.assert_equal(result, expected) + commute = tdi * other + tm.assert_equal(commute, expected) + + # ------------------------------------------------------------------ + # __div__, __rdiv__ + + def test_td64arr_div_nat_invalid(self, box_with_array): + # don't allow division by NaT (maybe could in the future) + rng = timedelta_range("1 days", "10 days", name="foo") + rng = tm.box_expected(rng, box_with_array) + + with pytest.raises(TypeError, match="unsupported operand type"): + rng / NaT + with pytest.raises(TypeError, match="Cannot divide NaTType by"): + NaT / rng + + dt64nat = np.datetime64("NaT", "ns") + msg = "|".join( + [ + # 'divide' on npdev as of 2021-12-18 + "ufunc '(true_divide|divide)' cannot use operands", + "cannot perform __r?truediv__", + "Cannot divide datetime64 by TimedeltaArray", + ] + ) + with pytest.raises(TypeError, match=msg): + rng / dt64nat + with pytest.raises(TypeError, match=msg): + dt64nat / rng + + def test_td64arr_div_td64nat(self, box_with_array): + # GH#23829 + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + rng = timedelta_range("1 days", "10 days") + rng = tm.box_expected(rng, box) + + other = np.timedelta64("NaT") + + expected = np.array([np.nan] * 10) + expected = tm.box_expected(expected, xbox) + + result = rng / other + tm.assert_equal(result, expected) + + result = other / rng + tm.assert_equal(result, expected) + + def test_td64arr_div_int(self, box_with_array): + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box_with_array) + + result = idx / 1 + tm.assert_equal(result, idx) + + with pytest.raises(TypeError, match="Cannot divide"): + # GH#23829 + 1 / idx + + def test_td64arr_div_tdlike_scalar(self, two_hours, box_with_array): + # GH#20088, GH#22163 ensure DataFrame returns correct dtype + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + rng = timedelta_range("1 days", "10 days", name="foo") + expected = Index((np.arange(10) + 1) * 12, dtype=np.float64, name="foo") + + rng = tm.box_expected(rng, box) + expected = tm.box_expected(expected, xbox) + + result = rng / two_hours + tm.assert_equal(result, expected) + + result = two_hours / rng + expected = 1 / expected + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("m", [1, 3, 10]) + @pytest.mark.parametrize("unit", ["D", "h", "m", "s", "ms", "us", "ns"]) + def test_td64arr_div_td64_scalar(self, m, unit, box_with_array): + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + ser = Series([Timedelta(days=59)] * 3) + ser[2] = np.nan + flat = ser + ser = tm.box_expected(ser, box) + + # op + expected = Series([x / np.timedelta64(m, unit) for x in flat]) + expected = tm.box_expected(expected, xbox) + result = ser / np.timedelta64(m, unit) + tm.assert_equal(result, expected) + + # reverse op + expected = Series([Timedelta(np.timedelta64(m, unit)) / x for x in flat]) + expected = tm.box_expected(expected, xbox) + result = np.timedelta64(m, unit) / ser + tm.assert_equal(result, expected) + + def test_td64arr_div_tdlike_scalar_with_nat(self, two_hours, box_with_array): + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + rng = TimedeltaIndex(["1 days", NaT, "2 days"], name="foo") + expected = Index([12, np.nan, 24], dtype=np.float64, name="foo") + + rng = tm.box_expected(rng, box) + expected = tm.box_expected(expected, xbox) + + result = rng / two_hours + tm.assert_equal(result, expected) + + result = two_hours / rng + expected = 1 / expected + tm.assert_equal(result, expected) + + def test_td64arr_div_td64_ndarray(self, box_with_array): + # GH#22631 + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + rng = TimedeltaIndex(["1 days", NaT, "2 days"]) + expected = Index([12, np.nan, 24], dtype=np.float64) + + rng = tm.box_expected(rng, box) + expected = tm.box_expected(expected, xbox) + + other = np.array([2, 4, 2], dtype="m8[h]") + result = rng / other + tm.assert_equal(result, expected) + + result = rng / tm.box_expected(other, box) + tm.assert_equal(result, expected) + + result = rng / other.astype(object) + tm.assert_equal(result, expected.astype(object)) + + result = rng / list(other) + tm.assert_equal(result, expected) + + # reversed op + expected = 1 / expected + result = other / rng + tm.assert_equal(result, expected) + + result = tm.box_expected(other, box) / rng + tm.assert_equal(result, expected) + + result = other.astype(object) / rng + tm.assert_equal(result, expected) + + result = list(other) / rng + tm.assert_equal(result, expected) + + def test_tdarr_div_length_mismatch(self, box_with_array): + rng = TimedeltaIndex(["1 days", NaT, "2 days"]) + mismatched = [1, 2, 3, 4] + + rng = tm.box_expected(rng, box_with_array) + msg = "Cannot divide vectors|Unable to coerce to Series" + for obj in [mismatched, mismatched[:2]]: + # one shorter, one longer + for other in [obj, np.array(obj), Index(obj)]: + with pytest.raises(ValueError, match=msg): + rng / other + with pytest.raises(ValueError, match=msg): + other / rng + + def test_td64_div_object_mixed_result(self, box_with_array): + # Case where we having a NaT in the result inseat of timedelta64("NaT") + # is misleading + orig = timedelta_range("1 Day", periods=3).insert(1, NaT) + tdi = tm.box_expected(orig, box_with_array, transpose=False) + + other = np.array([orig[0], 1.5, 2.0, orig[2]], dtype=object) + other = tm.box_expected(other, box_with_array, transpose=False) + + res = tdi / other + + expected = Index([1.0, np.timedelta64("NaT", "ns"), orig[0], 1.5], dtype=object) + expected = tm.box_expected(expected, box_with_array, transpose=False) + if isinstance(expected, NumpyExtensionArray): + expected = expected.to_numpy() + tm.assert_equal(res, expected) + if box_with_array is DataFrame: + # We have a np.timedelta64(NaT), not pd.NaT + assert isinstance(res.iloc[1, 0], np.timedelta64) + + res = tdi // other + + expected = Index([1, np.timedelta64("NaT", "ns"), orig[0], 1], dtype=object) + expected = tm.box_expected(expected, box_with_array, transpose=False) + if isinstance(expected, NumpyExtensionArray): + expected = expected.to_numpy() + tm.assert_equal(res, expected) + if box_with_array is DataFrame: + # We have a np.timedelta64(NaT), not pd.NaT + assert isinstance(res.iloc[1, 0], np.timedelta64) + + # ------------------------------------------------------------------ + # __floordiv__, __rfloordiv__ + + def test_td64arr_floordiv_td64arr_with_nat( + self, box_with_array, using_array_manager + ): + # GH#35529 + box = box_with_array + xbox = np.ndarray if box is pd.array else box + + left = Series([1000, 222330, 30], dtype="timedelta64[ns]") + right = Series([1000, 222330, None], dtype="timedelta64[ns]") + + left = tm.box_expected(left, box) + right = tm.box_expected(right, box) + + expected = np.array([1.0, 1.0, np.nan], dtype=np.float64) + expected = tm.box_expected(expected, xbox) + if box is DataFrame and using_array_manager: + # INFO(ArrayManager) floordiv returns integer, and ArrayManager + # performs ops column-wise and thus preserves int64 dtype for + # columns without missing values + expected[[0, 1]] = expected[[0, 1]].astype("int64") + + with tm.maybe_produces_warning( + RuntimeWarning, box is pd.array, check_stacklevel=False + ): + result = left // right + + tm.assert_equal(result, expected) + + # case that goes through __rfloordiv__ with arraylike + with tm.maybe_produces_warning( + RuntimeWarning, box is pd.array, check_stacklevel=False + ): + result = np.asarray(left) // right + tm.assert_equal(result, expected) + + @pytest.mark.filterwarnings("ignore:invalid value encountered:RuntimeWarning") + def test_td64arr_floordiv_tdscalar(self, box_with_array, scalar_td): + # GH#18831, GH#19125 + box = box_with_array + xbox = np.ndarray if box is pd.array else box + td = Timedelta("5m3s") # i.e. (scalar_td - 1sec) / 2 + + td1 = Series([td, td, NaT], dtype="m8[ns]") + td1 = tm.box_expected(td1, box, transpose=False) + + expected = Series([0, 0, np.nan]) + expected = tm.box_expected(expected, xbox, transpose=False) + + result = td1 // scalar_td + tm.assert_equal(result, expected) + + # Reversed op + expected = Series([2, 2, np.nan]) + expected = tm.box_expected(expected, xbox, transpose=False) + + result = scalar_td // td1 + tm.assert_equal(result, expected) + + # same thing buts let's be explicit about calling __rfloordiv__ + result = td1.__rfloordiv__(scalar_td) + tm.assert_equal(result, expected) + + def test_td64arr_floordiv_int(self, box_with_array): + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box_with_array) + result = idx // 1 + tm.assert_equal(result, idx) + + pattern = "floor_divide cannot use operands|Cannot divide int by Timedelta*" + with pytest.raises(TypeError, match=pattern): + 1 // idx + + # ------------------------------------------------------------------ + # mod, divmod + # TODO: operations with timedelta-like arrays, numeric arrays, + # reversed ops + + def test_td64arr_mod_tdscalar(self, box_with_array, three_days): + tdi = timedelta_range("1 Day", "9 days") + tdarr = tm.box_expected(tdi, box_with_array) + + expected = TimedeltaIndex(["1 Day", "2 Days", "0 Days"] * 3) + expected = tm.box_expected(expected, box_with_array) + + result = tdarr % three_days + tm.assert_equal(result, expected) + + warn = None + if box_with_array is DataFrame and isinstance(three_days, pd.DateOffset): + warn = PerformanceWarning + # TODO: making expected be object here a result of DataFrame.__divmod__ + # being defined in a naive way that does not dispatch to the underlying + # array's __divmod__ + expected = expected.astype(object) + + with tm.assert_produces_warning(warn): + result = divmod(tdarr, three_days) + + tm.assert_equal(result[1], expected) + tm.assert_equal(result[0], tdarr // three_days) + + def test_td64arr_mod_int(self, box_with_array): + tdi = timedelta_range("1 ns", "10 ns", periods=10) + tdarr = tm.box_expected(tdi, box_with_array) + + expected = TimedeltaIndex(["1 ns", "0 ns"] * 5) + expected = tm.box_expected(expected, box_with_array) + + result = tdarr % 2 + tm.assert_equal(result, expected) + + msg = "Cannot divide int by" + with pytest.raises(TypeError, match=msg): + 2 % tdarr + + result = divmod(tdarr, 2) + tm.assert_equal(result[1], expected) + tm.assert_equal(result[0], tdarr // 2) + + def test_td64arr_rmod_tdscalar(self, box_with_array, three_days): + tdi = timedelta_range("1 Day", "9 days") + tdarr = tm.box_expected(tdi, box_with_array) + + expected = ["0 Days", "1 Day", "0 Days"] + ["3 Days"] * 6 + expected = TimedeltaIndex(expected) + expected = tm.box_expected(expected, box_with_array) + + result = three_days % tdarr + tm.assert_equal(result, expected) + + result = divmod(three_days, tdarr) + tm.assert_equal(result[1], expected) + tm.assert_equal(result[0], three_days // tdarr) + + # ------------------------------------------------------------------ + # Operations with invalid others + + def test_td64arr_mul_tdscalar_invalid(self, box_with_array, scalar_td): + td1 = Series([timedelta(minutes=5, seconds=3)] * 3) + td1.iloc[2] = np.nan + + td1 = tm.box_expected(td1, box_with_array) + + # check that we are getting a TypeError + # with 'operate' (from core/ops.py) for the ops that are not + # defined + pattern = "operate|unsupported|cannot|not supported" + with pytest.raises(TypeError, match=pattern): + td1 * scalar_td + with pytest.raises(TypeError, match=pattern): + scalar_td * td1 + + def test_td64arr_mul_too_short_raises(self, box_with_array): + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box_with_array) + msg = "|".join( + [ + "cannot use operands with types dtype", + "Cannot multiply with unequal lengths", + "Unable to coerce to Series", + ] + ) + with pytest.raises(TypeError, match=msg): + # length check before dtype check + idx * idx[:3] + with pytest.raises(ValueError, match=msg): + idx * np.array([1, 2]) + + def test_td64arr_mul_td64arr_raises(self, box_with_array): + idx = TimedeltaIndex(np.arange(5, dtype="int64")) + idx = tm.box_expected(idx, box_with_array) + msg = "cannot use operands with types dtype" + with pytest.raises(TypeError, match=msg): + idx * idx + + # ------------------------------------------------------------------ + # Operations with numeric others + + def test_td64arr_mul_numeric_scalar(self, box_with_array, one): + # GH#4521 + # divide/multiply by integers + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + expected = Series(["-59 Days", "-59 Days", "NaT"], dtype="timedelta64[ns]") + + tdser = tm.box_expected(tdser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = tdser * (-one) + tm.assert_equal(result, expected) + result = (-one) * tdser + tm.assert_equal(result, expected) + + expected = Series(["118 Days", "118 Days", "NaT"], dtype="timedelta64[ns]") + expected = tm.box_expected(expected, box_with_array) + + result = tdser * (2 * one) + tm.assert_equal(result, expected) + result = (2 * one) * tdser + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("two", [2, 2.0, np.array(2), np.array(2.0)]) + def test_td64arr_div_numeric_scalar(self, box_with_array, two): + # GH#4521 + # divide/multiply by integers + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + expected = Series(["29.5D", "29.5D", "NaT"], dtype="timedelta64[ns]") + + tdser = tm.box_expected(tdser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = tdser / two + tm.assert_equal(result, expected) + + with pytest.raises(TypeError, match="Cannot divide"): + two / tdser + + @pytest.mark.parametrize("two", [2, 2.0, np.array(2), np.array(2.0)]) + def test_td64arr_floordiv_numeric_scalar(self, box_with_array, two): + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + expected = Series(["29.5D", "29.5D", "NaT"], dtype="timedelta64[ns]") + + tdser = tm.box_expected(tdser, box_with_array) + expected = tm.box_expected(expected, box_with_array) + + result = tdser // two + tm.assert_equal(result, expected) + + with pytest.raises(TypeError, match="Cannot divide"): + two // tdser + + @pytest.mark.parametrize( + "vector", + [np.array([20, 30, 40]), Index([20, 30, 40]), Series([20, 30, 40])], + ids=lambda x: type(x).__name__, + ) + def test_td64arr_rmul_numeric_array( + self, + box_with_array, + vector, + any_real_numpy_dtype, + ): + # GH#4521 + # divide/multiply by integers + + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + vector = vector.astype(any_real_numpy_dtype) + + expected = Series(["1180 Days", "1770 Days", "NaT"], dtype="timedelta64[ns]") + + tdser = tm.box_expected(tdser, box_with_array) + xbox = get_upcast_box(tdser, vector) + + expected = tm.box_expected(expected, xbox) + + result = tdser * vector + tm.assert_equal(result, expected) + + result = vector * tdser + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "vector", + [np.array([20, 30, 40]), Index([20, 30, 40]), Series([20, 30, 40])], + ids=lambda x: type(x).__name__, + ) + def test_td64arr_div_numeric_array( + self, box_with_array, vector, any_real_numpy_dtype + ): + # GH#4521 + # divide/multiply by integers + + tdser = Series(["59 Days", "59 Days", "NaT"], dtype="m8[ns]") + vector = vector.astype(any_real_numpy_dtype) + + expected = Series(["2.95D", "1D 23h 12m", "NaT"], dtype="timedelta64[ns]") + + tdser = tm.box_expected(tdser, box_with_array) + xbox = get_upcast_box(tdser, vector) + expected = tm.box_expected(expected, xbox) + + result = tdser / vector + tm.assert_equal(result, expected) + + pattern = "|".join( + [ + "true_divide'? cannot use operands", + "cannot perform __div__", + "cannot perform __truediv__", + "unsupported operand", + "Cannot divide", + "ufunc 'divide' cannot use operands with types", + ] + ) + with pytest.raises(TypeError, match=pattern): + vector / tdser + + result = tdser / vector.astype(object) + if box_with_array is DataFrame: + expected = [tdser.iloc[0, n] / vector[n] for n in range(len(vector))] + expected = tm.box_expected(expected, xbox).astype(object) + # We specifically expect timedelta64("NaT") here, not pd.NA + msg = "The 'downcast' keyword in fillna" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected[2] = expected[2].fillna( + np.timedelta64("NaT", "ns"), downcast=False + ) + else: + expected = [tdser[n] / vector[n] for n in range(len(tdser))] + expected = [ + x if x is not NaT else np.timedelta64("NaT", "ns") for x in expected + ] + if xbox is tm.to_array: + expected = tm.to_array(expected).astype(object) + else: + expected = xbox(expected, dtype=object) + + tm.assert_equal(result, expected) + + with pytest.raises(TypeError, match=pattern): + vector.astype(object) / tdser + + def test_td64arr_mul_int_series(self, box_with_array, names): + # GH#19042 test for correct name attachment + box = box_with_array + exname = get_expected_name(box, names) + + tdi = TimedeltaIndex( + ["0days", "1day", "2days", "3days", "4days"], name=names[0] + ) + # TODO: Should we be parametrizing over types for `ser` too? + ser = Series([0, 1, 2, 3, 4], dtype=np.int64, name=names[1]) + + expected = Series( + ["0days", "1day", "4days", "9days", "16days"], + dtype="timedelta64[ns]", + name=exname, + ) + + tdi = tm.box_expected(tdi, box) + xbox = get_upcast_box(tdi, ser) + + expected = tm.box_expected(expected, xbox) + + result = ser * tdi + tm.assert_equal(result, expected) + + result = tdi * ser + tm.assert_equal(result, expected) + + # TODO: Should we be parametrizing over types for `ser` too? + def test_float_series_rdiv_td64arr(self, box_with_array, names): + # GH#19042 test for correct name attachment + box = box_with_array + tdi = TimedeltaIndex( + ["0days", "1day", "2days", "3days", "4days"], name=names[0] + ) + ser = Series([1.5, 3, 4.5, 6, 7.5], dtype=np.float64, name=names[1]) + + xname = names[2] if box not in [tm.to_array, pd.array] else names[1] + expected = Series( + [tdi[n] / ser[n] for n in range(len(ser))], + dtype="timedelta64[ns]", + name=xname, + ) + + tdi = tm.box_expected(tdi, box) + xbox = get_upcast_box(tdi, ser) + expected = tm.box_expected(expected, xbox) + + result = ser.__rtruediv__(tdi) + if box is DataFrame: + assert result is NotImplemented + else: + tm.assert_equal(result, expected) + + def test_td64arr_all_nat_div_object_dtype_numeric(self, box_with_array): + # GH#39750 make sure we infer the result as td64 + tdi = TimedeltaIndex([NaT, NaT]) + + left = tm.box_expected(tdi, box_with_array) + right = np.array([2, 2.0], dtype=object) + + tdnat = np.timedelta64("NaT", "ns") + expected = Index([tdnat] * 2, dtype=object) + if box_with_array is not Index: + expected = tm.box_expected(expected, box_with_array).astype(object) + if box_with_array in [Series, DataFrame]: + msg = "The 'downcast' keyword in fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = expected.fillna(tdnat, downcast=False) # GH#18463 + + result = left / right + tm.assert_equal(result, expected) + + result = left // right + tm.assert_equal(result, expected) + + +class TestTimedelta64ArrayLikeArithmetic: + # Arithmetic tests for timedelta64[ns] vectors fully parametrized over + # DataFrame/Series/TimedeltaIndex/TimedeltaArray. Ideally all arithmetic + # tests will eventually end up here. + + def test_td64arr_pow_invalid(self, scalar_td, box_with_array): + td1 = Series([timedelta(minutes=5, seconds=3)] * 3) + td1.iloc[2] = np.nan + + td1 = tm.box_expected(td1, box_with_array) + + # check that we are getting a TypeError + # with 'operate' (from core/ops.py) for the ops that are not + # defined + pattern = "operate|unsupported|cannot|not supported" + with pytest.raises(TypeError, match=pattern): + scalar_td**td1 + + with pytest.raises(TypeError, match=pattern): + td1**scalar_td + + +def test_add_timestamp_to_timedelta(): + # GH: 35897 + timestamp = Timestamp("2021-01-01") + result = timestamp + timedelta_range("0s", "1s", periods=31) + expected = DatetimeIndex( + [ + timestamp + + ( + pd.to_timedelta("0.033333333s") * i + + pd.to_timedelta("0.000000001s") * divmod(i, 3)[0] + ) + for i in range(31) + ] + ) + tm.assert_index_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/common.py new file mode 100644 index 0000000000000000000000000000000000000000..ad0b394105742ca5de92a03a3da2c569c38da469 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/common.py @@ -0,0 +1,9 @@ +from typing import Any + +from pandas import Index + + +def allow_na_ops(obj: Any) -> bool: + """Whether to skip test cases including NaN""" + is_bool_index = isinstance(obj, Index) and obj.inferred_type == "boolean" + return not is_bool_index and obj._can_hold_na diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_constructors.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_constructors.py new file mode 100644 index 0000000000000000000000000000000000000000..3434c8110a79c3de126463651eecb93990f65c7c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_constructors.py @@ -0,0 +1,190 @@ +from datetime import datetime +import sys + +import numpy as np +import pytest + +from pandas.compat import PYPY + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, +) +import pandas._testing as tm +from pandas.core.accessor import PandasDelegate +from pandas.core.base import ( + NoNewAttributesMixin, + PandasObject, +) + + +def series_via_frame_from_dict(x, **kwargs): + return DataFrame({"a": x}, **kwargs)["a"] + + +def series_via_frame_from_scalar(x, **kwargs): + return DataFrame(x, **kwargs)[0] + + +@pytest.fixture( + params=[ + Series, + series_via_frame_from_dict, + series_via_frame_from_scalar, + Index, + ], + ids=["Series", "DataFrame-dict", "DataFrame-array", "Index"], +) +def constructor(request): + return request.param + + +class TestPandasDelegate: + class Delegator: + _properties = ["prop"] + _methods = ["test_method"] + + def _set_prop(self, value): + self.prop = value + + def _get_prop(self): + return self.prop + + prop = property(_get_prop, _set_prop, doc="foo property") + + def test_method(self, *args, **kwargs): + """a test method""" + + class Delegate(PandasDelegate, PandasObject): + def __init__(self, obj) -> None: + self.obj = obj + + def test_invalid_delegation(self): + # these show that in order for the delegation to work + # the _delegate_* methods need to be overridden to not raise + # a TypeError + + self.Delegate._add_delegate_accessors( + delegate=self.Delegator, + accessors=self.Delegator._properties, + typ="property", + ) + self.Delegate._add_delegate_accessors( + delegate=self.Delegator, accessors=self.Delegator._methods, typ="method" + ) + + delegate = self.Delegate(self.Delegator()) + + msg = "You cannot access the property prop" + with pytest.raises(TypeError, match=msg): + delegate.prop + + msg = "The property prop cannot be set" + with pytest.raises(TypeError, match=msg): + delegate.prop = 5 + + msg = "You cannot access the property prop" + with pytest.raises(TypeError, match=msg): + delegate.prop + + @pytest.mark.skipif(PYPY, reason="not relevant for PyPy") + def test_memory_usage(self): + # Delegate does not implement memory_usage. + # Check that we fall back to in-built `__sizeof__` + # GH 12924 + delegate = self.Delegate(self.Delegator()) + sys.getsizeof(delegate) + + +class TestNoNewAttributesMixin: + def test_mixin(self): + class T(NoNewAttributesMixin): + pass + + t = T() + assert not hasattr(t, "__frozen") + + t.a = "test" + assert t.a == "test" + + t._freeze() + assert "__frozen" in dir(t) + assert getattr(t, "__frozen") + msg = "You cannot add any new attribute" + with pytest.raises(AttributeError, match=msg): + t.b = "test" + + assert not hasattr(t, "b") + + +class TestConstruction: + # test certain constructor behaviours on dtype inference across Series, + # Index and DataFrame + + @pytest.mark.parametrize( + "a", + [ + np.array(["2263-01-01"], dtype="datetime64[D]"), + np.array([datetime(2263, 1, 1)], dtype=object), + np.array([np.datetime64("2263-01-01", "D")], dtype=object), + np.array(["2263-01-01"], dtype=object), + ], + ids=[ + "datetime64[D]", + "object-datetime.datetime", + "object-numpy-scalar", + "object-string", + ], + ) + def test_constructor_datetime_outofbound( + self, a, constructor, request, using_infer_string + ): + # GH-26853 (+ bug GH-26206 out of bound non-ns unit) + + # No dtype specified (dtype inference) + # datetime64[non-ns] raise error, other cases result in object dtype + # and preserve original data + if a.dtype.kind == "M": + # Can't fit in nanosecond bounds -> get the nearest supported unit + result = constructor(a) + assert result.dtype == "M8[s]" + else: + result = constructor(a) + if using_infer_string and "object-string" in request.node.callspec.id: + assert result.dtype == "string" + else: + assert result.dtype == "object" + tm.assert_numpy_array_equal(result.to_numpy(), a) + + # Explicit dtype specified + # Forced conversion fails for all -> all cases raise error + msg = "Out of bounds|Out of bounds .* present at position 0" + with pytest.raises(pd.errors.OutOfBoundsDatetime, match=msg): + constructor(a, dtype="datetime64[ns]") + + def test_constructor_datetime_nonns(self, constructor): + arr = np.array(["2020-01-01T00:00:00.000000"], dtype="datetime64[us]") + dta = pd.core.arrays.DatetimeArray._simple_new(arr, dtype=arr.dtype) + expected = constructor(dta) + assert expected.dtype == arr.dtype + + result = constructor(arr) + tm.assert_equal(result, expected) + + # https://github.com/pandas-dev/pandas/issues/34843 + arr.flags.writeable = False + result = constructor(arr) + tm.assert_equal(result, expected) + + def test_constructor_from_dict_keys(self, constructor, using_infer_string): + # https://github.com/pandas-dev/pandas/issues/60343 + d = {"a": 1, "b": 2} + result = constructor(d.keys(), dtype="str") + if using_infer_string: + assert result.dtype == "str" + else: + assert result.dtype == "object" + expected = constructor(list(d.keys()), dtype="str") + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_conversion.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_conversion.py new file mode 100644 index 0000000000000000000000000000000000000000..4d0e2d1ce0e07ecb100870ffa784d3ecc54e0f37 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_conversion.py @@ -0,0 +1,596 @@ +import numpy as np +import pytest + +from pandas.compat import HAS_PYARROW +from pandas.compat.numpy import np_version_gt2 + +from pandas.core.dtypes.dtypes import DatetimeTZDtype + +import pandas as pd +from pandas import ( + CategoricalIndex, + Series, + Timedelta, + Timestamp, + date_range, +) +import pandas._testing as tm +from pandas.core.arrays import ( + DatetimeArray, + IntervalArray, + NumpyExtensionArray, + PeriodArray, + SparseArray, + TimedeltaArray, +) +from pandas.core.arrays.string_ import StringArrayNumpySemantics +from pandas.core.arrays.string_arrow import ArrowStringArrayNumpySemantics + + +class TestToIterable: + # test that we convert an iterable to python types + + dtypes = [ + ("int8", int), + ("int16", int), + ("int32", int), + ("int64", int), + ("uint8", int), + ("uint16", int), + ("uint32", int), + ("uint64", int), + ("float16", float), + ("float32", float), + ("float64", float), + ("datetime64[ns]", Timestamp), + ("datetime64[ns, US/Eastern]", Timestamp), + ("timedelta64[ns]", Timedelta), + ] + + @pytest.mark.parametrize("dtype, rdtype", dtypes) + @pytest.mark.parametrize( + "method", + [ + lambda x: x.tolist(), + lambda x: x.to_list(), + lambda x: list(x), + lambda x: list(x.__iter__()), + ], + ids=["tolist", "to_list", "list", "iter"], + ) + def test_iterable(self, index_or_series, method, dtype, rdtype): + # gh-10904 + # gh-13258 + # coerce iteration to underlying python / pandas types + typ = index_or_series + if dtype == "float16" and issubclass(typ, pd.Index): + with pytest.raises(NotImplementedError, match="float16 indexes are not "): + typ([1], dtype=dtype) + return + s = typ([1], dtype=dtype) + result = method(s)[0] + assert isinstance(result, rdtype) + + @pytest.mark.parametrize( + "dtype, rdtype, obj", + [ + ("object", object, "a"), + ("object", int, 1), + ("category", object, "a"), + ("category", int, 1), + ], + ) + @pytest.mark.parametrize( + "method", + [ + lambda x: x.tolist(), + lambda x: x.to_list(), + lambda x: list(x), + lambda x: list(x.__iter__()), + ], + ids=["tolist", "to_list", "list", "iter"], + ) + def test_iterable_object_and_category( + self, index_or_series, method, dtype, rdtype, obj + ): + # gh-10904 + # gh-13258 + # coerce iteration to underlying python / pandas types + typ = index_or_series + s = typ([obj], dtype=dtype) + result = method(s)[0] + assert isinstance(result, rdtype) + + @pytest.mark.parametrize("dtype, rdtype", dtypes) + def test_iterable_items(self, dtype, rdtype): + # gh-13258 + # test if items yields the correct boxed scalars + # this only applies to series + s = Series([1], dtype=dtype) + _, result = next(iter(s.items())) + assert isinstance(result, rdtype) + + _, result = next(iter(s.items())) + assert isinstance(result, rdtype) + + @pytest.mark.parametrize( + "dtype, rdtype", dtypes + [("object", int), ("category", int)] + ) + def test_iterable_map(self, index_or_series, dtype, rdtype): + # gh-13236 + # coerce iteration to underlying python / pandas types + typ = index_or_series + if dtype == "float16" and issubclass(typ, pd.Index): + with pytest.raises(NotImplementedError, match="float16 indexes are not "): + typ([1], dtype=dtype) + return + s = typ([1], dtype=dtype) + result = s.map(type)[0] + if not isinstance(rdtype, tuple): + rdtype = (rdtype,) + assert result in rdtype + + @pytest.mark.parametrize( + "method", + [ + lambda x: x.tolist(), + lambda x: x.to_list(), + lambda x: list(x), + lambda x: list(x.__iter__()), + ], + ids=["tolist", "to_list", "list", "iter"], + ) + def test_categorial_datetimelike(self, method): + i = CategoricalIndex([Timestamp("1999-12-31"), Timestamp("2000-12-31")]) + + result = method(i)[0] + assert isinstance(result, Timestamp) + + def test_iter_box_dt64(self, unit): + vals = [Timestamp("2011-01-01"), Timestamp("2011-01-02")] + ser = Series(vals).dt.as_unit(unit) + assert ser.dtype == f"datetime64[{unit}]" + for res, exp in zip(ser, vals): + assert isinstance(res, Timestamp) + assert res.tz is None + assert res == exp + assert res.unit == unit + + def test_iter_box_dt64tz(self, unit): + vals = [ + Timestamp("2011-01-01", tz="US/Eastern"), + Timestamp("2011-01-02", tz="US/Eastern"), + ] + ser = Series(vals).dt.as_unit(unit) + + assert ser.dtype == f"datetime64[{unit}, US/Eastern]" + for res, exp in zip(ser, vals): + assert isinstance(res, Timestamp) + assert res.tz == exp.tz + assert res == exp + assert res.unit == unit + + def test_iter_box_timedelta64(self, unit): + # timedelta + vals = [Timedelta("1 days"), Timedelta("2 days")] + ser = Series(vals).dt.as_unit(unit) + assert ser.dtype == f"timedelta64[{unit}]" + for res, exp in zip(ser, vals): + assert isinstance(res, Timedelta) + assert res == exp + assert res.unit == unit + + def test_iter_box_period(self): + # period + vals = [pd.Period("2011-01-01", freq="M"), pd.Period("2011-01-02", freq="M")] + s = Series(vals) + assert s.dtype == "Period[M]" + for res, exp in zip(s, vals): + assert isinstance(res, pd.Period) + assert res.freq == "ME" + assert res == exp + + +@pytest.mark.parametrize( + "arr, expected_type, dtype", + [ + (np.array([0, 1], dtype=np.int64), np.ndarray, "int64"), + (np.array(["a", "b"]), np.ndarray, "object"), + (pd.Categorical(["a", "b"]), pd.Categorical, "category"), + ( + pd.DatetimeIndex(["2017", "2018"], tz="US/Central"), + DatetimeArray, + "datetime64[ns, US/Central]", + ), + ( + pd.PeriodIndex([2018, 2019], freq="Y"), + PeriodArray, + pd.core.dtypes.dtypes.PeriodDtype("Y-DEC"), + ), + (pd.IntervalIndex.from_breaks([0, 1, 2]), IntervalArray, "interval"), + ( + pd.DatetimeIndex(["2017", "2018"]), + DatetimeArray, + "datetime64[ns]", + ), + ( + pd.TimedeltaIndex([10**10]), + TimedeltaArray, + "m8[ns]", + ), + ], +) +def test_values_consistent(arr, expected_type, dtype, using_infer_string): + if using_infer_string and dtype == "object": + expected_type = ( + ArrowStringArrayNumpySemantics if HAS_PYARROW else StringArrayNumpySemantics + ) + l_values = Series(arr)._values + r_values = pd.Index(arr)._values + assert type(l_values) is expected_type + assert type(l_values) is type(r_values) + + tm.assert_equal(l_values, r_values) + + +@pytest.mark.parametrize("arr", [np.array([1, 2, 3])]) +def test_numpy_array(arr): + ser = Series(arr) + result = ser.array + expected = NumpyExtensionArray(arr) + tm.assert_extension_array_equal(result, expected) + + +def test_numpy_array_all_dtypes(any_numpy_dtype): + ser = Series(dtype=any_numpy_dtype) + result = ser.array + if np.dtype(any_numpy_dtype).kind == "M": + assert isinstance(result, DatetimeArray) + elif np.dtype(any_numpy_dtype).kind == "m": + assert isinstance(result, TimedeltaArray) + else: + assert isinstance(result, NumpyExtensionArray) + + +@pytest.mark.parametrize( + "arr, attr", + [ + (pd.Categorical(["a", "b"]), "_codes"), + (PeriodArray._from_sequence(["2000", "2001"], dtype="period[D]"), "_ndarray"), + (pd.array([0, np.nan], dtype="Int64"), "_data"), + (IntervalArray.from_breaks([0, 1]), "_left"), + (SparseArray([0, 1]), "_sparse_values"), + ( + DatetimeArray._from_sequence(np.array([1, 2], dtype="datetime64[ns]")), + "_ndarray", + ), + # tz-aware Datetime + ( + DatetimeArray._from_sequence( + np.array( + ["2000-01-01T12:00:00", "2000-01-02T12:00:00"], dtype="M8[ns]" + ), + dtype=DatetimeTZDtype(tz="US/Central"), + ), + "_ndarray", + ), + ], +) +def test_array(arr, attr, index_or_series, request): + box = index_or_series + + result = box(arr, copy=False).array + + if attr: + arr = getattr(arr, attr) + result = getattr(result, attr) + + assert result is arr + + +def test_array_multiindex_raises(): + idx = pd.MultiIndex.from_product([["A"], ["a", "b"]]) + msg = "MultiIndex has no single backing array" + with pytest.raises(ValueError, match=msg): + idx.array + + +@pytest.mark.parametrize( + "arr, expected, zero_copy", + [ + (np.array([1, 2], dtype=np.int64), np.array([1, 2], dtype=np.int64), True), + (pd.Categorical(["a", "b"]), np.array(["a", "b"], dtype=object), False), + ( + pd.core.arrays.period_array(["2000", "2001"], freq="D"), + np.array([pd.Period("2000", freq="D"), pd.Period("2001", freq="D")]), + False, + ), + (pd.array([0, np.nan], dtype="Int64"), np.array([0, np.nan]), False), + ( + IntervalArray.from_breaks([0, 1, 2]), + np.array([pd.Interval(0, 1), pd.Interval(1, 2)], dtype=object), + False, + ), + (SparseArray([0, 1]), np.array([0, 1], dtype=np.int64), False), + # tz-naive datetime + ( + DatetimeArray._from_sequence(np.array(["2000", "2001"], dtype="M8[ns]")), + np.array(["2000", "2001"], dtype="M8[ns]"), + True, + ), + # tz-aware stays tz`-aware + ( + DatetimeArray._from_sequence( + np.array(["2000-01-01T06:00:00", "2000-01-02T06:00:00"], dtype="M8[ns]") + ) + .tz_localize("UTC") + .tz_convert("US/Central"), + np.array( + [ + Timestamp("2000-01-01", tz="US/Central"), + Timestamp("2000-01-02", tz="US/Central"), + ] + ), + False, + ), + # Timedelta + ( + TimedeltaArray._from_sequence( + np.array([0, 3600000000000], dtype="i8").view("m8[ns]") + ), + np.array([0, 3600000000000], dtype="m8[ns]"), + True, + ), + # GH#26406 tz is preserved in Categorical[dt64tz] + ( + pd.Categorical(date_range("2016-01-01", periods=2, tz="US/Pacific")), + np.array( + [ + Timestamp("2016-01-01", tz="US/Pacific"), + Timestamp("2016-01-02", tz="US/Pacific"), + ] + ), + False, + ), + ], +) +def test_to_numpy(arr, expected, zero_copy, index_or_series_or_array): + box = index_or_series_or_array + + with tm.assert_produces_warning(None): + thing = box(arr) + + result = thing.to_numpy() + tm.assert_numpy_array_equal(result, expected) + + result = np.asarray(thing) + tm.assert_numpy_array_equal(result, expected) + + # Additionally, we check the `copy=` semantics for array/asarray + # (these are implemented by us via `__array__`). + result_cp1 = np.array(thing, copy=True) + result_cp2 = np.array(thing, copy=True) + # When called with `copy=True` NumPy/we should ensure a copy was made + assert not np.may_share_memory(result_cp1, result_cp2) + + if not np_version_gt2: + # copy=False semantics are only supported in NumPy>=2. + return + + if not zero_copy: + msg = "Starting with NumPy 2.0, the behavior of the 'copy' keyword has changed" + with tm.assert_produces_warning(FutureWarning, match=msg): + np.array(thing, copy=False) + + else: + result_nocopy1 = np.array(thing, copy=False) + result_nocopy2 = np.array(thing, copy=False) + # If copy=False was given, these must share the same data + assert np.may_share_memory(result_nocopy1, result_nocopy2) + + +@pytest.mark.parametrize("as_series", [True, False]) +@pytest.mark.parametrize( + "arr", [np.array([1, 2, 3], dtype="int64"), np.array(["a", "b", "c"], dtype=object)] +) +def test_to_numpy_copy(arr, as_series, using_infer_string): + obj = pd.Index(arr, copy=False) + if as_series: + obj = Series(obj.values, copy=False) + + # no copy by default + result = obj.to_numpy() + if using_infer_string and arr.dtype == object and obj.dtype.storage == "pyarrow": + assert np.shares_memory(arr, result) is False + else: + assert np.shares_memory(arr, result) is True + + result = obj.to_numpy(copy=False) + if using_infer_string and arr.dtype == object and obj.dtype.storage == "pyarrow": + assert np.shares_memory(arr, result) is False + else: + assert np.shares_memory(arr, result) is True + + # copy=True + result = obj.to_numpy(copy=True) + assert np.shares_memory(arr, result) is False + + +@pytest.mark.parametrize("as_series", [True, False]) +def test_to_numpy_dtype(as_series, unit): + tz = "US/Eastern" + obj = pd.DatetimeIndex(["2000", "2001"], tz=tz) + if as_series: + obj = Series(obj) + + # preserve tz by default + result = obj.to_numpy() + expected = np.array( + [Timestamp("2000", tz=tz), Timestamp("2001", tz=tz)], dtype=object + ) + tm.assert_numpy_array_equal(result, expected) + + result = obj.to_numpy(dtype="object") + tm.assert_numpy_array_equal(result, expected) + + result = obj.to_numpy(dtype="M8[ns]") + expected = np.array(["2000-01-01T05", "2001-01-01T05"], dtype="M8[ns]") + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "values, dtype, na_value, expected", + [ + ([1, 2, None], "float64", 0, [1.0, 2.0, 0.0]), + ( + [Timestamp("2000"), Timestamp("2000"), pd.NaT], + None, + Timestamp("2000"), + [np.datetime64("2000-01-01T00:00:00.000000000")] * 3, + ), + ], +) +def test_to_numpy_na_value_numpy_dtype( + index_or_series, values, dtype, na_value, expected +): + obj = index_or_series(values) + result = obj.to_numpy(dtype=dtype, na_value=na_value) + expected = np.array(expected) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "data, multiindex, dtype, na_value, expected", + [ + ( + [1, 2, None, 4], + [(0, "a"), (0, "b"), (1, "b"), (1, "c")], + float, + None, + [1.0, 2.0, np.nan, 4.0], + ), + ( + [1, 2, None, 4], + [(0, "a"), (0, "b"), (1, "b"), (1, "c")], + float, + np.nan, + [1.0, 2.0, np.nan, 4.0], + ), + ( + [1.0, 2.0, np.nan, 4.0], + [("a", 0), ("a", 1), ("a", 2), ("b", 0)], + int, + 0, + [1, 2, 0, 4], + ), + ( + [Timestamp("2000"), Timestamp("2000"), pd.NaT], + [(0, Timestamp("2021")), (0, Timestamp("2022")), (1, Timestamp("2000"))], + None, + Timestamp("2000"), + [np.datetime64("2000-01-01T00:00:00.000000000")] * 3, + ), + ], +) +def test_to_numpy_multiindex_series_na_value( + data, multiindex, dtype, na_value, expected +): + index = pd.MultiIndex.from_tuples(multiindex) + series = Series(data, index=index) + result = series.to_numpy(dtype=dtype, na_value=na_value) + expected = np.array(expected) + tm.assert_numpy_array_equal(result, expected) + + +def test_to_numpy_kwargs_raises(): + # numpy + s = Series([1, 2, 3]) + msg = r"to_numpy\(\) got an unexpected keyword argument 'foo'" + with pytest.raises(TypeError, match=msg): + s.to_numpy(foo=True) + + # extension + s = Series([1, 2, 3], dtype="Int64") + with pytest.raises(TypeError, match=msg): + s.to_numpy(foo=True) + + +@pytest.mark.parametrize( + "data", + [ + {"a": [1, 2, 3], "b": [1, 2, None]}, + {"a": np.array([1, 2, 3]), "b": np.array([1, 2, np.nan])}, + {"a": pd.array([1, 2, 3]), "b": pd.array([1, 2, None])}, + ], +) +@pytest.mark.parametrize("dtype, na_value", [(float, np.nan), (object, None)]) +def test_to_numpy_dataframe_na_value(data, dtype, na_value): + # https://github.com/pandas-dev/pandas/issues/33820 + df = pd.DataFrame(data) + result = df.to_numpy(dtype=dtype, na_value=na_value) + expected = np.array([[1, 1], [2, 2], [3, na_value]], dtype=dtype) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "data, expected", + [ + ( + {"a": pd.array([1, 2, None])}, + np.array([[1.0], [2.0], [np.nan]], dtype=float), + ), + ( + {"a": [1, 2, 3], "b": [1, 2, 3]}, + np.array([[1, 1], [2, 2], [3, 3]], dtype=float), + ), + ], +) +def test_to_numpy_dataframe_single_block(data, expected): + # https://github.com/pandas-dev/pandas/issues/33820 + df = pd.DataFrame(data) + result = df.to_numpy(dtype=float, na_value=np.nan) + tm.assert_numpy_array_equal(result, expected) + + +def test_to_numpy_dataframe_single_block_no_mutate(): + # https://github.com/pandas-dev/pandas/issues/33820 + result = pd.DataFrame(np.array([1.0, 2.0, np.nan])) + expected = pd.DataFrame(np.array([1.0, 2.0, np.nan])) + result.to_numpy(na_value=0.0) + tm.assert_frame_equal(result, expected) + + +class TestAsArray: + @pytest.mark.parametrize("tz", [None, "US/Central"]) + def test_asarray_object_dt64(self, tz): + ser = Series(date_range("2000", periods=2, tz=tz)) + + with tm.assert_produces_warning(None): + # Future behavior (for tzaware case) with no warning + result = np.asarray(ser, dtype=object) + + expected = np.array( + [Timestamp("2000-01-01", tz=tz), Timestamp("2000-01-02", tz=tz)] + ) + tm.assert_numpy_array_equal(result, expected) + + def test_asarray_tz_naive(self): + # This shouldn't produce a warning. + ser = Series(date_range("2000", periods=2)) + expected = np.array(["2000-01-01", "2000-01-02"], dtype="M8[ns]") + result = np.asarray(ser) + + tm.assert_numpy_array_equal(result, expected) + + def test_asarray_tz_aware(self): + tz = "US/Central" + ser = Series(date_range("2000", periods=2, tz=tz)) + expected = np.array(["2000-01-01T06", "2000-01-02T06"], dtype="M8[ns]") + result = np.asarray(ser, dtype="datetime64[ns]") + + tm.assert_numpy_array_equal(result, expected) + + # Old behavior with no warning + result = np.asarray(ser, dtype="M8[ns]") + + tm.assert_numpy_array_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_fillna.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_fillna.py new file mode 100644 index 0000000000000000000000000000000000000000..7300d3013305a7ca08312ae85cc42ae8950acf23 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_fillna.py @@ -0,0 +1,60 @@ +""" +Though Index.fillna and Series.fillna has separate impl, +test here to confirm these works as the same +""" + +import numpy as np +import pytest + +from pandas import MultiIndex +import pandas._testing as tm +from pandas.tests.base.common import allow_na_ops + + +def test_fillna(index_or_series_obj): + # GH 11343 + obj = index_or_series_obj + + if isinstance(obj, MultiIndex): + msg = "isna is not defined for MultiIndex" + with pytest.raises(NotImplementedError, match=msg): + obj.fillna(0) + return + + # values will not be changed + fill_value = obj.values[0] if len(obj) > 0 else 0 + result = obj.fillna(fill_value) + + tm.assert_equal(obj, result) + + # check shallow_copied + assert obj is not result + + +@pytest.mark.parametrize("null_obj", [np.nan, None]) +def test_fillna_null(null_obj, index_or_series_obj): + # GH 11343 + obj = index_or_series_obj + klass = type(obj) + + if not allow_na_ops(obj): + pytest.skip(f"{klass} doesn't allow for NA operations") + elif len(obj) < 1: + pytest.skip("Test doesn't make sense on empty data") + elif isinstance(obj, MultiIndex): + pytest.skip(f"MultiIndex can't hold '{null_obj}'") + + values = obj._values + fill_value = values[0] + expected = values.copy() + values[0:2] = null_obj + expected[0:2] = fill_value + + expected = klass(expected) + obj = klass(values) + + result = obj.fillna(fill_value) + tm.assert_equal(result, expected) + + # check shallow_copied + assert obj is not result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_misc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_misc.py new file mode 100644 index 0000000000000000000000000000000000000000..1bf0a8d75dd4f688a5776cc3be5523d997518a85 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_misc.py @@ -0,0 +1,190 @@ +import sys + +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +from pandas.compat import PYPY + +from pandas.core.dtypes.common import ( + is_dtype_equal, + is_object_dtype, +) + +import pandas as pd +from pandas import ( + Index, + Series, +) +import pandas._testing as tm + + +def test_isnull_notnull_docstrings(): + # GH#41855 make sure its clear these are aliases + doc = pd.DataFrame.notnull.__doc__ + assert doc.startswith("\nDataFrame.notnull is an alias for DataFrame.notna.\n") + doc = pd.DataFrame.isnull.__doc__ + assert doc.startswith("\nDataFrame.isnull is an alias for DataFrame.isna.\n") + + doc = Series.notnull.__doc__ + assert doc.startswith("\nSeries.notnull is an alias for Series.notna.\n") + doc = Series.isnull.__doc__ + assert doc.startswith("\nSeries.isnull is an alias for Series.isna.\n") + + +@pytest.mark.parametrize( + "op_name, op", + [ + ("add", "+"), + ("sub", "-"), + ("mul", "*"), + ("mod", "%"), + ("pow", "**"), + ("truediv", "/"), + ("floordiv", "//"), + ], +) +def test_binary_ops_docstring(frame_or_series, op_name, op): + # not using the all_arithmetic_functions fixture with _get_opstr + # as _get_opstr is used internally in the dynamic implementation of the docstring + klass = frame_or_series + + operand1 = klass.__name__.lower() + operand2 = "other" + expected_str = " ".join([operand1, op, operand2]) + assert expected_str in getattr(klass, op_name).__doc__ + + # reverse version of the binary ops + expected_str = " ".join([operand2, op, operand1]) + assert expected_str in getattr(klass, "r" + op_name).__doc__ + + +def test_ndarray_compat_properties(index_or_series_obj): + obj = index_or_series_obj + + # Check that we work. + for p in ["shape", "dtype", "T", "nbytes"]: + assert getattr(obj, p, None) is not None + + # deprecated properties + for p in ["strides", "itemsize", "base", "data"]: + assert not hasattr(obj, p) + + msg = "can only convert an array of size 1 to a Python scalar" + with pytest.raises(ValueError, match=msg): + obj.item() # len > 1 + + assert obj.ndim == 1 + assert obj.size == len(obj) + + assert Index([1]).item() == 1 + assert Series([1]).item() == 1 + + +@pytest.mark.skipif( + PYPY or using_string_dtype(), + reason="not relevant for PyPy doesn't work properly for arrow strings", +) +def test_memory_usage(index_or_series_memory_obj): + obj = index_or_series_memory_obj + # Clear index caches so that len(obj) == 0 report 0 memory usage + if isinstance(obj, Series): + is_ser = True + obj.index._engine.clear_mapping() + else: + is_ser = False + obj._engine.clear_mapping() + + res = obj.memory_usage() + res_deep = obj.memory_usage(deep=True) + + is_object = is_object_dtype(obj) or (is_ser and is_object_dtype(obj.index)) + is_categorical = isinstance(obj.dtype, pd.CategoricalDtype) or ( + is_ser and isinstance(obj.index.dtype, pd.CategoricalDtype) + ) + is_object_string = is_dtype_equal(obj, "string[python]") or ( + is_ser and is_dtype_equal(obj.index.dtype, "string[python]") + ) + + if len(obj) == 0: + expected = 0 + assert res_deep == res == expected + elif is_object or is_categorical or is_object_string: + # only deep will pick them up + assert res_deep > res + else: + assert res == res_deep + + # sys.getsizeof will call the .memory_usage with + # deep=True, and add on some GC overhead + diff = res_deep - sys.getsizeof(obj) + assert abs(diff) < 100 + + +def test_memory_usage_components_series(series_with_simple_index): + series = series_with_simple_index + total_usage = series.memory_usage(index=True) + non_index_usage = series.memory_usage(index=False) + index_usage = series.index.memory_usage() + assert total_usage == non_index_usage + index_usage + + +@pytest.mark.parametrize("dtype", tm.NARROW_NP_DTYPES) +def test_memory_usage_components_narrow_series(dtype): + series = Series(range(5), dtype=dtype, index=[f"i-{i}" for i in range(5)], name="a") + total_usage = series.memory_usage(index=True) + non_index_usage = series.memory_usage(index=False) + index_usage = series.index.memory_usage() + assert total_usage == non_index_usage + index_usage + + +def test_searchsorted(request, index_or_series_obj): + # numpy.searchsorted calls obj.searchsorted under the hood. + # See gh-12238 + obj = index_or_series_obj + + if isinstance(obj, pd.MultiIndex): + # See gh-14833 + request.applymarker( + pytest.mark.xfail( + reason="np.searchsorted doesn't work on pd.MultiIndex: GH 14833" + ) + ) + elif obj.dtype.kind == "c" and isinstance(obj, Index): + # TODO: Should Series cases also raise? Looks like they use numpy + # comparison semantics https://github.com/numpy/numpy/issues/15981 + mark = pytest.mark.xfail(reason="complex objects are not comparable") + request.applymarker(mark) + + max_obj = max(obj, default=0) + index = np.searchsorted(obj, max_obj) + assert 0 <= index <= len(obj) + + index = np.searchsorted(obj, max_obj, sorter=range(len(obj))) + assert 0 <= index <= len(obj) + + +@pytest.mark.filterwarnings(r"ignore:Dtype inference:FutureWarning") +def test_access_by_position(index_flat): + index = index_flat + + if len(index) == 0: + pytest.skip("Test doesn't make sense on empty data") + + series = Series(index) + assert index[0] == series.iloc[0] + assert index[5] == series.iloc[5] + assert index[-1] == series.iloc[-1] + + size = len(index) + assert index[-1] == index[size - 1] + + msg = f"index {size} is out of bounds for axis 0 with size {size}" + if isinstance(index.dtype, pd.StringDtype) and index.dtype.storage == "pyarrow": + msg = "index out of bounds" + with pytest.raises(IndexError, match=msg): + index[size] + msg = "single positional indexer is out-of-bounds" + with pytest.raises(IndexError, match=msg): + series.iloc[size] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_transpose.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_transpose.py new file mode 100644 index 0000000000000000000000000000000000000000..246f33d27476cb419620fb8571984619785f9b62 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_transpose.py @@ -0,0 +1,56 @@ +import numpy as np +import pytest + +from pandas import ( + CategoricalDtype, + DataFrame, +) +import pandas._testing as tm + + +def test_transpose(index_or_series_obj): + obj = index_or_series_obj + tm.assert_equal(obj.transpose(), obj) + + +def test_transpose_non_default_axes(index_or_series_obj): + msg = "the 'axes' parameter is not supported" + obj = index_or_series_obj + with pytest.raises(ValueError, match=msg): + obj.transpose(1) + with pytest.raises(ValueError, match=msg): + obj.transpose(axes=1) + + +def test_numpy_transpose(index_or_series_obj): + msg = "the 'axes' parameter is not supported" + obj = index_or_series_obj + tm.assert_equal(np.transpose(obj), obj) + + with pytest.raises(ValueError, match=msg): + np.transpose(obj, axes=1) + + +@pytest.mark.parametrize( + "data, transposed_data, index, columns, dtype", + [ + ([[1], [2]], [[1, 2]], ["a", "a"], ["b"], int), + ([[1], [2]], [[1, 2]], ["a", "a"], ["b"], CategoricalDtype([1, 2])), + ([[1, 2]], [[1], [2]], ["b"], ["a", "a"], int), + ([[1, 2]], [[1], [2]], ["b"], ["a", "a"], CategoricalDtype([1, 2])), + ([[1, 2], [3, 4]], [[1, 3], [2, 4]], ["a", "a"], ["b", "b"], int), + ( + [[1, 2], [3, 4]], + [[1, 3], [2, 4]], + ["a", "a"], + ["b", "b"], + CategoricalDtype([1, 2, 3, 4]), + ), + ], +) +def test_duplicate_labels(data, transposed_data, index, columns, dtype): + # GH 42380 + df = DataFrame(data, index=index, columns=columns, dtype=dtype) + result = df.T + expected = DataFrame(transposed_data, index=columns, columns=index, dtype=dtype) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_unique.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_unique.py new file mode 100644 index 0000000000000000000000000000000000000000..1add56b47b36399960f16724fa8ff14e7bfd4f0e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_unique.py @@ -0,0 +1,121 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.tests.base.common import allow_na_ops + + +@pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") +def test_unique(index_or_series_obj): + obj = index_or_series_obj + obj = np.repeat(obj, range(1, len(obj) + 1)) + result = obj.unique() + + # dict.fromkeys preserves the order + unique_values = list(dict.fromkeys(obj.values)) + if isinstance(obj, pd.MultiIndex): + expected = pd.MultiIndex.from_tuples(unique_values) + expected.names = obj.names + tm.assert_index_equal(result, expected, exact=True) + elif isinstance(obj, pd.Index): + expected = pd.Index(unique_values, dtype=obj.dtype) + if isinstance(obj.dtype, pd.DatetimeTZDtype): + expected = expected.normalize() + tm.assert_index_equal(result, expected, exact=True) + else: + expected = np.array(unique_values) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") +@pytest.mark.parametrize("null_obj", [np.nan, None]) +def test_unique_null(null_obj, index_or_series_obj): + obj = index_or_series_obj + + if not allow_na_ops(obj): + pytest.skip("type doesn't allow for NA operations") + elif len(obj) < 1: + pytest.skip("Test doesn't make sense on empty data") + elif isinstance(obj, pd.MultiIndex): + pytest.skip(f"MultiIndex can't hold '{null_obj}'") + + values = obj._values + values[0:2] = null_obj + + klass = type(obj) + repeated_values = np.repeat(values, range(1, len(values) + 1)) + obj = klass(repeated_values, dtype=obj.dtype) + result = obj.unique() + + unique_values_raw = dict.fromkeys(obj.values) + # because np.nan == np.nan is False, but None == None is True + # np.nan would be duplicated, whereas None wouldn't + unique_values_not_null = [val for val in unique_values_raw if not pd.isnull(val)] + unique_values = [null_obj] + unique_values_not_null + + if isinstance(obj, pd.Index): + expected = pd.Index(unique_values, dtype=obj.dtype) + if isinstance(obj.dtype, pd.DatetimeTZDtype): + result = result.normalize() + expected = expected.normalize() + tm.assert_index_equal(result, expected, exact=True) + else: + expected = np.array(unique_values, dtype=obj.dtype) + tm.assert_numpy_array_equal(result, expected) + + +def test_nunique(index_or_series_obj): + obj = index_or_series_obj + obj = np.repeat(obj, range(1, len(obj) + 1)) + expected = len(obj.unique()) + assert obj.nunique(dropna=False) == expected + + +@pytest.mark.parametrize("null_obj", [np.nan, None]) +def test_nunique_null(null_obj, index_or_series_obj): + obj = index_or_series_obj + + if not allow_na_ops(obj): + pytest.skip("type doesn't allow for NA operations") + elif isinstance(obj, pd.MultiIndex): + pytest.skip(f"MultiIndex can't hold '{null_obj}'") + + values = obj._values + values[0:2] = null_obj + + klass = type(obj) + repeated_values = np.repeat(values, range(1, len(values) + 1)) + obj = klass(repeated_values, dtype=obj.dtype) + + if isinstance(obj, pd.CategoricalIndex): + assert obj.nunique() == len(obj.categories) + assert obj.nunique(dropna=False) == len(obj.categories) + 1 + else: + num_unique_values = len(obj.unique()) + assert obj.nunique() == max(0, num_unique_values - 1) + assert obj.nunique(dropna=False) == max(0, num_unique_values) + + +@pytest.mark.single_cpu +def test_unique_bad_unicode(index_or_series): + # regression test for #34550 + uval = "\ud83d" # smiley emoji + + obj = index_or_series([uval] * 2, dtype=object) + result = obj.unique() + + if isinstance(obj, pd.Index): + expected = pd.Index(["\ud83d"], dtype=object) + tm.assert_index_equal(result, expected, exact=True) + else: + expected = np.array(["\ud83d"], dtype=object) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize("dropna", [True, False]) +def test_nunique_dropna(dropna): + # GH37566 + ser = pd.Series(["yes", "yes", pd.NA, np.nan, None, pd.NaT]) + res = ser.nunique(dropna) + assert res == 1 if dropna else 5 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_value_counts.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_value_counts.py new file mode 100644 index 0000000000000000000000000000000000000000..1f643f24ed5f773b605f52b4e257ab5747da538b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/base/test_value_counts.py @@ -0,0 +1,356 @@ +import collections +from datetime import timedelta + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DatetimeIndex, + Index, + Interval, + IntervalIndex, + MultiIndex, + Series, + Timedelta, + TimedeltaIndex, + array, +) +import pandas._testing as tm +from pandas.tests.base.common import allow_na_ops + + +@pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") +def test_value_counts(index_or_series_obj): + obj = index_or_series_obj + obj = np.repeat(obj, range(1, len(obj) + 1)) + result = obj.value_counts() + + counter = collections.Counter(obj) + expected = Series(dict(counter.most_common()), dtype=np.int64, name="count") + + if obj.dtype != np.float16: + expected.index = expected.index.astype(obj.dtype) + else: + with pytest.raises(NotImplementedError, match="float16 indexes are not "): + expected.index.astype(obj.dtype) + return + if isinstance(expected.index, MultiIndex): + expected.index.names = obj.names + else: + expected.index.name = obj.name + + if not isinstance(result.dtype, np.dtype): + if getattr(obj.dtype, "storage", "") == "pyarrow": + expected = expected.astype("int64[pyarrow]") + else: + # i.e IntegerDtype + expected = expected.astype("Int64") + + # TODO(GH#32514): Order of entries with the same count is inconsistent + # on CI (gh-32449) + if obj.duplicated().any(): + result = result.sort_index() + expected = expected.sort_index() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("null_obj", [np.nan, None]) +@pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") +def test_value_counts_null(null_obj, index_or_series_obj): + orig = index_or_series_obj + obj = orig.copy() + + if not allow_na_ops(obj): + pytest.skip("type doesn't allow for NA operations") + elif len(obj) < 1: + pytest.skip("Test doesn't make sense on empty data") + elif isinstance(orig, MultiIndex): + pytest.skip(f"MultiIndex can't hold '{null_obj}'") + + values = obj._values + values[0:2] = null_obj + + klass = type(obj) + repeated_values = np.repeat(values, range(1, len(values) + 1)) + obj = klass(repeated_values, dtype=obj.dtype) + + # because np.nan == np.nan is False, but None == None is True + # np.nan would be duplicated, whereas None wouldn't + counter = collections.Counter(obj.dropna()) + expected = Series(dict(counter.most_common()), dtype=np.int64, name="count") + + if obj.dtype != np.float16: + expected.index = expected.index.astype(obj.dtype) + else: + with pytest.raises(NotImplementedError, match="float16 indexes are not "): + expected.index.astype(obj.dtype) + return + expected.index.name = obj.name + + result = obj.value_counts() + if obj.duplicated().any(): + # TODO(GH#32514): + # Order of entries with the same count is inconsistent on CI (gh-32449) + expected = expected.sort_index() + result = result.sort_index() + + if not isinstance(result.dtype, np.dtype): + if getattr(obj.dtype, "storage", "") == "pyarrow": + expected = expected.astype("int64[pyarrow]") + else: + # i.e IntegerDtype + expected = expected.astype("Int64") + tm.assert_series_equal(result, expected) + + expected[null_obj] = 3 + + result = obj.value_counts(dropna=False) + if obj.duplicated().any(): + # TODO(GH#32514): + # Order of entries with the same count is inconsistent on CI (gh-32449) + expected = expected.sort_index() + result = result.sort_index() + tm.assert_series_equal(result, expected) + + +def test_value_counts_inferred(index_or_series, using_infer_string): + klass = index_or_series + s_values = ["a", "b", "b", "b", "b", "c", "d", "d", "a", "a"] + s = klass(s_values) + expected = Series([4, 3, 2, 1], index=["b", "a", "d", "c"], name="count") + tm.assert_series_equal(s.value_counts(), expected) + + if isinstance(s, Index): + exp = Index(np.unique(np.array(s_values, dtype=np.object_))) + tm.assert_index_equal(s.unique(), exp) + else: + exp = np.unique(np.array(s_values, dtype=np.object_)) + if using_infer_string: + exp = array(exp, dtype="str") + tm.assert_equal(s.unique(), exp) + + assert s.nunique() == 4 + # don't sort, have to sort after the fact as not sorting is + # platform-dep + hist = s.value_counts(sort=False).sort_values() + expected = Series([3, 1, 4, 2], index=list("acbd"), name="count").sort_values() + tm.assert_series_equal(hist, expected) + + # sort ascending + hist = s.value_counts(ascending=True) + expected = Series([1, 2, 3, 4], index=list("cdab"), name="count") + tm.assert_series_equal(hist, expected) + + # relative histogram. + hist = s.value_counts(normalize=True) + expected = Series( + [0.4, 0.3, 0.2, 0.1], index=["b", "a", "d", "c"], name="proportion" + ) + tm.assert_series_equal(hist, expected) + + +def test_value_counts_bins(index_or_series, using_infer_string): + klass = index_or_series + s_values = ["a", "b", "b", "b", "b", "c", "d", "d", "a", "a"] + s = klass(s_values) + + # bins + msg = "bins argument only works with numeric data" + with pytest.raises(TypeError, match=msg): + s.value_counts(bins=1) + + s1 = Series([1, 1, 2, 3]) + res1 = s1.value_counts(bins=1) + exp1 = Series({Interval(0.997, 3.0): 4}, name="count") + tm.assert_series_equal(res1, exp1) + res1n = s1.value_counts(bins=1, normalize=True) + exp1n = Series({Interval(0.997, 3.0): 1.0}, name="proportion") + tm.assert_series_equal(res1n, exp1n) + + if isinstance(s1, Index): + tm.assert_index_equal(s1.unique(), Index([1, 2, 3])) + else: + exp = np.array([1, 2, 3], dtype=np.int64) + tm.assert_numpy_array_equal(s1.unique(), exp) + + assert s1.nunique() == 3 + + # these return the same + res4 = s1.value_counts(bins=4, dropna=True) + intervals = IntervalIndex.from_breaks([0.997, 1.5, 2.0, 2.5, 3.0]) + exp4 = Series([2, 1, 1, 0], index=intervals.take([0, 1, 3, 2]), name="count") + tm.assert_series_equal(res4, exp4) + + res4 = s1.value_counts(bins=4, dropna=False) + intervals = IntervalIndex.from_breaks([0.997, 1.5, 2.0, 2.5, 3.0]) + exp4 = Series([2, 1, 1, 0], index=intervals.take([0, 1, 3, 2]), name="count") + tm.assert_series_equal(res4, exp4) + + res4n = s1.value_counts(bins=4, normalize=True) + exp4n = Series( + [0.5, 0.25, 0.25, 0], index=intervals.take([0, 1, 3, 2]), name="proportion" + ) + tm.assert_series_equal(res4n, exp4n) + + # handle NA's properly + s_values = ["a", "b", "b", "b", np.nan, np.nan, "d", "d", "a", "a", "b"] + s = klass(s_values) + expected = Series([4, 3, 2], index=["b", "a", "d"], name="count") + tm.assert_series_equal(s.value_counts(), expected) + + if isinstance(s, Index): + exp = Index(["a", "b", np.nan, "d"]) + tm.assert_index_equal(s.unique(), exp) + else: + exp = np.array(["a", "b", np.nan, "d"], dtype=object) + if using_infer_string: + exp = array(exp, dtype="str") + tm.assert_equal(s.unique(), exp) + assert s.nunique() == 3 + + s = klass({}) if klass is dict else klass({}, dtype=object) + expected = Series([], dtype=np.int64, name="count") + tm.assert_series_equal(s.value_counts(), expected, check_index_type=False) + # returned dtype differs depending on original + if isinstance(s, Index): + tm.assert_index_equal(s.unique(), Index([]), exact=False) + else: + tm.assert_numpy_array_equal(s.unique(), np.array([]), check_dtype=False) + + assert s.nunique() == 0 + + +def test_value_counts_datetime64(index_or_series, unit): + klass = index_or_series + + # GH 3002, datetime64[ns] + # don't test names though + df = pd.DataFrame( + { + "person_id": ["xxyyzz", "xxyyzz", "xxyyzz", "xxyyww", "foofoo", "foofoo"], + "dt": pd.to_datetime( + [ + "2010-01-01", + "2010-01-01", + "2010-01-01", + "2009-01-01", + "2008-09-09", + "2008-09-09", + ] + ).as_unit(unit), + "food": ["PIE", "GUM", "EGG", "EGG", "PIE", "GUM"], + } + ) + + s = klass(df["dt"].copy()) + s.name = None + idx = pd.to_datetime( + ["2010-01-01 00:00:00", "2008-09-09 00:00:00", "2009-01-01 00:00:00"] + ).as_unit(unit) + expected_s = Series([3, 2, 1], index=idx, name="count") + tm.assert_series_equal(s.value_counts(), expected_s) + + expected = array( + np.array( + ["2010-01-01 00:00:00", "2009-01-01 00:00:00", "2008-09-09 00:00:00"], + dtype=f"datetime64[{unit}]", + ) + ) + result = s.unique() + if isinstance(s, Index): + tm.assert_index_equal(result, DatetimeIndex(expected)) + else: + tm.assert_extension_array_equal(result, expected) + + assert s.nunique() == 3 + + # with NaT + s = df["dt"].copy() + s = klass(list(s.values) + [pd.NaT] * 4) + if klass is Series: + s = s.dt.as_unit(unit) + else: + s = s.as_unit(unit) + + result = s.value_counts() + assert result.index.dtype == f"datetime64[{unit}]" + tm.assert_series_equal(result, expected_s) + + result = s.value_counts(dropna=False) + expected_s = pd.concat( + [ + Series([4], index=DatetimeIndex([pd.NaT]).as_unit(unit), name="count"), + expected_s, + ] + ) + tm.assert_series_equal(result, expected_s) + + assert s.dtype == f"datetime64[{unit}]" + unique = s.unique() + assert unique.dtype == f"datetime64[{unit}]" + + # numpy_array_equal cannot compare pd.NaT + if isinstance(s, Index): + exp_idx = DatetimeIndex(expected.tolist() + [pd.NaT]).as_unit(unit) + tm.assert_index_equal(unique, exp_idx) + else: + tm.assert_extension_array_equal(unique[:3], expected) + assert pd.isna(unique[3]) + + assert s.nunique() == 3 + assert s.nunique(dropna=False) == 4 + + +def test_value_counts_timedelta64(index_or_series, unit): + # timedelta64[ns] + klass = index_or_series + + day = Timedelta(timedelta(1)).as_unit(unit) + tdi = TimedeltaIndex([day], name="dt").as_unit(unit) + + tdvals = np.zeros(6, dtype=f"m8[{unit}]") + day + td = klass(tdvals, name="dt") + + result = td.value_counts() + expected_s = Series([6], index=tdi, name="count") + tm.assert_series_equal(result, expected_s) + + expected = tdi + result = td.unique() + if isinstance(td, Index): + tm.assert_index_equal(result, expected) + else: + tm.assert_extension_array_equal(result, expected._values) + + td2 = day + np.zeros(6, dtype=f"m8[{unit}]") + td2 = klass(td2, name="dt") + result2 = td2.value_counts() + tm.assert_series_equal(result2, expected_s) + + +@pytest.mark.parametrize("dropna", [True, False]) +def test_value_counts_with_nan(dropna, index_or_series): + # GH31944 + klass = index_or_series + values = [True, pd.NA, np.nan] + obj = klass(values) + res = obj.value_counts(dropna=dropna) + if dropna is True: + expected = Series([1], index=Index([True], dtype=obj.dtype), name="count") + else: + expected = Series([1, 1, 1], index=[True, pd.NA, np.nan], name="count") + tm.assert_series_equal(res, expected) + + +def test_value_counts_object_inference_deprecated(): + # GH#56161 + dti = pd.date_range("2016-01-01", periods=3, tz="UTC") + + idx = dti.astype(object) + msg = "The behavior of value_counts with object-dtype is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = idx.value_counts() + + exp = dti.value_counts() + tm.assert_series_equal(res, exp) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_compat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_compat.py new file mode 100644 index 0000000000000000000000000000000000000000..856a5b3a22a95d35cc577050f52d762b065e3ddf --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_compat.py @@ -0,0 +1,32 @@ +import pytest + +from pandas.compat._optional import VERSIONS + +import pandas as pd +from pandas.core.computation import expr +from pandas.core.computation.engines import ENGINES +from pandas.util.version import Version + + +def test_compat(): + # test we have compat with our version of numexpr + + from pandas.core.computation.check import NUMEXPR_INSTALLED + + ne = pytest.importorskip("numexpr") + + ver = ne.__version__ + if Version(ver) < Version(VERSIONS["numexpr"]): + assert not NUMEXPR_INSTALLED + else: + assert NUMEXPR_INSTALLED + + +@pytest.mark.parametrize("engine", ENGINES) +@pytest.mark.parametrize("parser", expr.PARSERS) +def test_invalid_numexpr_version(engine, parser): + if engine == "numexpr": + pytest.importorskip("numexpr") + a, b = 1, 2 # noqa: F841 + res = pd.eval("a + b", engine=engine, parser=parser) + assert res == 3 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_eval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_eval.py new file mode 100644 index 0000000000000000000000000000000000000000..cf3e50094ac97cbc857f68e5fe73dd2ad7bf066f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/computation/test_eval.py @@ -0,0 +1,2000 @@ +from __future__ import annotations + +from functools import reduce +from itertools import product +import operator + +import numpy as np +import pytest + +from pandas.compat import PY312 +from pandas.errors import ( + NumExprClobberingError, + PerformanceWarning, + UndefinedVariableError, +) +import pandas.util._test_decorators as td + +from pandas.core.dtypes.common import ( + is_bool, + is_float, + is_list_like, + is_scalar, +) + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + date_range, + period_range, + timedelta_range, +) +import pandas._testing as tm +from pandas.core.computation import ( + expr, + pytables, +) +from pandas.core.computation.engines import ENGINES +from pandas.core.computation.expr import ( + BaseExprVisitor, + PandasExprVisitor, + PythonExprVisitor, +) +from pandas.core.computation.expressions import ( + NUMEXPR_INSTALLED, + USE_NUMEXPR, +) +from pandas.core.computation.ops import ( + ARITH_OPS_SYMS, + SPECIAL_CASE_ARITH_OPS_SYMS, + _binary_math_ops, + _binary_ops_dict, + _unary_math_ops, +) +from pandas.core.computation.scope import DEFAULT_GLOBALS + + +@pytest.fixture( + params=( + pytest.param( + engine, + marks=[ + pytest.mark.skipif( + engine == "numexpr" and not USE_NUMEXPR, + reason=f"numexpr enabled->{USE_NUMEXPR}, " + f"installed->{NUMEXPR_INSTALLED}", + ), + td.skip_if_no("numexpr"), + ], + ) + for engine in ENGINES + ) +) +def engine(request): + return request.param + + +@pytest.fixture(params=expr.PARSERS) +def parser(request): + return request.param + + +def _eval_single_bin(lhs, cmp1, rhs, engine): + c = _binary_ops_dict[cmp1] + if ENGINES[engine].has_neg_frac: + try: + return c(lhs, rhs) + except ValueError as e: + if str(e).startswith( + "negative number cannot be raised to a fractional power" + ): + return np.nan + raise + return c(lhs, rhs) + + +# TODO: using range(5) here is a kludge +@pytest.fixture( + params=list(range(5)), + ids=["DataFrame", "Series", "SeriesNaN", "DataFrameNaN", "float"], +) +def lhs(request): + nan_df1 = DataFrame(np.random.default_rng(2).standard_normal((10, 5))) + nan_df1[nan_df1 > 0.5] = np.nan + + opts = ( + DataFrame(np.random.default_rng(2).standard_normal((10, 5))), + Series(np.random.default_rng(2).standard_normal(5)), + Series([1, 2, np.nan, np.nan, 5]), + nan_df1, + np.random.default_rng(2).standard_normal(), + ) + return opts[request.param] + + +rhs = lhs +midhs = lhs + + +@pytest.fixture +def idx_func_dict(): + return { + "i": lambda n: Index(np.arange(n), dtype=np.int64), + "f": lambda n: Index(np.arange(n), dtype=np.float64), + "s": lambda n: Index([f"{i}_{chr(i)}" for i in range(97, 97 + n)]), + "dt": lambda n: date_range("2020-01-01", periods=n), + "td": lambda n: timedelta_range("1 day", periods=n), + "p": lambda n: period_range("2020-01-01", periods=n, freq="D"), + } + + +class TestEval: + @pytest.mark.parametrize( + "cmp1", + ["!=", "==", "<=", ">=", "<", ">"], + ids=["ne", "eq", "le", "ge", "lt", "gt"], + ) + @pytest.mark.parametrize("cmp2", [">", "<"], ids=["gt", "lt"]) + @pytest.mark.parametrize("binop", expr.BOOL_OPS_SYMS) + def test_complex_cmp_ops(self, cmp1, cmp2, binop, lhs, rhs, engine, parser): + if parser == "python" and binop in ["and", "or"]: + msg = "'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + ex = f"(lhs {cmp1} rhs) {binop} (lhs {cmp2} rhs)" + pd.eval(ex, engine=engine, parser=parser) + return + + lhs_new = _eval_single_bin(lhs, cmp1, rhs, engine) + rhs_new = _eval_single_bin(lhs, cmp2, rhs, engine) + expected = _eval_single_bin(lhs_new, binop, rhs_new, engine) + + ex = f"(lhs {cmp1} rhs) {binop} (lhs {cmp2} rhs)" + result = pd.eval(ex, engine=engine, parser=parser) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("cmp_op", expr.CMP_OPS_SYMS) + def test_simple_cmp_ops(self, cmp_op, lhs, rhs, engine, parser): + lhs = lhs < 0 + rhs = rhs < 0 + + if parser == "python" and cmp_op in ["in", "not in"]: + msg = "'(In|NotIn)' nodes are not implemented" + + with pytest.raises(NotImplementedError, match=msg): + ex = f"lhs {cmp_op} rhs" + pd.eval(ex, engine=engine, parser=parser) + return + + ex = f"lhs {cmp_op} rhs" + msg = "|".join( + [ + r"only list-like( or dict-like)? objects are allowed to be " + r"passed to (DataFrame\.)?isin\(\), you passed a " + r"(`|')bool(`|')", + "argument of type 'bool' is not iterable", + ] + ) + if cmp_op in ("in", "not in") and not is_list_like(rhs): + with pytest.raises(TypeError, match=msg): + pd.eval( + ex, + engine=engine, + parser=parser, + local_dict={"lhs": lhs, "rhs": rhs}, + ) + else: + expected = _eval_single_bin(lhs, cmp_op, rhs, engine) + result = pd.eval(ex, engine=engine, parser=parser) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("op", expr.CMP_OPS_SYMS) + def test_compound_invert_op(self, op, lhs, rhs, request, engine, parser): + if parser == "python" and op in ["in", "not in"]: + msg = "'(In|NotIn)' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + ex = f"~(lhs {op} rhs)" + pd.eval(ex, engine=engine, parser=parser) + return + + if ( + is_float(lhs) + and not is_float(rhs) + and op in ["in", "not in"] + and engine == "python" + and parser == "pandas" + ): + mark = pytest.mark.xfail( + reason="Looks like expected is negative, unclear whether " + "expected is incorrect or result is incorrect" + ) + request.applymarker(mark) + skip_these = ["in", "not in"] + ex = f"~(lhs {op} rhs)" + + msg = "|".join( + [ + r"only list-like( or dict-like)? objects are allowed to be " + r"passed to (DataFrame\.)?isin\(\), you passed a " + r"(`|')float(`|')", + "argument of type 'float' is not iterable", + ] + ) + if is_scalar(rhs) and op in skip_these: + with pytest.raises(TypeError, match=msg): + pd.eval( + ex, + engine=engine, + parser=parser, + local_dict={"lhs": lhs, "rhs": rhs}, + ) + else: + # compound + if is_scalar(lhs) and is_scalar(rhs): + lhs, rhs = (np.array([x]) for x in (lhs, rhs)) + expected = _eval_single_bin(lhs, op, rhs, engine) + if is_scalar(expected): + expected = not expected + else: + expected = ~expected + result = pd.eval(ex, engine=engine, parser=parser) + tm.assert_almost_equal(expected, result) + + @pytest.mark.parametrize("cmp1", ["<", ">"]) + @pytest.mark.parametrize("cmp2", ["<", ">"]) + def test_chained_cmp_op(self, cmp1, cmp2, lhs, midhs, rhs, engine, parser): + mid = midhs + if parser == "python": + ex1 = f"lhs {cmp1} mid {cmp2} rhs" + msg = "'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(ex1, engine=engine, parser=parser) + return + + lhs_new = _eval_single_bin(lhs, cmp1, mid, engine) + rhs_new = _eval_single_bin(mid, cmp2, rhs, engine) + + if lhs_new is not None and rhs_new is not None: + ex1 = f"lhs {cmp1} mid {cmp2} rhs" + ex2 = f"lhs {cmp1} mid and mid {cmp2} rhs" + ex3 = f"(lhs {cmp1} mid) & (mid {cmp2} rhs)" + expected = _eval_single_bin(lhs_new, "&", rhs_new, engine) + + for ex in (ex1, ex2, ex3): + result = pd.eval(ex, engine=engine, parser=parser) + + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize( + "arith1", sorted(set(ARITH_OPS_SYMS).difference(SPECIAL_CASE_ARITH_OPS_SYMS)) + ) + def test_binary_arith_ops(self, arith1, lhs, rhs, engine, parser): + ex = f"lhs {arith1} rhs" + result = pd.eval(ex, engine=engine, parser=parser) + expected = _eval_single_bin(lhs, arith1, rhs, engine) + + tm.assert_almost_equal(result, expected) + ex = f"lhs {arith1} rhs {arith1} rhs" + result = pd.eval(ex, engine=engine, parser=parser) + nlhs = _eval_single_bin(lhs, arith1, rhs, engine) + try: + nlhs, ghs = nlhs.align(rhs) + except (ValueError, TypeError, AttributeError): + # ValueError: series frame or frame series align + # TypeError, AttributeError: series or frame with scalar align + return + else: + if engine == "numexpr": + import numexpr as ne + + # direct numpy comparison + expected = ne.evaluate(f"nlhs {arith1} ghs") + # Update assert statement due to unreliable numerical + # precision component (GH37328) + # TODO: update testing code so that assert_almost_equal statement + # can be replaced again by the assert_numpy_array_equal statement + tm.assert_almost_equal(result.values, expected) + else: + expected = eval(f"nlhs {arith1} ghs") + tm.assert_almost_equal(result, expected) + + # modulus, pow, and floor division require special casing + + def test_modulus(self, lhs, rhs, engine, parser): + ex = r"lhs % rhs" + result = pd.eval(ex, engine=engine, parser=parser) + expected = lhs % rhs + tm.assert_almost_equal(result, expected) + + if engine == "numexpr": + import numexpr as ne + + expected = ne.evaluate(r"expected % rhs") + if isinstance(result, (DataFrame, Series)): + tm.assert_almost_equal(result.values, expected) + else: + tm.assert_almost_equal(result, expected.item()) + else: + expected = _eval_single_bin(expected, "%", rhs, engine) + tm.assert_almost_equal(result, expected) + + def test_floor_division(self, lhs, rhs, engine, parser): + ex = "lhs // rhs" + + if engine == "python": + res = pd.eval(ex, engine=engine, parser=parser) + expected = lhs // rhs + tm.assert_equal(res, expected) + else: + msg = ( + r"unsupported operand type\(s\) for //: 'VariableNode' and " + "'VariableNode'" + ) + with pytest.raises(TypeError, match=msg): + pd.eval( + ex, + local_dict={"lhs": lhs, "rhs": rhs}, + engine=engine, + parser=parser, + ) + + @td.skip_if_windows + def test_pow(self, lhs, rhs, engine, parser): + # odd failure on win32 platform, so skip + ex = "lhs ** rhs" + expected = _eval_single_bin(lhs, "**", rhs, engine) + result = pd.eval(ex, engine=engine, parser=parser) + + if ( + is_scalar(lhs) + and is_scalar(rhs) + and isinstance(expected, (complex, np.complexfloating)) + and np.isnan(result) + ): + msg = "(DataFrame.columns|numpy array) are different" + with pytest.raises(AssertionError, match=msg): + tm.assert_numpy_array_equal(result, expected) + else: + tm.assert_almost_equal(result, expected) + + ex = "(lhs ** rhs) ** rhs" + result = pd.eval(ex, engine=engine, parser=parser) + + middle = _eval_single_bin(lhs, "**", rhs, engine) + expected = _eval_single_bin(middle, "**", rhs, engine) + tm.assert_almost_equal(result, expected) + + def test_check_single_invert_op(self, lhs, engine, parser): + # simple + try: + elb = lhs.astype(bool) + except AttributeError: + elb = np.array([bool(lhs)]) + expected = ~elb + result = pd.eval("~elb", engine=engine, parser=parser) + tm.assert_almost_equal(expected, result) + + def test_frame_invert(self, engine, parser): + expr = "~lhs" + + # ~ ## + # frame + # float always raises + lhs = DataFrame(np.random.default_rng(2).standard_normal((5, 2))) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'invert_dd'" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + else: + msg = "ufunc 'invert' not supported for the input types" + with pytest.raises(TypeError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + + # int raises on numexpr + lhs = DataFrame(np.random.default_rng(2).integers(5, size=(5, 2))) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'invert" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + else: + expect = ~lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + # bool always works + lhs = DataFrame(np.random.default_rng(2).standard_normal((5, 2)) > 0.5) + expect = ~lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + # object raises + lhs = DataFrame( + {"b": ["a", 1, 2.0], "c": np.random.default_rng(2).standard_normal(3) > 0.5} + ) + if engine == "numexpr": + with pytest.raises(ValueError, match="unknown type object"): + pd.eval(expr, engine=engine, parser=parser) + else: + msg = "bad operand type for unary ~: 'str'" + with pytest.raises(TypeError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + + def test_series_invert(self, engine, parser): + # ~ #### + expr = "~lhs" + + # series + # float raises + lhs = Series(np.random.default_rng(2).standard_normal(5)) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'invert_dd'" + with pytest.raises(NotImplementedError, match=msg): + result = pd.eval(expr, engine=engine, parser=parser) + else: + msg = "ufunc 'invert' not supported for the input types" + with pytest.raises(TypeError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + + # int raises on numexpr + lhs = Series(np.random.default_rng(2).integers(5, size=5)) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'invert" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + else: + expect = ~lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + # bool + lhs = Series(np.random.default_rng(2).standard_normal(5) > 0.5) + expect = ~lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + # float + # int + # bool + + # object + lhs = Series(["a", 1, 2.0]) + if engine == "numexpr": + with pytest.raises(ValueError, match="unknown type object"): + pd.eval(expr, engine=engine, parser=parser) + else: + msg = "bad operand type for unary ~: 'str'" + with pytest.raises(TypeError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + + def test_frame_negate(self, engine, parser): + expr = "-lhs" + + # float + lhs = DataFrame(np.random.default_rng(2).standard_normal((5, 2))) + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + # int + lhs = DataFrame(np.random.default_rng(2).integers(5, size=(5, 2))) + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + # bool doesn't work with numexpr but works elsewhere + lhs = DataFrame(np.random.default_rng(2).standard_normal((5, 2)) > 0.5) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'neg_bb'" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + else: + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + def test_series_negate(self, engine, parser): + expr = "-lhs" + + # float + lhs = Series(np.random.default_rng(2).standard_normal(5)) + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + # int + lhs = Series(np.random.default_rng(2).integers(5, size=5)) + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + # bool doesn't work with numexpr but works elsewhere + lhs = Series(np.random.default_rng(2).standard_normal(5) > 0.5) + if engine == "numexpr": + msg = "couldn't find matching opcode for 'neg_bb'" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(expr, engine=engine, parser=parser) + else: + expect = -lhs + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + @pytest.mark.parametrize( + "lhs", + [ + # Float + DataFrame(np.random.default_rng(2).standard_normal((5, 2))), + # Int + DataFrame(np.random.default_rng(2).integers(5, size=(5, 2))), + # bool doesn't work with numexpr but works elsewhere + DataFrame(np.random.default_rng(2).standard_normal((5, 2)) > 0.5), + ], + ) + def test_frame_pos(self, lhs, engine, parser): + expr = "+lhs" + expect = lhs + + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_frame_equal(expect, result) + + @pytest.mark.parametrize( + "lhs", + [ + # Float + Series(np.random.default_rng(2).standard_normal(5)), + # Int + Series(np.random.default_rng(2).integers(5, size=5)), + # bool doesn't work with numexpr but works elsewhere + Series(np.random.default_rng(2).standard_normal(5) > 0.5), + ], + ) + def test_series_pos(self, lhs, engine, parser): + expr = "+lhs" + expect = lhs + + result = pd.eval(expr, engine=engine, parser=parser) + tm.assert_series_equal(expect, result) + + def test_scalar_unary(self, engine, parser): + msg = "bad operand type for unary ~: 'float'" + warn = None + if PY312 and not (engine == "numexpr" and parser == "pandas"): + warn = DeprecationWarning + with pytest.raises(TypeError, match=msg): + pd.eval("~1.0", engine=engine, parser=parser) + + assert pd.eval("-1.0", parser=parser, engine=engine) == -1.0 + assert pd.eval("+1.0", parser=parser, engine=engine) == +1.0 + assert pd.eval("~1", parser=parser, engine=engine) == ~1 + assert pd.eval("-1", parser=parser, engine=engine) == -1 + assert pd.eval("+1", parser=parser, engine=engine) == +1 + with tm.assert_produces_warning( + warn, match="Bitwise inversion", check_stacklevel=False + ): + assert pd.eval("~True", parser=parser, engine=engine) == ~True + with tm.assert_produces_warning( + warn, match="Bitwise inversion", check_stacklevel=False + ): + assert pd.eval("~False", parser=parser, engine=engine) == ~False + assert pd.eval("-True", parser=parser, engine=engine) == -True + assert pd.eval("-False", parser=parser, engine=engine) == -False + assert pd.eval("+True", parser=parser, engine=engine) == +True + assert pd.eval("+False", parser=parser, engine=engine) == +False + + def test_unary_in_array(self): + # GH 11235 + # TODO: 2022-01-29: result return list with numexpr 2.7.3 in CI + # but cannot reproduce locally + result = np.array( + pd.eval("[-True, True, +True, -False, False, +False, -37, 37, ~37, +37]"), + dtype=np.object_, + ) + expected = np.array( + [ + -True, + True, + +True, + -False, + False, + +False, + -37, + 37, + ~37, + +37, + ], + dtype=np.object_, + ) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("expr", ["x < -0.1", "-5 > x"]) + def test_float_comparison_bin_op(self, float_numpy_dtype, expr): + # GH 16363 + df = DataFrame({"x": np.array([0], dtype=float_numpy_dtype)}) + res = df.eval(expr) + assert res.values == np.array([False]) + + def test_unary_in_function(self): + # GH 46471 + df = DataFrame({"x": [0, 1, np.nan]}) + + result = df.eval("x.fillna(-1)") + expected = df.x.fillna(-1) + # column name becomes None if using numexpr + # only check names when the engine is not numexpr + tm.assert_series_equal(result, expected, check_names=not USE_NUMEXPR) + + result = df.eval("x.shift(1, fill_value=-1)") + expected = df.x.shift(1, fill_value=-1) + tm.assert_series_equal(result, expected, check_names=not USE_NUMEXPR) + + @pytest.mark.parametrize( + "ex", + ( + "1 or 2", + "1 and 2", + "a and b", + "a or b", + "1 or 2 and (3 + 2) > 3", + "2 * x > 2 or 1 and 2", + "2 * df > 3 and 1 or a", + ), + ) + def test_disallow_scalar_bool_ops(self, ex, engine, parser): + x, a, b = np.random.default_rng(2).standard_normal(3), 1, 2 # noqa: F841 + df = DataFrame(np.random.default_rng(2).standard_normal((3, 2))) # noqa: F841 + + msg = "cannot evaluate scalar only bool ops|'BoolOp' nodes are not" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(ex, engine=engine, parser=parser) + + def test_identical(self, engine, parser): + # see gh-10546 + x = 1 + result = pd.eval("x", engine=engine, parser=parser) + assert result == 1 + assert is_scalar(result) + + x = 1.5 + result = pd.eval("x", engine=engine, parser=parser) + assert result == 1.5 + assert is_scalar(result) + + x = False + result = pd.eval("x", engine=engine, parser=parser) + assert not result + assert is_bool(result) + assert is_scalar(result) + + x = np.array([1]) + result = pd.eval("x", engine=engine, parser=parser) + tm.assert_numpy_array_equal(result, np.array([1])) + assert result.shape == (1,) + + x = np.array([1.5]) + result = pd.eval("x", engine=engine, parser=parser) + tm.assert_numpy_array_equal(result, np.array([1.5])) + assert result.shape == (1,) + + x = np.array([False]) # noqa: F841 + result = pd.eval("x", engine=engine, parser=parser) + tm.assert_numpy_array_equal(result, np.array([False])) + assert result.shape == (1,) + + def test_line_continuation(self, engine, parser): + # GH 11149 + exp = """1 + 2 * \ + 5 - 1 + 2 """ + result = pd.eval(exp, engine=engine, parser=parser) + assert result == 12 + + def test_float_truncation(self, engine, parser): + # GH 14241 + exp = "1000000000.006" + result = pd.eval(exp, engine=engine, parser=parser) + expected = np.float64(exp) + assert result == expected + + df = DataFrame({"A": [1000000000.0009, 1000000000.0011, 1000000000.0015]}) + cutoff = 1000000000.0006 + result = df.query(f"A < {cutoff:.4f}") + assert result.empty + + cutoff = 1000000000.0010 + result = df.query(f"A > {cutoff:.4f}") + expected = df.loc[[1, 2], :] + tm.assert_frame_equal(expected, result) + + exact = 1000000000.0011 + result = df.query(f"A == {exact:.4f}") + expected = df.loc[[1], :] + tm.assert_frame_equal(expected, result) + + def test_disallow_python_keywords(self): + # GH 18221 + df = DataFrame([[0, 0, 0]], columns=["foo", "bar", "class"]) + msg = "Python keyword not valid identifier in numexpr query" + with pytest.raises(SyntaxError, match=msg): + df.query("class == 0") + + df = DataFrame() + df.index.name = "lambda" + with pytest.raises(SyntaxError, match=msg): + df.query("lambda == 0") + + def test_true_false_logic(self): + # GH 25823 + # This behavior is deprecated in Python 3.12 + with tm.maybe_produces_warning( + DeprecationWarning, PY312, check_stacklevel=False + ): + assert pd.eval("not True") == -2 + assert pd.eval("not False") == -1 + assert pd.eval("True and not True") == 0 + + def test_and_logic_string_match(self): + # GH 25823 + event = Series({"a": "hello"}) + assert pd.eval(f"{event.str.match('hello').a}") + assert pd.eval(f"{event.str.match('hello').a and event.str.match('hello').a}") + + +# ------------------------------------- +# gh-12388: Typecasting rules consistency with python + + +class TestTypeCasting: + @pytest.mark.parametrize("op", ["+", "-", "*", "**", "/"]) + # maybe someday... numexpr has too many upcasting rules now + # chain(*(np.core.sctypes[x] for x in ['uint', 'int', 'float'])) + @pytest.mark.parametrize("left_right", [("df", "3"), ("3", "df")]) + def test_binop_typecasting( + self, engine, parser, op, complex_or_float_dtype, left_right, request + ): + # GH#21374 + dtype = complex_or_float_dtype + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3)), dtype=dtype) + left, right = left_right + s = f"{left} {op} {right}" + res = pd.eval(s, engine=engine, parser=parser) + if dtype == "complex64" and engine == "numexpr": + mark = pytest.mark.xfail( + reason="numexpr issue with complex that are upcast " + "to complex 128 " + "https://github.com/pydata/numexpr/issues/492" + ) + request.applymarker(mark) + assert df.values.dtype == dtype + assert res.values.dtype == dtype + tm.assert_frame_equal(res, eval(s), check_exact=False) + + +# ------------------------------------- +# Basic and complex alignment + + +def should_warn(*args): + not_mono = not any(map(operator.attrgetter("is_monotonic_increasing"), args)) + only_one_dt = reduce( + operator.xor, (issubclass(x.dtype.type, np.datetime64) for x in args) + ) + return not_mono and only_one_dt + + +class TestAlignment: + index_types = ["i", "s", "dt"] + lhs_index_types = index_types + ["s"] # 'p' + + def test_align_nested_unary_op(self, engine, parser): + s = "df * ~2" + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + res = pd.eval(s, engine=engine, parser=parser) + tm.assert_frame_equal(res, df * ~2) + + @pytest.mark.filterwarnings("always::RuntimeWarning") + @pytest.mark.parametrize("lr_idx_type", lhs_index_types) + @pytest.mark.parametrize("rr_idx_type", index_types) + @pytest.mark.parametrize("c_idx_type", index_types) + def test_basic_frame_alignment( + self, engine, parser, lr_idx_type, rr_idx_type, c_idx_type, idx_func_dict + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 10)), + index=idx_func_dict[lr_idx_type](10), + columns=idx_func_dict[c_idx_type](10), + ) + df2 = DataFrame( + np.random.default_rng(2).standard_normal((20, 10)), + index=idx_func_dict[rr_idx_type](20), + columns=idx_func_dict[c_idx_type](10), + ) + # only warns if not monotonic and not sortable + if should_warn(df.index, df2.index): + with tm.assert_produces_warning(RuntimeWarning): + res = pd.eval("df + df2", engine=engine, parser=parser) + else: + res = pd.eval("df + df2", engine=engine, parser=parser) + tm.assert_frame_equal(res, df + df2) + + @pytest.mark.parametrize("r_idx_type", lhs_index_types) + @pytest.mark.parametrize("c_idx_type", lhs_index_types) + def test_frame_comparison( + self, engine, parser, r_idx_type, c_idx_type, idx_func_dict + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 10)), + index=idx_func_dict[r_idx_type](10), + columns=idx_func_dict[c_idx_type](10), + ) + res = pd.eval("df < 2", engine=engine, parser=parser) + tm.assert_frame_equal(res, df < 2) + + df3 = DataFrame( + np.random.default_rng(2).standard_normal(df.shape), + index=df.index, + columns=df.columns, + ) + res = pd.eval("df < df3", engine=engine, parser=parser) + tm.assert_frame_equal(res, df < df3) + + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + @pytest.mark.parametrize("r1", lhs_index_types) + @pytest.mark.parametrize("c1", index_types) + @pytest.mark.parametrize("r2", index_types) + @pytest.mark.parametrize("c2", index_types) + def test_medium_complex_frame_alignment( + self, engine, parser, r1, c1, r2, c2, idx_func_dict + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 2)), + index=idx_func_dict[r1](3), + columns=idx_func_dict[c1](2), + ) + df2 = DataFrame( + np.random.default_rng(2).standard_normal((4, 2)), + index=idx_func_dict[r2](4), + columns=idx_func_dict[c2](2), + ) + df3 = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), + index=idx_func_dict[r2](5), + columns=idx_func_dict[c2](2), + ) + if should_warn(df.index, df2.index, df3.index): + with tm.assert_produces_warning(RuntimeWarning): + res = pd.eval("df + df2 + df3", engine=engine, parser=parser) + else: + res = pd.eval("df + df2 + df3", engine=engine, parser=parser) + tm.assert_frame_equal(res, df + df2 + df3) + + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + @pytest.mark.parametrize("index_name", ["index", "columns"]) + @pytest.mark.parametrize("c_idx_type", index_types) + @pytest.mark.parametrize("r_idx_type", lhs_index_types) + def test_basic_frame_series_alignment( + self, engine, parser, index_name, r_idx_type, c_idx_type, idx_func_dict + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 10)), + index=idx_func_dict[r_idx_type](10), + columns=idx_func_dict[c_idx_type](10), + ) + index = getattr(df, index_name) + s = Series(np.random.default_rng(2).standard_normal(5), index[:5]) + + if should_warn(df.index, s.index): + with tm.assert_produces_warning(RuntimeWarning): + res = pd.eval("df + s", engine=engine, parser=parser) + else: + res = pd.eval("df + s", engine=engine, parser=parser) + + if r_idx_type == "dt" or c_idx_type == "dt": + expected = df.add(s) if engine == "numexpr" else df + s + else: + expected = df + s + tm.assert_frame_equal(res, expected) + + @pytest.mark.parametrize("index_name", ["index", "columns"]) + @pytest.mark.parametrize( + "r_idx_type, c_idx_type", + list(product(["i", "s"], ["i", "s"])) + [("dt", "dt")], + ) + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + def test_basic_series_frame_alignment( + self, request, engine, parser, index_name, r_idx_type, c_idx_type, idx_func_dict + ): + if ( + engine == "numexpr" + and parser in ("pandas", "python") + and index_name == "index" + and r_idx_type == "i" + and c_idx_type == "s" + ): + reason = ( + f"Flaky column ordering when engine={engine}, " + f"parser={parser}, index_name={index_name}, " + f"r_idx_type={r_idx_type}, c_idx_type={c_idx_type}" + ) + request.applymarker(pytest.mark.xfail(reason=reason, strict=False)) + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 7)), + index=idx_func_dict[r_idx_type](10), + columns=idx_func_dict[c_idx_type](7), + ) + index = getattr(df, index_name) + s = Series(np.random.default_rng(2).standard_normal(5), index[:5]) + if should_warn(s.index, df.index): + with tm.assert_produces_warning(RuntimeWarning): + res = pd.eval("s + df", engine=engine, parser=parser) + else: + res = pd.eval("s + df", engine=engine, parser=parser) + + if r_idx_type == "dt" or c_idx_type == "dt": + expected = df.add(s) if engine == "numexpr" else s + df + else: + expected = s + df + tm.assert_frame_equal(res, expected) + + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + @pytest.mark.parametrize("c_idx_type", index_types) + @pytest.mark.parametrize("r_idx_type", lhs_index_types) + @pytest.mark.parametrize("index_name", ["index", "columns"]) + @pytest.mark.parametrize("op", ["+", "*"]) + def test_series_frame_commutativity( + self, engine, parser, index_name, op, r_idx_type, c_idx_type, idx_func_dict + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 10)), + index=idx_func_dict[r_idx_type](10), + columns=idx_func_dict[c_idx_type](10), + ) + index = getattr(df, index_name) + s = Series(np.random.default_rng(2).standard_normal(5), index[:5]) + + lhs = f"s {op} df" + rhs = f"df {op} s" + if should_warn(df.index, s.index): + with tm.assert_produces_warning(RuntimeWarning): + a = pd.eval(lhs, engine=engine, parser=parser) + with tm.assert_produces_warning(RuntimeWarning): + b = pd.eval(rhs, engine=engine, parser=parser) + else: + a = pd.eval(lhs, engine=engine, parser=parser) + b = pd.eval(rhs, engine=engine, parser=parser) + + if r_idx_type != "dt" and c_idx_type != "dt": + if engine == "numexpr": + tm.assert_frame_equal(a, b) + + @pytest.mark.filterwarnings("always::RuntimeWarning") + @pytest.mark.parametrize("r1", lhs_index_types) + @pytest.mark.parametrize("c1", index_types) + @pytest.mark.parametrize("r2", index_types) + @pytest.mark.parametrize("c2", index_types) + def test_complex_series_frame_alignment( + self, engine, parser, r1, c1, r2, c2, idx_func_dict + ): + n = 3 + m1 = 5 + m2 = 2 * m1 + df = DataFrame( + np.random.default_rng(2).standard_normal((m1, n)), + index=idx_func_dict[r1](m1), + columns=idx_func_dict[c1](n), + ) + df2 = DataFrame( + np.random.default_rng(2).standard_normal((m2, n)), + index=idx_func_dict[r2](m2), + columns=idx_func_dict[c2](n), + ) + index = df2.columns + ser = Series(np.random.default_rng(2).standard_normal(n), index[:n]) + + if r2 == "dt" or c2 == "dt": + if engine == "numexpr": + expected2 = df2.add(ser) + else: + expected2 = df2 + ser + else: + expected2 = df2 + ser + + if r1 == "dt" or c1 == "dt": + if engine == "numexpr": + expected = expected2.add(df) + else: + expected = expected2 + df + else: + expected = expected2 + df + + if should_warn(df2.index, ser.index, df.index): + with tm.assert_produces_warning(RuntimeWarning): + res = pd.eval("df2 + ser + df", engine=engine, parser=parser) + else: + res = pd.eval("df2 + ser + df", engine=engine, parser=parser) + assert res.shape == expected.shape + tm.assert_frame_equal(res, expected) + + def test_performance_warning_for_poor_alignment(self, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((1000, 10))) + s = Series(np.random.default_rng(2).standard_normal(10000)) + if engine == "numexpr": + seen = PerformanceWarning + else: + seen = False + + with tm.assert_produces_warning(seen): + pd.eval("df + s", engine=engine, parser=parser) + + s = Series(np.random.default_rng(2).standard_normal(1000)) + with tm.assert_produces_warning(False): + pd.eval("df + s", engine=engine, parser=parser) + + df = DataFrame(np.random.default_rng(2).standard_normal((10, 10000))) + s = Series(np.random.default_rng(2).standard_normal(10000)) + with tm.assert_produces_warning(False): + pd.eval("df + s", engine=engine, parser=parser) + + df = DataFrame(np.random.default_rng(2).standard_normal((10, 10))) + s = Series(np.random.default_rng(2).standard_normal(10000)) + + is_python_engine = engine == "python" + + if not is_python_engine: + wrn = PerformanceWarning + else: + wrn = False + + with tm.assert_produces_warning(wrn) as w: + pd.eval("df + s", engine=engine, parser=parser) + + if not is_python_engine: + assert len(w) == 1 + msg = str(w[0].message) + logged = np.log10(s.size - df.shape[1]) + expected = ( + f"Alignment difference on axis 1 is larger " + f"than an order of magnitude on term 'df', " + f"by more than {logged:.4g}; performance may suffer." + ) + assert msg == expected + + +# ------------------------------------ +# Slightly more complex ops + + +class TestOperations: + def eval(self, *args, **kwargs): + kwargs["level"] = kwargs.pop("level", 0) + 1 + return pd.eval(*args, **kwargs) + + def test_simple_arith_ops(self, engine, parser): + exclude_arith = [] + if parser == "python": + exclude_arith = ["in", "not in"] + + arith_ops = [ + op + for op in expr.ARITH_OPS_SYMS + expr.CMP_OPS_SYMS + if op not in exclude_arith + ] + + ops = (op for op in arith_ops if op != "//") + + for op in ops: + ex = f"1 {op} 1" + ex2 = f"x {op} 1" + ex3 = f"1 {op} (x + 1)" + + if op in ("in", "not in"): + msg = "argument of type 'int' is not iterable" + with pytest.raises(TypeError, match=msg): + pd.eval(ex, engine=engine, parser=parser) + else: + expec = _eval_single_bin(1, op, 1, engine) + x = self.eval(ex, engine=engine, parser=parser) + assert x == expec + + expec = _eval_single_bin(x, op, 1, engine) + y = self.eval(ex2, local_dict={"x": x}, engine=engine, parser=parser) + assert y == expec + + expec = _eval_single_bin(1, op, x + 1, engine) + y = self.eval(ex3, local_dict={"x": x}, engine=engine, parser=parser) + assert y == expec + + @pytest.mark.parametrize("rhs", [True, False]) + @pytest.mark.parametrize("lhs", [True, False]) + @pytest.mark.parametrize("op", expr.BOOL_OPS_SYMS) + def test_simple_bool_ops(self, rhs, lhs, op): + ex = f"{lhs} {op} {rhs}" + + if parser == "python" and op in ["and", "or"]: + msg = "'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + self.eval(ex) + return + + res = self.eval(ex) + exp = eval(ex) + assert res == exp + + @pytest.mark.parametrize("rhs", [True, False]) + @pytest.mark.parametrize("lhs", [True, False]) + @pytest.mark.parametrize("op", expr.BOOL_OPS_SYMS) + def test_bool_ops_with_constants(self, rhs, lhs, op): + ex = f"{lhs} {op} {rhs}" + + if parser == "python" and op in ["and", "or"]: + msg = "'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + self.eval(ex) + return + + res = self.eval(ex) + exp = eval(ex) + assert res == exp + + def test_4d_ndarray_fails(self): + x = np.random.default_rng(2).standard_normal((3, 4, 5, 6)) + y = Series(np.random.default_rng(2).standard_normal(10)) + msg = "N-dimensional objects, where N > 2, are not supported with eval" + with pytest.raises(NotImplementedError, match=msg): + self.eval("x + y", local_dict={"x": x, "y": y}) + + def test_constant(self): + x = self.eval("1") + assert x == 1 + + def test_single_variable(self): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) + df2 = self.eval("df", local_dict={"df": df}) + tm.assert_frame_equal(df, df2) + + def test_failing_subscript_with_name_error(self): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) # noqa: F841 + with pytest.raises(NameError, match="name 'x' is not defined"): + self.eval("df[x > 2] > 2") + + def test_lhs_expression_subscript(self): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + result = self.eval("(df + 1)[df > 2]", local_dict={"df": df}) + expected = (df + 1)[df > 2] + tm.assert_frame_equal(result, expected) + + def test_attr_expression(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), columns=list("abc") + ) + expr1 = "df.a < df.b" + expec1 = df.a < df.b + expr2 = "df.a + df.b + df.c" + expec2 = df.a + df.b + df.c + expr3 = "df.a + df.b + df.c[df.b < 0]" + expec3 = df.a + df.b + df.c[df.b < 0] + exprs = expr1, expr2, expr3 + expecs = expec1, expec2, expec3 + for e, expec in zip(exprs, expecs): + tm.assert_series_equal(expec, self.eval(e, local_dict={"df": df})) + + def test_assignment_fails(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), columns=list("abc") + ) + df2 = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + expr1 = "df = df2" + msg = "cannot assign without a target object" + with pytest.raises(ValueError, match=msg): + self.eval(expr1, local_dict={"df": df, "df2": df2}) + + def test_assignment_column_multiple_raise(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # multiple assignees + with pytest.raises(SyntaxError, match="invalid syntax"): + df.eval("d c = a + b") + + def test_assignment_column_invalid_assign(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # invalid assignees + msg = "left hand side of an assignment must be a single name" + with pytest.raises(SyntaxError, match=msg): + df.eval("d,c = a + b") + + def test_assignment_column_invalid_assign_function_call(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + msg = "cannot assign to function call" + with pytest.raises(SyntaxError, match=msg): + df.eval('Timestamp("20131001") = a + b') + + def test_assignment_single_assign_existing(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # single assignment - existing variable + expected = df.copy() + expected["a"] = expected["a"] + expected["b"] + df.eval("a = a + b", inplace=True) + tm.assert_frame_equal(df, expected) + + def test_assignment_single_assign_new(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # single assignment - new variable + expected = df.copy() + expected["c"] = expected["a"] + expected["b"] + df.eval("c = a + b", inplace=True) + tm.assert_frame_equal(df, expected) + + def test_assignment_single_assign_local_overlap(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + df = df.copy() + a = 1 # noqa: F841 + df.eval("a = 1 + b", inplace=True) + + expected = df.copy() + expected["a"] = 1 + expected["b"] + tm.assert_frame_equal(df, expected) + + def test_assignment_single_assign_name(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + + a = 1 # noqa: F841 + old_a = df.a.copy() + df.eval("a = a + b", inplace=True) + result = old_a + df.b + tm.assert_series_equal(result, df.a, check_names=False) + assert result.name is None + + def test_assignment_multiple_raises(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # multiple assignment + df.eval("c = a + b", inplace=True) + msg = "can only assign a single expression" + with pytest.raises(SyntaxError, match=msg): + df.eval("c = a = b") + + def test_assignment_explicit(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + # explicit targets + self.eval("c = df.a + df.b", local_dict={"df": df}, target=df, inplace=True) + expected = df.copy() + expected["c"] = expected["a"] + expected["b"] + tm.assert_frame_equal(df, expected) + + def test_column_in(self): + # GH 11235 + df = DataFrame({"a": [11], "b": [-32]}) + result = df.eval("a in [11, -32]") + expected = Series([True]) + # TODO: 2022-01-29: Name check failed with numexpr 2.7.3 in CI + # but cannot reproduce locally + tm.assert_series_equal(result, expected, check_names=False) + + @pytest.mark.xfail(reason="Unknown: Omitted test_ in name prior.") + def test_assignment_not_inplace(self): + # see gh-9297 + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("ab") + ) + + actual = df.eval("c = a + b", inplace=False) + assert actual is not None + + expected = df.copy() + expected["c"] = expected["a"] + expected["b"] + tm.assert_frame_equal(df, expected) + + def test_multi_line_expression(self, warn_copy_on_write): + # GH 11149 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + expected = df.copy() + + expected["c"] = expected["a"] + expected["b"] + expected["d"] = expected["c"] + expected["b"] + answer = df.eval( + """ + c = a + b + d = c + b""", + inplace=True, + ) + tm.assert_frame_equal(expected, df) + assert answer is None + + expected["a"] = expected["a"] - 1 + expected["e"] = expected["a"] + 2 + answer = df.eval( + """ + a = a - 1 + e = a + 2""", + inplace=True, + ) + tm.assert_frame_equal(expected, df) + assert answer is None + + # multi-line not valid if not all assignments + msg = "Multi-line expressions are only valid if all expressions contain" + with pytest.raises(ValueError, match=msg): + df.eval( + """ + a = b + 2 + b - 2""", + inplace=False, + ) + + def test_multi_line_expression_not_inplace(self): + # GH 11149 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + expected = df.copy() + + expected["c"] = expected["a"] + expected["b"] + expected["d"] = expected["c"] + expected["b"] + df = df.eval( + """ + c = a + b + d = c + b""", + inplace=False, + ) + tm.assert_frame_equal(expected, df) + + expected["a"] = expected["a"] - 1 + expected["e"] = expected["a"] + 2 + df = df.eval( + """ + a = a - 1 + e = a + 2""", + inplace=False, + ) + tm.assert_frame_equal(expected, df) + + def test_multi_line_expression_local_variable(self): + # GH 15342 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + expected = df.copy() + + local_var = 7 + expected["c"] = expected["a"] * local_var + expected["d"] = expected["c"] + local_var + answer = df.eval( + """ + c = a * @local_var + d = c + @local_var + """, + inplace=True, + ) + tm.assert_frame_equal(expected, df) + assert answer is None + + def test_multi_line_expression_callable_local_variable(self): + # 26426 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + + def local_func(a, b): + return b + + expected = df.copy() + expected["c"] = expected["a"] * local_func(1, 7) + expected["d"] = expected["c"] + local_func(1, 7) + answer = df.eval( + """ + c = a * @local_func(1, 7) + d = c + @local_func(1, 7) + """, + inplace=True, + ) + tm.assert_frame_equal(expected, df) + assert answer is None + + def test_multi_line_expression_callable_local_variable_with_kwargs(self): + # 26426 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + + def local_func(a, b): + return b + + expected = df.copy() + expected["c"] = expected["a"] * local_func(b=7, a=1) + expected["d"] = expected["c"] + local_func(b=7, a=1) + answer = df.eval( + """ + c = a * @local_func(b=7, a=1) + d = c + @local_func(b=7, a=1) + """, + inplace=True, + ) + tm.assert_frame_equal(expected, df) + assert answer is None + + def test_assignment_in_query(self): + # GH 8664 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df_orig = df.copy() + msg = "cannot assign without a target object" + with pytest.raises(ValueError, match=msg): + df.query("a = 1") + tm.assert_frame_equal(df, df_orig) + + def test_query_inplace(self): + # see gh-11149 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + expected = df.copy() + expected = expected[expected["a"] == 2] + df.query("a == 2", inplace=True) + tm.assert_frame_equal(expected, df) + + df = {} + expected = {"a": 3} + + self.eval("a = 1 + 2", target=df, inplace=True) + tm.assert_dict_equal(df, expected) + + @pytest.mark.parametrize("invalid_target", [1, "cat", [1, 2], np.array([]), (1, 3)]) + def test_cannot_item_assign(self, invalid_target): + msg = "Cannot assign expression output to target" + expression = "a = 1 + 2" + + with pytest.raises(ValueError, match=msg): + self.eval(expression, target=invalid_target, inplace=True) + + if hasattr(invalid_target, "copy"): + with pytest.raises(ValueError, match=msg): + self.eval(expression, target=invalid_target, inplace=False) + + @pytest.mark.parametrize("invalid_target", [1, "cat", (1, 3)]) + def test_cannot_copy_item(self, invalid_target): + msg = "Cannot return a copy of the target" + expression = "a = 1 + 2" + + with pytest.raises(ValueError, match=msg): + self.eval(expression, target=invalid_target, inplace=False) + + @pytest.mark.parametrize("target", [1, "cat", [1, 2], np.array([]), (1, 3), {1: 2}]) + def test_inplace_no_assignment(self, target): + expression = "1 + 2" + + assert self.eval(expression, target=target, inplace=False) == 3 + + msg = "Cannot operate inplace if there is no assignment" + with pytest.raises(ValueError, match=msg): + self.eval(expression, target=target, inplace=True) + + def test_basic_period_index_boolean_expression(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((2, 2)), + columns=period_range("2020-01-01", freq="D", periods=2), + ) + e = df < 2 + r = self.eval("df < 2", local_dict={"df": df}) + x = df < 2 + + tm.assert_frame_equal(r, e) + tm.assert_frame_equal(x, e) + + def test_basic_period_index_subscript_expression(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((2, 2)), + columns=period_range("2020-01-01", freq="D", periods=2), + ) + r = self.eval("df[df < 2 + 3]", local_dict={"df": df}) + e = df[df < 2 + 3] + tm.assert_frame_equal(r, e) + + def test_nested_period_index_subscript_expression(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((2, 2)), + columns=period_range("2020-01-01", freq="D", periods=2), + ) + r = self.eval("df[df[df < 2] < 2] + df * 2", local_dict={"df": df}) + e = df[df[df < 2] < 2] + df * 2 + tm.assert_frame_equal(r, e) + + def test_date_boolean(self, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df["dates1"] = date_range("1/1/2012", periods=5) + res = self.eval( + "df.dates1 < 20130101", + local_dict={"df": df}, + engine=engine, + parser=parser, + ) + expec = df.dates1 < "20130101" + tm.assert_series_equal(res, expec, check_names=False) + + def test_simple_in_ops(self, engine, parser): + if parser != "python": + res = pd.eval("1 in [1, 2]", engine=engine, parser=parser) + assert res + + res = pd.eval("2 in (1, 2)", engine=engine, parser=parser) + assert res + + res = pd.eval("3 in (1, 2)", engine=engine, parser=parser) + assert not res + + res = pd.eval("3 not in (1, 2)", engine=engine, parser=parser) + assert res + + res = pd.eval("[3] not in (1, 2)", engine=engine, parser=parser) + assert res + + res = pd.eval("[3] in ([3], 2)", engine=engine, parser=parser) + assert res + + res = pd.eval("[[3]] in [[[3]], 2]", engine=engine, parser=parser) + assert res + + res = pd.eval("(3,) in [(3,), 2]", engine=engine, parser=parser) + assert res + + res = pd.eval("(3,) not in [(3,), 2]", engine=engine, parser=parser) + assert not res + + res = pd.eval("[(3,)] in [[(3,)], 2]", engine=engine, parser=parser) + assert res + else: + msg = "'In' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + pd.eval("1 in [1, 2]", engine=engine, parser=parser) + with pytest.raises(NotImplementedError, match=msg): + pd.eval("2 in (1, 2)", engine=engine, parser=parser) + with pytest.raises(NotImplementedError, match=msg): + pd.eval("3 in (1, 2)", engine=engine, parser=parser) + with pytest.raises(NotImplementedError, match=msg): + pd.eval("[(3,)] in (1, 2, [(3,)])", engine=engine, parser=parser) + msg = "'NotIn' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + pd.eval("3 not in (1, 2)", engine=engine, parser=parser) + with pytest.raises(NotImplementedError, match=msg): + pd.eval("[3] not in (1, 2, [[3]])", engine=engine, parser=parser) + + def test_check_many_exprs(self, engine, parser): + a = 1 # noqa: F841 + expr = " * ".join("a" * 33) + expected = 1 + res = pd.eval(expr, engine=engine, parser=parser) + assert res == expected + + @pytest.mark.parametrize( + "expr", + [ + "df > 2 and df > 3", + "df > 2 or df > 3", + "not df > 2", + ], + ) + def test_fails_and_or_not(self, expr, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + if parser == "python": + msg = "'BoolOp' nodes are not implemented" + if "not" in expr: + msg = "'Not' nodes are not implemented" + + with pytest.raises(NotImplementedError, match=msg): + pd.eval( + expr, + local_dict={"df": df}, + parser=parser, + engine=engine, + ) + else: + # smoke-test, should not raise + pd.eval( + expr, + local_dict={"df": df}, + parser=parser, + engine=engine, + ) + + @pytest.mark.parametrize("char", ["|", "&"]) + def test_fails_ampersand_pipe(self, char, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) # noqa: F841 + ex = f"(df + 2)[df > 1] > 0 {char} (df > 0)" + if parser == "python": + msg = "cannot evaluate scalar only bool ops" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(ex, parser=parser, engine=engine) + else: + # smoke-test, should not raise + pd.eval(ex, parser=parser, engine=engine) + + +class TestMath: + def eval(self, *args, **kwargs): + kwargs["level"] = kwargs.pop("level", 0) + 1 + return pd.eval(*args, **kwargs) + + @pytest.mark.skipif( + not NUMEXPR_INSTALLED, reason="Unary ops only implemented for numexpr" + ) + @pytest.mark.parametrize("fn", _unary_math_ops) + def test_unary_functions(self, fn): + df = DataFrame({"a": np.random.default_rng(2).standard_normal(10)}) + a = df.a + + expr = f"{fn}(a)" + got = self.eval(expr) + with np.errstate(all="ignore"): + expect = getattr(np, fn)(a) + tm.assert_series_equal(got, expect, check_names=False) + + @pytest.mark.parametrize("fn", _binary_math_ops) + def test_binary_functions(self, fn): + df = DataFrame( + { + "a": np.random.default_rng(2).standard_normal(10), + "b": np.random.default_rng(2).standard_normal(10), + } + ) + a = df.a + b = df.b + + expr = f"{fn}(a, b)" + got = self.eval(expr) + with np.errstate(all="ignore"): + expect = getattr(np, fn)(a, b) + tm.assert_almost_equal(got, expect, check_names=False) + + def test_df_use_case(self, engine, parser): + df = DataFrame( + { + "a": np.random.default_rng(2).standard_normal(10), + "b": np.random.default_rng(2).standard_normal(10), + } + ) + df.eval( + "e = arctan2(sin(a), b)", + engine=engine, + parser=parser, + inplace=True, + ) + got = df.e + expect = np.arctan2(np.sin(df.a), df.b) + tm.assert_series_equal(got, expect, check_names=False) + + def test_df_arithmetic_subexpression(self, engine, parser): + df = DataFrame( + { + "a": np.random.default_rng(2).standard_normal(10), + "b": np.random.default_rng(2).standard_normal(10), + } + ) + df.eval("e = sin(a + b)", engine=engine, parser=parser, inplace=True) + got = df.e + expect = np.sin(df.a + df.b) + tm.assert_series_equal(got, expect, check_names=False) + + @pytest.mark.parametrize( + "dtype, expect_dtype", + [ + (np.int32, np.float64), + (np.int64, np.float64), + (np.float32, np.float32), + (np.float64, np.float64), + pytest.param(np.complex128, np.complex128, marks=td.skip_if_windows), + ], + ) + def test_result_types(self, dtype, expect_dtype, engine, parser): + # xref https://github.com/pandas-dev/pandas/issues/12293 + # this fails on Windows, apparently a floating point precision issue + + # Did not test complex64 because DataFrame is converting it to + # complex128. Due to https://github.com/pandas-dev/pandas/issues/10952 + df = DataFrame( + {"a": np.random.default_rng(2).standard_normal(10).astype(dtype)} + ) + assert df.a.dtype == dtype + df.eval("b = sin(a)", engine=engine, parser=parser, inplace=True) + got = df.b + expect = np.sin(df.a) + assert expect.dtype == got.dtype + assert expect_dtype == got.dtype + tm.assert_series_equal(got, expect, check_names=False) + + def test_undefined_func(self, engine, parser): + df = DataFrame({"a": np.random.default_rng(2).standard_normal(10)}) + msg = '"mysin" is not a supported function' + + with pytest.raises(ValueError, match=msg): + df.eval("mysin(a)", engine=engine, parser=parser) + + def test_keyword_arg(self, engine, parser): + df = DataFrame({"a": np.random.default_rng(2).standard_normal(10)}) + msg = 'Function "sin" does not support keyword arguments' + + with pytest.raises(TypeError, match=msg): + df.eval("sin(x=a)", engine=engine, parser=parser) + + +_var_s = np.random.default_rng(2).standard_normal(10) + + +class TestScope: + def test_global_scope(self, engine, parser): + e = "_var_s * 2" + tm.assert_numpy_array_equal( + _var_s * 2, pd.eval(e, engine=engine, parser=parser) + ) + + def test_no_new_locals(self, engine, parser): + x = 1 + lcls = locals().copy() + pd.eval("x + 1", local_dict=lcls, engine=engine, parser=parser) + lcls2 = locals().copy() + lcls2.pop("lcls") + assert lcls == lcls2 + + def test_no_new_globals(self, engine, parser): + x = 1 # noqa: F841 + gbls = globals().copy() + pd.eval("x + 1", engine=engine, parser=parser) + gbls2 = globals().copy() + assert gbls == gbls2 + + def test_empty_locals(self, engine, parser): + # GH 47084 + x = 1 # noqa: F841 + msg = "name 'x' is not defined" + with pytest.raises(UndefinedVariableError, match=msg): + pd.eval("x + 1", engine=engine, parser=parser, local_dict={}) + + def test_empty_globals(self, engine, parser): + # GH 47084 + msg = "name '_var_s' is not defined" + e = "_var_s * 2" + with pytest.raises(UndefinedVariableError, match=msg): + pd.eval(e, engine=engine, parser=parser, global_dict={}) + + +@td.skip_if_no("numexpr") +def test_invalid_engine(): + msg = "Invalid engine 'asdf' passed" + with pytest.raises(KeyError, match=msg): + pd.eval("x + y", local_dict={"x": 1, "y": 2}, engine="asdf") + + +@td.skip_if_no("numexpr") +@pytest.mark.parametrize( + ("use_numexpr", "expected"), + ( + (True, "numexpr"), + (False, "python"), + ), +) +def test_numexpr_option_respected(use_numexpr, expected): + # GH 32556 + from pandas.core.computation.eval import _check_engine + + with pd.option_context("compute.use_numexpr", use_numexpr): + result = _check_engine(None) + assert result == expected + + +@td.skip_if_no("numexpr") +def test_numexpr_option_incompatible_op(): + # GH 32556 + with pd.option_context("compute.use_numexpr", False): + df = DataFrame( + {"A": [True, False, True, False, None, None], "B": [1, 2, 3, 4, 5, 6]} + ) + result = df.query("A.isnull()") + expected = DataFrame({"A": [None, None], "B": [5, 6]}, index=[4, 5]) + tm.assert_frame_equal(result, expected) + + +@td.skip_if_no("numexpr") +def test_invalid_parser(): + msg = "Invalid parser 'asdf' passed" + with pytest.raises(KeyError, match=msg): + pd.eval("x + y", local_dict={"x": 1, "y": 2}, parser="asdf") + + +_parsers: dict[str, type[BaseExprVisitor]] = { + "python": PythonExprVisitor, + "pytables": pytables.PyTablesExprVisitor, + "pandas": PandasExprVisitor, +} + + +@pytest.mark.parametrize("engine", ENGINES) +@pytest.mark.parametrize("parser", _parsers) +def test_disallowed_nodes(engine, parser): + VisitorClass = _parsers[parser] + inst = VisitorClass("x + 1", engine, parser) + + for ops in VisitorClass.unsupported_nodes: + msg = "nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + getattr(inst, ops)() + + +def test_syntax_error_exprs(engine, parser): + e = "s +" + with pytest.raises(SyntaxError, match="invalid syntax"): + pd.eval(e, engine=engine, parser=parser) + + +def test_name_error_exprs(engine, parser): + e = "s + t" + msg = "name 's' is not defined" + with pytest.raises(NameError, match=msg): + pd.eval(e, engine=engine, parser=parser) + + +@pytest.mark.parametrize("express", ["a + @b", "@a + b", "@a + @b"]) +def test_invalid_local_variable_reference(engine, parser, express): + a, b = 1, 2 # noqa: F841 + + if parser != "pandas": + with pytest.raises(SyntaxError, match="The '@' prefix is only"): + pd.eval(express, engine=engine, parser=parser) + else: + with pytest.raises(SyntaxError, match="The '@' prefix is not"): + pd.eval(express, engine=engine, parser=parser) + + +def test_numexpr_builtin_raises(engine, parser): + sin, dotted_line = 1, 2 + if engine == "numexpr": + msg = "Variables in expression .+" + with pytest.raises(NumExprClobberingError, match=msg): + pd.eval("sin + dotted_line", engine=engine, parser=parser) + else: + res = pd.eval("sin + dotted_line", engine=engine, parser=parser) + assert res == sin + dotted_line + + +def test_bad_resolver_raises(engine, parser): + cannot_resolve = 42, 3.0 + with pytest.raises(TypeError, match="Resolver of type .+"): + pd.eval("1 + 2", resolvers=cannot_resolve, engine=engine, parser=parser) + + +def test_empty_string_raises(engine, parser): + # GH 13139 + with pytest.raises(ValueError, match="expr cannot be an empty string"): + pd.eval("", engine=engine, parser=parser) + + +def test_more_than_one_expression_raises(engine, parser): + with pytest.raises(SyntaxError, match="only a single expression is allowed"): + pd.eval("1 + 1; 2 + 2", engine=engine, parser=parser) + + +@pytest.mark.parametrize("cmp", ("and", "or")) +@pytest.mark.parametrize("lhs", (int, float)) +@pytest.mark.parametrize("rhs", (int, float)) +def test_bool_ops_fails_on_scalars(lhs, cmp, rhs, engine, parser): + gen = { + int: lambda: np.random.default_rng(2).integers(10), + float: np.random.default_rng(2).standard_normal, + } + + mid = gen[lhs]() # noqa: F841 + lhs = gen[lhs]() + rhs = gen[rhs]() + + ex1 = f"lhs {cmp} mid {cmp} rhs" + ex2 = f"lhs {cmp} mid and mid {cmp} rhs" + ex3 = f"(lhs {cmp} mid) & (mid {cmp} rhs)" + for ex in (ex1, ex2, ex3): + msg = "cannot evaluate scalar only bool ops|'BoolOp' nodes are not" + with pytest.raises(NotImplementedError, match=msg): + pd.eval(ex, engine=engine, parser=parser) + + +@pytest.mark.parametrize( + "other", + [ + "'x'", + "...", + ], +) +def test_equals_various(other): + df = DataFrame({"A": ["a", "b", "c"]}, dtype=object) + result = df.eval(f"A == {other}") + expected = Series([False, False, False], name="A") + if USE_NUMEXPR: + # https://github.com/pandas-dev/pandas/issues/10239 + # lose name with numexpr engine. Remove when that's fixed. + expected.name = None + tm.assert_series_equal(result, expected) + + +def test_inf(engine, parser): + s = "inf + 1" + expected = np.inf + result = pd.eval(s, engine=engine, parser=parser) + assert result == expected + + +@pytest.mark.parametrize("column", ["Temp(°C)", "Capacitance(μF)"]) +def test_query_token(engine, column): + # See: https://github.com/pandas-dev/pandas/pull/42826 + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=[column, "b"] + ) + expected = df[df[column] > 5] + query_string = f"`{column}` > 5" + result = df.query(query_string, engine=engine) + tm.assert_frame_equal(result, expected) + + +def test_negate_lt_eq_le(engine, parser): + df = DataFrame([[0, 10], [1, 20]], columns=["cat", "count"]) + expected = df[~(df.cat > 0)] + + result = df.query("~(cat > 0)", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + if parser == "python": + msg = "'Not' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + df.query("not (cat > 0)", engine=engine, parser=parser) + else: + result = df.query("not (cat > 0)", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "column", + DEFAULT_GLOBALS.keys(), +) +def test_eval_no_support_column_name(request, column): + # GH 44603 + if column in ["True", "False", "inf", "Inf"]: + request.applymarker( + pytest.mark.xfail( + raises=KeyError, + reason=f"GH 47859 DataFrame eval not supported with {column}", + ) + ) + + df = DataFrame( + np.random.default_rng(2).integers(0, 100, size=(10, 2)), + columns=[column, "col1"], + ) + expected = df[df[column] > 6] + result = df.query(f"{column}>6") + + tm.assert_frame_equal(result, expected) + + +def test_set_inplace(using_copy_on_write, warn_copy_on_write): + # https://github.com/pandas-dev/pandas/issues/47449 + # Ensure we don't only update the DataFrame inplace, but also the actual + # column values, such that references to this column also get updated + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result_view = df[:] + ser = df["A"] + with tm.assert_cow_warning(warn_copy_on_write): + df.eval("A = B + C", inplace=True) + expected = DataFrame({"A": [11, 13, 15], "B": [4, 5, 6], "C": [7, 8, 9]}) + tm.assert_frame_equal(df, expected) + if not using_copy_on_write: + tm.assert_series_equal(ser, expected["A"]) + tm.assert_series_equal(result_view["A"], expected["A"]) + else: + expected = Series([1, 2, 3], name="A") + tm.assert_series_equal(ser, expected) + tm.assert_series_equal(result_view["A"], expected) + + +class TestValidate: + @pytest.mark.parametrize("value", [1, "True", [1, 2, 3], 5.0]) + def test_validate_bool_args(self, value): + msg = 'For argument "inplace" expected type bool, received type' + with pytest.raises(ValueError, match=msg): + pd.eval("2+2", inplace=value) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_config.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_config.py new file mode 100644 index 0000000000000000000000000000000000000000..f49ae942423992f6dbb209e8f931f091e900ba12 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_config.py @@ -0,0 +1,437 @@ +import pytest + +from pandas._config import config as cf +from pandas._config.config import OptionError + +import pandas as pd +import pandas._testing as tm + + +class TestConfig: + @pytest.fixture(autouse=True) + def clean_config(self, monkeypatch): + with monkeypatch.context() as m: + m.setattr(cf, "_global_config", {}) + m.setattr(cf, "options", cf.DictWrapper(cf._global_config)) + m.setattr(cf, "_deprecated_options", {}) + m.setattr(cf, "_registered_options", {}) + + # Our test fixture in conftest.py sets "chained_assignment" + # to "raise" only after all test methods have been setup. + # However, after this setup, there is no longer any + # "chained_assignment" option, so re-register it. + cf.register_option("chained_assignment", "raise") + yield + + def test_api(self): + # the pandas object exposes the user API + assert hasattr(pd, "get_option") + assert hasattr(pd, "set_option") + assert hasattr(pd, "reset_option") + assert hasattr(pd, "describe_option") + + def test_is_one_of_factory(self): + v = cf.is_one_of_factory([None, 12]) + + v(12) + v(None) + msg = r"Value must be one of None\|12" + with pytest.raises(ValueError, match=msg): + v(1.1) + + def test_register_option(self): + cf.register_option("a", 1, "doc") + + # can't register an already registered option + msg = "Option 'a' has already been registered" + with pytest.raises(OptionError, match=msg): + cf.register_option("a", 1, "doc") + + # can't register an already registered option + msg = "Path prefix to option 'a' is already an option" + with pytest.raises(OptionError, match=msg): + cf.register_option("a.b.c.d1", 1, "doc") + with pytest.raises(OptionError, match=msg): + cf.register_option("a.b.c.d2", 1, "doc") + + # no python keywords + msg = "for is a python keyword" + with pytest.raises(ValueError, match=msg): + cf.register_option("for", 0) + with pytest.raises(ValueError, match=msg): + cf.register_option("a.for.b", 0) + # must be valid identifier (ensure attribute access works) + msg = "oh my goddess! is not a valid identifier" + with pytest.raises(ValueError, match=msg): + cf.register_option("Oh my Goddess!", 0) + + # we can register options several levels deep + # without predefining the intermediate steps + # and we can define differently named options + # in the same namespace + cf.register_option("k.b.c.d1", 1, "doc") + cf.register_option("k.b.c.d2", 1, "doc") + + def test_describe_option(self): + cf.register_option("a", 1, "doc") + cf.register_option("b", 1, "doc2") + cf.deprecate_option("b") + + cf.register_option("c.d.e1", 1, "doc3") + cf.register_option("c.d.e2", 1, "doc4") + cf.register_option("f", 1) + cf.register_option("g.h", 1) + cf.register_option("k", 2) + cf.deprecate_option("g.h", rkey="k") + cf.register_option("l", "foo") + + # non-existent keys raise KeyError + msg = r"No such keys\(s\)" + with pytest.raises(OptionError, match=msg): + cf.describe_option("no.such.key") + + # we can get the description for any key we registered + assert "doc" in cf.describe_option("a", _print_desc=False) + assert "doc2" in cf.describe_option("b", _print_desc=False) + assert "precated" in cf.describe_option("b", _print_desc=False) + assert "doc3" in cf.describe_option("c.d.e1", _print_desc=False) + assert "doc4" in cf.describe_option("c.d.e2", _print_desc=False) + + # if no doc is specified we get a default message + # saying "description not available" + assert "available" in cf.describe_option("f", _print_desc=False) + assert "available" in cf.describe_option("g.h", _print_desc=False) + assert "precated" in cf.describe_option("g.h", _print_desc=False) + assert "k" in cf.describe_option("g.h", _print_desc=False) + + # default is reported + assert "foo" in cf.describe_option("l", _print_desc=False) + # current value is reported + assert "bar" not in cf.describe_option("l", _print_desc=False) + cf.set_option("l", "bar") + assert "bar" in cf.describe_option("l", _print_desc=False) + + def test_case_insensitive(self): + cf.register_option("KanBAN", 1, "doc") + + assert "doc" in cf.describe_option("kanbaN", _print_desc=False) + assert cf.get_option("kanBaN") == 1 + cf.set_option("KanBan", 2) + assert cf.get_option("kAnBaN") == 2 + + # gets of non-existent keys fail + msg = r"No such keys\(s\): 'no_such_option'" + with pytest.raises(OptionError, match=msg): + cf.get_option("no_such_option") + cf.deprecate_option("KanBan") + + assert cf._is_deprecated("kAnBaN") + + def test_get_option(self): + cf.register_option("a", 1, "doc") + cf.register_option("b.c", "hullo", "doc2") + cf.register_option("b.b", None, "doc2") + + # gets of existing keys succeed + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + assert cf.get_option("b.b") is None + + # gets of non-existent keys fail + msg = r"No such keys\(s\): 'no_such_option'" + with pytest.raises(OptionError, match=msg): + cf.get_option("no_such_option") + + def test_set_option(self): + cf.register_option("a", 1, "doc") + cf.register_option("b.c", "hullo", "doc2") + cf.register_option("b.b", None, "doc2") + + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + assert cf.get_option("b.b") is None + + cf.set_option("a", 2) + cf.set_option("b.c", "wurld") + cf.set_option("b.b", 1.1) + + assert cf.get_option("a") == 2 + assert cf.get_option("b.c") == "wurld" + assert cf.get_option("b.b") == 1.1 + + msg = r"No such keys\(s\): 'no.such.key'" + with pytest.raises(OptionError, match=msg): + cf.set_option("no.such.key", None) + + def test_set_option_empty_args(self): + msg = "Must provide an even number of non-keyword arguments" + with pytest.raises(ValueError, match=msg): + cf.set_option() + + def test_set_option_uneven_args(self): + msg = "Must provide an even number of non-keyword arguments" + with pytest.raises(ValueError, match=msg): + cf.set_option("a.b", 2, "b.c") + + def test_set_option_invalid_single_argument_type(self): + msg = "Must provide an even number of non-keyword arguments" + with pytest.raises(ValueError, match=msg): + cf.set_option(2) + + def test_set_option_multiple(self): + cf.register_option("a", 1, "doc") + cf.register_option("b.c", "hullo", "doc2") + cf.register_option("b.b", None, "doc2") + + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + assert cf.get_option("b.b") is None + + cf.set_option("a", "2", "b.c", None, "b.b", 10.0) + + assert cf.get_option("a") == "2" + assert cf.get_option("b.c") is None + assert cf.get_option("b.b") == 10.0 + + def test_validation(self): + cf.register_option("a", 1, "doc", validator=cf.is_int) + cf.register_option("d", 1, "doc", validator=cf.is_nonnegative_int) + cf.register_option("b.c", "hullo", "doc2", validator=cf.is_text) + + msg = "Value must have type ''" + with pytest.raises(ValueError, match=msg): + cf.register_option("a.b.c.d2", "NO", "doc", validator=cf.is_int) + + cf.set_option("a", 2) # int is_int + cf.set_option("b.c", "wurld") # str is_str + cf.set_option("d", 2) + cf.set_option("d", None) # non-negative int can be None + + # None not is_int + with pytest.raises(ValueError, match=msg): + cf.set_option("a", None) + with pytest.raises(ValueError, match=msg): + cf.set_option("a", "ab") + + msg = "Value must be a nonnegative integer or None" + with pytest.raises(ValueError, match=msg): + cf.register_option("a.b.c.d3", "NO", "doc", validator=cf.is_nonnegative_int) + with pytest.raises(ValueError, match=msg): + cf.register_option("a.b.c.d3", -2, "doc", validator=cf.is_nonnegative_int) + + msg = r"Value must be an instance of \|" + with pytest.raises(ValueError, match=msg): + cf.set_option("b.c", 1) + + validator = cf.is_one_of_factory([None, cf.is_callable]) + cf.register_option("b", lambda: None, "doc", validator=validator) + # pylint: disable-next=consider-using-f-string + cf.set_option("b", "%.1f".format) # Formatter is callable + cf.set_option("b", None) # Formatter is none (default) + with pytest.raises(ValueError, match="Value must be a callable"): + cf.set_option("b", "%.1f") + + def test_reset_option(self): + cf.register_option("a", 1, "doc", validator=cf.is_int) + cf.register_option("b.c", "hullo", "doc2", validator=cf.is_str) + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + + cf.set_option("a", 2) + cf.set_option("b.c", "wurld") + assert cf.get_option("a") == 2 + assert cf.get_option("b.c") == "wurld" + + cf.reset_option("a") + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "wurld" + cf.reset_option("b.c") + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + + def test_reset_option_all(self): + cf.register_option("a", 1, "doc", validator=cf.is_int) + cf.register_option("b.c", "hullo", "doc2", validator=cf.is_str) + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + + cf.set_option("a", 2) + cf.set_option("b.c", "wurld") + assert cf.get_option("a") == 2 + assert cf.get_option("b.c") == "wurld" + + cf.reset_option("all") + assert cf.get_option("a") == 1 + assert cf.get_option("b.c") == "hullo" + + def test_deprecate_option(self): + # we can deprecate non-existent options + cf.deprecate_option("foo") + + assert cf._is_deprecated("foo") + with tm.assert_produces_warning(FutureWarning, match="deprecated"): + with pytest.raises(KeyError, match="No such keys.s.: 'foo'"): + cf.get_option("foo") + + cf.register_option("a", 1, "doc", validator=cf.is_int) + cf.register_option("b.c", "hullo", "doc2") + cf.register_option("foo", "hullo", "doc2") + + cf.deprecate_option("a", removal_ver="nifty_ver") + with tm.assert_produces_warning(FutureWarning, match="eprecated.*nifty_ver"): + cf.get_option("a") + + msg = "Option 'a' has already been defined as deprecated" + with pytest.raises(OptionError, match=msg): + cf.deprecate_option("a") + + cf.deprecate_option("b.c", "zounds!") + with tm.assert_produces_warning(FutureWarning, match="zounds!"): + cf.get_option("b.c") + + # test rerouting keys + cf.register_option("d.a", "foo", "doc2") + cf.register_option("d.dep", "bar", "doc2") + assert cf.get_option("d.a") == "foo" + assert cf.get_option("d.dep") == "bar" + + cf.deprecate_option("d.dep", rkey="d.a") # reroute d.dep to d.a + with tm.assert_produces_warning(FutureWarning, match="eprecated"): + assert cf.get_option("d.dep") == "foo" + + with tm.assert_produces_warning(FutureWarning, match="eprecated"): + cf.set_option("d.dep", "baz") # should overwrite "d.a" + + with tm.assert_produces_warning(FutureWarning, match="eprecated"): + assert cf.get_option("d.dep") == "baz" + + def test_config_prefix(self): + with cf.config_prefix("base"): + cf.register_option("a", 1, "doc1") + cf.register_option("b", 2, "doc2") + assert cf.get_option("a") == 1 + assert cf.get_option("b") == 2 + + cf.set_option("a", 3) + cf.set_option("b", 4) + assert cf.get_option("a") == 3 + assert cf.get_option("b") == 4 + + assert cf.get_option("base.a") == 3 + assert cf.get_option("base.b") == 4 + assert "doc1" in cf.describe_option("base.a", _print_desc=False) + assert "doc2" in cf.describe_option("base.b", _print_desc=False) + + cf.reset_option("base.a") + cf.reset_option("base.b") + + with cf.config_prefix("base"): + assert cf.get_option("a") == 1 + assert cf.get_option("b") == 2 + + def test_callback(self): + k = [None] + v = [None] + + def callback(key): + k.append(key) + v.append(cf.get_option(key)) + + cf.register_option("d.a", "foo", cb=callback) + cf.register_option("d.b", "foo", cb=callback) + + del k[-1], v[-1] + cf.set_option("d.a", "fooz") + assert k[-1] == "d.a" + assert v[-1] == "fooz" + + del k[-1], v[-1] + cf.set_option("d.b", "boo") + assert k[-1] == "d.b" + assert v[-1] == "boo" + + del k[-1], v[-1] + cf.reset_option("d.b") + assert k[-1] == "d.b" + + def test_set_ContextManager(self): + def eq(val): + assert cf.get_option("a") == val + + cf.register_option("a", 0) + eq(0) + with cf.option_context("a", 15): + eq(15) + with cf.option_context("a", 25): + eq(25) + eq(15) + eq(0) + + cf.set_option("a", 17) + eq(17) + + # Test that option_context can be used as a decorator too (#34253). + @cf.option_context("a", 123) + def f(): + eq(123) + + f() + + def test_attribute_access(self): + holder = [] + + def f3(key): + holder.append(True) + + cf.register_option("a", 0) + cf.register_option("c", 0, cb=f3) + options = cf.options + + assert options.a == 0 + with cf.option_context("a", 15): + assert options.a == 15 + + options.a = 500 + assert cf.get_option("a") == 500 + + cf.reset_option("a") + assert options.a == cf.get_option("a", 0) + + msg = "You can only set the value of existing options" + with pytest.raises(OptionError, match=msg): + options.b = 1 + with pytest.raises(OptionError, match=msg): + options.display = 1 + + # make sure callback kicks when using this form of setting + options.c = 1 + assert len(holder) == 1 + + def test_option_context_scope(self): + # Ensure that creating a context does not affect the existing + # environment as it is supposed to be used with the `with` statement. + # See https://github.com/pandas-dev/pandas/issues/8514 + + original_value = 60 + context_value = 10 + option_name = "a" + + cf.register_option(option_name, original_value) + + # Ensure creating contexts didn't affect the current context. + ctx = cf.option_context(option_name, context_value) + assert cf.get_option(option_name) == original_value + + # Ensure the correct value is available inside the context. + with ctx: + assert cf.get_option(option_name) == context_value + + # Ensure the current context is reset + assert cf.get_option(option_name) == original_value + + def test_dictwrapper_getattr(self): + options = cf.options + # GH 19789 + with pytest.raises(OptionError, match="No such option"): + options.bananas + assert not hasattr(options, "bananas") diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_localization.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_localization.py new file mode 100644 index 0000000000000000000000000000000000000000..3907f557d1075536e46d12f219dc9b0c3f3f32c1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/config/test_localization.py @@ -0,0 +1,156 @@ +import codecs +import locale +import os + +import pytest + +from pandas._config.localization import ( + can_set_locale, + get_locales, + set_locale, +) + +from pandas.compat import ISMUSL + +import pandas as pd + +_all_locales = get_locales() +_current_locale = locale.setlocale(locale.LC_ALL) # getlocale() is wrong, see GH#46595 + +# Don't run any of these tests if we have no locales. +pytestmark = pytest.mark.skipif(not _all_locales, reason="Need locales") + +_skip_if_only_one_locale = pytest.mark.skipif( + len(_all_locales) <= 1, reason="Need multiple locales for meaningful test" +) + + +def _get_current_locale(lc_var: int = locale.LC_ALL) -> str: + # getlocale is not always compliant with setlocale, use setlocale. GH#46595 + return locale.setlocale(lc_var) + + +@pytest.mark.parametrize("lc_var", (locale.LC_ALL, locale.LC_CTYPE, locale.LC_TIME)) +def test_can_set_current_locale(lc_var): + # Can set the current locale + before_locale = _get_current_locale(lc_var) + assert can_set_locale(before_locale, lc_var=lc_var) + after_locale = _get_current_locale(lc_var) + assert before_locale == after_locale + + +@pytest.mark.parametrize("lc_var", (locale.LC_ALL, locale.LC_CTYPE, locale.LC_TIME)) +def test_can_set_locale_valid_set(lc_var): + # Can set the default locale. + before_locale = _get_current_locale(lc_var) + assert can_set_locale("", lc_var=lc_var) + after_locale = _get_current_locale(lc_var) + assert before_locale == after_locale + + +@pytest.mark.parametrize( + "lc_var", + ( + locale.LC_ALL, + locale.LC_CTYPE, + pytest.param( + locale.LC_TIME, + marks=pytest.mark.skipif( + ISMUSL, reason="MUSL allows setting invalid LC_TIME." + ), + ), + ), +) +def test_can_set_locale_invalid_set(lc_var): + # Cannot set an invalid locale. + before_locale = _get_current_locale(lc_var) + assert not can_set_locale("non-existent_locale", lc_var=lc_var) + after_locale = _get_current_locale(lc_var) + assert before_locale == after_locale + + +@pytest.mark.parametrize( + "lang,enc", + [ + ("it_CH", "UTF-8"), + ("en_US", "ascii"), + ("zh_CN", "GB2312"), + ("it_IT", "ISO-8859-1"), + ], +) +@pytest.mark.parametrize("lc_var", (locale.LC_ALL, locale.LC_CTYPE, locale.LC_TIME)) +def test_can_set_locale_no_leak(lang, enc, lc_var): + # Test that can_set_locale does not leak even when returning False. See GH#46595 + before_locale = _get_current_locale(lc_var) + can_set_locale((lang, enc), locale.LC_ALL) + after_locale = _get_current_locale(lc_var) + assert before_locale == after_locale + + +def test_can_set_locale_invalid_get(monkeypatch): + # see GH#22129 + # In some cases, an invalid locale can be set, + # but a subsequent getlocale() raises a ValueError. + + def mock_get_locale(): + raise ValueError() + + with monkeypatch.context() as m: + m.setattr(locale, "getlocale", mock_get_locale) + assert not can_set_locale("") + + +def test_get_locales_at_least_one(): + # see GH#9744 + assert len(_all_locales) > 0 + + +@_skip_if_only_one_locale +def test_get_locales_prefix(): + first_locale = _all_locales[0] + assert len(get_locales(prefix=first_locale[:2])) > 0 + + +@_skip_if_only_one_locale +@pytest.mark.parametrize( + "lang,enc", + [ + ("it_CH", "UTF-8"), + ("en_US", "ascii"), + ("zh_CN", "GB2312"), + ("it_IT", "ISO-8859-1"), + ], +) +def test_set_locale(lang, enc): + before_locale = _get_current_locale() + + enc = codecs.lookup(enc).name + new_locale = lang, enc + + if not can_set_locale(new_locale): + msg = "unsupported locale setting" + + with pytest.raises(locale.Error, match=msg): + with set_locale(new_locale): + pass + else: + with set_locale(new_locale) as normalized_locale: + new_lang, new_enc = normalized_locale.split(".") + new_enc = codecs.lookup(enc).name + + normalized_locale = new_lang, new_enc + assert normalized_locale == new_locale + + # Once we exit the "with" statement, locale should be back to what it was. + after_locale = _get_current_locale() + assert before_locale == after_locale + + +def test_encoding_detected(): + system_locale = os.environ.get("LC_ALL") + system_encoding = system_locale.split(".")[-1] if system_locale else "utf-8" + + assert ( + codecs.lookup(pd.options.display.encoding).name + == codecs.lookup(system_encoding).name + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/construction/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/construction/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/construction/test_extract_array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/construction/test_extract_array.py new file mode 100644 index 0000000000000000000000000000000000000000..4dd3eda8c995ce022e9d46b907323e79bcd679f8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/construction/test_extract_array.py @@ -0,0 +1,18 @@ +from pandas import Index +import pandas._testing as tm +from pandas.core.construction import extract_array + + +def test_extract_array_rangeindex(): + ri = Index(range(5)) + + expected = ri._values + res = extract_array(ri, extract_numpy=True, extract_range=True) + tm.assert_numpy_array_equal(res, expected) + res = extract_array(ri, extract_numpy=False, extract_range=True) + tm.assert_numpy_array_equal(res, expected) + + res = extract_array(ri, extract_numpy=True, extract_range=False) + tm.assert_index_equal(res, ri) + res = extract_array(ri, extract_numpy=False, extract_range=False) + tm.assert_index_equal(res, ri) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_can_hold_element.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_can_hold_element.py new file mode 100644 index 0000000000000000000000000000000000000000..3b7d76ead119a1bad784ca3fda3303c7a9e23244 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_can_hold_element.py @@ -0,0 +1,79 @@ +import numpy as np + +from pandas.core.dtypes.cast import can_hold_element + + +def test_can_hold_element_range(any_int_numpy_dtype): + # GH#44261 + dtype = np.dtype(any_int_numpy_dtype) + arr = np.array([], dtype=dtype) + + rng = range(2, 127) + assert can_hold_element(arr, rng) + + # negatives -> can't be held by uint dtypes + rng = range(-2, 127) + if dtype.kind == "i": + assert can_hold_element(arr, rng) + else: + assert not can_hold_element(arr, rng) + + rng = range(2, 255) + if dtype == "int8": + assert not can_hold_element(arr, rng) + else: + assert can_hold_element(arr, rng) + + rng = range(-255, 65537) + if dtype.kind == "u": + assert not can_hold_element(arr, rng) + elif dtype.itemsize < 4: + assert not can_hold_element(arr, rng) + else: + assert can_hold_element(arr, rng) + + # empty + rng = range(-(10**10), -(10**10)) + assert len(rng) == 0 + # assert can_hold_element(arr, rng) + + rng = range(10**10, 10**10) + assert len(rng) == 0 + assert can_hold_element(arr, rng) + + +def test_can_hold_element_int_values_float_ndarray(): + arr = np.array([], dtype=np.int64) + + element = np.array([1.0, 2.0]) + assert can_hold_element(arr, element) + + assert not can_hold_element(arr, element + 0.5) + + # integer but not losslessly castable to int64 + element = np.array([3, 2**65], dtype=np.float64) + assert not can_hold_element(arr, element) + + +def test_can_hold_element_int8_int(): + arr = np.array([], dtype=np.int8) + + element = 2 + assert can_hold_element(arr, element) + assert can_hold_element(arr, np.int8(element)) + assert can_hold_element(arr, np.uint8(element)) + assert can_hold_element(arr, np.int16(element)) + assert can_hold_element(arr, np.uint16(element)) + assert can_hold_element(arr, np.int32(element)) + assert can_hold_element(arr, np.uint32(element)) + assert can_hold_element(arr, np.int64(element)) + assert can_hold_element(arr, np.uint64(element)) + + element = 2**9 + assert not can_hold_element(arr, element) + assert not can_hold_element(arr, np.int16(element)) + assert not can_hold_element(arr, np.uint16(element)) + assert not can_hold_element(arr, np.int32(element)) + assert not can_hold_element(arr, np.uint32(element)) + assert not can_hold_element(arr, np.int64(element)) + assert not can_hold_element(arr, np.uint64(element)) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_from_scalar.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_from_scalar.py new file mode 100644 index 0000000000000000000000000000000000000000..0ce04ce2e64cda1d3fc7c48390baa91ee2b06525 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_from_scalar.py @@ -0,0 +1,55 @@ +import numpy as np +import pytest + +from pandas.core.dtypes.cast import construct_1d_arraylike_from_scalar +from pandas.core.dtypes.dtypes import CategoricalDtype + +from pandas import ( + Categorical, + Timedelta, +) +import pandas._testing as tm + + +def test_cast_1d_array_like_from_scalar_categorical(): + # see gh-19565 + # + # Categorical result from scalar did not maintain + # categories and ordering of the passed dtype. + cats = ["a", "b", "c"] + cat_type = CategoricalDtype(categories=cats, ordered=False) + expected = Categorical(["a", "a"], categories=cats) + + result = construct_1d_arraylike_from_scalar("a", len(expected), cat_type) + tm.assert_categorical_equal(result, expected) + + +def test_cast_1d_array_like_from_timestamp(fixed_now_ts): + # check we dont lose nanoseconds + ts = fixed_now_ts + Timedelta(1) + res = construct_1d_arraylike_from_scalar(ts, 2, np.dtype("M8[ns]")) + assert res[0] == ts + + +def test_cast_1d_array_like_from_timedelta(): + # check we dont lose nanoseconds + td = Timedelta(1) + res = construct_1d_arraylike_from_scalar(td, 2, np.dtype("m8[ns]")) + assert res[0] == td + + +def test_cast_1d_array_like_mismatched_datetimelike(): + td = np.timedelta64("NaT", "ns") + dt = np.datetime64("NaT", "ns") + + with pytest.raises(TypeError, match="Cannot cast"): + construct_1d_arraylike_from_scalar(td, 2, dt.dtype) + + with pytest.raises(TypeError, match="Cannot cast"): + construct_1d_arraylike_from_scalar(np.timedelta64(4, "ns"), 2, dt.dtype) + + with pytest.raises(TypeError, match="Cannot cast"): + construct_1d_arraylike_from_scalar(dt, 2, td.dtype) + + with pytest.raises(TypeError, match="Cannot cast"): + construct_1d_arraylike_from_scalar(np.datetime64(4, "ns"), 2, td.dtype) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_ndarray.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_ndarray.py new file mode 100644 index 0000000000000000000000000000000000000000..6b9b2dfda6e8b81a0f1f29d3ba97589b9d385600 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_ndarray.py @@ -0,0 +1,36 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.core.construction import sanitize_array + + +@pytest.mark.parametrize( + "values, dtype, expected", + [ + ([1, 2, 3], None, np.array([1, 2, 3], dtype=np.int64)), + (np.array([1, 2, 3]), None, np.array([1, 2, 3])), + (["1", "2", None], None, np.array(["1", "2", None])), + (["1", "2", None], np.dtype("str"), np.array(["1", "2", None])), + ([1, 2, None], np.dtype("str"), np.array(["1", "2", None])), + ], +) +def test_construct_1d_ndarray_preserving_na( + values, dtype, expected, using_infer_string +): + result = sanitize_array(values, index=None, dtype=dtype) + if using_infer_string and expected.dtype == object and dtype is None: + tm.assert_extension_array_equal(result, pd.array(expected, dtype="str")) + else: + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["m8[ns]", "M8[ns]"]) +def test_construct_1d_ndarray_preserving_na_datetimelike(dtype): + arr = np.arange(5, dtype=np.int64).view(dtype) + expected = np.array(list(arr), dtype=object) + assert all(isinstance(x, type(arr[0])) for x in expected) + + result = sanitize_array(arr, index=None, dtype=np.dtype(object)) + tm.assert_numpy_array_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_object_arr.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_object_arr.py new file mode 100644 index 0000000000000000000000000000000000000000..cb44f91f34dec80c090d3ce3fc9a2dbd4578bb57 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_construct_object_arr.py @@ -0,0 +1,20 @@ +import pytest + +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike + + +@pytest.mark.parametrize("datum1", [1, 2.0, "3", (4, 5), [6, 7], None]) +@pytest.mark.parametrize("datum2", [8, 9.0, "10", (11, 12), [13, 14], None]) +def test_cast_1d_array(datum1, datum2): + data = [datum1, datum2] + result = construct_1d_object_array_from_listlike(data) + + # Direct comparison fails: https://github.com/numpy/numpy/issues/10218 + assert result.dtype == "object" + assert list(result) == data + + +@pytest.mark.parametrize("val", [1, 2.0, None]) +def test_cast_1d_array_invalid_scalar(val): + with pytest.raises(TypeError, match="has no len()"): + construct_1d_object_array_from_listlike(val) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_dict_compat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_dict_compat.py new file mode 100644 index 0000000000000000000000000000000000000000..13dc82d779f953fbea54323785bdcadc3e24dfd8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_dict_compat.py @@ -0,0 +1,14 @@ +import numpy as np + +from pandas.core.dtypes.cast import dict_compat + +from pandas import Timestamp + + +def test_dict_compat(): + data_datetime64 = {np.datetime64("1990-03-15"): 1, np.datetime64("2015-03-15"): 2} + data_unchanged = {1: 2, 3: 4, 5: 6} + expected = {Timestamp("1990-3-15"): 1, Timestamp("2015-03-15"): 2} + assert dict_compat(data_datetime64) == expected + assert dict_compat(expected) == expected + assert dict_compat(data_unchanged) == data_unchanged diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_downcast.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_downcast.py new file mode 100644 index 0000000000000000000000000000000000000000..9430ba2c478ae40a4a21bcc6dc034783cdf9543c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_downcast.py @@ -0,0 +1,97 @@ +import decimal + +import numpy as np +import pytest + +from pandas.core.dtypes.cast import maybe_downcast_to_dtype + +from pandas import ( + Series, + Timedelta, +) +import pandas._testing as tm + + +@pytest.mark.parametrize( + "arr,dtype,expected", + [ + ( + np.array([8.5, 8.6, 8.7, 8.8, 8.9999999999995]), + "infer", + np.array([8.5, 8.6, 8.7, 8.8, 8.9999999999995]), + ), + ( + np.array([8.0, 8.0, 8.0, 8.0, 8.9999999999995]), + "infer", + np.array([8, 8, 8, 8, 9], dtype=np.int64), + ), + ( + np.array([8.0, 8.0, 8.0, 8.0, 9.0000000000005]), + "infer", + np.array([8, 8, 8, 8, 9], dtype=np.int64), + ), + ( + # This is a judgement call, but we do _not_ downcast Decimal + # objects + np.array([decimal.Decimal(0.0)]), + "int64", + np.array([decimal.Decimal(0.0)]), + ), + ( + # GH#45837 + np.array([Timedelta(days=1), Timedelta(days=2)], dtype=object), + "infer", + np.array([1, 2], dtype="m8[D]").astype("m8[ns]"), + ), + # TODO: similar for dt64, dt64tz, Period, Interval? + ], +) +def test_downcast(arr, expected, dtype): + result = maybe_downcast_to_dtype(arr, dtype) + tm.assert_numpy_array_equal(result, expected) + + +def test_downcast_booleans(): + # see gh-16875: coercing of booleans. + ser = Series([True, True, False]) + result = maybe_downcast_to_dtype(ser, np.dtype(np.float64)) + + expected = ser.values + tm.assert_numpy_array_equal(result, expected) + + +def test_downcast_conversion_no_nan(any_real_numpy_dtype): + dtype = any_real_numpy_dtype + expected = np.array([1, 2]) + arr = np.array([1.0, 2.0], dtype=dtype) + + result = maybe_downcast_to_dtype(arr, "infer") + tm.assert_almost_equal(result, expected, check_dtype=False) + + +def test_downcast_conversion_nan(float_numpy_dtype): + dtype = float_numpy_dtype + data = [1.0, 2.0, np.nan] + + expected = np.array(data, dtype=dtype) + arr = np.array(data, dtype=dtype) + + result = maybe_downcast_to_dtype(arr, "infer") + tm.assert_almost_equal(result, expected) + + +def test_downcast_conversion_empty(any_real_numpy_dtype): + dtype = any_real_numpy_dtype + arr = np.array([], dtype=dtype) + result = maybe_downcast_to_dtype(arr, np.dtype("int64")) + tm.assert_numpy_array_equal(result, np.array([], dtype=np.int64)) + + +@pytest.mark.parametrize("klass", [np.datetime64, np.timedelta64]) +def test_datetime_likes_nan(klass): + dtype = klass.__name__ + "[ns]" + arr = np.array([1, 2, np.nan]) + + exp = np.array([1, 2, klass("NaT")], dtype) + res = maybe_downcast_to_dtype(arr, dtype) + tm.assert_numpy_array_equal(res, exp) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_find_common_type.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_find_common_type.py new file mode 100644 index 0000000000000000000000000000000000000000..83ef7382fbe8a27ad96511a3675c51b9eadc2331 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_find_common_type.py @@ -0,0 +1,175 @@ +import numpy as np +import pytest + +from pandas.core.dtypes.cast import find_common_type +from pandas.core.dtypes.common import pandas_dtype +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + IntervalDtype, + PeriodDtype, +) + +from pandas import ( + Categorical, + Index, +) + + +@pytest.mark.parametrize( + "source_dtypes,expected_common_dtype", + [ + ((np.int64,), np.int64), + ((np.uint64,), np.uint64), + ((np.float32,), np.float32), + ((object,), object), + # Into ints. + ((np.int16, np.int64), np.int64), + ((np.int32, np.uint32), np.int64), + ((np.uint16, np.uint64), np.uint64), + # Into floats. + ((np.float16, np.float32), np.float32), + ((np.float16, np.int16), np.float32), + ((np.float32, np.int16), np.float32), + ((np.uint64, np.int64), np.float64), + ((np.int16, np.float64), np.float64), + ((np.float16, np.int64), np.float64), + # Into others. + ((np.complex128, np.int32), np.complex128), + ((object, np.float32), object), + ((object, np.int16), object), + # Bool with int. + ((np.dtype("bool"), np.int64), object), + ((np.dtype("bool"), np.int32), object), + ((np.dtype("bool"), np.int16), object), + ((np.dtype("bool"), np.int8), object), + ((np.dtype("bool"), np.uint64), object), + ((np.dtype("bool"), np.uint32), object), + ((np.dtype("bool"), np.uint16), object), + ((np.dtype("bool"), np.uint8), object), + # Bool with float. + ((np.dtype("bool"), np.float64), object), + ((np.dtype("bool"), np.float32), object), + ( + (np.dtype("datetime64[ns]"), np.dtype("datetime64[ns]")), + np.dtype("datetime64[ns]"), + ), + ( + (np.dtype("timedelta64[ns]"), np.dtype("timedelta64[ns]")), + np.dtype("timedelta64[ns]"), + ), + ( + (np.dtype("datetime64[ns]"), np.dtype("datetime64[ms]")), + np.dtype("datetime64[ns]"), + ), + ( + (np.dtype("timedelta64[ms]"), np.dtype("timedelta64[ns]")), + np.dtype("timedelta64[ns]"), + ), + ((np.dtype("datetime64[ns]"), np.dtype("timedelta64[ns]")), object), + ((np.dtype("datetime64[ns]"), np.int64), object), + ], +) +def test_numpy_dtypes(source_dtypes, expected_common_dtype): + source_dtypes = [pandas_dtype(x) for x in source_dtypes] + assert find_common_type(source_dtypes) == expected_common_dtype + + +def test_raises_empty_input(): + with pytest.raises(ValueError, match="no types given"): + find_common_type([]) + + +@pytest.mark.parametrize( + "dtypes,exp_type", + [ + ([CategoricalDtype()], "category"), + ([object, CategoricalDtype()], object), + ([CategoricalDtype(), CategoricalDtype()], "category"), + ], +) +def test_categorical_dtype(dtypes, exp_type): + assert find_common_type(dtypes) == exp_type + + +def test_datetimetz_dtype_match(): + dtype = DatetimeTZDtype(unit="ns", tz="US/Eastern") + assert find_common_type([dtype, dtype]) == "datetime64[ns, US/Eastern]" + + +@pytest.mark.parametrize( + "dtype2", + [ + DatetimeTZDtype(unit="ns", tz="Asia/Tokyo"), + np.dtype("datetime64[ns]"), + object, + np.int64, + ], +) +def test_datetimetz_dtype_mismatch(dtype2): + dtype = DatetimeTZDtype(unit="ns", tz="US/Eastern") + assert find_common_type([dtype, dtype2]) == object + assert find_common_type([dtype2, dtype]) == object + + +def test_period_dtype_match(): + dtype = PeriodDtype(freq="D") + assert find_common_type([dtype, dtype]) == "period[D]" + + +@pytest.mark.parametrize( + "dtype2", + [ + DatetimeTZDtype(unit="ns", tz="Asia/Tokyo"), + PeriodDtype(freq="2D"), + PeriodDtype(freq="h"), + np.dtype("datetime64[ns]"), + object, + np.int64, + ], +) +def test_period_dtype_mismatch(dtype2): + dtype = PeriodDtype(freq="D") + assert find_common_type([dtype, dtype2]) == object + assert find_common_type([dtype2, dtype]) == object + + +interval_dtypes = [ + IntervalDtype(np.int64, "right"), + IntervalDtype(np.float64, "right"), + IntervalDtype(np.uint64, "right"), + IntervalDtype(DatetimeTZDtype(unit="ns", tz="US/Eastern"), "right"), + IntervalDtype("M8[ns]", "right"), + IntervalDtype("m8[ns]", "right"), +] + + +@pytest.mark.parametrize("left", interval_dtypes) +@pytest.mark.parametrize("right", interval_dtypes) +def test_interval_dtype(left, right): + result = find_common_type([left, right]) + + if left is right: + assert result is left + + elif left.subtype.kind in ["i", "u", "f"]: + # i.e. numeric + if right.subtype.kind in ["i", "u", "f"]: + # both numeric -> common numeric subtype + expected = IntervalDtype(np.float64, "right") + assert result == expected + else: + assert result == object + + else: + assert result == object + + +@pytest.mark.parametrize("dtype", interval_dtypes) +def test_interval_dtype_with_categorical(dtype): + obj = Index([], dtype=dtype) + + cat = Categorical([], categories=obj) + + result = find_common_type([dtype, cat.dtype]) + assert result == dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_infer_datetimelike.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_infer_datetimelike.py new file mode 100644 index 0000000000000000000000000000000000000000..3c3844e69586d2f49377e77910627ee42fef9bb2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_infer_datetimelike.py @@ -0,0 +1,28 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + NaT, + Series, + Timestamp, +) + + +@pytest.mark.parametrize( + "data,exp_size", + [ + # see gh-16362. + ([[NaT, "a", "b", 0], [NaT, "b", "c", 1]], 8), + ([[NaT, "a", 0], [NaT, "b", 1]], 6), + ], +) +def test_maybe_infer_to_datetimelike_df_construct(data, exp_size): + result = DataFrame(np.array(data)) + assert result.size == exp_size + + +def test_maybe_infer_to_datetimelike_ser_construct(): + # see gh-19671. + result = Series(["M1701", Timestamp("20130101")]) + assert result.dtype.kind == "O" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_maybe_box_native.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_maybe_box_native.py new file mode 100644 index 0000000000000000000000000000000000000000..3f62f31dac2191a15d7df8db028a9286262d0080 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/cast/test_maybe_box_native.py @@ -0,0 +1,40 @@ +from datetime import datetime + +import numpy as np +import pytest + +from pandas.core.dtypes.cast import maybe_box_native + +from pandas import ( + Interval, + Period, + Timedelta, + Timestamp, +) + + +@pytest.mark.parametrize( + "obj,expected_dtype", + [ + (b"\x00\x10", bytes), + (int(4), int), + (np.uint(4), int), + (np.int32(-4), int), + (np.uint8(4), int), + (float(454.98), float), + (np.float16(0.4), float), + (np.float64(1.4), float), + (np.bool_(False), bool), + (datetime(2005, 2, 25), datetime), + (np.datetime64("2005-02-25"), Timestamp), + (Timestamp("2005-02-25"), Timestamp), + (np.timedelta64(1, "D"), Timedelta), + (Timedelta(1, "D"), Timedelta), + (Interval(0, 1), Interval), + (Period("4Q2005"), Period), + ], +) +def test_maybe_box_native(obj, expected_dtype): + boxed_obj = maybe_box_native(obj) + result_dtype = type(boxed_obj) + assert result_dtype is expected_dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_common.py new file mode 100644 index 0000000000000000000000000000000000000000..579f5636922dc3fb4ed652e1fa374607ec57501a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_common.py @@ -0,0 +1,865 @@ +from __future__ import annotations + +import numpy as np +import pytest + +from pandas.compat import HAS_PYARROW +import pandas.util._test_decorators as td + +from pandas.core.dtypes.astype import astype_array +import pandas.core.dtypes.common as com +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + CategoricalDtypeType, + DatetimeTZDtype, + ExtensionDtype, + IntervalDtype, + PeriodDtype, +) +from pandas.core.dtypes.missing import isna + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import pandas_dtype +from pandas.arrays import SparseArray +from pandas.util.version import Version + + +# EA & Actual Dtypes +def to_ea_dtypes(dtypes): + """convert list of string dtypes to EA dtype""" + return [getattr(pd, dt + "Dtype") for dt in dtypes] + + +def to_numpy_dtypes(dtypes): + """convert list of string dtypes to numpy dtype""" + return [getattr(np, dt) for dt in dtypes if isinstance(dt, str)] + + +class TestNumpyEADtype: + # Passing invalid dtype, both as a string or object, must raise TypeError + # Per issue GH15520 + @pytest.mark.parametrize("box", [pd.Timestamp, "pd.Timestamp", list]) + def test_invalid_dtype_error(self, box): + with pytest.raises(TypeError, match="not understood"): + com.pandas_dtype(box) + + @pytest.mark.parametrize( + "dtype", + [ + object, + "float64", + np.object_, + np.dtype("object"), + "O", + np.float64, + float, + np.dtype("float64"), + "object_", + ], + ) + def test_pandas_dtype_valid(self, dtype): + assert com.pandas_dtype(dtype) == dtype + + @pytest.mark.parametrize( + "dtype", ["M8[ns]", "m8[ns]", "object", "float64", "int64"] + ) + def test_numpy_dtype(self, dtype): + assert com.pandas_dtype(dtype) == np.dtype(dtype) + + def test_numpy_string_dtype(self): + # do not parse freq-like string as period dtype + assert com.pandas_dtype("U") == np.dtype("U") + assert com.pandas_dtype("S") == np.dtype("S") + + @pytest.mark.parametrize( + "dtype", + [ + "datetime64[ns, US/Eastern]", + "datetime64[ns, Asia/Tokyo]", + "datetime64[ns, UTC]", + # GH#33885 check that the M8 alias is understood + "M8[ns, US/Eastern]", + "M8[ns, Asia/Tokyo]", + "M8[ns, UTC]", + ], + ) + def test_datetimetz_dtype(self, dtype): + assert com.pandas_dtype(dtype) == DatetimeTZDtype.construct_from_string(dtype) + assert com.pandas_dtype(dtype) == dtype + + def test_categorical_dtype(self): + assert com.pandas_dtype("category") == CategoricalDtype() + + @pytest.mark.parametrize( + "dtype", + [ + "period[D]", + "period[3M]", + "period[us]", + "Period[D]", + "Period[3M]", + "Period[us]", + ], + ) + def test_period_dtype(self, dtype): + assert com.pandas_dtype(dtype) is not PeriodDtype(dtype) + assert com.pandas_dtype(dtype) == PeriodDtype(dtype) + assert com.pandas_dtype(dtype) == dtype + + +dtypes = { + "datetime_tz": com.pandas_dtype("datetime64[ns, US/Eastern]"), + "datetime": com.pandas_dtype("datetime64[ns]"), + "timedelta": com.pandas_dtype("timedelta64[ns]"), + "period": PeriodDtype("D"), + "integer": np.dtype(np.int64), + "float": np.dtype(np.float64), + "object": np.dtype(object), + "category": com.pandas_dtype("category"), + "string": pd.StringDtype(), +} + + +@pytest.mark.parametrize("name1,dtype1", list(dtypes.items()), ids=lambda x: str(x)) +@pytest.mark.parametrize("name2,dtype2", list(dtypes.items()), ids=lambda x: str(x)) +def test_dtype_equal(name1, dtype1, name2, dtype2): + # match equal to self, but not equal to other + assert com.is_dtype_equal(dtype1, dtype1) + if name1 != name2: + assert not com.is_dtype_equal(dtype1, dtype2) + + +@pytest.mark.parametrize("name,dtype", list(dtypes.items()), ids=lambda x: str(x)) +def test_pyarrow_string_import_error(name, dtype): + # GH-44276 + assert not com.is_dtype_equal(dtype, "string[pyarrow]") + + +@pytest.mark.parametrize( + "dtype1,dtype2", + [ + (np.int8, np.int64), + (np.int16, np.int64), + (np.int32, np.int64), + (np.float32, np.float64), + (PeriodDtype("D"), PeriodDtype("2D")), # PeriodType + ( + com.pandas_dtype("datetime64[ns, US/Eastern]"), + com.pandas_dtype("datetime64[ns, CET]"), + ), # Datetime + (None, None), # gh-15941: no exception should be raised. + ], +) +def test_dtype_equal_strict(dtype1, dtype2): + assert not com.is_dtype_equal(dtype1, dtype2) + + +def get_is_dtype_funcs(): + """ + Get all functions in pandas.core.dtypes.common that + begin with 'is_' and end with 'dtype' + + """ + fnames = [f for f in dir(com) if (f.startswith("is_") and f.endswith("dtype"))] + fnames.remove("is_string_or_object_np_dtype") # fastpath requires np.dtype obj + return [getattr(com, fname) for fname in fnames] + + +@pytest.mark.filterwarnings( + "ignore:is_categorical_dtype is deprecated:DeprecationWarning" +) +@pytest.mark.parametrize("func", get_is_dtype_funcs(), ids=lambda x: x.__name__) +def test_get_dtype_error_catch(func): + # see gh-15941 + # + # No exception should be raised. + + msg = f"{func.__name__} is deprecated" + warn = None + if ( + func is com.is_int64_dtype + or func is com.is_interval_dtype + or func is com.is_datetime64tz_dtype + or func is com.is_categorical_dtype + or func is com.is_period_dtype + ): + warn = DeprecationWarning + + with tm.assert_produces_warning(warn, match=msg): + assert not func(None) + + +def test_is_object(): + assert com.is_object_dtype(object) + assert com.is_object_dtype(np.array([], dtype=object)) + + assert not com.is_object_dtype(int) + assert not com.is_object_dtype(np.array([], dtype=int)) + assert not com.is_object_dtype([1, 2, 3]) + + +@pytest.mark.parametrize( + "check_scipy", [False, pytest.param(True, marks=td.skip_if_no("scipy"))] +) +def test_is_sparse(check_scipy): + msg = "is_sparse is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert com.is_sparse(SparseArray([1, 2, 3])) + + assert not com.is_sparse(np.array([1, 2, 3])) + + if check_scipy: + import scipy.sparse + + assert not com.is_sparse(scipy.sparse.bsr_matrix([1, 2, 3])) + + +def test_is_scipy_sparse(): + sp_sparse = pytest.importorskip("scipy.sparse") + + assert com.is_scipy_sparse(sp_sparse.bsr_matrix([1, 2, 3])) + + assert not com.is_scipy_sparse(SparseArray([1, 2, 3])) + + +def test_is_datetime64_dtype(): + assert not com.is_datetime64_dtype(object) + assert not com.is_datetime64_dtype([1, 2, 3]) + assert not com.is_datetime64_dtype(np.array([], dtype=int)) + + assert com.is_datetime64_dtype(np.datetime64) + assert com.is_datetime64_dtype(np.array([], dtype=np.datetime64)) + + +def test_is_datetime64tz_dtype(): + msg = "is_datetime64tz_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_datetime64tz_dtype(object) + assert not com.is_datetime64tz_dtype([1, 2, 3]) + assert not com.is_datetime64tz_dtype(pd.DatetimeIndex([1, 2, 3])) + assert com.is_datetime64tz_dtype(pd.DatetimeIndex(["2000"], tz="US/Eastern")) + + +def test_custom_ea_kind_M_not_datetime64tz(): + # GH 34986 + class NotTZDtype(ExtensionDtype): + @property + def kind(self) -> str: + return "M" + + not_tz_dtype = NotTZDtype() + msg = "is_datetime64tz_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_datetime64tz_dtype(not_tz_dtype) + assert not com.needs_i8_conversion(not_tz_dtype) + + +def test_is_timedelta64_dtype(): + assert not com.is_timedelta64_dtype(object) + assert not com.is_timedelta64_dtype(None) + assert not com.is_timedelta64_dtype([1, 2, 3]) + assert not com.is_timedelta64_dtype(np.array([], dtype=np.datetime64)) + assert not com.is_timedelta64_dtype("0 days") + assert not com.is_timedelta64_dtype("0 days 00:00:00") + assert not com.is_timedelta64_dtype(["0 days 00:00:00"]) + assert not com.is_timedelta64_dtype("NO DATE") + + assert com.is_timedelta64_dtype(np.timedelta64) + assert com.is_timedelta64_dtype(pd.Series([], dtype="timedelta64[ns]")) + assert com.is_timedelta64_dtype(pd.to_timedelta(["0 days", "1 days"])) + + +def test_is_period_dtype(): + msg = "is_period_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_period_dtype(object) + assert not com.is_period_dtype([1, 2, 3]) + assert not com.is_period_dtype(pd.Period("2017-01-01")) + + assert com.is_period_dtype(PeriodDtype(freq="D")) + assert com.is_period_dtype(pd.PeriodIndex([], freq="Y")) + + +def test_is_interval_dtype(): + msg = "is_interval_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_interval_dtype(object) + assert not com.is_interval_dtype([1, 2, 3]) + + assert com.is_interval_dtype(IntervalDtype()) + + interval = pd.Interval(1, 2, closed="right") + assert not com.is_interval_dtype(interval) + assert com.is_interval_dtype(pd.IntervalIndex([interval])) + + +def test_is_categorical_dtype(): + msg = "is_categorical_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_categorical_dtype(object) + assert not com.is_categorical_dtype([1, 2, 3]) + + assert com.is_categorical_dtype(CategoricalDtype()) + assert com.is_categorical_dtype(pd.Categorical([1, 2, 3])) + assert com.is_categorical_dtype(pd.CategoricalIndex([1, 2, 3])) + + +@pytest.mark.parametrize( + "dtype, expected", + [ + (int, False), + (pd.Series([1, 2]), False), + (str, True), + (object, True), + (np.array(["a", "b"]), True), + (pd.StringDtype(), True), + (pd.Index([], dtype="O"), True), + ], +) +def test_is_string_dtype(dtype, expected): + # GH#54661 + + result = com.is_string_dtype(dtype) + assert result is expected + + +@pytest.mark.parametrize( + "data", + [[(0, 1), (1, 1)], pd.Categorical([1, 2, 3]), np.array([1, 2], dtype=object)], +) +def test_is_string_dtype_arraylike_with_object_elements_not_strings(data): + # GH 15585 + assert not com.is_string_dtype(pd.Series(data)) + + +def test_is_string_dtype_nullable(nullable_string_dtype): + assert com.is_string_dtype(pd.array(["a", "b"], dtype=nullable_string_dtype)) + + +integer_dtypes: list = [] + + +@pytest.mark.parametrize( + "dtype", + integer_dtypes + + [pd.Series([1, 2])] + + tm.ALL_INT_NUMPY_DTYPES + + to_numpy_dtypes(tm.ALL_INT_NUMPY_DTYPES) + + tm.ALL_INT_EA_DTYPES + + to_ea_dtypes(tm.ALL_INT_EA_DTYPES), +) +def test_is_integer_dtype(dtype): + assert com.is_integer_dtype(dtype) + + +@pytest.mark.parametrize( + "dtype", + [ + str, + float, + np.datetime64, + np.timedelta64, + pd.Index([1, 2.0]), + np.array(["a", "b"]), + np.array([], dtype=np.timedelta64), + ], +) +def test_is_not_integer_dtype(dtype): + assert not com.is_integer_dtype(dtype) + + +signed_integer_dtypes: list = [] + + +@pytest.mark.parametrize( + "dtype", + signed_integer_dtypes + + [pd.Series([1, 2])] + + tm.SIGNED_INT_NUMPY_DTYPES + + to_numpy_dtypes(tm.SIGNED_INT_NUMPY_DTYPES) + + tm.SIGNED_INT_EA_DTYPES + + to_ea_dtypes(tm.SIGNED_INT_EA_DTYPES), +) +def test_is_signed_integer_dtype(dtype): + assert com.is_integer_dtype(dtype) + + +@pytest.mark.parametrize( + "dtype", + [ + str, + float, + np.datetime64, + np.timedelta64, + pd.Index([1, 2.0]), + np.array(["a", "b"]), + np.array([], dtype=np.timedelta64), + ] + + tm.UNSIGNED_INT_NUMPY_DTYPES + + to_numpy_dtypes(tm.UNSIGNED_INT_NUMPY_DTYPES) + + tm.UNSIGNED_INT_EA_DTYPES + + to_ea_dtypes(tm.UNSIGNED_INT_EA_DTYPES), +) +def test_is_not_signed_integer_dtype(dtype): + assert not com.is_signed_integer_dtype(dtype) + + +unsigned_integer_dtypes: list = [] + + +@pytest.mark.parametrize( + "dtype", + unsigned_integer_dtypes + + [pd.Series([1, 2], dtype=np.uint32)] + + tm.UNSIGNED_INT_NUMPY_DTYPES + + to_numpy_dtypes(tm.UNSIGNED_INT_NUMPY_DTYPES) + + tm.UNSIGNED_INT_EA_DTYPES + + to_ea_dtypes(tm.UNSIGNED_INT_EA_DTYPES), +) +def test_is_unsigned_integer_dtype(dtype): + assert com.is_unsigned_integer_dtype(dtype) + + +@pytest.mark.parametrize( + "dtype", + [ + str, + float, + np.datetime64, + np.timedelta64, + pd.Index([1, 2.0]), + np.array(["a", "b"]), + np.array([], dtype=np.timedelta64), + ] + + tm.SIGNED_INT_NUMPY_DTYPES + + to_numpy_dtypes(tm.SIGNED_INT_NUMPY_DTYPES) + + tm.SIGNED_INT_EA_DTYPES + + to_ea_dtypes(tm.SIGNED_INT_EA_DTYPES), +) +def test_is_not_unsigned_integer_dtype(dtype): + assert not com.is_unsigned_integer_dtype(dtype) + + +@pytest.mark.parametrize( + "dtype", [np.int64, np.array([1, 2], dtype=np.int64), "Int64", pd.Int64Dtype] +) +def test_is_int64_dtype(dtype): + msg = "is_int64_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert com.is_int64_dtype(dtype) + + +def test_type_comparison_with_numeric_ea_dtype(any_numeric_ea_dtype): + # GH#43038 + assert pandas_dtype(any_numeric_ea_dtype) == any_numeric_ea_dtype + + +def test_type_comparison_with_real_numpy_dtype(any_real_numpy_dtype): + # GH#43038 + assert pandas_dtype(any_real_numpy_dtype) == any_real_numpy_dtype + + +def test_type_comparison_with_signed_int_ea_dtype_and_signed_int_numpy_dtype( + any_signed_int_ea_dtype, any_signed_int_numpy_dtype +): + # GH#43038 + assert not pandas_dtype(any_signed_int_ea_dtype) == any_signed_int_numpy_dtype + + +@pytest.mark.parametrize( + "dtype", + [ + str, + float, + np.int32, + np.uint64, + pd.Index([1, 2.0]), + np.array(["a", "b"]), + np.array([1, 2], dtype=np.uint32), + "int8", + "Int8", + pd.Int8Dtype, + ], +) +def test_is_not_int64_dtype(dtype): + msg = "is_int64_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not com.is_int64_dtype(dtype) + + +def test_is_datetime64_any_dtype(): + assert not com.is_datetime64_any_dtype(int) + assert not com.is_datetime64_any_dtype(str) + assert not com.is_datetime64_any_dtype(np.array([1, 2])) + assert not com.is_datetime64_any_dtype(np.array(["a", "b"])) + + assert com.is_datetime64_any_dtype(np.datetime64) + assert com.is_datetime64_any_dtype(np.array([], dtype=np.datetime64)) + assert com.is_datetime64_any_dtype(DatetimeTZDtype("ns", "US/Eastern")) + assert com.is_datetime64_any_dtype( + pd.DatetimeIndex([1, 2, 3], dtype="datetime64[ns]") + ) + + +def test_is_datetime64_ns_dtype(): + assert not com.is_datetime64_ns_dtype(int) + assert not com.is_datetime64_ns_dtype(str) + assert not com.is_datetime64_ns_dtype(np.datetime64) + assert not com.is_datetime64_ns_dtype(np.array([1, 2])) + assert not com.is_datetime64_ns_dtype(np.array(["a", "b"])) + assert not com.is_datetime64_ns_dtype(np.array([], dtype=np.datetime64)) + + # This datetime array has the wrong unit (ps instead of ns) + assert not com.is_datetime64_ns_dtype(np.array([], dtype="datetime64[ps]")) + + assert com.is_datetime64_ns_dtype(DatetimeTZDtype("ns", "US/Eastern")) + assert com.is_datetime64_ns_dtype( + pd.DatetimeIndex([1, 2, 3], dtype=np.dtype("datetime64[ns]")) + ) + + # non-nano dt64tz + assert not com.is_datetime64_ns_dtype(DatetimeTZDtype("us", "US/Eastern")) + + +def test_is_timedelta64_ns_dtype(): + assert not com.is_timedelta64_ns_dtype(np.dtype("m8[ps]")) + assert not com.is_timedelta64_ns_dtype(np.array([1, 2], dtype=np.timedelta64)) + + assert com.is_timedelta64_ns_dtype(np.dtype("m8[ns]")) + assert com.is_timedelta64_ns_dtype(np.array([1, 2], dtype="m8[ns]")) + + +def test_is_numeric_v_string_like(): + assert not com.is_numeric_v_string_like(np.array([1]), 1) + assert not com.is_numeric_v_string_like(np.array([1]), np.array([2])) + assert not com.is_numeric_v_string_like(np.array(["foo"]), np.array(["foo"])) + + assert com.is_numeric_v_string_like(np.array([1]), "foo") + assert com.is_numeric_v_string_like(np.array([1, 2]), np.array(["foo"])) + assert com.is_numeric_v_string_like(np.array(["foo"]), np.array([1, 2])) + + +def test_needs_i8_conversion(): + assert not com.needs_i8_conversion(str) + assert not com.needs_i8_conversion(np.int64) + assert not com.needs_i8_conversion(pd.Series([1, 2])) + assert not com.needs_i8_conversion(np.array(["a", "b"])) + + assert not com.needs_i8_conversion(np.datetime64) + assert com.needs_i8_conversion(np.dtype(np.datetime64)) + assert not com.needs_i8_conversion(pd.Series([], dtype="timedelta64[ns]")) + assert com.needs_i8_conversion(pd.Series([], dtype="timedelta64[ns]").dtype) + assert not com.needs_i8_conversion(pd.DatetimeIndex(["2000"], tz="US/Eastern")) + assert com.needs_i8_conversion(pd.DatetimeIndex(["2000"], tz="US/Eastern").dtype) + + +def test_is_numeric_dtype(): + assert not com.is_numeric_dtype(str) + assert not com.is_numeric_dtype(np.datetime64) + assert not com.is_numeric_dtype(np.timedelta64) + assert not com.is_numeric_dtype(np.array(["a", "b"])) + assert not com.is_numeric_dtype(np.array([], dtype=np.timedelta64)) + + assert com.is_numeric_dtype(int) + assert com.is_numeric_dtype(float) + assert com.is_numeric_dtype(np.uint64) + assert com.is_numeric_dtype(pd.Series([1, 2])) + assert com.is_numeric_dtype(pd.Index([1, 2.0])) + + class MyNumericDType(ExtensionDtype): + @property + def type(self): + return str + + @property + def name(self): + raise NotImplementedError + + @classmethod + def construct_array_type(cls): + raise NotImplementedError + + def _is_numeric(self) -> bool: + return True + + assert com.is_numeric_dtype(MyNumericDType()) + + +def test_is_any_real_numeric_dtype(): + assert not com.is_any_real_numeric_dtype(str) + assert not com.is_any_real_numeric_dtype(bool) + assert not com.is_any_real_numeric_dtype(complex) + assert not com.is_any_real_numeric_dtype(object) + assert not com.is_any_real_numeric_dtype(np.datetime64) + assert not com.is_any_real_numeric_dtype(np.array(["a", "b", complex(1, 2)])) + assert not com.is_any_real_numeric_dtype(pd.DataFrame([complex(1, 2), True])) + + assert com.is_any_real_numeric_dtype(int) + assert com.is_any_real_numeric_dtype(float) + assert com.is_any_real_numeric_dtype(np.array([1, 2.5])) + + +def test_is_float_dtype(): + assert not com.is_float_dtype(str) + assert not com.is_float_dtype(int) + assert not com.is_float_dtype(pd.Series([1, 2])) + assert not com.is_float_dtype(np.array(["a", "b"])) + + assert com.is_float_dtype(float) + assert com.is_float_dtype(pd.Index([1, 2.0])) + + +def test_is_bool_dtype(): + assert not com.is_bool_dtype(int) + assert not com.is_bool_dtype(str) + assert not com.is_bool_dtype(pd.Series([1, 2])) + assert not com.is_bool_dtype(pd.Series(["a", "b"], dtype="category")) + assert not com.is_bool_dtype(np.array(["a", "b"])) + assert not com.is_bool_dtype(pd.Index(["a", "b"])) + assert not com.is_bool_dtype("Int64") + + assert com.is_bool_dtype(bool) + assert com.is_bool_dtype(np.bool_) + assert com.is_bool_dtype(pd.Series([True, False], dtype="category")) + assert com.is_bool_dtype(np.array([True, False])) + assert com.is_bool_dtype(pd.Index([True, False])) + + assert com.is_bool_dtype(pd.BooleanDtype()) + assert com.is_bool_dtype(pd.array([True, False, None], dtype="boolean")) + assert com.is_bool_dtype("boolean") + + +def test_is_bool_dtype_numpy_error(): + # GH39010 + assert not com.is_bool_dtype("0 - Name") + + +@pytest.mark.parametrize( + "check_scipy", [False, pytest.param(True, marks=td.skip_if_no("scipy"))] +) +def test_is_extension_array_dtype(check_scipy): + assert not com.is_extension_array_dtype([1, 2, 3]) + assert not com.is_extension_array_dtype(np.array([1, 2, 3])) + assert not com.is_extension_array_dtype(pd.DatetimeIndex([1, 2, 3])) + + cat = pd.Categorical([1, 2, 3]) + assert com.is_extension_array_dtype(cat) + assert com.is_extension_array_dtype(pd.Series(cat)) + assert com.is_extension_array_dtype(SparseArray([1, 2, 3])) + assert com.is_extension_array_dtype(pd.DatetimeIndex(["2000"], tz="US/Eastern")) + + dtype = DatetimeTZDtype("ns", tz="US/Eastern") + s = pd.Series([], dtype=dtype) + assert com.is_extension_array_dtype(s) + + if check_scipy: + import scipy.sparse + + assert not com.is_extension_array_dtype(scipy.sparse.bsr_matrix([1, 2, 3])) + + +def test_is_complex_dtype(): + assert not com.is_complex_dtype(int) + assert not com.is_complex_dtype(str) + assert not com.is_complex_dtype(pd.Series([1, 2])) + assert not com.is_complex_dtype(np.array(["a", "b"])) + + assert com.is_complex_dtype(np.complex128) + assert com.is_complex_dtype(complex) + assert com.is_complex_dtype(np.array([1 + 1j, 5])) + + +@pytest.mark.parametrize( + "input_param,result", + [ + (int, np.dtype(int)), + ("int32", np.dtype("int32")), + (float, np.dtype(float)), + ("float64", np.dtype("float64")), + (np.dtype("float64"), np.dtype("float64")), + (str, np.dtype(str)), + (pd.Series([1, 2], dtype=np.dtype("int16")), np.dtype("int16")), + (pd.Series(["a", "b"], dtype=object), np.dtype(object)), + (pd.Index([1, 2]), np.dtype("int64")), + (pd.Index(["a", "b"], dtype=object), np.dtype(object)), + ("category", "category"), + (pd.Categorical(["a", "b"]).dtype, CategoricalDtype(["a", "b"])), + (pd.Categorical(["a", "b"]), CategoricalDtype(["a", "b"])), + (pd.CategoricalIndex(["a", "b"]).dtype, CategoricalDtype(["a", "b"])), + (pd.CategoricalIndex(["a", "b"]), CategoricalDtype(["a", "b"])), + (CategoricalDtype(), CategoricalDtype()), + (pd.DatetimeIndex([1, 2]), np.dtype("=M8[ns]")), + (pd.DatetimeIndex([1, 2]).dtype, np.dtype("=M8[ns]")), + (" df.two.sum() + + with tm.assert_produces_warning(None): + # successfully modify column in place + # this should not raise a warning + df.one += 1 + assert df.one.iloc[0] == 2 + + with tm.assert_produces_warning(None): + # successfully add an attribute to a series + # this should not raise a warning + df.two.not_an_index = [1, 2] + + with tm.assert_produces_warning(UserWarning): + # warn when setting column to nonexistent name + df.four = df.two + 2 + assert df.four.sum() > df.two.sum() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_inference.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_inference.py new file mode 100644 index 0000000000000000000000000000000000000000..79b7e6ff092b6efc519d8b29ad134c8019c6602f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_inference.py @@ -0,0 +1,2072 @@ +""" +These the test the public routines exposed in types/common.py +related to inference and not otherwise tested in types/test_common.py + +""" +import collections +from collections import namedtuple +from collections.abc import Iterator +from datetime import ( + date, + datetime, + time, + timedelta, +) +from decimal import Decimal +from fractions import Fraction +from io import StringIO +import itertools +from numbers import Number +import re +import sys +from typing import ( + Generic, + TypeVar, +) + +import numpy as np +import pytest +import pytz + +from pandas._libs import ( + lib, + missing as libmissing, + ops as libops, +) +from pandas.compat.numpy import np_version_gt2 + +from pandas.core.dtypes import inference +from pandas.core.dtypes.cast import find_result_type +from pandas.core.dtypes.common import ( + ensure_int32, + is_bool, + is_complex, + is_datetime64_any_dtype, + is_datetime64_dtype, + is_datetime64_ns_dtype, + is_datetime64tz_dtype, + is_float, + is_integer, + is_number, + is_scalar, + is_scipy_sparse, + is_timedelta64_dtype, + is_timedelta64_ns_dtype, +) + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + DateOffset, + DatetimeIndex, + Index, + Interval, + Period, + PeriodIndex, + Series, + Timedelta, + TimedeltaIndex, + Timestamp, +) +import pandas._testing as tm +from pandas.core.arrays import ( + BooleanArray, + FloatingArray, + IntegerArray, +) + + +@pytest.fixture(params=[True, False], ids=str) +def coerce(request): + return request.param + + +class MockNumpyLikeArray: + """ + A class which is numpy-like (e.g. Pint's Quantity) but not actually numpy + + The key is that it is not actually a numpy array so + ``util.is_array(mock_numpy_like_array_instance)`` returns ``False``. Other + important properties are that the class defines a :meth:`__iter__` method + (so that ``isinstance(abc.Iterable)`` returns ``True``) and has a + :meth:`ndim` property, as pandas special-cases 0-dimensional arrays in some + cases. + + We expect pandas to behave with respect to such duck arrays exactly as + with real numpy arrays. In particular, a 0-dimensional duck array is *NOT* + a scalar (`is_scalar(np.array(1)) == False`), but it is not list-like either. + """ + + def __init__(self, values) -> None: + self._values = values + + def __iter__(self) -> Iterator: + iter_values = iter(self._values) + + def it_outer(): + yield from iter_values + + return it_outer() + + def __len__(self) -> int: + return len(self._values) + + def __array__(self, dtype=None, copy=None): + return np.asarray(self._values, dtype=dtype) + + @property + def ndim(self): + return self._values.ndim + + @property + def dtype(self): + return self._values.dtype + + @property + def size(self): + return self._values.size + + @property + def shape(self): + return self._values.shape + + +# collect all objects to be tested for list-like-ness; use tuples of objects, +# whether they are list-like or not (special casing for sets), and their ID +ll_params = [ + ([1], True, "list"), + ([], True, "list-empty"), + ((1,), True, "tuple"), + ((), True, "tuple-empty"), + ({"a": 1}, True, "dict"), + ({}, True, "dict-empty"), + ({"a", 1}, "set", "set"), + (set(), "set", "set-empty"), + (frozenset({"a", 1}), "set", "frozenset"), + (frozenset(), "set", "frozenset-empty"), + (iter([1, 2]), True, "iterator"), + (iter([]), True, "iterator-empty"), + ((x for x in [1, 2]), True, "generator"), + ((_ for _ in []), True, "generator-empty"), + (Series([1]), True, "Series"), + (Series([], dtype=object), True, "Series-empty"), + # Series.str will still raise a TypeError if iterated + (Series(["a"]).str, True, "StringMethods"), + (Series([], dtype="O").str, True, "StringMethods-empty"), + (Index([1]), True, "Index"), + (Index([]), True, "Index-empty"), + (DataFrame([[1]]), True, "DataFrame"), + (DataFrame(), True, "DataFrame-empty"), + (np.ndarray((2,) * 1), True, "ndarray-1d"), + (np.array([]), True, "ndarray-1d-empty"), + (np.ndarray((2,) * 2), True, "ndarray-2d"), + (np.array([[]]), True, "ndarray-2d-empty"), + (np.ndarray((2,) * 3), True, "ndarray-3d"), + (np.array([[[]]]), True, "ndarray-3d-empty"), + (np.ndarray((2,) * 4), True, "ndarray-4d"), + (np.array([[[[]]]]), True, "ndarray-4d-empty"), + (np.array(2), False, "ndarray-0d"), + (MockNumpyLikeArray(np.ndarray((2,) * 1)), True, "duck-ndarray-1d"), + (MockNumpyLikeArray(np.array([])), True, "duck-ndarray-1d-empty"), + (MockNumpyLikeArray(np.ndarray((2,) * 2)), True, "duck-ndarray-2d"), + (MockNumpyLikeArray(np.array([[]])), True, "duck-ndarray-2d-empty"), + (MockNumpyLikeArray(np.ndarray((2,) * 3)), True, "duck-ndarray-3d"), + (MockNumpyLikeArray(np.array([[[]]])), True, "duck-ndarray-3d-empty"), + (MockNumpyLikeArray(np.ndarray((2,) * 4)), True, "duck-ndarray-4d"), + (MockNumpyLikeArray(np.array([[[[]]]])), True, "duck-ndarray-4d-empty"), + (MockNumpyLikeArray(np.array(2)), False, "duck-ndarray-0d"), + (1, False, "int"), + (b"123", False, "bytes"), + (b"", False, "bytes-empty"), + ("123", False, "string"), + ("", False, "string-empty"), + (str, False, "string-type"), + (object(), False, "object"), + (np.nan, False, "NaN"), + (None, False, "None"), +] +objs, expected, ids = zip(*ll_params) + + +@pytest.fixture(params=zip(objs, expected), ids=ids) +def maybe_list_like(request): + return request.param + + +def test_is_list_like(maybe_list_like): + obj, expected = maybe_list_like + expected = True if expected == "set" else expected + assert inference.is_list_like(obj) == expected + + +def test_is_list_like_disallow_sets(maybe_list_like): + obj, expected = maybe_list_like + expected = False if expected == "set" else expected + assert inference.is_list_like(obj, allow_sets=False) == expected + + +def test_is_list_like_recursion(): + # GH 33721 + # interpreter would crash with SIGABRT + def list_like(): + inference.is_list_like([]) + list_like() + + rec_limit = sys.getrecursionlimit() + try: + # Limit to avoid stack overflow on Windows CI + sys.setrecursionlimit(100) + with tm.external_error_raised(RecursionError): + list_like() + finally: + sys.setrecursionlimit(rec_limit) + + +def test_is_list_like_iter_is_none(): + # GH 43373 + # is_list_like was yielding false positives with __iter__ == None + class NotListLike: + def __getitem__(self, item): + return self + + __iter__ = None + + assert not inference.is_list_like(NotListLike()) + + +def test_is_list_like_generic(): + # GH 49649 + # is_list_like was yielding false positives for Generic classes in python 3.11 + T = TypeVar("T") + + class MyDataFrame(DataFrame, Generic[T]): + ... + + tstc = MyDataFrame[int] + tst = MyDataFrame[int]({"x": [1, 2, 3]}) + + assert not inference.is_list_like(tstc) + assert isinstance(tst, DataFrame) + assert inference.is_list_like(tst) + + +def test_is_sequence(): + is_seq = inference.is_sequence + assert is_seq((1, 2)) + assert is_seq([1, 2]) + assert not is_seq("abcd") + assert not is_seq(np.int64) + + class A: + def __getitem__(self, item): + return 1 + + assert not is_seq(A()) + + +def test_is_array_like(): + assert inference.is_array_like(Series([], dtype=object)) + assert inference.is_array_like(Series([1, 2])) + assert inference.is_array_like(np.array(["a", "b"])) + assert inference.is_array_like(Index(["2016-01-01"])) + assert inference.is_array_like(np.array([2, 3])) + assert inference.is_array_like(MockNumpyLikeArray(np.array([2, 3]))) + + class DtypeList(list): + dtype = "special" + + assert inference.is_array_like(DtypeList()) + + assert not inference.is_array_like([1, 2, 3]) + assert not inference.is_array_like(()) + assert not inference.is_array_like("foo") + assert not inference.is_array_like(123) + + +@pytest.mark.parametrize( + "inner", + [ + [], + [1], + (1,), + (1, 2), + {"a": 1}, + {1, "a"}, + Series([1]), + Series([], dtype=object), + Series(["a"]).str, + (x for x in range(5)), + ], +) +@pytest.mark.parametrize("outer", [list, Series, np.array, tuple]) +def test_is_nested_list_like_passes(inner, outer): + result = outer([inner for _ in range(5)]) + assert inference.is_list_like(result) + + +@pytest.mark.parametrize( + "obj", + [ + "abc", + [], + [1], + (1,), + ["a"], + "a", + {"a"}, + [1, 2, 3], + Series([1]), + DataFrame({"A": [1]}), + ([1, 2] for _ in range(5)), + ], +) +def test_is_nested_list_like_fails(obj): + assert not inference.is_nested_list_like(obj) + + +@pytest.mark.parametrize("ll", [{}, {"A": 1}, Series([1]), collections.defaultdict()]) +def test_is_dict_like_passes(ll): + assert inference.is_dict_like(ll) + + +@pytest.mark.parametrize( + "ll", + [ + "1", + 1, + [1, 2], + (1, 2), + range(2), + Index([1]), + dict, + collections.defaultdict, + Series, + ], +) +def test_is_dict_like_fails(ll): + assert not inference.is_dict_like(ll) + + +@pytest.mark.parametrize("has_keys", [True, False]) +@pytest.mark.parametrize("has_getitem", [True, False]) +@pytest.mark.parametrize("has_contains", [True, False]) +def test_is_dict_like_duck_type(has_keys, has_getitem, has_contains): + class DictLike: + def __init__(self, d) -> None: + self.d = d + + if has_keys: + + def keys(self): + return self.d.keys() + + if has_getitem: + + def __getitem__(self, key): + return self.d.__getitem__(key) + + if has_contains: + + def __contains__(self, key) -> bool: + return self.d.__contains__(key) + + d = DictLike({1: 2}) + result = inference.is_dict_like(d) + expected = has_keys and has_getitem and has_contains + + assert result is expected + + +def test_is_file_like(): + class MockFile: + pass + + is_file = inference.is_file_like + + data = StringIO("data") + assert is_file(data) + + # No read / write attributes + # No iterator attributes + m = MockFile() + assert not is_file(m) + + MockFile.write = lambda self: 0 + + # Write attribute but not an iterator + m = MockFile() + assert not is_file(m) + + # gh-16530: Valid iterator just means we have the + # __iter__ attribute for our purposes. + MockFile.__iter__ = lambda self: self + + # Valid write-only file + m = MockFile() + assert is_file(m) + + del MockFile.write + MockFile.read = lambda self: 0 + + # Valid read-only file + m = MockFile() + assert is_file(m) + + # Iterator but no read / write attributes + data = [1, 2, 3] + assert not is_file(data) + + +test_tuple = collections.namedtuple("test_tuple", ["a", "b", "c"]) + + +@pytest.mark.parametrize("ll", [test_tuple(1, 2, 3)]) +def test_is_names_tuple_passes(ll): + assert inference.is_named_tuple(ll) + + +@pytest.mark.parametrize("ll", [(1, 2, 3), "a", Series({"pi": 3.14})]) +def test_is_names_tuple_fails(ll): + assert not inference.is_named_tuple(ll) + + +def test_is_hashable(): + # all new-style classes are hashable by default + class HashableClass: + pass + + class UnhashableClass1: + __hash__ = None + + class UnhashableClass2: + def __hash__(self): + raise TypeError("Not hashable") + + hashable = (1, 3.14, np.float64(3.14), "a", (), (1,), HashableClass()) + not_hashable = ([], UnhashableClass1()) + abc_hashable_not_really_hashable = (([],), UnhashableClass2()) + + for i in hashable: + assert inference.is_hashable(i) + for i in not_hashable: + assert not inference.is_hashable(i) + for i in abc_hashable_not_really_hashable: + assert not inference.is_hashable(i) + + # numpy.array is no longer collections.abc.Hashable as of + # https://github.com/numpy/numpy/pull/5326, just test + # is_hashable() + assert not inference.is_hashable(np.array([])) + + +@pytest.mark.parametrize("ll", [re.compile("ad")]) +def test_is_re_passes(ll): + assert inference.is_re(ll) + + +@pytest.mark.parametrize("ll", ["x", 2, 3, object()]) +def test_is_re_fails(ll): + assert not inference.is_re(ll) + + +@pytest.mark.parametrize( + "ll", [r"a", "x", r"asdf", re.compile("adsf"), r"\u2233\s*", re.compile(r"")] +) +def test_is_recompilable_passes(ll): + assert inference.is_re_compilable(ll) + + +@pytest.mark.parametrize("ll", [1, [], object()]) +def test_is_recompilable_fails(ll): + assert not inference.is_re_compilable(ll) + + +class TestInference: + @pytest.mark.parametrize( + "arr", + [ + np.array(list("abc"), dtype="S1"), + np.array(list("abc"), dtype="S1").astype(object), + [b"a", np.nan, b"c"], + ], + ) + def test_infer_dtype_bytes(self, arr): + result = lib.infer_dtype(arr, skipna=True) + assert result == "bytes" + + @pytest.mark.parametrize( + "value, expected", + [ + (float("inf"), True), + (np.inf, True), + (-np.inf, False), + (1, False), + ("a", False), + ], + ) + def test_isposinf_scalar(self, value, expected): + # GH 11352 + result = libmissing.isposinf_scalar(value) + assert result is expected + + @pytest.mark.parametrize( + "value, expected", + [ + (float("-inf"), True), + (-np.inf, True), + (np.inf, False), + (1, False), + ("a", False), + ], + ) + def test_isneginf_scalar(self, value, expected): + result = libmissing.isneginf_scalar(value) + assert result is expected + + @pytest.mark.parametrize( + "convert_to_masked_nullable, exp", + [ + ( + True, + BooleanArray( + np.array([True, False], dtype="bool"), np.array([False, True]) + ), + ), + (False, np.array([True, np.nan], dtype="object")), + ], + ) + def test_maybe_convert_nullable_boolean(self, convert_to_masked_nullable, exp): + # GH 40687 + arr = np.array([True, np.nan], dtype=object) + result = libops.maybe_convert_bool( + arr, set(), convert_to_masked_nullable=convert_to_masked_nullable + ) + if convert_to_masked_nullable: + tm.assert_extension_array_equal(BooleanArray(*result), exp) + else: + result = result[0] + tm.assert_numpy_array_equal(result, exp) + + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + @pytest.mark.parametrize("coerce_numeric", [True, False]) + @pytest.mark.parametrize( + "infinity", ["inf", "inF", "iNf", "Inf", "iNF", "InF", "INf", "INF"] + ) + @pytest.mark.parametrize("prefix", ["", "-", "+"]) + def test_maybe_convert_numeric_infinities( + self, coerce_numeric, infinity, prefix, convert_to_masked_nullable + ): + # see gh-13274 + result, _ = lib.maybe_convert_numeric( + np.array([prefix + infinity], dtype=object), + na_values={"", "NULL", "nan"}, + coerce_numeric=coerce_numeric, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + expected = np.array([np.inf if prefix in ["", "+"] else -np.inf]) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + def test_maybe_convert_numeric_infinities_raises(self, convert_to_masked_nullable): + msg = "Unable to parse string" + with pytest.raises(ValueError, match=msg): + lib.maybe_convert_numeric( + np.array(["foo_inf"], dtype=object), + na_values={"", "NULL", "nan"}, + coerce_numeric=False, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + def test_maybe_convert_numeric_post_floatify_nan( + self, coerce, convert_to_masked_nullable + ): + # see gh-13314 + data = np.array(["1.200", "-999.000", "4.500"], dtype=object) + expected = np.array([1.2, np.nan, 4.5], dtype=np.float64) + nan_values = {-999, -999.0} + + out = lib.maybe_convert_numeric( + data, + nan_values, + coerce, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + if convert_to_masked_nullable: + expected = FloatingArray(expected, np.isnan(expected)) + tm.assert_extension_array_equal(expected, FloatingArray(*out)) + else: + out = out[0] + tm.assert_numpy_array_equal(out, expected) + + def test_convert_infs(self): + arr = np.array(["inf", "inf", "inf"], dtype="O") + result, _ = lib.maybe_convert_numeric(arr, set(), False) + assert result.dtype == np.float64 + + arr = np.array(["-inf", "-inf", "-inf"], dtype="O") + result, _ = lib.maybe_convert_numeric(arr, set(), False) + assert result.dtype == np.float64 + + def test_scientific_no_exponent(self): + # See PR 12215 + arr = np.array(["42E", "2E", "99e", "6e"], dtype="O") + result, _ = lib.maybe_convert_numeric(arr, set(), False, True) + assert np.all(np.isnan(result)) + + def test_convert_non_hashable(self): + # GH13324 + # make sure that we are handing non-hashables + arr = np.array([[10.0, 2], 1.0, "apple"], dtype=object) + result, _ = lib.maybe_convert_numeric(arr, set(), False, True) + tm.assert_numpy_array_equal(result, np.array([np.nan, 1.0, np.nan])) + + def test_convert_numeric_uint64(self): + arr = np.array([2**63], dtype=object) + exp = np.array([2**63], dtype=np.uint64) + tm.assert_numpy_array_equal(lib.maybe_convert_numeric(arr, set())[0], exp) + + arr = np.array([str(2**63)], dtype=object) + exp = np.array([2**63], dtype=np.uint64) + tm.assert_numpy_array_equal(lib.maybe_convert_numeric(arr, set())[0], exp) + + arr = np.array([np.uint64(2**63)], dtype=object) + exp = np.array([2**63], dtype=np.uint64) + tm.assert_numpy_array_equal(lib.maybe_convert_numeric(arr, set())[0], exp) + + @pytest.mark.parametrize( + "arr", + [ + np.array([2**63, np.nan], dtype=object), + np.array([str(2**63), np.nan], dtype=object), + np.array([np.nan, 2**63], dtype=object), + np.array([np.nan, str(2**63)], dtype=object), + ], + ) + def test_convert_numeric_uint64_nan(self, coerce, arr): + expected = arr.astype(float) if coerce else arr.copy() + result, _ = lib.maybe_convert_numeric(arr, set(), coerce_numeric=coerce) + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + def test_convert_numeric_uint64_nan_values( + self, coerce, convert_to_masked_nullable + ): + arr = np.array([2**63, 2**63 + 1], dtype=object) + na_values = {2**63} + + expected = ( + np.array([np.nan, 2**63 + 1], dtype=float) if coerce else arr.copy() + ) + result = lib.maybe_convert_numeric( + arr, + na_values, + coerce_numeric=coerce, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + if convert_to_masked_nullable and coerce: + expected = IntegerArray( + np.array([0, 2**63 + 1], dtype="u8"), + np.array([True, False], dtype="bool"), + ) + result = IntegerArray(*result) + else: + result = result[0] # discard mask + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize( + "case", + [ + np.array([2**63, -1], dtype=object), + np.array([str(2**63), -1], dtype=object), + np.array([str(2**63), str(-1)], dtype=object), + np.array([-1, 2**63], dtype=object), + np.array([-1, str(2**63)], dtype=object), + np.array([str(-1), str(2**63)], dtype=object), + ], + ) + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + def test_convert_numeric_int64_uint64( + self, case, coerce, convert_to_masked_nullable + ): + expected = case.astype(float) if coerce else case.copy() + result, _ = lib.maybe_convert_numeric( + case, + set(), + coerce_numeric=coerce, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize("convert_to_masked_nullable", [True, False]) + def test_convert_numeric_string_uint64(self, convert_to_masked_nullable): + # GH32394 + result = lib.maybe_convert_numeric( + np.array(["uint64"], dtype=object), + set(), + coerce_numeric=True, + convert_to_masked_nullable=convert_to_masked_nullable, + ) + if convert_to_masked_nullable: + result = FloatingArray(*result) + else: + result = result[0] + assert np.isnan(result) + + @pytest.mark.parametrize("value", [-(2**63) - 1, 2**64]) + def test_convert_int_overflow(self, value): + # see gh-18584 + arr = np.array([value], dtype=object) + result = lib.maybe_convert_objects(arr) + tm.assert_numpy_array_equal(arr, result) + + @pytest.mark.parametrize("val", [None, np.nan, float("nan")]) + @pytest.mark.parametrize("dtype", ["M8[ns]", "m8[ns]"]) + def test_maybe_convert_objects_nat_inference(self, val, dtype): + dtype = np.dtype(dtype) + vals = np.array([pd.NaT, val], dtype=object) + result = lib.maybe_convert_objects( + vals, + convert_non_numeric=True, + dtype_if_all_nat=dtype, + ) + assert result.dtype == dtype + assert np.isnat(result).all() + + result = lib.maybe_convert_objects( + vals[::-1], + convert_non_numeric=True, + dtype_if_all_nat=dtype, + ) + assert result.dtype == dtype + assert np.isnat(result).all() + + @pytest.mark.parametrize( + "value, expected_dtype", + [ + # see gh-4471 + ([2**63], np.uint64), + # NumPy bug: can't compare uint64 to int64, as that + # results in both casting to float64, so we should + # make sure that this function is robust against it + ([np.uint64(2**63)], np.uint64), + ([2, -1], np.int64), + ([2**63, -1], object), + # GH#47294 + ([np.uint8(1)], np.uint8), + ([np.uint16(1)], np.uint16), + ([np.uint32(1)], np.uint32), + ([np.uint64(1)], np.uint64), + ([np.uint8(2), np.uint16(1)], np.uint16), + ([np.uint32(2), np.uint16(1)], np.uint32), + ([np.uint32(2), -1], object), + ([np.uint32(2), 1], np.uint64), + ([np.uint32(2), np.int32(1)], object), + ], + ) + def test_maybe_convert_objects_uint(self, value, expected_dtype): + arr = np.array(value, dtype=object) + exp = np.array(value, dtype=expected_dtype) + tm.assert_numpy_array_equal(lib.maybe_convert_objects(arr), exp) + + def test_maybe_convert_objects_datetime(self): + # GH27438 + arr = np.array( + [np.datetime64("2000-01-01"), np.timedelta64(1, "s")], dtype=object + ) + exp = arr.copy() + out = lib.maybe_convert_objects(arr, convert_non_numeric=True) + tm.assert_numpy_array_equal(out, exp) + + arr = np.array([pd.NaT, np.timedelta64(1, "s")], dtype=object) + exp = np.array([np.timedelta64("NaT"), np.timedelta64(1, "s")], dtype="m8[ns]") + out = lib.maybe_convert_objects(arr, convert_non_numeric=True) + tm.assert_numpy_array_equal(out, exp) + + # with convert_non_numeric=True, the nan is a valid NA value for td64 + arr = np.array([np.timedelta64(1, "s"), np.nan], dtype=object) + exp = exp[::-1] + out = lib.maybe_convert_objects(arr, convert_non_numeric=True) + tm.assert_numpy_array_equal(out, exp) + + def test_maybe_convert_objects_dtype_if_all_nat(self): + arr = np.array([pd.NaT, pd.NaT], dtype=object) + out = lib.maybe_convert_objects(arr, convert_non_numeric=True) + # no dtype_if_all_nat passed -> we dont guess + tm.assert_numpy_array_equal(out, arr) + + out = lib.maybe_convert_objects( + arr, + convert_non_numeric=True, + dtype_if_all_nat=np.dtype("timedelta64[ns]"), + ) + exp = np.array(["NaT", "NaT"], dtype="timedelta64[ns]") + tm.assert_numpy_array_equal(out, exp) + + out = lib.maybe_convert_objects( + arr, + convert_non_numeric=True, + dtype_if_all_nat=np.dtype("datetime64[ns]"), + ) + exp = np.array(["NaT", "NaT"], dtype="datetime64[ns]") + tm.assert_numpy_array_equal(out, exp) + + def test_maybe_convert_objects_dtype_if_all_nat_invalid(self): + # we accept datetime64[ns], timedelta64[ns], and EADtype + arr = np.array([pd.NaT, pd.NaT], dtype=object) + + with pytest.raises(ValueError, match="int64"): + lib.maybe_convert_objects( + arr, + convert_non_numeric=True, + dtype_if_all_nat=np.dtype("int64"), + ) + + @pytest.mark.parametrize("dtype", ["datetime64[ns]", "timedelta64[ns]"]) + def test_maybe_convert_objects_datetime_overflow_safe(self, dtype): + stamp = datetime(2363, 10, 4) # Enterprise-D launch date + if dtype == "timedelta64[ns]": + stamp = stamp - datetime(1970, 1, 1) + arr = np.array([stamp], dtype=object) + + out = lib.maybe_convert_objects(arr, convert_non_numeric=True) + # no OutOfBoundsDatetime/OutOfBoundsTimedeltas + tm.assert_numpy_array_equal(out, arr) + + def test_maybe_convert_objects_mixed_datetimes(self): + ts = Timestamp("now") + vals = [ts, ts.to_pydatetime(), ts.to_datetime64(), pd.NaT, np.nan, None] + + for data in itertools.permutations(vals): + data = np.array(list(data), dtype=object) + expected = DatetimeIndex(data)._data._ndarray + result = lib.maybe_convert_objects(data, convert_non_numeric=True) + tm.assert_numpy_array_equal(result, expected) + + def test_maybe_convert_objects_timedelta64_nat(self): + obj = np.timedelta64("NaT", "ns") + arr = np.array([obj], dtype=object) + assert arr[0] is obj + + result = lib.maybe_convert_objects(arr, convert_non_numeric=True) + + expected = np.array([obj], dtype="m8[ns]") + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize( + "exp", + [ + IntegerArray(np.array([2, 0], dtype="i8"), np.array([False, True])), + IntegerArray(np.array([2, 0], dtype="int64"), np.array([False, True])), + ], + ) + def test_maybe_convert_objects_nullable_integer(self, exp): + # GH27335 + arr = np.array([2, np.nan], dtype=object) + result = lib.maybe_convert_objects(arr, convert_to_nullable_dtype=True) + + tm.assert_extension_array_equal(result, exp) + + @pytest.mark.parametrize( + "dtype, val", [("int64", 1), ("uint64", np.iinfo(np.int64).max + 1)] + ) + def test_maybe_convert_objects_nullable_none(self, dtype, val): + # GH#50043 + arr = np.array([val, None, 3], dtype="object") + result = lib.maybe_convert_objects(arr, convert_to_nullable_dtype=True) + expected = IntegerArray( + np.array([val, 0, 3], dtype=dtype), np.array([False, True, False]) + ) + tm.assert_extension_array_equal(result, expected) + + @pytest.mark.parametrize( + "convert_to_masked_nullable, exp", + [ + (True, IntegerArray(np.array([2, 0], dtype="i8"), np.array([False, True]))), + (False, np.array([2, np.nan], dtype="float64")), + ], + ) + def test_maybe_convert_numeric_nullable_integer( + self, convert_to_masked_nullable, exp + ): + # GH 40687 + arr = np.array([2, np.nan], dtype=object) + result = lib.maybe_convert_numeric( + arr, set(), convert_to_masked_nullable=convert_to_masked_nullable + ) + if convert_to_masked_nullable: + result = IntegerArray(*result) + tm.assert_extension_array_equal(result, exp) + else: + result = result[0] + tm.assert_numpy_array_equal(result, exp) + + @pytest.mark.parametrize( + "convert_to_masked_nullable, exp", + [ + ( + True, + FloatingArray( + np.array([2.0, 0.0], dtype="float64"), np.array([False, True]) + ), + ), + (False, np.array([2.0, np.nan], dtype="float64")), + ], + ) + def test_maybe_convert_numeric_floating_array( + self, convert_to_masked_nullable, exp + ): + # GH 40687 + arr = np.array([2.0, np.nan], dtype=object) + result = lib.maybe_convert_numeric( + arr, set(), convert_to_masked_nullable=convert_to_masked_nullable + ) + if convert_to_masked_nullable: + tm.assert_extension_array_equal(FloatingArray(*result), exp) + else: + result = result[0] + tm.assert_numpy_array_equal(result, exp) + + def test_maybe_convert_objects_bool_nan(self): + # GH32146 + ind = Index([True, False, np.nan], dtype=object) + exp = np.array([True, False, np.nan], dtype=object) + out = lib.maybe_convert_objects(ind.values, safe=1) + tm.assert_numpy_array_equal(out, exp) + + def test_maybe_convert_objects_nullable_boolean(self): + # GH50047 + arr = np.array([True, False], dtype=object) + exp = np.array([True, False]) + out = lib.maybe_convert_objects(arr, convert_to_nullable_dtype=True) + tm.assert_numpy_array_equal(out, exp) + + arr = np.array([True, False, pd.NaT], dtype=object) + exp = np.array([True, False, pd.NaT], dtype=object) + out = lib.maybe_convert_objects(arr, convert_to_nullable_dtype=True) + tm.assert_numpy_array_equal(out, exp) + + @pytest.mark.parametrize("val", [None, np.nan]) + def test_maybe_convert_objects_nullable_boolean_na(self, val): + # GH50047 + arr = np.array([True, False, val], dtype=object) + exp = BooleanArray( + np.array([True, False, False]), np.array([False, False, True]) + ) + out = lib.maybe_convert_objects(arr, convert_to_nullable_dtype=True) + tm.assert_extension_array_equal(out, exp) + + @pytest.mark.parametrize( + "data0", + [ + True, + 1, + 1.0, + 1.0 + 1.0j, + np.int8(1), + np.int16(1), + np.int32(1), + np.int64(1), + np.float16(1), + np.float32(1), + np.float64(1), + np.complex64(1), + np.complex128(1), + ], + ) + @pytest.mark.parametrize( + "data1", + [ + True, + 1, + 1.0, + 1.0 + 1.0j, + np.int8(1), + np.int16(1), + np.int32(1), + np.int64(1), + np.float16(1), + np.float32(1), + np.float64(1), + np.complex64(1), + np.complex128(1), + ], + ) + def test_maybe_convert_objects_itemsize(self, data0, data1): + # GH 40908 + data = [data0, data1] + arr = np.array(data, dtype="object") + + common_kind = np.result_type(type(data0), type(data1)).kind + kind0 = "python" if not hasattr(data0, "dtype") else data0.dtype.kind + kind1 = "python" if not hasattr(data1, "dtype") else data1.dtype.kind + if kind0 != "python" and kind1 != "python": + kind = common_kind + itemsize = max(data0.dtype.itemsize, data1.dtype.itemsize) + elif is_bool(data0) or is_bool(data1): + kind = "bool" if (is_bool(data0) and is_bool(data1)) else "object" + itemsize = "" + elif is_complex(data0) or is_complex(data1): + kind = common_kind + itemsize = 16 + else: + kind = common_kind + itemsize = 8 + + expected = np.array(data, dtype=f"{kind}{itemsize}") + result = lib.maybe_convert_objects(arr) + tm.assert_numpy_array_equal(result, expected) + + def test_mixed_dtypes_remain_object_array(self): + # GH14956 + arr = np.array([datetime(2015, 1, 1, tzinfo=pytz.utc), 1], dtype=object) + result = lib.maybe_convert_objects(arr, convert_non_numeric=True) + tm.assert_numpy_array_equal(result, arr) + + @pytest.mark.parametrize( + "idx", + [ + pd.IntervalIndex.from_breaks(range(5), closed="both"), + pd.period_range("2016-01-01", periods=3, freq="D"), + ], + ) + def test_maybe_convert_objects_ea(self, idx): + result = lib.maybe_convert_objects( + np.array(idx, dtype=object), + convert_non_numeric=True, + ) + tm.assert_extension_array_equal(result, idx._data) + + +class TestTypeInference: + # Dummy class used for testing with Python objects + class Dummy: + pass + + def test_inferred_dtype_fixture(self, any_skipna_inferred_dtype): + # see pandas/conftest.py + inferred_dtype, values = any_skipna_inferred_dtype + + # make sure the inferred dtype of the fixture is as requested + assert inferred_dtype == lib.infer_dtype(values, skipna=True) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_length_zero(self, skipna): + result = lib.infer_dtype(np.array([], dtype="i4"), skipna=skipna) + assert result == "integer" + + result = lib.infer_dtype([], skipna=skipna) + assert result == "empty" + + # GH 18004 + arr = np.array([np.array([], dtype=object), np.array([], dtype=object)]) + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "empty" + + def test_integers(self): + arr = np.array([1, 2, 3, np.int64(4), np.int32(5)], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "integer" + + arr = np.array([1, 2, 3, np.int64(4), np.int32(5), "foo"], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "mixed-integer" + + arr = np.array([1, 2, 3, 4, 5], dtype="i4") + result = lib.infer_dtype(arr, skipna=True) + assert result == "integer" + + @pytest.mark.parametrize( + "arr, skipna", + [ + (np.array([1, 2, np.nan, np.nan, 3], dtype="O"), False), + (np.array([1, 2, np.nan, np.nan, 3], dtype="O"), True), + (np.array([1, 2, 3, np.int64(4), np.int32(5), np.nan], dtype="O"), False), + (np.array([1, 2, 3, np.int64(4), np.int32(5), np.nan], dtype="O"), True), + ], + ) + def test_integer_na(self, arr, skipna): + # GH 27392 + result = lib.infer_dtype(arr, skipna=skipna) + expected = "integer" if skipna else "integer-na" + assert result == expected + + def test_infer_dtype_skipna_default(self): + # infer_dtype `skipna` default deprecated in GH#24050, + # changed to True in GH#29876 + arr = np.array([1, 2, 3, np.nan], dtype=object) + + result = lib.infer_dtype(arr) + assert result == "integer" + + def test_bools(self): + arr = np.array([True, False, True, True, True], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "boolean" + + arr = np.array([np.bool_(True), np.bool_(False)], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "boolean" + + arr = np.array([True, False, True, "foo"], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "mixed" + + arr = np.array([True, False, True], dtype=bool) + result = lib.infer_dtype(arr, skipna=True) + assert result == "boolean" + + arr = np.array([True, np.nan, False], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "boolean" + + result = lib.infer_dtype(arr, skipna=False) + assert result == "mixed" + + def test_floats(self): + arr = np.array([1.0, 2.0, 3.0, np.float64(4), np.float32(5)], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "floating" + + arr = np.array([1, 2, 3, np.float64(4), np.float32(5), "foo"], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "mixed-integer" + + arr = np.array([1, 2, 3, 4, 5], dtype="f4") + result = lib.infer_dtype(arr, skipna=True) + assert result == "floating" + + arr = np.array([1, 2, 3, 4, 5], dtype="f8") + result = lib.infer_dtype(arr, skipna=True) + assert result == "floating" + + def test_decimals(self): + # GH15690 + arr = np.array([Decimal(1), Decimal(2), Decimal(3)]) + result = lib.infer_dtype(arr, skipna=True) + assert result == "decimal" + + arr = np.array([1.0, 2.0, Decimal(3)]) + result = lib.infer_dtype(arr, skipna=True) + assert result == "mixed" + + result = lib.infer_dtype(arr[::-1], skipna=True) + assert result == "mixed" + + arr = np.array([Decimal(1), Decimal("NaN"), Decimal(3)]) + result = lib.infer_dtype(arr, skipna=True) + assert result == "decimal" + + arr = np.array([Decimal(1), np.nan, Decimal(3)], dtype="O") + result = lib.infer_dtype(arr, skipna=True) + assert result == "decimal" + + # complex is compatible with nan, so skipna has no effect + @pytest.mark.parametrize("skipna", [True, False]) + def test_complex(self, skipna): + # gets cast to complex on array construction + arr = np.array([1.0, 2.0, 1 + 1j]) + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "complex" + + arr = np.array([1.0, 2.0, 1 + 1j], dtype="O") + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "mixed" + + result = lib.infer_dtype(arr[::-1], skipna=skipna) + assert result == "mixed" + + # gets cast to complex on array construction + arr = np.array([1, np.nan, 1 + 1j]) + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "complex" + + arr = np.array([1.0, np.nan, 1 + 1j], dtype="O") + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "mixed" + + # complex with nans stays complex + arr = np.array([1 + 1j, np.nan, 3 + 3j], dtype="O") + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "complex" + + # test smaller complex dtype; will pass through _try_infer_map fastpath + arr = np.array([1 + 1j, np.nan, 3 + 3j], dtype=np.complex64) + result = lib.infer_dtype(arr, skipna=skipna) + assert result == "complex" + + def test_string(self): + pass + + def test_unicode(self): + arr = ["a", np.nan, "c"] + result = lib.infer_dtype(arr, skipna=False) + # This currently returns "mixed", but it's not clear that's optimal. + # This could also return "string" or "mixed-string" + assert result == "mixed" + + # even though we use skipna, we are only skipping those NAs that are + # considered matching by is_string_array + arr = ["a", np.nan, "c"] + result = lib.infer_dtype(arr, skipna=True) + assert result == "string" + + arr = ["a", pd.NA, "c"] + result = lib.infer_dtype(arr, skipna=True) + assert result == "string" + + arr = ["a", pd.NaT, "c"] + result = lib.infer_dtype(arr, skipna=True) + assert result == "mixed" + + arr = ["a", "c"] + result = lib.infer_dtype(arr, skipna=False) + assert result == "string" + + @pytest.mark.parametrize( + "dtype, missing, skipna, expected", + [ + (float, np.nan, False, "floating"), + (float, np.nan, True, "floating"), + (object, np.nan, False, "floating"), + (object, np.nan, True, "empty"), + (object, None, False, "mixed"), + (object, None, True, "empty"), + ], + ) + @pytest.mark.parametrize("box", [Series, np.array]) + def test_object_empty(self, box, missing, dtype, skipna, expected): + # GH 23421 + arr = box([missing, missing], dtype=dtype) + + result = lib.infer_dtype(arr, skipna=skipna) + assert result == expected + + def test_datetime(self): + dates = [datetime(2012, 1, x) for x in range(1, 20)] + index = Index(dates) + assert index.inferred_type == "datetime64" + + def test_infer_dtype_datetime64(self): + arr = np.array( + [np.datetime64("2011-01-01"), np.datetime64("2011-01-01")], dtype=object + ) + assert lib.infer_dtype(arr, skipna=True) == "datetime64" + + @pytest.mark.parametrize("na_value", [pd.NaT, np.nan]) + def test_infer_dtype_datetime64_with_na(self, na_value): + # starts with nan + arr = np.array([na_value, np.datetime64("2011-01-02")]) + assert lib.infer_dtype(arr, skipna=True) == "datetime64" + + arr = np.array([na_value, np.datetime64("2011-01-02"), na_value]) + assert lib.infer_dtype(arr, skipna=True) == "datetime64" + + @pytest.mark.parametrize( + "arr", + [ + np.array( + [np.timedelta64("nat"), np.datetime64("2011-01-02")], dtype=object + ), + np.array( + [np.datetime64("2011-01-02"), np.timedelta64("nat")], dtype=object + ), + np.array([np.datetime64("2011-01-01"), Timestamp("2011-01-02")]), + np.array([Timestamp("2011-01-02"), np.datetime64("2011-01-01")]), + np.array([np.nan, Timestamp("2011-01-02"), 1.1]), + np.array([np.nan, "2011-01-01", Timestamp("2011-01-02")], dtype=object), + np.array([np.datetime64("nat"), np.timedelta64(1, "D")], dtype=object), + np.array([np.timedelta64(1, "D"), np.datetime64("nat")], dtype=object), + ], + ) + def test_infer_datetimelike_dtype_mixed(self, arr): + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + def test_infer_dtype_mixed_integer(self): + arr = np.array([np.nan, Timestamp("2011-01-02"), 1]) + assert lib.infer_dtype(arr, skipna=True) == "mixed-integer" + + @pytest.mark.parametrize( + "arr", + [ + np.array([Timestamp("2011-01-01"), Timestamp("2011-01-02")]), + np.array([datetime(2011, 1, 1), datetime(2012, 2, 1)]), + np.array([datetime(2011, 1, 1), Timestamp("2011-01-02")]), + ], + ) + def test_infer_dtype_datetime(self, arr): + assert lib.infer_dtype(arr, skipna=True) == "datetime" + + @pytest.mark.parametrize("na_value", [pd.NaT, np.nan]) + @pytest.mark.parametrize( + "time_stamp", [Timestamp("2011-01-01"), datetime(2011, 1, 1)] + ) + def test_infer_dtype_datetime_with_na(self, na_value, time_stamp): + # starts with nan + arr = np.array([na_value, time_stamp]) + assert lib.infer_dtype(arr, skipna=True) == "datetime" + + arr = np.array([na_value, time_stamp, na_value]) + assert lib.infer_dtype(arr, skipna=True) == "datetime" + + @pytest.mark.parametrize( + "arr", + [ + np.array([Timedelta("1 days"), Timedelta("2 days")]), + np.array([np.timedelta64(1, "D"), np.timedelta64(2, "D")], dtype=object), + np.array([timedelta(1), timedelta(2)]), + ], + ) + def test_infer_dtype_timedelta(self, arr): + assert lib.infer_dtype(arr, skipna=True) == "timedelta" + + @pytest.mark.parametrize("na_value", [pd.NaT, np.nan]) + @pytest.mark.parametrize( + "delta", [Timedelta("1 days"), np.timedelta64(1, "D"), timedelta(1)] + ) + def test_infer_dtype_timedelta_with_na(self, na_value, delta): + # starts with nan + arr = np.array([na_value, delta]) + assert lib.infer_dtype(arr, skipna=True) == "timedelta" + + arr = np.array([na_value, delta, na_value]) + assert lib.infer_dtype(arr, skipna=True) == "timedelta" + + def test_infer_dtype_period(self): + # GH 13664 + arr = np.array([Period("2011-01", freq="D"), Period("2011-02", freq="D")]) + assert lib.infer_dtype(arr, skipna=True) == "period" + + # non-homogeneous freqs -> mixed + arr = np.array([Period("2011-01", freq="D"), Period("2011-02", freq="M")]) + assert lib.infer_dtype(arr, skipna=True) == "mixed" + + @pytest.mark.parametrize("klass", [pd.array, Series, Index]) + @pytest.mark.parametrize("skipna", [True, False]) + def test_infer_dtype_period_array(self, klass, skipna): + # https://github.com/pandas-dev/pandas/issues/23553 + values = klass( + [ + Period("2011-01-01", freq="D"), + Period("2011-01-02", freq="D"), + pd.NaT, + ] + ) + assert lib.infer_dtype(values, skipna=skipna) == "period" + + # periods but mixed freq + values = klass( + [ + Period("2011-01-01", freq="D"), + Period("2011-01-02", freq="M"), + pd.NaT, + ] + ) + # with pd.array this becomes NumpyExtensionArray which ends up + # as "unknown-array" + exp = "unknown-array" if klass is pd.array else "mixed" + assert lib.infer_dtype(values, skipna=skipna) == exp + + def test_infer_dtype_period_mixed(self): + arr = np.array( + [Period("2011-01", freq="M"), np.datetime64("nat")], dtype=object + ) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + arr = np.array( + [np.datetime64("nat"), Period("2011-01", freq="M")], dtype=object + ) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + @pytest.mark.parametrize("na_value", [pd.NaT, np.nan]) + def test_infer_dtype_period_with_na(self, na_value): + # starts with nan + arr = np.array([na_value, Period("2011-01", freq="D")]) + assert lib.infer_dtype(arr, skipna=True) == "period" + + arr = np.array([na_value, Period("2011-01", freq="D"), na_value]) + assert lib.infer_dtype(arr, skipna=True) == "period" + + def test_infer_dtype_all_nan_nat_like(self): + arr = np.array([np.nan, np.nan]) + assert lib.infer_dtype(arr, skipna=True) == "floating" + + # nan and None mix are result in mixed + arr = np.array([np.nan, np.nan, None]) + assert lib.infer_dtype(arr, skipna=True) == "empty" + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + arr = np.array([None, np.nan, np.nan]) + assert lib.infer_dtype(arr, skipna=True) == "empty" + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + # pd.NaT + arr = np.array([pd.NaT]) + assert lib.infer_dtype(arr, skipna=False) == "datetime" + + arr = np.array([pd.NaT, np.nan]) + assert lib.infer_dtype(arr, skipna=False) == "datetime" + + arr = np.array([np.nan, pd.NaT]) + assert lib.infer_dtype(arr, skipna=False) == "datetime" + + arr = np.array([np.nan, pd.NaT, np.nan]) + assert lib.infer_dtype(arr, skipna=False) == "datetime" + + arr = np.array([None, pd.NaT, None]) + assert lib.infer_dtype(arr, skipna=False) == "datetime" + + # np.datetime64(nat) + arr = np.array([np.datetime64("nat")]) + assert lib.infer_dtype(arr, skipna=False) == "datetime64" + + for n in [np.nan, pd.NaT, None]: + arr = np.array([n, np.datetime64("nat"), n]) + assert lib.infer_dtype(arr, skipna=False) == "datetime64" + + arr = np.array([pd.NaT, n, np.datetime64("nat"), n]) + assert lib.infer_dtype(arr, skipna=False) == "datetime64" + + arr = np.array([np.timedelta64("nat")], dtype=object) + assert lib.infer_dtype(arr, skipna=False) == "timedelta" + + for n in [np.nan, pd.NaT, None]: + arr = np.array([n, np.timedelta64("nat"), n]) + assert lib.infer_dtype(arr, skipna=False) == "timedelta" + + arr = np.array([pd.NaT, n, np.timedelta64("nat"), n]) + assert lib.infer_dtype(arr, skipna=False) == "timedelta" + + # datetime / timedelta mixed + arr = np.array([pd.NaT, np.datetime64("nat"), np.timedelta64("nat"), np.nan]) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + arr = np.array([np.timedelta64("nat"), np.datetime64("nat")], dtype=object) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + def test_is_datetimelike_array_all_nan_nat_like(self): + arr = np.array([np.nan, pd.NaT, np.datetime64("nat")]) + assert lib.is_datetime_array(arr) + assert lib.is_datetime64_array(arr) + assert not lib.is_timedelta_or_timedelta64_array(arr) + + arr = np.array([np.nan, pd.NaT, np.timedelta64("nat")]) + assert not lib.is_datetime_array(arr) + assert not lib.is_datetime64_array(arr) + assert lib.is_timedelta_or_timedelta64_array(arr) + + arr = np.array([np.nan, pd.NaT, np.datetime64("nat"), np.timedelta64("nat")]) + assert not lib.is_datetime_array(arr) + assert not lib.is_datetime64_array(arr) + assert not lib.is_timedelta_or_timedelta64_array(arr) + + arr = np.array([np.nan, pd.NaT]) + assert lib.is_datetime_array(arr) + assert lib.is_datetime64_array(arr) + assert lib.is_timedelta_or_timedelta64_array(arr) + + arr = np.array([np.nan, np.nan], dtype=object) + assert not lib.is_datetime_array(arr) + assert not lib.is_datetime64_array(arr) + assert not lib.is_timedelta_or_timedelta64_array(arr) + + assert lib.is_datetime_with_singletz_array( + np.array( + [ + Timestamp("20130101", tz="US/Eastern"), + Timestamp("20130102", tz="US/Eastern"), + ], + dtype=object, + ) + ) + assert not lib.is_datetime_with_singletz_array( + np.array( + [ + Timestamp("20130101", tz="US/Eastern"), + Timestamp("20130102", tz="CET"), + ], + dtype=object, + ) + ) + + @pytest.mark.parametrize( + "func", + [ + "is_datetime_array", + "is_datetime64_array", + "is_bool_array", + "is_timedelta_or_timedelta64_array", + "is_date_array", + "is_time_array", + "is_interval_array", + ], + ) + def test_other_dtypes_for_array(self, func): + func = getattr(lib, func) + arr = np.array(["foo", "bar"]) + assert not func(arr) + assert not func(arr.reshape(2, 1)) + + arr = np.array([1, 2]) + assert not func(arr) + assert not func(arr.reshape(2, 1)) + + def test_date(self): + dates = [date(2012, 1, day) for day in range(1, 20)] + index = Index(dates) + assert index.inferred_type == "date" + + dates = [date(2012, 1, day) for day in range(1, 20)] + [np.nan] + result = lib.infer_dtype(dates, skipna=False) + assert result == "mixed" + + result = lib.infer_dtype(dates, skipna=True) + assert result == "date" + + @pytest.mark.parametrize( + "values", + [ + [date(2020, 1, 1), Timestamp("2020-01-01")], + [Timestamp("2020-01-01"), date(2020, 1, 1)], + [date(2020, 1, 1), pd.NaT], + [pd.NaT, date(2020, 1, 1)], + ], + ) + @pytest.mark.parametrize("skipna", [True, False]) + def test_infer_dtype_date_order_invariant(self, values, skipna): + # https://github.com/pandas-dev/pandas/issues/33741 + result = lib.infer_dtype(values, skipna=skipna) + assert result == "date" + + def test_is_numeric_array(self): + assert lib.is_float_array(np.array([1, 2.0])) + assert lib.is_float_array(np.array([1, 2.0, np.nan])) + assert not lib.is_float_array(np.array([1, 2])) + + assert lib.is_integer_array(np.array([1, 2])) + assert not lib.is_integer_array(np.array([1, 2.0])) + + def test_is_string_array(self): + # We should only be accepting pd.NA, np.nan, + # other floating point nans e.g. float('nan')] + # when skipna is True. + assert lib.is_string_array(np.array(["foo", "bar"])) + assert not lib.is_string_array( + np.array(["foo", "bar", pd.NA], dtype=object), skipna=False + ) + assert lib.is_string_array( + np.array(["foo", "bar", pd.NA], dtype=object), skipna=True + ) + # we allow NaN/None in the StringArray constructor, so its allowed here + assert lib.is_string_array( + np.array(["foo", "bar", None], dtype=object), skipna=True + ) + assert lib.is_string_array( + np.array(["foo", "bar", np.nan], dtype=object), skipna=True + ) + # But not e.g. datetimelike or Decimal NAs + assert not lib.is_string_array( + np.array(["foo", "bar", pd.NaT], dtype=object), skipna=True + ) + assert not lib.is_string_array( + np.array(["foo", "bar", np.datetime64("NaT")], dtype=object), skipna=True + ) + assert not lib.is_string_array( + np.array(["foo", "bar", Decimal("NaN")], dtype=object), skipna=True + ) + + assert not lib.is_string_array( + np.array(["foo", "bar", None], dtype=object), skipna=False + ) + assert not lib.is_string_array( + np.array(["foo", "bar", np.nan], dtype=object), skipna=False + ) + assert not lib.is_string_array(np.array([1, 2])) + + @pytest.mark.parametrize( + "func", + [ + "is_bool_array", + "is_date_array", + "is_datetime_array", + "is_datetime64_array", + "is_float_array", + "is_integer_array", + "is_interval_array", + "is_string_array", + "is_time_array", + "is_timedelta_or_timedelta64_array", + ], + ) + def test_is_dtype_array_empty_obj(self, func): + # https://github.com/pandas-dev/pandas/pull/60796 + func = getattr(lib, func) + + arr = np.empty((2, 0), dtype=object) + assert not func(arr) + + arr = np.empty((0, 2), dtype=object) + assert not func(arr) + + def test_to_object_array_tuples(self): + r = (5, 6) + values = [r] + lib.to_object_array_tuples(values) + + # make sure record array works + record = namedtuple("record", "x y") + r = record(5, 6) + values = [r] + lib.to_object_array_tuples(values) + + def test_object(self): + # GH 7431 + # cannot infer more than this as only a single element + arr = np.array([None], dtype="O") + result = lib.infer_dtype(arr, skipna=False) + assert result == "mixed" + result = lib.infer_dtype(arr, skipna=True) + assert result == "empty" + + def test_to_object_array_width(self): + # see gh-13320 + rows = [[1, 2, 3], [4, 5, 6]] + + expected = np.array(rows, dtype=object) + out = lib.to_object_array(rows) + tm.assert_numpy_array_equal(out, expected) + + expected = np.array(rows, dtype=object) + out = lib.to_object_array(rows, min_width=1) + tm.assert_numpy_array_equal(out, expected) + + expected = np.array( + [[1, 2, 3, None, None], [4, 5, 6, None, None]], dtype=object + ) + out = lib.to_object_array(rows, min_width=5) + tm.assert_numpy_array_equal(out, expected) + + def test_is_period(self): + # GH#55264 + msg = "is_period is deprecated and will be removed in a future version" + with tm.assert_produces_warning(FutureWarning, match=msg): + assert lib.is_period(Period("2011-01", freq="M")) + assert not lib.is_period(PeriodIndex(["2011-01"], freq="M")) + assert not lib.is_period(Timestamp("2011-01")) + assert not lib.is_period(1) + assert not lib.is_period(np.nan) + + def test_is_interval(self): + # GH#55264 + msg = "is_interval is deprecated and will be removed in a future version" + item = Interval(1, 2) + with tm.assert_produces_warning(FutureWarning, match=msg): + assert lib.is_interval(item) + assert not lib.is_interval(pd.IntervalIndex([item])) + assert not lib.is_interval(pd.IntervalIndex([item])._engine) + + def test_categorical(self): + # GH 8974 + arr = Categorical(list("abc")) + result = lib.infer_dtype(arr, skipna=True) + assert result == "categorical" + + result = lib.infer_dtype(Series(arr), skipna=True) + assert result == "categorical" + + arr = Categorical(list("abc"), categories=["cegfab"], ordered=True) + result = lib.infer_dtype(arr, skipna=True) + assert result == "categorical" + + result = lib.infer_dtype(Series(arr), skipna=True) + assert result == "categorical" + + @pytest.mark.parametrize("asobject", [True, False]) + def test_interval(self, asobject): + idx = pd.IntervalIndex.from_breaks(range(5), closed="both") + if asobject: + idx = idx.astype(object) + + inferred = lib.infer_dtype(idx, skipna=False) + assert inferred == "interval" + + inferred = lib.infer_dtype(idx._data, skipna=False) + assert inferred == "interval" + + inferred = lib.infer_dtype(Series(idx, dtype=idx.dtype), skipna=False) + assert inferred == "interval" + + @pytest.mark.parametrize("value", [Timestamp(0), Timedelta(0), 0, 0.0]) + def test_interval_mismatched_closed(self, value): + first = Interval(value, value, closed="left") + second = Interval(value, value, closed="right") + + # if closed match, we should infer "interval" + arr = np.array([first, first], dtype=object) + assert lib.infer_dtype(arr, skipna=False) == "interval" + + # if closed dont match, we should _not_ get "interval" + arr2 = np.array([first, second], dtype=object) + assert lib.infer_dtype(arr2, skipna=False) == "mixed" + + def test_interval_mismatched_subtype(self): + first = Interval(0, 1, closed="left") + second = Interval(Timestamp(0), Timestamp(1), closed="left") + third = Interval(Timedelta(0), Timedelta(1), closed="left") + + arr = np.array([first, second]) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + arr = np.array([second, third]) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + arr = np.array([first, third]) + assert lib.infer_dtype(arr, skipna=False) == "mixed" + + # float vs int subdtype are compatible + flt_interval = Interval(1.5, 2.5, closed="left") + arr = np.array([first, flt_interval], dtype=object) + assert lib.infer_dtype(arr, skipna=False) == "interval" + + @pytest.mark.parametrize("klass", [pd.array, Series]) + @pytest.mark.parametrize("skipna", [True, False]) + @pytest.mark.parametrize("data", [["a", "b", "c"], ["a", "b", pd.NA]]) + def test_string_dtype(self, data, skipna, klass, nullable_string_dtype): + # StringArray + val = klass(data, dtype=nullable_string_dtype) + inferred = lib.infer_dtype(val, skipna=skipna) + assert inferred == "string" + + @pytest.mark.parametrize("klass", [pd.array, Series]) + @pytest.mark.parametrize("skipna", [True, False]) + @pytest.mark.parametrize("data", [[True, False, True], [True, False, pd.NA]]) + def test_boolean_dtype(self, data, skipna, klass): + # BooleanArray + val = klass(data, dtype="boolean") + inferred = lib.infer_dtype(val, skipna=skipna) + assert inferred == "boolean" + + +class TestNumberScalar: + def test_is_number(self): + assert is_number(True) + assert is_number(1) + assert is_number(1.1) + assert is_number(1 + 3j) + assert is_number(np.int64(1)) + assert is_number(np.float64(1.1)) + assert is_number(np.complex128(1 + 3j)) + assert is_number(np.nan) + + assert not is_number(None) + assert not is_number("x") + assert not is_number(datetime(2011, 1, 1)) + assert not is_number(np.datetime64("2011-01-01")) + assert not is_number(Timestamp("2011-01-01")) + assert not is_number(Timestamp("2011-01-01", tz="US/Eastern")) + assert not is_number(timedelta(1000)) + assert not is_number(Timedelta("1 days")) + + # questionable + assert not is_number(np.bool_(False)) + assert is_number(np.timedelta64(1, "D")) + + def test_is_bool(self): + assert is_bool(True) + assert is_bool(False) + assert is_bool(np.bool_(False)) + + assert not is_bool(1) + assert not is_bool(1.1) + assert not is_bool(1 + 3j) + assert not is_bool(np.int64(1)) + assert not is_bool(np.float64(1.1)) + assert not is_bool(np.complex128(1 + 3j)) + assert not is_bool(np.nan) + assert not is_bool(None) + assert not is_bool("x") + assert not is_bool(datetime(2011, 1, 1)) + assert not is_bool(np.datetime64("2011-01-01")) + assert not is_bool(Timestamp("2011-01-01")) + assert not is_bool(Timestamp("2011-01-01", tz="US/Eastern")) + assert not is_bool(timedelta(1000)) + assert not is_bool(np.timedelta64(1, "D")) + assert not is_bool(Timedelta("1 days")) + + def test_is_integer(self): + assert is_integer(1) + assert is_integer(np.int64(1)) + + assert not is_integer(True) + assert not is_integer(1.1) + assert not is_integer(1 + 3j) + assert not is_integer(False) + assert not is_integer(np.bool_(False)) + assert not is_integer(np.float64(1.1)) + assert not is_integer(np.complex128(1 + 3j)) + assert not is_integer(np.nan) + assert not is_integer(None) + assert not is_integer("x") + assert not is_integer(datetime(2011, 1, 1)) + assert not is_integer(np.datetime64("2011-01-01")) + assert not is_integer(Timestamp("2011-01-01")) + assert not is_integer(Timestamp("2011-01-01", tz="US/Eastern")) + assert not is_integer(timedelta(1000)) + assert not is_integer(Timedelta("1 days")) + assert not is_integer(np.timedelta64(1, "D")) + + def test_is_float(self): + assert is_float(1.1) + assert is_float(np.float64(1.1)) + assert is_float(np.nan) + + assert not is_float(True) + assert not is_float(1) + assert not is_float(1 + 3j) + assert not is_float(False) + assert not is_float(np.bool_(False)) + assert not is_float(np.int64(1)) + assert not is_float(np.complex128(1 + 3j)) + assert not is_float(None) + assert not is_float("x") + assert not is_float(datetime(2011, 1, 1)) + assert not is_float(np.datetime64("2011-01-01")) + assert not is_float(Timestamp("2011-01-01")) + assert not is_float(Timestamp("2011-01-01", tz="US/Eastern")) + assert not is_float(timedelta(1000)) + assert not is_float(np.timedelta64(1, "D")) + assert not is_float(Timedelta("1 days")) + + def test_is_datetime_dtypes(self): + ts = pd.date_range("20130101", periods=3) + tsa = pd.date_range("20130101", periods=3, tz="US/Eastern") + + msg = "is_datetime64tz_dtype is deprecated" + + assert is_datetime64_dtype("datetime64") + assert is_datetime64_dtype("datetime64[ns]") + assert is_datetime64_dtype(ts) + assert not is_datetime64_dtype(tsa) + + assert not is_datetime64_ns_dtype("datetime64") + assert is_datetime64_ns_dtype("datetime64[ns]") + assert is_datetime64_ns_dtype(ts) + assert is_datetime64_ns_dtype(tsa) + + assert is_datetime64_any_dtype("datetime64") + assert is_datetime64_any_dtype("datetime64[ns]") + assert is_datetime64_any_dtype(ts) + assert is_datetime64_any_dtype(tsa) + + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert not is_datetime64tz_dtype("datetime64") + assert not is_datetime64tz_dtype("datetime64[ns]") + assert not is_datetime64tz_dtype(ts) + assert is_datetime64tz_dtype(tsa) + + @pytest.mark.parametrize("tz", ["US/Eastern", "UTC"]) + def test_is_datetime_dtypes_with_tz(self, tz): + dtype = f"datetime64[ns, {tz}]" + assert not is_datetime64_dtype(dtype) + + msg = "is_datetime64tz_dtype is deprecated" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + assert is_datetime64tz_dtype(dtype) + assert is_datetime64_ns_dtype(dtype) + assert is_datetime64_any_dtype(dtype) + + def test_is_timedelta(self): + assert is_timedelta64_dtype("timedelta64") + assert is_timedelta64_dtype("timedelta64[ns]") + assert not is_timedelta64_ns_dtype("timedelta64") + assert is_timedelta64_ns_dtype("timedelta64[ns]") + + tdi = TimedeltaIndex([1e14, 2e14], dtype="timedelta64[ns]") + assert is_timedelta64_dtype(tdi) + assert is_timedelta64_ns_dtype(tdi) + assert is_timedelta64_ns_dtype(tdi.astype("timedelta64[ns]")) + + assert not is_timedelta64_ns_dtype(Index([], dtype=np.float64)) + assert not is_timedelta64_ns_dtype(Index([], dtype=np.int64)) + + +class TestIsScalar: + def test_is_scalar_builtin_scalars(self): + assert is_scalar(None) + assert is_scalar(True) + assert is_scalar(False) + assert is_scalar(Fraction()) + assert is_scalar(0.0) + assert is_scalar(1) + assert is_scalar(complex(2)) + assert is_scalar(float("NaN")) + assert is_scalar(np.nan) + assert is_scalar("foobar") + assert is_scalar(b"foobar") + assert is_scalar(datetime(2014, 1, 1)) + assert is_scalar(date(2014, 1, 1)) + assert is_scalar(time(12, 0)) + assert is_scalar(timedelta(hours=1)) + assert is_scalar(pd.NaT) + assert is_scalar(pd.NA) + + def test_is_scalar_builtin_nonscalars(self): + assert not is_scalar({}) + assert not is_scalar([]) + assert not is_scalar([1]) + assert not is_scalar(()) + assert not is_scalar((1,)) + assert not is_scalar(slice(None)) + assert not is_scalar(Ellipsis) + + def test_is_scalar_numpy_array_scalars(self): + assert is_scalar(np.int64(1)) + assert is_scalar(np.float64(1.0)) + assert is_scalar(np.int32(1)) + assert is_scalar(np.complex64(2)) + assert is_scalar(np.object_("foobar")) + assert is_scalar(np.str_("foobar")) + assert is_scalar(np.bytes_(b"foobar")) + assert is_scalar(np.datetime64("2014-01-01")) + assert is_scalar(np.timedelta64(1, "h")) + + @pytest.mark.parametrize( + "zerodim", + [ + np.array(1), + np.array("foobar"), + np.array(np.datetime64("2014-01-01")), + np.array(np.timedelta64(1, "h")), + np.array(np.datetime64("NaT")), + ], + ) + def test_is_scalar_numpy_zerodim_arrays(self, zerodim): + assert not is_scalar(zerodim) + assert is_scalar(lib.item_from_zerodim(zerodim)) + + @pytest.mark.parametrize("arr", [np.array([]), np.array([[]])]) + def test_is_scalar_numpy_arrays(self, arr): + assert not is_scalar(arr) + assert not is_scalar(MockNumpyLikeArray(arr)) + + def test_is_scalar_pandas_scalars(self): + assert is_scalar(Timestamp("2014-01-01")) + assert is_scalar(Timedelta(hours=1)) + assert is_scalar(Period("2014-01-01")) + assert is_scalar(Interval(left=0, right=1)) + assert is_scalar(DateOffset(days=1)) + assert is_scalar(pd.offsets.Minute(3)) + + def test_is_scalar_pandas_containers(self): + assert not is_scalar(Series(dtype=object)) + assert not is_scalar(Series([1])) + assert not is_scalar(DataFrame()) + assert not is_scalar(DataFrame([[1]])) + assert not is_scalar(Index([])) + assert not is_scalar(Index([1])) + assert not is_scalar(Categorical([])) + assert not is_scalar(DatetimeIndex([])._data) + assert not is_scalar(TimedeltaIndex([])._data) + assert not is_scalar(DatetimeIndex([])._data.to_period("D")) + assert not is_scalar(pd.array([1, 2, 3])) + + def test_is_scalar_number(self): + # Number() is not recognied by PyNumber_Check, so by extension + # is not recognized by is_scalar, but instances of non-abstract + # subclasses are. + + class Numeric(Number): + def __init__(self, value) -> None: + self.value = value + + def __int__(self) -> int: + return self.value + + num = Numeric(1) + assert is_scalar(num) + + +@pytest.mark.parametrize("unit", ["ms", "us", "ns"]) +def test_datetimeindex_from_empty_datetime64_array(unit): + idx = DatetimeIndex(np.array([], dtype=f"datetime64[{unit}]")) + assert len(idx) == 0 + + +def test_nan_to_nat_conversions(): + df = DataFrame( + {"A": np.asarray(range(10), dtype="float64"), "B": Timestamp("20010101")} + ) + df.iloc[3:6, :] = np.nan + result = df.loc[4, "B"] + assert result is pd.NaT + + s = df["B"].copy() + s[8:9] = np.nan + assert s[8] is pd.NaT + + +@pytest.mark.filterwarnings("ignore::PendingDeprecationWarning") +def test_is_scipy_sparse(spmatrix): + pytest.importorskip("scipy") + assert is_scipy_sparse(spmatrix([[0, 1]])) + assert not is_scipy_sparse(np.array([1])) + + +def test_ensure_int32(): + values = np.arange(10, dtype=np.int32) + result = ensure_int32(values) + assert result.dtype == np.int32 + + values = np.arange(10, dtype=np.int64) + result = ensure_int32(values) + assert result.dtype == np.int32 + + +@pytest.mark.parametrize( + "right,result", + [ + (0, np.uint8), + (-1, np.int16), + (300, np.uint16), + # For floats, we just upcast directly to float64 instead of trying to + # find a smaller floating dtype + (300.0, np.uint16), # for integer floats, we convert them to ints + (300.1, np.float64), + (np.int16(300), np.int16 if np_version_gt2 else np.uint16), + ], +) +def test_find_result_type_uint_int(right, result): + left_dtype = np.dtype("uint8") + assert find_result_type(left_dtype, right) == result + + +@pytest.mark.parametrize( + "right,result", + [ + (0, np.int8), + (-1, np.int8), + (300, np.int16), + # For floats, we just upcast directly to float64 instead of trying to + # find a smaller floating dtype + (300.0, np.int16), # for integer floats, we convert them to ints + (300.1, np.float64), + (np.int16(300), np.int16), + ], +) +def test_find_result_type_int_int(right, result): + left_dtype = np.dtype("int8") + assert find_result_type(left_dtype, right) == result + + +@pytest.mark.parametrize( + "right,result", + [ + (300.0, np.float64), + (np.float32(300), np.float32), + ], +) +def test_find_result_type_floats(right, result): + left_dtype = np.dtype("float16") + assert find_result_type(left_dtype, right) == result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_missing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_missing.py new file mode 100644 index 0000000000000000000000000000000000000000..e3d3e98ae2b93f0a182ea15a3a11d6af39fd2f05 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/dtypes/test_missing.py @@ -0,0 +1,923 @@ +from contextlib import nullcontext +from datetime import datetime +from decimal import Decimal + +import numpy as np +import pytest + +from pandas._config import config as cf + +from pandas._libs import missing as libmissing +from pandas._libs.tslibs import iNaT +from pandas.compat.numpy import np_version_gte1p25 + +from pandas.core.dtypes.common import ( + is_float, + is_scalar, + pandas_dtype, +) +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + IntervalDtype, + PeriodDtype, +) +from pandas.core.dtypes.missing import ( + array_equivalent, + is_valid_na_for_dtype, + isna, + isnull, + na_value_for_dtype, + notna, + notnull, +) + +import pandas as pd +from pandas import ( + DatetimeIndex, + Index, + NaT, + Series, + TimedeltaIndex, + date_range, + period_range, +) +import pandas._testing as tm + +fix_now = pd.Timestamp("2021-01-01") +fix_utcnow = pd.Timestamp("2021-01-01", tz="UTC") + + +@pytest.mark.parametrize("notna_f", [notna, notnull]) +def test_notna_notnull(notna_f): + assert notna_f(1.0) + assert not notna_f(None) + assert not notna_f(np.nan) + + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with cf.option_context("mode.use_inf_as_na", False): + assert notna_f(np.inf) + assert notna_f(-np.inf) + + arr = np.array([1.5, np.inf, 3.5, -np.inf]) + result = notna_f(arr) + assert result.all() + + with tm.assert_produces_warning(FutureWarning, match=msg): + with cf.option_context("mode.use_inf_as_na", True): + assert not notna_f(np.inf) + assert not notna_f(-np.inf) + + arr = np.array([1.5, np.inf, 3.5, -np.inf]) + result = notna_f(arr) + assert result.sum() == 2 + + +@pytest.mark.parametrize("null_func", [notna, notnull, isna, isnull]) +@pytest.mark.parametrize( + "ser", + [ + Series( + [str(i) for i in range(5)], + index=Index([str(i) for i in range(5)], dtype=object), + dtype=object, + ), + Series(range(5), date_range("2020-01-01", periods=5)), + Series(range(5), period_range("2020-01-01", periods=5)), + ], +) +def test_null_check_is_series(null_func, ser): + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with cf.option_context("mode.use_inf_as_na", False): + assert isinstance(null_func(ser), Series) + + +class TestIsNA: + def test_0d_array(self): + assert isna(np.array(np.nan)) + assert not isna(np.array(0.0)) + assert not isna(np.array(0)) + # test object dtype + assert isna(np.array(np.nan, dtype=object)) + assert not isna(np.array(0.0, dtype=object)) + assert not isna(np.array(0, dtype=object)) + + @pytest.mark.parametrize("shape", [(4, 0), (4,)]) + def test_empty_object(self, shape): + arr = np.empty(shape=shape, dtype=object) + result = isna(arr) + expected = np.ones(shape=shape, dtype=bool) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("isna_f", [isna, isnull]) + def test_isna_isnull(self, isna_f): + assert not isna_f(1.0) + assert isna_f(None) + assert isna_f(np.nan) + assert float("nan") + assert not isna_f(np.inf) + assert not isna_f(-np.inf) + + # type + assert not isna_f(type(Series(dtype=object))) + assert not isna_f(type(Series(dtype=np.float64))) + assert not isna_f(type(pd.DataFrame())) + + @pytest.mark.parametrize("isna_f", [isna, isnull]) + @pytest.mark.parametrize( + "data", + [ + np.arange(4, dtype=float), + [0.0, 1.0, 0.0, 1.0], + Series(list("abcd")), + date_range("2020-01-01", periods=4), + ], + ) + @pytest.mark.parametrize( + "index", + [ + date_range("2020-01-01", periods=4), + range(4), + period_range("2020-01-01", periods=4), + ], + ) + def test_isna_isnull_frame(self, isna_f, data, index): + # frame + df = pd.DataFrame(data, index=index) + result = isna_f(df) + expected = df.apply(isna_f) + tm.assert_frame_equal(result, expected) + + def test_isna_lists(self): + result = isna([[False]]) + exp = np.array([[False]]) + tm.assert_numpy_array_equal(result, exp) + + result = isna([[1], [2]]) + exp = np.array([[False], [False]]) + tm.assert_numpy_array_equal(result, exp) + + # list of strings / unicode + result = isna(["foo", "bar"]) + exp = np.array([False, False]) + tm.assert_numpy_array_equal(result, exp) + + result = isna(["foo", "bar"]) + exp = np.array([False, False]) + tm.assert_numpy_array_equal(result, exp) + + # GH20675 + result = isna([np.nan, "world"]) + exp = np.array([True, False]) + tm.assert_numpy_array_equal(result, exp) + + def test_isna_nat(self): + result = isna([NaT]) + exp = np.array([True]) + tm.assert_numpy_array_equal(result, exp) + + result = isna(np.array([NaT], dtype=object)) + exp = np.array([True]) + tm.assert_numpy_array_equal(result, exp) + + def test_isna_numpy_nat(self): + arr = np.array( + [ + NaT, + np.datetime64("NaT"), + np.timedelta64("NaT"), + np.datetime64("NaT", "s"), + ] + ) + result = isna(arr) + expected = np.array([True] * 4) + tm.assert_numpy_array_equal(result, expected) + + def test_isna_datetime(self): + assert not isna(datetime.now()) + assert notna(datetime.now()) + + idx = date_range("1/1/1990", periods=20) + exp = np.ones(len(idx), dtype=bool) + tm.assert_numpy_array_equal(notna(idx), exp) + + idx = np.asarray(idx) + idx[0] = iNaT + idx = DatetimeIndex(idx) + mask = isna(idx) + assert mask[0] + exp = np.array([True] + [False] * (len(idx) - 1), dtype=bool) + tm.assert_numpy_array_equal(mask, exp) + + # GH 9129 + pidx = idx.to_period(freq="M") + mask = isna(pidx) + assert mask[0] + exp = np.array([True] + [False] * (len(idx) - 1), dtype=bool) + tm.assert_numpy_array_equal(mask, exp) + + mask = isna(pidx[1:]) + exp = np.zeros(len(mask), dtype=bool) + tm.assert_numpy_array_equal(mask, exp) + + def test_isna_old_datetimelike(self): + # isna_old should work for dt64tz, td64, and period, not just tznaive + dti = date_range("2016-01-01", periods=3) + dta = dti._data + dta[-1] = NaT + expected = np.array([False, False, True], dtype=bool) + + objs = [dta, dta.tz_localize("US/Eastern"), dta - dta, dta.to_period("D")] + + for obj in objs: + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with cf.option_context("mode.use_inf_as_na", True): + result = isna(obj) + + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize( + "value, expected", + [ + (np.complex128(np.nan), True), + (np.float64(1), False), + (np.array([1, 1 + 0j, np.nan, 3]), np.array([False, False, True, False])), + ( + np.array([1, 1 + 0j, np.nan, 3], dtype=object), + np.array([False, False, True, False]), + ), + ( + np.array([1, 1 + 0j, np.nan, 3]).astype(object), + np.array([False, False, True, False]), + ), + ], + ) + def test_complex(self, value, expected): + result = isna(value) + if is_scalar(result): + assert result is expected + else: + tm.assert_numpy_array_equal(result, expected) + + def test_datetime_other_units(self): + idx = DatetimeIndex(["2011-01-01", "NaT", "2011-01-02"]) + exp = np.array([False, True, False]) + tm.assert_numpy_array_equal(isna(idx), exp) + tm.assert_numpy_array_equal(notna(idx), ~exp) + tm.assert_numpy_array_equal(isna(idx.values), exp) + tm.assert_numpy_array_equal(notna(idx.values), ~exp) + + @pytest.mark.parametrize( + "dtype", + [ + "datetime64[D]", + "datetime64[h]", + "datetime64[m]", + "datetime64[s]", + "datetime64[ms]", + "datetime64[us]", + "datetime64[ns]", + ], + ) + def test_datetime_other_units_astype(self, dtype): + idx = DatetimeIndex(["2011-01-01", "NaT", "2011-01-02"]) + values = idx.values.astype(dtype) + + exp = np.array([False, True, False]) + tm.assert_numpy_array_equal(isna(values), exp) + tm.assert_numpy_array_equal(notna(values), ~exp) + + exp = Series([False, True, False]) + s = Series(values) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + s = Series(values, dtype=object) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + + def test_timedelta_other_units(self): + idx = TimedeltaIndex(["1 days", "NaT", "2 days"]) + exp = np.array([False, True, False]) + tm.assert_numpy_array_equal(isna(idx), exp) + tm.assert_numpy_array_equal(notna(idx), ~exp) + tm.assert_numpy_array_equal(isna(idx.values), exp) + tm.assert_numpy_array_equal(notna(idx.values), ~exp) + + @pytest.mark.parametrize( + "dtype", + [ + "timedelta64[D]", + "timedelta64[h]", + "timedelta64[m]", + "timedelta64[s]", + "timedelta64[ms]", + "timedelta64[us]", + "timedelta64[ns]", + ], + ) + def test_timedelta_other_units_dtype(self, dtype): + idx = TimedeltaIndex(["1 days", "NaT", "2 days"]) + values = idx.values.astype(dtype) + + exp = np.array([False, True, False]) + tm.assert_numpy_array_equal(isna(values), exp) + tm.assert_numpy_array_equal(notna(values), ~exp) + + exp = Series([False, True, False]) + s = Series(values) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + s = Series(values, dtype=object) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + + def test_period(self): + idx = pd.PeriodIndex(["2011-01", "NaT", "2012-01"], freq="M") + exp = np.array([False, True, False]) + tm.assert_numpy_array_equal(isna(idx), exp) + tm.assert_numpy_array_equal(notna(idx), ~exp) + + exp = Series([False, True, False]) + s = Series(idx) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + s = Series(idx, dtype=object) + tm.assert_series_equal(isna(s), exp) + tm.assert_series_equal(notna(s), ~exp) + + def test_decimal(self): + # scalars GH#23530 + a = Decimal(1.0) + assert isna(a) is False + assert notna(a) is True + + b = Decimal("NaN") + assert isna(b) is True + assert notna(b) is False + + # array + arr = np.array([a, b]) + expected = np.array([False, True]) + result = isna(arr) + tm.assert_numpy_array_equal(result, expected) + + result = notna(arr) + tm.assert_numpy_array_equal(result, ~expected) + + # series + ser = Series(arr) + expected = Series(expected) + result = isna(ser) + tm.assert_series_equal(result, expected) + + result = notna(ser) + tm.assert_series_equal(result, ~expected) + + # index + idx = Index(arr) + expected = np.array([False, True]) + result = isna(idx) + tm.assert_numpy_array_equal(result, expected) + + result = notna(idx) + tm.assert_numpy_array_equal(result, ~expected) + + +@pytest.mark.parametrize("dtype_equal", [True, False]) +def test_array_equivalent(dtype_equal): + assert array_equivalent( + np.array([np.nan, np.nan]), np.array([np.nan, np.nan]), dtype_equal=dtype_equal + ) + assert array_equivalent( + np.array([np.nan, 1, np.nan]), + np.array([np.nan, 1, np.nan]), + dtype_equal=dtype_equal, + ) + assert array_equivalent( + np.array([np.nan, None], dtype="object"), + np.array([np.nan, None], dtype="object"), + dtype_equal=dtype_equal, + ) + # Check the handling of nested arrays in array_equivalent_object + assert array_equivalent( + np.array([np.array([np.nan, None], dtype="object"), None], dtype="object"), + np.array([np.array([np.nan, None], dtype="object"), None], dtype="object"), + dtype_equal=dtype_equal, + ) + assert array_equivalent( + np.array([np.nan, 1 + 1j], dtype="complex"), + np.array([np.nan, 1 + 1j], dtype="complex"), + dtype_equal=dtype_equal, + ) + assert not array_equivalent( + np.array([np.nan, 1 + 1j], dtype="complex"), + np.array([np.nan, 1 + 2j], dtype="complex"), + dtype_equal=dtype_equal, + ) + assert not array_equivalent( + np.array([np.nan, 1, np.nan]), + np.array([np.nan, 2, np.nan]), + dtype_equal=dtype_equal, + ) + assert not array_equivalent( + np.array(["a", "b", "c", "d"]), np.array(["e", "e"]), dtype_equal=dtype_equal + ) + assert array_equivalent( + Index([0, np.nan]), Index([0, np.nan]), dtype_equal=dtype_equal + ) + assert not array_equivalent( + Index([0, np.nan]), Index([1, np.nan]), dtype_equal=dtype_equal + ) + + +@pytest.mark.parametrize("dtype_equal", [True, False]) +def test_array_equivalent_tdi(dtype_equal): + assert array_equivalent( + TimedeltaIndex([0, np.nan]), + TimedeltaIndex([0, np.nan]), + dtype_equal=dtype_equal, + ) + assert not array_equivalent( + TimedeltaIndex([0, np.nan]), + TimedeltaIndex([1, np.nan]), + dtype_equal=dtype_equal, + ) + + +@pytest.mark.parametrize("dtype_equal", [True, False]) +def test_array_equivalent_dti(dtype_equal): + assert array_equivalent( + DatetimeIndex([0, np.nan]), DatetimeIndex([0, np.nan]), dtype_equal=dtype_equal + ) + assert not array_equivalent( + DatetimeIndex([0, np.nan]), DatetimeIndex([1, np.nan]), dtype_equal=dtype_equal + ) + + dti1 = DatetimeIndex([0, np.nan], tz="US/Eastern") + dti2 = DatetimeIndex([0, np.nan], tz="CET") + dti3 = DatetimeIndex([1, np.nan], tz="US/Eastern") + + assert array_equivalent( + dti1, + dti1, + dtype_equal=dtype_equal, + ) + assert not array_equivalent( + dti1, + dti3, + dtype_equal=dtype_equal, + ) + # The rest are not dtype_equal + assert not array_equivalent(DatetimeIndex([0, np.nan]), dti1) + assert array_equivalent( + dti2, + dti1, + ) + + assert not array_equivalent(DatetimeIndex([0, np.nan]), TimedeltaIndex([0, np.nan])) + + +@pytest.mark.parametrize( + "val", [1, 1.1, 1 + 1j, True, "abc", [1, 2], (1, 2), {1, 2}, {"a": 1}, None] +) +def test_array_equivalent_series(val): + arr = np.array([1, 2]) + msg = "elementwise comparison failed" + cm = ( + # stacklevel is chosen to make sense when called from .equals + tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False) + if isinstance(val, str) and not np_version_gte1p25 + else nullcontext() + ) + with cm: + assert not array_equivalent(Series([arr, arr]), Series([arr, val])) + + +def test_array_equivalent_array_mismatched_shape(): + # to trigger the motivating bug, the first N elements of the arrays need + # to match + first = np.array([1, 2, 3]) + second = np.array([1, 2]) + + left = Series([first, "a"], dtype=object) + right = Series([second, "a"], dtype=object) + assert not array_equivalent(left, right) + + +def test_array_equivalent_array_mismatched_dtype(): + # same shape, different dtype can still be equivalent + first = np.array([1, 2], dtype=np.float64) + second = np.array([1, 2]) + + left = Series([first, "a"], dtype=object) + right = Series([second, "a"], dtype=object) + assert array_equivalent(left, right) + + +def test_array_equivalent_different_dtype_but_equal(): + # Unclear if this is exposed anywhere in the public-facing API + assert array_equivalent(np.array([1, 2]), np.array([1.0, 2.0])) + + +@pytest.mark.parametrize( + "lvalue, rvalue", + [ + # There are 3 variants for each of lvalue and rvalue. We include all + # three for the tz-naive `now` and exclude the datetim64 variant + # for utcnow because it drops tzinfo. + (fix_now, fix_utcnow), + (fix_now.to_datetime64(), fix_utcnow), + (fix_now.to_pydatetime(), fix_utcnow), + (fix_now, fix_utcnow), + (fix_now.to_datetime64(), fix_utcnow.to_pydatetime()), + (fix_now.to_pydatetime(), fix_utcnow.to_pydatetime()), + ], +) +def test_array_equivalent_tzawareness(lvalue, rvalue): + # we shouldn't raise if comparing tzaware and tznaive datetimes + left = np.array([lvalue], dtype=object) + right = np.array([rvalue], dtype=object) + + assert not array_equivalent(left, right, strict_nan=True) + assert not array_equivalent(left, right, strict_nan=False) + + +def test_array_equivalent_compat(): + # see gh-13388 + m = np.array([(1, 2), (3, 4)], dtype=[("a", int), ("b", float)]) + n = np.array([(1, 2), (3, 4)], dtype=[("a", int), ("b", float)]) + assert array_equivalent(m, n, strict_nan=True) + assert array_equivalent(m, n, strict_nan=False) + + m = np.array([(1, 2), (3, 4)], dtype=[("a", int), ("b", float)]) + n = np.array([(1, 2), (4, 3)], dtype=[("a", int), ("b", float)]) + assert not array_equivalent(m, n, strict_nan=True) + assert not array_equivalent(m, n, strict_nan=False) + + m = np.array([(1, 2), (3, 4)], dtype=[("a", int), ("b", float)]) + n = np.array([(1, 2), (3, 4)], dtype=[("b", int), ("a", float)]) + assert not array_equivalent(m, n, strict_nan=True) + assert not array_equivalent(m, n, strict_nan=False) + + +@pytest.mark.parametrize("dtype", ["O", "S", "U"]) +def test_array_equivalent_str(dtype): + assert array_equivalent( + np.array(["A", "B"], dtype=dtype), np.array(["A", "B"], dtype=dtype) + ) + assert not array_equivalent( + np.array(["A", "B"], dtype=dtype), np.array(["A", "X"], dtype=dtype) + ) + + +@pytest.mark.parametrize("strict_nan", [True, False]) +def test_array_equivalent_nested(strict_nan): + # reached in groupby aggregations, make sure we use np.any when checking + # if the comparison is truthy + left = np.array([np.array([50, 70, 90]), np.array([20, 30])], dtype=object) + right = np.array([np.array([50, 70, 90]), np.array([20, 30])], dtype=object) + + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + left = np.empty(2, dtype=object) + left[:] = [np.array([50, 70, 90]), np.array([20, 30, 40])] + right = np.empty(2, dtype=object) + right[:] = [np.array([50, 70, 90]), np.array([20, 30, 40])] + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + left = np.array([np.array([50, 50, 50]), np.array([40, 40])], dtype=object) + right = np.array([50, 40]) + assert not array_equivalent(left, right, strict_nan=strict_nan) + + +@pytest.mark.filterwarnings("ignore:elementwise comparison failed:DeprecationWarning") +@pytest.mark.parametrize("strict_nan", [True, False]) +def test_array_equivalent_nested2(strict_nan): + # more than one level of nesting + left = np.array( + [ + np.array([np.array([50, 70]), np.array([90])], dtype=object), + np.array([np.array([20, 30])], dtype=object), + ], + dtype=object, + ) + right = np.array( + [ + np.array([np.array([50, 70]), np.array([90])], dtype=object), + np.array([np.array([20, 30])], dtype=object), + ], + dtype=object, + ) + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + left = np.array([np.array([np.array([50, 50, 50])], dtype=object)], dtype=object) + right = np.array([50]) + assert not array_equivalent(left, right, strict_nan=strict_nan) + + +@pytest.mark.parametrize("strict_nan", [True, False]) +def test_array_equivalent_nested_list(strict_nan): + left = np.array([[50, 70, 90], [20, 30]], dtype=object) + right = np.array([[50, 70, 90], [20, 30]], dtype=object) + + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + left = np.array([[50, 50, 50], [40, 40]], dtype=object) + right = np.array([50, 40]) + assert not array_equivalent(left, right, strict_nan=strict_nan) + + +@pytest.mark.filterwarnings("ignore:elementwise comparison failed:DeprecationWarning") +@pytest.mark.xfail(reason="failing") +@pytest.mark.parametrize("strict_nan", [True, False]) +def test_array_equivalent_nested_mixed_list(strict_nan): + # mixed arrays / lists in left and right + # https://github.com/pandas-dev/pandas/issues/50360 + left = np.array([np.array([1, 2, 3]), np.array([4, 5])], dtype=object) + right = np.array([[1, 2, 3], [4, 5]], dtype=object) + + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + # multiple levels of nesting + left = np.array( + [ + np.array([np.array([1, 2, 3]), np.array([4, 5])], dtype=object), + np.array([np.array([6]), np.array([7, 8]), np.array([9])], dtype=object), + ], + dtype=object, + ) + right = np.array([[[1, 2, 3], [4, 5]], [[6], [7, 8], [9]]], dtype=object) + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + # same-length lists + subarr = np.empty(2, dtype=object) + subarr[:] = [ + np.array([None, "b"], dtype=object), + np.array(["c", "d"], dtype=object), + ] + left = np.array([subarr, None], dtype=object) + right = np.array([[[None, "b"], ["c", "d"]], None], dtype=object) + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + +@pytest.mark.xfail(reason="failing") +@pytest.mark.parametrize("strict_nan", [True, False]) +def test_array_equivalent_nested_dicts(strict_nan): + left = np.array([{"f1": 1, "f2": np.array(["a", "b"], dtype=object)}], dtype=object) + right = np.array( + [{"f1": 1, "f2": np.array(["a", "b"], dtype=object)}], dtype=object + ) + assert array_equivalent(left, right, strict_nan=strict_nan) + assert not array_equivalent(left, right[::-1], strict_nan=strict_nan) + + right2 = np.array([{"f1": 1, "f2": ["a", "b"]}], dtype=object) + assert array_equivalent(left, right2, strict_nan=strict_nan) + assert not array_equivalent(left, right2[::-1], strict_nan=strict_nan) + + +def test_array_equivalent_index_with_tuples(): + # GH#48446 + idx1 = Index(np.array([(pd.NA, 4), (1, 1)], dtype="object")) + idx2 = Index(np.array([(1, 1), (pd.NA, 4)], dtype="object")) + assert not array_equivalent(idx1, idx2) + assert not idx1.equals(idx2) + assert not array_equivalent(idx2, idx1) + assert not idx2.equals(idx1) + + idx1 = Index(np.array([(4, pd.NA), (1, 1)], dtype="object")) + idx2 = Index(np.array([(1, 1), (4, pd.NA)], dtype="object")) + assert not array_equivalent(idx1, idx2) + assert not idx1.equals(idx2) + assert not array_equivalent(idx2, idx1) + assert not idx2.equals(idx1) + + +@pytest.mark.parametrize( + "dtype, na_value", + [ + # Datetime-like + (np.dtype("M8[ns]"), np.datetime64("NaT", "ns")), + (np.dtype("m8[ns]"), np.timedelta64("NaT", "ns")), + (DatetimeTZDtype.construct_from_string("datetime64[ns, US/Eastern]"), NaT), + (PeriodDtype("M"), NaT), + # Integer + ("u1", 0), + ("u2", 0), + ("u4", 0), + ("u8", 0), + ("i1", 0), + ("i2", 0), + ("i4", 0), + ("i8", 0), + # Bool + ("bool", False), + # Float + ("f2", np.nan), + ("f4", np.nan), + ("f8", np.nan), + # Object + ("O", np.nan), + # Interval + (IntervalDtype(), np.nan), + ], +) +def test_na_value_for_dtype(dtype, na_value): + result = na_value_for_dtype(pandas_dtype(dtype)) + # identify check doesn't work for datetime64/timedelta64("NaT") bc they + # are not singletons + assert result is na_value or ( + isna(result) and isna(na_value) and type(result) is type(na_value) + ) + + +class TestNAObj: + def _check_behavior(self, arr, expected): + result = libmissing.isnaobj(arr) + tm.assert_numpy_array_equal(result, expected) + result = libmissing.isnaobj(arr, inf_as_na=True) + tm.assert_numpy_array_equal(result, expected) + + arr = np.atleast_2d(arr) + expected = np.atleast_2d(expected) + + result = libmissing.isnaobj(arr) + tm.assert_numpy_array_equal(result, expected) + result = libmissing.isnaobj(arr, inf_as_na=True) + tm.assert_numpy_array_equal(result, expected) + + # Test fortran order + arr = arr.copy(order="F") + result = libmissing.isnaobj(arr) + tm.assert_numpy_array_equal(result, expected) + result = libmissing.isnaobj(arr, inf_as_na=True) + tm.assert_numpy_array_equal(result, expected) + + def test_basic(self): + arr = np.array([1, None, "foo", -5.1, NaT, np.nan]) + expected = np.array([False, True, False, False, True, True]) + + self._check_behavior(arr, expected) + + def test_non_obj_dtype(self): + arr = np.array([1, 3, np.nan, 5], dtype=float) + expected = np.array([False, False, True, False]) + + self._check_behavior(arr, expected) + + def test_empty_arr(self): + arr = np.array([]) + expected = np.array([], dtype=bool) + + self._check_behavior(arr, expected) + + def test_empty_str_inp(self): + arr = np.array([""]) # empty but not na + expected = np.array([False]) + + self._check_behavior(arr, expected) + + def test_empty_like(self): + # see gh-13717: no segfaults! + arr = np.empty_like([None]) + expected = np.array([True]) + + self._check_behavior(arr, expected) + + +m8_units = ["as", "ps", "ns", "us", "ms", "s", "m", "h", "D", "W", "M", "Y"] + +na_vals = ( + [ + None, + NaT, + float("NaN"), + complex("NaN"), + np.nan, + np.float64("NaN"), + np.float32("NaN"), + np.complex64(np.nan), + np.complex128(np.nan), + np.datetime64("NaT"), + np.timedelta64("NaT"), + ] + + [np.datetime64("NaT", unit) for unit in m8_units] + + [np.timedelta64("NaT", unit) for unit in m8_units] +) + +inf_vals = [ + float("inf"), + float("-inf"), + complex("inf"), + complex("-inf"), + np.inf, + -np.inf, +] + +int_na_vals = [ + # Values that match iNaT, which we treat as null in specific cases + np.int64(NaT._value), + int(NaT._value), +] + +sometimes_na_vals = [Decimal("NaN")] + +never_na_vals = [ + # float/complex values that when viewed as int64 match iNaT + -0.0, + np.float64("-0.0"), + -0j, + np.complex64(-0j), +] + + +class TestLibMissing: + @pytest.mark.parametrize("func", [libmissing.checknull, isna]) + @pytest.mark.parametrize( + "value", na_vals + sometimes_na_vals # type: ignore[operator] + ) + def test_checknull_na_vals(self, func, value): + assert func(value) + + @pytest.mark.parametrize("func", [libmissing.checknull, isna]) + @pytest.mark.parametrize("value", inf_vals) + def test_checknull_inf_vals(self, func, value): + assert not func(value) + + @pytest.mark.parametrize("func", [libmissing.checknull, isna]) + @pytest.mark.parametrize("value", int_na_vals) + def test_checknull_intna_vals(self, func, value): + assert not func(value) + + @pytest.mark.parametrize("func", [libmissing.checknull, isna]) + @pytest.mark.parametrize("value", never_na_vals) + def test_checknull_never_na_vals(self, func, value): + assert not func(value) + + @pytest.mark.parametrize( + "value", na_vals + sometimes_na_vals # type: ignore[operator] + ) + def test_checknull_old_na_vals(self, value): + assert libmissing.checknull(value, inf_as_na=True) + + @pytest.mark.parametrize("value", inf_vals) + def test_checknull_old_inf_vals(self, value): + assert libmissing.checknull(value, inf_as_na=True) + + @pytest.mark.parametrize("value", int_na_vals) + def test_checknull_old_intna_vals(self, value): + assert not libmissing.checknull(value, inf_as_na=True) + + @pytest.mark.parametrize("value", int_na_vals) + def test_checknull_old_never_na_vals(self, value): + assert not libmissing.checknull(value, inf_as_na=True) + + def test_is_matching_na(self, nulls_fixture, nulls_fixture2): + left = nulls_fixture + right = nulls_fixture2 + + assert libmissing.is_matching_na(left, left) + + if left is right: + assert libmissing.is_matching_na(left, right) + elif is_float(left) and is_float(right): + # np.nan vs float("NaN") we consider as matching + assert libmissing.is_matching_na(left, right) + elif type(left) is type(right): + # e.g. both Decimal("NaN") + assert libmissing.is_matching_na(left, right) + else: + assert not libmissing.is_matching_na(left, right) + + def test_is_matching_na_nan_matches_none(self): + assert not libmissing.is_matching_na(None, np.nan) + assert not libmissing.is_matching_na(np.nan, None) + + assert libmissing.is_matching_na(None, np.nan, nan_matches_none=True) + assert libmissing.is_matching_na(np.nan, None, nan_matches_none=True) + + +class TestIsValidNAForDtype: + def test_is_valid_na_for_dtype_interval(self): + dtype = IntervalDtype("int64", "left") + assert not is_valid_na_for_dtype(NaT, dtype) + + dtype = IntervalDtype("datetime64[ns]", "both") + assert not is_valid_na_for_dtype(NaT, dtype) + + def test_is_valid_na_for_dtype_categorical(self): + dtype = CategoricalDtype(categories=[0, 1, 2]) + assert is_valid_na_for_dtype(np.nan, dtype) + + assert not is_valid_na_for_dtype(NaT, dtype) + assert not is_valid_na_for_dtype(np.datetime64("NaT", "ns"), dtype) + assert not is_valid_na_for_dtype(np.timedelta64("NaT", "ns"), dtype) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..49da6af024a31726743815ba1e36d66c03daafe5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/__init__.py @@ -0,0 +1,6 @@ +from pandas.tests.extension.array_with_attr.array import ( + FloatAttrArray, + FloatAttrDtype, +) + +__all__ = ["FloatAttrArray", "FloatAttrDtype"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/array.py new file mode 100644 index 0000000000000000000000000000000000000000..2789d51ec2ce3096c64b41af90b5a416ceef9f5b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/array.py @@ -0,0 +1,89 @@ +""" +Test extension array that has custom attribute information (not stored on the dtype). + +""" +from __future__ import annotations + +import numbers +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.core.dtypes.base import ExtensionDtype + +import pandas as pd +from pandas.core.arrays import ExtensionArray + +if TYPE_CHECKING: + from pandas._typing import type_t + + +class FloatAttrDtype(ExtensionDtype): + type = float + name = "float_attr" + na_value = np.nan + + @classmethod + def construct_array_type(cls) -> type_t[FloatAttrArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return FloatAttrArray + + +class FloatAttrArray(ExtensionArray): + dtype = FloatAttrDtype() + __array_priority__ = 1000 + + def __init__(self, values, attr=None) -> None: + if not isinstance(values, np.ndarray): + raise TypeError("Need to pass a numpy array of float64 dtype as values") + if not values.dtype == "float64": + raise TypeError("Need to pass a numpy array of float64 dtype as values") + self.data = values + self.attr = attr + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy=False): + if not copy: + data = np.asarray(scalars, dtype="float64") + else: + data = np.array(scalars, dtype="float64", copy=copy) + return cls(data) + + def __getitem__(self, item): + if isinstance(item, numbers.Integral): + return self.data[item] + else: + # slice, list-like, mask + item = pd.api.indexers.check_array_indexer(self, item) + return type(self)(self.data[item], self.attr) + + def __len__(self) -> int: + return len(self.data) + + def isna(self): + return np.isnan(self.data) + + def take(self, indexer, allow_fill=False, fill_value=None): + from pandas.api.extensions import take + + data = self.data + if allow_fill and fill_value is None: + fill_value = self.dtype.na_value + + result = take(data, indexer, fill_value=fill_value, allow_fill=allow_fill) + return type(self)(result, self.attr) + + def copy(self): + return type(self)(self.data.copy(), self.attr) + + @classmethod + def _concat_same_type(cls, to_concat): + data = np.concatenate([x.data for x in to_concat]) + attr = to_concat[0].attr if len(to_concat) else None + return cls(data, attr) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/test_array_with_attr.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/test_array_with_attr.py new file mode 100644 index 0000000000000000000000000000000000000000..3735fe40a0d67784b3603a177b6694e56e26d479 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/array_with_attr/test_array_with_attr.py @@ -0,0 +1,33 @@ +import numpy as np + +import pandas as pd +import pandas._testing as tm +from pandas.tests.extension.array_with_attr import FloatAttrArray + + +def test_concat_with_all_na(): + # https://github.com/pandas-dev/pandas/pull/47762 + # ensure that attribute of the column array is preserved (when it gets + # preserved in reindexing the array) during merge/concat + arr = FloatAttrArray(np.array([np.nan, np.nan], dtype="float64"), attr="test") + + df1 = pd.DataFrame({"col": arr, "key": [0, 1]}) + df2 = pd.DataFrame({"key": [0, 1], "col2": [1, 2]}) + result = pd.merge(df1, df2, on="key") + expected = pd.DataFrame({"col": arr, "key": [0, 1], "col2": [1, 2]}) + tm.assert_frame_equal(result, expected) + assert result["col"].array.attr == "test" + + df1 = pd.DataFrame({"col": arr, "key": [0, 1]}) + df2 = pd.DataFrame({"key": [0, 2], "col2": [1, 2]}) + result = pd.merge(df1, df2, on="key") + expected = pd.DataFrame({"col": arr.take([0]), "key": [0], "col2": [1]}) + tm.assert_frame_equal(result, expected) + assert result["col"].array.attr == "test" + + result = pd.concat([df1.set_index("key"), df2.set_index("key")], axis=1) + expected = pd.DataFrame( + {"col": arr.take([0, 1, -1]), "col2": [1, np.nan, 2], "key": [0, 1, 2]} + ).set_index("key") + tm.assert_frame_equal(result, expected) + assert result["col"].array.attr == "test" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..6efaa95aef1b51c33df668db870eaa8741010a59 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/__init__.py @@ -0,0 +1,131 @@ +""" +Base test suite for extension arrays. + +These tests are intended for third-party libraries to subclass to validate +that their extension arrays and dtypes satisfy the interface. Moving or +renaming the tests should not be done lightly. + +Libraries are expected to implement a few pytest fixtures to provide data +for the tests. The fixtures may be located in either + +* The same module as your test class. +* A ``conftest.py`` in the same directory as your test class. + +The full list of fixtures may be found in the ``conftest.py`` next to this +file. + +.. code-block:: python + + import pytest + from pandas.tests.extension.base import BaseDtypeTests + + + @pytest.fixture + def dtype(): + return MyDtype() + + + class TestMyDtype(BaseDtypeTests): + pass + + +Your class ``TestDtype`` will inherit all the tests defined on +``BaseDtypeTests``. pytest's fixture discover will supply your ``dtype`` +wherever the test requires it. You're free to implement additional tests. + +""" +from pandas.tests.extension.base.accumulate import BaseAccumulateTests +from pandas.tests.extension.base.casting import BaseCastingTests +from pandas.tests.extension.base.constructors import BaseConstructorsTests +from pandas.tests.extension.base.dim2 import ( # noqa: F401 + Dim2CompatTests, + NDArrayBacked2DTests, +) +from pandas.tests.extension.base.dtype import BaseDtypeTests +from pandas.tests.extension.base.getitem import BaseGetitemTests +from pandas.tests.extension.base.groupby import BaseGroupbyTests +from pandas.tests.extension.base.index import BaseIndexTests +from pandas.tests.extension.base.interface import BaseInterfaceTests +from pandas.tests.extension.base.io import BaseParsingTests +from pandas.tests.extension.base.methods import BaseMethodsTests +from pandas.tests.extension.base.missing import BaseMissingTests +from pandas.tests.extension.base.ops import ( # noqa: F401 + BaseArithmeticOpsTests, + BaseComparisonOpsTests, + BaseOpsUtil, + BaseUnaryOpsTests, +) +from pandas.tests.extension.base.printing import BasePrintingTests +from pandas.tests.extension.base.reduce import BaseReduceTests +from pandas.tests.extension.base.reshaping import BaseReshapingTests +from pandas.tests.extension.base.setitem import BaseSetitemTests + + +# One test class that you can inherit as an alternative to inheriting all the +# test classes above. +# Note 1) this excludes Dim2CompatTests and NDArrayBacked2DTests. +# Note 2) this uses BaseReduceTests and and _not_ BaseBooleanReduceTests, +# BaseNoReduceTests, or BaseNumericReduceTests +class ExtensionTests( + BaseAccumulateTests, + BaseCastingTests, + BaseConstructorsTests, + BaseDtypeTests, + BaseGetitemTests, + BaseGroupbyTests, + BaseIndexTests, + BaseInterfaceTests, + BaseParsingTests, + BaseMethodsTests, + BaseMissingTests, + BaseArithmeticOpsTests, + BaseComparisonOpsTests, + BaseUnaryOpsTests, + BasePrintingTests, + BaseReduceTests, + BaseReshapingTests, + BaseSetitemTests, + Dim2CompatTests, +): + pass + + +def __getattr__(name: str): + import warnings + + if name == "BaseNoReduceTests": + warnings.warn( + "BaseNoReduceTests is deprecated and will be removed in a " + "future version. Use BaseReduceTests and override " + "`_supports_reduction` instead.", + FutureWarning, + ) + from pandas.tests.extension.base.reduce import BaseNoReduceTests + + return BaseNoReduceTests + + elif name == "BaseNumericReduceTests": + warnings.warn( + "BaseNumericReduceTests is deprecated and will be removed in a " + "future version. Use BaseReduceTests and override " + "`_supports_reduction` instead.", + FutureWarning, + ) + from pandas.tests.extension.base.reduce import BaseNumericReduceTests + + return BaseNumericReduceTests + + elif name == "BaseBooleanReduceTests": + warnings.warn( + "BaseBooleanReduceTests is deprecated and will be removed in a " + "future version. Use BaseReduceTests and override " + "`_supports_reduction` instead.", + FutureWarning, + ) + from pandas.tests.extension.base.reduce import BaseBooleanReduceTests + + return BaseBooleanReduceTests + + raise AttributeError( + f"module 'pandas.tests.extension.base' has no attribute '{name}'" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/accumulate.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/accumulate.py new file mode 100644 index 0000000000000000000000000000000000000000..9a2f186c2a00bf933cf3fdbcb7a07482930846e6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/accumulate.py @@ -0,0 +1,40 @@ +import pytest + +import pandas as pd +import pandas._testing as tm + + +class BaseAccumulateTests: + """ + Accumulation specific tests. Generally these only + make sense for numeric/boolean operations. + """ + + def _supports_accumulation(self, ser: pd.Series, op_name: str) -> bool: + # Do we expect this accumulation to be supported for this dtype? + # We default to assuming "no"; subclass authors should override here. + return False + + def check_accumulate(self, ser: pd.Series, op_name: str, skipna: bool): + try: + alt = ser.astype("float64") + except (TypeError, ValueError): + # e.g. Period can't be cast to float64 (TypeError) + # String can't be cast to float64 (ValueError) + alt = ser.astype(object) + + result = getattr(ser, op_name)(skipna=skipna) + expected = getattr(alt, op_name)(skipna=skipna) + tm.assert_series_equal(result, expected, check_dtype=False) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_accumulate_series(self, data, all_numeric_accumulations, skipna): + op_name = all_numeric_accumulations + ser = pd.Series(data) + + if self._supports_accumulation(ser, op_name): + self.check_accumulate(ser, op_name, skipna) + else: + with pytest.raises((NotImplementedError, TypeError)): + # TODO: require TypeError for things that will _never_ work? + getattr(ser, op_name)(skipna=skipna) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/base.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/base.py new file mode 100644 index 0000000000000000000000000000000000000000..747ebee738c1ee5cf9bbcc858aedd55dea39b38c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/base.py @@ -0,0 +1,2 @@ +class BaseExtensionTests: + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/casting.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/casting.py new file mode 100644 index 0000000000000000000000000000000000000000..56879129c3a28e69442ff4ba6bc1e1bdbed0183d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/casting.py @@ -0,0 +1,87 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +import pandas._testing as tm +from pandas.core.internals.blocks import NumpyBlock + + +class BaseCastingTests: + """Casting to and from ExtensionDtypes""" + + def test_astype_object_series(self, all_data): + ser = pd.Series(all_data, name="A") + result = ser.astype(object) + assert result.dtype == np.dtype(object) + if hasattr(result._mgr, "blocks"): + blk = result._mgr.blocks[0] + assert isinstance(blk, NumpyBlock) + assert blk.is_object + assert isinstance(result._mgr.array, np.ndarray) + assert result._mgr.array.dtype == np.dtype(object) + + def test_astype_object_frame(self, all_data): + df = pd.DataFrame({"A": all_data}) + + result = df.astype(object) + if hasattr(result._mgr, "blocks"): + blk = result._mgr.blocks[0] + assert isinstance(blk, NumpyBlock), type(blk) + assert blk.is_object + assert isinstance(result._mgr.arrays[0], np.ndarray) + assert result._mgr.arrays[0].dtype == np.dtype(object) + + # check that we can compare the dtypes + comp = result.dtypes == df.dtypes + assert not comp.any() + + def test_tolist(self, data): + result = pd.Series(data).tolist() + expected = list(data) + assert result == expected + + def test_astype_str(self, data): + result = pd.Series(data[:2]).astype(str) + expected = pd.Series([str(x) for x in data[:2]], dtype=str) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "nullable_string_dtype", + [ + "string[python]", + pytest.param("string[pyarrow]", marks=td.skip_if_no("pyarrow")), + ], + ) + def test_astype_string(self, data, nullable_string_dtype): + # GH-33465, GH#45326 as of 2.0 we decode bytes instead of calling str(obj) + result = pd.Series(data[:5]).astype(nullable_string_dtype) + expected = pd.Series( + [str(x) if not isinstance(x, bytes) else x.decode() for x in data[:5]], + dtype=nullable_string_dtype, + ) + tm.assert_series_equal(result, expected) + + def test_to_numpy(self, data): + expected = np.asarray(data) + + result = data.to_numpy() + tm.assert_equal(result, expected) + + result = pd.Series(data).to_numpy() + tm.assert_equal(result, expected) + + def test_astype_empty_dataframe(self, dtype): + # https://github.com/pandas-dev/pandas/issues/33113 + df = pd.DataFrame() + result = df.astype(dtype) + tm.assert_frame_equal(result, df) + + @pytest.mark.parametrize("copy", [True, False]) + def test_astype_own_type(self, data, copy): + # ensure that astype returns the original object for equal dtype and copy=False + # https://github.com/pandas-dev/pandas/issues/28488 + result = data.astype(data.dtype, copy=copy) + assert (result is data) is (not copy) + tm.assert_extension_array_equal(result, data) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/constructors.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/constructors.py new file mode 100644 index 0000000000000000000000000000000000000000..c32a6a6a115ac992a9b85b6a35e77e4d446fbd07 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/constructors.py @@ -0,0 +1,142 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.extensions import ExtensionArray +from pandas.core.internals.blocks import EABackedBlock + + +class BaseConstructorsTests: + def test_from_sequence_from_cls(self, data): + result = type(data)._from_sequence(data, dtype=data.dtype) + tm.assert_extension_array_equal(result, data) + + data = data[:0] + result = type(data)._from_sequence(data, dtype=data.dtype) + tm.assert_extension_array_equal(result, data) + + def test_array_from_scalars(self, data): + scalars = [data[0], data[1], data[2]] + result = data._from_sequence(scalars, dtype=data.dtype) + assert isinstance(result, type(data)) + + def test_series_constructor(self, data): + result = pd.Series(data, copy=False) + assert result.dtype == data.dtype + assert len(result) == len(data) + if hasattr(result._mgr, "blocks"): + assert isinstance(result._mgr.blocks[0], EABackedBlock) + assert result._mgr.array is data + + # Series[EA] is unboxed / boxed correctly + result2 = pd.Series(result) + assert result2.dtype == data.dtype + if hasattr(result._mgr, "blocks"): + assert isinstance(result2._mgr.blocks[0], EABackedBlock) + + def test_series_constructor_no_data_with_index(self, dtype, na_value): + result = pd.Series(index=[1, 2, 3], dtype=dtype) + expected = pd.Series([na_value] * 3, index=[1, 2, 3], dtype=dtype) + tm.assert_series_equal(result, expected) + + # GH 33559 - empty index + result = pd.Series(index=[], dtype=dtype) + expected = pd.Series([], index=pd.Index([], dtype="object"), dtype=dtype) + tm.assert_series_equal(result, expected) + + def test_series_constructor_scalar_na_with_index(self, dtype, na_value): + result = pd.Series(na_value, index=[1, 2, 3], dtype=dtype) + expected = pd.Series([na_value] * 3, index=[1, 2, 3], dtype=dtype) + tm.assert_series_equal(result, expected) + + def test_series_constructor_scalar_with_index(self, data, dtype): + scalar = data[0] + result = pd.Series(scalar, index=[1, 2, 3], dtype=dtype) + expected = pd.Series([scalar] * 3, index=[1, 2, 3], dtype=dtype) + tm.assert_series_equal(result, expected) + + result = pd.Series(scalar, index=["foo"], dtype=dtype) + expected = pd.Series([scalar], index=["foo"], dtype=dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("from_series", [True, False]) + def test_dataframe_constructor_from_dict(self, data, from_series): + if from_series: + data = pd.Series(data) + result = pd.DataFrame({"A": data}) + assert result.dtypes["A"] == data.dtype + assert result.shape == (len(data), 1) + if hasattr(result._mgr, "blocks"): + assert isinstance(result._mgr.blocks[0], EABackedBlock) + assert isinstance(result._mgr.arrays[0], ExtensionArray) + + def test_dataframe_from_series(self, data): + result = pd.DataFrame(pd.Series(data)) + assert result.dtypes[0] == data.dtype + assert result.shape == (len(data), 1) + if hasattr(result._mgr, "blocks"): + assert isinstance(result._mgr.blocks[0], EABackedBlock) + assert isinstance(result._mgr.arrays[0], ExtensionArray) + + def test_series_given_mismatched_index_raises(self, data): + msg = r"Length of values \(3\) does not match length of index \(5\)" + with pytest.raises(ValueError, match=msg): + pd.Series(data[:3], index=[0, 1, 2, 3, 4]) + + def test_from_dtype(self, data): + # construct from our dtype & string dtype + dtype = data.dtype + + expected = pd.Series(data) + result = pd.Series(list(data), dtype=dtype) + tm.assert_series_equal(result, expected) + + result = pd.Series(list(data), dtype=str(dtype)) + tm.assert_series_equal(result, expected) + + # gh-30280 + + expected = pd.DataFrame(data).astype(dtype) + result = pd.DataFrame(list(data), dtype=dtype) + tm.assert_frame_equal(result, expected) + + result = pd.DataFrame(list(data), dtype=str(dtype)) + tm.assert_frame_equal(result, expected) + + def test_pandas_array(self, data): + # pd.array(extension_array) should be idempotent... + result = pd.array(data) + tm.assert_extension_array_equal(result, data) + + def test_pandas_array_dtype(self, data): + # ... but specifying dtype will override idempotency + result = pd.array(data, dtype=np.dtype(object)) + expected = pd.arrays.NumpyExtensionArray(np.asarray(data, dtype=object)) + tm.assert_equal(result, expected) + + def test_construct_empty_dataframe(self, dtype): + # GH 33623 + result = pd.DataFrame(columns=["a"], dtype=dtype) + expected = pd.DataFrame( + {"a": pd.array([], dtype=dtype)}, index=pd.RangeIndex(0) + ) + tm.assert_frame_equal(result, expected) + + def test_empty(self, dtype): + cls = dtype.construct_array_type() + result = cls._empty((4,), dtype=dtype) + assert isinstance(result, cls) + assert result.dtype == dtype + assert result.shape == (4,) + + # GH#19600 method on ExtensionDtype + result2 = dtype.empty((4,)) + assert isinstance(result2, cls) + assert result2.dtype == dtype + assert result2.shape == (4,) + + result2 = dtype.empty(4) + assert isinstance(result2, cls) + assert result2.dtype == dtype + assert result2.shape == (4,) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dim2.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dim2.py new file mode 100644 index 0000000000000000000000000000000000000000..132cda5a94ed00e74b7f36869bfe0c789dd5ccd7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dim2.py @@ -0,0 +1,345 @@ +""" +Tests for 2D compatibility. +""" +import numpy as np +import pytest + +from pandas._libs.missing import is_matching_na + +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_integer_dtype, +) + +import pandas as pd +import pandas._testing as tm +from pandas.core.arrays.integer import NUMPY_INT_TO_DTYPE + + +class Dim2CompatTests: + # Note: these are ONLY for ExtensionArray subclasses that support 2D arrays. + # i.e. not for pyarrow-backed EAs. + + @pytest.fixture(autouse=True) + def skip_if_doesnt_support_2d(self, dtype, request): + if not dtype._supports_2d: + node = request.node + # In cases where we are mixed in to ExtensionTests, we only want to + # skip tests that are defined in Dim2CompatTests + test_func = node._obj + if test_func.__qualname__.startswith("Dim2CompatTests"): + # TODO: is there a less hacky way of checking this? + pytest.skip(f"{dtype} does not support 2D.") + + def test_transpose(self, data): + arr2d = data.repeat(2).reshape(-1, 2) + shape = arr2d.shape + assert shape[0] != shape[-1] # otherwise the rest of the test is useless + + assert arr2d.T.shape == shape[::-1] + + def test_frame_from_2d_array(self, data): + arr2d = data.repeat(2).reshape(-1, 2) + + df = pd.DataFrame(arr2d) + expected = pd.DataFrame({0: arr2d[:, 0], 1: arr2d[:, 1]}) + tm.assert_frame_equal(df, expected) + + def test_swapaxes(self, data): + arr2d = data.repeat(2).reshape(-1, 2) + + result = arr2d.swapaxes(0, 1) + expected = arr2d.T + tm.assert_extension_array_equal(result, expected) + + def test_delete_2d(self, data): + arr2d = data.repeat(3).reshape(-1, 3) + + # axis = 0 + result = arr2d.delete(1, axis=0) + expected = data.delete(1).repeat(3).reshape(-1, 3) + tm.assert_extension_array_equal(result, expected) + + # axis = 1 + result = arr2d.delete(1, axis=1) + expected = data.repeat(2).reshape(-1, 2) + tm.assert_extension_array_equal(result, expected) + + def test_take_2d(self, data): + arr2d = data.reshape(-1, 1) + + result = arr2d.take([0, 0, -1], axis=0) + + expected = data.take([0, 0, -1]).reshape(-1, 1) + tm.assert_extension_array_equal(result, expected) + + def test_repr_2d(self, data): + # this could fail in a corner case where an element contained the name + res = repr(data.reshape(1, -1)) + assert res.count(f"<{type(data).__name__}") == 1 + + res = repr(data.reshape(-1, 1)) + assert res.count(f"<{type(data).__name__}") == 1 + + def test_reshape(self, data): + arr2d = data.reshape(-1, 1) + assert arr2d.shape == (data.size, 1) + assert len(arr2d) == len(data) + + arr2d = data.reshape((-1, 1)) + assert arr2d.shape == (data.size, 1) + assert len(arr2d) == len(data) + + with pytest.raises(ValueError): + data.reshape((data.size, 2)) + with pytest.raises(ValueError): + data.reshape(data.size, 2) + + def test_getitem_2d(self, data): + arr2d = data.reshape(1, -1) + + result = arr2d[0] + tm.assert_extension_array_equal(result, data) + + with pytest.raises(IndexError): + arr2d[1] + + with pytest.raises(IndexError): + arr2d[-2] + + result = arr2d[:] + tm.assert_extension_array_equal(result, arr2d) + + result = arr2d[:, :] + tm.assert_extension_array_equal(result, arr2d) + + result = arr2d[:, 0] + expected = data[[0]] + tm.assert_extension_array_equal(result, expected) + + # dimension-expanding getitem on 1D + result = data[:, np.newaxis] + tm.assert_extension_array_equal(result, arr2d.T) + + def test_iter_2d(self, data): + arr2d = data.reshape(1, -1) + + objs = list(iter(arr2d)) + assert len(objs) == arr2d.shape[0] + + for obj in objs: + assert isinstance(obj, type(data)) + assert obj.dtype == data.dtype + assert obj.ndim == 1 + assert len(obj) == arr2d.shape[1] + + def test_tolist_2d(self, data): + arr2d = data.reshape(1, -1) + + result = arr2d.tolist() + expected = [data.tolist()] + + assert isinstance(result, list) + assert all(isinstance(x, list) for x in result) + + assert result == expected + + def test_concat_2d(self, data): + left = type(data)._concat_same_type([data, data]).reshape(-1, 2) + right = left.copy() + + # axis=0 + result = left._concat_same_type([left, right], axis=0) + expected = data._concat_same_type([data] * 4).reshape(-1, 2) + tm.assert_extension_array_equal(result, expected) + + # axis=1 + result = left._concat_same_type([left, right], axis=1) + assert result.shape == (len(data), 4) + tm.assert_extension_array_equal(result[:, :2], left) + tm.assert_extension_array_equal(result[:, 2:], right) + + # axis > 1 -> invalid + msg = "axis 2 is out of bounds for array of dimension 2" + with pytest.raises(ValueError, match=msg): + left._concat_same_type([left, right], axis=2) + + @pytest.mark.parametrize("method", ["backfill", "pad"]) + def test_fillna_2d_method(self, data_missing, method): + # pad_or_backfill is always along axis=0 + arr = data_missing.repeat(2).reshape(2, 2) + assert arr[0].isna().all() + assert not arr[1].isna().any() + + result = arr._pad_or_backfill(method=method, limit=None) + + expected = data_missing._pad_or_backfill(method=method).repeat(2).reshape(2, 2) + tm.assert_extension_array_equal(result, expected) + + # Reverse so that backfill is not a no-op. + arr2 = arr[::-1] + assert not arr2[0].isna().any() + assert arr2[1].isna().all() + + result2 = arr2._pad_or_backfill(method=method, limit=None) + + expected2 = ( + data_missing[::-1]._pad_or_backfill(method=method).repeat(2).reshape(2, 2) + ) + tm.assert_extension_array_equal(result2, expected2) + + @pytest.mark.parametrize("method", ["mean", "median", "var", "std", "sum", "prod"]) + def test_reductions_2d_axis_none(self, data, method): + arr2d = data.reshape(1, -1) + + err_expected = None + err_result = None + try: + expected = getattr(data, method)() + except Exception as err: + # if the 1D reduction is invalid, the 2D reduction should be as well + err_expected = err + try: + result = getattr(arr2d, method)(axis=None) + except Exception as err2: + err_result = err2 + + else: + result = getattr(arr2d, method)(axis=None) + + if err_result is not None or err_expected is not None: + assert type(err_result) == type(err_expected) + return + + assert is_matching_na(result, expected) or result == expected + + @pytest.mark.parametrize("method", ["mean", "median", "var", "std", "sum", "prod"]) + @pytest.mark.parametrize("min_count", [0, 1]) + def test_reductions_2d_axis0(self, data, method, min_count): + if min_count == 1 and method not in ["sum", "prod"]: + pytest.skip(f"min_count not relevant for {method}") + + arr2d = data.reshape(1, -1) + + kwargs = {} + if method in ["std", "var"]: + # pass ddof=0 so we get all-zero std instead of all-NA std + kwargs["ddof"] = 0 + elif method in ["prod", "sum"]: + kwargs["min_count"] = min_count + + try: + result = getattr(arr2d, method)(axis=0, **kwargs) + except Exception as err: + try: + getattr(data, method)() + except Exception as err2: + assert type(err) == type(err2) + return + else: + raise AssertionError("Both reductions should raise or neither") + + def get_reduction_result_dtype(dtype): + # windows and 32bit builds will in some cases have int32/uint32 + # where other builds will have int64/uint64. + if dtype.itemsize == 8: + return dtype + elif dtype.kind in "ib": + return NUMPY_INT_TO_DTYPE[np.dtype(int)] + else: + # i.e. dtype.kind == "u" + return NUMPY_INT_TO_DTYPE[np.dtype("uint")] + + if method in ["sum", "prod"]: + # std and var are not dtype-preserving + expected = data + if data.dtype.kind in "iub": + dtype = get_reduction_result_dtype(data.dtype) + expected = data.astype(dtype) + assert dtype == expected.dtype + + if min_count == 0: + fill_value = 1 if method == "prod" else 0 + expected = expected.fillna(fill_value) + + tm.assert_extension_array_equal(result, expected) + elif method == "median": + # std and var are not dtype-preserving + expected = data + tm.assert_extension_array_equal(result, expected) + elif method in ["mean", "std", "var"]: + if is_integer_dtype(data) or is_bool_dtype(data): + data = data.astype("Float64") + if method == "mean": + tm.assert_extension_array_equal(result, data) + else: + tm.assert_extension_array_equal(result, data - data) + + @pytest.mark.parametrize("method", ["mean", "median", "var", "std", "sum", "prod"]) + def test_reductions_2d_axis1(self, data, method): + arr2d = data.reshape(1, -1) + + try: + result = getattr(arr2d, method)(axis=1) + except Exception as err: + try: + getattr(data, method)() + except Exception as err2: + assert type(err) == type(err2) + return + else: + raise AssertionError("Both reductions should raise or neither") + + # not necessarily type/dtype-preserving, so weaker assertions + assert result.shape == (1,) + expected_scalar = getattr(data, method)() + res = result[0] + assert is_matching_na(res, expected_scalar) or res == expected_scalar + + +class NDArrayBacked2DTests(Dim2CompatTests): + # More specific tests for NDArrayBackedExtensionArray subclasses + + def test_copy_order(self, data): + # We should be matching numpy semantics for the "order" keyword in 'copy' + arr2d = data.repeat(2).reshape(-1, 2) + assert arr2d._ndarray.flags["C_CONTIGUOUS"] + + res = arr2d.copy() + assert res._ndarray.flags["C_CONTIGUOUS"] + + res = arr2d[::2, ::2].copy() + assert res._ndarray.flags["C_CONTIGUOUS"] + + res = arr2d.copy("F") + assert not res._ndarray.flags["C_CONTIGUOUS"] + assert res._ndarray.flags["F_CONTIGUOUS"] + + res = arr2d.copy("K") + assert res._ndarray.flags["C_CONTIGUOUS"] + + res = arr2d.T.copy("K") + assert not res._ndarray.flags["C_CONTIGUOUS"] + assert res._ndarray.flags["F_CONTIGUOUS"] + + # order not accepted by numpy + msg = r"order must be one of 'C', 'F', 'A', or 'K' \(got 'Q'\)" + with pytest.raises(ValueError, match=msg): + arr2d.copy("Q") + + # neither contiguity + arr_nc = arr2d[::2] + assert not arr_nc._ndarray.flags["C_CONTIGUOUS"] + assert not arr_nc._ndarray.flags["F_CONTIGUOUS"] + + assert arr_nc.copy()._ndarray.flags["C_CONTIGUOUS"] + assert not arr_nc.copy()._ndarray.flags["F_CONTIGUOUS"] + + assert arr_nc.copy("C")._ndarray.flags["C_CONTIGUOUS"] + assert not arr_nc.copy("C")._ndarray.flags["F_CONTIGUOUS"] + + assert not arr_nc.copy("F")._ndarray.flags["C_CONTIGUOUS"] + assert arr_nc.copy("F")._ndarray.flags["F_CONTIGUOUS"] + + assert arr_nc.copy("K")._ndarray.flags["C_CONTIGUOUS"] + assert not arr_nc.copy("K")._ndarray.flags["F_CONTIGUOUS"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dtype.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dtype.py new file mode 100644 index 0000000000000000000000000000000000000000..c7b768f6e3c88f32a7f9f5c945642e4d69a17c66 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/dtype.py @@ -0,0 +1,123 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import ( + infer_dtype, + is_object_dtype, + is_string_dtype, +) + + +class BaseDtypeTests: + """Base class for ExtensionDtype classes""" + + def test_name(self, dtype): + assert isinstance(dtype.name, str) + + def test_kind(self, dtype): + valid = set("biufcmMOSUV") + assert dtype.kind in valid + + def test_is_dtype_from_name(self, dtype): + result = type(dtype).is_dtype(dtype.name) + assert result is True + + def test_is_dtype_unboxes_dtype(self, data, dtype): + assert dtype.is_dtype(data) is True + + def test_is_dtype_from_self(self, dtype): + result = type(dtype).is_dtype(dtype) + assert result is True + + def test_is_dtype_other_input(self, dtype): + assert dtype.is_dtype([1, 2, 3]) is False + + def test_is_not_string_type(self, dtype): + assert not is_string_dtype(dtype) + + def test_is_not_object_type(self, dtype): + assert not is_object_dtype(dtype) + + def test_eq_with_str(self, dtype): + assert dtype == dtype.name + assert dtype != dtype.name + "-suffix" + + def test_eq_with_numpy_object(self, dtype): + assert dtype != np.dtype("object") + + def test_eq_with_self(self, dtype): + assert dtype == dtype + assert dtype != object() + + def test_array_type(self, data, dtype): + assert dtype.construct_array_type() is type(data) + + def test_check_dtype(self, data): + dtype = data.dtype + + # check equivalency for using .dtypes + df = pd.DataFrame( + { + "A": pd.Series(data, dtype=dtype), + "B": data, + "C": pd.Series(["foo"] * len(data), dtype=object), + "D": 1, + } + ) + result = df.dtypes == str(dtype) + assert np.dtype("int64") != "Int64" + + expected = pd.Series([True, True, False, False], index=list("ABCD")) + + tm.assert_series_equal(result, expected) + + expected = pd.Series([True, True, False, False], index=list("ABCD")) + result = df.dtypes.apply(str) == str(dtype) + tm.assert_series_equal(result, expected) + + def test_hashable(self, dtype): + hash(dtype) # no error + + def test_str(self, dtype): + assert str(dtype) == dtype.name + + def test_eq(self, dtype): + assert dtype == dtype.name + assert dtype != "anonther_type" + + def test_construct_from_string_own_name(self, dtype): + result = dtype.construct_from_string(dtype.name) + assert type(result) is type(dtype) + + # check OK as classmethod + result = type(dtype).construct_from_string(dtype.name) + assert type(result) is type(dtype) + + def test_construct_from_string_another_type_raises(self, dtype): + msg = f"Cannot construct a '{type(dtype).__name__}' from 'another_type'" + with pytest.raises(TypeError, match=msg): + type(dtype).construct_from_string("another_type") + + def test_construct_from_string_wrong_type_raises(self, dtype): + with pytest.raises( + TypeError, + match="'construct_from_string' expects a string, got ", + ): + type(dtype).construct_from_string(0) + + def test_get_common_dtype(self, dtype): + # in practice we will not typically call this with a 1-length list + # (we shortcut to just use that dtype as the common dtype), but + # still testing as good practice to have this working (and it is the + # only case we can test in general) + assert dtype._get_common_dtype([dtype]) == dtype + + @pytest.mark.parametrize("skipna", [True, False]) + def test_infer_dtype(self, data, data_missing, skipna): + # only testing that this works without raising an error + res = infer_dtype(data, skipna=skipna) + assert isinstance(res, str) + res = infer_dtype(data_missing, skipna=skipna) + assert isinstance(res, str) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/getitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/getitem.py new file mode 100644 index 0000000000000000000000000000000000000000..5f0c1b960a4758e7cd5423188d5f190922b4eee4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/getitem.py @@ -0,0 +1,469 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +class BaseGetitemTests: + """Tests for ExtensionArray.__getitem__.""" + + def test_iloc_series(self, data): + ser = pd.Series(data) + result = ser.iloc[:4] + expected = pd.Series(data[:4]) + tm.assert_series_equal(result, expected) + + result = ser.iloc[[0, 1, 2, 3]] + tm.assert_series_equal(result, expected) + + def test_iloc_frame(self, data): + df = pd.DataFrame({"A": data, "B": np.arange(len(data), dtype="int64")}) + expected = pd.DataFrame({"A": data[:4]}) + + # slice -> frame + result = df.iloc[:4, [0]] + tm.assert_frame_equal(result, expected) + + # sequence -> frame + result = df.iloc[[0, 1, 2, 3], [0]] + tm.assert_frame_equal(result, expected) + + expected = pd.Series(data[:4], name="A") + + # slice -> series + result = df.iloc[:4, 0] + tm.assert_series_equal(result, expected) + + # sequence -> series + result = df.iloc[:4, 0] + tm.assert_series_equal(result, expected) + + # GH#32959 slice columns with step + result = df.iloc[:, ::2] + tm.assert_frame_equal(result, df[["A"]]) + result = df[["B", "A"]].iloc[:, ::2] + tm.assert_frame_equal(result, df[["B"]]) + + def test_iloc_frame_single_block(self, data): + # GH#32959 null slice along index, slice along columns with single-block + df = pd.DataFrame({"A": data}) + + result = df.iloc[:, :] + tm.assert_frame_equal(result, df) + + result = df.iloc[:, :1] + tm.assert_frame_equal(result, df) + + result = df.iloc[:, :2] + tm.assert_frame_equal(result, df) + + result = df.iloc[:, ::2] + tm.assert_frame_equal(result, df) + + result = df.iloc[:, 1:2] + tm.assert_frame_equal(result, df.iloc[:, :0]) + + result = df.iloc[:, -1:] + tm.assert_frame_equal(result, df) + + def test_loc_series(self, data): + ser = pd.Series(data) + result = ser.loc[:3] + expected = pd.Series(data[:4]) + tm.assert_series_equal(result, expected) + + result = ser.loc[[0, 1, 2, 3]] + tm.assert_series_equal(result, expected) + + def test_loc_frame(self, data): + df = pd.DataFrame({"A": data, "B": np.arange(len(data), dtype="int64")}) + expected = pd.DataFrame({"A": data[:4]}) + + # slice -> frame + result = df.loc[:3, ["A"]] + tm.assert_frame_equal(result, expected) + + # sequence -> frame + result = df.loc[[0, 1, 2, 3], ["A"]] + tm.assert_frame_equal(result, expected) + + expected = pd.Series(data[:4], name="A") + + # slice -> series + result = df.loc[:3, "A"] + tm.assert_series_equal(result, expected) + + # sequence -> series + result = df.loc[:3, "A"] + tm.assert_series_equal(result, expected) + + def test_loc_iloc_frame_single_dtype(self, data): + # GH#27110 bug in ExtensionBlock.iget caused df.iloc[n] to incorrectly + # return a scalar + df = pd.DataFrame({"A": data}) + expected = pd.Series([data[2]], index=["A"], name=2, dtype=data.dtype) + + result = df.loc[2] + tm.assert_series_equal(result, expected) + + expected = pd.Series( + [data[-1]], index=["A"], name=len(data) - 1, dtype=data.dtype + ) + result = df.iloc[-1] + tm.assert_series_equal(result, expected) + + def test_getitem_scalar(self, data): + result = data[0] + assert isinstance(result, data.dtype.type) + + result = pd.Series(data)[0] + assert isinstance(result, data.dtype.type) + + def test_getitem_invalid(self, data): + # TODO: box over scalar, [scalar], (scalar,)? + + msg = ( + r"only integers, slices \(`:`\), ellipsis \(`...`\), numpy.newaxis " + r"\(`None`\) and integer or boolean arrays are valid indices" + ) + with pytest.raises(IndexError, match=msg): + data["foo"] + with pytest.raises(IndexError, match=msg): + data[2.5] + + ub = len(data) + msg = "|".join( + [ + "list index out of range", # json + "index out of bounds", # pyarrow + "Out of bounds access", # Sparse + f"loc must be an integer between -{ub} and {ub}", # Sparse + f"index {ub+1} is out of bounds for axis 0 with size {ub}", + f"index -{ub+1} is out of bounds for axis 0 with size {ub}", + ] + ) + with pytest.raises(IndexError, match=msg): + data[ub + 1] + with pytest.raises(IndexError, match=msg): + data[-ub - 1] + + def test_getitem_scalar_na(self, data_missing, na_cmp, na_value): + result = data_missing[0] + assert na_cmp(result, na_value) + + def test_getitem_empty(self, data): + # Indexing with empty list + result = data[[]] + assert len(result) == 0 + assert isinstance(result, type(data)) + + expected = data[np.array([], dtype="int64")] + tm.assert_extension_array_equal(result, expected) + + def test_getitem_mask(self, data): + # Empty mask, raw array + mask = np.zeros(len(data), dtype=bool) + result = data[mask] + assert len(result) == 0 + assert isinstance(result, type(data)) + + # Empty mask, in series + mask = np.zeros(len(data), dtype=bool) + result = pd.Series(data)[mask] + assert len(result) == 0 + assert result.dtype == data.dtype + + # non-empty mask, raw array + mask[0] = True + result = data[mask] + assert len(result) == 1 + assert isinstance(result, type(data)) + + # non-empty mask, in series + result = pd.Series(data)[mask] + assert len(result) == 1 + assert result.dtype == data.dtype + + def test_getitem_mask_raises(self, data): + mask = np.array([True, False]) + msg = f"Boolean index has wrong length: 2 instead of {len(data)}" + with pytest.raises(IndexError, match=msg): + data[mask] + + mask = pd.array(mask, dtype="boolean") + with pytest.raises(IndexError, match=msg): + data[mask] + + def test_getitem_boolean_array_mask(self, data): + mask = pd.array(np.zeros(data.shape, dtype="bool"), dtype="boolean") + result = data[mask] + assert len(result) == 0 + assert isinstance(result, type(data)) + + result = pd.Series(data)[mask] + assert len(result) == 0 + assert result.dtype == data.dtype + + mask[:5] = True + expected = data.take([0, 1, 2, 3, 4]) + result = data[mask] + tm.assert_extension_array_equal(result, expected) + + expected = pd.Series(expected) + result = pd.Series(data)[mask] + tm.assert_series_equal(result, expected) + + def test_getitem_boolean_na_treated_as_false(self, data): + # https://github.com/pandas-dev/pandas/issues/31503 + mask = pd.array(np.zeros(data.shape, dtype="bool"), dtype="boolean") + mask[:2] = pd.NA + mask[2:4] = True + + result = data[mask] + expected = data[mask.fillna(False)] + + tm.assert_extension_array_equal(result, expected) + + s = pd.Series(data) + + result = s[mask] + expected = s[mask.fillna(False)] + + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "idx", + [[0, 1, 2], pd.array([0, 1, 2], dtype="Int64"), np.array([0, 1, 2])], + ids=["list", "integer-array", "numpy-array"], + ) + def test_getitem_integer_array(self, data, idx): + result = data[idx] + assert len(result) == 3 + assert isinstance(result, type(data)) + expected = data.take([0, 1, 2]) + tm.assert_extension_array_equal(result, expected) + + expected = pd.Series(expected) + result = pd.Series(data)[idx] + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "idx", + [[0, 1, 2, pd.NA], pd.array([0, 1, 2, pd.NA], dtype="Int64")], + ids=["list", "integer-array"], + ) + def test_getitem_integer_with_missing_raises(self, data, idx): + msg = "Cannot index with an integer indexer containing NA values" + with pytest.raises(ValueError, match=msg): + data[idx] + + @pytest.mark.xfail( + reason="Tries label-based and raises KeyError; " + "in some cases raises when calling np.asarray" + ) + @pytest.mark.parametrize( + "idx", + [[0, 1, 2, pd.NA], pd.array([0, 1, 2, pd.NA], dtype="Int64")], + ids=["list", "integer-array"], + ) + def test_getitem_series_integer_with_missing_raises(self, data, idx): + msg = "Cannot index with an integer indexer containing NA values" + # TODO: this raises KeyError about labels not found (it tries label-based) + + ser = pd.Series(data, index=[chr(100 + i) for i in range(len(data))]) + with pytest.raises(ValueError, match=msg): + ser[idx] + + def test_getitem_slice(self, data): + # getitem[slice] should return an array + result = data[slice(0)] # empty + assert isinstance(result, type(data)) + + result = data[slice(1)] # scalar + assert isinstance(result, type(data)) + + def test_getitem_ellipsis_and_slice(self, data): + # GH#40353 this is called from slice_block_rows + result = data[..., :] + tm.assert_extension_array_equal(result, data) + + result = data[:, ...] + tm.assert_extension_array_equal(result, data) + + result = data[..., :3] + tm.assert_extension_array_equal(result, data[:3]) + + result = data[:3, ...] + tm.assert_extension_array_equal(result, data[:3]) + + result = data[..., ::2] + tm.assert_extension_array_equal(result, data[::2]) + + result = data[::2, ...] + tm.assert_extension_array_equal(result, data[::2]) + + def test_get(self, data): + # GH 20882 + s = pd.Series(data, index=[2 * i for i in range(len(data))]) + assert s.get(4) == s.iloc[2] + + result = s.get([4, 6]) + expected = s.iloc[[2, 3]] + tm.assert_series_equal(result, expected) + + result = s.get(slice(2)) + expected = s.iloc[[0, 1]] + tm.assert_series_equal(result, expected) + + assert s.get(-1) is None + assert s.get(s.index.max() + 1) is None + + s = pd.Series(data[:6], index=list("abcdef")) + assert s.get("c") == s.iloc[2] + + result = s.get(slice("b", "d")) + expected = s.iloc[[1, 2, 3]] + tm.assert_series_equal(result, expected) + + result = s.get("Z") + assert result is None + + msg = "Series.__getitem__ treating keys as positions is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + assert s.get(4) == s.iloc[4] + assert s.get(-1) == s.iloc[-1] + assert s.get(len(s)) is None + + # GH 21257 + s = pd.Series(data) + with tm.assert_produces_warning(None): + # GH#45324 make sure we aren't giving a spurious FutureWarning + s2 = s[::2] + assert s2.get(1) is None + + def test_take_sequence(self, data): + result = pd.Series(data)[[0, 1, 3]] + assert result.iloc[0] == data[0] + assert result.iloc[1] == data[1] + assert result.iloc[2] == data[3] + + def test_take(self, data, na_value, na_cmp): + result = data.take([0, -1]) + assert result.dtype == data.dtype + assert result[0] == data[0] + assert result[1] == data[-1] + + result = data.take([0, -1], allow_fill=True, fill_value=na_value) + assert result[0] == data[0] + assert na_cmp(result[1], na_value) + + with pytest.raises(IndexError, match="out of bounds"): + data.take([len(data) + 1]) + + def test_take_empty(self, data, na_value, na_cmp): + empty = data[:0] + + result = empty.take([-1], allow_fill=True) + assert na_cmp(result[0], na_value) + + msg = "cannot do a non-empty take from an empty axes|out of bounds" + + with pytest.raises(IndexError, match=msg): + empty.take([-1]) + + with pytest.raises(IndexError, match="cannot do a non-empty take"): + empty.take([0, 1]) + + def test_take_negative(self, data): + # https://github.com/pandas-dev/pandas/issues/20640 + n = len(data) + result = data.take([0, -n, n - 1, -1]) + expected = data.take([0, 0, n - 1, n - 1]) + tm.assert_extension_array_equal(result, expected) + + def test_take_non_na_fill_value(self, data_missing): + fill_value = data_missing[1] # valid + na = data_missing[0] + + arr = data_missing._from_sequence( + [na, fill_value, na], dtype=data_missing.dtype + ) + result = arr.take([-1, 1], fill_value=fill_value, allow_fill=True) + expected = arr.take([1, 1]) + tm.assert_extension_array_equal(result, expected) + + def test_take_pandas_style_negative_raises(self, data, na_value): + with pytest.raises(ValueError, match=""): + data.take([0, -2], fill_value=na_value, allow_fill=True) + + @pytest.mark.parametrize("allow_fill", [True, False]) + def test_take_out_of_bounds_raises(self, data, allow_fill): + arr = data[:3] + + with pytest.raises(IndexError, match="out of bounds|out-of-bounds"): + arr.take(np.asarray([0, 3]), allow_fill=allow_fill) + + def test_take_series(self, data): + s = pd.Series(data) + result = s.take([0, -1]) + expected = pd.Series( + data._from_sequence([data[0], data[len(data) - 1]], dtype=s.dtype), + index=[0, len(data) - 1], + ) + tm.assert_series_equal(result, expected) + + def test_reindex(self, data, na_value): + s = pd.Series(data) + result = s.reindex([0, 1, 3]) + expected = pd.Series(data.take([0, 1, 3]), index=[0, 1, 3]) + tm.assert_series_equal(result, expected) + + n = len(data) + result = s.reindex([-1, 0, n]) + expected = pd.Series( + data._from_sequence([na_value, data[0], na_value], dtype=s.dtype), + index=[-1, 0, n], + ) + tm.assert_series_equal(result, expected) + + result = s.reindex([n, n + 1]) + expected = pd.Series( + data._from_sequence([na_value, na_value], dtype=s.dtype), index=[n, n + 1] + ) + tm.assert_series_equal(result, expected) + + def test_reindex_non_na_fill_value(self, data_missing): + valid = data_missing[1] + na = data_missing[0] + + arr = data_missing._from_sequence([na, valid], dtype=data_missing.dtype) + ser = pd.Series(arr) + result = ser.reindex([0, 1, 2], fill_value=valid) + expected = pd.Series( + data_missing._from_sequence([na, valid, valid], dtype=data_missing.dtype) + ) + + tm.assert_series_equal(result, expected) + + def test_loc_len1(self, data): + # see GH-27785 take_nd with indexer of len 1 resulting in wrong ndim + df = pd.DataFrame({"A": data}) + res = df.loc[[0], "A"] + assert res.ndim == 1 + assert res._mgr.arrays[0].ndim == 1 + if hasattr(res._mgr, "blocks"): + assert res._mgr._block.ndim == 1 + + def test_item(self, data): + # https://github.com/pandas-dev/pandas/pull/30175 + s = pd.Series(data) + result = s[:1].item() + assert result == data[0] + + msg = "can only convert an array of size 1 to a Python scalar" + with pytest.raises(ValueError, match=msg): + s[:0].item() + + with pytest.raises(ValueError, match=msg): + s.item() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/groupby.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/groupby.py new file mode 100644 index 0000000000000000000000000000000000000000..6947e672f3d44f8c48dec6bb53cf5e6bd85182ab --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/groupby.py @@ -0,0 +1,174 @@ +import re + +import pytest + +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_numeric_dtype, + is_object_dtype, + is_string_dtype, +) + +import pandas as pd +import pandas._testing as tm + + +@pytest.mark.filterwarnings( + "ignore:The default of observed=False is deprecated:FutureWarning" +) +class BaseGroupbyTests: + """Groupby-specific tests.""" + + def test_grouping_grouper(self, data_for_grouping): + df = pd.DataFrame( + { + "A": pd.Series( + ["B", "B", None, None, "A", "A", "B", "C"], dtype=object + ), + "B": data_for_grouping, + } + ) + gr1 = df.groupby("A")._grouper.groupings[0] + gr2 = df.groupby("B")._grouper.groupings[0] + + tm.assert_numpy_array_equal(gr1.grouping_vector, df.A.values) + tm.assert_extension_array_equal(gr2.grouping_vector, data_for_grouping) + + @pytest.mark.parametrize("as_index", [True, False]) + def test_groupby_extension_agg(self, as_index, data_for_grouping): + df = pd.DataFrame({"A": [1, 1, 2, 2, 3, 3, 1, 4], "B": data_for_grouping}) + + is_bool = data_for_grouping.dtype._is_boolean + if is_bool: + # only 2 unique values, and the final entry has c==b + # (see data_for_grouping docstring) + df = df.iloc[:-1] + + result = df.groupby("B", as_index=as_index).A.mean() + _, uniques = pd.factorize(data_for_grouping, sort=True) + + exp_vals = [3.0, 1.0, 4.0] + if is_bool: + exp_vals = exp_vals[:-1] + if as_index: + index = pd.Index(uniques, name="B") + expected = pd.Series(exp_vals, index=index, name="A") + tm.assert_series_equal(result, expected) + else: + expected = pd.DataFrame({"B": uniques, "A": exp_vals}) + tm.assert_frame_equal(result, expected) + + def test_groupby_agg_extension(self, data_for_grouping): + # GH#38980 groupby agg on extension type fails for non-numeric types + df = pd.DataFrame({"A": [1, 1, 2, 2, 3, 3, 1, 4], "B": data_for_grouping}) + + expected = df.iloc[[0, 2, 4, 7]] + expected = expected.set_index("A") + + result = df.groupby("A").agg({"B": "first"}) + tm.assert_frame_equal(result, expected) + + result = df.groupby("A").agg("first") + tm.assert_frame_equal(result, expected) + + result = df.groupby("A").first() + tm.assert_frame_equal(result, expected) + + def test_groupby_extension_no_sort(self, data_for_grouping): + df = pd.DataFrame({"A": [1, 1, 2, 2, 3, 3, 1, 4], "B": data_for_grouping}) + + is_bool = data_for_grouping.dtype._is_boolean + if is_bool: + # only 2 unique values, and the final entry has c==b + # (see data_for_grouping docstring) + df = df.iloc[:-1] + + result = df.groupby("B", sort=False).A.mean() + _, index = pd.factorize(data_for_grouping, sort=False) + + index = pd.Index(index, name="B") + exp_vals = [1.0, 3.0, 4.0] + if is_bool: + exp_vals = exp_vals[:-1] + expected = pd.Series(exp_vals, index=index, name="A") + tm.assert_series_equal(result, expected) + + def test_groupby_extension_transform(self, data_for_grouping): + is_bool = data_for_grouping.dtype._is_boolean + + valid = data_for_grouping[~data_for_grouping.isna()] + df = pd.DataFrame({"A": [1, 1, 3, 3, 1, 4], "B": valid}) + is_bool = data_for_grouping.dtype._is_boolean + if is_bool: + # only 2 unique values, and the final entry has c==b + # (see data_for_grouping docstring) + df = df.iloc[:-1] + + result = df.groupby("B").A.transform(len) + expected = pd.Series([3, 3, 2, 2, 3, 1], name="A") + if is_bool: + expected = expected[:-1] + + tm.assert_series_equal(result, expected) + + def test_groupby_extension_apply(self, data_for_grouping, groupby_apply_op): + df = pd.DataFrame({"A": [1, 1, 2, 2, 3, 3, 1, 4], "B": data_for_grouping}) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("B", group_keys=False, observed=False).apply(groupby_apply_op) + df.groupby("B", group_keys=False, observed=False).A.apply(groupby_apply_op) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("A", group_keys=False, observed=False).apply(groupby_apply_op) + df.groupby("A", group_keys=False, observed=False).B.apply(groupby_apply_op) + + def test_groupby_apply_identity(self, data_for_grouping): + df = pd.DataFrame({"A": [1, 1, 2, 2, 3, 3, 1, 4], "B": data_for_grouping}) + result = df.groupby("A").B.apply(lambda x: x.array) + expected = pd.Series( + [ + df.B.iloc[[0, 1, 6]].array, + df.B.iloc[[2, 3]].array, + df.B.iloc[[4, 5]].array, + df.B.iloc[[7]].array, + ], + index=pd.Index([1, 2, 3, 4], name="A"), + name="B", + ) + tm.assert_series_equal(result, expected) + + def test_in_numeric_groupby(self, data_for_grouping): + df = pd.DataFrame( + { + "A": [1, 1, 2, 2, 3, 3, 1, 4], + "B": data_for_grouping, + "C": [1, 1, 1, 1, 1, 1, 1, 1], + } + ) + + dtype = data_for_grouping.dtype + if ( + is_numeric_dtype(dtype) + or is_bool_dtype(dtype) + or dtype.name == "decimal" + or is_string_dtype(dtype) + or is_object_dtype(dtype) + or dtype.kind == "m" # in particular duration[*][pyarrow] + ): + expected = pd.Index(["B", "C"]) + result = df.groupby("A").sum().columns + else: + expected = pd.Index(["C"]) + + msg = "|".join( + [ + # period/datetime + "does not support sum operations", + # all others + re.escape(f"agg function failed [how->sum,dtype->{dtype}"), + ] + ) + with pytest.raises(TypeError, match=msg): + df.groupby("A").sum() + result = df.groupby("A").sum(numeric_only=True).columns + tm.assert_index_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/index.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/index.py new file mode 100644 index 0000000000000000000000000000000000000000..72c4ebfb5d84ae82f74a4c814e72372a651ae6b8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/index.py @@ -0,0 +1,19 @@ +""" +Tests for Indexes backed by arbitrary ExtensionArrays. +""" +import pandas as pd + + +class BaseIndexTests: + """Tests for Index object backed by an ExtensionArray""" + + def test_index_from_array(self, data): + idx = pd.Index(data) + assert data.dtype == idx.dtype + + def test_index_from_listlike_with_dtype(self, data): + idx = pd.Index(data, dtype=data.dtype) + assert idx.dtype == data.dtype + + idx = pd.Index(list(data), dtype=data.dtype) + assert idx.dtype == data.dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/interface.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/interface.py new file mode 100644 index 0000000000000000000000000000000000000000..38cece7da3308d6ec4b484238d702cf298ebcca0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/interface.py @@ -0,0 +1,172 @@ +import warnings + +import numpy as np +import pytest + +from pandas.compat.numpy import np_version_gt2 + +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike +from pandas.core.dtypes.common import is_extension_array_dtype +from pandas.core.dtypes.dtypes import ExtensionDtype + +import pandas as pd +import pandas._testing as tm + + +class BaseInterfaceTests: + """Tests that the basic interface is satisfied.""" + + # ------------------------------------------------------------------------ + # Interface + # ------------------------------------------------------------------------ + + def test_len(self, data): + assert len(data) == 100 + + def test_size(self, data): + assert data.size == 100 + + def test_ndim(self, data): + assert data.ndim == 1 + + def test_can_hold_na_valid(self, data): + # GH-20761 + assert data._can_hold_na is True + + def test_contains(self, data, data_missing): + # GH-37867 + # Tests for membership checks. Membership checks for nan-likes is tricky and + # the settled on rule is: `nan_like in arr` is True if nan_like is + # arr.dtype.na_value and arr.isna().any() is True. Else the check returns False. + + na_value = data.dtype.na_value + # ensure data without missing values + data = data[~data.isna()] + + # first elements are non-missing + assert data[0] in data + assert data_missing[0] in data_missing + + # check the presence of na_value + assert na_value in data_missing + assert na_value not in data + + # the data can never contain other nan-likes than na_value + for na_value_obj in tm.NULL_OBJECTS: + if na_value_obj is na_value or type(na_value_obj) == type(na_value): + # type check for e.g. two instances of Decimal("NAN") + continue + assert na_value_obj not in data + assert na_value_obj not in data_missing + + def test_memory_usage(self, data): + s = pd.Series(data) + result = s.memory_usage(index=False) + assert result == s.nbytes + + def test_array_interface(self, data): + result = np.array(data) + assert result[0] == data[0] + + result = np.array(data, dtype=object) + expected = np.array(list(data), dtype=object) + if expected.ndim > 1: + # nested data, explicitly construct as 1D + expected = construct_1d_object_array_from_listlike(list(data)) + tm.assert_numpy_array_equal(result, expected) + + def test_array_interface_copy(self, data): + result_copy1 = np.array(data, copy=True) + result_copy2 = np.array(data, copy=True) + assert not np.may_share_memory(result_copy1, result_copy2) + + if not np_version_gt2: + # copy=False semantics are only supported in NumPy>=2. + return + + warning_raised = False + msg = "Starting with NumPy 2.0, the behavior of the 'copy' keyword has changed" + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter("always") + result_nocopy1 = np.array(data, copy=False) + assert len(w) <= 1 + if len(w): + warning_raised = True + assert msg in str(w[0].message) + + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter("always") + result_nocopy2 = np.array(data, copy=False) + assert len(w) <= 1 + if len(w): + warning_raised = True + assert msg in str(w[0].message) + + if not warning_raised: + # If copy=False was given and did not raise, these must share the same data + assert np.may_share_memory(result_nocopy1, result_nocopy2) + + def test_is_extension_array_dtype(self, data): + assert is_extension_array_dtype(data) + assert is_extension_array_dtype(data.dtype) + assert is_extension_array_dtype(pd.Series(data)) + assert isinstance(data.dtype, ExtensionDtype) + + def test_no_values_attribute(self, data): + # GH-20735: EA's with .values attribute give problems with internal + # code, disallowing this for now until solved + assert not hasattr(data, "values") + assert not hasattr(data, "_values") + + def test_is_numeric_honored(self, data): + result = pd.Series(data) + if hasattr(result._mgr, "blocks"): + assert result._mgr.blocks[0].is_numeric is data.dtype._is_numeric + + def test_isna_extension_array(self, data_missing): + # If your `isna` returns an ExtensionArray, you must also implement + # _reduce. At the *very* least, you must implement any and all + na = data_missing.isna() + if is_extension_array_dtype(na): + assert na._reduce("any") + assert na.any() + + assert not na._reduce("all") + assert not na.all() + + assert na.dtype._is_boolean + + def test_copy(self, data): + # GH#27083 removing deep keyword from EA.copy + assert data[0] != data[1] + result = data.copy() + + if data.dtype._is_immutable: + pytest.skip(f"test_copy assumes mutability and {data.dtype} is immutable") + + data[1] = data[0] + assert result[1] != result[0] + + def test_view(self, data): + # view with no dtype should return a shallow copy, *not* the same + # object + assert data[1] != data[0] + + result = data.view() + assert result is not data + assert type(result) == type(data) + + if data.dtype._is_immutable: + pytest.skip(f"test_view assumes mutability and {data.dtype} is immutable") + + result[1] = result[0] + assert data[1] == data[0] + + # check specifically that the `dtype` kwarg is accepted + data.view(dtype=None) + + def test_tolist(self, data): + result = data.tolist() + expected = list(data) + assert isinstance(result, list) + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/io.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/io.py new file mode 100644 index 0000000000000000000000000000000000000000..3a6f2eb5ba8b1854ac48a22efa02e89672b2f2ac --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/io.py @@ -0,0 +1,39 @@ +from io import StringIO + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.core.arrays import ExtensionArray + + +class BaseParsingTests: + @pytest.mark.parametrize("engine", ["c", "python"]) + def test_EA_types(self, engine, data, request): + if isinstance(data.dtype, pd.CategoricalDtype): + # in parsers.pyx _convert_with_dtype there is special-casing for + # Categorical that pre-empts _from_sequence_of_strings + pass + elif isinstance(data.dtype, pd.core.dtypes.dtypes.NumpyEADtype): + # These get unwrapped internally so are treated as numpy dtypes + # in the parsers.pyx code + pass + elif ( + type(data)._from_sequence_of_strings.__func__ + is ExtensionArray._from_sequence_of_strings.__func__ + ): + # i.e. the EA hasn't overridden _from_sequence_of_strings + mark = pytest.mark.xfail( + reason="_from_sequence_of_strings not implemented", + raises=NotImplementedError, + ) + request.node.add_marker(mark) + + df = pd.DataFrame({"with_dtype": pd.Series(data, dtype=str(data.dtype))}) + csv_output = df.to_csv(index=False, na_rep=np.nan) + result = pd.read_csv( + StringIO(csv_output), dtype={"with_dtype": str(data.dtype)}, engine=engine + ) + expected = df + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/methods.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/methods.py new file mode 100644 index 0000000000000000000000000000000000000000..5cb2c14e4c841c17453e3d2fe17bab69e8813cc1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/methods.py @@ -0,0 +1,720 @@ +import inspect +import operator + +import numpy as np +import pytest + +from pandas._typing import Dtype + +from pandas.core.dtypes.common import is_bool_dtype +from pandas.core.dtypes.dtypes import NumpyEADtype +from pandas.core.dtypes.missing import na_value_for_dtype + +import pandas as pd +import pandas._testing as tm +from pandas.core.sorting import nargsort + + +class BaseMethodsTests: + """Various Series and DataFrame methods.""" + + def test_hash_pandas_object(self, data): + # _hash_pandas_object should return a uint64 ndarray of the same length + # as the data + from pandas.core.util.hashing import _default_hash_key + + res = data._hash_pandas_object( + encoding="utf-8", hash_key=_default_hash_key, categorize=False + ) + assert res.dtype == np.uint64 + assert res.shape == data.shape + + def test_value_counts_default_dropna(self, data): + # make sure we have consistent default dropna kwarg + if not hasattr(data, "value_counts"): + pytest.skip(f"value_counts is not implemented for {type(data)}") + sig = inspect.signature(data.value_counts) + kwarg = sig.parameters["dropna"] + assert kwarg.default is True + + @pytest.mark.parametrize("dropna", [True, False]) + def test_value_counts(self, all_data, dropna): + all_data = all_data[:10] + if dropna: + other = all_data[~all_data.isna()] + else: + other = all_data + + result = pd.Series(all_data).value_counts(dropna=dropna).sort_index() + expected = pd.Series(other).value_counts(dropna=dropna).sort_index() + + tm.assert_series_equal(result, expected) + + def test_value_counts_with_normalize(self, data): + # GH 33172 + data = data[:10].unique() + values = np.array(data[~data.isna()]) + ser = pd.Series(data, dtype=data.dtype) + + result = ser.value_counts(normalize=True).sort_index() + + if not isinstance(data, pd.Categorical): + expected = pd.Series( + [1 / len(values)] * len(values), index=result.index, name="proportion" + ) + else: + expected = pd.Series(0.0, index=result.index, name="proportion") + expected[result > 0] = 1 / len(values) + + if isinstance(data.dtype, pd.StringDtype) and data.dtype.na_value is np.nan: + # TODO: avoid special-casing + expected = expected.astype("float64") + elif getattr(data.dtype, "storage", "") == "pyarrow" or isinstance( + data.dtype, pd.ArrowDtype + ): + # TODO: avoid special-casing + expected = expected.astype("double[pyarrow]") + elif na_value_for_dtype(data.dtype) is pd.NA: + # TODO(GH#44692): avoid special-casing + expected = expected.astype("Float64") + + tm.assert_series_equal(result, expected) + + def test_count(self, data_missing): + df = pd.DataFrame({"A": data_missing}) + result = df.count(axis="columns") + expected = pd.Series([0, 1]) + tm.assert_series_equal(result, expected) + + def test_series_count(self, data_missing): + # GH#26835 + ser = pd.Series(data_missing) + result = ser.count() + expected = 1 + assert result == expected + + def test_apply_simple_series(self, data): + result = pd.Series(data).apply(id) + assert isinstance(result, pd.Series) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data_missing, na_action): + result = data_missing.map(lambda x: x, na_action=na_action) + expected = data_missing.to_numpy() + tm.assert_numpy_array_equal(result, expected) + + def test_argsort(self, data_for_sorting): + result = pd.Series(data_for_sorting).argsort() + # argsort result gets passed to take, so should be np.intp + expected = pd.Series(np.array([2, 0, 1], dtype=np.intp)) + tm.assert_series_equal(result, expected) + + def test_argsort_missing_array(self, data_missing_for_sorting): + result = data_missing_for_sorting.argsort() + # argsort result gets passed to take, so should be np.intp + expected = np.array([2, 0, 1], dtype=np.intp) + tm.assert_numpy_array_equal(result, expected) + + def test_argsort_missing(self, data_missing_for_sorting): + msg = "The behavior of Series.argsort in the presence of NA values" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = pd.Series(data_missing_for_sorting).argsort() + expected = pd.Series(np.array([1, -1, 0], dtype=np.intp)) + tm.assert_series_equal(result, expected) + + def test_argmin_argmax(self, data_for_sorting, data_missing_for_sorting, na_value): + # GH 24382 + is_bool = data_for_sorting.dtype._is_boolean + + exp_argmax = 1 + exp_argmax_repeated = 3 + if is_bool: + # See data_for_sorting docstring + exp_argmax = 0 + exp_argmax_repeated = 1 + + # data_for_sorting -> [B, C, A] with A < B < C + assert data_for_sorting.argmax() == exp_argmax + assert data_for_sorting.argmin() == 2 + + # with repeated values -> first occurrence + data = data_for_sorting.take([2, 0, 0, 1, 1, 2]) + assert data.argmax() == exp_argmax_repeated + assert data.argmin() == 0 + + # with missing values + # data_missing_for_sorting -> [B, NA, A] with A < B and NA missing. + assert data_missing_for_sorting.argmax() == 0 + assert data_missing_for_sorting.argmin() == 2 + + @pytest.mark.parametrize("method", ["argmax", "argmin"]) + def test_argmin_argmax_empty_array(self, method, data): + # GH 24382 + err_msg = "attempt to get" + with pytest.raises(ValueError, match=err_msg): + getattr(data[:0], method)() + + @pytest.mark.parametrize("method", ["argmax", "argmin"]) + def test_argmin_argmax_all_na(self, method, data, na_value): + # all missing with skipna=True is the same as empty + err_msg = "attempt to get" + data_na = type(data)._from_sequence([na_value, na_value], dtype=data.dtype) + with pytest.raises(ValueError, match=err_msg): + getattr(data_na, method)() + + @pytest.mark.parametrize( + "op_name, skipna, expected", + [ + ("idxmax", True, 0), + ("idxmin", True, 2), + ("argmax", True, 0), + ("argmin", True, 2), + ("idxmax", False, np.nan), + ("idxmin", False, np.nan), + ("argmax", False, -1), + ("argmin", False, -1), + ], + ) + def test_argreduce_series( + self, data_missing_for_sorting, op_name, skipna, expected + ): + # data_missing_for_sorting -> [B, NA, A] with A < B and NA missing. + warn = None + msg = "The behavior of Series.argmax/argmin" + if op_name.startswith("arg") and expected == -1: + warn = FutureWarning + if op_name.startswith("idx") and np.isnan(expected): + warn = FutureWarning + msg = f"The behavior of Series.{op_name}" + ser = pd.Series(data_missing_for_sorting) + with tm.assert_produces_warning(warn, match=msg): + result = getattr(ser, op_name)(skipna=skipna) + tm.assert_almost_equal(result, expected) + + def test_argmax_argmin_no_skipna_notimplemented(self, data_missing_for_sorting): + # GH#38733 + data = data_missing_for_sorting + + with pytest.raises(NotImplementedError, match=""): + data.argmin(skipna=False) + + with pytest.raises(NotImplementedError, match=""): + data.argmax(skipna=False) + + @pytest.mark.parametrize( + "na_position, expected", + [ + ("last", np.array([2, 0, 1], dtype=np.dtype("intp"))), + ("first", np.array([1, 2, 0], dtype=np.dtype("intp"))), + ], + ) + def test_nargsort(self, data_missing_for_sorting, na_position, expected): + # GH 25439 + result = nargsort(data_missing_for_sorting, na_position=na_position) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("ascending", [True, False]) + def test_sort_values(self, data_for_sorting, ascending, sort_by_key): + ser = pd.Series(data_for_sorting) + result = ser.sort_values(ascending=ascending, key=sort_by_key) + expected = ser.iloc[[2, 0, 1]] + if not ascending: + # GH 35922. Expect stable sort + if ser.nunique() == 2: + expected = ser.iloc[[0, 1, 2]] + else: + expected = ser.iloc[[1, 0, 2]] + + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("ascending", [True, False]) + def test_sort_values_missing( + self, data_missing_for_sorting, ascending, sort_by_key + ): + ser = pd.Series(data_missing_for_sorting) + result = ser.sort_values(ascending=ascending, key=sort_by_key) + if ascending: + expected = ser.iloc[[2, 0, 1]] + else: + expected = ser.iloc[[0, 2, 1]] + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("ascending", [True, False]) + def test_sort_values_frame(self, data_for_sorting, ascending): + df = pd.DataFrame({"A": [1, 2, 1], "B": data_for_sorting}) + result = df.sort_values(["A", "B"]) + expected = pd.DataFrame( + {"A": [1, 1, 2], "B": data_for_sorting.take([2, 0, 1])}, index=[2, 0, 1] + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("keep", ["first", "last", False]) + def test_duplicated(self, data, keep): + arr = data.take([0, 1, 0, 1]) + result = arr.duplicated(keep=keep) + if keep == "first": + expected = np.array([False, False, True, True]) + elif keep == "last": + expected = np.array([True, True, False, False]) + else: + expected = np.array([True, True, True, True]) + tm.assert_numpy_array_equal(result, expected) + + @pytest.mark.parametrize("box", [pd.Series, lambda x: x]) + @pytest.mark.parametrize("method", [lambda x: x.unique(), pd.unique]) + def test_unique(self, data, box, method): + duplicated = box(data._from_sequence([data[0], data[0]], dtype=data.dtype)) + + result = method(duplicated) + + assert len(result) == 1 + assert isinstance(result, type(data)) + assert result[0] == duplicated[0] + + def test_factorize(self, data_for_grouping): + codes, uniques = pd.factorize(data_for_grouping, use_na_sentinel=True) + + is_bool = data_for_grouping.dtype._is_boolean + if is_bool: + # only 2 unique values + expected_codes = np.array([0, 0, -1, -1, 1, 1, 0, 0], dtype=np.intp) + expected_uniques = data_for_grouping.take([0, 4]) + else: + expected_codes = np.array([0, 0, -1, -1, 1, 1, 0, 2], dtype=np.intp) + expected_uniques = data_for_grouping.take([0, 4, 7]) + + tm.assert_numpy_array_equal(codes, expected_codes) + tm.assert_extension_array_equal(uniques, expected_uniques) + + def test_factorize_equivalence(self, data_for_grouping): + codes_1, uniques_1 = pd.factorize(data_for_grouping, use_na_sentinel=True) + codes_2, uniques_2 = data_for_grouping.factorize(use_na_sentinel=True) + + tm.assert_numpy_array_equal(codes_1, codes_2) + tm.assert_extension_array_equal(uniques_1, uniques_2) + assert len(uniques_1) == len(pd.unique(uniques_1)) + assert uniques_1.dtype == data_for_grouping.dtype + + def test_factorize_empty(self, data): + codes, uniques = pd.factorize(data[:0]) + expected_codes = np.array([], dtype=np.intp) + expected_uniques = type(data)._from_sequence([], dtype=data[:0].dtype) + + tm.assert_numpy_array_equal(codes, expected_codes) + tm.assert_extension_array_equal(uniques, expected_uniques) + + def test_fillna_copy_frame(self, data_missing): + arr = data_missing.take([1, 1]) + df = pd.DataFrame({"A": arr}) + df_orig = df.copy() + + filled_val = df.iloc[0, 0] + result = df.fillna(filled_val) + + result.iloc[0, 0] = filled_val + + tm.assert_frame_equal(df, df_orig) + + def test_fillna_copy_series(self, data_missing): + arr = data_missing.take([1, 1]) + ser = pd.Series(arr, copy=False) + ser_orig = ser.copy() + + filled_val = ser[0] + result = ser.fillna(filled_val) + result.iloc[0] = filled_val + + tm.assert_series_equal(ser, ser_orig) + + def test_fillna_length_mismatch(self, data_missing): + msg = "Length of 'value' does not match." + with pytest.raises(ValueError, match=msg): + data_missing.fillna(data_missing.take([1])) + + # Subclasses can override if we expect e.g Sparse[bool], boolean, pyarrow[bool] + _combine_le_expected_dtype: Dtype = NumpyEADtype("bool") + + def test_combine_le(self, data_repeated): + # GH 20825 + # Test that combine works when doing a <= (le) comparison + orig_data1, orig_data2 = data_repeated(2) + s1 = pd.Series(orig_data1) + s2 = pd.Series(orig_data2) + result = s1.combine(s2, lambda x1, x2: x1 <= x2) + expected = pd.Series( + pd.array( + [a <= b for (a, b) in zip(list(orig_data1), list(orig_data2))], + dtype=self._combine_le_expected_dtype, + ) + ) + tm.assert_series_equal(result, expected) + + val = s1.iloc[0] + result = s1.combine(val, lambda x1, x2: x1 <= x2) + expected = pd.Series( + pd.array( + [a <= val for a in list(orig_data1)], + dtype=self._combine_le_expected_dtype, + ) + ) + tm.assert_series_equal(result, expected) + + def test_combine_add(self, data_repeated): + # GH 20825 + orig_data1, orig_data2 = data_repeated(2) + s1 = pd.Series(orig_data1) + s2 = pd.Series(orig_data2) + + # Check if the operation is supported pointwise for our scalars. If not, + # we will expect Series.combine to raise as well. + try: + with np.errstate(over="ignore"): + expected = pd.Series( + orig_data1._from_sequence( + [a + b for (a, b) in zip(list(orig_data1), list(orig_data2))] + ) + ) + except TypeError: + # If the operation is not supported pointwise for our scalars, + # then Series.combine should also raise + with pytest.raises(TypeError): + s1.combine(s2, lambda x1, x2: x1 + x2) + return + + result = s1.combine(s2, lambda x1, x2: x1 + x2) + tm.assert_series_equal(result, expected) + + val = s1.iloc[0] + result = s1.combine(val, lambda x1, x2: x1 + x2) + expected = pd.Series( + orig_data1._from_sequence([a + val for a in list(orig_data1)]) + ) + tm.assert_series_equal(result, expected) + + def test_combine_first(self, data): + # https://github.com/pandas-dev/pandas/issues/24147 + a = pd.Series(data[:3]) + b = pd.Series(data[2:5], index=[2, 3, 4]) + result = a.combine_first(b) + expected = pd.Series(data[:5]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("frame", [True, False]) + @pytest.mark.parametrize( + "periods, indices", + [(-2, [2, 3, 4, -1, -1]), (0, [0, 1, 2, 3, 4]), (2, [-1, -1, 0, 1, 2])], + ) + def test_container_shift(self, data, frame, periods, indices): + # https://github.com/pandas-dev/pandas/issues/22386 + subset = data[:5] + data = pd.Series(subset, name="A") + expected = pd.Series(subset.take(indices, allow_fill=True), name="A") + + if frame: + result = data.to_frame(name="A").assign(B=1).shift(periods) + expected = pd.concat( + [expected, pd.Series([1] * 5, name="B").shift(periods)], axis=1 + ) + compare = tm.assert_frame_equal + else: + result = data.shift(periods) + compare = tm.assert_series_equal + + compare(result, expected) + + def test_shift_0_periods(self, data): + # GH#33856 shifting with periods=0 should return a copy, not same obj + result = data.shift(0) + assert data[0] != data[1] # otherwise below is invalid + data[0] = data[1] + assert result[0] != result[1] # i.e. not the same object/view + + @pytest.mark.parametrize("periods", [1, -2]) + def test_diff(self, data, periods): + data = data[:5] + if is_bool_dtype(data.dtype): + op = operator.xor + else: + op = operator.sub + try: + # does this array implement ops? + op(data, data) + except Exception: + pytest.skip(f"{type(data)} does not support diff") + s = pd.Series(data) + result = s.diff(periods) + expected = pd.Series(op(data, data.shift(periods))) + tm.assert_series_equal(result, expected) + + df = pd.DataFrame({"A": data, "B": [1.0] * 5}) + result = df.diff(periods) + if periods == 1: + b = [np.nan, 0, 0, 0, 0] + else: + b = [0, 0, 0, np.nan, np.nan] + expected = pd.DataFrame({"A": expected, "B": b}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "periods, indices", + [[-4, [-1, -1]], [-1, [1, -1]], [0, [0, 1]], [1, [-1, 0]], [4, [-1, -1]]], + ) + def test_shift_non_empty_array(self, data, periods, indices): + # https://github.com/pandas-dev/pandas/issues/23911 + subset = data[:2] + result = subset.shift(periods) + expected = subset.take(indices, allow_fill=True) + tm.assert_extension_array_equal(result, expected) + + @pytest.mark.parametrize("periods", [-4, -1, 0, 1, 4]) + def test_shift_empty_array(self, data, periods): + # https://github.com/pandas-dev/pandas/issues/23911 + empty = data[:0] + result = empty.shift(periods) + expected = empty + tm.assert_extension_array_equal(result, expected) + + def test_shift_zero_copies(self, data): + # GH#31502 + result = data.shift(0) + assert result is not data + + result = data[:0].shift(2) + assert result is not data + + def test_shift_fill_value(self, data): + arr = data[:4] + fill_value = data[0] + result = arr.shift(1, fill_value=fill_value) + expected = data.take([0, 0, 1, 2]) + tm.assert_extension_array_equal(result, expected) + + result = arr.shift(-2, fill_value=fill_value) + expected = data.take([2, 3, 0, 0]) + tm.assert_extension_array_equal(result, expected) + + def test_not_hashable(self, data): + # We are in general mutable, so not hashable + with pytest.raises(TypeError, match="unhashable type"): + hash(data) + + def test_hash_pandas_object_works(self, data, as_frame): + # https://github.com/pandas-dev/pandas/issues/23066 + data = pd.Series(data) + if as_frame: + data = data.to_frame() + a = pd.util.hash_pandas_object(data) + b = pd.util.hash_pandas_object(data) + tm.assert_equal(a, b) + + def test_searchsorted(self, data_for_sorting, as_series): + if data_for_sorting.dtype._is_boolean: + return self._test_searchsorted_bool_dtypes(data_for_sorting, as_series) + + b, c, a = data_for_sorting + arr = data_for_sorting.take([2, 0, 1]) # to get [a, b, c] + + if as_series: + arr = pd.Series(arr) + assert arr.searchsorted(a) == 0 + assert arr.searchsorted(a, side="right") == 1 + + assert arr.searchsorted(b) == 1 + assert arr.searchsorted(b, side="right") == 2 + + assert arr.searchsorted(c) == 2 + assert arr.searchsorted(c, side="right") == 3 + + result = arr.searchsorted(arr.take([0, 2])) + expected = np.array([0, 2], dtype=np.intp) + + tm.assert_numpy_array_equal(result, expected) + + # sorter + sorter = np.array([1, 2, 0]) + assert data_for_sorting.searchsorted(a, sorter=sorter) == 0 + + def _test_searchsorted_bool_dtypes(self, data_for_sorting, as_series): + # We call this from test_searchsorted in cases where we have a + # boolean-like dtype. The non-bool test assumes we have more than 2 + # unique values. + dtype = data_for_sorting.dtype + data_for_sorting = pd.array([True, False], dtype=dtype) + b, a = data_for_sorting + arr = type(data_for_sorting)._from_sequence([a, b]) + + if as_series: + arr = pd.Series(arr) + assert arr.searchsorted(a) == 0 + assert arr.searchsorted(a, side="right") == 1 + + assert arr.searchsorted(b) == 1 + assert arr.searchsorted(b, side="right") == 2 + + result = arr.searchsorted(arr.take([0, 1])) + expected = np.array([0, 1], dtype=np.intp) + + tm.assert_numpy_array_equal(result, expected) + + # sorter + sorter = np.array([1, 0]) + assert data_for_sorting.searchsorted(a, sorter=sorter) == 0 + + def test_where_series(self, data, na_value, as_frame): + assert data[0] != data[1] + cls = type(data) + a, b = data[:2] + + orig = pd.Series(cls._from_sequence([a, a, b, b], dtype=data.dtype)) + ser = orig.copy() + cond = np.array([True, True, False, False]) + + if as_frame: + ser = ser.to_frame(name="a") + cond = cond.reshape(-1, 1) + + result = ser.where(cond) + expected = pd.Series( + cls._from_sequence([a, a, na_value, na_value], dtype=data.dtype) + ) + + if as_frame: + expected = expected.to_frame(name="a") + tm.assert_equal(result, expected) + + ser.mask(~cond, inplace=True) + tm.assert_equal(ser, expected) + + # array other + ser = orig.copy() + if as_frame: + ser = ser.to_frame(name="a") + cond = np.array([True, False, True, True]) + other = cls._from_sequence([a, b, a, b], dtype=data.dtype) + if as_frame: + other = pd.DataFrame({"a": other}) + cond = pd.DataFrame({"a": cond}) + result = ser.where(cond, other) + expected = pd.Series(cls._from_sequence([a, b, b, b], dtype=data.dtype)) + if as_frame: + expected = expected.to_frame(name="a") + tm.assert_equal(result, expected) + + ser.mask(~cond, other, inplace=True) + tm.assert_equal(ser, expected) + + @pytest.mark.parametrize("repeats", [0, 1, 2, [1, 2, 3]]) + def test_repeat(self, data, repeats, as_series, use_numpy): + arr = type(data)._from_sequence(data[:3], dtype=data.dtype) + if as_series: + arr = pd.Series(arr) + + result = np.repeat(arr, repeats) if use_numpy else arr.repeat(repeats) + + repeats = [repeats] * 3 if isinstance(repeats, int) else repeats + expected = [x for x, n in zip(arr, repeats) for _ in range(n)] + expected = type(data)._from_sequence(expected, dtype=data.dtype) + if as_series: + expected = pd.Series(expected, index=arr.index.repeat(repeats)) + + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "repeats, kwargs, error, msg", + [ + (2, {"axis": 1}, ValueError, "axis"), + (-1, {}, ValueError, "negative"), + ([1, 2], {}, ValueError, "shape"), + (2, {"foo": "bar"}, TypeError, "'foo'"), + ], + ) + def test_repeat_raises(self, data, repeats, kwargs, error, msg, use_numpy): + with pytest.raises(error, match=msg): + if use_numpy: + np.repeat(data, repeats, **kwargs) + else: + data.repeat(repeats, **kwargs) + + def test_delete(self, data): + result = data.delete(0) + expected = data[1:] + tm.assert_extension_array_equal(result, expected) + + result = data.delete([1, 3]) + expected = data._concat_same_type([data[[0]], data[[2]], data[4:]]) + tm.assert_extension_array_equal(result, expected) + + def test_insert(self, data): + # insert at the beginning + result = data[1:].insert(0, data[0]) + tm.assert_extension_array_equal(result, data) + + result = data[1:].insert(-len(data[1:]), data[0]) + tm.assert_extension_array_equal(result, data) + + # insert at the middle + result = data[:-1].insert(4, data[-1]) + + taker = np.arange(len(data)) + taker[5:] = taker[4:-1] + taker[4] = len(data) - 1 + expected = data.take(taker) + tm.assert_extension_array_equal(result, expected) + + def test_insert_invalid(self, data, invalid_scalar): + item = invalid_scalar + + with pytest.raises((TypeError, ValueError)): + data.insert(0, item) + + with pytest.raises((TypeError, ValueError)): + data.insert(4, item) + + with pytest.raises((TypeError, ValueError)): + data.insert(len(data) - 1, item) + + def test_insert_invalid_loc(self, data): + ub = len(data) + + with pytest.raises(IndexError): + data.insert(ub + 1, data[0]) + + with pytest.raises(IndexError): + data.insert(-ub - 1, data[0]) + + with pytest.raises(TypeError): + # we expect TypeError here instead of IndexError to match np.insert + data.insert(1.5, data[0]) + + @pytest.mark.parametrize("box", [pd.array, pd.Series, pd.DataFrame]) + def test_equals(self, data, na_value, as_series, box): + data2 = type(data)._from_sequence([data[0]] * len(data), dtype=data.dtype) + data_na = type(data)._from_sequence([na_value] * len(data), dtype=data.dtype) + + data = tm.box_expected(data, box, transpose=False) + data2 = tm.box_expected(data2, box, transpose=False) + data_na = tm.box_expected(data_na, box, transpose=False) + + # we are asserting with `is True/False` explicitly, to test that the + # result is an actual Python bool, and not something "truthy" + + assert data.equals(data) is True + assert data.equals(data.copy()) is True + + # unequal other data + assert data.equals(data2) is False + assert data.equals(data_na) is False + + # different length + assert data[:2].equals(data[:3]) is False + + # empty are equal + assert data[:0].equals(data[:0]) is True + + # other types + assert data.equals(None) is False + assert data[[0]].equals(data[0]) is False + + def test_equals_same_data_different_object(self, data): + # https://github.com/pandas-dev/pandas/issues/34660 + assert pd.Series(data).equals(pd.Series(data)) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/missing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/missing.py new file mode 100644 index 0000000000000000000000000000000000000000..fb15b2dec869c7d311ddf0b52d13de4e66078dbc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/missing.py @@ -0,0 +1,190 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +class BaseMissingTests: + def test_isna(self, data_missing): + expected = np.array([True, False]) + + result = pd.isna(data_missing) + tm.assert_numpy_array_equal(result, expected) + + result = pd.Series(data_missing).isna() + expected = pd.Series(expected) + tm.assert_series_equal(result, expected) + + # GH 21189 + result = pd.Series(data_missing).drop([0, 1]).isna() + expected = pd.Series([], dtype=bool) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("na_func", ["isna", "notna"]) + def test_isna_returns_copy(self, data_missing, na_func): + result = pd.Series(data_missing) + expected = result.copy() + mask = getattr(result, na_func)() + if isinstance(mask.dtype, pd.SparseDtype): + # TODO: GH 57739 + mask = np.array(mask) + mask.flags.writeable = True + + mask[:] = True + tm.assert_series_equal(result, expected) + + def test_dropna_array(self, data_missing): + result = data_missing.dropna() + expected = data_missing[[1]] + tm.assert_extension_array_equal(result, expected) + + def test_dropna_series(self, data_missing): + ser = pd.Series(data_missing) + result = ser.dropna() + expected = ser.iloc[[1]] + tm.assert_series_equal(result, expected) + + def test_dropna_frame(self, data_missing): + df = pd.DataFrame({"A": data_missing}, columns=pd.Index(["A"], dtype=object)) + + # defaults + result = df.dropna() + expected = df.iloc[[1]] + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.dropna(axis="columns") + expected = pd.DataFrame(index=pd.RangeIndex(2), columns=pd.Index([])) + tm.assert_frame_equal(result, expected) + + # multiple + df = pd.DataFrame({"A": data_missing, "B": [1, np.nan]}) + result = df.dropna() + expected = df.iloc[:0] + tm.assert_frame_equal(result, expected) + + def test_fillna_scalar(self, data_missing): + valid = data_missing[1] + result = data_missing.fillna(valid) + expected = data_missing.fillna(valid) + tm.assert_extension_array_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:Series.fillna with 'method' is deprecated:FutureWarning" + ) + def test_fillna_limit_pad(self, data_missing): + arr = data_missing.take([1, 0, 0, 0, 1]) + result = pd.Series(arr).ffill(limit=2) + expected = pd.Series(data_missing.take([1, 1, 1, 0, 1])) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "limit_area, input_ilocs, expected_ilocs", + [ + ("outside", [1, 0, 0, 0, 1], [1, 0, 0, 0, 1]), + ("outside", [1, 0, 1, 0, 1], [1, 0, 1, 0, 1]), + ("outside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 1]), + ("outside", [0, 1, 0, 1, 0], [0, 1, 0, 1, 1]), + ("inside", [1, 0, 0, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [1, 0, 1, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 0]), + ("inside", [0, 1, 0, 1, 0], [0, 1, 1, 1, 0]), + ], + ) + def test_ffill_limit_area( + self, data_missing, limit_area, input_ilocs, expected_ilocs + ): + # GH#56616 + arr = data_missing.take(input_ilocs) + result = pd.Series(arr).ffill(limit_area=limit_area) + expected = pd.Series(data_missing.take(expected_ilocs)) + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:Series.fillna with 'method' is deprecated:FutureWarning" + ) + def test_fillna_limit_backfill(self, data_missing): + arr = data_missing.take([1, 0, 0, 0, 1]) + result = pd.Series(arr).fillna(method="backfill", limit=2) + expected = pd.Series(data_missing.take([1, 0, 1, 1, 1])) + tm.assert_series_equal(result, expected) + + def test_fillna_no_op_returns_copy(self, data): + data = data[~data.isna()] + + valid = data[0] + result = data.fillna(valid) + assert result is not data + tm.assert_extension_array_equal(result, data) + + result = data._pad_or_backfill(method="backfill") + assert result is not data + tm.assert_extension_array_equal(result, data) + + def test_fillna_series(self, data_missing): + fill_value = data_missing[1] + ser = pd.Series(data_missing) + + result = ser.fillna(fill_value) + expected = pd.Series( + data_missing._from_sequence( + [fill_value, fill_value], dtype=data_missing.dtype + ) + ) + tm.assert_series_equal(result, expected) + + # Fill with a series + result = ser.fillna(expected) + tm.assert_series_equal(result, expected) + + # Fill with a series not affecting the missing values + result = ser.fillna(ser) + tm.assert_series_equal(result, ser) + + def test_fillna_series_method(self, data_missing, fillna_method): + fill_value = data_missing[1] + + if fillna_method == "ffill": + data_missing = data_missing[::-1] + + result = getattr(pd.Series(data_missing), fillna_method)() + expected = pd.Series( + data_missing._from_sequence( + [fill_value, fill_value], dtype=data_missing.dtype + ) + ) + + tm.assert_series_equal(result, expected) + + def test_fillna_frame(self, data_missing): + fill_value = data_missing[1] + + result = pd.DataFrame({"A": data_missing, "B": [1, 2]}).fillna(fill_value) + + expected = pd.DataFrame( + { + "A": data_missing._from_sequence( + [fill_value, fill_value], dtype=data_missing.dtype + ), + "B": [1, 2], + } + ) + + tm.assert_frame_equal(result, expected) + + def test_fillna_fill_other(self, data): + result = pd.DataFrame({"A": data, "B": [np.nan] * len(data)}).fillna({"B": 0.0}) + + expected = pd.DataFrame({"A": data, "B": [0.0] * len(result)}) + + tm.assert_frame_equal(result, expected) + + def test_use_inf_as_na_no_effect(self, data_missing): + ser = pd.Series(data_missing) + expected = ser.isna() + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pd.option_context("mode.use_inf_as_na", True): + result = ser.isna() + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/ops.py new file mode 100644 index 0000000000000000000000000000000000000000..222ff42d4505260c751166d93e1590344787bb79 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/ops.py @@ -0,0 +1,289 @@ +from __future__ import annotations + +from typing import final + +import numpy as np +import pytest + +from pandas.core.dtypes.common import is_string_dtype + +import pandas as pd +import pandas._testing as tm +from pandas.core import ops + + +class BaseOpsUtil: + series_scalar_exc: type[Exception] | None = TypeError + frame_scalar_exc: type[Exception] | None = TypeError + series_array_exc: type[Exception] | None = TypeError + divmod_exc: type[Exception] | None = TypeError + + def _get_expected_exception( + self, op_name: str, obj, other + ) -> type[Exception] | tuple[type[Exception], ...] | None: + # Find the Exception, if any we expect to raise calling + # obj.__op_name__(other) + + # The self.obj_bar_exc pattern isn't great in part because it can depend + # on op_name or dtypes, but we use it here for backward-compatibility. + if op_name in ["__divmod__", "__rdivmod__"]: + result = self.divmod_exc + elif isinstance(obj, pd.Series) and isinstance(other, pd.Series): + result = self.series_array_exc + elif isinstance(obj, pd.Series): + result = self.series_scalar_exc + else: + result = self.frame_scalar_exc + + return result + + def _cast_pointwise_result(self, op_name: str, obj, other, pointwise_result): + # In _check_op we check that the result of a pointwise operation + # (found via _combine) matches the result of the vectorized + # operation obj.__op_name__(other). + # In some cases pandas dtype inference on the scalar result may not + # give a matching dtype even if both operations are behaving "correctly". + # In these cases, do extra required casting here. + return pointwise_result + + def get_op_from_name(self, op_name: str): + return tm.get_op_from_name(op_name) + + # Subclasses are not expected to need to override check_opname, _check_op, + # _check_divmod_op, or _combine. + # Ideally any relevant overriding can be done in _cast_pointwise_result, + # get_op_from_name, and the specification of `exc`. If you find a use + # case that still requires overriding _check_op or _combine, please let + # us know at github.com/pandas-dev/pandas/issues + @final + def check_opname(self, ser: pd.Series, op_name: str, other): + exc = self._get_expected_exception(op_name, ser, other) + op = self.get_op_from_name(op_name) + + self._check_op(ser, op, other, op_name, exc) + + # see comment on check_opname + @final + def _combine(self, obj, other, op): + if isinstance(obj, pd.DataFrame): + if len(obj.columns) != 1: + raise NotImplementedError + expected = obj.iloc[:, 0].combine(other, op).to_frame() + else: + expected = obj.combine(other, op) + return expected + + # see comment on check_opname + @final + def _check_op( + self, ser: pd.Series, op, other, op_name: str, exc=NotImplementedError + ): + # Check that the Series/DataFrame arithmetic/comparison method matches + # the pointwise result from _combine. + + if exc is None: + result = op(ser, other) + expected = self._combine(ser, other, op) + expected = self._cast_pointwise_result(op_name, ser, other, expected) + assert isinstance(result, type(ser)) + tm.assert_equal(result, expected) + else: + with pytest.raises(exc): + op(ser, other) + + # see comment on check_opname + @final + def _check_divmod_op(self, ser: pd.Series, op, other): + # check that divmod behavior matches behavior of floordiv+mod + if op is divmod: + exc = self._get_expected_exception("__divmod__", ser, other) + else: + exc = self._get_expected_exception("__rdivmod__", ser, other) + if exc is None: + result_div, result_mod = op(ser, other) + if op is divmod: + expected_div, expected_mod = ser // other, ser % other + else: + expected_div, expected_mod = other // ser, other % ser + tm.assert_series_equal(result_div, expected_div) + tm.assert_series_equal(result_mod, expected_mod) + else: + with pytest.raises(exc): + divmod(ser, other) + + +class BaseArithmeticOpsTests(BaseOpsUtil): + """ + Various Series and DataFrame arithmetic ops methods. + + Subclasses supporting various ops should set the class variables + to indicate that they support ops of that kind + + * series_scalar_exc = TypeError + * frame_scalar_exc = TypeError + * series_array_exc = TypeError + * divmod_exc = TypeError + """ + + series_scalar_exc: type[Exception] | None = TypeError + frame_scalar_exc: type[Exception] | None = TypeError + series_array_exc: type[Exception] | None = TypeError + divmod_exc: type[Exception] | None = TypeError + + def test_arith_series_with_scalar(self, data, all_arithmetic_operators): + # series & scalar + if all_arithmetic_operators == "__rmod__" and is_string_dtype(data.dtype): + pytest.skip("Skip testing Python string formatting") + + op_name = all_arithmetic_operators + ser = pd.Series(data) + self.check_opname(ser, op_name, ser.iloc[0]) + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators): + # frame & scalar + if all_arithmetic_operators == "__rmod__" and is_string_dtype(data.dtype): + pytest.skip("Skip testing Python string formatting") + + op_name = all_arithmetic_operators + df = pd.DataFrame({"A": data}) + self.check_opname(df, op_name, data[0]) + + def test_arith_series_with_array(self, data, all_arithmetic_operators): + # ndarray & other series + op_name = all_arithmetic_operators + ser = pd.Series(data) + self.check_opname(ser, op_name, pd.Series([ser.iloc[0]] * len(ser))) + + def test_divmod(self, data): + ser = pd.Series(data) + self._check_divmod_op(ser, divmod, 1) + self._check_divmod_op(1, ops.rdivmod, ser) + + def test_divmod_series_array(self, data, data_for_twos): + ser = pd.Series(data) + self._check_divmod_op(ser, divmod, data) + + other = data_for_twos + self._check_divmod_op(other, ops.rdivmod, ser) + + other = pd.Series(other) + self._check_divmod_op(other, ops.rdivmod, ser) + + def test_add_series_with_extension_array(self, data): + # Check adding an ExtensionArray to a Series of the same dtype matches + # the behavior of adding the arrays directly and then wrapping in a + # Series. + + ser = pd.Series(data) + + exc = self._get_expected_exception("__add__", ser, data) + if exc is not None: + with pytest.raises(exc): + ser + data + return + + result = ser + data + expected = pd.Series(data + data) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("box", [pd.Series, pd.DataFrame, pd.Index]) + @pytest.mark.parametrize( + "op_name", + [ + x + for x in tm.arithmetic_dunder_methods + tm.comparison_dunder_methods + if not x.startswith("__r") + ], + ) + def test_direct_arith_with_ndframe_returns_not_implemented( + self, data, box, op_name + ): + # EAs should return NotImplemented for ops with Series/DataFrame/Index + # Pandas takes care of unboxing the series and calling the EA's op. + other = box(data) + + if hasattr(data, op_name): + result = getattr(data, op_name)(other) + assert result is NotImplemented + + +class BaseComparisonOpsTests(BaseOpsUtil): + """Various Series and DataFrame comparison ops methods.""" + + def _compare_other(self, ser: pd.Series, data, op, other): + if op.__name__ in ["eq", "ne"]: + # comparison should match point-wise comparisons + result = op(ser, other) + expected = ser.combine(other, op) + expected = self._cast_pointwise_result(op.__name__, ser, other, expected) + tm.assert_series_equal(result, expected) + + else: + exc = None + try: + result = op(ser, other) + except Exception as err: + exc = err + + if exc is None: + # Didn't error, then should match pointwise behavior + expected = ser.combine(other, op) + expected = self._cast_pointwise_result( + op.__name__, ser, other, expected + ) + tm.assert_series_equal(result, expected) + else: + with pytest.raises(type(exc)): + ser.combine(other, op) + + def test_compare_scalar(self, data, comparison_op): + ser = pd.Series(data) + self._compare_other(ser, data, comparison_op, 0) + + def test_compare_array(self, data, comparison_op): + ser = pd.Series(data) + other = pd.Series([data[0]] * len(data), dtype=data.dtype) + self._compare_other(ser, data, comparison_op, other) + + +class BaseUnaryOpsTests(BaseOpsUtil): + def test_invert(self, data): + ser = pd.Series(data, name="name") + try: + # 10 is an arbitrary choice here, just avoid iterating over + # the whole array to trim test runtime + [~x for x in data[:10]] + except TypeError: + # scalars don't support invert -> we don't expect the vectorized + # operation to succeed + with pytest.raises(TypeError): + ~ser + with pytest.raises(TypeError): + ~data + else: + # Note we do not reuse the pointwise result to construct expected + # because python semantics for negating bools are weird see GH#54569 + result = ~ser + expected = pd.Series(~data, name="name") + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("ufunc", [np.positive, np.negative, np.abs]) + def test_unary_ufunc_dunder_equivalence(self, data, ufunc): + # the dunder __pos__ works if and only if np.positive works, + # same for __neg__/np.negative and __abs__/np.abs + attr = {np.positive: "__pos__", np.negative: "__neg__", np.abs: "__abs__"}[ + ufunc + ] + + exc = None + try: + result = getattr(data, attr)() + except Exception as err: + exc = err + + # if __pos__ raised, then so should the ufunc + with pytest.raises((type(exc), TypeError)): + ufunc(data) + else: + alt = ufunc(data) + tm.assert_extension_array_equal(result, alt) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/printing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/printing.py new file mode 100644 index 0000000000000000000000000000000000000000..b20236ec107b04a09238c472a1d7172256334d3b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/printing.py @@ -0,0 +1,41 @@ +import io + +import pytest + +import pandas as pd + + +class BasePrintingTests: + """Tests checking the formatting of your EA when printed.""" + + @pytest.mark.parametrize("size", ["big", "small"]) + def test_array_repr(self, data, size): + if size == "small": + data = data[:5] + else: + data = type(data)._concat_same_type([data] * 5) + + result = repr(data) + assert type(data).__name__ in result + assert f"Length: {len(data)}" in result + assert str(data.dtype) in result + if size == "big": + assert "..." in result + + def test_array_repr_unicode(self, data): + result = str(data) + assert isinstance(result, str) + + def test_series_repr(self, data): + ser = pd.Series(data) + assert data.dtype.name in repr(ser) + + def test_dataframe_repr(self, data): + df = pd.DataFrame({"A": data}) + repr(df) + + def test_dtype_name_in_info(self, data): + buf = io.StringIO() + pd.DataFrame({"A": data}).info(buf=buf) + result = buf.getvalue() + assert data.dtype.name in result diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reduce.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reduce.py new file mode 100644 index 0000000000000000000000000000000000000000..6ea1b3a6fbe9da36e430c26b7ce7bcb706464108 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reduce.py @@ -0,0 +1,153 @@ +from typing import final + +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import is_numeric_dtype + + +class BaseReduceTests: + """ + Reduction specific tests. Generally these only + make sense for numeric/boolean operations. + """ + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + # Specify if we expect this reduction to succeed. + return False + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + # We perform the same operation on the np.float64 data and check + # that the results match. Override if you need to cast to something + # other than float64. + res_op = getattr(ser, op_name) + + try: + alt = ser.astype("float64") + except (TypeError, ValueError): + # e.g. Interval can't cast (TypeError), StringArray can't cast + # (ValueError), so let's cast to object and do + # the reduction pointwise + alt = ser.astype(object) + + exp_op = getattr(alt, op_name) + if op_name == "count": + result = res_op() + expected = exp_op() + else: + result = res_op(skipna=skipna) + expected = exp_op(skipna=skipna) + tm.assert_almost_equal(result, expected) + + def _get_expected_reduction_dtype(self, arr, op_name: str, skipna: bool): + # Find the expected dtype when the given reduction is done on a DataFrame + # column with this array. The default assumes float64-like behavior, + # i.e. retains the dtype. + return arr.dtype + + # We anticipate that authors should not need to override check_reduce_frame, + # but should be able to do any necessary overriding in + # _get_expected_reduction_dtype. If you have a use case where this + # does not hold, please let us know at github.com/pandas-dev/pandas/issues. + @final + def check_reduce_frame(self, ser: pd.Series, op_name: str, skipna: bool): + # Check that the 2D reduction done in a DataFrame reduction "looks like" + # a wrapped version of the 1D reduction done by Series. + arr = ser.array + df = pd.DataFrame({"a": arr}) + + kwargs = {"ddof": 1} if op_name in ["var", "std"] else {} + + cmp_dtype = self._get_expected_reduction_dtype(arr, op_name, skipna) + + # The DataFrame method just calls arr._reduce with keepdims=True, + # so this first check is perfunctory. + result1 = arr._reduce(op_name, skipna=skipna, keepdims=True, **kwargs) + result2 = getattr(df, op_name)(skipna=skipna, **kwargs).array + tm.assert_extension_array_equal(result1, result2) + + # Check that the 2D reduction looks like a wrapped version of the + # 1D reduction + if not skipna and ser.isna().any(): + expected = pd.array([pd.NA], dtype=cmp_dtype) + else: + exp_value = getattr(ser.dropna(), op_name)() + expected = pd.array([exp_value], dtype=cmp_dtype) + + tm.assert_extension_array_equal(result1, expected) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_boolean(self, data, all_boolean_reductions, skipna): + op_name = all_boolean_reductions + ser = pd.Series(data) + + if not self._supports_reduction(ser, op_name): + # TODO: the message being checked here isn't actually checking anything + msg = ( + "[Cc]annot perform|Categorical is not ordered for operation|" + "does not support reduction|" + ) + + with pytest.raises(TypeError, match=msg): + getattr(ser, op_name)(skipna=skipna) + + else: + self.check_reduce(ser, op_name, skipna) + + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_numeric(self, data, all_numeric_reductions, skipna): + op_name = all_numeric_reductions + ser = pd.Series(data) + + if not self._supports_reduction(ser, op_name): + # TODO: the message being checked here isn't actually checking anything + msg = ( + "[Cc]annot perform|Categorical is not ordered for operation|" + "does not support reduction|" + ) + + with pytest.raises(TypeError, match=msg): + getattr(ser, op_name)(skipna=skipna) + + else: + # min/max with empty produce numpy warnings + self.check_reduce(ser, op_name, skipna) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_frame(self, data, all_numeric_reductions, skipna): + op_name = all_numeric_reductions + ser = pd.Series(data) + if not is_numeric_dtype(ser.dtype): + pytest.skip(f"{ser.dtype} is not numeric dtype") + + if op_name in ["count", "kurt", "sem"]: + pytest.skip(f"{op_name} not an array method") + + if not self._supports_reduction(ser, op_name): + pytest.skip(f"Reduction {op_name} not supported for this dtype") + + self.check_reduce_frame(ser, op_name, skipna) + + +# TODO(3.0): remove BaseNoReduceTests, BaseNumericReduceTests, +# BaseBooleanReduceTests +class BaseNoReduceTests(BaseReduceTests): + """we don't define any reductions""" + + +class BaseNumericReduceTests(BaseReduceTests): + # For backward compatibility only, this only runs the numeric reductions + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + if op_name in ["any", "all"]: + pytest.skip("These are tested in BaseBooleanReduceTests") + return True + + +class BaseBooleanReduceTests(BaseReduceTests): + # For backward compatibility only, this only runs the numeric reductions + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + if op_name not in ["any", "all"]: + pytest.skip("These are tested in BaseNumericReduceTests") + return True diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reshaping.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reshaping.py new file mode 100644 index 0000000000000000000000000000000000000000..4550e3b055cfeaea60f9d0b44c97e099e8e4d47c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/reshaping.py @@ -0,0 +1,379 @@ +import itertools + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.extensions import ExtensionArray +from pandas.core.internals.blocks import EABackedBlock + + +class BaseReshapingTests: + """Tests for reshaping and concatenation.""" + + @pytest.mark.parametrize("in_frame", [True, False]) + def test_concat(self, data, in_frame): + wrapped = pd.Series(data) + if in_frame: + wrapped = pd.DataFrame(wrapped) + result = pd.concat([wrapped, wrapped], ignore_index=True) + + assert len(result) == len(data) * 2 + + if in_frame: + dtype = result.dtypes[0] + else: + dtype = result.dtype + + assert dtype == data.dtype + if hasattr(result._mgr, "blocks"): + assert isinstance(result._mgr.blocks[0], EABackedBlock) + assert isinstance(result._mgr.arrays[0], ExtensionArray) + + @pytest.mark.parametrize("in_frame", [True, False]) + def test_concat_all_na_block(self, data_missing, in_frame): + valid_block = pd.Series(data_missing.take([1, 1]), index=[0, 1]) + na_block = pd.Series(data_missing.take([0, 0]), index=[2, 3]) + if in_frame: + valid_block = pd.DataFrame({"a": valid_block}) + na_block = pd.DataFrame({"a": na_block}) + result = pd.concat([valid_block, na_block]) + if in_frame: + expected = pd.DataFrame({"a": data_missing.take([1, 1, 0, 0])}) + tm.assert_frame_equal(result, expected) + else: + expected = pd.Series(data_missing.take([1, 1, 0, 0])) + tm.assert_series_equal(result, expected) + + def test_concat_mixed_dtypes(self, data): + # https://github.com/pandas-dev/pandas/issues/20762 + df1 = pd.DataFrame({"A": data[:3]}) + df2 = pd.DataFrame({"A": [1, 2, 3]}) + df3 = pd.DataFrame({"A": ["a", "b", "c"]}).astype("category") + dfs = [df1, df2, df3] + + # dataframes + result = pd.concat(dfs) + expected = pd.concat([x.astype(object) for x in dfs]) + tm.assert_frame_equal(result, expected) + + # series + result = pd.concat([x["A"] for x in dfs]) + expected = pd.concat([x["A"].astype(object) for x in dfs]) + tm.assert_series_equal(result, expected) + + # simple test for just EA and one other + result = pd.concat([df1, df2.astype(object)]) + expected = pd.concat([df1.astype("object"), df2.astype("object")]) + tm.assert_frame_equal(result, expected) + + result = pd.concat([df1["A"], df2["A"].astype(object)]) + expected = pd.concat([df1["A"].astype("object"), df2["A"].astype("object")]) + tm.assert_series_equal(result, expected) + + def test_concat_columns(self, data, na_value): + df1 = pd.DataFrame({"A": data[:3]}) + df2 = pd.DataFrame({"B": [1, 2, 3]}) + + expected = pd.DataFrame({"A": data[:3], "B": [1, 2, 3]}) + result = pd.concat([df1, df2], axis=1) + tm.assert_frame_equal(result, expected) + result = pd.concat([df1["A"], df2["B"]], axis=1) + tm.assert_frame_equal(result, expected) + + # non-aligned + df2 = pd.DataFrame({"B": [1, 2, 3]}, index=[1, 2, 3]) + expected = pd.DataFrame( + { + "A": data._from_sequence(list(data[:3]) + [na_value], dtype=data.dtype), + "B": [np.nan, 1, 2, 3], + } + ) + + result = pd.concat([df1, df2], axis=1) + tm.assert_frame_equal(result, expected) + result = pd.concat([df1["A"], df2["B"]], axis=1) + tm.assert_frame_equal(result, expected) + + def test_concat_extension_arrays_copy_false(self, data, na_value): + # GH 20756 + df1 = pd.DataFrame({"A": data[:3]}) + df2 = pd.DataFrame({"B": data[3:7]}) + expected = pd.DataFrame( + { + "A": data._from_sequence(list(data[:3]) + [na_value], dtype=data.dtype), + "B": data[3:7], + } + ) + result = pd.concat([df1, df2], axis=1, copy=False) + tm.assert_frame_equal(result, expected) + + def test_concat_with_reindex(self, data): + # GH-33027 + a = pd.DataFrame({"a": data[:5]}) + b = pd.DataFrame({"b": data[:5]}) + result = pd.concat([a, b], ignore_index=True) + expected = pd.DataFrame( + { + "a": data.take(list(range(5)) + ([-1] * 5), allow_fill=True), + "b": data.take(([-1] * 5) + list(range(5)), allow_fill=True), + } + ) + tm.assert_frame_equal(result, expected) + + def test_align(self, data, na_value): + a = data[:3] + b = data[2:5] + r1, r2 = pd.Series(a).align(pd.Series(b, index=[1, 2, 3])) + + # Assumes that the ctor can take a list of scalars of the type + e1 = pd.Series(data._from_sequence(list(a) + [na_value], dtype=data.dtype)) + e2 = pd.Series(data._from_sequence([na_value] + list(b), dtype=data.dtype)) + tm.assert_series_equal(r1, e1) + tm.assert_series_equal(r2, e2) + + def test_align_frame(self, data, na_value): + a = data[:3] + b = data[2:5] + r1, r2 = pd.DataFrame({"A": a}).align(pd.DataFrame({"A": b}, index=[1, 2, 3])) + + # Assumes that the ctor can take a list of scalars of the type + e1 = pd.DataFrame( + {"A": data._from_sequence(list(a) + [na_value], dtype=data.dtype)} + ) + e2 = pd.DataFrame( + {"A": data._from_sequence([na_value] + list(b), dtype=data.dtype)} + ) + tm.assert_frame_equal(r1, e1) + tm.assert_frame_equal(r2, e2) + + def test_align_series_frame(self, data, na_value): + # https://github.com/pandas-dev/pandas/issues/20576 + ser = pd.Series(data, name="a") + df = pd.DataFrame({"col": np.arange(len(ser) + 1)}) + r1, r2 = ser.align(df) + + e1 = pd.Series( + data._from_sequence(list(data) + [na_value], dtype=data.dtype), + name=ser.name, + ) + + tm.assert_series_equal(r1, e1) + tm.assert_frame_equal(r2, df) + + def test_set_frame_expand_regular_with_extension(self, data): + df = pd.DataFrame({"A": [1] * len(data)}) + df["B"] = data + expected = pd.DataFrame({"A": [1] * len(data), "B": data}) + tm.assert_frame_equal(df, expected) + + def test_set_frame_expand_extension_with_regular(self, data): + df = pd.DataFrame({"A": data}) + df["B"] = [1] * len(data) + expected = pd.DataFrame({"A": data, "B": [1] * len(data)}) + tm.assert_frame_equal(df, expected) + + def test_set_frame_overwrite_object(self, data): + # https://github.com/pandas-dev/pandas/issues/20555 + df = pd.DataFrame({"A": [1] * len(data)}, dtype=object) + df["A"] = data + assert df.dtypes["A"] == data.dtype + + def test_merge(self, data, na_value): + # GH-20743 + df1 = pd.DataFrame({"ext": data[:3], "int1": [1, 2, 3], "key": [0, 1, 2]}) + df2 = pd.DataFrame({"int2": [1, 2, 3, 4], "key": [0, 0, 1, 3]}) + + res = pd.merge(df1, df2) + exp = pd.DataFrame( + { + "int1": [1, 1, 2], + "int2": [1, 2, 3], + "key": [0, 0, 1], + "ext": data._from_sequence( + [data[0], data[0], data[1]], dtype=data.dtype + ), + } + ) + tm.assert_frame_equal(res, exp[["ext", "int1", "key", "int2"]]) + + res = pd.merge(df1, df2, how="outer") + exp = pd.DataFrame( + { + "int1": [1, 1, 2, 3, np.nan], + "int2": [1, 2, 3, np.nan, 4], + "key": [0, 0, 1, 2, 3], + "ext": data._from_sequence( + [data[0], data[0], data[1], data[2], na_value], dtype=data.dtype + ), + } + ) + tm.assert_frame_equal(res, exp[["ext", "int1", "key", "int2"]]) + + def test_merge_on_extension_array(self, data): + # GH 23020 + a, b = data[:2] + key = type(data)._from_sequence([a, b], dtype=data.dtype) + + df = pd.DataFrame({"key": key, "val": [1, 2]}) + result = pd.merge(df, df, on="key") + expected = pd.DataFrame({"key": key, "val_x": [1, 2], "val_y": [1, 2]}) + tm.assert_frame_equal(result, expected) + + # order + result = pd.merge(df.iloc[[1, 0]], df, on="key") + expected = expected.iloc[[1, 0]].reset_index(drop=True) + tm.assert_frame_equal(result, expected) + + def test_merge_on_extension_array_duplicates(self, data): + # GH 23020 + a, b = data[:2] + key = type(data)._from_sequence([a, b, a], dtype=data.dtype) + df1 = pd.DataFrame({"key": key, "val": [1, 2, 3]}) + df2 = pd.DataFrame({"key": key, "val": [1, 2, 3]}) + + result = pd.merge(df1, df2, on="key") + expected = pd.DataFrame( + { + "key": key.take([0, 0, 1, 2, 2]), + "val_x": [1, 1, 2, 3, 3], + "val_y": [1, 3, 2, 1, 3], + } + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize( + "columns", + [ + ["A", "B"], + pd.MultiIndex.from_tuples( + [("A", "a"), ("A", "b")], names=["outer", "inner"] + ), + ], + ) + @pytest.mark.parametrize("future_stack", [True, False]) + def test_stack(self, data, columns, future_stack): + df = pd.DataFrame({"A": data[:5], "B": data[:5]}) + df.columns = columns + result = df.stack(future_stack=future_stack) + expected = df.astype(object).stack(future_stack=future_stack) + # we need a second astype(object), in case the constructor inferred + # object -> specialized, as is done for period. + expected = expected.astype(object) + + if isinstance(expected, pd.Series): + assert result.dtype == df.iloc[:, 0].dtype + else: + assert all(result.dtypes == df.iloc[:, 0].dtype) + + result = result.astype(object) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "index", + [ + # Two levels, uniform. + pd.MultiIndex.from_product(([["A", "B"], ["a", "b"]]), names=["a", "b"]), + # non-uniform + pd.MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "b")]), + # three levels, non-uniform + pd.MultiIndex.from_product([("A", "B"), ("a", "b", "c"), (0, 1, 2)]), + pd.MultiIndex.from_tuples( + [ + ("A", "a", 1), + ("A", "b", 0), + ("A", "a", 0), + ("B", "a", 0), + ("B", "c", 1), + ] + ), + ], + ) + @pytest.mark.parametrize("obj", ["series", "frame"]) + def test_unstack(self, data, index, obj): + data = data[: len(index)] + if obj == "series": + ser = pd.Series(data, index=index) + else: + ser = pd.DataFrame({"A": data, "B": data}, index=index) + + n = index.nlevels + levels = list(range(n)) + # [0, 1, 2] + # [(0,), (1,), (2,), (0, 1), (0, 2), (1, 0), (1, 2), (2, 0), (2, 1)] + combinations = itertools.chain.from_iterable( + itertools.permutations(levels, i) for i in range(1, n) + ) + + for level in combinations: + result = ser.unstack(level=level) + assert all( + isinstance(result[col].array, type(data)) for col in result.columns + ) + + if obj == "series": + # We should get the same result with to_frame+unstack+droplevel + df = ser.to_frame() + + alt = df.unstack(level=level).droplevel(0, axis=1) + tm.assert_frame_equal(result, alt) + + obj_ser = ser.astype(object) + + expected = obj_ser.unstack(level=level, fill_value=data.dtype.na_value) + if obj == "series": + assert (expected.dtypes == object).all() + + result = result.astype(object) + tm.assert_frame_equal(result, expected) + + def test_ravel(self, data): + # as long as EA is 1D-only, ravel is a no-op + result = data.ravel() + assert type(result) == type(data) + + if data.dtype._is_immutable: + pytest.skip(f"test_ravel assumes mutability and {data.dtype} is immutable") + + # Check that we have a view, not a copy + result[0] = result[1] + assert data[0] == data[1] + + def test_transpose(self, data): + result = data.transpose() + assert type(result) == type(data) + + # check we get a new object + assert result is not data + + # If we ever _did_ support 2D, shape should be reversed + assert result.shape == data.shape[::-1] + + if data.dtype._is_immutable: + pytest.skip( + f"test_transpose assumes mutability and {data.dtype} is immutable" + ) + + # Check that we have a view, not a copy + result[0] = result[1] + assert data[0] == data[1] + + def test_transpose_frame(self, data): + df = pd.DataFrame({"A": data[:4], "B": data[:4]}, index=["a", "b", "c", "d"]) + result = df.T + expected = pd.DataFrame( + { + "a": type(data)._from_sequence([data[0]] * 2, dtype=data.dtype), + "b": type(data)._from_sequence([data[1]] * 2, dtype=data.dtype), + "c": type(data)._from_sequence([data[2]] * 2, dtype=data.dtype), + "d": type(data)._from_sequence([data[3]] * 2, dtype=data.dtype), + }, + index=["A", "B"], + ) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(np.transpose(np.transpose(df)), df) + tm.assert_frame_equal(np.transpose(np.transpose(df[["A"]])), df[["A"]]) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/setitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/setitem.py new file mode 100644 index 0000000000000000000000000000000000000000..ca19845041e231f141d480ad57f668e4d6fcd5fc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/base/setitem.py @@ -0,0 +1,451 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +class BaseSetitemTests: + @pytest.fixture( + params=[ + lambda x: x.index, + lambda x: list(x.index), + lambda x: slice(None), + lambda x: slice(0, len(x)), + lambda x: range(len(x)), + lambda x: list(range(len(x))), + lambda x: np.ones(len(x), dtype=bool), + ], + ids=[ + "index", + "list[index]", + "null_slice", + "full_slice", + "range", + "list(range)", + "mask", + ], + ) + def full_indexer(self, request): + """ + Fixture for an indexer to pass to obj.loc to get/set the full length of the + object. + + In some cases, assumes that obj.index is the default RangeIndex. + """ + return request.param + + @pytest.fixture(autouse=True) + def skip_if_immutable(self, dtype, request): + if dtype._is_immutable: + node = request.node + if node.name.split("[")[0] == "test_is_immutable": + # This fixture is auto-used, but we want to not-skip + # test_is_immutable. + return + + # When BaseSetitemTests is mixed into ExtensionTests, we only + # want this fixture to operate on the tests defined in this + # class/file. + defined_in = node.function.__qualname__.split(".")[0] + if defined_in == "BaseSetitemTests": + pytest.skip("__setitem__ test not applicable with immutable dtype") + + def test_is_immutable(self, data): + if data.dtype._is_immutable: + with pytest.raises(TypeError): + data[0] = data[0] + else: + data[0] = data[1] + assert data[0] == data[1] + + def test_setitem_scalar_series(self, data, box_in_series): + if box_in_series: + data = pd.Series(data) + data[0] = data[1] + assert data[0] == data[1] + + def test_setitem_sequence(self, data, box_in_series): + if box_in_series: + data = pd.Series(data) + original = data.copy() + + data[[0, 1]] = [data[1], data[0]] + assert data[0] == original[1] + assert data[1] == original[0] + + def test_setitem_sequence_mismatched_length_raises(self, data, as_array): + ser = pd.Series(data) + original = ser.copy() + value = [data[0]] + if as_array: + value = data._from_sequence(value, dtype=data.dtype) + + xpr = "cannot set using a {} indexer with a different length" + with pytest.raises(ValueError, match=xpr.format("list-like")): + ser[[0, 1]] = value + # Ensure no modifications made before the exception + tm.assert_series_equal(ser, original) + + with pytest.raises(ValueError, match=xpr.format("slice")): + ser[slice(3)] = value + tm.assert_series_equal(ser, original) + + def test_setitem_empty_indexer(self, data, box_in_series): + if box_in_series: + data = pd.Series(data) + original = data.copy() + data[np.array([], dtype=int)] = [] + tm.assert_equal(data, original) + + def test_setitem_sequence_broadcasts(self, data, box_in_series): + if box_in_series: + data = pd.Series(data) + data[[0, 1]] = data[2] + assert data[0] == data[2] + assert data[1] == data[2] + + @pytest.mark.parametrize("setter", ["loc", "iloc"]) + def test_setitem_scalar(self, data, setter): + arr = pd.Series(data) + setter = getattr(arr, setter) + setter[0] = data[1] + assert arr[0] == data[1] + + def test_setitem_loc_scalar_mixed(self, data): + df = pd.DataFrame({"A": np.arange(len(data)), "B": data}) + df.loc[0, "B"] = data[1] + assert df.loc[0, "B"] == data[1] + + def test_setitem_loc_scalar_single(self, data): + df = pd.DataFrame({"B": data}) + df.loc[10, "B"] = data[1] + assert df.loc[10, "B"] == data[1] + + def test_setitem_loc_scalar_multiple_homogoneous(self, data): + df = pd.DataFrame({"A": data, "B": data}) + df.loc[10, "B"] = data[1] + assert df.loc[10, "B"] == data[1] + + def test_setitem_iloc_scalar_mixed(self, data): + df = pd.DataFrame({"A": np.arange(len(data)), "B": data}) + df.iloc[0, 1] = data[1] + assert df.loc[0, "B"] == data[1] + + def test_setitem_iloc_scalar_single(self, data): + df = pd.DataFrame({"B": data}) + df.iloc[10, 0] = data[1] + assert df.loc[10, "B"] == data[1] + + def test_setitem_iloc_scalar_multiple_homogoneous(self, data): + df = pd.DataFrame({"A": data, "B": data}) + df.iloc[10, 1] = data[1] + assert df.loc[10, "B"] == data[1] + + @pytest.mark.parametrize( + "mask", + [ + np.array([True, True, True, False, False]), + pd.array([True, True, True, False, False], dtype="boolean"), + pd.array([True, True, True, pd.NA, pd.NA], dtype="boolean"), + ], + ids=["numpy-array", "boolean-array", "boolean-array-na"], + ) + def test_setitem_mask(self, data, mask, box_in_series): + arr = data[:5].copy() + expected = arr.take([0, 0, 0, 3, 4]) + if box_in_series: + arr = pd.Series(arr) + expected = pd.Series(expected) + arr[mask] = data[0] + tm.assert_equal(expected, arr) + + def test_setitem_mask_raises(self, data, box_in_series): + # wrong length + mask = np.array([True, False]) + + if box_in_series: + data = pd.Series(data) + + with pytest.raises(IndexError, match="wrong length"): + data[mask] = data[0] + + mask = pd.array(mask, dtype="boolean") + with pytest.raises(IndexError, match="wrong length"): + data[mask] = data[0] + + def test_setitem_mask_boolean_array_with_na(self, data, box_in_series): + mask = pd.array(np.zeros(data.shape, dtype="bool"), dtype="boolean") + mask[:3] = True + mask[3:5] = pd.NA + + if box_in_series: + data = pd.Series(data) + + data[mask] = data[0] + + assert (data[:3] == data[0]).all() + + @pytest.mark.parametrize( + "idx", + [[0, 1, 2], pd.array([0, 1, 2], dtype="Int64"), np.array([0, 1, 2])], + ids=["list", "integer-array", "numpy-array"], + ) + def test_setitem_integer_array(self, data, idx, box_in_series): + arr = data[:5].copy() + expected = data.take([0, 0, 0, 3, 4]) + + if box_in_series: + arr = pd.Series(arr) + expected = pd.Series(expected) + + arr[idx] = arr[0] + tm.assert_equal(arr, expected) + + @pytest.mark.parametrize( + "idx, box_in_series", + [ + ([0, 1, 2, pd.NA], False), + pytest.param( + [0, 1, 2, pd.NA], True, marks=pytest.mark.xfail(reason="GH-31948") + ), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + ], + ids=["list-False", "list-True", "integer-array-False", "integer-array-True"], + ) + def test_setitem_integer_with_missing_raises(self, data, idx, box_in_series): + arr = data.copy() + + # TODO(xfail) this raises KeyError about labels not found (it tries label-based) + # for list of labels with Series + if box_in_series: + arr = pd.Series(data, index=[chr(100 + i) for i in range(len(data))]) + + msg = "Cannot index with an integer indexer containing NA values" + with pytest.raises(ValueError, match=msg): + arr[idx] = arr[0] + + @pytest.mark.parametrize("as_callable", [True, False]) + @pytest.mark.parametrize("setter", ["loc", None]) + def test_setitem_mask_aligned(self, data, as_callable, setter): + ser = pd.Series(data) + mask = np.zeros(len(data), dtype=bool) + mask[:2] = True + + if as_callable: + mask2 = lambda x: mask + else: + mask2 = mask + + if setter: + # loc + target = getattr(ser, setter) + else: + # Series.__setitem__ + target = ser + + target[mask2] = data[5:7] + + ser[mask2] = data[5:7] + assert ser[0] == data[5] + assert ser[1] == data[6] + + @pytest.mark.parametrize("setter", ["loc", None]) + def test_setitem_mask_broadcast(self, data, setter): + ser = pd.Series(data) + mask = np.zeros(len(data), dtype=bool) + mask[:2] = True + + if setter: # loc + target = getattr(ser, setter) + else: # __setitem__ + target = ser + + target[mask] = data[10] + assert ser[0] == data[10] + assert ser[1] == data[10] + + def test_setitem_expand_columns(self, data): + df = pd.DataFrame({"A": data}) + result = df.copy() + result["B"] = 1 + expected = pd.DataFrame({"A": data, "B": [1] * len(data)}) + tm.assert_frame_equal(result, expected) + + result = df.copy() + result.loc[:, "B"] = 1 + tm.assert_frame_equal(result, expected) + + # overwrite with new type + result["B"] = data + expected = pd.DataFrame({"A": data, "B": data}) + tm.assert_frame_equal(result, expected) + + def test_setitem_expand_with_extension(self, data): + df = pd.DataFrame({"A": [1] * len(data)}) + result = df.copy() + result["B"] = data + expected = pd.DataFrame({"A": [1] * len(data), "B": data}) + tm.assert_frame_equal(result, expected) + + result = df.copy() + result.loc[:, "B"] = data + tm.assert_frame_equal(result, expected) + + def test_setitem_frame_invalid_length(self, data): + df = pd.DataFrame({"A": [1] * len(data)}) + xpr = ( + rf"Length of values \({len(data[:5])}\) " + rf"does not match length of index \({len(df)}\)" + ) + with pytest.raises(ValueError, match=xpr): + df["B"] = data[:5] + + def test_setitem_tuple_index(self, data): + ser = pd.Series(data[:2], index=[(0, 0), (0, 1)]) + expected = pd.Series(data.take([1, 1]), index=ser.index) + ser[(0, 0)] = data[1] + tm.assert_series_equal(ser, expected) + + def test_setitem_slice(self, data, box_in_series): + arr = data[:5].copy() + expected = data.take([0, 0, 0, 3, 4]) + if box_in_series: + arr = pd.Series(arr) + expected = pd.Series(expected) + + arr[:3] = data[0] + tm.assert_equal(arr, expected) + + def test_setitem_loc_iloc_slice(self, data): + arr = data[:5].copy() + s = pd.Series(arr, index=["a", "b", "c", "d", "e"]) + expected = pd.Series(data.take([0, 0, 0, 3, 4]), index=s.index) + + result = s.copy() + result.iloc[:3] = data[0] + tm.assert_equal(result, expected) + + result = s.copy() + result.loc[:"c"] = data[0] + tm.assert_equal(result, expected) + + def test_setitem_slice_mismatch_length_raises(self, data): + arr = data[:5] + with pytest.raises(ValueError): + arr[:1] = arr[:2] + + def test_setitem_slice_array(self, data): + arr = data[:5].copy() + arr[:5] = data[-5:] + tm.assert_extension_array_equal(arr, data[-5:]) + + def test_setitem_scalar_key_sequence_raise(self, data): + arr = data[:5].copy() + with pytest.raises(ValueError): + arr[0] = arr[[0, 1]] + + def test_setitem_preserves_views(self, data): + # GH#28150 setitem shouldn't swap the underlying data + view1 = data.view() + view2 = data[:] + + data[0] = data[1] + assert view1[0] == data[1] + assert view2[0] == data[1] + + def test_setitem_with_expansion_dataframe_column(self, data, full_indexer): + # https://github.com/pandas-dev/pandas/issues/32395 + df = expected = pd.DataFrame({0: pd.Series(data)}) + result = pd.DataFrame(index=df.index) + + key = full_indexer(df) + result.loc[key, 0] = df[0] + + tm.assert_frame_equal(result, expected) + + def test_setitem_with_expansion_row(self, data, na_value): + df = pd.DataFrame({"data": data[:1]}) + + df.loc[1, "data"] = data[1] + expected = pd.DataFrame({"data": data[:2]}) + tm.assert_frame_equal(df, expected) + + # https://github.com/pandas-dev/pandas/issues/47284 + df.loc[2, "data"] = na_value + expected = pd.DataFrame( + {"data": pd.Series([data[0], data[1], na_value], dtype=data.dtype)} + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_series(self, data, full_indexer): + # https://github.com/pandas-dev/pandas/issues/32395 + ser = pd.Series(data, name="data") + result = pd.Series(index=ser.index, dtype=object, name="data") + + # because result has object dtype, the attempt to do setting inplace + # is successful, and object dtype is retained + key = full_indexer(ser) + result.loc[key] = ser + + expected = pd.Series( + data.astype(object), index=ser.index, name="data", dtype=object + ) + tm.assert_series_equal(result, expected) + + def test_setitem_frame_2d_values(self, data): + # GH#44514 + df = pd.DataFrame({"A": data}) + + # Avoiding using_array_manager fixture + # https://github.com/pandas-dev/pandas/pull/44514#discussion_r754002410 + using_array_manager = isinstance(df._mgr, pd.core.internals.ArrayManager) + using_copy_on_write = pd.options.mode.copy_on_write + + blk_data = df._mgr.arrays[0] + + orig = df.copy() + + df.iloc[:] = df.copy() + tm.assert_frame_equal(df, orig) + + df.iloc[:-1] = df.iloc[:-1].copy() + tm.assert_frame_equal(df, orig) + + df.iloc[:] = df.values + tm.assert_frame_equal(df, orig) + if not using_array_manager and not using_copy_on_write: + # GH#33457 Check that this setting occurred in-place + # FIXME(ArrayManager): this should work there too + assert df._mgr.arrays[0] is blk_data + + df.iloc[:-1] = df.values[:-1] + tm.assert_frame_equal(df, orig) + + def test_delitem_series(self, data): + # GH#40763 + ser = pd.Series(data, name="data") + + taker = np.arange(len(ser)) + taker = np.delete(taker, 1) + + expected = ser[taker] + del ser[1] + tm.assert_series_equal(ser, expected) + + def test_setitem_invalid(self, data, invalid_scalar): + msg = "" # messages vary by subclass, so we do not test it + with pytest.raises((ValueError, TypeError), match=msg): + data[0] = invalid_scalar + + with pytest.raises((ValueError, TypeError), match=msg): + data[:] = invalid_scalar + + def test_setitem_2d_values(self, data): + # GH50085 + original = data.copy() + df = pd.DataFrame({"a": data, "b": data}) + df.loc[[0, 1], :] = df.loc[[1, 0], :].values + assert (df.loc[0, :] == original[1]).all() + assert (df.loc[1, :] == original[0]).all() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..c5b1295ee4a7d4ad8f4a76b58e4b40837cd46d4c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/conftest.py @@ -0,0 +1,230 @@ +import operator + +import pytest + +from pandas._config.config import _get_option + +from pandas import ( + Series, + options, +) + + +@pytest.fixture +def dtype(): + """A fixture providing the ExtensionDtype to validate.""" + raise NotImplementedError + + +@pytest.fixture +def data(): + """ + Length-100 array for this type. + + * data[0] and data[1] should both be non missing + * data[0] and data[1] should not be equal + """ + raise NotImplementedError + + +@pytest.fixture +def data_for_twos(dtype): + """ + Length-100 array in which all the elements are two. + + Call pytest.skip in your fixture if the dtype does not support divmod. + """ + if not (dtype._is_numeric or dtype.kind == "m"): + # Object-dtypes may want to allow this, but for the most part + # only numeric and timedelta-like dtypes will need to implement this. + pytest.skip(f"{dtype} is not a numeric dtype") + + raise NotImplementedError + + +@pytest.fixture +def data_missing(): + """Length-2 array with [NA, Valid]""" + raise NotImplementedError + + +@pytest.fixture(params=["data", "data_missing"]) +def all_data(request, data, data_missing): + """Parametrized fixture giving 'data' and 'data_missing'""" + if request.param == "data": + return data + elif request.param == "data_missing": + return data_missing + + +@pytest.fixture +def data_repeated(data): + """ + Generate many datasets. + + Parameters + ---------- + data : fixture implementing `data` + + Returns + ------- + Callable[[int], Generator]: + A callable that takes a `count` argument and + returns a generator yielding `count` datasets. + """ + + def gen(count): + for _ in range(count): + yield data + + return gen + + +@pytest.fixture +def data_for_sorting(): + """ + Length-3 array with a known sort order. + + This should be three items [B, C, A] with + A < B < C + + For boolean dtypes (for which there are only 2 values available), + set B=C=True + """ + raise NotImplementedError + + +@pytest.fixture +def data_missing_for_sorting(): + """ + Length-3 array with a known sort order. + + This should be three items [B, NA, A] with + A < B and NA missing. + """ + raise NotImplementedError + + +@pytest.fixture +def na_cmp(): + """ + Binary operator for comparing NA values. + + Should return a function of two arguments that returns + True if both arguments are (scalar) NA for your type. + + By default, uses ``operator.is_`` + """ + return operator.is_ + + +@pytest.fixture +def na_value(dtype): + """ + The scalar missing value for this type. Default dtype.na_value. + + TODO: can be removed in 3.x (see https://github.com/pandas-dev/pandas/pull/54930) + """ + return dtype.na_value + + +@pytest.fixture +def data_for_grouping(): + """ + Data for factorization, grouping, and unique tests. + + Expected to be like [B, B, NA, NA, A, A, B, C] + + Where A < B < C and NA is missing. + + If a dtype has _is_boolean = True, i.e. only 2 unique non-NA entries, + then set C=B. + """ + raise NotImplementedError + + +@pytest.fixture(params=[True, False]) +def box_in_series(request): + """Whether to box the data in a Series""" + return request.param + + +@pytest.fixture( + params=[ + lambda x: 1, + lambda x: [1] * len(x), + lambda x: Series([1] * len(x)), + lambda x: x, + ], + ids=["scalar", "list", "series", "object"], +) +def groupby_apply_op(request): + """ + Functions to test groupby.apply(). + """ + return request.param + + +@pytest.fixture(params=[True, False]) +def as_frame(request): + """ + Boolean fixture to support Series and Series.to_frame() comparison testing. + """ + return request.param + + +@pytest.fixture(params=[True, False]) +def as_series(request): + """ + Boolean fixture to support arr and Series(arr) comparison testing. + """ + return request.param + + +@pytest.fixture(params=[True, False]) +def use_numpy(request): + """ + Boolean fixture to support comparison testing of ExtensionDtype array + and numpy array. + """ + return request.param + + +@pytest.fixture(params=["ffill", "bfill"]) +def fillna_method(request): + """ + Parametrized fixture giving method parameters 'ffill' and 'bfill' for + Series.fillna(method=) testing. + """ + return request.param + + +@pytest.fixture(params=[True, False]) +def as_array(request): + """ + Boolean fixture to support ExtensionDtype _from_sequence method testing. + """ + return request.param + + +@pytest.fixture +def invalid_scalar(data): + """ + A scalar that *cannot* be held by this ExtensionArray. + + The default should work for most subclasses, but is not guaranteed. + + If the array can hold any item (i.e. object dtype), then use pytest.skip. + """ + return object.__new__(object) + + +@pytest.fixture +def using_copy_on_write() -> bool: + """ + Fixture to check if Copy-on-Write is enabled. + """ + return ( + options.mode.copy_on_write is True + and _get_option("mode.data_manager", silent=True) == "block" + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..2a8c7e9f57a5da982530b8db854edd37baf13b6b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/__init__.py @@ -0,0 +1,6 @@ +from pandas.tests.extension.date.array import ( + DateArray, + DateDtype, +) + +__all__ = ["DateArray", "DateDtype"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/array.py new file mode 100644 index 0000000000000000000000000000000000000000..2306f5974ba186587dedb1159d64374601f55c86 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/date/array.py @@ -0,0 +1,188 @@ +from __future__ import annotations + +import datetime as dt +from typing import ( + TYPE_CHECKING, + Any, + cast, +) + +import numpy as np + +from pandas.core.dtypes.dtypes import register_extension_dtype + +from pandas.api.extensions import ( + ExtensionArray, + ExtensionDtype, +) +from pandas.api.types import pandas_dtype + +if TYPE_CHECKING: + from collections.abc import Sequence + + from pandas._typing import ( + Dtype, + PositionalIndexer, + ) + + +@register_extension_dtype +class DateDtype(ExtensionDtype): + @property + def type(self): + return dt.date + + @property + def name(self): + return "DateDtype" + + @classmethod + def construct_from_string(cls, string: str): + if not isinstance(string, str): + raise TypeError( + f"'construct_from_string' expects a string, got {type(string)}" + ) + + if string == cls.__name__: + return cls() + else: + raise TypeError(f"Cannot construct a '{cls.__name__}' from '{string}'") + + @classmethod + def construct_array_type(cls): + return DateArray + + @property + def na_value(self): + return dt.date.min + + def __repr__(self) -> str: + return self.name + + +class DateArray(ExtensionArray): + def __init__( + self, + dates: ( + dt.date + | Sequence[dt.date] + | tuple[np.ndarray, np.ndarray, np.ndarray] + | np.ndarray + ), + ) -> None: + if isinstance(dates, dt.date): + self._year = np.array([dates.year]) + self._month = np.array([dates.month]) + self._day = np.array([dates.year]) + return + + ldates = len(dates) + if isinstance(dates, list): + # pre-allocate the arrays since we know the size before hand + self._year = np.zeros(ldates, dtype=np.uint16) # 65535 (0, 9999) + self._month = np.zeros(ldates, dtype=np.uint8) # 255 (1, 31) + self._day = np.zeros(ldates, dtype=np.uint8) # 255 (1, 12) + # populate them + for i, (y, m, d) in enumerate( + (date.year, date.month, date.day) for date in dates + ): + self._year[i] = y + self._month[i] = m + self._day[i] = d + + elif isinstance(dates, tuple): + # only support triples + if ldates != 3: + raise ValueError("only triples are valid") + # check if all elements have the same type + if any(not isinstance(x, np.ndarray) for x in dates): + raise TypeError("invalid type") + ly, lm, ld = (len(cast(np.ndarray, d)) for d in dates) + if not ly == lm == ld: + raise ValueError( + f"tuple members must have the same length: {(ly, lm, ld)}" + ) + self._year = dates[0].astype(np.uint16) + self._month = dates[1].astype(np.uint8) + self._day = dates[2].astype(np.uint8) + + elif isinstance(dates, np.ndarray) and dates.dtype == "U10": + self._year = np.zeros(ldates, dtype=np.uint16) # 65535 (0, 9999) + self._month = np.zeros(ldates, dtype=np.uint8) # 255 (1, 31) + self._day = np.zeros(ldates, dtype=np.uint8) # 255 (1, 12) + + # error: "object_" object is not iterable + obj = np.char.split(dates, sep="-") + for (i,), (y, m, d) in np.ndenumerate(obj): # type: ignore[misc] + self._year[i] = int(y) + self._month[i] = int(m) + self._day[i] = int(d) + + else: + raise TypeError(f"{type(dates)} is not supported") + + @property + def dtype(self) -> ExtensionDtype: + return DateDtype() + + def astype(self, dtype, copy=True): + dtype = pandas_dtype(dtype) + + if isinstance(dtype, DateDtype): + data = self.copy() if copy else self + else: + data = self.to_numpy(dtype=dtype, copy=copy, na_value=dt.date.min) + + return data + + @property + def nbytes(self) -> int: + return self._year.nbytes + self._month.nbytes + self._day.nbytes + + def __len__(self) -> int: + return len(self._year) # all 3 arrays are enforced to have the same length + + def __getitem__(self, item: PositionalIndexer): + if isinstance(item, int): + return dt.date(self._year[item], self._month[item], self._day[item]) + else: + raise NotImplementedError("only ints are supported as indexes") + + def __setitem__(self, key: int | slice | np.ndarray, value: Any) -> None: + if not isinstance(key, int): + raise NotImplementedError("only ints are supported as indexes") + + if not isinstance(value, dt.date): + raise TypeError("you can only set datetime.date types") + + self._year[key] = value.year + self._month[key] = value.month + self._day[key] = value.day + + def __repr__(self) -> str: + return f"DateArray{list(zip(self._year, self._month, self._day))}" + + def copy(self) -> DateArray: + return DateArray((self._year.copy(), self._month.copy(), self._day.copy())) + + def isna(self) -> np.ndarray: + return np.logical_and( + np.logical_and( + self._year == dt.date.min.year, self._month == dt.date.min.month + ), + self._day == dt.date.min.day, + ) + + @classmethod + def _from_sequence(cls, scalars, *, dtype: Dtype | None = None, copy=False): + if isinstance(scalars, dt.date): + raise TypeError + elif isinstance(scalars, DateArray): + if dtype is not None: + return scalars.astype(dtype, copy=copy) + if copy: + return scalars.copy() + return scalars[:] + elif isinstance(scalars, np.ndarray): + scalars = scalars.astype("U10") # 10 chars for yyyy-mm-dd + return DateArray(scalars) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..34727b43a7b0fb325143dfedee4db25c4b56f5db --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/__init__.py @@ -0,0 +1,8 @@ +from pandas.tests.extension.decimal.array import ( + DecimalArray, + DecimalDtype, + make_data, + to_decimal, +) + +__all__ = ["DecimalArray", "DecimalDtype", "to_decimal", "make_data"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/array.py new file mode 100644 index 0000000000000000000000000000000000000000..521c1ff0b96bc12672b64be0fa191e153692f6da --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/array.py @@ -0,0 +1,311 @@ +from __future__ import annotations + +import decimal +import numbers +import sys +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.core.dtypes.base import ExtensionDtype +from pandas.core.dtypes.common import ( + is_dtype_equal, + is_float, + is_integer, + pandas_dtype, +) + +import pandas as pd +from pandas.api.extensions import ( + no_default, + register_extension_dtype, +) +from pandas.api.types import ( + is_list_like, + is_scalar, +) +from pandas.core import arraylike +from pandas.core.algorithms import value_counts_internal as value_counts +from pandas.core.arraylike import OpsMixin +from pandas.core.arrays import ( + ExtensionArray, + ExtensionScalarOpsMixin, +) +from pandas.core.indexers import check_array_indexer + +if TYPE_CHECKING: + from pandas._typing import type_t + + +@register_extension_dtype +class DecimalDtype(ExtensionDtype): + type = decimal.Decimal + name = "decimal" + na_value = decimal.Decimal("NaN") + _metadata = ("context",) + + def __init__(self, context=None) -> None: + self.context = context or decimal.getcontext() + + def __repr__(self) -> str: + return f"DecimalDtype(context={self.context})" + + @classmethod + def construct_array_type(cls) -> type_t[DecimalArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return DecimalArray + + @property + def _is_numeric(self) -> bool: + return True + + +class DecimalArray(OpsMixin, ExtensionScalarOpsMixin, ExtensionArray): + __array_priority__ = 1000 + + def __init__(self, values, dtype=None, copy=False, context=None) -> None: + for i, val in enumerate(values): + if is_float(val) or is_integer(val): + if np.isnan(val): + values[i] = DecimalDtype.na_value + else: + # error: Argument 1 has incompatible type "float | int | + # integer[Any]"; expected "Decimal | float | str | tuple[int, + # Sequence[int], int]" + values[i] = DecimalDtype.type(val) # type: ignore[arg-type] + elif not isinstance(val, decimal.Decimal): + raise TypeError("All values must be of type " + str(decimal.Decimal)) + values = np.asarray(values, dtype=object) + + self._data = values + # Some aliases for common attribute names to ensure pandas supports + # these + self._items = self.data = self._data + # those aliases are currently not working due to assumptions + # in internal code (GH-20735) + # self._values = self.values = self.data + self._dtype = DecimalDtype(context) + + @property + def dtype(self): + return self._dtype + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy=False): + return cls(scalars) + + @classmethod + def _from_sequence_of_strings(cls, strings, dtype=None, copy=False): + return cls._from_sequence( + [decimal.Decimal(x) for x in strings], dtype=dtype, copy=copy + ) + + @classmethod + def _from_factorized(cls, values, original): + return cls(values) + + _HANDLED_TYPES = (decimal.Decimal, numbers.Number, np.ndarray) + + def to_numpy( + self, + dtype=None, + copy: bool = False, + na_value: object = no_default, + decimals=None, + ) -> np.ndarray: + result = np.asarray(self, dtype=dtype) + if decimals is not None: + result = np.asarray([round(x, decimals) for x in result]) + return result + + def __array_ufunc__(self, ufunc: np.ufunc, method: str, *inputs, **kwargs): + # + if not all( + isinstance(t, self._HANDLED_TYPES + (DecimalArray,)) for t in inputs + ): + return NotImplemented + + result = arraylike.maybe_dispatch_ufunc_to_dunder_op( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + # e.g. test_array_ufunc_series_scalar_other + return result + + if "out" in kwargs: + return arraylike.dispatch_ufunc_with_out( + self, ufunc, method, *inputs, **kwargs + ) + + inputs = tuple(x._data if isinstance(x, DecimalArray) else x for x in inputs) + result = getattr(ufunc, method)(*inputs, **kwargs) + + if method == "reduce": + result = arraylike.dispatch_reduction_ufunc( + self, ufunc, method, *inputs, **kwargs + ) + if result is not NotImplemented: + return result + + def reconstruct(x): + if isinstance(x, (decimal.Decimal, numbers.Number)): + return x + else: + return type(self)._from_sequence(x, dtype=self.dtype) + + if ufunc.nout > 1: + return tuple(reconstruct(x) for x in result) + else: + return reconstruct(result) + + def __getitem__(self, item): + if isinstance(item, numbers.Integral): + return self._data[item] + else: + # array, slice. + item = pd.api.indexers.check_array_indexer(self, item) + return type(self)(self._data[item]) + + def take(self, indexer, allow_fill=False, fill_value=None): + from pandas.api.extensions import take + + data = self._data + if allow_fill and fill_value is None: + fill_value = self.dtype.na_value + + result = take(data, indexer, fill_value=fill_value, allow_fill=allow_fill) + return self._from_sequence(result, dtype=self.dtype) + + def copy(self): + return type(self)(self._data.copy(), dtype=self.dtype) + + def astype(self, dtype, copy=True): + if is_dtype_equal(dtype, self._dtype): + if not copy: + return self + dtype = pandas_dtype(dtype) + if isinstance(dtype, type(self.dtype)): + return type(self)(self._data, copy=copy, context=dtype.context) + + return super().astype(dtype, copy=copy) + + def __setitem__(self, key, value) -> None: + if is_list_like(value): + if is_scalar(key): + raise ValueError("setting an array element with a sequence.") + value = [decimal.Decimal(v) for v in value] + else: + value = decimal.Decimal(value) + + key = check_array_indexer(self, key) + self._data[key] = value + + def __len__(self) -> int: + return len(self._data) + + def __contains__(self, item) -> bool | np.bool_: + if not isinstance(item, decimal.Decimal): + return False + elif item.is_nan(): + return self.isna().any() + else: + return super().__contains__(item) + + @property + def nbytes(self) -> int: + n = len(self) + if n: + return n * sys.getsizeof(self[0]) + return 0 + + def isna(self): + return np.array([x.is_nan() for x in self._data], dtype=bool) + + @property + def _na_value(self): + return decimal.Decimal("NaN") + + def _formatter(self, boxed=False): + if boxed: + return "Decimal: {}".format + return repr + + @classmethod + def _concat_same_type(cls, to_concat): + return cls(np.concatenate([x._data for x in to_concat])) + + def _reduce( + self, name: str, *, skipna: bool = True, keepdims: bool = False, **kwargs + ): + if skipna and self.isna().any(): + # If we don't have any NAs, we can ignore skipna + other = self[~self.isna()] + result = other._reduce(name, **kwargs) + elif name == "sum" and len(self) == 0: + # GH#29630 avoid returning int 0 or np.bool_(False) on old numpy + result = decimal.Decimal(0) + else: + try: + op = getattr(self.data, name) + except AttributeError as err: + raise NotImplementedError( + f"decimal does not support the {name} operation" + ) from err + result = op(axis=0) + + if keepdims: + return type(self)([result]) + else: + return result + + def _cmp_method(self, other, op): + # For use with OpsMixin + def convert_values(param): + if isinstance(param, ExtensionArray) or is_list_like(param): + ovalues = param + else: + # Assume it's an object + ovalues = [param] * len(self) + return ovalues + + lvalues = self + rvalues = convert_values(other) + + # If the operator is not defined for the underlying objects, + # a TypeError should be raised + res = [op(a, b) for (a, b) in zip(lvalues, rvalues)] + + return np.asarray(res, dtype=bool) + + def value_counts(self, dropna: bool = True): + return value_counts(self.to_numpy(), dropna=dropna) + + # We override fillna here to simulate a 3rd party EA that has done so. This + # lets us test the deprecation telling authors to implement _pad_or_backfill + # Simulate a 3rd-party EA that has not yet updated to include a "copy" + # keyword in its fillna method. + # error: Signature of "fillna" incompatible with supertype "ExtensionArray" + def fillna( # type: ignore[override] + self, + value=None, + method=None, + limit: int | None = None, + ): + return super().fillna(value=value, method=method, limit=limit, copy=True) + + +def to_decimal(values, context=None): + return DecimalArray([decimal.Decimal(x) for x in values], context=context) + + +def make_data(): + return [decimal.Decimal(val) for val in np.random.default_rng(2).random(100)] + + +DecimalArray._add_arithmetic_ops() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/test_decimal.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/test_decimal.py new file mode 100644 index 0000000000000000000000000000000000000000..8590cd7fdc23539b148509ea04b88538c9bc5b25 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/decimal/test_decimal.py @@ -0,0 +1,587 @@ +from __future__ import annotations + +import decimal +import operator + +import numpy as np +import pytest + +from pandas.compat.numpy import np_version_gt2 + +import pandas as pd +import pandas._testing as tm +from pandas.tests.extension import base +from pandas.tests.extension.decimal.array import ( + DecimalArray, + DecimalDtype, + make_data, + to_decimal, +) + + +@pytest.fixture +def dtype(): + return DecimalDtype() + + +@pytest.fixture +def data(): + return DecimalArray(make_data()) + + +@pytest.fixture +def data_for_twos(): + return DecimalArray([decimal.Decimal(2) for _ in range(100)]) + + +@pytest.fixture +def data_missing(): + return DecimalArray([decimal.Decimal("NaN"), decimal.Decimal(1)]) + + +@pytest.fixture +def data_for_sorting(): + return DecimalArray( + [decimal.Decimal("1"), decimal.Decimal("2"), decimal.Decimal("0")] + ) + + +@pytest.fixture +def data_missing_for_sorting(): + return DecimalArray( + [decimal.Decimal("1"), decimal.Decimal("NaN"), decimal.Decimal("0")] + ) + + +@pytest.fixture +def na_cmp(): + return lambda x, y: x.is_nan() and y.is_nan() + + +@pytest.fixture +def data_for_grouping(): + b = decimal.Decimal("1.0") + a = decimal.Decimal("0.0") + c = decimal.Decimal("2.0") + na = decimal.Decimal("NaN") + return DecimalArray([b, b, na, na, a, a, b, c]) + + +class TestDecimalArray(base.ExtensionTests): + def _get_expected_exception( + self, op_name: str, obj, other + ) -> type[Exception] | tuple[type[Exception], ...] | None: + return None + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + return True + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + if op_name == "count": + return super().check_reduce(ser, op_name, skipna) + else: + result = getattr(ser, op_name)(skipna=skipna) + expected = getattr(np.asarray(ser), op_name)() + tm.assert_almost_equal(result, expected) + + def test_reduce_series_numeric(self, data, all_numeric_reductions, skipna, request): + if all_numeric_reductions in ["kurt", "skew", "sem", "median"]: + mark = pytest.mark.xfail(raises=NotImplementedError) + request.applymarker(mark) + super().test_reduce_series_numeric(data, all_numeric_reductions, skipna) + + def test_reduce_frame(self, data, all_numeric_reductions, skipna, request): + op_name = all_numeric_reductions + if op_name in ["skew", "median"]: + mark = pytest.mark.xfail(raises=NotImplementedError) + request.applymarker(mark) + + return super().test_reduce_frame(data, all_numeric_reductions, skipna) + + def test_compare_scalar(self, data, comparison_op): + ser = pd.Series(data) + self._compare_other(ser, data, comparison_op, 0.5) + + def test_compare_array(self, data, comparison_op): + ser = pd.Series(data) + + alter = np.random.default_rng(2).choice([-1, 0, 1], len(data)) + # Randomly double, halve or keep same value + other = pd.Series(data) * [decimal.Decimal(pow(2.0, i)) for i in alter] + self._compare_other(ser, data, comparison_op, other) + + def test_arith_series_with_array(self, data, all_arithmetic_operators): + op_name = all_arithmetic_operators + ser = pd.Series(data) + + context = decimal.getcontext() + divbyzerotrap = context.traps[decimal.DivisionByZero] + invalidoptrap = context.traps[decimal.InvalidOperation] + context.traps[decimal.DivisionByZero] = 0 + context.traps[decimal.InvalidOperation] = 0 + + # Decimal supports ops with int, but not float + other = pd.Series([int(d * 100) for d in data]) + self.check_opname(ser, op_name, other) + + if "mod" not in op_name: + self.check_opname(ser, op_name, ser * 2) + + self.check_opname(ser, op_name, 0) + self.check_opname(ser, op_name, 5) + context.traps[decimal.DivisionByZero] = divbyzerotrap + context.traps[decimal.InvalidOperation] = invalidoptrap + + def test_fillna_frame(self, data_missing): + msg = "ExtensionArray.fillna added a 'copy' keyword" + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + super().test_fillna_frame(data_missing) + + def test_fillna_limit_pad(self, data_missing): + msg = "ExtensionArray.fillna 'method' keyword is deprecated" + with tm.assert_produces_warning( + DeprecationWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + super().test_fillna_limit_pad(data_missing) + + msg = "The 'method' keyword in DecimalArray.fillna is deprecated" + with tm.assert_produces_warning( + FutureWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + super().test_fillna_limit_pad(data_missing) + + @pytest.mark.parametrize( + "limit_area, input_ilocs, expected_ilocs", + [ + ("outside", [1, 0, 0, 0, 1], [1, 0, 0, 0, 1]), + ("outside", [1, 0, 1, 0, 1], [1, 0, 1, 0, 1]), + ("outside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 1]), + ("outside", [0, 1, 0, 1, 0], [0, 1, 0, 1, 1]), + ("inside", [1, 0, 0, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [1, 0, 1, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 0]), + ("inside", [0, 1, 0, 1, 0], [0, 1, 1, 1, 0]), + ], + ) + def test_ffill_limit_area( + self, data_missing, limit_area, input_ilocs, expected_ilocs + ): + # GH#56616 + msg = "ExtensionArray.fillna 'method' keyword is deprecated" + with tm.assert_produces_warning( + DeprecationWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + msg = "DecimalArray does not implement limit_area" + with pytest.raises(NotImplementedError, match=msg): + super().test_ffill_limit_area( + data_missing, limit_area, input_ilocs, expected_ilocs + ) + + def test_fillna_limit_backfill(self, data_missing): + msg = "Series.fillna with 'method' is deprecated" + with tm.assert_produces_warning( + FutureWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + super().test_fillna_limit_backfill(data_missing) + + msg = "ExtensionArray.fillna 'method' keyword is deprecated" + with tm.assert_produces_warning( + DeprecationWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + super().test_fillna_limit_backfill(data_missing) + + msg = "The 'method' keyword in DecimalArray.fillna is deprecated" + with tm.assert_produces_warning( + FutureWarning, + match=msg, + check_stacklevel=False, + raise_on_extra_warnings=False, + ): + super().test_fillna_limit_backfill(data_missing) + + def test_fillna_no_op_returns_copy(self, data): + msg = "|".join( + [ + "ExtensionArray.fillna 'method' keyword is deprecated", + "The 'method' keyword in DecimalArray.fillna is deprecated", + ] + ) + with tm.assert_produces_warning( + (FutureWarning, DeprecationWarning), match=msg, check_stacklevel=False + ): + super().test_fillna_no_op_returns_copy(data) + + def test_fillna_series(self, data_missing): + msg = "ExtensionArray.fillna added a 'copy' keyword" + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + super().test_fillna_series(data_missing) + + def test_fillna_series_method(self, data_missing, fillna_method): + msg = "|".join( + [ + "ExtensionArray.fillna 'method' keyword is deprecated", + "The 'method' keyword in DecimalArray.fillna is deprecated", + ] + ) + with tm.assert_produces_warning( + (FutureWarning, DeprecationWarning), match=msg, check_stacklevel=False + ): + super().test_fillna_series_method(data_missing, fillna_method) + + def test_fillna_copy_frame(self, data_missing, using_copy_on_write): + warn = DeprecationWarning if not using_copy_on_write else None + msg = "ExtensionArray.fillna added a 'copy' keyword" + with tm.assert_produces_warning(warn, match=msg, check_stacklevel=False): + super().test_fillna_copy_frame(data_missing) + + def test_fillna_copy_series(self, data_missing, using_copy_on_write): + warn = DeprecationWarning if not using_copy_on_write else None + msg = "ExtensionArray.fillna added a 'copy' keyword" + with tm.assert_produces_warning(warn, match=msg, check_stacklevel=False): + super().test_fillna_copy_series(data_missing) + + @pytest.mark.parametrize("dropna", [True, False]) + def test_value_counts(self, all_data, dropna, request): + all_data = all_data[:10] + if dropna: + other = np.array(all_data[~all_data.isna()]) + else: + other = all_data + + vcs = pd.Series(all_data).value_counts(dropna=dropna) + vcs_ex = pd.Series(other).value_counts(dropna=dropna) + + with decimal.localcontext() as ctx: + # avoid raising when comparing Decimal("NAN") < Decimal(2) + ctx.traps[decimal.InvalidOperation] = False + + result = vcs.sort_index() + expected = vcs_ex.sort_index() + + tm.assert_series_equal(result, expected) + + def test_series_repr(self, data): + # Overriding this base test to explicitly test that + # the custom _formatter is used + ser = pd.Series(data) + assert data.dtype.name in repr(ser) + assert "Decimal: " in repr(ser) + + @pytest.mark.xfail(reason="Inconsistent array-vs-scalar behavior") + @pytest.mark.parametrize("ufunc", [np.positive, np.negative, np.abs]) + def test_unary_ufunc_dunder_equivalence(self, data, ufunc): + super().test_unary_ufunc_dunder_equivalence(data, ufunc) + + def test_array_interface_copy(self, data): + result_copy1 = np.array(data, copy=True) + result_copy2 = np.array(data, copy=True) + assert not np.may_share_memory(result_copy1, result_copy2) + if not np_version_gt2: + # copy=False semantics are only supported in NumPy>=2. + return + + try: + result_nocopy1 = np.array(data, copy=False) + except ValueError: + # An error is always acceptable for `copy=False` + return + + result_nocopy2 = np.array(data, copy=False) + # If copy=False was given and did not raise, these must share the same data + assert np.may_share_memory(result_nocopy1, result_nocopy2) + + +def test_take_na_value_other_decimal(): + arr = DecimalArray([decimal.Decimal("1.0"), decimal.Decimal("2.0")]) + result = arr.take([0, -1], allow_fill=True, fill_value=decimal.Decimal("-1.0")) + expected = DecimalArray([decimal.Decimal("1.0"), decimal.Decimal("-1.0")]) + tm.assert_extension_array_equal(result, expected) + + +def test_series_constructor_coerce_data_to_extension_dtype(): + dtype = DecimalDtype() + ser = pd.Series([0, 1, 2], dtype=dtype) + + arr = DecimalArray( + [decimal.Decimal(0), decimal.Decimal(1), decimal.Decimal(2)], + dtype=dtype, + ) + exp = pd.Series(arr) + tm.assert_series_equal(ser, exp) + + +def test_series_constructor_with_dtype(): + arr = DecimalArray([decimal.Decimal("10.0")]) + result = pd.Series(arr, dtype=DecimalDtype()) + expected = pd.Series(arr) + tm.assert_series_equal(result, expected) + + result = pd.Series(arr, dtype="int64") + expected = pd.Series([10]) + tm.assert_series_equal(result, expected) + + +def test_dataframe_constructor_with_dtype(): + arr = DecimalArray([decimal.Decimal("10.0")]) + + result = pd.DataFrame({"A": arr}, dtype=DecimalDtype()) + expected = pd.DataFrame({"A": arr}) + tm.assert_frame_equal(result, expected) + + arr = DecimalArray([decimal.Decimal("10.0")]) + result = pd.DataFrame({"A": arr}, dtype="int64") + expected = pd.DataFrame({"A": [10]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("frame", [True, False]) +def test_astype_dispatches(frame): + # This is a dtype-specific test that ensures Series[decimal].astype + # gets all the way through to ExtensionArray.astype + # Designing a reliable smoke test that works for arbitrary data types + # is difficult. + data = pd.Series(DecimalArray([decimal.Decimal(2)]), name="a") + ctx = decimal.Context() + ctx.prec = 5 + + if frame: + data = data.to_frame() + + result = data.astype(DecimalDtype(ctx)) + + if frame: + result = result["a"] + + assert result.dtype.context.prec == ctx.prec + + +class DecimalArrayWithoutFromSequence(DecimalArray): + """Helper class for testing error handling in _from_sequence.""" + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy=False): + raise KeyError("For the test") + + +class DecimalArrayWithoutCoercion(DecimalArrayWithoutFromSequence): + @classmethod + def _create_arithmetic_method(cls, op): + return cls._create_method(op, coerce_to_dtype=False) + + +DecimalArrayWithoutCoercion._add_arithmetic_ops() + + +def test_combine_from_sequence_raises(monkeypatch): + # https://github.com/pandas-dev/pandas/issues/22850 + cls = DecimalArrayWithoutFromSequence + + @classmethod + def construct_array_type(cls): + return DecimalArrayWithoutFromSequence + + monkeypatch.setattr(DecimalDtype, "construct_array_type", construct_array_type) + + arr = cls([decimal.Decimal("1.0"), decimal.Decimal("2.0")]) + ser = pd.Series(arr) + result = ser.combine(ser, operator.add) + + # note: object dtype + expected = pd.Series( + [decimal.Decimal("2.0"), decimal.Decimal("4.0")], dtype="object" + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "class_", [DecimalArrayWithoutFromSequence, DecimalArrayWithoutCoercion] +) +def test_scalar_ops_from_sequence_raises(class_): + # op(EA, EA) should return an EA, or an ndarray if it's not possible + # to return an EA with the return values. + arr = class_([decimal.Decimal("1.0"), decimal.Decimal("2.0")]) + result = arr + arr + expected = np.array( + [decimal.Decimal("2.0"), decimal.Decimal("4.0")], dtype="object" + ) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "reverse, expected_div, expected_mod", + [(False, [0, 1, 1, 2], [1, 0, 1, 0]), (True, [2, 1, 0, 0], [0, 0, 2, 2])], +) +def test_divmod_array(reverse, expected_div, expected_mod): + # https://github.com/pandas-dev/pandas/issues/22930 + arr = to_decimal([1, 2, 3, 4]) + if reverse: + div, mod = divmod(2, arr) + else: + div, mod = divmod(arr, 2) + expected_div = to_decimal(expected_div) + expected_mod = to_decimal(expected_mod) + + tm.assert_extension_array_equal(div, expected_div) + tm.assert_extension_array_equal(mod, expected_mod) + + +def test_ufunc_fallback(data): + a = data[:5] + s = pd.Series(a, index=range(3, 8)) + result = np.abs(s) + expected = pd.Series(np.abs(a), index=range(3, 8)) + tm.assert_series_equal(result, expected) + + +def test_array_ufunc(): + a = to_decimal([1, 2, 3]) + result = np.exp(a) + expected = to_decimal(np.exp(a._data)) + tm.assert_extension_array_equal(result, expected) + + +def test_array_ufunc_series(): + a = to_decimal([1, 2, 3]) + s = pd.Series(a) + result = np.exp(s) + expected = pd.Series(to_decimal(np.exp(a._data))) + tm.assert_series_equal(result, expected) + + +def test_array_ufunc_series_scalar_other(): + # check _HANDLED_TYPES + a = to_decimal([1, 2, 3]) + s = pd.Series(a) + result = np.add(s, decimal.Decimal(1)) + expected = pd.Series(np.add(a, decimal.Decimal(1))) + tm.assert_series_equal(result, expected) + + +def test_array_ufunc_series_defer(): + a = to_decimal([1, 2, 3]) + s = pd.Series(a) + + expected = pd.Series(to_decimal([2, 4, 6])) + r1 = np.add(s, a) + r2 = np.add(a, s) + + tm.assert_series_equal(r1, expected) + tm.assert_series_equal(r2, expected) + + +def test_groupby_agg(): + # Ensure that the result of agg is inferred to be decimal dtype + # https://github.com/pandas-dev/pandas/issues/29141 + + data = make_data()[:5] + df = pd.DataFrame( + {"id1": [0, 0, 0, 1, 1], "id2": [0, 1, 0, 1, 1], "decimals": DecimalArray(data)} + ) + + # single key, selected column + expected = pd.Series(to_decimal([data[0], data[3]])) + result = df.groupby("id1")["decimals"].agg(lambda x: x.iloc[0]) + tm.assert_series_equal(result, expected, check_names=False) + result = df["decimals"].groupby(df["id1"]).agg(lambda x: x.iloc[0]) + tm.assert_series_equal(result, expected, check_names=False) + + # multiple keys, selected column + expected = pd.Series( + to_decimal([data[0], data[1], data[3]]), + index=pd.MultiIndex.from_tuples([(0, 0), (0, 1), (1, 1)]), + ) + result = df.groupby(["id1", "id2"])["decimals"].agg(lambda x: x.iloc[0]) + tm.assert_series_equal(result, expected, check_names=False) + result = df["decimals"].groupby([df["id1"], df["id2"]]).agg(lambda x: x.iloc[0]) + tm.assert_series_equal(result, expected, check_names=False) + + # multiple columns + expected = pd.DataFrame({"id2": [0, 1], "decimals": to_decimal([data[0], data[3]])}) + result = df.groupby("id1").agg(lambda x: x.iloc[0]) + tm.assert_frame_equal(result, expected, check_names=False) + + +def test_groupby_agg_ea_method(monkeypatch): + # Ensure that the result of agg is inferred to be decimal dtype + # https://github.com/pandas-dev/pandas/issues/29141 + + def DecimalArray__my_sum(self): + return np.sum(np.array(self)) + + monkeypatch.setattr(DecimalArray, "my_sum", DecimalArray__my_sum, raising=False) + + data = make_data()[:5] + df = pd.DataFrame({"id": [0, 0, 0, 1, 1], "decimals": DecimalArray(data)}) + expected = pd.Series(to_decimal([data[0] + data[1] + data[2], data[3] + data[4]])) + + result = df.groupby("id")["decimals"].agg(lambda x: x.values.my_sum()) + tm.assert_series_equal(result, expected, check_names=False) + s = pd.Series(DecimalArray(data)) + grouper = np.array([0, 0, 0, 1, 1], dtype=np.int64) + result = s.groupby(grouper).agg(lambda x: x.values.my_sum()) + tm.assert_series_equal(result, expected, check_names=False) + + +def test_indexing_no_materialize(monkeypatch): + # See https://github.com/pandas-dev/pandas/issues/29708 + # Ensure that indexing operations do not materialize (convert to a numpy + # array) the ExtensionArray unnecessary + + def DecimalArray__array__(self, dtype=None): + raise Exception("tried to convert a DecimalArray to a numpy array") + + monkeypatch.setattr(DecimalArray, "__array__", DecimalArray__array__, raising=False) + + data = make_data() + s = pd.Series(DecimalArray(data)) + df = pd.DataFrame({"a": s, "b": range(len(s))}) + + # ensure the following operations do not raise an error + s[s > 0.5] + df[s > 0.5] + s.at[0] + df.at[0, "a"] + + +def test_to_numpy_keyword(): + # test the extra keyword + values = [decimal.Decimal("1.1111"), decimal.Decimal("2.2222")] + expected = np.array( + [decimal.Decimal("1.11"), decimal.Decimal("2.22")], dtype="object" + ) + a = pd.array(values, dtype="decimal") + result = a.to_numpy(decimals=2) + tm.assert_numpy_array_equal(result, expected) + + result = pd.Series(a).to_numpy(decimals=2) + tm.assert_numpy_array_equal(result, expected) + + +def test_array_copy_on_write(using_copy_on_write): + df = pd.DataFrame({"a": [decimal.Decimal(2), decimal.Decimal(3)]}, dtype="object") + df2 = df.astype(DecimalDtype()) + df.iloc[0, 0] = 0 + if using_copy_on_write: + expected = pd.DataFrame( + {"a": [decimal.Decimal(2), decimal.Decimal(3)]}, dtype=DecimalDtype() + ) + tm.assert_equal(df2.values, expected.values) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..7ebfd54a5b0d6bf1ff2c4602ed72f5214e32608f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/__init__.py @@ -0,0 +1,7 @@ +from pandas.tests.extension.json.array import ( + JSONArray, + JSONDtype, + make_data, +) + +__all__ = ["JSONArray", "JSONDtype", "make_data"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/array.py new file mode 100644 index 0000000000000000000000000000000000000000..5ff99589a19611922b6fb82aa106a7bf829fc2ce --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/array.py @@ -0,0 +1,273 @@ +""" +Test extension array for storing nested data in a pandas container. + +The JSONArray stores lists of dictionaries. The storage mechanism is a list, +not an ndarray. + +Note +---- +We currently store lists of UserDicts. Pandas has a few places +internally that specifically check for dicts, and does non-scalar things +in that case. We *want* the dictionaries to be treated as scalars, so we +hack around pandas by using UserDicts. +""" +from __future__ import annotations + +from collections import ( + UserDict, + abc, +) +import itertools +import numbers +import string +import sys +from typing import ( + TYPE_CHECKING, + Any, +) +import warnings + +import numpy as np + +from pandas.util._exceptions import find_stack_level + +from pandas.core.dtypes.cast import construct_1d_object_array_from_listlike +from pandas.core.dtypes.common import ( + is_bool_dtype, + is_list_like, + pandas_dtype, +) + +import pandas as pd +from pandas.api.extensions import ( + ExtensionArray, + ExtensionDtype, +) +from pandas.core.indexers import unpack_tuple_and_ellipses + +if TYPE_CHECKING: + from collections.abc import Mapping + + from pandas._typing import type_t + + +class JSONDtype(ExtensionDtype): + type = abc.Mapping + name = "json" + na_value: Mapping[str, Any] = UserDict() + + @classmethod + def construct_array_type(cls) -> type_t[JSONArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return JSONArray + + +class JSONArray(ExtensionArray): + dtype = JSONDtype() + __array_priority__ = 1000 + + def __init__(self, values, dtype=None, copy=False) -> None: + for val in values: + if not isinstance(val, self.dtype.type): + raise TypeError("All values must be of type " + str(self.dtype.type)) + self.data = values + + # Some aliases for common attribute names to ensure pandas supports + # these + self._items = self._data = self.data + # those aliases are currently not working due to assumptions + # in internal code (GH-20735) + # self._values = self.values = self.data + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy=False): + return cls(scalars) + + @classmethod + def _from_factorized(cls, values, original): + return cls([UserDict(x) for x in values if x != ()]) + + def __getitem__(self, item): + if isinstance(item, tuple): + item = unpack_tuple_and_ellipses(item) + + if isinstance(item, numbers.Integral): + return self.data[item] + elif isinstance(item, slice) and item == slice(None): + # Make sure we get a view + return type(self)(self.data) + elif isinstance(item, slice): + # slice + return type(self)(self.data[item]) + elif not is_list_like(item): + # e.g. "foo" or 2.5 + # exception message copied from numpy + raise IndexError( + r"only integers, slices (`:`), ellipsis (`...`), numpy.newaxis " + r"(`None`) and integer or boolean arrays are valid indices" + ) + else: + item = pd.api.indexers.check_array_indexer(self, item) + if is_bool_dtype(item.dtype): + return type(self)._from_sequence( + [x for x, m in zip(self, item) if m], dtype=self.dtype + ) + # integer + return type(self)([self.data[i] for i in item]) + + def __setitem__(self, key, value) -> None: + if isinstance(key, numbers.Integral): + self.data[key] = value + else: + if not isinstance(value, (type(self), abc.Sequence)): + # broadcast value + value = itertools.cycle([value]) + + if isinstance(key, np.ndarray) and key.dtype == "bool": + # masking + for i, (k, v) in enumerate(zip(key, value)): + if k: + assert isinstance(v, self.dtype.type) + self.data[i] = v + else: + for k, v in zip(key, value): + assert isinstance(v, self.dtype.type) + self.data[k] = v + + def __len__(self) -> int: + return len(self.data) + + def __eq__(self, other): + return NotImplemented + + def __ne__(self, other): + return NotImplemented + + def __array__(self, dtype=None, copy=None): + if copy is False: + warnings.warn( + "Starting with NumPy 2.0, the behavior of the 'copy' keyword has " + "changed and passing 'copy=False' raises an error when returning " + "a zero-copy NumPy array is not possible. pandas will follow " + "this behavior starting with pandas 3.0.\nThis conversion to " + "NumPy requires a copy, but 'copy=False' was passed. Consider " + "using 'np.asarray(..)' instead.", + FutureWarning, + stacklevel=find_stack_level(), + ) + + if dtype is None: + dtype = object + if dtype == object: + # on py38 builds it looks like numpy is inferring to a non-1D array + return construct_1d_object_array_from_listlike(list(self)) + if copy is None: + # Note: branch avoids `copy=None` for NumPy 1.x support + return np.asarray(self.data, dtype=dtype) + return np.asarray(self.data, dtype=dtype, copy=copy) + + @property + def nbytes(self) -> int: + return sys.getsizeof(self.data) + + def isna(self): + return np.array([x == self.dtype.na_value for x in self.data], dtype=bool) + + def take(self, indexer, allow_fill=False, fill_value=None): + # re-implement here, since NumPy has trouble setting + # sized objects like UserDicts into scalar slots of + # an ndarary. + indexer = np.asarray(indexer) + msg = ( + "Index is out of bounds or cannot do a " + "non-empty take from an empty array." + ) + + if allow_fill: + if fill_value is None: + fill_value = self.dtype.na_value + # bounds check + if (indexer < -1).any(): + raise ValueError + try: + output = [ + self.data[loc] if loc != -1 else fill_value for loc in indexer + ] + except IndexError as err: + raise IndexError(msg) from err + else: + try: + output = [self.data[loc] for loc in indexer] + except IndexError as err: + raise IndexError(msg) from err + + return type(self)._from_sequence(output, dtype=self.dtype) + + def copy(self): + return type(self)(self.data[:]) + + def astype(self, dtype, copy=True): + # NumPy has issues when all the dicts are the same length. + # np.array([UserDict(...), UserDict(...)]) fails, + # but np.array([{...}, {...}]) works, so cast. + from pandas.core.arrays.string_ import StringDtype + + dtype = pandas_dtype(dtype) + # needed to add this check for the Series constructor + if isinstance(dtype, type(self.dtype)) and dtype == self.dtype: + if copy: + return self.copy() + return self + elif isinstance(dtype, StringDtype): + arr_cls = dtype.construct_array_type() + return arr_cls._from_sequence(self, dtype=dtype, copy=False) + elif not copy: + return np.asarray([dict(x) for x in self], dtype=dtype) + else: + return np.array([dict(x) for x in self], dtype=dtype, copy=copy) + + def unique(self): + # Parent method doesn't work since np.array will try to infer + # a 2-dim object. + return type(self)([dict(x) for x in {tuple(d.items()) for d in self.data}]) + + @classmethod + def _concat_same_type(cls, to_concat): + data = list(itertools.chain.from_iterable(x.data for x in to_concat)) + return cls(data) + + def _values_for_factorize(self): + frozen = self._values_for_argsort() + if len(frozen) == 0: + # factorize_array expects 1-d array, this is a len-0 2-d array. + frozen = frozen.ravel() + return frozen, () + + def _values_for_argsort(self): + # Bypass NumPy's shape inference to get a (N,) array of tuples. + frozen = [tuple(x.items()) for x in self] + return construct_1d_object_array_from_listlike(frozen) + + def _pad_or_backfill(self, *, method, limit=None, copy=True): + # GH#56616 - test EA method without limit_area argument + return super()._pad_or_backfill(method=method, limit=limit, copy=copy) + + +def make_data(): + # TODO: Use a regular dict. See _NDFrameIndexer._setitem_with_indexer + rng = np.random.default_rng(2) + return [ + UserDict( + [ + (rng.choice(list(string.ascii_letters)), rng.integers(0, 100)) + for _ in range(rng.integers(0, 10)) + ] + ) + for _ in range(100) + ] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/test_json.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/test_json.py new file mode 100644 index 0000000000000000000000000000000000000000..a18edac9aef93804bd02698dd0b44d5b31f6b887 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/json/test_json.py @@ -0,0 +1,490 @@ +import collections +import operator +import sys + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.tests.extension import base +from pandas.tests.extension.json.array import ( + JSONArray, + JSONDtype, + make_data, +) + +# We intentionally don't run base.BaseSetitemTests because pandas' +# internals has trouble setting sequences of values into scalar positions. +unhashable = pytest.mark.xfail(reason="Unhashable") + + +@pytest.fixture +def dtype(): + return JSONDtype() + + +@pytest.fixture +def data(): + """Length-100 PeriodArray for semantics test.""" + data = make_data() + + # Why the while loop? NumPy is unable to construct an ndarray from + # equal-length ndarrays. Many of our operations involve coercing the + # EA to an ndarray of objects. To avoid random test failures, we ensure + # that our data is coercible to an ndarray. Several tests deal with only + # the first two elements, so that's what we'll check. + + while len(data[0]) == len(data[1]): + data = make_data() + + return JSONArray(data) + + +@pytest.fixture +def data_missing(): + """Length 2 array with [NA, Valid]""" + return JSONArray([{}, {"a": 10}]) + + +@pytest.fixture +def data_for_sorting(): + return JSONArray([{"b": 1}, {"c": 4}, {"a": 2, "c": 3}]) + + +@pytest.fixture +def data_missing_for_sorting(): + return JSONArray([{"b": 1}, {}, {"a": 4}]) + + +@pytest.fixture +def na_cmp(): + return operator.eq + + +@pytest.fixture +def data_for_grouping(): + return JSONArray( + [ + {"b": 1}, + {"b": 1}, + {}, + {}, + {"a": 0, "c": 2}, + {"a": 0, "c": 2}, + {"b": 1}, + {"c": 2}, + ] + ) + + +class TestJSONArray(base.ExtensionTests): + @pytest.mark.xfail( + reason="comparison method not implemented for JSONArray (GH-37867)" + ) + def test_contains(self, data): + # GH-37867 + super().test_contains(data) + + @pytest.mark.xfail(reason="not implemented constructor from dtype") + def test_from_dtype(self, data): + # construct from our dtype & string dtype + super().test_from_dtype(data) + + @pytest.mark.xfail(reason="RecursionError, GH-33900") + def test_series_constructor_no_data_with_index(self, dtype, na_value): + # RecursionError: maximum recursion depth exceeded in comparison + rec_limit = sys.getrecursionlimit() + try: + # Limit to avoid stack overflow on Windows CI + sys.setrecursionlimit(100) + super().test_series_constructor_no_data_with_index(dtype, na_value) + finally: + sys.setrecursionlimit(rec_limit) + + @pytest.mark.xfail(reason="RecursionError, GH-33900") + def test_series_constructor_scalar_na_with_index(self, dtype, na_value): + # RecursionError: maximum recursion depth exceeded in comparison + rec_limit = sys.getrecursionlimit() + try: + # Limit to avoid stack overflow on Windows CI + sys.setrecursionlimit(100) + super().test_series_constructor_scalar_na_with_index(dtype, na_value) + finally: + sys.setrecursionlimit(rec_limit) + + @pytest.mark.xfail(reason="collection as scalar, GH-33901") + def test_series_constructor_scalar_with_index(self, data, dtype): + # TypeError: All values must be of type + rec_limit = sys.getrecursionlimit() + try: + # Limit to avoid stack overflow on Windows CI + sys.setrecursionlimit(100) + super().test_series_constructor_scalar_with_index(data, dtype) + finally: + sys.setrecursionlimit(rec_limit) + + @pytest.mark.xfail(reason="Different definitions of NA") + def test_stack(self): + """ + The test does .astype(object).stack(future_stack=True). If we happen to have + any missing values in `data`, then we'll end up with different + rows since we consider `{}` NA, but `.astype(object)` doesn't. + """ + super().test_stack() + + @pytest.mark.xfail(reason="dict for NA") + def test_unstack(self, data, index): + # The base test has NaN for the expected NA value. + # this matches otherwise + return super().test_unstack(data, index) + + @pytest.mark.xfail(reason="Setting a dict as a scalar") + def test_fillna_series(self): + """We treat dictionaries as a mapping in fillna, not a scalar.""" + super().test_fillna_series() + + @pytest.mark.xfail(reason="Setting a dict as a scalar") + def test_fillna_frame(self): + """We treat dictionaries as a mapping in fillna, not a scalar.""" + super().test_fillna_frame() + + @pytest.mark.parametrize( + "limit_area, input_ilocs, expected_ilocs", + [ + ("outside", [1, 0, 0, 0, 1], [1, 0, 0, 0, 1]), + ("outside", [1, 0, 1, 0, 1], [1, 0, 1, 0, 1]), + ("outside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 1]), + ("outside", [0, 1, 0, 1, 0], [0, 1, 0, 1, 1]), + ("inside", [1, 0, 0, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [1, 0, 1, 0, 1], [1, 1, 1, 1, 1]), + ("inside", [0, 1, 1, 1, 0], [0, 1, 1, 1, 0]), + ("inside", [0, 1, 0, 1, 0], [0, 1, 1, 1, 0]), + ], + ) + def test_ffill_limit_area( + self, data_missing, limit_area, input_ilocs, expected_ilocs + ): + # GH#56616 + msg = "JSONArray does not implement limit_area" + with pytest.raises(NotImplementedError, match=msg): + super().test_ffill_limit_area( + data_missing, limit_area, input_ilocs, expected_ilocs + ) + + @unhashable + def test_value_counts(self, all_data, dropna): + super().test_value_counts(all_data, dropna) + + @unhashable + def test_value_counts_with_normalize(self, data): + super().test_value_counts_with_normalize(data) + + @unhashable + def test_sort_values_frame(self): + # TODO (EA.factorize): see if _values_for_factorize allows this. + super().test_sort_values_frame() + + @pytest.mark.parametrize("ascending", [True, False]) + def test_sort_values(self, data_for_sorting, ascending, sort_by_key): + super().test_sort_values(data_for_sorting, ascending, sort_by_key) + + @pytest.mark.parametrize("ascending", [True, False]) + def test_sort_values_missing( + self, data_missing_for_sorting, ascending, sort_by_key + ): + super().test_sort_values_missing( + data_missing_for_sorting, ascending, sort_by_key + ) + + @pytest.mark.xfail(reason="combine for JSONArray not supported") + def test_combine_le(self, data_repeated): + super().test_combine_le(data_repeated) + + @pytest.mark.xfail( + reason="combine for JSONArray not supported - " + "may pass depending on random data", + strict=False, + raises=AssertionError, + ) + def test_combine_first(self, data): + super().test_combine_first(data) + + @pytest.mark.xfail(reason="broadcasting error") + def test_where_series(self, data, na_value): + # Fails with + # *** ValueError: operands could not be broadcast together + # with shapes (4,) (4,) (0,) + super().test_where_series(data, na_value) + + @pytest.mark.xfail(reason="Can't compare dicts.") + def test_searchsorted(self, data_for_sorting): + super().test_searchsorted(data_for_sorting) + + @pytest.mark.xfail(reason="Can't compare dicts.") + def test_equals(self, data, na_value, as_series): + super().test_equals(data, na_value, as_series) + + @pytest.mark.skip("fill-value is interpreted as a dict of values") + def test_fillna_copy_frame(self, data_missing): + super().test_fillna_copy_frame(data_missing) + + def test_equals_same_data_different_object( + self, data, using_copy_on_write, request + ): + if using_copy_on_write: + mark = pytest.mark.xfail(reason="Fails with CoW") + request.applymarker(mark) + super().test_equals_same_data_different_object(data) + + @pytest.mark.xfail(reason="failing on np.array(self, dtype=str)") + def test_astype_str(self): + """This currently fails in NumPy on np.array(self, dtype=str) with + + *** ValueError: setting an array element with a sequence + """ + super().test_astype_str() + + @unhashable + def test_groupby_extension_transform(self): + """ + This currently fails in Series.name.setter, since the + name must be hashable, but the value is a dictionary. + I think this is what we want, i.e. `.name` should be the original + values, and not the values for factorization. + """ + super().test_groupby_extension_transform() + + @unhashable + def test_groupby_extension_apply(self): + """ + This fails in Index._do_unique_check with + + > hash(val) + E TypeError: unhashable type: 'UserDict' with + + I suspect that once we support Index[ExtensionArray], + we'll be able to dispatch unique. + """ + super().test_groupby_extension_apply() + + @unhashable + def test_groupby_extension_agg(self): + """ + This fails when we get to tm.assert_series_equal when left.index + contains dictionaries, which are not hashable. + """ + super().test_groupby_extension_agg() + + @unhashable + def test_groupby_extension_no_sort(self): + """ + This fails when we get to tm.assert_series_equal when left.index + contains dictionaries, which are not hashable. + """ + super().test_groupby_extension_no_sort() + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators, request): + if len(data[0]) != 1: + mark = pytest.mark.xfail(reason="raises in coercing to Series") + request.applymarker(mark) + super().test_arith_frame_with_scalar(data, all_arithmetic_operators) + + def test_compare_array(self, data, comparison_op, request): + if comparison_op.__name__ in ["eq", "ne"]: + mark = pytest.mark.xfail(reason="Comparison methods not implemented") + request.applymarker(mark) + super().test_compare_array(data, comparison_op) + + @pytest.mark.xfail(reason="ValueError: Must have equal len keys and value") + def test_setitem_loc_scalar_mixed(self, data): + super().test_setitem_loc_scalar_mixed(data) + + @pytest.mark.xfail(reason="ValueError: Must have equal len keys and value") + def test_setitem_loc_scalar_multiple_homogoneous(self, data): + super().test_setitem_loc_scalar_multiple_homogoneous(data) + + @pytest.mark.xfail(reason="ValueError: Must have equal len keys and value") + def test_setitem_iloc_scalar_mixed(self, data): + super().test_setitem_iloc_scalar_mixed(data) + + @pytest.mark.xfail(reason="ValueError: Must have equal len keys and value") + def test_setitem_iloc_scalar_multiple_homogoneous(self, data): + super().test_setitem_iloc_scalar_multiple_homogoneous(data) + + @pytest.mark.parametrize( + "mask", + [ + np.array([True, True, True, False, False]), + pd.array([True, True, True, False, False], dtype="boolean"), + pd.array([True, True, True, pd.NA, pd.NA], dtype="boolean"), + ], + ids=["numpy-array", "boolean-array", "boolean-array-na"], + ) + def test_setitem_mask(self, data, mask, box_in_series, request): + if box_in_series: + mark = pytest.mark.xfail( + reason="cannot set using a list-like indexer with a different length" + ) + request.applymarker(mark) + elif not isinstance(mask, np.ndarray): + mark = pytest.mark.xfail(reason="Issues unwanted DeprecationWarning") + request.applymarker(mark) + super().test_setitem_mask(data, mask, box_in_series) + + def test_setitem_mask_raises(self, data, box_in_series, request): + if not box_in_series: + mark = pytest.mark.xfail(reason="Fails to raise") + request.applymarker(mark) + + super().test_setitem_mask_raises(data, box_in_series) + + @pytest.mark.xfail( + reason="cannot set using a list-like indexer with a different length" + ) + def test_setitem_mask_boolean_array_with_na(self, data, box_in_series): + super().test_setitem_mask_boolean_array_with_na(data, box_in_series) + + @pytest.mark.parametrize( + "idx", + [[0, 1, 2], pd.array([0, 1, 2], dtype="Int64"), np.array([0, 1, 2])], + ids=["list", "integer-array", "numpy-array"], + ) + def test_setitem_integer_array(self, data, idx, box_in_series, request): + if box_in_series: + mark = pytest.mark.xfail( + reason="cannot set using a list-like indexer with a different length" + ) + request.applymarker(mark) + super().test_setitem_integer_array(data, idx, box_in_series) + + @pytest.mark.xfail(reason="list indices must be integers or slices, not NAType") + @pytest.mark.parametrize( + "idx, box_in_series", + [ + ([0, 1, 2, pd.NA], False), + pytest.param( + [0, 1, 2, pd.NA], True, marks=pytest.mark.xfail(reason="GH-31948") + ), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + ], + ids=["list-False", "list-True", "integer-array-False", "integer-array-True"], + ) + def test_setitem_integer_with_missing_raises(self, data, idx, box_in_series): + super().test_setitem_integer_with_missing_raises(data, idx, box_in_series) + + @pytest.mark.xfail(reason="Fails to raise") + def test_setitem_scalar_key_sequence_raise(self, data): + super().test_setitem_scalar_key_sequence_raise(data) + + def test_setitem_with_expansion_dataframe_column(self, data, full_indexer, request): + if "full_slice" in request.node.name: + mark = pytest.mark.xfail(reason="slice is not iterable") + request.applymarker(mark) + super().test_setitem_with_expansion_dataframe_column(data, full_indexer) + + @pytest.mark.xfail(reason="slice is not iterable") + def test_setitem_frame_2d_values(self, data): + super().test_setitem_frame_2d_values(data) + + @pytest.mark.xfail( + reason="cannot set using a list-like indexer with a different length" + ) + @pytest.mark.parametrize("setter", ["loc", None]) + def test_setitem_mask_broadcast(self, data, setter): + super().test_setitem_mask_broadcast(data, setter) + + @pytest.mark.xfail( + reason="cannot set using a slice indexer with a different length" + ) + def test_setitem_slice(self, data, box_in_series): + super().test_setitem_slice(data, box_in_series) + + @pytest.mark.xfail(reason="slice object is not iterable") + def test_setitem_loc_iloc_slice(self, data): + super().test_setitem_loc_iloc_slice(data) + + @pytest.mark.xfail(reason="slice object is not iterable") + def test_setitem_slice_mismatch_length_raises(self, data): + super().test_setitem_slice_mismatch_length_raises(data) + + @pytest.mark.xfail(reason="slice object is not iterable") + def test_setitem_slice_array(self, data): + super().test_setitem_slice_array(data) + + @pytest.mark.xfail(reason="Fail to raise") + def test_setitem_invalid(self, data, invalid_scalar): + super().test_setitem_invalid(data, invalid_scalar) + + @pytest.mark.xfail(reason="only integer scalar arrays can be converted") + def test_setitem_2d_values(self, data): + super().test_setitem_2d_values(data) + + @pytest.mark.xfail(reason="data type 'json' not understood") + @pytest.mark.parametrize("engine", ["c", "python"]) + def test_EA_types(self, engine, data, request): + super().test_EA_types(engine, data, request) + + +def custom_assert_series_equal(left, right, *args, **kwargs): + # NumPy doesn't handle an array of equal-length UserDicts. + # The default assert_series_equal eventually does a + # Series.values, which raises. We work around it by + # converting the UserDicts to dicts. + if left.dtype.name == "json": + assert left.dtype == right.dtype + left = pd.Series( + JSONArray(left.values.astype(object)), index=left.index, name=left.name + ) + right = pd.Series( + JSONArray(right.values.astype(object)), + index=right.index, + name=right.name, + ) + tm.assert_series_equal(left, right, *args, **kwargs) + + +def custom_assert_frame_equal(left, right, *args, **kwargs): + obj_type = kwargs.get("obj", "DataFrame") + tm.assert_index_equal( + left.columns, + right.columns, + exact=kwargs.get("check_column_type", "equiv"), + check_names=kwargs.get("check_names", True), + check_exact=kwargs.get("check_exact", False), + check_categorical=kwargs.get("check_categorical", True), + obj=f"{obj_type}.columns", + ) + + jsons = (left.dtypes == "json").index + + for col in jsons: + custom_assert_series_equal(left[col], right[col], *args, **kwargs) + + left = left.drop(columns=jsons) + right = right.drop(columns=jsons) + tm.assert_frame_equal(left, right, *args, **kwargs) + + +def test_custom_asserts(): + # This would always trigger the KeyError from trying to put + # an array of equal-length UserDicts inside an ndarray. + data = JSONArray( + [ + collections.UserDict({"a": 1}), + collections.UserDict({"b": 2}), + collections.UserDict({"c": 3}), + ] + ) + a = pd.Series(data) + custom_assert_series_equal(a, a) + custom_assert_frame_equal(a.to_frame(), a.to_frame()) + + b = pd.Series(data.take([0, 0, 1])) + msg = r"Series are different" + with pytest.raises(AssertionError, match=msg): + custom_assert_series_equal(a, b) + + with pytest.raises(AssertionError, match=msg): + custom_assert_frame_equal(a.to_frame(), b.to_frame()) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..0f3f2f35377882a0fae603edfc8edb46371429fe --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/__init__.py @@ -0,0 +1,7 @@ +from pandas.tests.extension.list.array import ( + ListArray, + ListDtype, + make_data, +) + +__all__ = ["ListArray", "ListDtype", "make_data"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/array.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/array.py new file mode 100644 index 0000000000000000000000000000000000000000..b3bb35c9396f4d1748fff37b7334c68a0b055daf --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/array.py @@ -0,0 +1,137 @@ +""" +Test extension array for storing nested data in a pandas container. + +The ListArray stores an ndarray of lists. +""" +from __future__ import annotations + +import numbers +import string +from typing import TYPE_CHECKING + +import numpy as np + +from pandas.core.dtypes.base import ExtensionDtype + +import pandas as pd +from pandas.api.types import ( + is_object_dtype, + is_string_dtype, +) +from pandas.core.arrays import ExtensionArray + +if TYPE_CHECKING: + from pandas._typing import type_t + + +class ListDtype(ExtensionDtype): + type = list + name = "list" + na_value = np.nan + + @classmethod + def construct_array_type(cls) -> type_t[ListArray]: + """ + Return the array type associated with this dtype. + + Returns + ------- + type + """ + return ListArray + + +class ListArray(ExtensionArray): + dtype = ListDtype() + __array_priority__ = 1000 + + def __init__(self, values, dtype=None, copy=False) -> None: + if not isinstance(values, np.ndarray): + raise TypeError("Need to pass a numpy array as values") + for val in values: + if not isinstance(val, self.dtype.type) and not pd.isna(val): + raise TypeError("All values must be of type " + str(self.dtype.type)) + self.data = values + + @classmethod + def _from_sequence(cls, scalars, *, dtype=None, copy=False): + data = np.empty(len(scalars), dtype=object) + data[:] = scalars + return cls(data) + + def __getitem__(self, item): + if isinstance(item, numbers.Integral): + return self.data[item] + else: + # slice, list-like, mask + return type(self)(self.data[item]) + + def __len__(self) -> int: + return len(self.data) + + def isna(self): + return np.array( + [not isinstance(x, list) and np.isnan(x) for x in self.data], dtype=bool + ) + + def take(self, indexer, allow_fill=False, fill_value=None): + # re-implement here, since NumPy has trouble setting + # sized objects like UserDicts into scalar slots of + # an ndarary. + indexer = np.asarray(indexer) + msg = ( + "Index is out of bounds or cannot do a " + "non-empty take from an empty array." + ) + + if allow_fill: + if fill_value is None: + fill_value = self.dtype.na_value + # bounds check + if (indexer < -1).any(): + raise ValueError + try: + output = [ + self.data[loc] if loc != -1 else fill_value for loc in indexer + ] + except IndexError as err: + raise IndexError(msg) from err + else: + try: + output = [self.data[loc] for loc in indexer] + except IndexError as err: + raise IndexError(msg) from err + + return self._from_sequence(output) + + def copy(self): + return type(self)(self.data[:]) + + def astype(self, dtype, copy=True): + if isinstance(dtype, type(self.dtype)) and dtype == self.dtype: + if copy: + return self.copy() + return self + elif is_string_dtype(dtype) and not is_object_dtype(dtype): + # numpy has problems with astype(str) for nested elements + return np.array([str(x) for x in self.data], dtype=dtype) + elif not copy: + return np.asarray(self.data, dtype=dtype) + else: + return np.array(self.data, dtype=dtype, copy=copy) + + @classmethod + def _concat_same_type(cls, to_concat): + data = np.concatenate([x.data for x in to_concat]) + return cls(data) + + +def make_data(): + # TODO: Use a regular dict. See _NDFrameIndexer._setitem_with_indexer + rng = np.random.default_rng(2) + data = np.empty(100, dtype=object) + data[:] = [ + [rng.choice(list(string.ascii_letters)) for _ in range(rng.integers(0, 10))] + for _ in range(100) + ] + return data diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/test_list.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/test_list.py new file mode 100644 index 0000000000000000000000000000000000000000..ac396cd3c60d435d34f95d5027d80d116d4560d5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/list/test_list.py @@ -0,0 +1,33 @@ +import pytest + +import pandas as pd +from pandas.tests.extension.list.array import ( + ListArray, + ListDtype, + make_data, +) + + +@pytest.fixture +def dtype(): + return ListDtype() + + +@pytest.fixture +def data(): + """Length-100 ListArray for semantics test.""" + data = make_data() + + while len(data[0]) == len(data[1]): + data = make_data() + + return ListArray(data) + + +def test_to_csv(data): + # https://github.com/pandas-dev/pandas/issues/28840 + # array with list-likes fail when doing astype(str) on the numpy array + # which was done in get_values_for_csv + df = pd.DataFrame({"a": data}) + res = df.to_csv() + assert str(data[0]) in res diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_arrow.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_arrow.py new file mode 100644 index 0000000000000000000000000000000000000000..820425ab51949b0a7312ddb4114acfa0442f8587 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_arrow.py @@ -0,0 +1,3420 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. +""" +from __future__ import annotations + +from datetime import ( + date, + datetime, + time, + timedelta, +) +from decimal import Decimal +from io import ( + BytesIO, + StringIO, +) +import operator +import pickle +import re + +import numpy as np +import pytest + +from pandas._libs import lib +from pandas._libs.tslibs import timezones +from pandas.compat import ( + PY311, + PY312, + is_ci_environment, + is_platform_windows, + pa_version_under11p0, + pa_version_under13p0, + pa_version_under14p0, + pa_version_under20p0, + pa_version_under21p0, +) + +from pandas.core.dtypes.dtypes import ( + ArrowDtype, + CategoricalDtypeType, +) + +import pandas as pd +import pandas._testing as tm +from pandas.api.extensions import no_default +from pandas.api.types import ( + is_bool_dtype, + is_float_dtype, + is_integer_dtype, + is_numeric_dtype, + is_signed_integer_dtype, + is_string_dtype, + is_unsigned_integer_dtype, +) +from pandas.tests.extension import base + +pa = pytest.importorskip("pyarrow") + +from pandas.core.arrays.arrow.array import ArrowExtensionArray +from pandas.core.arrays.arrow.extension_types import ArrowPeriodType + + +def _require_timezone_database(request): + if is_platform_windows() and is_ci_environment(): + mark = pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason=( + "TODO: Set ARROW_TIMEZONE_DATABASE environment variable " + "on CI to path to the tzdata for pyarrow." + ), + ) + request.applymarker(mark) + + +@pytest.fixture(params=tm.ALL_PYARROW_DTYPES, ids=str) +def dtype(request): + return ArrowDtype(pyarrow_dtype=request.param) + + +@pytest.fixture +def data(dtype): + pa_dtype = dtype.pyarrow_dtype + if pa.types.is_boolean(pa_dtype): + data = [True, False] * 4 + [None] + [True, False] * 44 + [None] + [True, False] + elif pa.types.is_floating(pa_dtype): + data = [1.0, 0.0] * 4 + [None] + [-2.0, -1.0] * 44 + [None] + [0.5, 99.5] + elif pa.types.is_signed_integer(pa_dtype): + data = [1, 0] * 4 + [None] + [-2, -1] * 44 + [None] + [1, 99] + elif pa.types.is_unsigned_integer(pa_dtype): + data = [1, 0] * 4 + [None] + [2, 1] * 44 + [None] + [1, 99] + elif pa.types.is_decimal(pa_dtype): + data = ( + [Decimal("1"), Decimal("0.0")] * 4 + + [None] + + [Decimal("-2.0"), Decimal("-1.0")] * 44 + + [None] + + [Decimal("0.5"), Decimal("33.123")] + ) + elif pa.types.is_date(pa_dtype): + data = ( + [date(2022, 1, 1), date(1999, 12, 31)] * 4 + + [None] + + [date(2022, 1, 1), date(2022, 1, 1)] * 44 + + [None] + + [date(1999, 12, 31), date(1999, 12, 31)] + ) + elif pa.types.is_timestamp(pa_dtype): + data = ( + [datetime(2020, 1, 1, 1, 1, 1, 1), datetime(1999, 1, 1, 1, 1, 1, 1)] * 4 + + [None] + + [datetime(2020, 1, 1, 1), datetime(1999, 1, 1, 1)] * 44 + + [None] + + [datetime(2020, 1, 1), datetime(1999, 1, 1)] + ) + elif pa.types.is_duration(pa_dtype): + data = ( + [timedelta(1), timedelta(1, 1)] * 4 + + [None] + + [timedelta(-1), timedelta(0)] * 44 + + [None] + + [timedelta(-10), timedelta(10)] + ) + elif pa.types.is_time(pa_dtype): + data = ( + [time(12, 0), time(0, 12)] * 4 + + [None] + + [time(0, 0), time(1, 1)] * 44 + + [None] + + [time(0, 5), time(5, 0)] + ) + elif pa.types.is_string(pa_dtype): + data = ["a", "b"] * 4 + [None] + ["1", "2"] * 44 + [None] + ["!", ">"] + elif pa.types.is_binary(pa_dtype): + data = [b"a", b"b"] * 4 + [None] + [b"1", b"2"] * 44 + [None] + [b"!", b">"] + else: + raise NotImplementedError + return pd.array(data, dtype=dtype) + + +@pytest.fixture +def data_missing(data): + """Length-2 array with [NA, Valid]""" + return type(data)._from_sequence([None, data[0]], dtype=data.dtype) + + +@pytest.fixture(params=["data", "data_missing"]) +def all_data(request, data, data_missing): + """Parametrized fixture returning 'data' or 'data_missing' integer arrays. + + Used to test dtype conversion with and without missing values. + """ + if request.param == "data": + return data + elif request.param == "data_missing": + return data_missing + + +@pytest.fixture +def data_for_grouping(dtype): + """ + Data for factorization, grouping, and unique tests. + + Expected to be like [B, B, NA, NA, A, A, B, C] + + Where A < B < C and NA is missing + """ + pa_dtype = dtype.pyarrow_dtype + if pa.types.is_boolean(pa_dtype): + A = False + B = True + C = True + elif pa.types.is_floating(pa_dtype): + A = -1.1 + B = 0.0 + C = 1.1 + elif pa.types.is_signed_integer(pa_dtype): + A = -1 + B = 0 + C = 1 + elif pa.types.is_unsigned_integer(pa_dtype): + A = 0 + B = 1 + C = 10 + elif pa.types.is_date(pa_dtype): + A = date(1999, 12, 31) + B = date(2010, 1, 1) + C = date(2022, 1, 1) + elif pa.types.is_timestamp(pa_dtype): + A = datetime(1999, 1, 1, 1, 1, 1, 1) + B = datetime(2020, 1, 1) + C = datetime(2020, 1, 1, 1) + elif pa.types.is_duration(pa_dtype): + A = timedelta(-1) + B = timedelta(0) + C = timedelta(1, 4) + elif pa.types.is_time(pa_dtype): + A = time(0, 0) + B = time(0, 12) + C = time(12, 12) + elif pa.types.is_string(pa_dtype): + A = "a" + B = "b" + C = "c" + elif pa.types.is_binary(pa_dtype): + A = b"a" + B = b"b" + C = b"c" + elif pa.types.is_decimal(pa_dtype): + A = Decimal("-1.1") + B = Decimal("0.0") + C = Decimal("1.1") + else: + raise NotImplementedError + return pd.array([B, B, None, None, A, A, B, C], dtype=dtype) + + +@pytest.fixture +def data_for_sorting(data_for_grouping): + """ + Length-3 array with a known sort order. + + This should be three items [B, C, A] with + A < B < C + """ + return type(data_for_grouping)._from_sequence( + [data_for_grouping[0], data_for_grouping[7], data_for_grouping[4]], + dtype=data_for_grouping.dtype, + ) + + +@pytest.fixture +def data_missing_for_sorting(data_for_grouping): + """ + Length-3 array with a known sort order. + + This should be three items [B, NA, A] with + A < B and NA missing. + """ + return type(data_for_grouping)._from_sequence( + [data_for_grouping[0], data_for_grouping[2], data_for_grouping[4]], + dtype=data_for_grouping.dtype, + ) + + +@pytest.fixture +def data_for_twos(data): + """Length-100 array in which all the elements are two.""" + pa_dtype = data.dtype.pyarrow_dtype + if ( + pa.types.is_integer(pa_dtype) + or pa.types.is_floating(pa_dtype) + or pa.types.is_decimal(pa_dtype) + or pa.types.is_duration(pa_dtype) + ): + return pd.array([2] * 100, dtype=data.dtype) + # tests will be xfailed where 2 is not a valid scalar for pa_dtype + return data + # TODO: skip otherwise? + + +class TestArrowArray(base.ExtensionTests): + def test_compare_scalar(self, data, comparison_op): + ser = pd.Series(data) + self._compare_other(ser, data, comparison_op, data[0]) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data_missing, na_action): + if data_missing.dtype.kind in "mM": + result = data_missing.map(lambda x: x, na_action=na_action) + expected = data_missing.to_numpy(dtype=object) + tm.assert_numpy_array_equal(result, expected) + else: + result = data_missing.map(lambda x: x, na_action=na_action) + if data_missing.dtype == "float32[pyarrow]": + # map roundtrips through objects, which converts to float64 + expected = data_missing.to_numpy(dtype="float64", na_value=np.nan) + else: + expected = data_missing.to_numpy() + tm.assert_numpy_array_equal(result, expected) + + def test_astype_str(self, data, request, using_infer_string): + pa_dtype = data.dtype.pyarrow_dtype + if pa.types.is_binary(pa_dtype): + request.applymarker( + pytest.mark.xfail( + reason=f"For {pa_dtype} .astype(str) decodes.", + ) + ) + elif not using_infer_string and ( + (pa.types.is_timestamp(pa_dtype) and pa_dtype.tz is None) + or pa.types.is_duration(pa_dtype) + ): + request.applymarker( + pytest.mark.xfail( + reason="pd.Timestamp/pd.Timedelta repr different from numpy repr", + ) + ) + super().test_astype_str(data) + + def test_from_dtype(self, data, request): + pa_dtype = data.dtype.pyarrow_dtype + if pa.types.is_string(pa_dtype) or pa.types.is_decimal(pa_dtype): + if pa.types.is_string(pa_dtype): + reason = "ArrowDtype(pa.string()) != StringDtype('pyarrow')" + else: + reason = f"pyarrow.type_for_alias cannot infer {pa_dtype}" + + request.applymarker( + pytest.mark.xfail( + reason=reason, + ) + ) + super().test_from_dtype(data) + + def test_from_sequence_pa_array(self, data): + # https://github.com/pandas-dev/pandas/pull/47034#discussion_r955500784 + # data._pa_array = pa.ChunkedArray + result = type(data)._from_sequence(data._pa_array, dtype=data.dtype) + tm.assert_extension_array_equal(result, data) + assert isinstance(result._pa_array, pa.ChunkedArray) + + result = type(data)._from_sequence( + data._pa_array.combine_chunks(), dtype=data.dtype + ) + tm.assert_extension_array_equal(result, data) + assert isinstance(result._pa_array, pa.ChunkedArray) + + def test_from_sequence_pa_array_notimplemented(self, request): + with pytest.raises(NotImplementedError, match="Converting strings to"): + ArrowExtensionArray._from_sequence_of_strings( + ["12-1"], dtype=pa.month_day_nano_interval() + ) + + def test_from_sequence_of_strings_pa_array(self, data, request): + pa_dtype = data.dtype.pyarrow_dtype + if pa.types.is_time64(pa_dtype) and pa_dtype.equals("time64[ns]") and not PY311: + request.applymarker( + pytest.mark.xfail( + reason="Nanosecond time parsing not supported.", + ) + ) + elif pa_version_under11p0 and ( + pa.types.is_duration(pa_dtype) or pa.types.is_decimal(pa_dtype) + ): + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowNotImplementedError, + reason=f"pyarrow doesn't support parsing {pa_dtype}", + ) + ) + elif pa.types.is_timestamp(pa_dtype) and pa_dtype.tz is not None: + _require_timezone_database(request) + + pa_array = data._pa_array.cast(pa.string()) + result = type(data)._from_sequence_of_strings(pa_array, dtype=data.dtype) + tm.assert_extension_array_equal(result, data) + + pa_array = pa_array.combine_chunks() + result = type(data)._from_sequence_of_strings(pa_array, dtype=data.dtype) + tm.assert_extension_array_equal(result, data) + + def check_accumulate(self, ser, op_name, skipna): + result = getattr(ser, op_name)(skipna=skipna) + + pa_type = ser.dtype.pyarrow_dtype + if pa.types.is_temporal(pa_type): + # Just check that we match the integer behavior. + if pa_type.bit_width == 32: + int_type = "int32[pyarrow]" + else: + int_type = "int64[pyarrow]" + ser = ser.astype(int_type) + result = result.astype(int_type) + + result = result.astype("Float64") + expected = getattr(ser.astype("Float64"), op_name)(skipna=skipna) + tm.assert_series_equal(result, expected, check_dtype=False) + + def _supports_accumulation(self, ser: pd.Series, op_name: str) -> bool: + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" has no + # attribute "pyarrow_dtype" + pa_type = ser.dtype.pyarrow_dtype # type: ignore[union-attr] + + if pa.types.is_binary(pa_type) or pa.types.is_decimal(pa_type): + if op_name in ["cumsum", "cumprod", "cummax", "cummin"]: + return False + elif pa.types.is_string(pa_type): + if op_name == "cumprod": + return False + elif pa.types.is_boolean(pa_type): + if op_name in ["cumprod", "cummax", "cummin"]: + return False + elif pa.types.is_temporal(pa_type): + if op_name == "cumsum" and not pa.types.is_duration(pa_type): + return False + elif op_name == "cumprod": + return False + return True + + @pytest.mark.parametrize("skipna", [True, False]) + def test_accumulate_series(self, data, all_numeric_accumulations, skipna, request): + pa_type = data.dtype.pyarrow_dtype + op_name = all_numeric_accumulations + + if pa.types.is_string(pa_type) and op_name in ["cumsum", "cummin", "cummax"]: + # https://github.com/pandas-dev/pandas/pull/60633 + # Doesn't fit test structure, tested in series/test_cumulative.py instead. + return + + ser = pd.Series(data) + + if not self._supports_accumulation(ser, op_name): + # The base class test will check that we raise + return super().test_accumulate_series( + data, all_numeric_accumulations, skipna + ) + + if pa_version_under13p0 and all_numeric_accumulations != "cumsum": + # xfailing takes a long time to run because pytest + # renders the exception messages even when not showing them + opt = request.config.option + if opt.markexpr and "not slow" in opt.markexpr: + pytest.skip( + f"{all_numeric_accumulations} not implemented for pyarrow < 9" + ) + mark = pytest.mark.xfail( + reason=f"{all_numeric_accumulations} not implemented for pyarrow < 9" + ) + request.applymarker(mark) + + elif all_numeric_accumulations == "cumsum" and ( + pa.types.is_boolean(pa_type) or pa.types.is_decimal(pa_type) + ): + request.applymarker( + pytest.mark.xfail( + reason=f"{all_numeric_accumulations} not implemented for {pa_type}", + raises=TypeError, + ) + ) + + self.check_accumulate(ser, op_name, skipna) + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + if op_name == "kurt" or (pa_version_under20p0 and op_name == "skew"): + return False + + dtype = ser.dtype + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" has + # no attribute "pyarrow_dtype" + pa_dtype = dtype.pyarrow_dtype # type: ignore[union-attr] + if pa.types.is_temporal(pa_dtype) and op_name in [ + "sum", + "var", + "skew", + "kurt", + "prod", + ]: + if pa.types.is_duration(pa_dtype) and op_name in ["sum"]: + # summing timedeltas is one case that *is* well-defined + pass + else: + return False + elif pa.types.is_binary(pa_dtype) and op_name in ["sum", "skew"]: + return False + elif ( + pa.types.is_string(pa_dtype) or pa.types.is_binary(pa_dtype) + ) and op_name in [ + "mean", + "median", + "prod", + "std", + "sem", + "var", + "skew", + "kurt", + ]: + return False + + if ( + pa.types.is_temporal(pa_dtype) + and not pa.types.is_duration(pa_dtype) + and op_name in ["any", "all"] + ): + # xref GH#34479 we support this in our non-pyarrow datetime64 dtypes, + # but it isn't obvious we _should_. For now, we keep the pyarrow + # behavior which does not support this. + return False + + return True + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" has no + # attribute "pyarrow_dtype" + pa_dtype = ser.dtype.pyarrow_dtype # type: ignore[union-attr] + if pa.types.is_integer(pa_dtype) or pa.types.is_floating(pa_dtype): + alt = ser.astype("Float64") + else: + # TODO: in the opposite case, aren't we testing... nothing? For + # e.g. date/time dtypes trying to calculate 'expected' by converting + # to object will raise for mean, std etc + alt = ser + + # TODO: in the opposite case, aren't we testing... nothing? + if op_name == "count": + result = getattr(ser, op_name)() + expected = getattr(alt, op_name)() + else: + result = getattr(ser, op_name)(skipna=skipna) + expected = getattr(alt, op_name)(skipna=skipna) + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_numeric(self, data, all_numeric_reductions, skipna, request): + dtype = data.dtype + pa_dtype = dtype.pyarrow_dtype + + xfail_mark = pytest.mark.xfail( + raises=TypeError, + reason=( + f"{all_numeric_reductions} is not implemented in " + f"pyarrow={pa.__version__} for {pa_dtype}" + ), + ) + if pa.types.is_boolean(pa_dtype) and all_numeric_reductions in { + "sem", + "std", + "var", + "median", + }: + request.applymarker(xfail_mark) + elif ( + not pa_version_under20p0 + and all_numeric_reductions == "skew" + and ( + pa.types.is_boolean(pa_dtype) + or ( + skipna + and ( + pa.types.is_integer(pa_dtype) or pa.types.is_floating(pa_dtype) + ) + ) + ) + ): + request.applymarker( + pytest.mark.xfail( + reason="https://github.com/apache/arrow/issues/45733", + ) + ) + super().test_reduce_series_numeric(data, all_numeric_reductions, skipna) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_boolean( + self, data, all_boolean_reductions, skipna, na_value, request + ): + pa_dtype = data.dtype.pyarrow_dtype + xfail_mark = pytest.mark.xfail( + raises=TypeError, + reason=( + f"{all_boolean_reductions} is not implemented in " + f"pyarrow={pa.__version__} for {pa_dtype}" + ), + ) + if pa.types.is_string(pa_dtype) or pa.types.is_binary(pa_dtype): + # We *might* want to make this behave like the non-pyarrow cases, + # but have not yet decided. + request.applymarker(xfail_mark) + + return super().test_reduce_series_boolean(data, all_boolean_reductions, skipna) + + def _get_expected_reduction_dtype(self, arr, op_name: str, skipna: bool): + pa_type = arr._pa_array.type + if op_name in ["max", "min"]: + cmp_dtype = arr.dtype + elif arr.dtype.name == "decimal128(7, 3)[pyarrow]": + if op_name == "sum" and not pa_version_under21p0: + # https://github.com/apache/arrow/pull/44184 + cmp_dtype = ArrowDtype(pa.decimal128(38, 3)) + elif op_name not in ["median", "var", "std", "skew"]: + cmp_dtype = arr.dtype + else: + cmp_dtype = "float64[pyarrow]" + elif op_name in ["median", "var", "std", "mean", "skew"]: + cmp_dtype = "float64[pyarrow]" + elif op_name == "sum" and pa.types.is_string(pa_type): + cmp_dtype = arr.dtype + else: + cmp_dtype = { + "i": "int64[pyarrow]", + "u": "uint64[pyarrow]", + "f": "float64[pyarrow]", + }[arr.dtype.kind] + return cmp_dtype + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_frame(self, data, all_numeric_reductions, skipna, request): + op_name = all_numeric_reductions + if op_name == "skew" and pa_version_under20p0: + if data.dtype._is_numeric: + mark = pytest.mark.xfail(reason="skew not implemented") + request.applymarker(mark) + return super().test_reduce_frame(data, all_numeric_reductions, skipna) + + @pytest.mark.parametrize("typ", ["int64", "uint64", "float64"]) + def test_median_not_approximate(self, typ): + # GH 52679 + result = pd.Series([1, 2], dtype=f"{typ}[pyarrow]").median() + assert result == 1.5 + + def test_construct_from_string_own_name(self, dtype, request): + pa_dtype = dtype.pyarrow_dtype + if pa.types.is_decimal(pa_dtype): + request.applymarker( + pytest.mark.xfail( + raises=NotImplementedError, + reason=f"pyarrow.type_for_alias cannot infer {pa_dtype}", + ) + ) + + if pa.types.is_string(pa_dtype): + # We still support StringDtype('pyarrow') over ArrowDtype(pa.string()) + msg = r"string\[pyarrow\] should be constructed by StringDtype" + with pytest.raises(TypeError, match=msg): + dtype.construct_from_string(dtype.name) + + return + + super().test_construct_from_string_own_name(dtype) + + def test_is_dtype_from_name(self, dtype, request): + pa_dtype = dtype.pyarrow_dtype + if pa.types.is_string(pa_dtype): + # We still support StringDtype('pyarrow') over ArrowDtype(pa.string()) + assert not type(dtype).is_dtype(dtype.name) + else: + if pa.types.is_decimal(pa_dtype): + request.applymarker( + pytest.mark.xfail( + raises=NotImplementedError, + reason=f"pyarrow.type_for_alias cannot infer {pa_dtype}", + ) + ) + super().test_is_dtype_from_name(dtype) + + def test_construct_from_string_another_type_raises(self, dtype): + msg = r"'another_type' must end with '\[pyarrow\]'" + with pytest.raises(TypeError, match=msg): + type(dtype).construct_from_string("another_type") + + def test_get_common_dtype(self, dtype, request): + pa_dtype = dtype.pyarrow_dtype + if ( + pa.types.is_date(pa_dtype) + or pa.types.is_time(pa_dtype) + or (pa.types.is_timestamp(pa_dtype) and pa_dtype.tz is not None) + or pa.types.is_binary(pa_dtype) + or pa.types.is_decimal(pa_dtype) + ): + request.applymarker( + pytest.mark.xfail( + reason=( + f"{pa_dtype} does not have associated numpy " + f"dtype findable by find_common_type" + ) + ) + ) + super().test_get_common_dtype(dtype) + + def test_is_not_string_type(self, dtype): + pa_dtype = dtype.pyarrow_dtype + if pa.types.is_string(pa_dtype): + assert is_string_dtype(dtype) + else: + super().test_is_not_string_type(dtype) + + @pytest.mark.xfail( + reason="GH 45419: pyarrow.ChunkedArray does not support views.", run=False + ) + def test_view(self, data): + super().test_view(data) + + def test_fillna_no_op_returns_copy(self, data): + data = data[~data.isna()] + + valid = data[0] + result = data.fillna(valid) + assert result is not data + tm.assert_extension_array_equal(result, data) + + result = data.fillna(method="backfill") + assert result is not data + tm.assert_extension_array_equal(result, data) + + @pytest.mark.xfail( + reason="GH 45419: pyarrow.ChunkedArray does not support views", run=False + ) + def test_transpose(self, data): + super().test_transpose(data) + + @pytest.mark.xfail( + reason="GH 45419: pyarrow.ChunkedArray does not support views", run=False + ) + def test_setitem_preserves_views(self, data): + super().test_setitem_preserves_views(data) + + @pytest.mark.parametrize("dtype_backend", ["pyarrow", no_default]) + @pytest.mark.parametrize("engine", ["c", "python"]) + def test_EA_types(self, engine, data, dtype_backend, request): + pa_dtype = data.dtype.pyarrow_dtype + if pa.types.is_decimal(pa_dtype): + request.applymarker( + pytest.mark.xfail( + raises=NotImplementedError, + reason=f"Parameterized types {pa_dtype} not supported.", + ) + ) + elif pa.types.is_timestamp(pa_dtype) and pa_dtype.unit in ("us", "ns"): + request.applymarker( + pytest.mark.xfail( + raises=ValueError, + reason="https://github.com/pandas-dev/pandas/issues/49767", + ) + ) + elif pa.types.is_binary(pa_dtype): + request.applymarker( + pytest.mark.xfail(reason="CSV parsers don't correctly handle binary") + ) + df = pd.DataFrame({"with_dtype": pd.Series(data, dtype=str(data.dtype))}) + csv_output = df.to_csv(index=False, na_rep=np.nan) + if pa.types.is_binary(pa_dtype): + csv_output = BytesIO(csv_output) + else: + csv_output = StringIO(csv_output) + result = pd.read_csv( + csv_output, + dtype={"with_dtype": str(data.dtype)}, + engine=engine, + dtype_backend=dtype_backend, + ) + expected = df + tm.assert_frame_equal(result, expected) + + def test_invert(self, data, request): + pa_dtype = data.dtype.pyarrow_dtype + if not ( + pa.types.is_boolean(pa_dtype) + or pa.types.is_integer(pa_dtype) + or pa.types.is_string(pa_dtype) + ): + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowNotImplementedError, + reason=f"pyarrow.compute.invert does support {pa_dtype}", + ) + ) + if PY312 and pa.types.is_boolean(pa_dtype): + with tm.assert_produces_warning( + DeprecationWarning, match="Bitwise inversion", check_stacklevel=False + ): + super().test_invert(data) + else: + super().test_invert(data) + + @pytest.mark.parametrize("periods", [1, -2]) + def test_diff(self, data, periods, request): + pa_dtype = data.dtype.pyarrow_dtype + if pa.types.is_unsigned_integer(pa_dtype) and periods == 1: + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason=( + f"diff with {pa_dtype} and periods={periods} will overflow" + ), + ) + ) + super().test_diff(data, periods) + + def test_value_counts_returns_pyarrow_int64(self, data): + # GH 51462 + data = data[:10] + result = data.value_counts() + assert result.dtype == ArrowDtype(pa.int64()) + + _combine_le_expected_dtype = "bool[pyarrow]" + + def get_op_from_name(self, op_name): + short_opname = op_name.strip("_") + if short_opname == "rtruediv": + # use the numpy version that won't raise on division by zero + + def rtruediv(x, y): + return np.divide(y, x) + + return rtruediv + elif short_opname == "rfloordiv": + return lambda x, y: np.floor_divide(y, x) + + return tm.get_op_from_name(op_name) + + def _cast_pointwise_result(self, op_name: str, obj, other, pointwise_result): + # BaseOpsUtil._combine can upcast expected dtype + # (because it generates expected on python scalars) + # while ArrowExtensionArray maintains original type + expected = pointwise_result + + if op_name in ["eq", "ne", "lt", "le", "gt", "ge"]: + return pointwise_result.astype("boolean[pyarrow]") + + was_frame = False + if isinstance(expected, pd.DataFrame): + was_frame = True + expected_data = expected.iloc[:, 0] + original_dtype = obj.iloc[:, 0].dtype + else: + expected_data = expected + original_dtype = obj.dtype + + orig_pa_type = original_dtype.pyarrow_dtype + if not was_frame and isinstance(other, pd.Series): + # i.e. test_arith_series_with_array + if not ( + pa.types.is_floating(orig_pa_type) + or ( + pa.types.is_integer(orig_pa_type) + and op_name not in ["__truediv__", "__rtruediv__"] + ) + or pa.types.is_duration(orig_pa_type) + or pa.types.is_timestamp(orig_pa_type) + or pa.types.is_date(orig_pa_type) + or pa.types.is_decimal(orig_pa_type) + ): + # base class _combine always returns int64, while + # ArrowExtensionArray does not upcast + return expected + elif not ( + (op_name == "__floordiv__" and pa.types.is_integer(orig_pa_type)) + or pa.types.is_duration(orig_pa_type) + or pa.types.is_timestamp(orig_pa_type) + or pa.types.is_date(orig_pa_type) + or pa.types.is_decimal(orig_pa_type) + ): + # base class _combine always returns int64, while + # ArrowExtensionArray does not upcast + return expected + + pa_expected = pa.array(expected_data._values) + + if pa.types.is_duration(pa_expected.type): + if pa.types.is_date(orig_pa_type): + if pa.types.is_date64(orig_pa_type): + # TODO: why is this different vs date32? + unit = "ms" + else: + unit = "s" + else: + # pyarrow sees sequence of datetime/timedelta objects and defaults + # to "us" but the non-pointwise op retains unit + # timestamp or duration + unit = orig_pa_type.unit + if type(other) in [datetime, timedelta] and unit in ["s", "ms"]: + # pydatetime/pytimedelta objects have microsecond reso, so we + # take the higher reso of the original and microsecond. Note + # this matches what we would do with DatetimeArray/TimedeltaArray + unit = "us" + + pa_expected = pa_expected.cast(f"duration[{unit}]") + + elif pa.types.is_decimal(pa_expected.type) and pa.types.is_decimal( + orig_pa_type + ): + # decimal precision can resize in the result type depending on data + # just compare the float values + alt = getattr(obj, op_name)(other) + alt_dtype = tm.get_dtype(alt) + assert isinstance(alt_dtype, ArrowDtype) + if op_name == "__pow__" and isinstance(other, Decimal): + # TODO: would it make more sense to retain Decimal here? + alt_dtype = ArrowDtype(pa.float64()) + elif ( + op_name == "__pow__" + and isinstance(other, pd.Series) + and other.dtype == original_dtype + ): + # TODO: would it make more sense to retain Decimal here? + alt_dtype = ArrowDtype(pa.float64()) + else: + assert pa.types.is_decimal(alt_dtype.pyarrow_dtype) + return expected.astype(alt_dtype) + + else: + pa_expected = pa_expected.cast(orig_pa_type) + + pd_expected = type(expected_data._values)(pa_expected) + if was_frame: + expected = pd.DataFrame( + pd_expected, index=expected.index, columns=expected.columns + ) + else: + expected = pd.Series(pd_expected) + return expected + + def _is_temporal_supported(self, opname, pa_dtype): + return ( + ( + opname in ("__add__", "__radd__") + or ( + opname + in ("__truediv__", "__rtruediv__", "__floordiv__", "__rfloordiv__") + and not pa_version_under14p0 + ) + ) + and pa.types.is_duration(pa_dtype) + or opname in ("__sub__", "__rsub__") + and pa.types.is_temporal(pa_dtype) + ) + + def _get_expected_exception( + self, op_name: str, obj, other + ) -> type[Exception] | tuple[type[Exception], ...] | None: + if op_name in ("__divmod__", "__rdivmod__"): + return (NotImplementedError, TypeError) + + exc: type[Exception] | tuple[type[Exception], ...] | None + dtype = tm.get_dtype(obj) + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" has no + # attribute "pyarrow_dtype" + pa_dtype = dtype.pyarrow_dtype # type: ignore[union-attr] + + arrow_temporal_supported = self._is_temporal_supported(op_name, pa_dtype) + if op_name in { + "__mod__", + "__rmod__", + }: + exc = (NotImplementedError, TypeError) + elif arrow_temporal_supported: + exc = None + elif op_name in ["__add__", "__radd__"] and ( + pa.types.is_string(pa_dtype) or pa.types.is_binary(pa_dtype) + ): + exc = None + elif not ( + pa.types.is_floating(pa_dtype) + or pa.types.is_integer(pa_dtype) + or pa.types.is_decimal(pa_dtype) + ): + exc = TypeError + else: + exc = None + return exc + + def _get_arith_xfail_marker(self, opname, pa_dtype): + mark = None + + arrow_temporal_supported = self._is_temporal_supported(opname, pa_dtype) + + if opname == "__rpow__" and ( + pa.types.is_floating(pa_dtype) + or pa.types.is_integer(pa_dtype) + or pa.types.is_decimal(pa_dtype) + ): + mark = pytest.mark.xfail( + reason=( + f"GH#29997: 1**pandas.NA == 1 while 1**pyarrow.NA == NULL " + f"for {pa_dtype}" + ) + ) + elif arrow_temporal_supported and ( + pa.types.is_time(pa_dtype) + or ( + opname + in ("__truediv__", "__rtruediv__", "__floordiv__", "__rfloordiv__") + and pa.types.is_duration(pa_dtype) + ) + ): + mark = pytest.mark.xfail( + raises=TypeError, + reason=( + f"{opname} not supported between" + f"pd.NA and {pa_dtype} Python scalar" + ), + ) + elif opname == "__rfloordiv__" and ( + pa.types.is_integer(pa_dtype) or pa.types.is_decimal(pa_dtype) + ): + mark = pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason="divide by 0", + ) + elif opname == "__rtruediv__" and pa.types.is_decimal(pa_dtype): + mark = pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason="divide by 0", + ) + + return mark + + def test_arith_series_with_scalar(self, data, all_arithmetic_operators, request): + pa_dtype = data.dtype.pyarrow_dtype + + if all_arithmetic_operators == "__rmod__" and pa.types.is_binary(pa_dtype): + pytest.skip("Skip testing Python string formatting") + + mark = self._get_arith_xfail_marker(all_arithmetic_operators, pa_dtype) + if mark is not None: + request.applymarker(mark) + + super().test_arith_series_with_scalar(data, all_arithmetic_operators) + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators, request): + pa_dtype = data.dtype.pyarrow_dtype + + if all_arithmetic_operators == "__rmod__" and ( + pa.types.is_string(pa_dtype) or pa.types.is_binary(pa_dtype) + ): + pytest.skip("Skip testing Python string formatting") + + mark = self._get_arith_xfail_marker(all_arithmetic_operators, pa_dtype) + if mark is not None: + request.applymarker(mark) + + super().test_arith_frame_with_scalar(data, all_arithmetic_operators) + + def test_arith_series_with_array(self, data, all_arithmetic_operators, request): + pa_dtype = data.dtype.pyarrow_dtype + + if all_arithmetic_operators in ( + "__sub__", + "__rsub__", + ) and pa.types.is_unsigned_integer(pa_dtype): + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason=( + f"Implemented pyarrow.compute.subtract_checked " + f"which raises on overflow for {pa_dtype}" + ), + ) + ) + + mark = self._get_arith_xfail_marker(all_arithmetic_operators, pa_dtype) + if mark is not None: + request.applymarker(mark) + + op_name = all_arithmetic_operators + ser = pd.Series(data) + # pd.Series([ser.iloc[0]] * len(ser)) may not return ArrowExtensionArray + # since ser.iloc[0] is a python scalar + other = pd.Series(pd.array([ser.iloc[0]] * len(ser), dtype=data.dtype)) + + self.check_opname(ser, op_name, other) + + def test_add_series_with_extension_array(self, data, request): + pa_dtype = data.dtype.pyarrow_dtype + + if pa_dtype.equals("int8"): + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason=f"raises on overflow for {pa_dtype}", + ) + ) + super().test_add_series_with_extension_array(data) + + def test_invalid_other_comp(self, data, comparison_op): + # GH 48833 + with pytest.raises( + NotImplementedError, match=".* not implemented for " + ): + comparison_op(data, object()) + + @pytest.mark.parametrize("masked_dtype", ["boolean", "Int64", "Float64"]) + def test_comp_masked_numpy(self, masked_dtype, comparison_op): + # GH 52625 + data = [1, 0, None] + ser_masked = pd.Series(data, dtype=masked_dtype) + ser_pa = pd.Series(data, dtype=f"{masked_dtype.lower()}[pyarrow]") + result = comparison_op(ser_pa, ser_masked) + if comparison_op in [operator.lt, operator.gt, operator.ne]: + exp = [False, False, None] + else: + exp = [True, True, None] + expected = pd.Series(exp, dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +class TestLogicalOps: + """Various Series and DataFrame logical ops methods.""" + + def test_kleene_or(self): + a = pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]") + b = pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + result = a | b + expected = pd.Series( + [True, True, True, True, False, None, True, None, None], + dtype="boolean[pyarrow]", + ) + tm.assert_series_equal(result, expected) + + result = b | a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, + pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]"), + ) + tm.assert_series_equal( + b, pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + ) + + @pytest.mark.parametrize( + "other, expected", + [ + (None, [True, None, None]), + (pd.NA, [True, None, None]), + (True, [True, True, True]), + (np.bool_(True), [True, True, True]), + (False, [True, False, None]), + (np.bool_(False), [True, False, None]), + ], + ) + def test_kleene_or_scalar(self, other, expected): + a = pd.Series([True, False, None], dtype="boolean[pyarrow]") + result = a | other + expected = pd.Series(expected, dtype="boolean[pyarrow]") + tm.assert_series_equal(result, expected) + + result = other | a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, pd.Series([True, False, None], dtype="boolean[pyarrow]") + ) + + def test_kleene_and(self): + a = pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]") + b = pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + result = a & b + expected = pd.Series( + [True, False, None, False, False, False, None, False, None], + dtype="boolean[pyarrow]", + ) + tm.assert_series_equal(result, expected) + + result = b & a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, + pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]"), + ) + tm.assert_series_equal( + b, pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + ) + + @pytest.mark.parametrize( + "other, expected", + [ + (None, [None, False, None]), + (pd.NA, [None, False, None]), + (True, [True, False, None]), + (False, [False, False, False]), + (np.bool_(True), [True, False, None]), + (np.bool_(False), [False, False, False]), + ], + ) + def test_kleene_and_scalar(self, other, expected): + a = pd.Series([True, False, None], dtype="boolean[pyarrow]") + result = a & other + expected = pd.Series(expected, dtype="boolean[pyarrow]") + tm.assert_series_equal(result, expected) + + result = other & a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, pd.Series([True, False, None], dtype="boolean[pyarrow]") + ) + + def test_kleene_xor(self): + a = pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]") + b = pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + result = a ^ b + expected = pd.Series( + [False, True, None, True, False, None, None, None, None], + dtype="boolean[pyarrow]", + ) + tm.assert_series_equal(result, expected) + + result = b ^ a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, + pd.Series([True] * 3 + [False] * 3 + [None] * 3, dtype="boolean[pyarrow]"), + ) + tm.assert_series_equal( + b, pd.Series([True, False, None] * 3, dtype="boolean[pyarrow]") + ) + + @pytest.mark.parametrize( + "other, expected", + [ + (None, [None, None, None]), + (pd.NA, [None, None, None]), + (True, [False, True, None]), + (np.bool_(True), [False, True, None]), + (np.bool_(False), [True, False, None]), + ], + ) + def test_kleene_xor_scalar(self, other, expected): + a = pd.Series([True, False, None], dtype="boolean[pyarrow]") + result = a ^ other + expected = pd.Series(expected, dtype="boolean[pyarrow]") + tm.assert_series_equal(result, expected) + + result = other ^ a + tm.assert_series_equal(result, expected) + + # ensure we haven't mutated anything inplace + tm.assert_series_equal( + a, pd.Series([True, False, None], dtype="boolean[pyarrow]") + ) + + @pytest.mark.parametrize( + "op, exp", + [ + ["__and__", True], + ["__or__", True], + ["__xor__", False], + ], + ) + def test_logical_masked_numpy(self, op, exp): + # GH 52625 + data = [True, False, None] + ser_masked = pd.Series(data, dtype="boolean") + ser_pa = pd.Series(data, dtype="boolean[pyarrow]") + result = getattr(ser_pa, op)(ser_masked) + expected = pd.Series([exp, False, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.ALL_INT_PYARROW_DTYPES) +def test_bitwise(pa_type): + # GH 54495 + dtype = ArrowDtype(pa_type) + left = pd.Series([1, None, 3, 4], dtype=dtype) + right = pd.Series([None, 3, 5, 4], dtype=dtype) + + result = left | right + expected = pd.Series([None, None, 3 | 5, 4 | 4], dtype=dtype) + tm.assert_series_equal(result, expected) + + result = left & right + expected = pd.Series([None, None, 3 & 5, 4 & 4], dtype=dtype) + tm.assert_series_equal(result, expected) + + result = left ^ right + expected = pd.Series([None, None, 3 ^ 5, 4 ^ 4], dtype=dtype) + tm.assert_series_equal(result, expected) + + result = ~left + expected = ~(left.fillna(0).to_numpy()) + expected = pd.Series(expected, dtype=dtype).mask(left.isnull()) + tm.assert_series_equal(result, expected) + + +def test_arrowdtype_construct_from_string_type_with_unsupported_parameters(): + with pytest.raises(NotImplementedError, match="Passing pyarrow type"): + ArrowDtype.construct_from_string("not_a_real_dype[s, tz=UTC][pyarrow]") + + with pytest.raises(NotImplementedError, match="Passing pyarrow type"): + ArrowDtype.construct_from_string("decimal(7, 2)[pyarrow]") + + +def test_arrowdtype_construct_from_string_supports_dt64tz(): + # as of GH#50689, timestamptz is supported + dtype = ArrowDtype.construct_from_string("timestamp[s, tz=UTC][pyarrow]") + expected = ArrowDtype(pa.timestamp("s", "UTC")) + assert dtype == expected + + +def test_arrowdtype_construct_from_string_type_only_one_pyarrow(): + # GH#51225 + invalid = "int64[pyarrow]foobar[pyarrow]" + msg = ( + r"Passing pyarrow type specific parameters \(\[pyarrow\]\) in the " + r"string is not supported\." + ) + with pytest.raises(NotImplementedError, match=msg): + pd.Series(range(3), dtype=invalid) + + +def test_arrow_string_multiplication(): + # GH 56537 + binary = pd.Series(["abc", "defg"], dtype=ArrowDtype(pa.string())) + repeat = pd.Series([2, -2], dtype="int64[pyarrow]") + result = binary * repeat + expected = pd.Series(["abcabc", ""], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + reflected_result = repeat * binary + tm.assert_series_equal(result, reflected_result) + + +def test_arrow_string_multiplication_scalar_repeat(): + binary = pd.Series(["abc", "defg"], dtype=ArrowDtype(pa.string())) + result = binary * 2 + expected = pd.Series(["abcabc", "defgdefg"], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + reflected_result = 2 * binary + tm.assert_series_equal(reflected_result, expected) + + +@pytest.mark.parametrize( + "interpolation", ["linear", "lower", "higher", "nearest", "midpoint"] +) +@pytest.mark.parametrize("quantile", [0.5, [0.5, 0.5]]) +def test_quantile(data, interpolation, quantile, request): + pa_dtype = data.dtype.pyarrow_dtype + + data = data.take([0, 0, 0]) + ser = pd.Series(data) + + if ( + pa.types.is_string(pa_dtype) + or pa.types.is_binary(pa_dtype) + or pa.types.is_boolean(pa_dtype) + ): + # For string, bytes, and bool, we don't *expect* to have quantile work + # Note this matches the non-pyarrow behavior + msg = r"Function 'quantile' has no kernel matching input types \(.*\)" + with pytest.raises(pa.ArrowNotImplementedError, match=msg): + ser.quantile(q=quantile, interpolation=interpolation) + return + + if ( + pa.types.is_integer(pa_dtype) + or pa.types.is_floating(pa_dtype) + or pa.types.is_decimal(pa_dtype) + ): + pass + elif pa.types.is_temporal(data._pa_array.type): + pass + else: + request.applymarker( + pytest.mark.xfail( + raises=pa.ArrowNotImplementedError, + reason=f"quantile not supported by pyarrow for {pa_dtype}", + ) + ) + data = data.take([0, 0, 0]) + ser = pd.Series(data) + result = ser.quantile(q=quantile, interpolation=interpolation) + + if pa.types.is_timestamp(pa_dtype) and interpolation not in ["lower", "higher"]: + # rounding error will make the check below fail + # (e.g. '2020-01-01 01:01:01.000001' vs '2020-01-01 01:01:01.000001024'), + # so we'll check for now that we match the numpy analogue + if pa_dtype.tz: + pd_dtype = f"M8[{pa_dtype.unit}, {pa_dtype.tz}]" + else: + pd_dtype = f"M8[{pa_dtype.unit}]" + ser_np = ser.astype(pd_dtype) + + expected = ser_np.quantile(q=quantile, interpolation=interpolation) + if quantile == 0.5: + if pa_dtype.unit == "us": + expected = expected.to_pydatetime(warn=False) + assert result == expected + else: + if pa_dtype.unit == "us": + expected = expected.dt.floor("us") + tm.assert_series_equal(result, expected.astype(data.dtype)) + return + + if quantile == 0.5: + assert result == data[0] + else: + # Just check the values + expected = pd.Series(data.take([0, 0]), index=[0.5, 0.5]) + if ( + pa.types.is_integer(pa_dtype) + or pa.types.is_floating(pa_dtype) + or pa.types.is_decimal(pa_dtype) + ): + expected = expected.astype("float64[pyarrow]") + result = result.astype("float64[pyarrow]") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "take_idx, exp_idx", + [[[0, 0, 2, 2, 4, 4], [4, 0]], [[0, 0, 0, 2, 4, 4], [0]]], + ids=["multi_mode", "single_mode"], +) +def test_mode_dropna_true(data_for_grouping, take_idx, exp_idx): + data = data_for_grouping.take(take_idx) + ser = pd.Series(data) + result = ser.mode(dropna=True) + expected = pd.Series(data_for_grouping.take(exp_idx)) + tm.assert_series_equal(result, expected) + + +def test_mode_dropna_false_mode_na(data): + # GH 50982 + more_nans = pd.Series([None, None, data[0]], dtype=data.dtype) + result = more_nans.mode(dropna=False) + expected = pd.Series([None], dtype=data.dtype) + tm.assert_series_equal(result, expected) + + expected = pd.Series([data[0], None], dtype=data.dtype) + result = expected.mode(dropna=False) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "arrow_dtype, expected_type", + [ + [pa.binary(), bytes], + [pa.binary(16), bytes], + [pa.large_binary(), bytes], + [pa.large_string(), str], + [pa.list_(pa.int64()), list], + [pa.large_list(pa.int64()), list], + [pa.map_(pa.string(), pa.int64()), list], + [pa.struct([("f1", pa.int8()), ("f2", pa.string())]), dict], + [pa.dictionary(pa.int64(), pa.int64()), CategoricalDtypeType], + ], +) +def test_arrow_dtype_type(arrow_dtype, expected_type): + # GH 51845 + # TODO: Redundant with test_getitem_scalar once arrow_dtype exists in data fixture + assert ArrowDtype(arrow_dtype).type == expected_type + + +def test_is_bool_dtype(): + # GH 22667 + data = ArrowExtensionArray(pa.array([True, False, True])) + assert is_bool_dtype(data) + assert pd.core.common.is_bool_indexer(data) + s = pd.Series(range(len(data))) + result = s[data] + expected = s[np.asarray(data)] + tm.assert_series_equal(result, expected) + + +def test_is_numeric_dtype(data): + # GH 50563 + pa_type = data.dtype.pyarrow_dtype + if ( + pa.types.is_floating(pa_type) + or pa.types.is_integer(pa_type) + or pa.types.is_decimal(pa_type) + ): + assert is_numeric_dtype(data) + else: + assert not is_numeric_dtype(data) + + +def test_is_integer_dtype(data): + # GH 50667 + pa_type = data.dtype.pyarrow_dtype + if pa.types.is_integer(pa_type): + assert is_integer_dtype(data) + else: + assert not is_integer_dtype(data) + + +def test_is_signed_integer_dtype(data): + pa_type = data.dtype.pyarrow_dtype + if pa.types.is_signed_integer(pa_type): + assert is_signed_integer_dtype(data) + else: + assert not is_signed_integer_dtype(data) + + +def test_is_unsigned_integer_dtype(data): + pa_type = data.dtype.pyarrow_dtype + if pa.types.is_unsigned_integer(pa_type): + assert is_unsigned_integer_dtype(data) + else: + assert not is_unsigned_integer_dtype(data) + + +def test_is_float_dtype(data): + pa_type = data.dtype.pyarrow_dtype + if pa.types.is_floating(pa_type): + assert is_float_dtype(data) + else: + assert not is_float_dtype(data) + + +def test_pickle_roundtrip(data): + # GH 42600 + expected = pd.Series(data) + expected_sliced = expected.head(2) + full_pickled = pickle.dumps(expected) + sliced_pickled = pickle.dumps(expected_sliced) + + assert len(full_pickled) > len(sliced_pickled) + + result = pickle.loads(full_pickled) + tm.assert_series_equal(result, expected) + + result_sliced = pickle.loads(sliced_pickled) + tm.assert_series_equal(result_sliced, expected_sliced) + + +def test_astype_from_non_pyarrow(data): + # GH49795 + pd_array = data._pa_array.to_pandas().array + result = pd_array.astype(data.dtype) + assert not isinstance(pd_array.dtype, ArrowDtype) + assert isinstance(result.dtype, ArrowDtype) + tm.assert_extension_array_equal(result, data) + + +def test_astype_float_from_non_pyarrow_str(): + # GH50430 + ser = pd.Series(["1.0"]) + result = ser.astype("float64[pyarrow]") + expected = pd.Series([1.0], dtype="float64[pyarrow]") + tm.assert_series_equal(result, expected) + + +def test_astype_errors_ignore(): + # GH 55399 + expected = pd.DataFrame({"col": [17000000]}, dtype="int32[pyarrow]") + result = expected.astype("float[pyarrow]", errors="ignore") + tm.assert_frame_equal(result, expected) + + +def test_to_numpy_with_defaults(data): + # GH49973 + result = data.to_numpy() + + pa_type = data._pa_array.type + if pa.types.is_duration(pa_type) or pa.types.is_timestamp(pa_type): + pytest.skip("Tested in test_to_numpy_temporal") + elif pa.types.is_date(pa_type): + expected = np.array(list(data)) + else: + expected = np.array(data._pa_array) + + if data._hasna and not is_numeric_dtype(data.dtype): + expected = expected.astype(object) + expected[pd.isna(data)] = pd.NA + + tm.assert_numpy_array_equal(result, expected) + + +def test_to_numpy_int_with_na(): + # GH51227: ensure to_numpy does not convert int to float + data = [1, None] + arr = pd.array(data, dtype="int64[pyarrow]") + result = arr.to_numpy() + expected = np.array([1, np.nan]) + assert isinstance(result[0], float) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize("na_val, exp", [(lib.no_default, np.nan), (1, 1)]) +def test_to_numpy_null_array(na_val, exp): + # GH#52443 + arr = pd.array([pd.NA, pd.NA], dtype="null[pyarrow]") + result = arr.to_numpy(dtype="float64", na_value=na_val) + expected = np.array([exp] * 2, dtype="float64") + tm.assert_numpy_array_equal(result, expected) + + +def test_to_numpy_null_array_no_dtype(): + # GH#52443 + arr = pd.array([pd.NA, pd.NA], dtype="null[pyarrow]") + result = arr.to_numpy(dtype=None) + expected = np.array([pd.NA] * 2, dtype="object") + tm.assert_numpy_array_equal(result, expected) + + +def test_to_numpy_without_dtype(): + # GH 54808 + arr = pd.array([True, pd.NA], dtype="boolean[pyarrow]") + result = arr.to_numpy(na_value=False) + expected = np.array([True, False], dtype=np.bool_) + tm.assert_numpy_array_equal(result, expected) + + arr = pd.array([1.0, pd.NA], dtype="float32[pyarrow]") + result = arr.to_numpy(na_value=0.0) + expected = np.array([1.0, 0.0], dtype=np.float32) + tm.assert_numpy_array_equal(result, expected) + + +def test_setitem_null_slice(data): + # GH50248 + orig = data.copy() + + result = orig.copy() + result[:] = data[0] + expected = ArrowExtensionArray._from_sequence( + [data[0]] * len(data), + dtype=data.dtype, + ) + tm.assert_extension_array_equal(result, expected) + + result = orig.copy() + result[:] = data[::-1] + expected = data[::-1] + tm.assert_extension_array_equal(result, expected) + + result = orig.copy() + result[:] = data.tolist() + expected = data + tm.assert_extension_array_equal(result, expected) + + +def test_setitem_invalid_dtype(data): + # GH50248 + pa_type = data._pa_array.type + if pa.types.is_string(pa_type) or pa.types.is_binary(pa_type): + fill_value = 123 + err = TypeError + msg = "Invalid value '123' for dtype" + elif ( + pa.types.is_integer(pa_type) + or pa.types.is_floating(pa_type) + or pa.types.is_boolean(pa_type) + ): + fill_value = "foo" + err = pa.ArrowInvalid + msg = "Could not convert" + else: + fill_value = "foo" + err = TypeError + msg = "Invalid value 'foo' for dtype" + with pytest.raises(err, match=msg): + data[:] = fill_value + + +def test_from_arrow_respecting_given_dtype(): + date_array = pa.array( + [pd.Timestamp("2019-12-31"), pd.Timestamp("2019-12-31")], type=pa.date32() + ) + result = date_array.to_pandas( + types_mapper={pa.date32(): ArrowDtype(pa.date64())}.get + ) + expected = pd.Series( + [pd.Timestamp("2019-12-31"), pd.Timestamp("2019-12-31")], + dtype=ArrowDtype(pa.date64()), + ) + tm.assert_series_equal(result, expected) + + +def test_from_arrow_respecting_given_dtype_unsafe(): + array = pa.array([1.5, 2.5], type=pa.float64()) + with tm.external_error_raised(pa.ArrowInvalid): + array.to_pandas(types_mapper={pa.float64(): ArrowDtype(pa.int64())}.get) + + +def test_round(): + dtype = "float64[pyarrow]" + + ser = pd.Series([0.0, 1.23, 2.56, pd.NA], dtype=dtype) + result = ser.round(1) + expected = pd.Series([0.0, 1.2, 2.6, pd.NA], dtype=dtype) + tm.assert_series_equal(result, expected) + + ser = pd.Series([123.4, pd.NA, 56.78], dtype=dtype) + result = ser.round(-1) + expected = pd.Series([120.0, pd.NA, 60.0], dtype=dtype) + tm.assert_series_equal(result, expected) + + +def test_searchsorted_with_na_raises(data_for_sorting, as_series): + # GH50447 + b, c, a = data_for_sorting + arr = data_for_sorting.take([2, 0, 1]) # to get [a, b, c] + arr[-1] = pd.NA + + if as_series: + arr = pd.Series(arr) + + msg = ( + "searchsorted requires array to be sorted, " + "which is impossible with NAs present." + ) + with pytest.raises(ValueError, match=msg): + arr.searchsorted(b) + + +def test_sort_values_dictionary(): + df = pd.DataFrame( + { + "a": pd.Series( + ["x", "y"], dtype=ArrowDtype(pa.dictionary(pa.int32(), pa.string())) + ), + "b": [1, 2], + }, + ) + expected = df.copy() + result = df.sort_values(by=["a", "b"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("pat", ["abc", "a[a-z]{2}"]) +def test_str_count(pat): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.count(pat) + expected = pd.Series([1, None], dtype=ArrowDtype(pa.int32())) + tm.assert_series_equal(result, expected) + + +def test_str_count_flags_unsupported(): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + with pytest.raises(NotImplementedError, match="count not"): + ser.str.count("abc", flags=1) + + +@pytest.mark.parametrize( + "side, str_func", [["left", "rjust"], ["right", "ljust"], ["both", "center"]] +) +def test_str_pad(side, str_func): + ser = pd.Series(["a", None], dtype=ArrowDtype(pa.string())) + result = ser.str.pad(width=3, side=side, fillchar="x") + expected = pd.Series( + [getattr("a", str_func)(3, "x"), None], dtype=ArrowDtype(pa.string()) + ) + tm.assert_series_equal(result, expected) + + +def test_str_pad_invalid_side(): + ser = pd.Series(["a", None], dtype=ArrowDtype(pa.string())) + with pytest.raises(ValueError, match="Invalid side: foo"): + ser.str.pad(3, "foo", "x") + + +@pytest.mark.parametrize( + "pat, case, na, regex, exp", + [ + ["ab", False, None, False, [True, None]], + ["Ab", True, None, False, [False, None]], + ["ab", False, True, False, [True, True]], + ["a[a-z]{1}", False, None, True, [True, None]], + ["A[a-z]{1}", True, None, True, [False, None]], + ], +) +def test_str_contains(pat, case, na, regex, exp): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.contains(pat, case=case, na=na, regex=regex) + expected = pd.Series(exp, dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +def test_str_contains_flags_unsupported(): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + with pytest.raises(NotImplementedError, match="contains not"): + ser.str.contains("a", flags=1) + + +@pytest.mark.parametrize( + "side, pat, na, exp", + [ + ["startswith", "ab", None, [True, None, False]], + ["startswith", "b", False, [False, False, False]], + ["endswith", "b", True, [False, True, False]], + ["endswith", "bc", None, [True, None, False]], + ["startswith", ("a", "e", "g"), None, [True, None, True]], + ["endswith", ("a", "c", "g"), None, [True, None, True]], + ["startswith", (), None, [False, None, False]], + ["endswith", (), None, [False, None, False]], + ], +) +def test_str_start_ends_with(side, pat, na, exp): + ser = pd.Series(["abc", None, "efg"], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, side)(pat, na=na) + expected = pd.Series(exp, dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("side", ("startswith", "endswith")) +def test_str_starts_ends_with_all_nulls_empty_tuple(side): + ser = pd.Series([None, None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, side)(()) + + # bool datatype preserved for all nulls. + expected = pd.Series([None, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "arg_name, arg", + [["pat", re.compile("b")], ["repl", str], ["case", False], ["flags", 1]], +) +def test_str_replace_unsupported(arg_name, arg): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + kwargs = {"pat": "b", "repl": "x", "regex": True} + kwargs[arg_name] = arg + with pytest.raises(NotImplementedError, match="replace is not supported"): + ser.str.replace(**kwargs) + + +@pytest.mark.parametrize( + "pat, repl, n, regex, exp", + [ + ["a", "x", -1, False, ["xbxc", None]], + ["a", "x", 1, False, ["xbac", None]], + ["[a-b]", "x", -1, True, ["xxxc", None]], + ], +) +def test_str_replace(pat, repl, n, regex, exp): + ser = pd.Series(["abac", None], dtype=ArrowDtype(pa.string())) + result = ser.str.replace(pat, repl, n=n, regex=regex) + expected = pd.Series(exp, dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_str_replace_negative_n(): + # GH 56404 + ser = pd.Series(["abc", "aaaaaa"], dtype=ArrowDtype(pa.string())) + actual = ser.str.replace("a", "", -3, True) + expected = pd.Series(["bc", ""], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(expected, actual) + + # Same bug for pyarrow-backed StringArray GH#59628 + ser2 = ser.astype(pd.StringDtype(storage="pyarrow")) + actual2 = ser2.str.replace("a", "", -3, True) + expected2 = expected.astype(ser2.dtype) + tm.assert_series_equal(expected2, actual2) + + ser3 = ser.astype(pd.StringDtype(storage="pyarrow", na_value=np.nan)) + actual3 = ser3.str.replace("a", "", -3, True) + expected3 = expected.astype(ser3.dtype) + tm.assert_series_equal(expected3, actual3) + + +def test_str_repeat_unsupported(): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + with pytest.raises(NotImplementedError, match="repeat is not"): + ser.str.repeat([1, 2]) + + +def test_str_repeat(): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.repeat(2) + expected = pd.Series(["abcabc", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "pat, case, na, exp", + [ + ["ab", False, None, [True, None]], + ["Ab", True, None, [False, None]], + ["bc", True, None, [False, None]], + ["ab", False, True, [True, True]], + ["a[a-z]{1}", False, None, [True, None]], + ["A[a-z]{1}", True, None, [False, None]], + ], +) +def test_str_match(pat, case, na, exp): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.match(pat, case=case, na=na) + expected = pd.Series(exp, dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "pat, case, na, exp", + [ + ["abc", False, None, [True, True, False, None]], + ["Abc", True, None, [False, False, False, None]], + ["bc", True, None, [False, False, False, None]], + ["ab", False, None, [True, True, False, None]], + ["a[a-z]{2}", False, None, [True, True, False, None]], + ["A[a-z]{1}", True, None, [False, False, False, None]], + # GH Issue: #56652 + ["abc$", False, None, [True, False, False, None]], + ["abc\\$", False, None, [False, True, False, None]], + ["Abc$", True, None, [False, False, False, None]], + ["Abc\\$", True, None, [False, False, False, None]], + ], +) +def test_str_fullmatch(pat, case, na, exp): + ser = pd.Series(["abc", "abc$", "$abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.match(pat, case=case, na=na) + expected = pd.Series(exp, dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "sub, start, end, exp, exp_typ", + [["ab", 0, None, [0, None], pa.int32()], ["bc", 1, 3, [1, None], pa.int64()]], +) +def test_str_find(sub, start, end, exp, exp_typ): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find(sub, start=start, end=end) + expected = pd.Series(exp, dtype=ArrowDtype(exp_typ)) + tm.assert_series_equal(result, expected) + + +def test_str_find_negative_start(): + # GH 56411 + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find(sub="b", start=-1000, end=3) + expected = pd.Series([1, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +def test_str_find_no_end(): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find("ab", start=1) + expected = pd.Series([-1, None], dtype="int64[pyarrow]") + tm.assert_series_equal(result, expected) + + +def test_str_find_negative_start_negative_end(): + # GH 56791 + ser = pd.Series(["abcdefg", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find(sub="d", start=-6, end=-3) + expected = pd.Series([3, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +def test_str_find_large_start(): + # GH 56791 + ser = pd.Series(["abcdefg", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find(sub="d", start=16) + expected = pd.Series([-1, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.skipif( + pa_version_under13p0, reason="https://github.com/apache/arrow/issues/36311" +) +@pytest.mark.parametrize("start", [-15, -3, 0, 1, 15, None]) +@pytest.mark.parametrize("end", [-15, -1, 0, 3, 15, None]) +@pytest.mark.parametrize("sub", ["", "az", "abce", "a", "caa"]) +def test_str_find_e2e(start, end, sub): + s = pd.Series( + ["abcaadef", "abc", "abcdeddefgj8292", "ab", "a", ""], + dtype=ArrowDtype(pa.string()), + ) + object_series = s.astype(pd.StringDtype(storage="python")) + result = s.str.find(sub, start, end) + expected = object_series.str.find(sub, start, end).astype(result.dtype) + tm.assert_series_equal(result, expected) + + arrow_str_series = s.astype(pd.StringDtype(storage="pyarrow")) + result2 = arrow_str_series.str.find(sub, start, end).astype(result.dtype) + tm.assert_series_equal(result2, expected) + + +def test_str_find_negative_start_negative_end_no_match(): + # GH 56791 + ser = pd.Series(["abcdefg", None], dtype=ArrowDtype(pa.string())) + result = ser.str.find(sub="d", start=-3, end=-6) + expected = pd.Series([-1, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "i, exp", + [ + [1, ["b", "e", None]], + [-1, ["c", "e", None]], + [2, ["c", None, None]], + [-3, ["a", None, None]], + [4, [None, None, None]], + ], +) +def test_str_get(i, exp): + ser = pd.Series(["abc", "de", None], dtype=ArrowDtype(pa.string())) + result = ser.str.get(i) + expected = pd.Series(exp, dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.xfail( + reason="TODO: StringMethods._validate should support Arrow list types", + raises=AttributeError, +) +def test_str_join(): + ser = pd.Series(ArrowExtensionArray(pa.array([list("abc"), list("123"), None]))) + result = ser.str.join("=") + expected = pd.Series(["a=b=c", "1=2=3", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_str_join_string_type(): + ser = pd.Series(ArrowExtensionArray(pa.array(["abc", "123", None]))) + result = ser.str.join("=") + expected = pd.Series(["a=b=c", "1=2=3", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "start, stop, step, exp", + [ + [None, 2, None, ["ab", None]], + [None, 2, 1, ["ab", None]], + [1, 3, 1, ["bc", None]], + (None, None, -1, ["dcba", None]), + ], +) +def test_str_slice(start, stop, step, exp): + ser = pd.Series(["abcd", None], dtype=ArrowDtype(pa.string())) + result = ser.str.slice(start, stop, step) + expected = pd.Series(exp, dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "start, stop, repl, exp", + [ + [1, 2, "x", ["axcd", None]], + [None, 2, "x", ["xcd", None]], + [None, 2, None, ["cd", None]], + ], +) +def test_str_slice_replace(start, stop, repl, exp): + ser = pd.Series(["abcd", None], dtype=ArrowDtype(pa.string())) + result = ser.str.slice_replace(start, stop, repl) + expected = pd.Series(exp, dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "value, method, exp", + [ + ["a1c", "isalnum", True], + ["!|,", "isalnum", False], + ["aaa", "isalpha", True], + ["!!!", "isalpha", False], + ["٠", "isdecimal", True], # noqa: RUF001 + ["~!", "isdecimal", False], + ["2", "isdigit", True], + ["~", "isdigit", False], + ["aaa", "islower", True], + ["aaA", "islower", False], + ["123", "isnumeric", True], + ["11I", "isnumeric", False], + [" ", "isspace", True], + ["", "isspace", False], + ["The That", "istitle", True], + ["the That", "istitle", False], + ["AAA", "isupper", True], + ["AAc", "isupper", False], + ], +) +def test_str_is_functions(value, method, exp): + ser = pd.Series([value, None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, method)() + expected = pd.Series([exp, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "method, exp", + [ + ["capitalize", "Abc def"], + ["title", "Abc Def"], + ["swapcase", "AbC Def"], + ["lower", "abc def"], + ["upper", "ABC DEF"], + ["casefold", "abc def"], + ], +) +def test_str_transform_functions(method, exp): + ser = pd.Series(["aBc dEF", None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, method)() + expected = pd.Series([exp, None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_str_len(): + ser = pd.Series(["abcd", None], dtype=ArrowDtype(pa.string())) + result = ser.str.len() + expected = pd.Series([4, None], dtype=ArrowDtype(pa.int32())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "method, to_strip, val", + [ + ["strip", None, " abc "], + ["strip", "x", "xabcx"], + ["lstrip", None, " abc"], + ["lstrip", "x", "xabc"], + ["rstrip", None, "abc "], + ["rstrip", "x", "abcx"], + ], +) +def test_str_strip(method, to_strip, val): + ser = pd.Series([val, None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, method)(to_strip=to_strip) + expected = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("val", ["abc123", "abc"]) +def test_str_removesuffix(val): + ser = pd.Series([val, None], dtype=ArrowDtype(pa.string())) + result = ser.str.removesuffix("123") + expected = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("val", ["123abc", "abc"]) +def test_str_removeprefix(val): + ser = pd.Series([val, None], dtype=ArrowDtype(pa.string())) + result = ser.str.removeprefix("123") + expected = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("errors", ["ignore", "strict"]) +@pytest.mark.parametrize( + "encoding, exp", + [ + ["utf8", b"abc"], + ["utf32", b"\xff\xfe\x00\x00a\x00\x00\x00b\x00\x00\x00c\x00\x00\x00"], + ], +) +def test_str_encode(errors, encoding, exp): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.encode(encoding, errors) + expected = pd.Series([exp, None], dtype=ArrowDtype(pa.binary())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("flags", [0, 2]) +def test_str_findall(flags): + ser = pd.Series(["abc", "efg", None], dtype=ArrowDtype(pa.string())) + result = ser.str.findall("b", flags=flags) + expected = pd.Series([["b"], [], None], dtype=ArrowDtype(pa.list_(pa.string()))) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["index", "rindex"]) +@pytest.mark.parametrize( + "start, end", + [ + [0, None], + [1, 4], + ], +) +def test_str_r_index(method, start, end): + ser = pd.Series(["abcba", None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, method)("c", start, end) + expected = pd.Series([2, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + with pytest.raises(ValueError, match="substring not found"): + getattr(ser.str, method)("foo", start, end) + + +@pytest.mark.parametrize("form", ["NFC", "NFKC"]) +def test_str_normalize(form): + ser = pd.Series(["abc", None], dtype=ArrowDtype(pa.string())) + result = ser.str.normalize(form) + expected = ser.copy() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "start, end", + [ + [0, None], + [1, 4], + ], +) +def test_str_rfind(start, end): + ser = pd.Series(["abcba", "foo", None], dtype=ArrowDtype(pa.string())) + result = ser.str.rfind("c", start, end) + expected = pd.Series([2, -1, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +def test_str_translate(): + ser = pd.Series(["abcba", None], dtype=ArrowDtype(pa.string())) + result = ser.str.translate({97: "b"}) + expected = pd.Series(["bbcbb", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_str_wrap(): + ser = pd.Series(["abcba", None], dtype=ArrowDtype(pa.string())) + result = ser.str.wrap(3) + expected = pd.Series(["abc\nba", None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_get_dummies(): + ser = pd.Series(["a|b", None, "a|c"], dtype=ArrowDtype(pa.string())) + result = ser.str.get_dummies() + expected = pd.DataFrame( + [[True, True, False], [False, False, False], [True, False, True]], + dtype=ArrowDtype(pa.bool_()), + columns=["a", "b", "c"], + ) + tm.assert_frame_equal(result, expected) + + +def test_str_partition(): + ser = pd.Series(["abcba", None], dtype=ArrowDtype(pa.string())) + result = ser.str.partition("b") + expected = pd.DataFrame( + [["a", "b", "cba"], [None, None, None]], dtype=ArrowDtype(pa.string()) + ) + tm.assert_frame_equal(result, expected) + + result = ser.str.partition("b", expand=False) + expected = pd.Series(ArrowExtensionArray(pa.array([["a", "b", "cba"], None]))) + tm.assert_series_equal(result, expected) + + result = ser.str.rpartition("b") + expected = pd.DataFrame( + [["abc", "b", "a"], [None, None, None]], dtype=ArrowDtype(pa.string()) + ) + tm.assert_frame_equal(result, expected) + + result = ser.str.rpartition("b", expand=False) + expected = pd.Series(ArrowExtensionArray(pa.array([["abc", "b", "a"], None]))) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["rsplit", "split"]) +def test_str_split_pat_none(method): + # GH 56271 + ser = pd.Series(["a1 cbc\nb", None], dtype=ArrowDtype(pa.string())) + result = getattr(ser.str, method)() + expected = pd.Series(ArrowExtensionArray(pa.array([["a1", "cbc", "b"], None]))) + tm.assert_series_equal(result, expected) + + +def test_str_split(): + # GH 52401 + ser = pd.Series(["a1cbcb", "a2cbcb", None], dtype=ArrowDtype(pa.string())) + result = ser.str.split("c") + expected = pd.Series( + ArrowExtensionArray(pa.array([["a1", "b", "b"], ["a2", "b", "b"], None])) + ) + tm.assert_series_equal(result, expected) + + result = ser.str.split("c", n=1) + expected = pd.Series( + ArrowExtensionArray(pa.array([["a1", "bcb"], ["a2", "bcb"], None])) + ) + tm.assert_series_equal(result, expected) + + result = ser.str.split("[1-2]", regex=True) + expected = pd.Series( + ArrowExtensionArray(pa.array([["a", "cbcb"], ["a", "cbcb"], None])) + ) + tm.assert_series_equal(result, expected) + + result = ser.str.split("[1-2]", regex=True, expand=True) + expected = pd.DataFrame( + { + 0: ArrowExtensionArray(pa.array(["a", "a", None])), + 1: ArrowExtensionArray(pa.array(["cbcb", "cbcb", None])), + } + ) + tm.assert_frame_equal(result, expected) + + result = ser.str.split("1", expand=True) + expected = pd.DataFrame( + { + 0: ArrowExtensionArray(pa.array(["a", "a2cbcb", None])), + 1: ArrowExtensionArray(pa.array(["cbcb", None, None])), + } + ) + tm.assert_frame_equal(result, expected) + + +def test_str_rsplit(): + # GH 52401 + ser = pd.Series(["a1cbcb", "a2cbcb", None], dtype=ArrowDtype(pa.string())) + result = ser.str.rsplit("c") + expected = pd.Series( + ArrowExtensionArray(pa.array([["a1", "b", "b"], ["a2", "b", "b"], None])) + ) + tm.assert_series_equal(result, expected) + + result = ser.str.rsplit("c", n=1) + expected = pd.Series( + ArrowExtensionArray(pa.array([["a1cb", "b"], ["a2cb", "b"], None])) + ) + tm.assert_series_equal(result, expected) + + result = ser.str.rsplit("c", n=1, expand=True) + expected = pd.DataFrame( + { + 0: ArrowExtensionArray(pa.array(["a1cb", "a2cb", None])), + 1: ArrowExtensionArray(pa.array(["b", "b", None])), + } + ) + tm.assert_frame_equal(result, expected) + + result = ser.str.rsplit("1", expand=True) + expected = pd.DataFrame( + { + 0: ArrowExtensionArray(pa.array(["a", "a2cbcb", None])), + 1: ArrowExtensionArray(pa.array(["cbcb", None, None])), + } + ) + tm.assert_frame_equal(result, expected) + + +def test_str_extract_non_symbolic(): + ser = pd.Series(["a1", "b2", "c3"], dtype=ArrowDtype(pa.string())) + with pytest.raises(ValueError, match="pat=.* must contain a symbolic group name."): + ser.str.extract(r"[ab](\d)") + + +@pytest.mark.parametrize("expand", [True, False]) +def test_str_extract(expand): + ser = pd.Series(["a1", "b2", "c3"], dtype=ArrowDtype(pa.string())) + result = ser.str.extract(r"(?P[ab])(?P\d)", expand=expand) + expected = pd.DataFrame( + { + "letter": ArrowExtensionArray(pa.array(["a", "b", None])), + "digit": ArrowExtensionArray(pa.array(["1", "2", None])), + } + ) + tm.assert_frame_equal(result, expected) + + +def test_str_extract_expand(): + ser = pd.Series(["a1", "b2", "c3"], dtype=ArrowDtype(pa.string())) + result = ser.str.extract(r"[ab](?P\d)", expand=True) + expected = pd.DataFrame( + { + "digit": ArrowExtensionArray(pa.array(["1", "2", None])), + } + ) + tm.assert_frame_equal(result, expected) + + result = ser.str.extract(r"[ab](?P\d)", expand=False) + expected = pd.Series(ArrowExtensionArray(pa.array(["1", "2", None])), name="digit") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("unit", ["ns", "us", "ms", "s"]) +def test_duration_from_strings_with_nat(unit): + # GH51175 + strings = ["1000", "NaT"] + pa_type = pa.duration(unit) + result = ArrowExtensionArray._from_sequence_of_strings(strings, dtype=pa_type) + expected = ArrowExtensionArray(pa.array([1000, None], type=pa_type)) + tm.assert_extension_array_equal(result, expected) + + +def test_unsupported_dt(data): + pa_dtype = data.dtype.pyarrow_dtype + if not pa.types.is_temporal(pa_dtype): + with pytest.raises( + AttributeError, match="Can only use .dt accessor with datetimelike values" + ): + pd.Series(data).dt + + +@pytest.mark.parametrize( + "prop, expected", + [ + ["year", 2023], + ["day", 2], + ["day_of_week", 0], + ["dayofweek", 0], + ["weekday", 0], + ["day_of_year", 2], + ["dayofyear", 2], + ["hour", 3], + ["minute", 4], + ["is_leap_year", False], + ["microsecond", 5], + ["month", 1], + ["nanosecond", 6], + ["quarter", 1], + ["second", 7], + ["date", date(2023, 1, 2)], + ["time", time(3, 4, 7, 5)], + ], +) +def test_dt_properties(prop, expected): + ser = pd.Series( + [ + pd.Timestamp( + year=2023, + month=1, + day=2, + hour=3, + minute=4, + second=7, + microsecond=5, + nanosecond=6, + ), + None, + ], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + result = getattr(ser.dt, prop) + exp_type = None + if isinstance(expected, date): + exp_type = pa.date32() + elif isinstance(expected, time): + exp_type = pa.time64("ns") + expected = pd.Series(ArrowExtensionArray(pa.array([expected, None], type=exp_type))) + tm.assert_series_equal(result, expected) + + +def test_dt_is_month_start_end(): + ser = pd.Series( + [ + datetime(year=2023, month=12, day=2, hour=3), + datetime(year=2023, month=1, day=1, hour=3), + datetime(year=2023, month=3, day=31, hour=3), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + result = ser.dt.is_month_start + expected = pd.Series([False, True, False, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + result = ser.dt.is_month_end + expected = pd.Series([False, False, True, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +def test_dt_is_year_start_end(): + ser = pd.Series( + [ + datetime(year=2023, month=12, day=31, hour=3), + datetime(year=2023, month=1, day=1, hour=3), + datetime(year=2023, month=3, day=31, hour=3), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + result = ser.dt.is_year_start + expected = pd.Series([False, True, False, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + result = ser.dt.is_year_end + expected = pd.Series([True, False, False, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +def test_dt_is_quarter_start_end(): + ser = pd.Series( + [ + datetime(year=2023, month=11, day=30, hour=3), + datetime(year=2023, month=1, day=1, hour=3), + datetime(year=2023, month=3, day=31, hour=3), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + result = ser.dt.is_quarter_start + expected = pd.Series([False, True, False, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + result = ser.dt.is_quarter_end + expected = pd.Series([False, False, True, None], dtype=ArrowDtype(pa.bool_())) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["days_in_month", "daysinmonth"]) +def test_dt_days_in_month(method): + ser = pd.Series( + [ + datetime(year=2023, month=3, day=30, hour=3), + datetime(year=2023, month=4, day=1, hour=3), + datetime(year=2023, month=2, day=3, hour=3), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + result = getattr(ser.dt, method) + expected = pd.Series([31, 30, 28, None], dtype=ArrowDtype(pa.int64())) + tm.assert_series_equal(result, expected) + + +def test_dt_normalize(): + ser = pd.Series( + [ + datetime(year=2023, month=3, day=30), + datetime(year=2023, month=4, day=1, hour=3), + datetime(year=2023, month=2, day=3, hour=23, minute=59, second=59), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + result = ser.dt.normalize() + expected = pd.Series( + [ + datetime(year=2023, month=3, day=30), + datetime(year=2023, month=4, day=1), + datetime(year=2023, month=2, day=3), + None, + ], + dtype=ArrowDtype(pa.timestamp("us")), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("unit", ["us", "ns"]) +def test_dt_time_preserve_unit(unit): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp(unit)), + ) + assert ser.dt.unit == unit + + result = ser.dt.time + expected = pd.Series( + ArrowExtensionArray(pa.array([time(3, 0), None], type=pa.time64(unit))) + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("tz", [None, "UTC", "US/Pacific"]) +def test_dt_tz(tz): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns", tz=tz)), + ) + result = ser.dt.tz + assert result == timezones.maybe_get_tz(tz) + + +def test_dt_isocalendar(): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + result = ser.dt.isocalendar() + expected = pd.DataFrame( + [[2023, 1, 1], [0, 0, 0]], + columns=["year", "week", "day"], + dtype="int64[pyarrow]", + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "method, exp", [["day_name", "Sunday"], ["month_name", "January"]] +) +def test_dt_day_month_name(method, exp, request): + # GH 52388 + _require_timezone_database(request) + + ser = pd.Series([datetime(2023, 1, 1), None], dtype=ArrowDtype(pa.timestamp("ms"))) + result = getattr(ser.dt, method)() + expected = pd.Series([exp, None], dtype=ArrowDtype(pa.string())) + tm.assert_series_equal(result, expected) + + +def test_dt_strftime(request): + _require_timezone_database(request) + + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + result = ser.dt.strftime("%Y-%m-%dT%H:%M:%S") + expected = pd.Series( + ["2023-01-02T03:00:00.000000000", None], dtype=ArrowDtype(pa.string()) + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["ceil", "floor", "round"]) +def test_dt_roundlike_tz_options_not_supported(method): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + with pytest.raises(NotImplementedError, match="ambiguous is not supported."): + getattr(ser.dt, method)("1h", ambiguous="NaT") + + with pytest.raises(NotImplementedError, match="nonexistent is not supported."): + getattr(ser.dt, method)("1h", nonexistent="NaT") + + +@pytest.mark.parametrize("method", ["ceil", "floor", "round"]) +def test_dt_roundlike_unsupported_freq(method): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + with pytest.raises(ValueError, match="freq='1B' is not supported"): + getattr(ser.dt, method)("1B") + + with pytest.raises(ValueError, match="Must specify a valid frequency: None"): + getattr(ser.dt, method)(None) + + +@pytest.mark.parametrize("freq", ["D", "h", "min", "s", "ms", "us", "ns"]) +@pytest.mark.parametrize("method", ["ceil", "floor", "round"]) +def test_dt_ceil_year_floor(freq, method): + ser = pd.Series( + [datetime(year=2023, month=1, day=1), None], + ) + pa_dtype = ArrowDtype(pa.timestamp("ns")) + expected = getattr(ser.dt, method)(f"1{freq}").astype(pa_dtype) + result = getattr(ser.astype(pa_dtype).dt, method)(f"1{freq}") + tm.assert_series_equal(result, expected) + + +def test_dt_to_pydatetime(): + # GH 51859 + data = [datetime(2022, 1, 1), datetime(2023, 1, 1)] + ser = pd.Series(data, dtype=ArrowDtype(pa.timestamp("ns"))) + + msg = "The behavior of ArrowTemporalProperties.to_pydatetime is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = ser.dt.to_pydatetime() + expected = np.array(data, dtype=object) + tm.assert_numpy_array_equal(result, expected) + assert all(type(res) is datetime for res in result) + + msg = "The behavior of DatetimeProperties.to_pydatetime is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = ser.astype("datetime64[ns]").dt.to_pydatetime() + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize("date_type", [32, 64]) +def test_dt_to_pydatetime_date_error(date_type): + # GH 52812 + ser = pd.Series( + [date(2022, 12, 31)], + dtype=ArrowDtype(getattr(pa, f"date{date_type}")()), + ) + msg = "The behavior of ArrowTemporalProperties.to_pydatetime is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pytest.raises(ValueError, match="to_pydatetime cannot be called with"): + ser.dt.to_pydatetime() + + +def test_dt_tz_localize_unsupported_tz_options(): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + with pytest.raises(NotImplementedError, match="ambiguous='NaT' is not supported"): + ser.dt.tz_localize("UTC", ambiguous="NaT") + + with pytest.raises(NotImplementedError, match="nonexistent='NaT' is not supported"): + ser.dt.tz_localize("UTC", nonexistent="NaT") + + +def test_dt_tz_localize_none(): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns", tz="US/Pacific")), + ) + result = ser.dt.tz_localize(None) + expected = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("unit", ["us", "ns"]) +def test_dt_tz_localize(unit, request): + _require_timezone_database(request) + + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp(unit)), + ) + result = ser.dt.tz_localize("US/Pacific") + exp_data = pa.array( + [datetime(year=2023, month=1, day=2, hour=3), None], type=pa.timestamp(unit) + ) + exp_data = pa.compute.assume_timezone(exp_data, "US/Pacific") + expected = pd.Series(ArrowExtensionArray(exp_data)) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "nonexistent, exp_date", + [ + ["shift_forward", datetime(year=2023, month=3, day=12, hour=3)], + ["shift_backward", pd.Timestamp("2023-03-12 01:59:59.999999999")], + ], +) +def test_dt_tz_localize_nonexistent(nonexistent, exp_date, request): + _require_timezone_database(request) + + ser = pd.Series( + [datetime(year=2023, month=3, day=12, hour=2, minute=30), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + result = ser.dt.tz_localize("US/Pacific", nonexistent=nonexistent) + exp_data = pa.array([exp_date, None], type=pa.timestamp("ns")) + exp_data = pa.compute.assume_timezone(exp_data, "US/Pacific") + expected = pd.Series(ArrowExtensionArray(exp_data)) + tm.assert_series_equal(result, expected) + + +def test_dt_tz_convert_not_tz_raises(): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + with pytest.raises(TypeError, match="Cannot convert tz-naive timestamps"): + ser.dt.tz_convert("UTC") + + +def test_dt_tz_convert_none(): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns", "US/Pacific")), + ) + result = ser.dt.tz_convert(None) + expected = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp("ns")), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("unit", ["us", "ns"]) +def test_dt_tz_convert(unit): + ser = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp(unit, "US/Pacific")), + ) + result = ser.dt.tz_convert("US/Eastern") + expected = pd.Series( + [datetime(year=2023, month=1, day=2, hour=3), None], + dtype=ArrowDtype(pa.timestamp(unit, "US/Eastern")), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["timestamp[ms][pyarrow]", "duration[ms][pyarrow]"]) +def test_as_unit(dtype): + # GH 52284 + ser = pd.Series([1000, None], dtype=dtype) + result = ser.dt.as_unit("ns") + expected = ser.astype(dtype.replace("ms", "ns")) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "prop, expected", + [ + ["days", 1], + ["seconds", 2], + ["microseconds", 3], + ["nanoseconds", 4], + ], +) +def test_dt_timedelta_properties(prop, expected): + # GH 52284 + ser = pd.Series( + [ + pd.Timedelta( + days=1, + seconds=2, + microseconds=3, + nanoseconds=4, + ), + None, + ], + dtype=ArrowDtype(pa.duration("ns")), + ) + result = getattr(ser.dt, prop) + expected = pd.Series( + ArrowExtensionArray(pa.array([expected, None], type=pa.int32())) + ) + tm.assert_series_equal(result, expected) + + +def test_dt_timedelta_total_seconds(): + # GH 52284 + ser = pd.Series( + [ + pd.Timedelta( + days=1, + seconds=2, + microseconds=3, + nanoseconds=4, + ), + None, + ], + dtype=ArrowDtype(pa.duration("ns")), + ) + result = ser.dt.total_seconds() + expected = pd.Series( + ArrowExtensionArray(pa.array([86402.000003, None], type=pa.float64())) + ) + tm.assert_series_equal(result, expected) + + +def test_dt_to_pytimedelta(): + # GH 52284 + data = [timedelta(1, 2, 3), timedelta(1, 2, 4)] + ser = pd.Series(data, dtype=ArrowDtype(pa.duration("ns"))) + + result = ser.dt.to_pytimedelta() + expected = np.array(data, dtype=object) + tm.assert_numpy_array_equal(result, expected) + assert all(type(res) is timedelta for res in result) + + expected = ser.astype("timedelta64[ns]").dt.to_pytimedelta() + tm.assert_numpy_array_equal(result, expected) + + +def test_dt_components(): + # GH 52284 + ser = pd.Series( + [ + pd.Timedelta( + days=1, + seconds=2, + microseconds=3, + nanoseconds=4, + ), + None, + ], + dtype=ArrowDtype(pa.duration("ns")), + ) + result = ser.dt.components + expected = pd.DataFrame( + [[1, 0, 0, 2, 0, 3, 4], [None, None, None, None, None, None, None]], + columns=[ + "days", + "hours", + "minutes", + "seconds", + "milliseconds", + "microseconds", + "nanoseconds", + ], + dtype="int32[pyarrow]", + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("skipna", [True, False]) +def test_boolean_reduce_series_all_null(all_boolean_reductions, skipna): + # GH51624 + ser = pd.Series([None], dtype="float64[pyarrow]") + result = getattr(ser, all_boolean_reductions)(skipna=skipna) + if skipna: + expected = all_boolean_reductions == "all" + else: + expected = pd.NA + assert result is expected + + +def test_from_sequence_of_strings_boolean(): + true_strings = ["true", "TRUE", "True", "1", "1.0"] + false_strings = ["false", "FALSE", "False", "0", "0.0"] + nulls = [None] + strings = true_strings + false_strings + nulls + bools = ( + [True] * len(true_strings) + [False] * len(false_strings) + [None] * len(nulls) + ) + + result = ArrowExtensionArray._from_sequence_of_strings(strings, dtype=pa.bool_()) + expected = pd.array(bools, dtype="boolean[pyarrow]") + tm.assert_extension_array_equal(result, expected) + + strings = ["True", "foo"] + with pytest.raises(pa.ArrowInvalid, match="Failed to parse"): + ArrowExtensionArray._from_sequence_of_strings(strings, dtype=pa.bool_()) + + +def test_concat_empty_arrow_backed_series(dtype): + # GH#51734 + ser = pd.Series([], dtype=dtype) + expected = ser.copy() + result = pd.concat([ser[np.array([], dtype=np.bool_)]]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["string", "string[pyarrow]"]) +def test_series_from_string_array(dtype): + arr = pa.array("the quick brown fox".split()) + ser = pd.Series(arr, dtype=dtype) + expected = pd.Series(ArrowExtensionArray(arr), dtype=dtype) + tm.assert_series_equal(ser, expected) + + +# _data was renamed to _pa_data +class OldArrowExtensionArray(ArrowExtensionArray): + def __getstate__(self): + state = super().__getstate__() + state["_data"] = state.pop("_pa_array") + return state + + +def test_pickle_old_arrowextensionarray(): + data = pa.array([1]) + expected = OldArrowExtensionArray(data) + result = pickle.loads(pickle.dumps(expected)) + tm.assert_extension_array_equal(result, expected) + assert result._pa_array == pa.chunked_array(data) + assert not hasattr(result, "_data") + + +def test_setitem_boolean_replace_with_mask_segfault(): + # GH#52059 + N = 145_000 + arr = ArrowExtensionArray(pa.chunked_array([np.ones((N,), dtype=np.bool_)])) + expected = arr.copy() + arr[np.zeros((N,), dtype=np.bool_)] = False + assert arr._pa_array == expected._pa_array + + +@pytest.mark.parametrize( + "data, arrow_dtype", + [ + ([b"a", b"b"], pa.large_binary()), + (["a", "b"], pa.large_string()), + ], +) +def test_conversion_large_dtypes_from_numpy_array(data, arrow_dtype): + dtype = ArrowDtype(arrow_dtype) + result = pd.array(np.array(data), dtype=dtype) + expected = pd.array(data, dtype=dtype) + tm.assert_extension_array_equal(result, expected) + + +def test_concat_null_array(): + df = pd.DataFrame({"a": [None, None]}, dtype=ArrowDtype(pa.null())) + df2 = pd.DataFrame({"a": [0, 1]}, dtype="int64[pyarrow]") + + result = pd.concat([df, df2], ignore_index=True) + expected = pd.DataFrame({"a": [None, None, 0, 1]}, dtype="int64[pyarrow]") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.ALL_INT_PYARROW_DTYPES + tm.FLOAT_PYARROW_DTYPES) +def test_describe_numeric_data(pa_type): + # GH 52470 + data = pd.Series([1, 2, 3], dtype=ArrowDtype(pa_type)) + result = data.describe() + expected = pd.Series( + [3, 2, 1, 1, 1.5, 2.0, 2.5, 3], + dtype=ArrowDtype(pa.float64()), + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.TIMEDELTA_PYARROW_DTYPES) +def test_describe_timedelta_data(pa_type): + # GH53001 + data = pd.Series(range(1, 10), dtype=ArrowDtype(pa_type)) + result = data.describe() + expected = pd.Series( + [9] + pd.to_timedelta([5, 2, 1, 3, 5, 7, 9], unit=pa_type.unit).tolist(), + dtype=object, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.DATETIME_PYARROW_DTYPES) +def test_describe_datetime_data(pa_type): + # GH53001 + data = pd.Series(range(1, 10), dtype=ArrowDtype(pa_type)) + result = data.describe() + expected = pd.Series( + [9] + + [ + pd.Timestamp(v, tz=pa_type.tz, unit=pa_type.unit) + for v in [5, 1, 3, 5, 7, 9] + ], + dtype=object, + index=["count", "mean", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_quantile_temporal(pa_type): + # GH52678 + data = [1, 2, 3] + ser = pd.Series(data, dtype=ArrowDtype(pa_type)) + result = ser.quantile(0.1) + expected = ser[0] + assert result == expected + + +def test_date32_repr(): + # GH48238 + arrow_dt = pa.array([date.fromisoformat("2020-01-01")], type=pa.date32()) + ser = pd.Series(arrow_dt, dtype=ArrowDtype(arrow_dt.type)) + assert repr(ser) == "0 2020-01-01\ndtype: date32[day][pyarrow]" + + +def test_duration_overflow_from_ndarray_containing_nat(): + # GH52843 + data_ts = pd.to_datetime([1, None]) + data_td = pd.to_timedelta([1, None]) + ser_ts = pd.Series(data_ts, dtype=ArrowDtype(pa.timestamp("ns"))) + ser_td = pd.Series(data_td, dtype=ArrowDtype(pa.duration("ns"))) + result = ser_ts + ser_td + expected = pd.Series([2, None], dtype=ArrowDtype(pa.timestamp("ns"))) + tm.assert_series_equal(result, expected) + + +def test_infer_dtype_pyarrow_dtype(data, request): + res = lib.infer_dtype(data) + assert res != "unknown-array" + + if data._hasna and res in ["floating", "datetime64", "timedelta64"]: + mark = pytest.mark.xfail( + reason="in infer_dtype pd.NA is not ignored in these cases " + "even with skipna=True in the list(data) check below" + ) + request.applymarker(mark) + + assert res == lib.infer_dtype(list(data), skipna=True) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_from_sequence_temporal(pa_type): + # GH 53171 + val = 3 + unit = pa_type.unit + if pa.types.is_duration(pa_type): + seq = [pd.Timedelta(val, unit=unit).as_unit(unit)] + else: + seq = [pd.Timestamp(val, unit=unit, tz=pa_type.tz).as_unit(unit)] + + result = ArrowExtensionArray._from_sequence(seq, dtype=pa_type) + expected = ArrowExtensionArray(pa.array([val], type=pa_type)) + tm.assert_extension_array_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_setitem_temporal(pa_type): + # GH 53171 + unit = pa_type.unit + if pa.types.is_duration(pa_type): + val = pd.Timedelta(1, unit=unit).as_unit(unit) + else: + val = pd.Timestamp(1, unit=unit, tz=pa_type.tz).as_unit(unit) + + arr = ArrowExtensionArray(pa.array([1, 2, 3], type=pa_type)) + + result = arr.copy() + result[:] = val + expected = ArrowExtensionArray(pa.array([1, 1, 1], type=pa_type)) + tm.assert_extension_array_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_arithmetic_temporal(pa_type, request): + # GH 53171 + arr = ArrowExtensionArray(pa.array([1, 2, 3], type=pa_type)) + unit = pa_type.unit + result = arr - pd.Timedelta(1, unit=unit).as_unit(unit) + expected = ArrowExtensionArray(pa.array([0, 1, 2], type=pa_type)) + tm.assert_extension_array_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_comparison_temporal(pa_type): + # GH 53171 + unit = pa_type.unit + if pa.types.is_duration(pa_type): + val = pd.Timedelta(1, unit=unit).as_unit(unit) + else: + val = pd.Timestamp(1, unit=unit, tz=pa_type.tz).as_unit(unit) + + arr = ArrowExtensionArray(pa.array([1, 2, 3], type=pa_type)) + + result = arr > val + expected = ArrowExtensionArray(pa.array([False, True, True], type=pa.bool_())) + tm.assert_extension_array_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_getitem_temporal(pa_type): + # GH 53326 + arr = ArrowExtensionArray(pa.array([1, 2, 3], type=pa_type)) + result = arr[1] + if pa.types.is_duration(pa_type): + expected = pd.Timedelta(2, unit=pa_type.unit).as_unit(pa_type.unit) + assert isinstance(result, pd.Timedelta) + else: + expected = pd.Timestamp(2, unit=pa_type.unit, tz=pa_type.tz).as_unit( + pa_type.unit + ) + assert isinstance(result, pd.Timestamp) + assert result.unit == expected.unit + assert result == expected + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES +) +def test_iter_temporal(pa_type): + # GH 53326 + arr = ArrowExtensionArray(pa.array([1, None], type=pa_type)) + result = list(arr) + if pa.types.is_duration(pa_type): + expected = [ + pd.Timedelta(1, unit=pa_type.unit).as_unit(pa_type.unit), + pd.NA, + ] + assert isinstance(result[0], pd.Timedelta) + else: + expected = [ + pd.Timestamp(1, unit=pa_type.unit, tz=pa_type.tz).as_unit(pa_type.unit), + pd.NA, + ] + assert isinstance(result[0], pd.Timestamp) + assert result[0].unit == expected[0].unit + assert result == expected + + +def test_groupby_series_size_returns_pa_int(data): + # GH 54132 + ser = pd.Series(data[:3], index=["a", "a", "b"]) + result = ser.groupby(level=0).size() + expected = pd.Series([2, 1], dtype="int64[pyarrow]", index=["a", "b"]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "pa_type", tm.DATETIME_PYARROW_DTYPES + tm.TIMEDELTA_PYARROW_DTYPES, ids=repr +) +@pytest.mark.parametrize("dtype", [None, object]) +def test_to_numpy_temporal(pa_type, dtype): + # GH 53326 + # GH 55997: Return datetime64/timedelta64 types with NaT if possible + arr = ArrowExtensionArray(pa.array([1, None], type=pa_type)) + result = arr.to_numpy(dtype=dtype) + if pa.types.is_duration(pa_type): + value = pd.Timedelta(1, unit=pa_type.unit).as_unit(pa_type.unit) + else: + value = pd.Timestamp(1, unit=pa_type.unit, tz=pa_type.tz).as_unit(pa_type.unit) + + if dtype == object or (pa.types.is_timestamp(pa_type) and pa_type.tz is not None): + if dtype == object: + na = pd.NA + else: + na = pd.NaT + expected = np.array([value, na], dtype=object) + assert result[0].unit == value.unit + else: + na = pa_type.to_pandas_dtype().type("nat", pa_type.unit) + value = value.to_numpy() + expected = np.array([value, na]) + assert np.datetime_data(result[0])[0] == pa_type.unit + tm.assert_numpy_array_equal(result, expected) + + +def test_groupby_count_return_arrow_dtype(data_missing): + df = pd.DataFrame({"A": [1, 1], "B": data_missing, "C": data_missing}) + result = df.groupby("A").count() + expected = pd.DataFrame( + [[1, 1]], + index=pd.Index([1], name="A"), + columns=["B", "C"], + dtype="int64[pyarrow]", + ) + tm.assert_frame_equal(result, expected) + + +def test_fixed_size_list(): + # GH#55000 + ser = pd.Series( + [[1, 2], [3, 4]], dtype=ArrowDtype(pa.list_(pa.int64(), list_size=2)) + ) + result = ser.dtype.type + assert result == list + + +def test_arrowextensiondtype_dataframe_repr(): + # GH 54062 + df = pd.DataFrame( + pd.period_range("2012", periods=3), + columns=["col"], + dtype=ArrowDtype(ArrowPeriodType("D")), + ) + result = repr(df) + # TODO: repr value may not be expected; address how + # pyarrow.ExtensionType values are displayed + expected = " col\n0 15340\n1 15341\n2 15342" + assert result == expected + + +def test_pow_missing_operand(): + # GH 55512 + k = pd.Series([2, None], dtype="int64[pyarrow]") + result = k.pow(None, fill_value=3) + expected = pd.Series([8, None], dtype="int64[pyarrow]") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.TIMEDELTA_PYARROW_DTYPES) +def test_duration_fillna_numpy(pa_type): + # GH 54707 + ser1 = pd.Series([None, 2], dtype=ArrowDtype(pa_type)) + ser2 = pd.Series(np.array([1, 3], dtype=f"m8[{pa_type.unit}]")) + result = ser1.fillna(ser2) + expected = pd.Series([1, 2], dtype=ArrowDtype(pa_type)) + tm.assert_series_equal(result, expected) + + +def test_comparison_not_propagating_arrow_error(): + # GH#54944 + a = pd.Series([1 << 63], dtype="uint64[pyarrow]") + b = pd.Series([None], dtype="int64[pyarrow]") + with pytest.raises(pa.lib.ArrowInvalid, match="Integer value"): + a < b + + +def test_factorize_chunked_dictionary(): + # GH 54844 + pa_array = pa.chunked_array( + [pa.array(["a"]).dictionary_encode(), pa.array(["b"]).dictionary_encode()] + ) + ser = pd.Series(ArrowExtensionArray(pa_array)) + res_indices, res_uniques = ser.factorize() + exp_indicies = np.array([0, 1], dtype=np.intp) + exp_uniques = pd.Index(ArrowExtensionArray(pa_array.combine_chunks())) + tm.assert_numpy_array_equal(res_indices, exp_indicies) + tm.assert_index_equal(res_uniques, exp_uniques) + + +def test_dictionary_astype_categorical(): + # GH#56672 + arrs = [ + pa.array(np.array(["a", "x", "c", "a"])).dictionary_encode(), + pa.array(np.array(["a", "d", "c"])).dictionary_encode(), + ] + ser = pd.Series(ArrowExtensionArray(pa.chunked_array(arrs))) + result = ser.astype("category") + categories = pd.Index(["a", "x", "c", "d"], dtype=ArrowDtype(pa.string())) + expected = pd.Series( + ["a", "x", "c", "a", "a", "d", "c"], + dtype=pd.CategoricalDtype(categories=categories), + ) + tm.assert_series_equal(result, expected) + + +def test_arrow_floordiv(): + # GH 55561 + a = pd.Series([-7], dtype="int64[pyarrow]") + b = pd.Series([4], dtype="int64[pyarrow]") + expected = pd.Series([-2], dtype="int64[pyarrow]") + result = a // b + tm.assert_series_equal(result, expected) + + +def test_arrow_floordiv_large_values(): + # GH 56645 + a = pd.Series([1425801600000000000], dtype="int64[pyarrow]") + expected = pd.Series([1425801600000], dtype="int64[pyarrow]") + result = a // 1_000_000 + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["int64[pyarrow]", "uint64[pyarrow]"]) +def test_arrow_floordiv_large_integral_result(dtype): + # GH 56676 + a = pd.Series([18014398509481983], dtype=dtype) + result = a // 1 + tm.assert_series_equal(result, a) + + +@pytest.mark.parametrize("pa_type", tm.SIGNED_INT_PYARROW_DTYPES) +def test_arrow_floordiv_larger_divisor(pa_type): + # GH 56676 + dtype = ArrowDtype(pa_type) + a = pd.Series([-23], dtype=dtype) + result = a // 24 + expected = pd.Series([-1], dtype=dtype) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.SIGNED_INT_PYARROW_DTYPES) +def test_arrow_floordiv_integral_invalid(pa_type): + # GH 56676 + min_value = np.iinfo(pa_type.to_pandas_dtype()).min + a = pd.Series([min_value], dtype=ArrowDtype(pa_type)) + with pytest.raises(pa.lib.ArrowInvalid, match="overflow|not in range"): + a // -1 + with pytest.raises(pa.lib.ArrowInvalid, match="divide by zero"): + a // 0 + + +@pytest.mark.parametrize("dtype", tm.FLOAT_PYARROW_DTYPES_STR_REPR) +def test_arrow_floordiv_floating_0_divisor(dtype): + # GH 56676 + a = pd.Series([2], dtype=dtype) + result = a // 0 + expected = pd.Series([float("inf")], dtype=dtype) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["float64", "datetime64[ns]", "timedelta64[ns]"]) +def test_astype_int_with_null_to_numpy_dtype(dtype): + # GH 57093 + ser = pd.Series([1, None], dtype="int64[pyarrow]") + result = ser.astype(dtype) + expected = pd.Series([1, None], dtype=dtype) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("pa_type", tm.ALL_INT_PYARROW_DTYPES) +def test_arrow_integral_floordiv_large_values(pa_type): + # GH 56676 + max_value = np.iinfo(pa_type.to_pandas_dtype()).max + dtype = ArrowDtype(pa_type) + a = pd.Series([max_value], dtype=dtype) + b = pd.Series([1], dtype=dtype) + result = a // b + tm.assert_series_equal(result, a) + + +@pytest.mark.parametrize("dtype", ["int64[pyarrow]", "uint64[pyarrow]"]) +def test_arrow_true_division_large_divisor(dtype): + # GH 56706 + a = pd.Series([0], dtype=dtype) + b = pd.Series([18014398509481983], dtype=dtype) + expected = pd.Series([0], dtype="float64[pyarrow]") + result = a / b + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["int64[pyarrow]", "uint64[pyarrow]"]) +def test_arrow_floor_division_large_divisor(dtype): + # GH 56706 + a = pd.Series([0], dtype=dtype) + b = pd.Series([18014398509481983], dtype=dtype) + expected = pd.Series([0], dtype=dtype) + result = a // b + tm.assert_series_equal(result, expected) + + +def test_string_to_datetime_parsing_cast(): + # GH 56266 + string_dates = ["2020-01-01 04:30:00", "2020-01-02 00:00:00", "2020-01-03 00:00:00"] + result = pd.Series(string_dates, dtype="timestamp[ns][pyarrow]") + expected = pd.Series( + ArrowExtensionArray(pa.array(pd.to_datetime(string_dates), from_pandas=True)) + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.skipif( + pa_version_under13p0, reason="pairwise_diff_checked not implemented in pyarrow" +) +def test_interpolate_not_numeric(data): + if not data.dtype._is_numeric: + ser = pd.Series(data) + msg = re.escape(f"Cannot interpolate with {ser.dtype} dtype") + with pytest.raises(TypeError, match=msg): + pd.Series(data).interpolate() + + +def test_string_to_time_parsing_cast(): + # GH 56463 + string_times = ["11:41:43.076160"] + result = pd.Series(string_times, dtype="time64[us][pyarrow]") + expected = pd.Series( + ArrowExtensionArray(pa.array([time(11, 41, 43, 76160)], from_pandas=True)) + ) + tm.assert_series_equal(result, expected) + + +def test_to_numpy_float(): + # GH#56267 + ser = pd.Series([32, 40, None], dtype="float[pyarrow]") + result = ser.astype("float64") + expected = pd.Series([32, 40, np.nan], dtype="float64") + tm.assert_series_equal(result, expected) + + +def test_to_numpy_timestamp_to_int(): + # GH 55997 + ser = pd.Series(["2020-01-01 04:30:00"], dtype="timestamp[ns][pyarrow]") + result = ser.to_numpy(dtype=np.int64) + expected = np.array([1577853000000000000]) + tm.assert_numpy_array_equal(result, expected) + + +def test_map_numeric_na_action(): + ser = pd.Series([32, 40, None], dtype="int64[pyarrow]") + result = ser.map(lambda x: 42, na_action="ignore") + expected = pd.Series([42.0, 42.0, np.nan], dtype="float64") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..135ea67c924d0b04a28ad8a3eba4f39d43a0b44a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_categorical.py @@ -0,0 +1,200 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +import string + +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +import pandas as pd +from pandas import Categorical +import pandas._testing as tm +from pandas.api.types import CategoricalDtype +from pandas.tests.extension import base + + +def make_data(): + while True: + values = np.random.default_rng(2).choice(list(string.ascii_letters), size=100) + # ensure we meet the requirements + # 1. first two not null + # 2. first and second are different + if values[0] != values[1]: + break + return values + + +@pytest.fixture +def dtype(): + return CategoricalDtype() + + +@pytest.fixture +def data(): + """Length-100 array for this type. + + * data[0] and data[1] should both be non missing + * data[0] and data[1] should not be equal + """ + return Categorical(make_data()) + + +@pytest.fixture +def data_missing(): + """Length 2 array with [NA, Valid]""" + return Categorical([np.nan, "A"]) + + +@pytest.fixture +def data_for_sorting(): + return Categorical(["A", "B", "C"], categories=["C", "A", "B"], ordered=True) + + +@pytest.fixture +def data_missing_for_sorting(): + return Categorical(["A", None, "B"], categories=["B", "A"], ordered=True) + + +@pytest.fixture +def data_for_grouping(): + return Categorical(["a", "a", None, None, "b", "b", "a", "c"]) + + +class TestCategorical(base.ExtensionTests): + @pytest.mark.xfail(reason="Memory usage doesn't match") + def test_memory_usage(self, data): + # TODO: Is this deliberate? + super().test_memory_usage(data) + + def test_contains(self, data, data_missing): + # GH-37867 + # na value handling in Categorical.__contains__ is deprecated. + # See base.BaseInterFaceTests.test_contains for more details. + + na_value = data.dtype.na_value + # ensure data without missing values + data = data[~data.isna()] + + # first elements are non-missing + assert data[0] in data + assert data_missing[0] in data_missing + + # check the presence of na_value + assert na_value in data_missing + assert na_value not in data + + # Categoricals can contain other nan-likes than na_value + for na_value_obj in tm.NULL_OBJECTS: + if na_value_obj is na_value: + continue + assert na_value_obj not in data + # this section suffers from super method + if not using_string_dtype(): + assert na_value_obj in data_missing + + def test_empty(self, dtype): + cls = dtype.construct_array_type() + result = cls._empty((4,), dtype=dtype) + + assert isinstance(result, cls) + # the dtype we passed is not initialized, so will not match the + # dtype on our result. + assert result.dtype == CategoricalDtype([]) + + @pytest.mark.skip(reason="Backwards compatibility") + def test_getitem_scalar(self, data): + # CategoricalDtype.type isn't "correct" since it should + # be a parent of the elements (object). But don't want + # to break things by changing. + super().test_getitem_scalar(data) + + @pytest.mark.xfail(reason="Unobserved categories included") + def test_value_counts(self, all_data, dropna): + return super().test_value_counts(all_data, dropna) + + def test_combine_add(self, data_repeated): + # GH 20825 + # When adding categoricals in combine, result is a string + orig_data1, orig_data2 = data_repeated(2) + s1 = pd.Series(orig_data1) + s2 = pd.Series(orig_data2) + result = s1.combine(s2, lambda x1, x2: x1 + x2) + expected = pd.Series( + [a + b for (a, b) in zip(list(orig_data1), list(orig_data2))] + ) + tm.assert_series_equal(result, expected) + + val = s1.iloc[0] + result = s1.combine(val, lambda x1, x2: x1 + x2) + expected = pd.Series([a + val for a in list(orig_data1)]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data, na_action): + result = data.map(lambda x: x, na_action=na_action) + tm.assert_extension_array_equal(result, data) + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators, request): + # frame & scalar + op_name = all_arithmetic_operators + if op_name == "__rmod__": + request.applymarker( + pytest.mark.xfail( + reason="rmod never called when string is first argument" + ) + ) + super().test_arith_frame_with_scalar(data, op_name) + + def test_arith_series_with_scalar(self, data, all_arithmetic_operators, request): + op_name = all_arithmetic_operators + if op_name == "__rmod__": + request.applymarker( + pytest.mark.xfail( + reason="rmod never called when string is first argument" + ) + ) + super().test_arith_series_with_scalar(data, op_name) + + def _compare_other(self, ser: pd.Series, data, op, other): + op_name = f"__{op.__name__}__" + if op_name not in ["__eq__", "__ne__"]: + msg = "Unordered Categoricals can only compare equality or not" + with pytest.raises(TypeError, match=msg): + op(data, other) + else: + return super()._compare_other(ser, data, op, other) + + @pytest.mark.xfail(reason="Categorical overrides __repr__") + @pytest.mark.parametrize("size", ["big", "small"]) + def test_array_repr(self, data, size): + super().test_array_repr(data, size) + + @pytest.mark.xfail(reason="TBD") + @pytest.mark.parametrize("as_index", [True, False]) + def test_groupby_extension_agg(self, as_index, data_for_grouping): + super().test_groupby_extension_agg(as_index, data_for_grouping) + + +class Test2DCompat(base.NDArrayBacked2DTests): + def test_repr_2d(self, data): + # Categorical __repr__ doesn't include "Categorical", so we need + # to special-case + res = repr(data.reshape(1, -1)) + assert res.count("\nCategories") == 1 + + res = repr(data.reshape(-1, 1)) + assert res.count("\nCategories") == 1 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_common.py new file mode 100644 index 0000000000000000000000000000000000000000..5eda0f00f54cae1002b0e7e60e9de765870a9ad8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_common.py @@ -0,0 +1,105 @@ +import numpy as np +import pytest + +from pandas.core.dtypes import dtypes +from pandas.core.dtypes.common import is_extension_array_dtype + +import pandas as pd +import pandas._testing as tm +from pandas.core.arrays import ExtensionArray + + +class DummyDtype(dtypes.ExtensionDtype): + pass + + +class DummyArray(ExtensionArray): + def __init__(self, data) -> None: + self.data = data + + def __array__(self, dtype=None, copy=None): + return self.data + + @property + def dtype(self): + return DummyDtype() + + def astype(self, dtype, copy=True): + # we don't support anything but a single dtype + if isinstance(dtype, DummyDtype): + if copy: + return type(self)(self.data) + return self + elif not copy: + return np.asarray(self, dtype=dtype) + else: + return np.array(self, dtype=dtype, copy=copy) + + +class TestExtensionArrayDtype: + @pytest.mark.parametrize( + "values", + [ + pd.Categorical([]), + pd.Categorical([]).dtype, + pd.Series(pd.Categorical([])), + DummyDtype(), + DummyArray(np.array([1, 2])), + ], + ) + def test_is_extension_array_dtype(self, values): + assert is_extension_array_dtype(values) + + @pytest.mark.parametrize("values", [np.array([]), pd.Series(np.array([]))]) + def test_is_not_extension_array_dtype(self, values): + assert not is_extension_array_dtype(values) + + +def test_astype(): + arr = DummyArray(np.array([1, 2, 3])) + expected = np.array([1, 2, 3], dtype=object) + + result = arr.astype(object) + tm.assert_numpy_array_equal(result, expected) + + result = arr.astype("object") + tm.assert_numpy_array_equal(result, expected) + + +def test_astype_no_copy(): + arr = DummyArray(np.array([1, 2, 3], dtype=np.int64)) + result = arr.astype(arr.dtype, copy=False) + + assert arr is result + + result = arr.astype(arr.dtype) + assert arr is not result + + +@pytest.mark.parametrize("dtype", [dtypes.CategoricalDtype(), dtypes.IntervalDtype()]) +def test_is_extension_array_dtype(dtype): + assert isinstance(dtype, dtypes.ExtensionDtype) + assert is_extension_array_dtype(dtype) + + +class CapturingStringArray(pd.arrays.StringArray): + """Extend StringArray to capture arguments to __getitem__""" + + def __getitem__(self, item): + self.last_item_arg = item + return super().__getitem__(item) + + +def test_ellipsis_index(): + # GH#42430 1D slices over extension types turn into N-dimensional slices + # over ExtensionArrays + df = pd.DataFrame( + {"col1": CapturingStringArray(np.array(["hello", "world"], dtype=object))} + ) + _ = df.iloc[:1] + + # String comparison because there's no native way to compare slices. + # Before the fix for GH#42430, last_item_arg would get set to the 2D slice + # (Ellipsis, slice(None, 1, None)) + out = df["col1"].array.last_item_arg + assert str(out) == "slice(None, 1, None)" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_datetime.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_datetime.py new file mode 100644 index 0000000000000000000000000000000000000000..7f70957007dad9cc589e6f589c48555fd90f527d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_datetime.py @@ -0,0 +1,144 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +import numpy as np +import pytest + +from pandas.core.dtypes.dtypes import DatetimeTZDtype + +import pandas as pd +import pandas._testing as tm +from pandas.core.arrays import DatetimeArray +from pandas.tests.extension import base + + +@pytest.fixture(params=["US/Central"]) +def dtype(request): + return DatetimeTZDtype(unit="ns", tz=request.param) + + +@pytest.fixture +def data(dtype): + data = DatetimeArray._from_sequence( + pd.date_range("2000", periods=100, tz=dtype.tz), dtype=dtype + ) + return data + + +@pytest.fixture +def data_missing(dtype): + return DatetimeArray._from_sequence( + np.array(["NaT", "2000-01-01"], dtype="datetime64[ns]"), dtype=dtype + ) + + +@pytest.fixture +def data_for_sorting(dtype): + a = pd.Timestamp("2000-01-01") + b = pd.Timestamp("2000-01-02") + c = pd.Timestamp("2000-01-03") + return DatetimeArray._from_sequence( + np.array([b, c, a], dtype="datetime64[ns]"), dtype=dtype + ) + + +@pytest.fixture +def data_missing_for_sorting(dtype): + a = pd.Timestamp("2000-01-01") + b = pd.Timestamp("2000-01-02") + return DatetimeArray._from_sequence( + np.array([b, "NaT", a], dtype="datetime64[ns]"), dtype=dtype + ) + + +@pytest.fixture +def data_for_grouping(dtype): + """ + Expected to be like [B, B, NA, NA, A, A, B, C] + + Where A < B < C and NA is missing + """ + a = pd.Timestamp("2000-01-01") + b = pd.Timestamp("2000-01-02") + c = pd.Timestamp("2000-01-03") + na = "NaT" + return DatetimeArray._from_sequence( + np.array([b, b, na, na, a, a, b, c], dtype="datetime64[ns]"), dtype=dtype + ) + + +@pytest.fixture +def na_cmp(): + def cmp(a, b): + return a is pd.NaT and a is b + + return cmp + + +# ---------------------------------------------------------------------------- +class TestDatetimeArray(base.ExtensionTests): + def _get_expected_exception(self, op_name, obj, other): + if op_name in ["__sub__", "__rsub__"]: + return None + return super()._get_expected_exception(op_name, obj, other) + + def _supports_accumulation(self, ser, op_name: str) -> bool: + return op_name in ["cummin", "cummax"] + + def _supports_reduction(self, obj, op_name: str) -> bool: + return op_name in ["min", "max", "median", "mean", "std", "any", "all"] + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_boolean(self, data, all_boolean_reductions, skipna): + meth = all_boolean_reductions + msg = f"'{meth}' with datetime64 dtypes is deprecated and will raise in" + with tm.assert_produces_warning( + FutureWarning, match=msg, check_stacklevel=False + ): + super().test_reduce_series_boolean(data, all_boolean_reductions, skipna) + + def test_series_constructor(self, data): + # Series construction drops any .freq attr + data = data._with_freq(None) + super().test_series_constructor(data) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data, na_action): + result = data.map(lambda x: x, na_action=na_action) + tm.assert_extension_array_equal(result, data) + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + if op_name in ["median", "mean", "std"]: + alt = ser.astype("int64") + + res_op = getattr(ser, op_name) + exp_op = getattr(alt, op_name) + result = res_op(skipna=skipna) + expected = exp_op(skipna=skipna) + if op_name in ["mean", "median"]: + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" + # has no attribute "tz" + tz = ser.dtype.tz # type: ignore[union-attr] + expected = pd.Timestamp(expected, tz=tz) + else: + expected = pd.Timedelta(expected) + tm.assert_almost_equal(result, expected) + + else: + return super().check_reduce(ser, op_name, skipna) + + +class Test2DCompat(base.NDArrayBacked2DTests): + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_extension.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_extension.py new file mode 100644 index 0000000000000000000000000000000000000000..1ed626cd5108081eff7156275f439ececdf28241 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_extension.py @@ -0,0 +1,26 @@ +""" +Tests for behavior if an author does *not* implement EA methods. +""" +import numpy as np +import pytest + +from pandas.core.arrays import ExtensionArray + + +class MyEA(ExtensionArray): + def __init__(self, values) -> None: + self._values = values + + +@pytest.fixture +def data(): + arr = np.arange(10) + return MyEA(arr) + + +class TestExtensionArray: + def test_errors(self, data, all_arithmetic_operators): + # invalid ops + op_name = all_arithmetic_operators + with pytest.raises(AttributeError): + getattr(data, op_name) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_interval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_interval.py new file mode 100644 index 0000000000000000000000000000000000000000..6292e6051aa90e4a79420c4bc6ba8ef94d27940a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_interval.py @@ -0,0 +1,123 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np +import pytest + +from pandas.core.dtypes.dtypes import IntervalDtype + +from pandas import Interval +from pandas.core.arrays import IntervalArray +from pandas.tests.extension import base + +if TYPE_CHECKING: + import pandas as pd + + +def make_data(): + N = 100 + left_array = np.random.default_rng(2).uniform(size=N).cumsum() + right_array = left_array + np.random.default_rng(2).uniform(size=N) + return [Interval(left, right) for left, right in zip(left_array, right_array)] + + +@pytest.fixture +def dtype(): + return IntervalDtype() + + +@pytest.fixture +def data(): + """Length-100 PeriodArray for semantics test.""" + return IntervalArray(make_data()) + + +@pytest.fixture +def data_missing(): + """Length 2 array with [NA, Valid]""" + return IntervalArray.from_tuples([None, (0, 1)]) + + +@pytest.fixture +def data_for_twos(): + pytest.skip("Interval is not a numeric dtype") + + +@pytest.fixture +def data_for_sorting(): + return IntervalArray.from_tuples([(1, 2), (2, 3), (0, 1)]) + + +@pytest.fixture +def data_missing_for_sorting(): + return IntervalArray.from_tuples([(1, 2), None, (0, 1)]) + + +@pytest.fixture +def data_for_grouping(): + a = (0, 1) + b = (1, 2) + c = (2, 3) + return IntervalArray.from_tuples([b, b, None, None, a, a, b, c]) + + +class TestIntervalArray(base.ExtensionTests): + divmod_exc = TypeError + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + return op_name in ["min", "max"] + + @pytest.mark.xfail( + reason="Raises with incorrect message bc it disallows *all* listlikes " + "instead of just wrong-length listlikes" + ) + def test_fillna_length_mismatch(self, data_missing): + super().test_fillna_length_mismatch(data_missing) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + def test_hash_pandas_object(self, data): + super().test_hash_pandas_object(data) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + def test_hash_pandas_object_works(self, data, as_frame): + super().test_hash_pandas_object_works(data, as_frame) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + @pytest.mark.parametrize("engine", ["c", "python"]) + def test_EA_types(self, engine, data, request): + super().test_EA_types(engine, data, request) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + def test_astype_str(self, data): + super().test_astype_str(data) + + +# TODO: either belongs in tests.arrays.interval or move into base tests. +def test_fillna_non_scalar_raises(data_missing): + msg = "can only insert Interval objects and NA into an IntervalArray" + with pytest.raises(TypeError, match=msg): + data_missing.fillna([1, 1]) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_masked.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_masked.py new file mode 100644 index 0000000000000000000000000000000000000000..651f783b44d1f788b57df4fc1ff0c8b2b33bc0f3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_masked.py @@ -0,0 +1,417 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +import warnings + +import numpy as np +import pytest + +from pandas.compat import ( + IS64, + is_platform_windows, +) +from pandas.compat.numpy import np_version_gt2 + +from pandas.core.dtypes.common import ( + is_float_dtype, + is_signed_integer_dtype, + is_unsigned_integer_dtype, +) + +import pandas as pd +import pandas._testing as tm +from pandas.core.arrays.boolean import BooleanDtype +from pandas.core.arrays.floating import ( + Float32Dtype, + Float64Dtype, +) +from pandas.core.arrays.integer import ( + Int8Dtype, + Int16Dtype, + Int32Dtype, + Int64Dtype, + UInt8Dtype, + UInt16Dtype, + UInt32Dtype, + UInt64Dtype, +) +from pandas.tests.extension import base + +is_windows_or_32bit = (is_platform_windows() and not np_version_gt2) or not IS64 + +pytestmark = [ + pytest.mark.filterwarnings( + "ignore:invalid value encountered in divide:RuntimeWarning" + ), + pytest.mark.filterwarnings("ignore:Mean of empty slice:RuntimeWarning"), + # overflow only relevant for Floating dtype cases cases + pytest.mark.filterwarnings("ignore:overflow encountered in reduce:RuntimeWarning"), +] + + +def make_data(): + return list(range(1, 9)) + [pd.NA] + list(range(10, 98)) + [pd.NA] + [99, 100] + + +def make_float_data(): + return ( + list(np.arange(0.1, 0.9, 0.1)) + + [pd.NA] + + list(np.arange(1, 9.8, 0.1)) + + [pd.NA] + + [9.9, 10.0] + ) + + +def make_bool_data(): + return [True, False] * 4 + [np.nan] + [True, False] * 44 + [np.nan] + [True, False] + + +@pytest.fixture( + params=[ + Int8Dtype, + Int16Dtype, + Int32Dtype, + Int64Dtype, + UInt8Dtype, + UInt16Dtype, + UInt32Dtype, + UInt64Dtype, + Float32Dtype, + Float64Dtype, + BooleanDtype, + ] +) +def dtype(request): + return request.param() + + +@pytest.fixture +def data(dtype): + if dtype.kind == "f": + data = make_float_data() + elif dtype.kind == "b": + data = make_bool_data() + else: + data = make_data() + return pd.array(data, dtype=dtype) + + +@pytest.fixture +def data_for_twos(dtype): + if dtype.kind == "b": + return pd.array(np.ones(100), dtype=dtype) + return pd.array(np.ones(100) * 2, dtype=dtype) + + +@pytest.fixture +def data_missing(dtype): + if dtype.kind == "f": + return pd.array([pd.NA, 0.1], dtype=dtype) + elif dtype.kind == "b": + return pd.array([np.nan, True], dtype=dtype) + return pd.array([pd.NA, 1], dtype=dtype) + + +@pytest.fixture +def data_for_sorting(dtype): + if dtype.kind == "f": + return pd.array([0.1, 0.2, 0.0], dtype=dtype) + elif dtype.kind == "b": + return pd.array([True, True, False], dtype=dtype) + return pd.array([1, 2, 0], dtype=dtype) + + +@pytest.fixture +def data_missing_for_sorting(dtype): + if dtype.kind == "f": + return pd.array([0.1, pd.NA, 0.0], dtype=dtype) + elif dtype.kind == "b": + return pd.array([True, np.nan, False], dtype=dtype) + return pd.array([1, pd.NA, 0], dtype=dtype) + + +@pytest.fixture +def na_cmp(): + # we are pd.NA + return lambda x, y: x is pd.NA and y is pd.NA + + +@pytest.fixture +def data_for_grouping(dtype): + if dtype.kind == "f": + b = 0.1 + a = 0.0 + c = 0.2 + elif dtype.kind == "b": + b = True + a = False + c = b + else: + b = 1 + a = 0 + c = 2 + + na = pd.NA + return pd.array([b, b, na, na, a, a, b, c], dtype=dtype) + + +class TestMaskedArrays(base.ExtensionTests): + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data_missing, na_action): + result = data_missing.map(lambda x: x, na_action=na_action) + if data_missing.dtype == Float32Dtype(): + # map roundtrips through objects, which converts to float64 + expected = data_missing.to_numpy(dtype="float64", na_value=np.nan) + else: + expected = data_missing.to_numpy() + tm.assert_numpy_array_equal(result, expected) + + def test_map_na_action_ignore(self, data_missing_for_sorting): + zero = data_missing_for_sorting[2] + result = data_missing_for_sorting.map(lambda x: zero, na_action="ignore") + if data_missing_for_sorting.dtype.kind == "b": + expected = np.array([False, pd.NA, False], dtype=object) + else: + expected = np.array([zero, np.nan, zero]) + tm.assert_numpy_array_equal(result, expected) + + def _get_expected_exception(self, op_name, obj, other): + try: + dtype = tm.get_dtype(obj) + except AttributeError: + # passed arguments reversed + dtype = tm.get_dtype(other) + + if dtype.kind == "b": + if op_name.strip("_").lstrip("r") in ["pow", "truediv", "floordiv"]: + # match behavior with non-masked bool dtype + return NotImplementedError + elif op_name in ["__sub__", "__rsub__"]: + # exception message would include "numpy boolean subtract"" + return TypeError + return None + return None + + def _cast_pointwise_result(self, op_name: str, obj, other, pointwise_result): + sdtype = tm.get_dtype(obj) + expected = pointwise_result + + if op_name in ("eq", "ne", "le", "ge", "lt", "gt"): + return expected.astype("boolean") + + if sdtype.kind in "iu": + if op_name in ("__rtruediv__", "__truediv__", "__div__"): + with warnings.catch_warnings(): + warnings.filterwarnings( + "ignore", + "Downcasting object dtype arrays", + category=FutureWarning, + ) + filled = expected.fillna(np.nan) + expected = filled.astype("Float64") + else: + # combine method result in 'biggest' (int64) dtype + expected = expected.astype(sdtype) + elif sdtype.kind == "b": + if op_name in ( + "__floordiv__", + "__rfloordiv__", + "__pow__", + "__rpow__", + "__mod__", + "__rmod__", + ): + # combine keeps boolean type + expected = expected.astype("Int8") + + elif op_name in ("__truediv__", "__rtruediv__"): + # combine with bools does not generate the correct result + # (numpy behaviour for div is to regard the bools as numeric) + op = self.get_op_from_name(op_name) + expected = self._combine(obj.astype(float), other, op) + expected = expected.astype("Float64") + + if op_name == "__rpow__": + # for rpow, combine does not propagate NaN + result = getattr(obj, op_name)(other) + expected[result.isna()] = np.nan + else: + # combine method result in 'biggest' (float64) dtype + expected = expected.astype(sdtype) + return expected + + def test_divmod_series_array(self, data, data_for_twos, request): + if data.dtype.kind == "b": + mark = pytest.mark.xfail( + reason="Inconsistency between floordiv and divmod; we raise for " + "floordiv but not for divmod. This matches what we do for " + "non-masked bool dtype." + ) + request.applymarker(mark) + super().test_divmod_series_array(data, data_for_twos) + + def test_combine_le(self, data_repeated): + # TODO: patching self is a bad pattern here + orig_data1, orig_data2 = data_repeated(2) + if orig_data1.dtype.kind == "b": + self._combine_le_expected_dtype = "boolean" + else: + # TODO: can we make this boolean? + self._combine_le_expected_dtype = object + super().test_combine_le(data_repeated) + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + if op_name in ["any", "all"] and ser.dtype.kind != "b": + pytest.skip(reason="Tested in tests/reductions/test_reductions.py") + return True + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + # overwrite to ensure pd.NA is tested instead of np.nan + # https://github.com/pandas-dev/pandas/issues/30958 + + cmp_dtype = "int64" + if ser.dtype.kind == "f": + # Item "dtype[Any]" of "Union[dtype[Any], ExtensionDtype]" has + # no attribute "numpy_dtype" + cmp_dtype = ser.dtype.numpy_dtype # type: ignore[union-attr] + elif ser.dtype.kind == "b": + if op_name in ["min", "max"]: + cmp_dtype = "bool" + + # TODO: prod with integer dtypes does *not* match the result we would + # get if we used object for cmp_dtype. In that cae the object result + # is a large integer while the non-object case overflows and returns 0 + alt = ser.dropna().astype(cmp_dtype) + if op_name == "count": + result = getattr(ser, op_name)() + expected = getattr(alt, op_name)() + else: + result = getattr(ser, op_name)(skipna=skipna) + expected = getattr(alt, op_name)(skipna=skipna) + if not skipna and ser.isna().any() and op_name not in ["any", "all"]: + expected = pd.NA + tm.assert_almost_equal(result, expected) + + def _get_expected_reduction_dtype(self, arr, op_name: str, skipna: bool): + if is_float_dtype(arr.dtype): + cmp_dtype = arr.dtype.name + elif op_name in ["mean", "median", "var", "std", "skew"]: + cmp_dtype = "Float64" + elif op_name in ["max", "min"]: + cmp_dtype = arr.dtype.name + elif arr.dtype in ["Int64", "UInt64"]: + cmp_dtype = arr.dtype.name + elif is_signed_integer_dtype(arr.dtype): + # TODO: Why does Window Numpy 2.0 dtype depend on skipna? + cmp_dtype = ( + "Int32" + if (is_platform_windows() and (not np_version_gt2 or not skipna)) + or not IS64 + else "Int64" + ) + elif is_unsigned_integer_dtype(arr.dtype): + cmp_dtype = ( + "UInt32" + if (is_platform_windows() and (not np_version_gt2 or not skipna)) + or not IS64 + else "UInt64" + ) + elif arr.dtype.kind == "b": + if op_name in ["mean", "median", "var", "std", "skew"]: + cmp_dtype = "Float64" + elif op_name in ["min", "max"]: + cmp_dtype = "boolean" + elif op_name in ["sum", "prod"]: + cmp_dtype = ( + "Int32" + if (is_platform_windows() and (not np_version_gt2 or not skipna)) + or not IS64 + else "Int64" + ) + else: + raise TypeError("not supposed to reach this") + else: + raise TypeError("not supposed to reach this") + return cmp_dtype + + def _supports_accumulation(self, ser: pd.Series, op_name: str) -> bool: + return True + + def check_accumulate(self, ser: pd.Series, op_name: str, skipna: bool): + # overwrite to ensure pd.NA is tested instead of np.nan + # https://github.com/pandas-dev/pandas/issues/30958 + length = 64 + if is_windows_or_32bit: + # Item "ExtensionDtype" of "Union[dtype[Any], ExtensionDtype]" has + # no attribute "itemsize" + if not ser.dtype.itemsize == 8: # type: ignore[union-attr] + length = 32 + + if ser.dtype.name.startswith("U"): + expected_dtype = f"UInt{length}" + elif ser.dtype.name.startswith("I"): + expected_dtype = f"Int{length}" + elif ser.dtype.name.startswith("F"): + # Incompatible types in assignment (expression has type + # "Union[dtype[Any], ExtensionDtype]", variable has type "str") + expected_dtype = ser.dtype # type: ignore[assignment] + elif ser.dtype.kind == "b": + if op_name in ("cummin", "cummax"): + expected_dtype = "boolean" + else: + expected_dtype = f"Int{length}" + + if expected_dtype == "Float32" and op_name == "cumprod" and skipna: + # TODO: xfail? + pytest.skip( + f"Float32 precision lead to large differences with op {op_name} " + f"and skipna={skipna}" + ) + + if op_name == "cumsum": + result = getattr(ser, op_name)(skipna=skipna) + expected = pd.Series( + pd.array( + getattr(ser.astype("float64"), op_name)(skipna=skipna), + dtype=expected_dtype, + ) + ) + tm.assert_series_equal(result, expected) + elif op_name in ["cummax", "cummin"]: + result = getattr(ser, op_name)(skipna=skipna) + expected = pd.Series( + pd.array( + getattr(ser.astype("float64"), op_name)(skipna=skipna), + dtype=ser.dtype, + ) + ) + tm.assert_series_equal(result, expected) + elif op_name == "cumprod": + result = getattr(ser[:12], op_name)(skipna=skipna) + expected = pd.Series( + pd.array( + getattr(ser[:12].astype("float64"), op_name)(skipna=skipna), + dtype=expected_dtype, + ) + ) + tm.assert_series_equal(result, expected) + + else: + raise NotImplementedError(f"{op_name} not supported") + + +class Test2DCompat(base.Dim2CompatTests): + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_numpy.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_numpy.py new file mode 100644 index 0000000000000000000000000000000000000000..e38144f4c615b22c864a5b385e3b73fd74374f83 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_numpy.py @@ -0,0 +1,426 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +Note: we do not bother with base.BaseIndexTests because NumpyExtensionArray +will never be held in an Index. +""" +import numpy as np +import pytest + +from pandas.core.dtypes.dtypes import NumpyEADtype + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import is_object_dtype +from pandas.core.arrays.numpy_ import NumpyExtensionArray +from pandas.tests.extension import base + +orig_assert_attr_equal = tm.assert_attr_equal + + +def _assert_attr_equal(attr: str, left, right, obj: str = "Attributes"): + """ + patch tm.assert_attr_equal so NumpyEADtype("object") is closed enough to + np.dtype("object") + """ + if attr == "dtype": + lattr = getattr(left, "dtype", None) + rattr = getattr(right, "dtype", None) + if isinstance(lattr, NumpyEADtype) and not isinstance(rattr, NumpyEADtype): + left = left.astype(lattr.numpy_dtype) + elif isinstance(rattr, NumpyEADtype) and not isinstance(lattr, NumpyEADtype): + right = right.astype(rattr.numpy_dtype) + + orig_assert_attr_equal(attr, left, right, obj) + + +@pytest.fixture(params=["float", "object"]) +def dtype(request): + return NumpyEADtype(np.dtype(request.param)) + + +@pytest.fixture +def allow_in_pandas(monkeypatch): + """ + A monkeypatch to tells pandas to let us in. + + By default, passing a NumpyExtensionArray to an index / series / frame + constructor will unbox that NumpyExtensionArray to an ndarray, and treat + it as a non-EA column. We don't want people using EAs without + reason. + + The mechanism for this is a check against ABCNumpyExtensionArray + in each constructor. + + But, for testing, we need to allow them in pandas. So we patch + the _typ of NumpyExtensionArray, so that we evade the ABCNumpyExtensionArray + check. + """ + with monkeypatch.context() as m: + m.setattr(NumpyExtensionArray, "_typ", "extension") + m.setattr(tm.asserters, "assert_attr_equal", _assert_attr_equal) + yield + + +@pytest.fixture +def data(allow_in_pandas, dtype): + if dtype.numpy_dtype == "object": + return pd.Series([(i,) for i in range(100)]).array + return NumpyExtensionArray(np.arange(1, 101, dtype=dtype._dtype)) + + +@pytest.fixture +def data_missing(allow_in_pandas, dtype): + if dtype.numpy_dtype == "object": + return NumpyExtensionArray(np.array([np.nan, (1,)], dtype=object)) + return NumpyExtensionArray(np.array([np.nan, 1.0])) + + +@pytest.fixture +def na_cmp(): + def cmp(a, b): + return np.isnan(a) and np.isnan(b) + + return cmp + + +@pytest.fixture +def data_for_sorting(allow_in_pandas, dtype): + """Length-3 array with a known sort order. + + This should be three items [B, C, A] with + A < B < C + """ + if dtype.numpy_dtype == "object": + # Use an empty tuple for first element, then remove, + # to disable np.array's shape inference. + return NumpyExtensionArray(np.array([(), (2,), (3,), (1,)], dtype=object)[1:]) + return NumpyExtensionArray(np.array([1, 2, 0])) + + +@pytest.fixture +def data_missing_for_sorting(allow_in_pandas, dtype): + """Length-3 array with a known sort order. + + This should be three items [B, NA, A] with + A < B and NA missing. + """ + if dtype.numpy_dtype == "object": + return NumpyExtensionArray(np.array([(1,), np.nan, (0,)], dtype=object)) + return NumpyExtensionArray(np.array([1, np.nan, 0])) + + +@pytest.fixture +def data_for_grouping(allow_in_pandas, dtype): + """Data for factorization, grouping, and unique tests. + + Expected to be like [B, B, NA, NA, A, A, B, C] + + Where A < B < C and NA is missing + """ + if dtype.numpy_dtype == "object": + a, b, c = (1,), (2,), (3,) + else: + a, b, c = np.arange(3) + return NumpyExtensionArray( + np.array([b, b, np.nan, np.nan, a, a, b, c], dtype=dtype.numpy_dtype) + ) + + +@pytest.fixture +def data_for_twos(dtype): + if dtype.kind == "O": + pytest.skip(f"{dtype} is not a numeric dtype") + arr = np.ones(100) * 2 + return NumpyExtensionArray._from_sequence(arr, dtype=dtype) + + +@pytest.fixture +def skip_numpy_object(dtype, request): + """ + Tests for NumpyExtensionArray with nested data. Users typically won't create + these objects via `pd.array`, but they can show up through `.array` + on a Series with nested data. Many of the base tests fail, as they aren't + appropriate for nested data. + + This fixture allows these tests to be skipped when used as a usefixtures + marker to either an individual test or a test class. + """ + if dtype == "object": + mark = pytest.mark.xfail(reason="Fails for object dtype") + request.applymarker(mark) + + +skip_nested = pytest.mark.usefixtures("skip_numpy_object") + + +class TestNumpyExtensionArray(base.ExtensionTests): + @pytest.mark.skip(reason="We don't register our dtype") + # We don't want to register. This test should probably be split in two. + def test_from_dtype(self, data): + pass + + @skip_nested + def test_series_constructor_scalar_with_index(self, data, dtype): + # ValueError: Length of passed values is 1, index implies 3. + super().test_series_constructor_scalar_with_index(data, dtype) + + def test_check_dtype(self, data, request, using_infer_string): + if data.dtype.numpy_dtype == "object": + request.applymarker( + pytest.mark.xfail( + reason=f"NumpyExtensionArray expectedly clashes with a " + f"NumPy name: {data.dtype.numpy_dtype}" + ) + ) + super().test_check_dtype(data) + + def test_is_not_object_type(self, dtype, request): + if dtype.numpy_dtype == "object": + # Different from BaseDtypeTests.test_is_not_object_type + # because NumpyEADtype(object) is an object type + assert is_object_dtype(dtype) + else: + super().test_is_not_object_type(dtype) + + @skip_nested + def test_getitem_scalar(self, data): + # AssertionError + super().test_getitem_scalar(data) + + @skip_nested + def test_shift_fill_value(self, data): + # np.array shape inference. Shift implementation fails. + super().test_shift_fill_value(data) + + @skip_nested + def test_fillna_copy_frame(self, data_missing): + # The "scalar" for this array isn't a scalar. + super().test_fillna_copy_frame(data_missing) + + @skip_nested + def test_fillna_copy_series(self, data_missing): + # The "scalar" for this array isn't a scalar. + super().test_fillna_copy_series(data_missing) + + @skip_nested + def test_searchsorted(self, data_for_sorting, as_series): + # TODO: NumpyExtensionArray.searchsorted calls ndarray.searchsorted which + # isn't quite what we want in nested data cases. Instead we need to + # adapt something like libindex._bin_search. + super().test_searchsorted(data_for_sorting, as_series) + + @pytest.mark.xfail(reason="NumpyExtensionArray.diff may fail on dtype") + def test_diff(self, data, periods): + return super().test_diff(data, periods) + + def test_insert(self, data, request): + if data.dtype.numpy_dtype == object: + mark = pytest.mark.xfail(reason="Dimension mismatch in np.concatenate") + request.applymarker(mark) + + super().test_insert(data) + + @skip_nested + def test_insert_invalid(self, data, invalid_scalar): + # NumpyExtensionArray[object] can hold anything, so skip + super().test_insert_invalid(data, invalid_scalar) + + divmod_exc = None + series_scalar_exc = None + frame_scalar_exc = None + series_array_exc = None + + def test_divmod(self, data): + divmod_exc = None + if data.dtype.kind == "O": + divmod_exc = TypeError + self.divmod_exc = divmod_exc + super().test_divmod(data) + + def test_divmod_series_array(self, data): + ser = pd.Series(data) + exc = None + if data.dtype.kind == "O": + exc = TypeError + self.divmod_exc = exc + self._check_divmod_op(ser, divmod, data) + + def test_arith_series_with_scalar(self, data, all_arithmetic_operators, request): + opname = all_arithmetic_operators + series_scalar_exc = None + if data.dtype.numpy_dtype == object: + if opname in ["__mul__", "__rmul__"]: + mark = pytest.mark.xfail( + reason="the Series.combine step raises but not the Series method." + ) + request.node.add_marker(mark) + series_scalar_exc = TypeError + self.series_scalar_exc = series_scalar_exc + super().test_arith_series_with_scalar(data, all_arithmetic_operators) + + def test_arith_series_with_array(self, data, all_arithmetic_operators): + opname = all_arithmetic_operators + series_array_exc = None + if data.dtype.numpy_dtype == object and opname not in ["__add__", "__radd__"]: + series_array_exc = TypeError + self.series_array_exc = series_array_exc + super().test_arith_series_with_array(data, all_arithmetic_operators) + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators, request): + opname = all_arithmetic_operators + frame_scalar_exc = None + if data.dtype.numpy_dtype == object: + if opname in ["__mul__", "__rmul__"]: + mark = pytest.mark.xfail( + reason="the Series.combine step raises but not the Series method." + ) + request.node.add_marker(mark) + frame_scalar_exc = TypeError + self.frame_scalar_exc = frame_scalar_exc + super().test_arith_frame_with_scalar(data, all_arithmetic_operators) + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + if ser.dtype.kind == "O": + return op_name in ["sum", "min", "max", "any", "all"] + return True + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + res_op = getattr(ser, op_name) + # avoid coercing int -> float. Just cast to the actual numpy type. + # error: Item "ExtensionDtype" of "dtype[Any] | ExtensionDtype" has + # no attribute "numpy_dtype" + cmp_dtype = ser.dtype.numpy_dtype # type: ignore[union-attr] + alt = ser.astype(cmp_dtype) + exp_op = getattr(alt, op_name) + if op_name == "count": + result = res_op() + expected = exp_op() + else: + result = res_op(skipna=skipna) + expected = exp_op(skipna=skipna) + tm.assert_almost_equal(result, expected) + + @pytest.mark.skip("TODO: tests not written yet") + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_frame(self, data, all_numeric_reductions, skipna): + pass + + @skip_nested + def test_fillna_series(self, data_missing): + # Non-scalar "scalar" values. + super().test_fillna_series(data_missing) + + @skip_nested + def test_fillna_frame(self, data_missing): + # Non-scalar "scalar" values. + super().test_fillna_frame(data_missing) + + @skip_nested + def test_setitem_invalid(self, data, invalid_scalar): + # object dtype can hold anything, so doesn't raise + super().test_setitem_invalid(data, invalid_scalar) + + @skip_nested + def test_setitem_sequence_broadcasts(self, data, box_in_series): + # ValueError: cannot set using a list-like indexer with a different + # length than the value + super().test_setitem_sequence_broadcasts(data, box_in_series) + + @skip_nested + @pytest.mark.parametrize("setter", ["loc", None]) + def test_setitem_mask_broadcast(self, data, setter): + # ValueError: cannot set using a list-like indexer with a different + # length than the value + super().test_setitem_mask_broadcast(data, setter) + + @skip_nested + def test_setitem_scalar_key_sequence_raise(self, data): + # Failed: DID NOT RAISE + super().test_setitem_scalar_key_sequence_raise(data) + + # TODO: there is some issue with NumpyExtensionArray, therefore, + # skip the setitem test for now, and fix it later (GH 31446) + + @skip_nested + @pytest.mark.parametrize( + "mask", + [ + np.array([True, True, True, False, False]), + pd.array([True, True, True, False, False], dtype="boolean"), + ], + ids=["numpy-array", "boolean-array"], + ) + def test_setitem_mask(self, data, mask, box_in_series): + super().test_setitem_mask(data, mask, box_in_series) + + @skip_nested + @pytest.mark.parametrize( + "idx", + [[0, 1, 2], pd.array([0, 1, 2], dtype="Int64"), np.array([0, 1, 2])], + ids=["list", "integer-array", "numpy-array"], + ) + def test_setitem_integer_array(self, data, idx, box_in_series): + super().test_setitem_integer_array(data, idx, box_in_series) + + @pytest.mark.parametrize( + "idx, box_in_series", + [ + ([0, 1, 2, pd.NA], False), + pytest.param([0, 1, 2, pd.NA], True, marks=pytest.mark.xfail), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + (pd.array([0, 1, 2, pd.NA], dtype="Int64"), False), + ], + ids=["list-False", "list-True", "integer-array-False", "integer-array-True"], + ) + def test_setitem_integer_with_missing_raises(self, data, idx, box_in_series): + super().test_setitem_integer_with_missing_raises(data, idx, box_in_series) + + @skip_nested + def test_setitem_slice(self, data, box_in_series): + super().test_setitem_slice(data, box_in_series) + + @skip_nested + def test_setitem_loc_iloc_slice(self, data): + super().test_setitem_loc_iloc_slice(data) + + def test_setitem_with_expansion_dataframe_column(self, data, full_indexer): + # https://github.com/pandas-dev/pandas/issues/32395 + df = expected = pd.DataFrame({"data": pd.Series(data)}) + result = pd.DataFrame(index=df.index) + + # because result has object dtype, the attempt to do setting inplace + # is successful, and object dtype is retained + key = full_indexer(df) + result.loc[key, "data"] = df["data"] + + # base class method has expected = df; NumpyExtensionArray behaves oddly because + # we patch _typ for these tests. + if data.dtype.numpy_dtype != object: + if not isinstance(key, slice) or key != slice(None): + expected = pd.DataFrame({"data": data.to_numpy()}) + tm.assert_frame_equal(result, expected, check_column_type=False) + + @pytest.mark.xfail(reason="NumpyEADtype is unpacked") + def test_index_from_listlike_with_dtype(self, data): + super().test_index_from_listlike_with_dtype(data) + + @skip_nested + @pytest.mark.parametrize("engine", ["c", "python"]) + def test_EA_types(self, engine, data, request): + super().test_EA_types(engine, data, request) + + +class Test2DCompat(base.NDArrayBacked2DTests): + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_period.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_period.py new file mode 100644 index 0000000000000000000000000000000000000000..2d1d213322bac02e65f710ac77943876425102a5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_period.py @@ -0,0 +1,119 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +from __future__ import annotations + +from typing import TYPE_CHECKING + +import numpy as np +import pytest + +from pandas._libs import ( + Period, + iNaT, +) +from pandas.compat import is_platform_windows +from pandas.compat.numpy import np_version_gte1p24 + +from pandas.core.dtypes.dtypes import PeriodDtype + +import pandas._testing as tm +from pandas.core.arrays import PeriodArray +from pandas.tests.extension import base + +if TYPE_CHECKING: + import pandas as pd + + +@pytest.fixture(params=["D", "2D"]) +def dtype(request): + return PeriodDtype(freq=request.param) + + +@pytest.fixture +def data(dtype): + return PeriodArray(np.arange(1970, 2070), dtype=dtype) + + +@pytest.fixture +def data_for_sorting(dtype): + return PeriodArray([2018, 2019, 2017], dtype=dtype) + + +@pytest.fixture +def data_missing(dtype): + return PeriodArray([iNaT, 2017], dtype=dtype) + + +@pytest.fixture +def data_missing_for_sorting(dtype): + return PeriodArray([2018, iNaT, 2017], dtype=dtype) + + +@pytest.fixture +def data_for_grouping(dtype): + B = 2018 + NA = iNaT + A = 2017 + C = 2019 + return PeriodArray([B, B, NA, NA, A, A, B, C], dtype=dtype) + + +class TestPeriodArray(base.ExtensionTests): + def _get_expected_exception(self, op_name, obj, other): + if op_name in ("__sub__", "__rsub__"): + return None + return super()._get_expected_exception(op_name, obj, other) + + def _supports_accumulation(self, ser, op_name: str) -> bool: + return op_name in ["cummin", "cummax"] + + def _supports_reduction(self, obj, op_name: str) -> bool: + return op_name in ["min", "max", "median"] + + def check_reduce(self, ser: pd.Series, op_name: str, skipna: bool): + if op_name == "median": + res_op = getattr(ser, op_name) + + alt = ser.astype("int64") + + exp_op = getattr(alt, op_name) + result = res_op(skipna=skipna) + expected = exp_op(skipna=skipna) + # error: Item "dtype[Any]" of "dtype[Any] | ExtensionDtype" has no + # attribute "freq" + freq = ser.dtype.freq # type: ignore[union-attr] + expected = Period._from_ordinal(int(expected), freq=freq) + tm.assert_almost_equal(result, expected) + + else: + return super().check_reduce(ser, op_name, skipna) + + @pytest.mark.parametrize("periods", [1, -2]) + def test_diff(self, data, periods): + if is_platform_windows() and np_version_gte1p24: + with tm.assert_produces_warning(RuntimeWarning, check_stacklevel=False): + super().test_diff(data, periods) + else: + super().test_diff(data, periods) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map(self, data, na_action): + result = data.map(lambda x: x, na_action=na_action) + tm.assert_extension_array_equal(result, data) + + +class Test2DCompat(base.NDArrayBacked2DTests): + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_sparse.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_sparse.py new file mode 100644 index 0000000000000000000000000000000000000000..2d5989a5b4f1de3c8928504034ee938939b57878 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_sparse.py @@ -0,0 +1,503 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" + +import numpy as np +import pytest + +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import SparseDtype +import pandas._testing as tm +from pandas.arrays import SparseArray +from pandas.tests.extension import base + + +def make_data(fill_value): + rng = np.random.default_rng(2) + if np.isnan(fill_value): + data = rng.uniform(size=100) + else: + data = rng.integers(1, 100, size=100, dtype=int) + if data[0] == data[1]: + data[0] += 1 + + data[2::3] = fill_value + return data + + +@pytest.fixture +def dtype(): + return SparseDtype() + + +@pytest.fixture(params=[0, np.nan]) +def data(request): + """Length-100 PeriodArray for semantics test.""" + res = SparseArray(make_data(request.param), fill_value=request.param) + return res + + +@pytest.fixture +def data_for_twos(): + return SparseArray(np.ones(100) * 2) + + +@pytest.fixture(params=[0, np.nan]) +def data_missing(request): + """Length 2 array with [NA, Valid]""" + return SparseArray([np.nan, 1], fill_value=request.param) + + +@pytest.fixture(params=[0, np.nan]) +def data_repeated(request): + """Return different versions of data for count times""" + + def gen(count): + for _ in range(count): + yield SparseArray(make_data(request.param), fill_value=request.param) + + yield gen + + +@pytest.fixture(params=[0, np.nan]) +def data_for_sorting(request): + return SparseArray([2, 3, 1], fill_value=request.param) + + +@pytest.fixture(params=[0, np.nan]) +def data_missing_for_sorting(request): + return SparseArray([2, np.nan, 1], fill_value=request.param) + + +@pytest.fixture +def na_cmp(): + return lambda left, right: pd.isna(left) and pd.isna(right) + + +@pytest.fixture(params=[0, np.nan]) +def data_for_grouping(request): + return SparseArray([1, 1, np.nan, np.nan, 2, 2, 1, 3], fill_value=request.param) + + +@pytest.fixture(params=[0, np.nan]) +def data_for_compare(request): + return SparseArray([0, 0, np.nan, -2, -1, 4, 2, 3, 0, 0], fill_value=request.param) + + +class TestSparseArray(base.ExtensionTests): + def _supports_reduction(self, obj, op_name: str) -> bool: + return True + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_series_numeric(self, data, all_numeric_reductions, skipna, request): + if all_numeric_reductions in [ + "prod", + "median", + "var", + "std", + "sem", + "skew", + "kurt", + ]: + mark = pytest.mark.xfail( + reason="This should be viable but is not implemented" + ) + request.node.add_marker(mark) + elif ( + all_numeric_reductions in ["sum", "max", "min", "mean"] + and data.dtype.kind == "f" + and not skipna + ): + mark = pytest.mark.xfail(reason="getting a non-nan float") + request.node.add_marker(mark) + + super().test_reduce_series_numeric(data, all_numeric_reductions, skipna) + + @pytest.mark.parametrize("skipna", [True, False]) + def test_reduce_frame(self, data, all_numeric_reductions, skipna, request): + if all_numeric_reductions in [ + "prod", + "median", + "var", + "std", + "sem", + "skew", + "kurt", + ]: + mark = pytest.mark.xfail( + reason="This should be viable but is not implemented" + ) + request.node.add_marker(mark) + elif ( + all_numeric_reductions in ["sum", "max", "min", "mean"] + and data.dtype.kind == "f" + and not skipna + ): + mark = pytest.mark.xfail(reason="ExtensionArray NA mask are different") + request.node.add_marker(mark) + + super().test_reduce_frame(data, all_numeric_reductions, skipna) + + def _check_unsupported(self, data): + if data.dtype == SparseDtype(int, 0): + pytest.skip("Can't store nan in int array.") + + def test_concat_mixed_dtypes(self, data): + # https://github.com/pandas-dev/pandas/issues/20762 + # This should be the same, aside from concat([sparse, float]) + df1 = pd.DataFrame({"A": data[:3]}) + df2 = pd.DataFrame({"A": [1, 2, 3]}) + df3 = pd.DataFrame({"A": ["a", "b", "c"]}).astype("category") + dfs = [df1, df2, df3] + + # dataframes + result = pd.concat(dfs) + expected = pd.concat( + [x.apply(lambda s: np.asarray(s).astype(object)) for x in dfs] + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize( + "columns", + [ + ["A", "B"], + pd.MultiIndex.from_tuples( + [("A", "a"), ("A", "b")], names=["outer", "inner"] + ), + ], + ) + @pytest.mark.parametrize("future_stack", [True, False]) + def test_stack(self, data, columns, future_stack): + super().test_stack(data, columns, future_stack) + + def test_concat_columns(self, data, na_value): + self._check_unsupported(data) + super().test_concat_columns(data, na_value) + + def test_concat_extension_arrays_copy_false(self, data, na_value): + self._check_unsupported(data) + super().test_concat_extension_arrays_copy_false(data, na_value) + + def test_align(self, data, na_value): + self._check_unsupported(data) + super().test_align(data, na_value) + + def test_align_frame(self, data, na_value): + self._check_unsupported(data) + super().test_align_frame(data, na_value) + + def test_align_series_frame(self, data, na_value): + self._check_unsupported(data) + super().test_align_series_frame(data, na_value) + + def test_merge(self, data, na_value): + self._check_unsupported(data) + super().test_merge(data, na_value) + + def test_get(self, data): + ser = pd.Series(data, index=[2 * i for i in range(len(data))]) + if np.isnan(ser.values.fill_value): + assert np.isnan(ser.get(4)) and np.isnan(ser.iloc[2]) + else: + assert ser.get(4) == ser.iloc[2] + assert ser.get(2) == ser.iloc[1] + + def test_reindex(self, data, na_value): + self._check_unsupported(data) + super().test_reindex(data, na_value) + + def test_isna(self, data_missing): + sarr = SparseArray(data_missing) + expected_dtype = SparseDtype(bool, pd.isna(data_missing.dtype.fill_value)) + expected = SparseArray([True, False], dtype=expected_dtype) + result = sarr.isna() + tm.assert_sp_array_equal(result, expected) + + # test isna for arr without na + sarr = sarr.fillna(0) + expected_dtype = SparseDtype(bool, pd.isna(data_missing.dtype.fill_value)) + expected = SparseArray([False, False], fill_value=False, dtype=expected_dtype) + tm.assert_equal(sarr.isna(), expected) + + def test_fillna_limit_backfill(self, data_missing): + warns = (PerformanceWarning, FutureWarning) + with tm.assert_produces_warning(warns, check_stacklevel=False): + super().test_fillna_limit_backfill(data_missing) + + def test_fillna_no_op_returns_copy(self, data, request): + if np.isnan(data.fill_value): + request.applymarker( + pytest.mark.xfail(reason="returns array with different fill value") + ) + super().test_fillna_no_op_returns_copy(data) + + @pytest.mark.xfail(reason="Unsupported") + def test_fillna_series(self, data_missing): + # this one looks doable. + # TODO: this fails bc we do not pass through data_missing. If we did, + # the 0-fill case would xpass + super().test_fillna_series() + + def test_fillna_frame(self, data_missing): + # Have to override to specify that fill_value will change. + fill_value = data_missing[1] + + result = pd.DataFrame({"A": data_missing, "B": [1, 2]}).fillna(fill_value) + + if pd.isna(data_missing.fill_value): + dtype = SparseDtype(data_missing.dtype, fill_value) + else: + dtype = data_missing.dtype + + expected = pd.DataFrame( + { + "A": data_missing._from_sequence([fill_value, fill_value], dtype=dtype), + "B": [1, 2], + } + ) + + tm.assert_frame_equal(result, expected) + + _combine_le_expected_dtype = "Sparse[bool]" + + def test_fillna_copy_frame(self, data_missing, using_copy_on_write): + arr = data_missing.take([1, 1]) + df = pd.DataFrame({"A": arr}, copy=False) + + filled_val = df.iloc[0, 0] + result = df.fillna(filled_val) + + if hasattr(df._mgr, "blocks"): + if using_copy_on_write: + assert df.values.base is result.values.base + else: + assert df.values.base is not result.values.base + assert df.A._values.to_dense() is arr.to_dense() + + def test_fillna_copy_series(self, data_missing, using_copy_on_write): + arr = data_missing.take([1, 1]) + ser = pd.Series(arr, copy=False) + + filled_val = ser[0] + result = ser.fillna(filled_val) + + if using_copy_on_write: + assert ser._values is result._values + + else: + assert ser._values is not result._values + assert ser._values.to_dense() is arr.to_dense() + + @pytest.mark.xfail(reason="Not Applicable") + def test_fillna_length_mismatch(self, data_missing): + super().test_fillna_length_mismatch(data_missing) + + def test_where_series(self, data, na_value): + assert data[0] != data[1] + cls = type(data) + a, b = data[:2] + + ser = pd.Series(cls._from_sequence([a, a, b, b], dtype=data.dtype)) + + cond = np.array([True, True, False, False]) + result = ser.where(cond) + + new_dtype = SparseDtype("float", 0.0) + expected = pd.Series( + cls._from_sequence([a, a, na_value, na_value], dtype=new_dtype) + ) + tm.assert_series_equal(result, expected) + + other = cls._from_sequence([a, b, a, b], dtype=data.dtype) + cond = np.array([True, False, True, True]) + result = ser.where(cond, other) + expected = pd.Series(cls._from_sequence([a, b, b, b], dtype=data.dtype)) + tm.assert_series_equal(result, expected) + + def test_searchsorted(self, data_for_sorting, as_series): + with tm.assert_produces_warning(PerformanceWarning, check_stacklevel=False): + super().test_searchsorted(data_for_sorting, as_series) + + def test_shift_0_periods(self, data): + # GH#33856 shifting with periods=0 should return a copy, not same obj + result = data.shift(0) + + data._sparse_values[0] = data._sparse_values[1] + assert result._sparse_values[0] != result._sparse_values[1] + + @pytest.mark.parametrize("method", ["argmax", "argmin"]) + def test_argmin_argmax_all_na(self, method, data, na_value): + # overriding because Sparse[int64, 0] cannot handle na_value + self._check_unsupported(data) + super().test_argmin_argmax_all_na(method, data, na_value) + + @pytest.mark.fails_arm_wheels + @pytest.mark.parametrize("box", [pd.array, pd.Series, pd.DataFrame]) + def test_equals(self, data, na_value, as_series, box): + self._check_unsupported(data) + super().test_equals(data, na_value, as_series, box) + + @pytest.mark.fails_arm_wheels + def test_equals_same_data_different_object(self, data): + super().test_equals_same_data_different_object(data) + + @pytest.mark.parametrize( + "func, na_action, expected", + [ + (lambda x: x, None, SparseArray([1.0, np.nan])), + (lambda x: x, "ignore", SparseArray([1.0, np.nan])), + (str, None, SparseArray(["1.0", "nan"], fill_value="nan")), + (str, "ignore", SparseArray(["1.0", np.nan])), + ], + ) + def test_map(self, func, na_action, expected): + # GH52096 + data = SparseArray([1, np.nan]) + result = data.map(func, na_action=na_action) + tm.assert_extension_array_equal(result, expected) + + @pytest.mark.parametrize("na_action", [None, "ignore"]) + def test_map_raises(self, data, na_action): + # GH52096 + msg = "fill value in the sparse values not supported" + with pytest.raises(ValueError, match=msg): + data.map(lambda x: np.nan, na_action=na_action) + + @pytest.mark.xfail(raises=TypeError, reason="no sparse StringDtype") + def test_astype_string(self, data, nullable_string_dtype): + # TODO: this fails bc we do not pass through nullable_string_dtype; + # If we did, the 0-cases would xpass + super().test_astype_string(data) + + series_scalar_exc = None + frame_scalar_exc = None + divmod_exc = None + series_array_exc = None + + def _skip_if_different_combine(self, data): + if data.fill_value == 0: + # arith ops call on dtype.fill_value so that the sparsity + # is maintained. Combine can't be called on a dtype in + # general, so we can't make the expected. This is tested elsewhere + pytest.skip("Incorrected expected from Series.combine and tested elsewhere") + + def test_arith_series_with_scalar(self, data, all_arithmetic_operators): + self._skip_if_different_combine(data) + super().test_arith_series_with_scalar(data, all_arithmetic_operators) + + def test_arith_series_with_array(self, data, all_arithmetic_operators): + self._skip_if_different_combine(data) + super().test_arith_series_with_array(data, all_arithmetic_operators) + + def test_arith_frame_with_scalar(self, data, all_arithmetic_operators, request): + if data.dtype.fill_value != 0: + pass + elif all_arithmetic_operators.strip("_") not in [ + "mul", + "rmul", + "floordiv", + "rfloordiv", + "pow", + "mod", + "rmod", + ]: + mark = pytest.mark.xfail(reason="result dtype.fill_value mismatch") + request.applymarker(mark) + super().test_arith_frame_with_scalar(data, all_arithmetic_operators) + + def _compare_other( + self, ser: pd.Series, data_for_compare: SparseArray, comparison_op, other + ): + op = comparison_op + + result = op(data_for_compare, other) + if isinstance(other, pd.Series): + assert isinstance(result, pd.Series) + assert isinstance(result.dtype, SparseDtype) + else: + assert isinstance(result, SparseArray) + assert result.dtype.subtype == np.bool_ + + if isinstance(other, pd.Series): + fill_value = op(data_for_compare.fill_value, other._values.fill_value) + expected = SparseArray( + op(data_for_compare.to_dense(), np.asarray(other)), + fill_value=fill_value, + dtype=np.bool_, + ) + + else: + fill_value = np.all( + op(np.asarray(data_for_compare.fill_value), np.asarray(other)) + ) + + expected = SparseArray( + op(data_for_compare.to_dense(), np.asarray(other)), + fill_value=fill_value, + dtype=np.bool_, + ) + if isinstance(other, pd.Series): + # error: Incompatible types in assignment + expected = pd.Series(expected) # type: ignore[assignment] + tm.assert_equal(result, expected) + + def test_scalar(self, data_for_compare: SparseArray, comparison_op): + ser = pd.Series(data_for_compare) + self._compare_other(ser, data_for_compare, comparison_op, 0) + self._compare_other(ser, data_for_compare, comparison_op, 1) + self._compare_other(ser, data_for_compare, comparison_op, -1) + self._compare_other(ser, data_for_compare, comparison_op, np.nan) + + def test_array(self, data_for_compare: SparseArray, comparison_op, request): + if data_for_compare.dtype.fill_value == 0 and comparison_op.__name__ in [ + "eq", + "ge", + "le", + ]: + mark = pytest.mark.xfail(reason="Wrong fill_value") + request.applymarker(mark) + + arr = np.linspace(-4, 5, 10) + ser = pd.Series(data_for_compare) + self._compare_other(ser, data_for_compare, comparison_op, arr) + + def test_sparse_array(self, data_for_compare: SparseArray, comparison_op, request): + if data_for_compare.dtype.fill_value == 0 and comparison_op.__name__ != "gt": + mark = pytest.mark.xfail(reason="Wrong fill_value") + request.applymarker(mark) + + ser = pd.Series(data_for_compare) + arr = data_for_compare + 1 + self._compare_other(ser, data_for_compare, comparison_op, arr) + arr = data_for_compare * 2 + self._compare_other(ser, data_for_compare, comparison_op, arr) + + @pytest.mark.xfail(reason="Different repr") + def test_array_repr(self, data, size): + super().test_array_repr(data, size) + + @pytest.mark.xfail(reason="result does not match expected") + @pytest.mark.parametrize("as_index", [True, False]) + def test_groupby_extension_agg(self, as_index, data_for_grouping): + super().test_groupby_extension_agg(as_index, data_for_grouping) + + +def test_array_type_with_arg(dtype): + assert dtype.construct_array_type() is SparseArray diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_string.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_string.py new file mode 100644 index 0000000000000000000000000000000000000000..a4f568d63a0a37658291686636c9b3e9100aa1b4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/extension/test_string.py @@ -0,0 +1,277 @@ +""" +This file contains a minimal set of tests for compliance with the extension +array interface test suite, and should contain no other tests. +The test suite for the full functionality of the array is located in +`pandas/tests/arrays/`. + +The tests in this file are inherited from the BaseExtensionTests, and only +minimal tweaks should be applied to get the tests passing (by overwriting a +parent method). + +Additional tests should either be added to one of the BaseExtensionTests +classes (if they are relevant for the extension interface for all dtypes), or +be added to the array-specific tests in `pandas/tests/arrays/`. + +""" +from __future__ import annotations + +import string +from typing import cast + +import numpy as np +import pytest + +from pandas.compat import HAS_PYARROW + +from pandas.core.dtypes.base import StorageExtensionDtype + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import is_string_dtype +from pandas.core.arrays import ArrowStringArray +from pandas.core.arrays.string_ import StringDtype +from pandas.tests.arrays.string_.test_string import string_dtype_highest_priority +from pandas.tests.extension import base + + +def maybe_split_array(arr, chunked): + if not chunked: + return arr + elif arr.dtype.storage != "pyarrow": + return arr + + pa = pytest.importorskip("pyarrow") + + arrow_array = arr._pa_array + split = len(arrow_array) // 2 + arrow_array = pa.chunked_array( + [*arrow_array[:split].chunks, *arrow_array[split:].chunks] + ) + assert arrow_array.num_chunks == 2 + return type(arr)(arrow_array) + + +@pytest.fixture(params=[True, False]) +def chunked(request): + return request.param + + +@pytest.fixture +def dtype(string_dtype_arguments): + storage, na_value = string_dtype_arguments + return StringDtype(storage=storage, na_value=na_value) + + +@pytest.fixture +def data(dtype, chunked): + strings = np.random.default_rng(2).choice(list(string.ascii_letters), size=100) + while strings[0] == strings[1]: + strings = np.random.default_rng(2).choice(list(string.ascii_letters), size=100) + + arr = dtype.construct_array_type()._from_sequence(strings, dtype=dtype) + return maybe_split_array(arr, chunked) + + +@pytest.fixture +def data_missing(dtype, chunked): + """Length 2 array with [NA, Valid]""" + arr = dtype.construct_array_type()._from_sequence([pd.NA, "A"], dtype=dtype) + return maybe_split_array(arr, chunked) + + +@pytest.fixture +def data_for_sorting(dtype, chunked): + arr = dtype.construct_array_type()._from_sequence(["B", "C", "A"], dtype=dtype) + return maybe_split_array(arr, chunked) + + +@pytest.fixture +def data_missing_for_sorting(dtype, chunked): + arr = dtype.construct_array_type()._from_sequence(["B", pd.NA, "A"], dtype=dtype) + return maybe_split_array(arr, chunked) + + +@pytest.fixture +def data_for_grouping(dtype, chunked): + arr = dtype.construct_array_type()._from_sequence( + ["B", "B", pd.NA, pd.NA, "A", "A", "B", "C"], dtype=dtype + ) + return maybe_split_array(arr, chunked) + + +class TestStringArray(base.ExtensionTests): + def test_eq_with_str(self, dtype): + super().test_eq_with_str(dtype) + + if dtype.na_value is pd.NA: + # only the NA-variant supports parametrized string alias + assert dtype == f"string[{dtype.storage}]" + elif dtype.storage == "pyarrow": + with tm.assert_produces_warning(FutureWarning): + assert dtype == "string[pyarrow_numpy]" + + def test_is_not_string_type(self, dtype): + # Different from BaseDtypeTests.test_is_not_string_type + # because StringDtype is a string type + assert is_string_dtype(dtype) + + def test_is_dtype_from_name(self, dtype, using_infer_string): + if dtype.na_value is np.nan and not using_infer_string: + result = type(dtype).is_dtype(dtype.name) + assert result is False + else: + super().test_is_dtype_from_name(dtype) + + def test_construct_from_string_own_name(self, dtype, using_infer_string): + if dtype.na_value is np.nan and not using_infer_string: + with pytest.raises(TypeError, match="Cannot construct a 'StringDtype'"): + dtype.construct_from_string(dtype.name) + else: + super().test_construct_from_string_own_name(dtype) + + def test_view(self, data): + if data.dtype.storage == "pyarrow": + pytest.skip(reason="2D support not implemented for ArrowStringArray") + super().test_view(data) + + def test_from_dtype(self, data): + # base test uses string representation of dtype + pass + + def test_transpose(self, data): + if data.dtype.storage == "pyarrow": + pytest.skip(reason="2D support not implemented for ArrowStringArray") + super().test_transpose(data) + + def test_setitem_preserves_views(self, data): + if data.dtype.storage == "pyarrow": + pytest.skip(reason="2D support not implemented for ArrowStringArray") + super().test_setitem_preserves_views(data) + + def test_dropna_array(self, data_missing): + result = data_missing.dropna() + expected = data_missing[[1]] + tm.assert_extension_array_equal(result, expected) + + def test_fillna_no_op_returns_copy(self, data): + data = data[~data.isna()] + + valid = data[0] + result = data.fillna(valid) + assert result is not data + tm.assert_extension_array_equal(result, data) + + result = data.fillna(method="backfill") + assert result is not data + tm.assert_extension_array_equal(result, data) + + def _get_expected_exception( + self, op_name: str, obj, other + ) -> type[Exception] | tuple[type[Exception], ...] | None: + if op_name in [ + "__mod__", + "__rmod__", + "__divmod__", + "__rdivmod__", + "__pow__", + "__rpow__", + ]: + return TypeError + elif op_name in ["__mul__", "__rmul__"]: + # Can only multiply strings by integers + return TypeError + elif op_name in [ + "__truediv__", + "__rtruediv__", + "__floordiv__", + "__rfloordiv__", + "__sub__", + "__rsub__", + ]: + return TypeError + + return None + + def _supports_reduction(self, ser: pd.Series, op_name: str) -> bool: + return ( + op_name in ["min", "max", "sum"] + or ser.dtype.na_value is np.nan # type: ignore[union-attr] + and op_name in ("any", "all") + ) + + def _supports_accumulation(self, ser: pd.Series, op_name: str) -> bool: + assert isinstance(ser.dtype, StorageExtensionDtype) + return op_name in ["cummin", "cummax", "cumsum"] + + def _cast_pointwise_result(self, op_name: str, obj, other, pointwise_result): + dtype = cast(StringDtype, tm.get_dtype(obj)) + if op_name in ["__add__", "__radd__"]: + cast_to = dtype + dtype_other = tm.get_dtype(other) if not isinstance(other, str) else None + if isinstance(dtype_other, StringDtype): + cast_to = string_dtype_highest_priority(dtype, dtype_other) + elif dtype.na_value is np.nan: + cast_to = np.bool_ # type: ignore[assignment] + elif dtype.storage == "pyarrow": + cast_to = "bool[pyarrow]" # type: ignore[assignment] + else: + cast_to = "boolean" # type: ignore[assignment] + return pointwise_result.astype(cast_to) + + def test_compare_scalar(self, data, comparison_op): + ser = pd.Series(data) + self._compare_other(ser, data, comparison_op, "abc") + + def test_combine_add(self, data_repeated, using_infer_string, request): + dtype = next(data_repeated(1)).dtype + if using_infer_string and ( + (dtype.na_value is pd.NA) and dtype.storage == "python" + ): + mark = pytest.mark.xfail( + reason="The pointwise operation result will be inferred to " + "string[nan, pyarrow], which does not match the input dtype" + ) + request.applymarker(mark) + super().test_combine_add(data_repeated) + + def test_arith_series_with_array( + self, data, all_arithmetic_operators, using_infer_string, request + ): + dtype = data.dtype + if ( + using_infer_string + and all_arithmetic_operators == "__radd__" + and dtype.na_value is pd.NA + and (HAS_PYARROW or dtype.storage == "pyarrow") + ): + # TODO(infer_string) + mark = pytest.mark.xfail( + reason="The pointwise operation result will be inferred to " + "string[nan, pyarrow], which does not match the input dtype" + ) + request.applymarker(mark) + super().test_arith_series_with_array(data, all_arithmetic_operators) + + +class Test2DCompat(base.Dim2CompatTests): + @pytest.fixture(autouse=True) + def arrow_not_supported(self, data): + if isinstance(data, ArrowStringArray): + pytest.skip(reason="2D support not implemented for ArrowStringArray") + + +def test_searchsorted_with_na_raises(data_for_sorting, as_series): + # GH50447 + b, c, a = data_for_sorting + arr = data_for_sorting.take([2, 0, 1]) # to get [a, b, c] + arr[-1] = pd.NA + + if as_series: + arr = pd.Series(arr) + + msg = ( + "searchsorted requires array to be sorted, " + "which is impossible with NAs present." + ) + with pytest.raises(ValueError, match=msg): + arr.searchsorted(b) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/common.py new file mode 100644 index 0000000000000000000000000000000000000000..fc41d7907a240f0dd9dc19e0ae1296bee86be421 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/common.py @@ -0,0 +1,63 @@ +from __future__ import annotations + +from typing import TYPE_CHECKING + +from pandas import ( + DataFrame, + concat, +) + +if TYPE_CHECKING: + from pandas._typing import AxisInt + + +def _check_mixed_float(df, dtype=None): + # float16 are most likely to be upcasted to float32 + dtypes = {"A": "float32", "B": "float32", "C": "float16", "D": "float64"} + if isinstance(dtype, str): + dtypes = {k: dtype for k, v in dtypes.items()} + elif isinstance(dtype, dict): + dtypes.update(dtype) + if dtypes.get("A"): + assert df.dtypes["A"] == dtypes["A"] + if dtypes.get("B"): + assert df.dtypes["B"] == dtypes["B"] + if dtypes.get("C"): + assert df.dtypes["C"] == dtypes["C"] + if dtypes.get("D"): + assert df.dtypes["D"] == dtypes["D"] + + +def _check_mixed_int(df, dtype=None): + dtypes = {"A": "int32", "B": "uint64", "C": "uint8", "D": "int64"} + if isinstance(dtype, str): + dtypes = {k: dtype for k, v in dtypes.items()} + elif isinstance(dtype, dict): + dtypes.update(dtype) + if dtypes.get("A"): + assert df.dtypes["A"] == dtypes["A"] + if dtypes.get("B"): + assert df.dtypes["B"] == dtypes["B"] + if dtypes.get("C"): + assert df.dtypes["C"] == dtypes["C"] + if dtypes.get("D"): + assert df.dtypes["D"] == dtypes["D"] + + +def zip_frames(frames: list[DataFrame], axis: AxisInt = 1) -> DataFrame: + """ + take a list of frames, zip them together under the + assumption that these all have the first frames' index/columns. + + Returns + ------- + new_frame : DataFrame + """ + if axis == 1: + columns = frames[0].columns + zipped = [f.loc[:, c] for c in columns for f in frames] + return concat(zipped, axis=1) + else: + index = frames[0].index + zipped = [f.loc[i, :] for i in index for f in frames] + return DataFrame(zipped) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..b7293946d38c9de9ef4b406d0d8fc933d33abfdd --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/conftest.py @@ -0,0 +1,100 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + NaT, + date_range, +) + + +@pytest.fixture +def datetime_frame() -> DataFrame: + """ + Fixture for DataFrame of floats with DatetimeIndex + + Columns are ['A', 'B', 'C', 'D'] + """ + return DataFrame( + np.random.default_rng(2).standard_normal((100, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=100, freq="B"), + ) + + +@pytest.fixture +def float_string_frame(): + """ + Fixture for DataFrame of floats and strings with index of unique strings + + Columns are ['A', 'B', 'C', 'D', 'foo']. + """ + df = DataFrame( + np.random.default_rng(2).standard_normal((30, 4)), + index=Index([f"foo_{i}" for i in range(30)], dtype=object), + columns=Index(list("ABCD")), + ) + df["foo"] = "bar" + return df + + +@pytest.fixture +def mixed_float_frame(): + """ + Fixture for DataFrame of different float types with index of unique strings + + Columns are ['A', 'B', 'C', 'D']. + """ + df = DataFrame( + { + col: np.random.default_rng(2).random(30, dtype=dtype) + for col, dtype in zip( + list("ABCD"), ["float32", "float32", "float32", "float64"] + ) + }, + index=Index([f"foo_{i}" for i in range(30)], dtype=object), + ) + # not supported by numpy random + df["C"] = df["C"].astype("float16") + return df + + +@pytest.fixture +def mixed_int_frame(): + """ + Fixture for DataFrame of different int types with index of unique strings + + Columns are ['A', 'B', 'C', 'D']. + """ + return DataFrame( + { + col: np.ones(30, dtype=dtype) + for col, dtype in zip(list("ABCD"), ["int32", "uint64", "uint8", "int64"]) + }, + index=Index([f"foo_{i}" for i in range(30)], dtype=object), + ) + + +@pytest.fixture +def timezone_frame(): + """ + Fixture for DataFrame of date_range Series with different time zones + + Columns are ['A', 'B', 'C']; some entries are missing + + A B C + 0 2013-01-01 2013-01-01 00:00:00-05:00 2013-01-01 00:00:00+01:00 + 1 2013-01-02 NaT NaT + 2 2013-01-03 2013-01-03 00:00:00-05:00 2013-01-03 00:00:00+01:00 + """ + df = DataFrame( + { + "A": date_range("20130101", periods=3), + "B": date_range("20130101", periods=3, tz="US/Eastern"), + "C": date_range("20130101", periods=3, tz="CET"), + } + ) + df.iloc[1, 1] = NaT + df.iloc[1, 2] = NaT + return df diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_dict.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_dict.py new file mode 100644 index 0000000000000000000000000000000000000000..845174bbf600e0211d4514ff6b713e0b3b40d756 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_dict.py @@ -0,0 +1,223 @@ +from collections import OrderedDict + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, + RangeIndex, + Series, +) +import pandas._testing as tm + + +class TestFromDict: + # Note: these tests are specific to the from_dict method, not for + # passing dictionaries to DataFrame.__init__ + + def test_constructor_list_of_odicts(self): + data = [ + OrderedDict([["a", 1.5], ["b", 3], ["c", 4], ["d", 6]]), + OrderedDict([["a", 1.5], ["b", 3], ["d", 6]]), + OrderedDict([["a", 1.5], ["d", 6]]), + OrderedDict(), + OrderedDict([["a", 1.5], ["b", 3], ["c", 4]]), + OrderedDict([["b", 3], ["c", 4], ["d", 6]]), + ] + + result = DataFrame(data) + expected = DataFrame.from_dict( + dict(zip(range(len(data)), data)), orient="index" + ) + tm.assert_frame_equal(result, expected.reindex(result.index)) + + def test_constructor_single_row(self): + data = [OrderedDict([["a", 1.5], ["b", 3], ["c", 4], ["d", 6]])] + + result = DataFrame(data) + expected = DataFrame.from_dict(dict(zip([0], data)), orient="index").reindex( + result.index + ) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_series(self): + data = [ + OrderedDict([["a", 1.5], ["b", 3.0], ["c", 4.0]]), + OrderedDict([["a", 1.5], ["b", 3.0], ["c", 6.0]]), + ] + sdict = OrderedDict(zip(["x", "y"], data)) + idx = Index(["a", "b", "c"]) + + # all named + data2 = [ + Series([1.5, 3, 4], idx, dtype="O", name="x"), + Series([1.5, 3, 6], idx, name="y"), + ] + result = DataFrame(data2) + expected = DataFrame.from_dict(sdict, orient="index") + tm.assert_frame_equal(result, expected) + + # some unnamed + data2 = [ + Series([1.5, 3, 4], idx, dtype="O", name="x"), + Series([1.5, 3, 6], idx), + ] + result = DataFrame(data2) + + sdict = OrderedDict(zip(["x", "Unnamed 0"], data)) + expected = DataFrame.from_dict(sdict, orient="index") + tm.assert_frame_equal(result, expected) + + # none named + data = [ + OrderedDict([["a", 1.5], ["b", 3], ["c", 4], ["d", 6]]), + OrderedDict([["a", 1.5], ["b", 3], ["d", 6]]), + OrderedDict([["a", 1.5], ["d", 6]]), + OrderedDict(), + OrderedDict([["a", 1.5], ["b", 3], ["c", 4]]), + OrderedDict([["b", 3], ["c", 4], ["d", 6]]), + ] + data = [Series(d) for d in data] + + result = DataFrame(data) + sdict = OrderedDict(zip(range(len(data)), data)) + expected = DataFrame.from_dict(sdict, orient="index") + tm.assert_frame_equal(result, expected.reindex(result.index)) + + result2 = DataFrame(data, index=np.arange(6, dtype=np.int64)) + tm.assert_frame_equal(result, result2) + + result = DataFrame([Series(dtype=object)]) + expected = DataFrame(index=[0]) + tm.assert_frame_equal(result, expected) + + data = [ + OrderedDict([["a", 1.5], ["b", 3.0], ["c", 4.0]]), + OrderedDict([["a", 1.5], ["b", 3.0], ["c", 6.0]]), + ] + sdict = OrderedDict(zip(range(len(data)), data)) + + idx = Index(["a", "b", "c"]) + data2 = [Series([1.5, 3, 4], idx, dtype="O"), Series([1.5, 3, 6], idx)] + result = DataFrame(data2) + expected = DataFrame.from_dict(sdict, orient="index") + tm.assert_frame_equal(result, expected) + + def test_constructor_orient(self, float_string_frame): + data_dict = float_string_frame.T._series + recons = DataFrame.from_dict(data_dict, orient="index") + expected = float_string_frame.reindex(index=recons.index) + tm.assert_frame_equal(recons, expected) + + # dict of sequence + a = {"hi": [32, 3, 3], "there": [3, 5, 3]} + rs = DataFrame.from_dict(a, orient="index") + xp = DataFrame.from_dict(a).T.reindex(list(a.keys())) + tm.assert_frame_equal(rs, xp) + + def test_constructor_from_ordered_dict(self): + # GH#8425 + a = OrderedDict( + [ + ("one", OrderedDict([("col_a", "foo1"), ("col_b", "bar1")])), + ("two", OrderedDict([("col_a", "foo2"), ("col_b", "bar2")])), + ("three", OrderedDict([("col_a", "foo3"), ("col_b", "bar3")])), + ] + ) + expected = DataFrame.from_dict(a, orient="columns").T + result = DataFrame.from_dict(a, orient="index") + tm.assert_frame_equal(result, expected) + + def test_from_dict_columns_parameter(self): + # GH#18529 + # Test new columns parameter for from_dict that was added to make + # from_items(..., orient='index', columns=[...]) easier to replicate + result = DataFrame.from_dict( + OrderedDict([("A", [1, 2]), ("B", [4, 5])]), + orient="index", + columns=["one", "two"], + ) + expected = DataFrame([[1, 2], [4, 5]], index=["A", "B"], columns=["one", "two"]) + tm.assert_frame_equal(result, expected) + + msg = "cannot use columns parameter with orient='columns'" + with pytest.raises(ValueError, match=msg): + DataFrame.from_dict( + {"A": [1, 2], "B": [4, 5]}, + orient="columns", + columns=["one", "two"], + ) + with pytest.raises(ValueError, match=msg): + DataFrame.from_dict({"A": [1, 2], "B": [4, 5]}, columns=["one", "two"]) + + @pytest.mark.parametrize( + "data_dict, orient, expected", + [ + ({}, "index", RangeIndex(0)), + ( + [{("a",): 1}, {("a",): 2}], + "columns", + Index([("a",)], tupleize_cols=False), + ), + ( + [OrderedDict([(("a",), 1), (("b",), 2)])], + "columns", + Index([("a",), ("b",)], tupleize_cols=False), + ), + ([{("a", "b"): 1}], "columns", Index([("a", "b")], tupleize_cols=False)), + ], + ) + def test_constructor_from_dict_tuples(self, data_dict, orient, expected): + # GH#16769 + df = DataFrame.from_dict(data_dict, orient) + result = df.columns + tm.assert_index_equal(result, expected) + + def test_frame_dict_constructor_empty_series(self): + s1 = Series( + [1, 2, 3, 4], index=MultiIndex.from_tuples([(1, 2), (1, 3), (2, 2), (2, 4)]) + ) + s2 = Series( + [1, 2, 3, 4], index=MultiIndex.from_tuples([(1, 2), (1, 3), (3, 2), (3, 4)]) + ) + s3 = Series(dtype=object) + + # it works! + DataFrame({"foo": s1, "bar": s2, "baz": s3}) + DataFrame.from_dict({"foo": s1, "baz": s3, "bar": s2}) + + def test_from_dict_scalars_requires_index(self): + msg = "If using all scalar values, you must pass an index" + with pytest.raises(ValueError, match=msg): + DataFrame.from_dict(OrderedDict([("b", 8), ("a", 5), ("a", 6)])) + + def test_from_dict_orient_invalid(self): + msg = ( + "Expected 'index', 'columns' or 'tight' for orient parameter. " + "Got 'abc' instead" + ) + with pytest.raises(ValueError, match=msg): + DataFrame.from_dict({"foo": 1, "baz": 3, "bar": 2}, orient="abc") + + def test_from_dict_order_with_single_column(self): + data = { + "alpha": { + "value2": 123, + "value1": 532, + "animal": 222, + "plant": False, + "name": "test", + } + } + result = DataFrame.from_dict( + data, + orient="columns", + ) + expected = DataFrame( + [[123], [532], [222], [False], ["test"]], + index=["value2", "value1", "animal", "plant", "name"], + columns=["alpha"], + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_records.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_records.py new file mode 100644 index 0000000000000000000000000000000000000000..58e47ba48f89445ee888c61055ad5a397a192f4a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/constructors/test_from_records.py @@ -0,0 +1,503 @@ +from collections.abc import Iterator +from datetime import datetime +from decimal import Decimal + +import numpy as np +import pytest +import pytz + +from pandas._config import using_string_dtype + +from pandas.compat import is_platform_little_endian + +from pandas import ( + CategoricalIndex, + DataFrame, + Index, + Interval, + RangeIndex, + Series, + date_range, +) +import pandas._testing as tm + + +class TestFromRecords: + def test_from_records_dt64tz_frame(self): + # GH#51162 don't lose tz when calling from_records with DataFrame input + dti = date_range("2016-01-01", periods=10, tz="US/Pacific") + df = DataFrame({i: dti for i in range(4)}) + with tm.assert_produces_warning(FutureWarning): + res = DataFrame.from_records(df) + tm.assert_frame_equal(res, df) + + def test_from_records_with_datetimes(self): + # this may fail on certain platforms because of a numpy issue + # related GH#6140 + if not is_platform_little_endian(): + pytest.skip("known failure of test on non-little endian") + + # construction with a null in a recarray + # GH#6140 + expected = DataFrame({"EXPIRY": [datetime(2005, 3, 1, 0, 0), None]}) + + arrdata = [np.array([datetime(2005, 3, 1, 0, 0), None])] + dtypes = [("EXPIRY", " None: + self.args = args + + def __getitem__(self, i): + return self.args[i] + + def __iter__(self) -> Iterator: + return iter(self.args) + + recs = [Record(1, 2, 3), Record(4, 5, 6), Record(7, 8, 9)] + tups = [tuple(rec) for rec in recs] + + result = DataFrame.from_records(recs) + expected = DataFrame.from_records(tups) + tm.assert_frame_equal(result, expected) + + def test_from_records_len0_with_columns(self): + # GH#2633 + result = DataFrame.from_records([], index="foo", columns=["foo", "bar"]) + expected = Index(["bar"]) + + assert len(result) == 0 + assert result.index.name == "foo" + tm.assert_index_equal(result.columns, expected) + + def test_from_records_series_list_dict(self): + # GH#27358 + expected = DataFrame([[{"a": 1, "b": 2}, {"a": 3, "b": 4}]]).T + data = Series([[{"a": 1, "b": 2}], [{"a": 3, "b": 4}]]) + result = DataFrame.from_records(data) + tm.assert_frame_equal(result, expected) + + def test_from_records_series_categorical_index(self): + # GH#32805 + index = CategoricalIndex( + [Interval(-20, -10), Interval(-10, 0), Interval(0, 10)] + ) + series_of_dicts = Series([{"a": 1}, {"a": 2}, {"b": 3}], index=index) + frame = DataFrame.from_records(series_of_dicts, index=index) + expected = DataFrame( + {"a": [1, 2, np.nan], "b": [np.nan, np.nan, 3]}, index=index + ) + tm.assert_frame_equal(frame, expected) + + def test_frame_from_records_utc(self): + rec = {"datum": 1.5, "begin_time": datetime(2006, 4, 27, tzinfo=pytz.utc)} + + # it works + DataFrame.from_records([rec], index="begin_time") + + def test_from_records_to_records(self): + # from numpy documentation + arr = np.zeros((2,), dtype=("i4,f4,S10")) + arr[:] = [(1, 2.0, "Hello"), (2, 3.0, "World")] + + DataFrame.from_records(arr) + + index = Index(np.arange(len(arr))[::-1]) + indexed_frame = DataFrame.from_records(arr, index=index) + tm.assert_index_equal(indexed_frame.index, index) + + # without names, it should go to last ditch + arr2 = np.zeros((2, 3)) + tm.assert_frame_equal(DataFrame.from_records(arr2), DataFrame(arr2)) + + # wrong length + msg = "|".join( + [ + r"Length of values \(2\) does not match length of index \(1\)", + ] + ) + with pytest.raises(ValueError, match=msg): + DataFrame.from_records(arr, index=index[:-1]) + + indexed_frame = DataFrame.from_records(arr, index="f1") + + # what to do? + records = indexed_frame.to_records() + assert len(records.dtype.names) == 3 + + records = indexed_frame.to_records(index=False) + assert len(records.dtype.names) == 2 + assert "index" not in records.dtype.names + + def test_from_records_nones(self): + tuples = [(1, 2, None, 3), (1, 2, None, 3), (None, 2, 5, 3)] + + df = DataFrame.from_records(tuples, columns=["a", "b", "c", "d"]) + assert np.isnan(df["c"][0]) + + def test_from_records_iterator(self): + arr = np.array( + [(1.0, 1.0, 2, 2), (3.0, 3.0, 4, 4), (5.0, 5.0, 6, 6), (7.0, 7.0, 8, 8)], + dtype=[ + ("x", np.float64), + ("u", np.float32), + ("y", np.int64), + ("z", np.int32), + ], + ) + df = DataFrame.from_records(iter(arr), nrows=2) + xp = DataFrame( + { + "x": np.array([1.0, 3.0], dtype=np.float64), + "u": np.array([1.0, 3.0], dtype=np.float32), + "y": np.array([2, 4], dtype=np.int64), + "z": np.array([2, 4], dtype=np.int32), + } + ) + tm.assert_frame_equal(df.reindex_like(xp), xp) + + # no dtypes specified here, so just compare with the default + arr = [(1.0, 2), (3.0, 4), (5.0, 6), (7.0, 8)] + df = DataFrame.from_records(iter(arr), columns=["x", "y"], nrows=2) + tm.assert_frame_equal(df, xp.reindex(columns=["x", "y"]), check_dtype=False) + + def test_from_records_tuples_generator(self): + def tuple_generator(length): + for i in range(length): + letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" + yield (i, letters[i % len(letters)], i / length) + + columns_names = ["Integer", "String", "Float"] + columns = [ + [i[j] for i in tuple_generator(10)] for j in range(len(columns_names)) + ] + data = {"Integer": columns[0], "String": columns[1], "Float": columns[2]} + expected = DataFrame(data, columns=columns_names) + + generator = tuple_generator(10) + result = DataFrame.from_records(generator, columns=columns_names) + tm.assert_frame_equal(result, expected) + + def test_from_records_lists_generator(self): + def list_generator(length): + for i in range(length): + letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" + yield [i, letters[i % len(letters)], i / length] + + columns_names = ["Integer", "String", "Float"] + columns = [ + [i[j] for i in list_generator(10)] for j in range(len(columns_names)) + ] + data = {"Integer": columns[0], "String": columns[1], "Float": columns[2]} + expected = DataFrame(data, columns=columns_names) + + generator = list_generator(10) + result = DataFrame.from_records(generator, columns=columns_names) + tm.assert_frame_equal(result, expected) + + def test_from_records_columns_not_modified(self): + tuples = [(1, 2, 3), (1, 2, 3), (2, 5, 3)] + + columns = ["a", "b", "c"] + original_columns = list(columns) + + DataFrame.from_records(tuples, columns=columns, index="a") + + assert columns == original_columns + + def test_from_records_decimal(self): + tuples = [(Decimal("1.5"),), (Decimal("2.5"),), (None,)] + + df = DataFrame.from_records(tuples, columns=["a"]) + assert df["a"].dtype == object + + df = DataFrame.from_records(tuples, columns=["a"], coerce_float=True) + assert df["a"].dtype == np.float64 + assert np.isnan(df["a"].values[-1]) + + def test_from_records_duplicates(self): + result = DataFrame.from_records([(1, 2, 3), (4, 5, 6)], columns=["a", "b", "a"]) + + expected = DataFrame([(1, 2, 3), (4, 5, 6)], columns=["a", "b", "a"]) + + tm.assert_frame_equal(result, expected) + + def test_from_records_set_index_name(self): + def create_dict(order_id): + return { + "order_id": order_id, + "quantity": np.random.default_rng(2).integers(1, 10), + "price": np.random.default_rng(2).integers(1, 10), + } + + documents = [create_dict(i) for i in range(10)] + # demo missing data + documents.append({"order_id": 10, "quantity": 5}) + + result = DataFrame.from_records(documents, index="order_id") + assert result.index.name == "order_id" + + # MultiIndex + result = DataFrame.from_records(documents, index=["order_id", "quantity"]) + assert result.index.names == ("order_id", "quantity") + + def test_from_records_misc_brokenness(self): + # GH#2179 + + data = {1: ["foo"], 2: ["bar"]} + + result = DataFrame.from_records(data, columns=["a", "b"]) + exp = DataFrame(data, columns=["a", "b"]) + tm.assert_frame_equal(result, exp) + + # overlap in index/index_names + + data = {"a": [1, 2, 3], "b": [4, 5, 6]} + + result = DataFrame.from_records(data, index=["a", "b", "c"]) + exp = DataFrame(data, index=["a", "b", "c"]) + tm.assert_frame_equal(result, exp) + + def test_from_records_misc_brokenness2(self): + # GH#2623 + rows = [] + rows.append([datetime(2010, 1, 1), 1]) + rows.append([datetime(2010, 1, 2), "hi"]) # test col upconverts to obj + result = DataFrame.from_records(rows, columns=["date", "test"]) + expected = DataFrame( + {"date": [row[0] for row in rows], "test": [row[1] for row in rows]} + ) + tm.assert_frame_equal(result, expected) + assert result.dtypes["test"] == np.dtype(object) + + def test_from_records_misc_brokenness3(self): + rows = [] + rows.append([datetime(2010, 1, 1), 1]) + rows.append([datetime(2010, 1, 2), 1]) + result = DataFrame.from_records(rows, columns=["date", "test"]) + expected = DataFrame( + {"date": [row[0] for row in rows], "test": [row[1] for row in rows]} + ) + tm.assert_frame_equal(result, expected) + + def test_from_records_empty(self): + # GH#3562 + result = DataFrame.from_records([], columns=["a", "b", "c"]) + expected = DataFrame(columns=["a", "b", "c"]) + tm.assert_frame_equal(result, expected) + + result = DataFrame.from_records([], columns=["a", "b", "b"]) + expected = DataFrame(columns=["a", "b", "b"]) + tm.assert_frame_equal(result, expected) + + def test_from_records_empty_with_nonempty_fields_gh3682(self): + a = np.array([(1, 2)], dtype=[("id", np.int64), ("value", np.int64)]) + df = DataFrame.from_records(a, index="id") + + ex_index = Index([1], name="id") + expected = DataFrame({"value": [2]}, index=ex_index, columns=["value"]) + tm.assert_frame_equal(df, expected) + + b = a[:0] + df2 = DataFrame.from_records(b, index="id") + tm.assert_frame_equal(df2, df.iloc[:0]) + + def test_from_records_empty2(self): + # GH#42456 + dtype = [("prop", int)] + shape = (0, len(dtype)) + arr = np.empty(shape, dtype=dtype) + + result = DataFrame.from_records(arr) + expected = DataFrame({"prop": np.array([], dtype=int)}) + tm.assert_frame_equal(result, expected) + + alt = DataFrame(arr) + tm.assert_frame_equal(alt, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_coercion.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_coercion.py new file mode 100644 index 0000000000000000000000000000000000000000..6186dcd2868cfc6a3e1ca4f3afb1bc2151284963 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_coercion.py @@ -0,0 +1,209 @@ +""" +Tests for values coercion in setitem-like operations on DataFrame. + +For the most part, these should be multi-column DataFrames, otherwise +we would share the tests with Series. +""" +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + MultiIndex, + NaT, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameSetitemCoercion: + @pytest.mark.parametrize("consolidate", [True, False]) + def test_loc_setitem_multiindex_columns(self, consolidate): + # GH#18415 Setting values in a single column preserves dtype, + # while setting them in multiple columns did unwanted cast. + + # Note that A here has 2 blocks, below we do the same thing + # with a consolidated frame. + A = DataFrame(np.zeros((6, 5), dtype=np.float32)) + A = pd.concat([A, A], axis=1, keys=[1, 2]) + if consolidate: + A = A._consolidate() + + A.loc[2:3, (1, slice(2, 3))] = np.ones((2, 2), dtype=np.float32) + assert (A.dtypes == np.float32).all() + + A.loc[0:5, (1, slice(2, 3))] = np.ones((6, 2), dtype=np.float32) + + assert (A.dtypes == np.float32).all() + + A.loc[:, (1, slice(2, 3))] = np.ones((6, 2), dtype=np.float32) + assert (A.dtypes == np.float32).all() + + # TODO: i think this isn't about MultiIndex and could be done with iloc? + + +def test_37477(): + # fixed by GH#45121 + orig = DataFrame({"A": [1, 2, 3], "B": [3, 4, 5]}) + expected = DataFrame({"A": [1, 2, 3], "B": [3, 1.2, 5]}) + + df = orig.copy() + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.at[1, "B"] = 1.2 + tm.assert_frame_equal(df, expected) + + df = orig.copy() + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.loc[1, "B"] = 1.2 + tm.assert_frame_equal(df, expected) + + df = orig.copy() + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.iat[1, 1] = 1.2 + tm.assert_frame_equal(df, expected) + + df = orig.copy() + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.iloc[1, 1] = 1.2 + tm.assert_frame_equal(df, expected) + + +def test_6942(indexer_al): + # check that the .at __setitem__ after setting "Live" actually sets the data + start = Timestamp("2014-04-01") + t1 = Timestamp("2014-04-23 12:42:38.883082") + t2 = Timestamp("2014-04-24 01:33:30.040039") + + dti = date_range(start, periods=1) + orig = DataFrame(index=dti, columns=["timenow", "Live"]) + + df = orig.copy() + indexer_al(df)[start, "timenow"] = t1 + + df["Live"] = True + + df.at[start, "timenow"] = t2 + assert df.iloc[0, 0] == t2 + + +def test_26395(indexer_al): + # .at case fixed by GH#45121 (best guess) + df = DataFrame(index=["A", "B", "C"]) + df["D"] = 0 + + indexer_al(df)["C", "D"] = 2 + expected = DataFrame({"D": [0, 0, 2]}, index=["A", "B", "C"], dtype=np.int64) + tm.assert_frame_equal(df, expected) + + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + indexer_al(df)["C", "D"] = 44.5 + expected = DataFrame( + {"D": [0, 0, 44.5]}, + index=["A", "B", "C"], + columns=["D"], + dtype=np.float64, + ) + tm.assert_frame_equal(df, expected) + + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + indexer_al(df)["C", "D"] = "hello" + expected = DataFrame( + {"D": [0, 0, "hello"]}, + index=["A", "B", "C"], + columns=["D"], + dtype=object, + ) + tm.assert_frame_equal(df, expected) + + +@pytest.mark.xfail(reason="unwanted upcast") +def test_15231(): + df = DataFrame([[1, 2], [3, 4]], columns=["a", "b"]) + df.loc[2] = Series({"a": 5, "b": 6}) + assert (df.dtypes == np.int64).all() + + df.loc[3] = Series({"a": 7}) + + # df["a"] doesn't have any NaNs, should not have been cast + exp_dtypes = Series([np.int64, np.float64], dtype=object, index=["a", "b"]) + tm.assert_series_equal(df.dtypes, exp_dtypes) + + +def test_iloc_setitem_unnecesssary_float_upcasting(): + # GH#12255 + df = DataFrame( + { + 0: np.array([1, 3], dtype=np.float32), + 1: np.array([2, 4], dtype=np.float32), + 2: ["a", "b"], + } + ) + orig = df.copy() + + values = df[0].values.reshape(2, 1) + df.iloc[:, 0:1] = values + + tm.assert_frame_equal(df, orig) + + +@pytest.mark.xfail(reason="unwanted casting to dt64") +def test_12499(): + # TODO: OP in GH#12499 used np.datetim64("NaT") instead of pd.NaT, + # which has consequences for the expected df["two"] (though i think at + # the time it might not have because of a separate bug). See if it makes + # a difference which one we use here. + ts = Timestamp("2016-03-01 03:13:22.98986", tz="UTC") + + data = [{"one": 0, "two": ts}] + orig = DataFrame(data) + df = orig.copy() + df.loc[1] = [np.nan, NaT] + + expected = DataFrame( + {"one": [0, np.nan], "two": Series([ts, NaT], dtype="datetime64[ns, UTC]")} + ) + tm.assert_frame_equal(df, expected) + + data = [{"one": 0, "two": ts}] + df = orig.copy() + df.loc[1, :] = [np.nan, NaT] + tm.assert_frame_equal(df, expected) + + +def test_20476(): + mi = MultiIndex.from_product([["A", "B"], ["a", "b", "c"]]) + df = DataFrame(-1, index=range(3), columns=mi) + filler = DataFrame([[1, 2, 3.0]] * 3, index=range(3), columns=["a", "b", "c"]) + df["A"] = filler + + expected = DataFrame( + { + 0: [1, 1, 1], + 1: [2, 2, 2], + 2: [3.0, 3.0, 3.0], + 3: [-1, -1, -1], + 4: [-1, -1, -1], + 5: [-1, -1, -1], + } + ) + expected.columns = mi + exp_dtypes = Series( + [np.dtype(np.int64)] * 2 + [np.dtype(np.float64)] + [np.dtype(np.int64)] * 3, + index=mi, + ) + tm.assert_series_equal(df.dtypes, exp_dtypes) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_delitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_delitem.py new file mode 100644 index 0000000000000000000000000000000000000000..daec991b7a8dbf8de0221f041e767cb9ce58ae29 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_delitem.py @@ -0,0 +1,60 @@ +import re + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, +) + + +class TestDataFrameDelItem: + def test_delitem(self, float_frame): + del float_frame["A"] + assert "A" not in float_frame + + def test_delitem_multiindex(self): + midx = MultiIndex.from_product([["A", "B"], [1, 2]]) + df = DataFrame(np.random.default_rng(2).standard_normal((4, 4)), columns=midx) + assert len(df.columns) == 4 + assert ("A",) in df.columns + assert "A" in df.columns + + result = df["A"] + assert isinstance(result, DataFrame) + del df["A"] + + assert len(df.columns) == 2 + + # A still in the levels, BUT get a KeyError if trying + # to delete + assert ("A",) not in df.columns + with pytest.raises(KeyError, match=re.escape("('A',)")): + del df[("A",)] + + # behavior of dropped/deleted MultiIndex levels changed from + # GH 2770 to GH 19027: MultiIndex no longer '.__contains__' + # levels which are dropped/deleted + assert "A" not in df.columns + with pytest.raises(KeyError, match=re.escape("('A',)")): + del df["A"] + + def test_delitem_corner(self, float_frame): + f = float_frame.copy() + del f["D"] + assert len(f.columns) == 3 + with pytest.raises(KeyError, match=r"^'D'$"): + del f["D"] + del f["B"] + assert len(f.columns) == 2 + + def test_delitem_col_still_multiindex(self): + arrays = [["a", "b", "c", "top"], ["", "", "", "OD"], ["", "", "", "wx"]] + + tuples = sorted(zip(*arrays)) + index = MultiIndex.from_tuples(tuples) + + df = DataFrame(np.random.default_rng(2).standard_normal((3, 4)), columns=index) + del df[("a", "", "")] + assert isinstance(df.columns, MultiIndex) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get.py new file mode 100644 index 0000000000000000000000000000000000000000..5f2651eec683c10097fb623728048b64778c87e8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get.py @@ -0,0 +1,27 @@ +import pytest + +from pandas import DataFrame +import pandas._testing as tm + + +class TestGet: + def test_get(self, float_frame): + b = float_frame.get("B") + tm.assert_series_equal(b, float_frame["B"]) + + assert float_frame.get("foo") is None + tm.assert_series_equal( + float_frame.get("foo", float_frame["B"]), float_frame["B"] + ) + + @pytest.mark.parametrize( + "df", + [ + DataFrame(), + DataFrame(columns=list("AB")), + DataFrame(columns=list("AB"), index=range(3)), + ], + ) + def test_get_none(self, df): + # see gh-5652 + assert df.get(None) is None diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get_value.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get_value.py new file mode 100644 index 0000000000000000000000000000000000000000..65a1c64a1578ad0cadd9ed6470ab60a2087ffec5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_get_value.py @@ -0,0 +1,22 @@ +import pytest + +from pandas import ( + DataFrame, + MultiIndex, +) + + +class TestGetValue: + def test_get_set_value_no_partial_indexing(self): + # partial w/ MultiIndex raise exception + index = MultiIndex.from_tuples([(0, 1), (0, 2), (1, 1), (1, 2)]) + df = DataFrame(index=index, columns=range(4)) + with pytest.raises(KeyError, match=r"^0$"): + df._get_value(0, 1) + + def test_get_value(self, float_frame): + for idx in float_frame.index: + for col in float_frame.columns: + result = float_frame._get_value(idx, col) + expected = float_frame[col][idx] + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_getitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_getitem.py new file mode 100644 index 0000000000000000000000000000000000000000..a36b0c0e850b3d0994349065cc5390c9f40cbf60 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_getitem.py @@ -0,0 +1,472 @@ +import re + +import numpy as np +import pytest + +from pandas import ( + Categorical, + CategoricalDtype, + CategoricalIndex, + DataFrame, + DateOffset, + DatetimeIndex, + Index, + MultiIndex, + Series, + Timestamp, + concat, + date_range, + get_dummies, + period_range, +) +import pandas._testing as tm +from pandas.core.arrays import SparseArray + + +class TestGetitem: + def test_getitem_unused_level_raises(self): + # GH#20410 + mi = MultiIndex( + levels=[["a_lot", "onlyone", "notevenone"], [1970, ""]], + codes=[[1, 0], [1, 0]], + ) + df = DataFrame(-1, index=range(3), columns=mi) + + with pytest.raises(KeyError, match="notevenone"): + df["notevenone"] + + def test_getitem_periodindex(self): + rng = period_range("1/1/2000", periods=5) + df = DataFrame(np.random.default_rng(2).standard_normal((10, 5)), columns=rng) + + ts = df[rng[0]] + tm.assert_series_equal(ts, df.iloc[:, 0]) + + ts = df["1/1/2000"] + tm.assert_series_equal(ts, df.iloc[:, 0]) + + def test_getitem_list_of_labels_categoricalindex_cols(self): + # GH#16115 + cats = Categorical([Timestamp("12-31-1999"), Timestamp("12-31-2000")]) + + expected = DataFrame([[1, 0], [0, 1]], dtype="bool", index=[0, 1], columns=cats) + dummies = get_dummies(cats) + result = dummies[list(dummies.columns)] + tm.assert_frame_equal(result, expected) + + def test_getitem_sparse_column_return_type_and_dtype(self): + # https://github.com/pandas-dev/pandas/issues/23559 + data = SparseArray([0, 1]) + df = DataFrame({"A": data}) + expected = Series(data, name="A") + result = df["A"] + tm.assert_series_equal(result, expected) + + # Also check iloc and loc while we're here + result = df.iloc[:, 0] + tm.assert_series_equal(result, expected) + + result = df.loc[:, "A"] + tm.assert_series_equal(result, expected) + + def test_getitem_string_columns(self): + # GH#46185 + df = DataFrame([[1, 2]], columns=Index(["A", "B"], dtype="string")) + result = df.A + expected = df["A"] + tm.assert_series_equal(result, expected) + + +class TestGetitemListLike: + def test_getitem_list_missing_key(self): + # GH#13822, incorrect error string with non-unique columns when missing + # column is accessed + df = DataFrame({"x": [1.0], "y": [2.0], "z": [3.0]}) + df.columns = ["x", "x", "z"] + + # Check that we get the correct value in the KeyError + with pytest.raises(KeyError, match=r"\['y'\] not in index"): + df[["x", "y", "z"]] + + def test_getitem_list_duplicates(self): + # GH#1943 + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), columns=list("AABC") + ) + df.columns.name = "foo" + + result = df[["B", "C"]] + assert result.columns.name == "foo" + + expected = df.iloc[:, 2:] + tm.assert_frame_equal(result, expected) + + def test_getitem_dupe_cols(self): + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["a", "a", "b"]) + msg = "\"None of [Index(['baf'], dtype=" + with pytest.raises(KeyError, match=re.escape(msg)): + df[["baf"]] + + @pytest.mark.parametrize( + "idx_type", + [ + list, + iter, + Index, + set, + lambda keys: dict(zip(keys, range(len(keys)))), + lambda keys: dict(zip(keys, range(len(keys)))).keys(), + ], + ids=["list", "iter", "Index", "set", "dict", "dict_keys"], + ) + @pytest.mark.parametrize("levels", [1, 2]) + def test_getitem_listlike(self, idx_type, levels, float_frame): + # GH#21294 + + if levels == 1: + frame, missing = float_frame, "food" + else: + # MultiIndex columns + frame = DataFrame( + np.random.default_rng(2).standard_normal((8, 3)), + columns=Index( + [("foo", "bar"), ("baz", "qux"), ("peek", "aboo")], + name=("sth", "sth2"), + ), + ) + missing = ("good", "food") + + keys = [frame.columns[1], frame.columns[0]] + idx = idx_type(keys) + idx_check = list(idx_type(keys)) + + if isinstance(idx, (set, dict)): + with pytest.raises(TypeError, match="as an indexer is not supported"): + frame[idx] + + return + else: + result = frame[idx] + + expected = frame.loc[:, idx_check] + expected.columns.names = frame.columns.names + + tm.assert_frame_equal(result, expected) + + idx = idx_type(keys + [missing]) + with pytest.raises(KeyError, match="not in index"): + frame[idx] + + def test_getitem_iloc_generator(self): + # GH#39614 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + indexer = (x for x in [1, 2]) + result = df.iloc[indexer] + expected = DataFrame({"a": [2, 3], "b": [5, 6]}, index=[1, 2]) + tm.assert_frame_equal(result, expected) + + def test_getitem_iloc_two_dimensional_generator(self): + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + indexer = (x for x in [1, 2]) + result = df.iloc[indexer, 1] + expected = Series([5, 6], name="b", index=[1, 2]) + tm.assert_series_equal(result, expected) + + def test_getitem_iloc_dateoffset_days(self): + # GH 46671 + df = DataFrame( + list(range(10)), + index=date_range("01-01-2022", periods=10, freq=DateOffset(days=1)), + ) + result = df.loc["2022-01-01":"2022-01-03"] + expected = DataFrame( + [0, 1, 2], + index=DatetimeIndex( + ["2022-01-01", "2022-01-02", "2022-01-03"], + dtype="datetime64[ns]", + freq=DateOffset(days=1), + ), + ) + tm.assert_frame_equal(result, expected) + + df = DataFrame( + list(range(10)), + index=date_range( + "01-01-2022", periods=10, freq=DateOffset(days=1, hours=2) + ), + ) + result = df.loc["2022-01-01":"2022-01-03"] + expected = DataFrame( + [0, 1, 2], + index=DatetimeIndex( + ["2022-01-01 00:00:00", "2022-01-02 02:00:00", "2022-01-03 04:00:00"], + dtype="datetime64[ns]", + freq=DateOffset(days=1, hours=2), + ), + ) + tm.assert_frame_equal(result, expected) + + df = DataFrame( + list(range(10)), + index=date_range("01-01-2022", periods=10, freq=DateOffset(minutes=3)), + ) + result = df.loc["2022-01-01":"2022-01-03"] + tm.assert_frame_equal(result, df) + + +class TestGetitemCallable: + def test_getitem_callable(self, float_frame): + # GH#12533 + result = float_frame[lambda x: "A"] + expected = float_frame.loc[:, "A"] + tm.assert_series_equal(result, expected) + + result = float_frame[lambda x: ["A", "B"]] + expected = float_frame.loc[:, ["A", "B"]] + tm.assert_frame_equal(result, float_frame.loc[:, ["A", "B"]]) + + df = float_frame[:3] + result = df[lambda x: [True, False, True]] + expected = float_frame.iloc[[0, 2], :] + tm.assert_frame_equal(result, expected) + + def test_loc_multiindex_columns_one_level(self): + # GH#29749 + df = DataFrame([[1, 2]], columns=[["a", "b"]]) + expected = DataFrame([1], columns=[["a"]]) + + result = df["a"] + tm.assert_frame_equal(result, expected) + + result = df.loc[:, "a"] + tm.assert_frame_equal(result, expected) + + +class TestGetitemBooleanMask: + def test_getitem_bool_mask_categorical_index(self): + df3 = DataFrame( + { + "A": np.arange(6, dtype="int64"), + }, + index=CategoricalIndex( + [1, 1, 2, 1, 3, 2], + dtype=CategoricalDtype([3, 2, 1], ordered=True), + name="B", + ), + ) + df4 = DataFrame( + { + "A": np.arange(6, dtype="int64"), + }, + index=CategoricalIndex( + [1, 1, 2, 1, 3, 2], + dtype=CategoricalDtype([3, 2, 1], ordered=False), + name="B", + ), + ) + + result = df3[df3.index == "a"] + expected = df3.iloc[[]] + tm.assert_frame_equal(result, expected) + + result = df4[df4.index == "a"] + expected = df4.iloc[[]] + tm.assert_frame_equal(result, expected) + + result = df3[df3.index == 1] + expected = df3.iloc[[0, 1, 3]] + tm.assert_frame_equal(result, expected) + + result = df4[df4.index == 1] + expected = df4.iloc[[0, 1, 3]] + tm.assert_frame_equal(result, expected) + + # since we have an ordered categorical + + # CategoricalIndex([1, 1, 2, 1, 3, 2], + # categories=[3, 2, 1], + # ordered=True, + # name='B') + result = df3[df3.index < 2] + expected = df3.iloc[[4]] + tm.assert_frame_equal(result, expected) + + result = df3[df3.index > 1] + expected = df3.iloc[[]] + tm.assert_frame_equal(result, expected) + + # unordered + # cannot be compared + + # CategoricalIndex([1, 1, 2, 1, 3, 2], + # categories=[3, 2, 1], + # ordered=False, + # name='B') + msg = "Unordered Categoricals can only compare equality or not" + with pytest.raises(TypeError, match=msg): + df4[df4.index < 2] + with pytest.raises(TypeError, match=msg): + df4[df4.index > 1] + + @pytest.mark.parametrize( + "data1,data2,expected_data", + ( + ( + [[1, 2], [3, 4]], + [[0.5, 6], [7, 8]], + [[np.nan, 3.0], [np.nan, 4.0], [np.nan, 7.0], [6.0, 8.0]], + ), + ( + [[1, 2], [3, 4]], + [[5, 6], [7, 8]], + [[np.nan, 3.0], [np.nan, 4.0], [5, 7], [6, 8]], + ), + ), + ) + def test_getitem_bool_mask_duplicate_columns_mixed_dtypes( + self, + data1, + data2, + expected_data, + ): + # GH#31954 + + df1 = DataFrame(np.array(data1)) + df2 = DataFrame(np.array(data2)) + df = concat([df1, df2], axis=1) + + result = df[df > 2] + + exdict = {i: np.array(col) for i, col in enumerate(expected_data)} + expected = DataFrame(exdict).rename(columns={2: 0, 3: 1}) + tm.assert_frame_equal(result, expected) + + @pytest.fixture + def df_dup_cols(self): + dups = ["A", "A", "C", "D"] + df = DataFrame(np.arange(12).reshape(3, 4), columns=dups, dtype="float64") + return df + + def test_getitem_boolean_frame_unaligned_with_duplicate_columns(self, df_dup_cols): + # `df.A > 6` is a DataFrame with a different shape from df + + # boolean with the duplicate raises + df = df_dup_cols + msg = "cannot reindex on an axis with duplicate labels" + with pytest.raises(ValueError, match=msg): + df[df.A > 6] + + def test_getitem_boolean_series_with_duplicate_columns(self, df_dup_cols): + # boolean indexing + # GH#4879 + df = DataFrame( + np.arange(12).reshape(3, 4), columns=["A", "B", "C", "D"], dtype="float64" + ) + expected = df[df.C > 6] + expected.columns = df_dup_cols.columns + + df = df_dup_cols + result = df[df.C > 6] + + tm.assert_frame_equal(result, expected) + + def test_getitem_boolean_frame_with_duplicate_columns(self, df_dup_cols): + # where + df = DataFrame( + np.arange(12).reshape(3, 4), columns=["A", "B", "C", "D"], dtype="float64" + ) + # `df > 6` is a DataFrame with the same shape+alignment as df + expected = df[df > 6] + expected.columns = df_dup_cols.columns + + df = df_dup_cols + result = df[df > 6] + + tm.assert_frame_equal(result, expected) + + def test_getitem_empty_frame_with_boolean(self): + # Test for issue GH#11859 + + df = DataFrame() + df2 = df[df > 0] + tm.assert_frame_equal(df, df2) + + def test_getitem_returns_view_when_column_is_unique_in_df( + self, using_copy_on_write, warn_copy_on_write + ): + # GH#45316 + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["a", "a", "b"]) + df_orig = df.copy() + view = df["b"] + with tm.assert_cow_warning(warn_copy_on_write): + view.loc[:] = 100 + if using_copy_on_write: + expected = df_orig + else: + expected = DataFrame([[1, 2, 100], [4, 5, 100]], columns=["a", "a", "b"]) + tm.assert_frame_equal(df, expected) + + def test_getitem_frozenset_unique_in_column(self): + # GH#41062 + df = DataFrame([[1, 2, 3, 4]], columns=[frozenset(["KEY"]), "B", "C", "C"]) + result = df[frozenset(["KEY"])] + expected = Series([1], name=frozenset(["KEY"])) + tm.assert_series_equal(result, expected) + + +class TestGetitemSlice: + def test_getitem_slice_float64(self, frame_or_series): + values = np.arange(10.0, 50.0, 2) + index = Index(values) + + start, end = values[[5, 15]] + + data = np.random.default_rng(2).standard_normal((20, 3)) + if frame_or_series is not DataFrame: + data = data[:, 0] + + obj = frame_or_series(data, index=index) + + result = obj[start:end] + expected = obj.iloc[5:16] + tm.assert_equal(result, expected) + + result = obj.loc[start:end] + tm.assert_equal(result, expected) + + def test_getitem_datetime_slice(self): + # GH#43223 + df = DataFrame( + {"a": 0}, + index=DatetimeIndex( + [ + "11.01.2011 22:00", + "11.01.2011 23:00", + "12.01.2011 00:00", + "2011-01-13 00:00", + ] + ), + ) + with pytest.raises( + KeyError, match="Value based partial slicing on non-monotonic" + ): + df["2011-01-01":"2011-11-01"] + + def test_getitem_slice_same_dim_only_one_axis(self): + # GH#54622 + df = DataFrame(np.random.default_rng(2).standard_normal((10, 8))) + result = df.iloc[(slice(None, None, 2),)] + assert result.shape == (5, 8) + expected = df.iloc[slice(None, None, 2), slice(None)] + tm.assert_frame_equal(result, expected) + + +class TestGetitemDeprecatedIndexers: + @pytest.mark.parametrize("key", [{"a", "b"}, {"a": "a"}]) + def test_getitem_dict_and_set_deprecated(self, key): + # GH#42825 enforced in 2.0 + df = DataFrame( + [[1, 2], [3, 4]], columns=MultiIndex.from_tuples([("a", 1), ("b", 2)]) + ) + with pytest.raises(TypeError, match="as an indexer is not supported"): + df[key] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..93f4c2c6e327390dd792f2e25cefe72b990c31ff --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_indexing.py @@ -0,0 +1,2028 @@ +from collections import namedtuple +from datetime import ( + datetime, + timedelta, +) +from decimal import Decimal +import re + +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +from pandas._libs import iNaT +from pandas.errors import ( + InvalidIndexError, + PerformanceWarning, + SettingWithCopyError, +) +import pandas.util._test_decorators as td + +from pandas.core.dtypes.common import is_integer + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + DatetimeIndex, + Index, + MultiIndex, + Series, + Timestamp, + date_range, + isna, + notna, + to_datetime, +) +import pandas._testing as tm + +# We pass through a TypeError raised by numpy +_slice_msg = "slice indices must be integers or None or have an __index__ method" + + +class TestDataFrameIndexing: + def test_getitem(self, float_frame): + # Slicing + sl = float_frame[:20] + assert len(sl.index) == 20 + + # Column access + for _, series in sl.items(): + assert len(series.index) == 20 + tm.assert_index_equal(series.index, sl.index) + + for key, _ in float_frame._series.items(): + assert float_frame[key] is not None + + assert "random" not in float_frame + with pytest.raises(KeyError, match="random"): + float_frame["random"] + + def test_getitem_numeric_should_not_fallback_to_positional(self, any_numeric_dtype): + # GH51053 + dtype = any_numeric_dtype + idx = Index([1, 0, 1], dtype=dtype) + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=idx) + result = df[1] + expected = DataFrame([[1, 3], [4, 6]], columns=Index([1, 1], dtype=dtype)) + tm.assert_frame_equal(result, expected, check_exact=True) + + def test_getitem2(self, float_frame): + df = float_frame.copy() + df["$10"] = np.random.default_rng(2).standard_normal(len(df)) + + ad = np.random.default_rng(2).standard_normal(len(df)) + df["@awesome_domain"] = ad + + with pytest.raises(KeyError, match=re.escape("'df[\"$10\"]'")): + df.__getitem__('df["$10"]') + + res = df["@awesome_domain"] + tm.assert_numpy_array_equal(ad, res.values) + + def test_setitem_numeric_should_not_fallback_to_positional(self, any_numeric_dtype): + # GH51053 + dtype = any_numeric_dtype + idx = Index([1, 0, 1], dtype=dtype) + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=idx) + df[1] = 10 + expected = DataFrame([[10, 2, 10], [10, 5, 10]], columns=idx) + tm.assert_frame_equal(df, expected, check_exact=True) + + def test_setitem_list(self, float_frame): + float_frame["E"] = "foo" + data = float_frame[["A", "B"]] + float_frame[["B", "A"]] = data + + tm.assert_series_equal(float_frame["B"], data["A"], check_names=False) + tm.assert_series_equal(float_frame["A"], data["B"], check_names=False) + + msg = "Columns must be same length as key" + with pytest.raises(ValueError, match=msg): + data[["A"]] = float_frame[["A", "B"]] + newcolumndata = range(len(data.index) - 1) + msg = ( + rf"Length of values \({len(newcolumndata)}\) " + rf"does not match length of index \({len(data)}\)" + ) + with pytest.raises(ValueError, match=msg): + data["A"] = newcolumndata + + def test_setitem_list2(self): + df = DataFrame(0, index=range(3), columns=["tt1", "tt2"], dtype=int) + df.loc[1, ["tt1", "tt2"]] = [1, 2] + + result = df.loc[df.index[1], ["tt1", "tt2"]] + expected = Series([1, 2], df.columns, dtype=int, name=1) + tm.assert_series_equal(result, expected) + + df["tt1"] = df["tt2"] = "0" + df.loc[df.index[1], ["tt1", "tt2"]] = ["1", "2"] + result = df.loc[df.index[1], ["tt1", "tt2"]] + expected = Series(["1", "2"], df.columns, name=1) + tm.assert_series_equal(result, expected) + + def test_getitem_boolean(self, mixed_float_frame, mixed_int_frame, datetime_frame): + # boolean indexing + d = datetime_frame.index[10] + indexer = datetime_frame.index > d + indexer_obj = indexer.astype(object) + + subindex = datetime_frame.index[indexer] + subframe = datetime_frame[indexer] + + tm.assert_index_equal(subindex, subframe.index) + with pytest.raises(ValueError, match="Item wrong length"): + datetime_frame[indexer[:-1]] + + subframe_obj = datetime_frame[indexer_obj] + tm.assert_frame_equal(subframe_obj, subframe) + + with pytest.raises(ValueError, match="Boolean array expected"): + datetime_frame[datetime_frame] + + # test that Series work + indexer_obj = Series(indexer_obj, datetime_frame.index) + + subframe_obj = datetime_frame[indexer_obj] + tm.assert_frame_equal(subframe_obj, subframe) + + # test that Series indexers reindex + # we are producing a warning that since the passed boolean + # key is not the same as the given index, we will reindex + # not sure this is really necessary + with tm.assert_produces_warning(UserWarning): + indexer_obj = indexer_obj.reindex(datetime_frame.index[::-1]) + subframe_obj = datetime_frame[indexer_obj] + tm.assert_frame_equal(subframe_obj, subframe) + + # test df[df > 0] + for df in [ + datetime_frame, + mixed_float_frame, + mixed_int_frame, + ]: + data = df._get_numeric_data() + bif = df[df > 0] + bifw = DataFrame( + {c: np.where(data[c] > 0, data[c], np.nan) for c in data.columns}, + index=data.index, + columns=data.columns, + ) + + # add back other columns to compare + for c in df.columns: + if c not in bifw: + bifw[c] = df[c] + bifw = bifw.reindex(columns=df.columns) + + tm.assert_frame_equal(bif, bifw, check_dtype=False) + for c in df.columns: + if bif[c].dtype != bifw[c].dtype: + assert bif[c].dtype == df[c].dtype + + def test_getitem_boolean_casting(self, datetime_frame): + # don't upcast if we don't need to + df = datetime_frame.copy() + df["E"] = 1 + df["E"] = df["E"].astype("int32") + df["E1"] = df["E"].copy() + df["F"] = 1 + df["F"] = df["F"].astype("int64") + df["F1"] = df["F"].copy() + + casted = df[df > 0] + result = casted.dtypes + expected = Series( + [np.dtype("float64")] * 4 + + [np.dtype("int32")] * 2 + + [np.dtype("int64")] * 2, + index=["A", "B", "C", "D", "E", "E1", "F", "F1"], + ) + tm.assert_series_equal(result, expected) + + # int block splitting + df.loc[df.index[1:3], ["E1", "F1"]] = 0 + casted = df[df > 0] + result = casted.dtypes + expected = Series( + [np.dtype("float64")] * 4 + + [np.dtype("int32")] + + [np.dtype("float64")] + + [np.dtype("int64")] + + [np.dtype("float64")], + index=["A", "B", "C", "D", "E", "E1", "F", "F1"], + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "lst", [[True, False, True], [True, True, True], [False, False, False]] + ) + def test_getitem_boolean_list(self, lst): + df = DataFrame(np.arange(12).reshape(3, 4)) + result = df[lst] + expected = df.loc[df.index[lst]] + tm.assert_frame_equal(result, expected) + + def test_getitem_boolean_iadd(self): + arr = np.random.default_rng(2).standard_normal((5, 5)) + + df = DataFrame(arr.copy(), columns=["A", "B", "C", "D", "E"]) + + df[df < 0] += 1 + arr[arr < 0] += 1 + + tm.assert_almost_equal(df.values, arr) + + def test_boolean_index_empty_corner(self): + # #2096 + blah = DataFrame(np.empty([0, 1]), columns=["A"], index=DatetimeIndex([])) + + # both of these should succeed trivially + k = np.array([], bool) + + blah[k] + blah[k] = 0 + + def test_getitem_ix_mixed_integer(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 3)), + index=[1, 10, "C", "E"], + columns=[1, 2, 3], + ) + + result = df.iloc[:-1] + expected = df.loc[df.index[:-1]] + tm.assert_frame_equal(result, expected) + + result = df.loc[[1, 10]] + expected = df.loc[Index([1, 10])] + tm.assert_frame_equal(result, expected) + + def test_getitem_ix_mixed_integer2(self): + # 11320 + df = DataFrame( + { + "rna": (1.5, 2.2, 3.2, 4.5), + -1000: [11, 21, 36, 40], + 0: [10, 22, 43, 34], + 1000: [0, 10, 20, 30], + }, + columns=["rna", -1000, 0, 1000], + ) + result = df[[1000]] + expected = df.iloc[:, [3]] + tm.assert_frame_equal(result, expected) + result = df[[-1000]] + expected = df.iloc[:, [1]] + tm.assert_frame_equal(result, expected) + + def test_getattr(self, float_frame): + tm.assert_series_equal(float_frame.A, float_frame["A"]) + msg = "'DataFrame' object has no attribute 'NONEXISTENT_NAME'" + with pytest.raises(AttributeError, match=msg): + float_frame.NONEXISTENT_NAME + + def test_setattr_column(self): + df = DataFrame({"foobar": 1}, index=range(10)) + + df.foobar = 5 + assert (df.foobar == 5).all() + + def test_setitem( + self, float_frame, using_copy_on_write, warn_copy_on_write, using_infer_string + ): + # not sure what else to do here + series = float_frame["A"][::2] + float_frame["col5"] = series + assert "col5" in float_frame + + assert len(series) == 15 + assert len(float_frame) == 30 + + exp = np.ravel(np.column_stack((series.values, [np.nan] * 15))) + exp = Series(exp, index=float_frame.index, name="col5") + tm.assert_series_equal(float_frame["col5"], exp) + + series = float_frame["A"] + float_frame["col6"] = series + tm.assert_series_equal(series, float_frame["col6"], check_names=False) + + # set ndarray + arr = np.random.default_rng(2).standard_normal(len(float_frame)) + float_frame["col9"] = arr + assert (float_frame["col9"] == arr).all() + + float_frame["col7"] = 5 + assert (float_frame["col7"] == 5).all() + + float_frame["col0"] = 3.14 + assert (float_frame["col0"] == 3.14).all() + + float_frame["col8"] = "foo" + assert (float_frame["col8"] == "foo").all() + + # this is partially a view (e.g. some blocks are view) + # so raise/warn + smaller = float_frame[:2] + + msg = r"\nA value is trying to be set on a copy of a slice from a DataFrame" + if using_copy_on_write or warn_copy_on_write: + # With CoW, adding a new column doesn't raise a warning + smaller["col10"] = ["1", "2"] + else: + with pytest.raises(SettingWithCopyError, match=msg): + smaller["col10"] = ["1", "2"] + + if using_infer_string: + assert smaller["col10"].dtype == "str" + else: + assert smaller["col10"].dtype == np.object_ + assert (smaller["col10"] == ["1", "2"]).all() + + def test_setitem2(self): + # dtype changing GH4204 + df = DataFrame([[0, 0]]) + df.iloc[0] = np.nan + expected = DataFrame([[np.nan, np.nan]]) + tm.assert_frame_equal(df, expected) + + df = DataFrame([[0, 0]]) + df.loc[0] = np.nan + tm.assert_frame_equal(df, expected) + + def test_setitem_boolean(self, float_frame): + df = float_frame.copy() + values = float_frame.values.copy() + + df[df["A"] > 0] = 4 + values[values[:, 0] > 0] = 4 + tm.assert_almost_equal(df.values, values) + + # test that column reindexing works + series = df["A"] == 4 + series = series.reindex(df.index[::-1]) + df[series] = 1 + values[values[:, 0] == 4] = 1 + tm.assert_almost_equal(df.values, values) + + df[df > 0] = 5 + values[values > 0] = 5 + tm.assert_almost_equal(df.values, values) + + df[df == 5] = 0 + values[values == 5] = 0 + tm.assert_almost_equal(df.values, values) + + # a df that needs alignment first + df[df[:-1] < 0] = 2 + np.putmask(values[:-1], values[:-1] < 0, 2) + tm.assert_almost_equal(df.values, values) + + # indexed with same shape but rows-reversed df + df[df[::-1] == 2] = 3 + values[values == 2] = 3 + tm.assert_almost_equal(df.values, values) + + msg = "Must pass DataFrame or 2-d ndarray with boolean values only" + with pytest.raises(TypeError, match=msg): + df[df * 0] = 2 + + # index with DataFrame + df_orig = df.copy() + mask = df > np.abs(df) + df[df > np.abs(df)] = np.nan + values = df_orig.values.copy() + values[mask.values] = np.nan + expected = DataFrame(values, index=df_orig.index, columns=df_orig.columns) + tm.assert_frame_equal(df, expected) + + # set from DataFrame + df[df > np.abs(df)] = df * 2 + np.putmask(values, mask.values, df.values * 2) + expected = DataFrame(values, index=df_orig.index, columns=df_orig.columns) + tm.assert_frame_equal(df, expected) + + def test_setitem_cast(self, float_frame): + float_frame["D"] = float_frame["D"].astype("i8") + assert float_frame["D"].dtype == np.int64 + + # #669, should not cast? + # this is now set to int64, which means a replacement of the column to + # the value dtype (and nothing to do with the existing dtype) + float_frame["B"] = 0 + assert float_frame["B"].dtype == np.int64 + + # cast if pass array of course + float_frame["B"] = np.arange(len(float_frame)) + assert issubclass(float_frame["B"].dtype.type, np.integer) + + float_frame["foo"] = "bar" + float_frame["foo"] = 0 + assert float_frame["foo"].dtype == np.int64 + + float_frame["foo"] = "bar" + float_frame["foo"] = 2.5 + assert float_frame["foo"].dtype == np.float64 + + float_frame["something"] = 0 + assert float_frame["something"].dtype == np.int64 + float_frame["something"] = 2 + assert float_frame["something"].dtype == np.int64 + float_frame["something"] = 2.5 + assert float_frame["something"].dtype == np.float64 + + def test_setitem_corner(self, float_frame, using_infer_string): + # corner case + df = DataFrame({"B": [1.0, 2.0, 3.0], "C": ["a", "b", "c"]}, index=np.arange(3)) + del df["B"] + df["B"] = [1.0, 2.0, 3.0] + assert "B" in df + assert len(df.columns) == 2 + + df["A"] = "beginning" + df["E"] = "foo" + df["D"] = "bar" + df[datetime.now()] = "date" + df[datetime.now()] = 5.0 + + # what to do when empty frame with index + dm = DataFrame(index=float_frame.index) + dm["A"] = "foo" + dm["B"] = "bar" + assert len(dm.columns) == 2 + assert dm.values.dtype == np.object_ + + # upcast + dm["C"] = 1 + assert dm["C"].dtype == np.int64 + + dm["E"] = 1.0 + assert dm["E"].dtype == np.float64 + + # set existing column + dm["A"] = "bar" + assert "bar" == dm["A"].iloc[0] + + dm = DataFrame(index=np.arange(3)) + dm["A"] = 1 + dm["foo"] = "bar" + del dm["foo"] + dm["foo"] = "bar" + if using_infer_string: + assert dm["foo"].dtype == "str" + else: + assert dm["foo"].dtype == np.object_ + + dm["coercible"] = ["1", "2", "3"] + if using_infer_string: + assert dm["coercible"].dtype == "str" + else: + assert dm["coercible"].dtype == np.object_ + + def test_setitem_corner2(self): + data = { + "title": ["foobar", "bar", "foobar"] + ["foobar"] * 17, + "cruft": np.random.default_rng(2).random(20), + } + + df = DataFrame(data) + ix = df[df["title"] == "bar"].index + + df.loc[ix, ["title"]] = "foobar" + df.loc[ix, ["cruft"]] = 0 + + assert df.loc[1, "title"] == "foobar" + assert df.loc[1, "cruft"] == 0 + + def test_setitem_ambig(self, using_infer_string): + # Difficulties with mixed-type data + # Created as float type + dm = DataFrame(index=range(3), columns=range(3)) + + coercable_series = Series([Decimal(1) for _ in range(3)], index=range(3)) + uncoercable_series = Series(["foo", "bzr", "baz"], index=range(3)) + + dm[0] = np.ones(3) + assert len(dm.columns) == 3 + + dm[1] = coercable_series + assert len(dm.columns) == 3 + + dm[2] = uncoercable_series + assert len(dm.columns) == 3 + if using_infer_string: + assert dm[2].dtype == "str" + else: + assert dm[2].dtype == np.object_ + + def test_setitem_None(self, float_frame): + # GH #766 + float_frame[None] = float_frame["A"] + tm.assert_series_equal( + float_frame.iloc[:, -1], float_frame["A"], check_names=False + ) + tm.assert_series_equal( + float_frame.loc[:, None], float_frame["A"], check_names=False + ) + tm.assert_series_equal(float_frame[None], float_frame["A"], check_names=False) + + def test_loc_setitem_boolean_mask_allfalse(self): + # GH 9596 + df = DataFrame( + {"a": ["1", "2", "3"], "b": ["11", "22", "33"], "c": ["111", "222", "333"]} + ) + + result = df.copy() + result.loc[result.b.isna(), "a"] = result.a.copy() + tm.assert_frame_equal(result, df) + + def test_getitem_fancy_slice_integers_step(self): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 5))) + + # this is OK + df.iloc[:8:2] + df.iloc[:8:2] = np.nan + assert isna(df.iloc[:8:2]).values.all() + + def test_getitem_setitem_integer_slice_keyerrors(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 5)), index=range(0, 20, 2) + ) + + # this is OK + cp = df.copy() + cp.iloc[4:10] = 0 + assert (cp.iloc[4:10] == 0).values.all() + + # so is this + cp = df.copy() + cp.iloc[3:11] = 0 + assert (cp.iloc[3:11] == 0).values.all() + + result = df.iloc[2:6] + result2 = df.loc[3:11] + expected = df.reindex([4, 6, 8, 10]) + + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + # non-monotonic, raise KeyError + df2 = df.iloc[list(range(5)) + list(range(5, 10))[::-1]] + with pytest.raises(KeyError, match=r"^3$"): + df2.loc[3:11] + with pytest.raises(KeyError, match=r"^3$"): + df2.loc[3:11] = 0 + + @td.skip_array_manager_invalid_test # already covered in test_iloc_col_slice_view + def test_fancy_getitem_slice_mixed( + self, float_frame, float_string_frame, using_copy_on_write, warn_copy_on_write + ): + sliced = float_string_frame.iloc[:, -3:] + assert sliced["D"].dtype == np.float64 + + # get view with single block + # setting it triggers setting with copy + original = float_frame.copy() + sliced = float_frame.iloc[:, -3:] + + assert np.shares_memory(sliced["C"]._values, float_frame["C"]._values) + + with tm.assert_cow_warning(warn_copy_on_write): + sliced.loc[:, "C"] = 4.0 + if not using_copy_on_write: + assert (float_frame["C"] == 4).all() + + # with the enforcement of GH#45333 in 2.0, this remains a view + np.shares_memory(sliced["C"]._values, float_frame["C"]._values) + else: + tm.assert_frame_equal(float_frame, original) + + def test_getitem_setitem_non_ix_labels(self): + df = DataFrame(range(20), index=date_range("2020-01-01", periods=20)) + + start, end = df.index[[5, 10]] + + result = df.loc[start:end] + result2 = df[start:end] + expected = df[5:11] + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + result = df.copy() + result.loc[start:end] = 0 + result2 = df.copy() + result2[start:end] = 0 + expected = df.copy() + expected[5:11] = 0 + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + def test_ix_multi_take(self): + df = DataFrame(np.random.default_rng(2).standard_normal((3, 2))) + rs = df.loc[df.index == 0, :] + xp = df.reindex([0]) + tm.assert_frame_equal(rs, xp) + + # GH#1321 + df = DataFrame(np.random.default_rng(2).standard_normal((3, 2))) + rs = df.loc[df.index == 0, df.columns == 1] + xp = df.reindex(index=[0], columns=[1]) + tm.assert_frame_equal(rs, xp) + + def test_getitem_fancy_scalar(self, float_frame): + f = float_frame + ix = f.loc + + # individual value + for col in f.columns: + ts = f[col] + for idx in f.index[::5]: + assert ix[idx, col] == ts[idx] + + @td.skip_array_manager_invalid_test # TODO(ArrayManager) rewrite not using .values + def test_setitem_fancy_scalar(self, float_frame): + f = float_frame + expected = float_frame.copy() + ix = f.loc + + # individual value + for j, col in enumerate(f.columns): + f[col] + for idx in f.index[::5]: + i = f.index.get_loc(idx) + val = np.random.default_rng(2).standard_normal() + expected.iloc[i, j] = val + + ix[idx, col] = val + tm.assert_frame_equal(f, expected) + + def test_getitem_fancy_boolean(self, float_frame): + f = float_frame + ix = f.loc + + expected = f.reindex(columns=["B", "D"]) + result = ix[:, [False, True, False, True]] + tm.assert_frame_equal(result, expected) + + expected = f.reindex(index=f.index[5:10], columns=["B", "D"]) + result = ix[f.index[5:10], [False, True, False, True]] + tm.assert_frame_equal(result, expected) + + boolvec = f.index > f.index[7] + expected = f.reindex(index=f.index[boolvec]) + result = ix[boolvec] + tm.assert_frame_equal(result, expected) + result = ix[boolvec, :] + tm.assert_frame_equal(result, expected) + + result = ix[boolvec, f.columns[2:]] + expected = f.reindex(index=f.index[boolvec], columns=["C", "D"]) + tm.assert_frame_equal(result, expected) + + @td.skip_array_manager_invalid_test # TODO(ArrayManager) rewrite not using .values + def test_setitem_fancy_boolean(self, float_frame): + # from 2d, set with booleans + frame = float_frame.copy() + expected = float_frame.copy() + values = expected.values.copy() + + mask = frame["A"] > 0 + frame.loc[mask] = 0.0 + values[mask.values] = 0.0 + expected = DataFrame(values, index=expected.index, columns=expected.columns) + tm.assert_frame_equal(frame, expected) + + frame = float_frame.copy() + expected = float_frame.copy() + values = expected.values.copy() + frame.loc[mask, ["A", "B"]] = 0.0 + values[mask.values, :2] = 0.0 + expected = DataFrame(values, index=expected.index, columns=expected.columns) + tm.assert_frame_equal(frame, expected) + + def test_getitem_fancy_ints(self, float_frame): + result = float_frame.iloc[[1, 4, 7]] + expected = float_frame.loc[float_frame.index[[1, 4, 7]]] + tm.assert_frame_equal(result, expected) + + result = float_frame.iloc[:, [2, 0, 1]] + expected = float_frame.loc[:, float_frame.columns[[2, 0, 1]]] + tm.assert_frame_equal(result, expected) + + def test_getitem_setitem_boolean_misaligned(self, float_frame): + # boolean index misaligned labels + mask = float_frame["A"][::-1] > 1 + + result = float_frame.loc[mask] + expected = float_frame.loc[mask[::-1]] + tm.assert_frame_equal(result, expected) + + cp = float_frame.copy() + expected = float_frame.copy() + cp.loc[mask] = 0 + expected.loc[mask] = 0 + tm.assert_frame_equal(cp, expected) + + def test_getitem_setitem_boolean_multi(self): + df = DataFrame(np.random.default_rng(2).standard_normal((3, 2))) + + # get + k1 = np.array([True, False, True]) + k2 = np.array([False, True]) + result = df.loc[k1, k2] + expected = df.loc[[0, 2], [1]] + tm.assert_frame_equal(result, expected) + + expected = df.copy() + df.loc[np.array([True, False, True]), np.array([False, True])] = 5 + expected.loc[[0, 2], [1]] = 5 + tm.assert_frame_equal(df, expected) + + def test_getitem_setitem_float_labels(self, using_array_manager): + index = Index([1.5, 2, 3, 4, 5]) + df = DataFrame(np.random.default_rng(2).standard_normal((5, 5)), index=index) + + result = df.loc[1.5:4] + expected = df.reindex([1.5, 2, 3, 4]) + tm.assert_frame_equal(result, expected) + assert len(result) == 4 + + result = df.loc[4:5] + expected = df.reindex([4, 5]) # reindex with int + tm.assert_frame_equal(result, expected, check_index_type=False) + assert len(result) == 2 + + result = df.loc[4:5] + expected = df.reindex([4.0, 5.0]) # reindex with float + tm.assert_frame_equal(result, expected) + assert len(result) == 2 + + # loc_float changes this to work properly + result = df.loc[1:2] + expected = df.iloc[0:2] + tm.assert_frame_equal(result, expected) + + expected = df.iloc[0:2] + msg = r"The behavior of obj\[i:j\] with a float-dtype index" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df[1:2] + tm.assert_frame_equal(result, expected) + + # #2727 + index = Index([1.0, 2.5, 3.5, 4.5, 5.0]) + df = DataFrame(np.random.default_rng(2).standard_normal((5, 5)), index=index) + + # positional slicing only via iloc! + msg = ( + "cannot do positional indexing on Index with " + r"these indexers \[1.0\] of type float" + ) + with pytest.raises(TypeError, match=msg): + df.iloc[1.0:5] + + result = df.iloc[4:5] + expected = df.reindex([5.0]) + tm.assert_frame_equal(result, expected) + assert len(result) == 1 + + cp = df.copy() + + with pytest.raises(TypeError, match=_slice_msg): + cp.iloc[1.0:5] = 0 + + with pytest.raises(TypeError, match=msg): + result = cp.iloc[1.0:5] == 0 + + assert result.values.all() + assert (cp.iloc[0:1] == df.iloc[0:1]).values.all() + + cp = df.copy() + cp.iloc[4:5] = 0 + assert (cp.iloc[4:5] == 0).values.all() + assert (cp.iloc[0:4] == df.iloc[0:4]).values.all() + + # float slicing + result = df.loc[1.0:5] + expected = df + tm.assert_frame_equal(result, expected) + assert len(result) == 5 + + result = df.loc[1.1:5] + expected = df.reindex([2.5, 3.5, 4.5, 5.0]) + tm.assert_frame_equal(result, expected) + assert len(result) == 4 + + result = df.loc[4.51:5] + expected = df.reindex([5.0]) + tm.assert_frame_equal(result, expected) + assert len(result) == 1 + + result = df.loc[1.0:5.0] + expected = df.reindex([1.0, 2.5, 3.5, 4.5, 5.0]) + tm.assert_frame_equal(result, expected) + assert len(result) == 5 + + cp = df.copy() + cp.loc[1.0:5.0] = 0 + result = cp.loc[1.0:5.0] + assert (result == 0).values.all() + + def test_setitem_single_column_mixed_datetime(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=["a", "b", "c", "d", "e"], + columns=["foo", "bar", "baz"], + ) + + df["timestamp"] = Timestamp("20010102") + + # check our dtypes + result = df.dtypes + expected = Series( + [np.dtype("float64")] * 3 + [np.dtype("datetime64[s]")], + index=["foo", "bar", "baz", "timestamp"], + ) + tm.assert_series_equal(result, expected) + + # GH#16674 iNaT is treated as an integer when given by the user + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.loc["b", "timestamp"] = iNaT + assert not isna(df.loc["b", "timestamp"]) + assert df["timestamp"].dtype == np.object_ + assert df.loc["b", "timestamp"] == iNaT + + # allow this syntax (as of GH#3216) + df.loc["c", "timestamp"] = np.nan + assert isna(df.loc["c", "timestamp"]) + + # allow this syntax + df.loc["d", :] = np.nan + assert not isna(df.loc["c", :]).all() + + def test_setitem_mixed_datetime(self): + # GH 9336 + expected = DataFrame( + { + "a": [0, 0, 0, 0, 13, 14], + "b": [ + datetime(2012, 1, 1), + 1, + "x", + "y", + datetime(2013, 1, 1), + datetime(2014, 1, 1), + ], + } + ) + df = DataFrame(0, columns=list("ab"), index=range(6)) + df["b"] = pd.NaT + df.loc[0, "b"] = datetime(2012, 1, 1) + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.loc[1, "b"] = 1 + df.loc[[2, 3], "b"] = "x", "y" + A = np.array( + [ + [13, np.datetime64("2013-01-01T00:00:00")], + [14, np.datetime64("2014-01-01T00:00:00")], + ] + ) + df.loc[[4, 5], ["a", "b"]] = A + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_float(self, float_frame): + piece = float_frame.loc[float_frame.index[:2], ["A", "B"]] + float_frame.loc[float_frame.index[-2] :, ["A", "B"]] = piece.values + result = float_frame.loc[float_frame.index[-2:], ["A", "B"]].values + expected = piece.values + tm.assert_almost_equal(result, expected) + + # dtype inference + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)") + def test_setitem_frame_mixed(self, float_string_frame): + # GH 3216 + + # already aligned + f = float_string_frame.copy() + piece = DataFrame( + [[1.0, 2.0], [3.0, 4.0]], index=f.index[0:2], columns=["A", "B"] + ) + key = (f.index[slice(None, 2)], ["A", "B"]) + f.loc[key] = piece + tm.assert_almost_equal(f.loc[f.index[0:2], ["A", "B"]].values, piece.values) + + # dtype inference + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)") + def test_setitem_frame_mixed_rows_unaligned(self, float_string_frame): + # GH#3216 rows unaligned + f = float_string_frame.copy() + piece = DataFrame( + [[1.0, 2.0], [3.0, 4.0], [5.0, 6.0], [7.0, 8.0]], + index=list(f.index[0:2]) + ["foo", "bar"], + columns=["A", "B"], + ) + key = (f.index[slice(None, 2)], ["A", "B"]) + f.loc[key] = piece + tm.assert_almost_equal( + f.loc[f.index[0:2:], ["A", "B"]].values, piece.values[0:2] + ) + + # dtype inference + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)") + def test_setitem_frame_mixed_key_unaligned(self, float_string_frame): + # GH#3216 key is unaligned with values + f = float_string_frame.copy() + piece = f.loc[f.index[:2], ["A"]] + piece.index = f.index[-2:] + key = (f.index[slice(-2, None)], ["A", "B"]) + f.loc[key] = piece + piece["B"] = np.nan + tm.assert_almost_equal(f.loc[f.index[-2:], ["A", "B"]].values, piece.values) + + def test_setitem_frame_mixed_ndarray(self, float_string_frame): + # GH#3216 ndarray + f = float_string_frame.copy() + piece = float_string_frame.loc[f.index[:2], ["A", "B"]] + key = (f.index[slice(-2, None)], ["A", "B"]) + f.loc[key] = piece.values + tm.assert_almost_equal(f.loc[f.index[-2:], ["A", "B"]].values, piece.values) + + def test_setitem_frame_upcast(self): + # needs upcasting + df = DataFrame([[1, 2, "foo"], [3, 4, "bar"]], columns=["A", "B", "C"]) + df2 = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df2.loc[:, ["A", "B"]] = df.loc[:, ["A", "B"]] + 0.5 + expected = df.reindex(columns=["A", "B"]) + expected += 0.5 + expected["C"] = df["C"] + tm.assert_frame_equal(df2, expected) + + def test_setitem_frame_align(self, float_frame): + piece = float_frame.loc[float_frame.index[:2], ["A", "B"]] + piece.index = float_frame.index[-2:] + piece.columns = ["A", "B"] + float_frame.loc[float_frame.index[-2:], ["A", "B"]] = piece + result = float_frame.loc[float_frame.index[-2:], ["A", "B"]].values + expected = piece.values + tm.assert_almost_equal(result, expected) + + def test_getitem_setitem_ix_duplicates(self): + # #1201 + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=["foo", "foo", "bar", "baz", "bar"], + ) + + result = df.loc["foo"] + expected = df[:2] + tm.assert_frame_equal(result, expected) + + result = df.loc["bar"] + expected = df.iloc[[2, 4]] + tm.assert_frame_equal(result, expected) + + result = df.loc["baz"] + expected = df.iloc[3] + tm.assert_series_equal(result, expected) + + def test_getitem_ix_boolean_duplicates_multiple(self): + # #1201 + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=["foo", "foo", "bar", "baz", "bar"], + ) + + result = df.loc[["bar"]] + exp = df.iloc[[2, 4]] + tm.assert_frame_equal(result, exp) + + result = df.loc[df[1] > 0] + exp = df[df[1] > 0] + tm.assert_frame_equal(result, exp) + + result = df.loc[df[0] > 0] + exp = df[df[0] > 0] + tm.assert_frame_equal(result, exp) + + @pytest.mark.parametrize("bool_value", [True, False]) + def test_getitem_setitem_ix_bool_keyerror(self, bool_value): + # #2199 + df = DataFrame({"a": [1, 2, 3]}) + message = f"{bool_value}: boolean label can not be used without a boolean index" + with pytest.raises(KeyError, match=message): + df.loc[bool_value] + + msg = "cannot use a single bool to index into setitem" + with pytest.raises(KeyError, match=msg): + df.loc[bool_value] = 0 + + # TODO: rename? remove? + def test_single_element_ix_dont_upcast(self, float_frame): + float_frame["E"] = 1 + assert issubclass(float_frame["E"].dtype.type, (int, np.integer)) + + result = float_frame.loc[float_frame.index[5], "E"] + assert is_integer(result) + + # GH 11617 + df = DataFrame({"a": [1.23]}) + df["b"] = 666 + + result = df.loc[0, "b"] + assert is_integer(result) + + expected = Series([666], [0], name="b") + result = df.loc[[0], "b"] + tm.assert_series_equal(result, expected) + + def test_iloc_callable_tuple_return_value(self): + # GH53769 + df = DataFrame(np.arange(40).reshape(10, 4), index=range(0, 20, 2)) + msg = "callable with iloc" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.iloc[lambda _: (0,)] + with tm.assert_produces_warning(FutureWarning, match=msg): + df.iloc[lambda _: (0,)] = 1 + + def test_iloc_row(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), index=range(0, 20, 2) + ) + + result = df.iloc[1] + exp = df.loc[2] + tm.assert_series_equal(result, exp) + + result = df.iloc[2] + exp = df.loc[4] + tm.assert_series_equal(result, exp) + + # slice + result = df.iloc[slice(4, 8)] + expected = df.loc[8:14] + tm.assert_frame_equal(result, expected) + + # list of integers + result = df.iloc[[1, 2, 4, 6]] + expected = df.reindex(df.index[[1, 2, 4, 6]]) + tm.assert_frame_equal(result, expected) + + def test_iloc_row_slice_view(self, using_copy_on_write, warn_copy_on_write): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), index=range(0, 20, 2) + ) + original = df.copy() + + # verify slice is view + # setting it makes it raise/warn + subset = df.iloc[slice(4, 8)] + + assert np.shares_memory(df[2], subset[2]) + + exp_col = original[2].copy() + with tm.assert_cow_warning(warn_copy_on_write): + subset.loc[:, 2] = 0.0 + if not using_copy_on_write: + exp_col._values[4:8] = 0.0 + + # With the enforcement of GH#45333 in 2.0, this remains a view + assert np.shares_memory(df[2], subset[2]) + tm.assert_series_equal(df[2], exp_col) + + def test_iloc_col(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 10)), columns=range(0, 20, 2) + ) + + result = df.iloc[:, 1] + exp = df.loc[:, 2] + tm.assert_series_equal(result, exp) + + result = df.iloc[:, 2] + exp = df.loc[:, 4] + tm.assert_series_equal(result, exp) + + # slice + result = df.iloc[:, slice(4, 8)] + expected = df.loc[:, 8:14] + tm.assert_frame_equal(result, expected) + + # list of integers + result = df.iloc[:, [1, 2, 4, 6]] + expected = df.reindex(columns=df.columns[[1, 2, 4, 6]]) + tm.assert_frame_equal(result, expected) + + def test_iloc_col_slice_view( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 10)), columns=range(0, 20, 2) + ) + original = df.copy() + subset = df.iloc[:, slice(4, 8)] + + if not using_array_manager and not using_copy_on_write: + # verify slice is view + assert np.shares_memory(df[8]._values, subset[8]._values) + + with tm.assert_cow_warning(warn_copy_on_write): + subset.loc[:, 8] = 0.0 + + assert (df[8] == 0).all() + + # with the enforcement of GH#45333 in 2.0, this remains a view + assert np.shares_memory(df[8]._values, subset[8]._values) + else: + if using_copy_on_write: + # verify slice is view + assert np.shares_memory(df[8]._values, subset[8]._values) + subset[8] = 0.0 + # subset changed + assert (subset[8] == 0).all() + # but df itself did not change (setitem replaces full column) + tm.assert_frame_equal(df, original) + + def test_loc_duplicates(self): + # gh-17105 + + # insert a duplicate element to the index + trange = date_range( + start=Timestamp(year=2017, month=1, day=1), + end=Timestamp(year=2017, month=1, day=5), + ) + + trange = trange.insert(loc=5, item=Timestamp(year=2017, month=1, day=5)) + + df = DataFrame(0, index=trange, columns=["A", "B"]) + bool_idx = np.array([False, False, False, False, False, True]) + + # assignment + df.loc[trange[bool_idx], "A"] = 6 + + expected = DataFrame( + {"A": [0, 0, 0, 0, 6, 6], "B": [0, 0, 0, 0, 0, 0]}, index=trange + ) + tm.assert_frame_equal(df, expected) + + # in-place + df = DataFrame(0, index=trange, columns=["A", "B"]) + df.loc[trange[bool_idx], "A"] += 6 + tm.assert_frame_equal(df, expected) + + def test_setitem_with_unaligned_tz_aware_datetime_column(self): + # GH 12981 + # Assignment of unaligned offset-aware datetime series. + # Make sure timezone isn't lost + column = Series(date_range("2015-01-01", periods=3, tz="utc"), name="dates") + df = DataFrame({"dates": column}) + df["dates"] = column[[1, 0, 2]] + tm.assert_series_equal(df["dates"], column) + + df = DataFrame({"dates": column}) + df.loc[[0, 1, 2], "dates"] = column[[1, 0, 2]] + tm.assert_series_equal(df["dates"], column) + + def test_loc_setitem_datetimelike_with_inference(self): + # GH 7592 + # assignment of timedeltas with NaT + + one_hour = timedelta(hours=1) + df = DataFrame(index=date_range("20130101", periods=4)) + df["A"] = np.array([1 * one_hour] * 4, dtype="m8[ns]") + df.loc[:, "B"] = np.array([2 * one_hour] * 4, dtype="m8[ns]") + df.loc[df.index[:3], "C"] = np.array([3 * one_hour] * 3, dtype="m8[ns]") + df.loc[:, "D"] = np.array([4 * one_hour] * 4, dtype="m8[ns]") + df.loc[df.index[:3], "E"] = np.array([5 * one_hour] * 3, dtype="m8[ns]") + df["F"] = np.timedelta64("NaT") + df.loc[df.index[:-1], "F"] = np.array([6 * one_hour] * 3, dtype="m8[ns]") + df.loc[df.index[-3] :, "G"] = date_range("20130101", periods=3) + df["H"] = np.datetime64("NaT") + result = df.dtypes + expected = Series( + [np.dtype("timedelta64[ns]")] * 6 + [np.dtype("datetime64[ns]")] * 2, + index=list("ABCDEFGH"), + ) + tm.assert_series_equal(result, expected) + + def test_getitem_boolean_indexing_mixed(self): + df = DataFrame( + { + 0: {35: np.nan, 40: np.nan, 43: np.nan, 49: np.nan, 50: np.nan}, + 1: { + 35: np.nan, + 40: 0.32632316859446198, + 43: np.nan, + 49: 0.32632316859446198, + 50: 0.39114724480578139, + }, + 2: { + 35: np.nan, + 40: np.nan, + 43: 0.29012581014105987, + 49: np.nan, + 50: np.nan, + }, + 3: {35: np.nan, 40: np.nan, 43: np.nan, 49: np.nan, 50: np.nan}, + 4: { + 35: 0.34215328467153283, + 40: np.nan, + 43: np.nan, + 49: np.nan, + 50: np.nan, + }, + "y": {35: 0, 40: 0, 43: 0, 49: 0, 50: 1}, + } + ) + + # mixed int/float ok + df2 = df.copy() + df2[df2 > 0.3] = 1 + expected = df.copy() + expected.loc[40, 1] = 1 + expected.loc[49, 1] = 1 + expected.loc[50, 1] = 1 + expected.loc[35, 4] = 1 + tm.assert_frame_equal(df2, expected) + + df["foo"] = "test" + msg = "not supported between instances|unorderable types|Invalid comparison" + + with pytest.raises(TypeError, match=msg): + df[df > 0.3] = 1 + + def test_type_error_multiindex(self): + # See gh-12218 + mi = MultiIndex.from_product([["x", "y"], [0, 1]], names=[None, "c"]) + dg = DataFrame( + [[1, 1, 2, 2], [3, 3, 4, 4]], columns=mi, index=Index([0, 1], name="i") + ) + with pytest.raises(InvalidIndexError, match="slice"): + dg[:, 0] + + index = Index(range(2), name="i") + columns = MultiIndex( + levels=[["x", "y"], [0, 1]], codes=[[0, 1], [0, 0]], names=[None, "c"] + ) + expected = DataFrame([[1, 2], [3, 4]], columns=columns, index=index) + + result = dg.loc[:, (slice(None), 0)] + tm.assert_frame_equal(result, expected) + + name = ("x", 0) + index = Index(range(2), name="i") + expected = Series([1, 3], index=index, name=name) + + result = dg["x", 0] + tm.assert_series_equal(result, expected) + + def test_getitem_interval_index_partial_indexing(self): + # GH#36490 + df = DataFrame( + np.ones((3, 4)), columns=pd.IntervalIndex.from_breaks(np.arange(5)) + ) + + expected = df.iloc[:, 0] + + res = df[0.5] + tm.assert_series_equal(res, expected) + + res = df.loc[:, 0.5] + tm.assert_series_equal(res, expected) + + def test_setitem_array_as_cell_value(self): + # GH#43422 + df = DataFrame(columns=["a", "b"], dtype=object) + df.loc[0] = {"a": np.zeros((2,)), "b": np.zeros((2, 2))} + expected = DataFrame({"a": [np.zeros((2,))], "b": [np.zeros((2, 2))]}) + tm.assert_frame_equal(df, expected) + + def test_iloc_setitem_nullable_2d_values(self): + df = DataFrame({"A": [1, 2, 3]}, dtype="Int64") + orig = df.copy() + + df.loc[:] = df.values[:, ::-1] + tm.assert_frame_equal(df, orig) + + df.loc[:] = pd.core.arrays.NumpyExtensionArray(df.values[:, ::-1]) + tm.assert_frame_equal(df, orig) + + df.iloc[:] = df.iloc[:, :].copy() + tm.assert_frame_equal(df, orig) + + def test_getitem_segfault_with_empty_like_object(self): + # GH#46848 + df = DataFrame(np.empty((1, 1), dtype=object)) + df[0] = np.empty_like(df[0]) + # this produces the segfault + df[[0]] + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + @pytest.mark.parametrize( + "null", [pd.NaT, pd.NaT.to_numpy("M8[ns]"), pd.NaT.to_numpy("m8[ns]")] + ) + def test_setting_mismatched_na_into_nullable_fails( + self, null, any_numeric_ea_dtype + ): + # GH#44514 don't cast mismatched nulls to pd.NA + df = DataFrame({"A": [1, 2, 3]}, dtype=any_numeric_ea_dtype) + ser = df["A"].copy() + arr = ser._values + + msg = "|".join( + [ + r"timedelta64\[ns\] cannot be converted to (Floating|Integer)Dtype", + r"datetime64\[ns\] cannot be converted to (Floating|Integer)Dtype", + "'values' contains non-numeric NA", + r"Invalid value '.*' for dtype '(U?Int|Float)\d{1,2}'", + ] + ) + with pytest.raises(TypeError, match=msg): + arr[0] = null + + with pytest.raises(TypeError, match=msg): + arr[:2] = [null, null] + + with pytest.raises(TypeError, match=msg): + ser[0] = null + + with pytest.raises(TypeError, match=msg): + ser[:2] = [null, null] + + with pytest.raises(TypeError, match=msg): + ser.iloc[0] = null + + with pytest.raises(TypeError, match=msg): + ser.iloc[:2] = [null, null] + + with pytest.raises(TypeError, match=msg): + df.iloc[0, 0] = null + + with pytest.raises(TypeError, match=msg): + df.iloc[:2, 0] = [null, null] + + # Multi-Block + df2 = df.copy() + df2["B"] = ser.copy() + with pytest.raises(TypeError, match=msg): + df2.iloc[0, 0] = null + + with pytest.raises(TypeError, match=msg): + df2.iloc[:2, 0] = [null, null] + + def test_loc_expand_empty_frame_keep_index_name(self): + # GH#45621 + df = DataFrame(columns=["b"], index=Index([], name="a")) + df.loc[0] = 1 + expected = DataFrame({"b": [1]}, index=Index([0], name="a")) + tm.assert_frame_equal(df, expected) + + def test_loc_expand_empty_frame_keep_midx_names(self): + # GH#46317 + df = DataFrame( + columns=["d"], index=MultiIndex.from_tuples([], names=["a", "b", "c"]) + ) + df.loc[(1, 2, 3)] = "foo" + expected = DataFrame( + {"d": ["foo"]}, + index=MultiIndex.from_tuples([(1, 2, 3)], names=["a", "b", "c"]), + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "val, idxr", + [ + ("x", "a"), + ("x", ["a"]), + (1, "a"), + (1, ["a"]), + ], + ) + def test_loc_setitem_rhs_frame(self, idxr, val): + # GH#47578 + df = DataFrame({"a": [1, 2]}) + + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.loc[:, idxr] = DataFrame({"a": [val, 11]}, index=[1, 2]) + expected = DataFrame({"a": [np.nan, val]}) + tm.assert_frame_equal(df, expected) + + @td.skip_array_manager_invalid_test + def test_iloc_setitem_enlarge_no_warning(self, warn_copy_on_write): + # GH#47381 + df = DataFrame(columns=["a", "b"]) + expected = df.copy() + view = df[:] + df.iloc[:, 0] = np.array([1, 2], dtype=np.float64) + tm.assert_frame_equal(view, expected) + + def test_loc_internals_not_updated_correctly(self): + # GH#47867 all steps are necessary to reproduce the initial bug + df = DataFrame( + {"bool_col": True, "a": 1, "b": 2.5}, + index=MultiIndex.from_arrays([[1, 2], [1, 2]], names=["idx1", "idx2"]), + ) + idx = [(1, 1)] + + df["c"] = 3 + df.loc[idx, "c"] = 0 + + df.loc[idx, "c"] + df.loc[idx, ["a", "b"]] + + df.loc[idx, "c"] = 15 + result = df.loc[idx, "c"] + expected = df = Series( + 15, + index=MultiIndex.from_arrays([[1], [1]], names=["idx1", "idx2"]), + name="c", + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("val", [None, [None], pd.NA, [pd.NA]]) + def test_iloc_setitem_string_list_na(self, val): + # GH#45469 + df = DataFrame({"a": ["a", "b", "c"]}, dtype="string") + df.iloc[[0], :] = val + expected = DataFrame({"a": [pd.NA, "b", "c"]}, dtype="string") + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("val", [None, pd.NA]) + def test_iloc_setitem_string_na(self, val): + # GH#45469 + df = DataFrame({"a": ["a", "b", "c"]}, dtype="string") + df.iloc[0, :] = val + expected = DataFrame({"a": [pd.NA, "b", "c"]}, dtype="string") + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("func", [list, Series, np.array]) + def test_iloc_setitem_ea_null_slice_length_one_list(self, func): + # GH#48016 + df = DataFrame({"a": [1, 2, 3]}, dtype="Int64") + df.iloc[:, func([0])] = 5 + expected = DataFrame({"a": [5, 5, 5]}, dtype="Int64") + tm.assert_frame_equal(df, expected) + + def test_loc_named_tuple_for_midx(self): + # GH#48124 + df = DataFrame( + index=MultiIndex.from_product( + [["A", "B"], ["a", "b", "c"]], names=["first", "second"] + ) + ) + indexer_tuple = namedtuple("Indexer", df.index.names) + idxr = indexer_tuple(first="A", second=["a", "b"]) + result = df.loc[idxr, :] + expected = DataFrame( + index=MultiIndex.from_tuples( + [("A", "a"), ("A", "b")], names=["first", "second"] + ) + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("indexer", [["a"], "a"]) + @pytest.mark.parametrize("col", [{}, {"b": 1}]) + def test_set_2d_casting_date_to_int(self, col, indexer): + # GH#49159 + df = DataFrame( + {"a": [Timestamp("2022-12-29"), Timestamp("2022-12-30")], **col}, + ) + df.loc[[1], indexer] = df["a"] + pd.Timedelta(days=1) + expected = DataFrame( + {"a": [Timestamp("2022-12-29"), Timestamp("2022-12-31")], **col}, + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("col", [{}, {"name": "a"}]) + def test_loc_setitem_reordering_with_all_true_indexer(self, col): + # GH#48701 + n = 17 + df = DataFrame({**col, "x": range(n), "y": range(n)}) + expected = df.copy() + df.loc[n * [True], ["x", "y"]] = df[["x", "y"]] + tm.assert_frame_equal(df, expected) + + def test_loc_rhs_empty_warning(self): + # GH48480 + df = DataFrame(columns=["a", "b"]) + expected = df.copy() + rhs = DataFrame(columns=["a"]) + with tm.assert_produces_warning(None): + df.loc[:, "a"] = rhs + tm.assert_frame_equal(df, expected) + + def test_iloc_ea_series_indexer(self): + # GH#49521 + df = DataFrame([[0, 1, 2, 3, 4], [5, 6, 7, 8, 9]]) + indexer = Series([0, 1], dtype="Int64") + row_indexer = Series([1], dtype="Int64") + result = df.iloc[row_indexer, indexer] + expected = DataFrame([[5, 6]], index=[1]) + tm.assert_frame_equal(result, expected) + + result = df.iloc[row_indexer.values, indexer.values] + tm.assert_frame_equal(result, expected) + + def test_iloc_ea_series_indexer_with_na(self): + # GH#49521 + df = DataFrame([[0, 1, 2, 3, 4], [5, 6, 7, 8, 9]]) + indexer = Series([0, pd.NA], dtype="Int64") + msg = "cannot convert" + with pytest.raises(ValueError, match=msg): + df.iloc[:, indexer] + with pytest.raises(ValueError, match=msg): + df.iloc[:, indexer.values] + + @pytest.mark.parametrize("indexer", [True, (True,)]) + @pytest.mark.parametrize("dtype", [bool, "boolean"]) + def test_loc_bool_multiindex(self, dtype, indexer): + # GH#47687 + midx = MultiIndex.from_arrays( + [ + Series([True, True, False, False], dtype=dtype), + Series([True, False, True, False], dtype=dtype), + ], + names=["a", "b"], + ) + df = DataFrame({"c": [1, 2, 3, 4]}, index=midx) + with tm.maybe_produces_warning(PerformanceWarning, isinstance(indexer, tuple)): + result = df.loc[indexer] + expected = DataFrame( + {"c": [1, 2]}, index=Index([True, False], name="b", dtype=dtype) + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("utc", [False, True]) + @pytest.mark.parametrize("indexer", ["date", ["date"]]) + def test_loc_datetime_assignment_dtype_does_not_change(self, utc, indexer): + # GH#49837 + df = DataFrame( + { + "date": to_datetime( + [datetime(2022, 1, 20), datetime(2022, 1, 22)], utc=utc + ), + "update": [True, False], + } + ) + expected = df.copy(deep=True) + + update_df = df[df["update"]] + + df.loc[df["update"], indexer] = update_df["date"] + + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer, idx", [(tm.loc, 1), (tm.iloc, 2)]) + def test_setitem_value_coercing_dtypes(self, indexer, idx): + # GH#50467 + df = DataFrame([["1", np.nan], ["2", np.nan], ["3", np.nan]], dtype=object) + rhs = DataFrame([[1, np.nan], [2, np.nan]]) + indexer(df)[:idx, :] = rhs + expected = DataFrame([[1, np.nan], [2, np.nan], ["3", np.nan]], dtype=object) + tm.assert_frame_equal(df, expected) + + +class TestDataFrameIndexingUInt64: + def test_setitem(self): + df = DataFrame( + {"A": np.arange(3), "B": [2**63, 2**63 + 5, 2**63 + 10]}, + dtype=np.uint64, + ) + idx = df["A"].rename("foo") + + # setitem + assert "C" not in df.columns + df["C"] = idx + tm.assert_series_equal(df["C"], Series(idx, name="C")) + + assert "D" not in df.columns + df["D"] = "foo" + df["D"] = idx + tm.assert_series_equal(df["D"], Series(idx, name="D")) + del df["D"] + + # With NaN: because uint64 has no NaN element, + # the column should be cast to object. + df2 = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df2.iloc[1, 1] = pd.NaT + df2.iloc[1, 2] = pd.NaT + result = df2["B"] + tm.assert_series_equal(notna(result), Series([True, False, True], name="B")) + tm.assert_series_equal( + df2.dtypes, + Series( + [np.dtype("uint64"), np.dtype("O"), np.dtype("O")], + index=["A", "B", "C"], + ), + ) + + +def test_object_casting_indexing_wraps_datetimelike(using_array_manager): + # GH#31649, check the indexing methods all the way down the stack + df = DataFrame( + { + "A": [1, 2], + "B": date_range("2000", periods=2), + "C": pd.timedelta_range("1 Day", periods=2), + } + ) + + ser = df.loc[0] + assert isinstance(ser.values[1], Timestamp) + assert isinstance(ser.values[2], pd.Timedelta) + + ser = df.iloc[0] + assert isinstance(ser.values[1], Timestamp) + assert isinstance(ser.values[2], pd.Timedelta) + + ser = df.xs(0, axis=0) + assert isinstance(ser.values[1], Timestamp) + assert isinstance(ser.values[2], pd.Timedelta) + + if using_array_manager: + # remainder of the test checking BlockManager internals + return + + mgr = df._mgr + mgr._rebuild_blknos_and_blklocs() + arr = mgr.fast_xs(0).array + assert isinstance(arr[1], Timestamp) + assert isinstance(arr[2], pd.Timedelta) + + blk = mgr.blocks[mgr.blknos[1]] + assert blk.dtype == "M8[ns]" # we got the right block + val = blk.iget((0, 0)) + assert isinstance(val, Timestamp) + + blk = mgr.blocks[mgr.blknos[2]] + assert blk.dtype == "m8[ns]" # we got the right block + val = blk.iget((0, 0)) + assert isinstance(val, pd.Timedelta) + + +msg1 = r"Cannot setitem on a Categorical with a new category( \(.*\))?, set the" +msg2 = "Cannot set a Categorical with another, without identical categories" + + +class TestLocILocDataFrameCategorical: + @pytest.fixture + def orig(self): + cats = Categorical(["a", "a", "a", "a", "a", "a", "a"], categories=["a", "b"]) + idx = Index(["h", "i", "j", "k", "l", "m", "n"]) + values = [1, 1, 1, 1, 1, 1, 1] + orig = DataFrame({"cats": cats, "values": values}, index=idx) + return orig + + @pytest.fixture + def exp_single_row(self): + # The expected values if we change a single row + cats1 = Categorical(["a", "a", "b", "a", "a", "a", "a"], categories=["a", "b"]) + idx1 = Index(["h", "i", "j", "k", "l", "m", "n"]) + values1 = [1, 1, 2, 1, 1, 1, 1] + exp_single_row = DataFrame({"cats": cats1, "values": values1}, index=idx1) + return exp_single_row + + @pytest.fixture + def exp_multi_row(self): + # assign multiple rows (mixed values) (-> array) -> exp_multi_row + # changed multiple rows + cats2 = Categorical(["a", "a", "b", "b", "a", "a", "a"], categories=["a", "b"]) + idx2 = Index(["h", "i", "j", "k", "l", "m", "n"]) + values2 = [1, 1, 2, 2, 1, 1, 1] + exp_multi_row = DataFrame({"cats": cats2, "values": values2}, index=idx2) + return exp_multi_row + + @pytest.fixture + def exp_parts_cats_col(self): + # changed part of the cats column + cats3 = Categorical(["a", "a", "b", "b", "a", "a", "a"], categories=["a", "b"]) + idx3 = Index(["h", "i", "j", "k", "l", "m", "n"]) + values3 = [1, 1, 1, 1, 1, 1, 1] + exp_parts_cats_col = DataFrame({"cats": cats3, "values": values3}, index=idx3) + return exp_parts_cats_col + + @pytest.fixture + def exp_single_cats_value(self): + # changed single value in cats col + cats4 = Categorical(["a", "a", "b", "a", "a", "a", "a"], categories=["a", "b"]) + idx4 = Index(["h", "i", "j", "k", "l", "m", "n"]) + values4 = [1, 1, 1, 1, 1, 1, 1] + exp_single_cats_value = DataFrame( + {"cats": cats4, "values": values4}, index=idx4 + ) + return exp_single_cats_value + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_loc_iloc_setitem_list_of_lists(self, orig, exp_multi_row, indexer): + # - assign multiple rows (mixed values) -> exp_multi_row + df = orig.copy() + + key = slice(2, 4) + if indexer is tm.loc: + key = slice("j", "k") + + indexer(df)[key, :] = [["b", 2], ["b", 2]] + tm.assert_frame_equal(df, exp_multi_row) + + df = orig.copy() + with pytest.raises(TypeError, match=msg1): + indexer(df)[key, :] = [["c", 2], ["c", 2]] + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc, tm.at, tm.iat]) + def test_loc_iloc_at_iat_setitem_single_value_in_categories( + self, orig, exp_single_cats_value, indexer + ): + # - assign a single value -> exp_single_cats_value + df = orig.copy() + + key = (2, 0) + if indexer in [tm.loc, tm.at]: + key = (df.index[2], df.columns[0]) + + # "b" is among the categories for df["cat"}] + indexer(df)[key] = "b" + tm.assert_frame_equal(df, exp_single_cats_value) + + # "c" is not among the categories for df["cat"] + with pytest.raises(TypeError, match=msg1): + indexer(df)[key] = "c" + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_loc_iloc_setitem_mask_single_value_in_categories( + self, orig, exp_single_cats_value, indexer + ): + # mask with single True + df = orig.copy() + + mask = df.index == "j" + key = 0 + if indexer is tm.loc: + key = df.columns[key] + + indexer(df)[mask, key] = "b" + tm.assert_frame_equal(df, exp_single_cats_value) + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_loc_iloc_setitem_full_row_non_categorical_rhs( + self, orig, exp_single_row, indexer + ): + # - assign a complete row (mixed values) -> exp_single_row + df = orig.copy() + + key = 2 + if indexer is tm.loc: + key = df.index[2] + + # not categorical dtype, but "b" _is_ among the categories for df["cat"] + indexer(df)[key, :] = ["b", 2] + tm.assert_frame_equal(df, exp_single_row) + + # "c" is not among the categories for df["cat"] + with pytest.raises(TypeError, match=msg1): + indexer(df)[key, :] = ["c", 2] + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_loc_iloc_setitem_partial_col_categorical_rhs( + self, orig, exp_parts_cats_col, indexer + ): + # assign a part of a column with dtype == categorical -> + # exp_parts_cats_col + df = orig.copy() + + key = (slice(2, 4), 0) + if indexer is tm.loc: + key = (slice("j", "k"), df.columns[0]) + + # same categories as we currently have in df["cats"] + compat = Categorical(["b", "b"], categories=["a", "b"]) + indexer(df)[key] = compat + tm.assert_frame_equal(df, exp_parts_cats_col) + + # categories do not match df["cat"]'s, but "b" is among them + semi_compat = Categorical(list("bb"), categories=list("abc")) + with pytest.raises(TypeError, match=msg2): + # different categories but holdable values + # -> not sure if this should fail or pass + indexer(df)[key] = semi_compat + + # categories do not match df["cat"]'s, and "c" is not among them + incompat = Categorical(list("cc"), categories=list("abc")) + with pytest.raises(TypeError, match=msg2): + # different values + indexer(df)[key] = incompat + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_loc_iloc_setitem_non_categorical_rhs( + self, orig, exp_parts_cats_col, indexer + ): + # assign a part of a column with dtype != categorical -> exp_parts_cats_col + df = orig.copy() + + key = (slice(2, 4), 0) + if indexer is tm.loc: + key = (slice("j", "k"), df.columns[0]) + + # "b" is among the categories for df["cat"] + indexer(df)[key] = ["b", "b"] + tm.assert_frame_equal(df, exp_parts_cats_col) + + # "c" not part of the categories + with pytest.raises(TypeError, match=msg1): + indexer(df)[key] = ["c", "c"] + + @pytest.mark.parametrize("indexer", [tm.getitem, tm.loc, tm.iloc]) + def test_getitem_preserve_object_index_with_dates(self, indexer): + # https://github.com/pandas-dev/pandas/pull/42950 - when selecting a column + # from dataframe, don't try to infer object dtype index on Series construction + idx = date_range("2012", periods=3).astype(object) + df = DataFrame({0: [1, 2, 3]}, index=idx) + assert df.index.dtype == object + + if indexer is tm.getitem: + ser = indexer(df)[0] + else: + ser = indexer(df)[:, 0] + + assert ser.index.dtype == object + + def test_loc_on_multiindex_one_level(self): + # GH#45779 + df = DataFrame( + data=[[0], [1]], + index=MultiIndex.from_tuples([("a",), ("b",)], names=["first"]), + ) + expected = DataFrame( + data=[[0]], index=MultiIndex.from_tuples([("a",)], names=["first"]) + ) + result = df.loc["a"] + tm.assert_frame_equal(result, expected) + + +class TestDeprecatedIndexers: + @pytest.mark.parametrize( + "key", [{1}, {1: 1}, ({1}, "a"), ({1: 1}, "a"), (1, {"a"}), (1, {"a": "a"})] + ) + def test_getitem_dict_and_set_deprecated(self, key): + # GH#42825 enforced in 2.0 + df = DataFrame([[1, 2], [3, 4]], columns=["a", "b"]) + with pytest.raises(TypeError, match="as an indexer is not supported"): + df.loc[key] + + @pytest.mark.parametrize( + "key", + [ + {1}, + {1: 1}, + (({1}, 2), "a"), + (({1: 1}, 2), "a"), + ((1, 2), {"a"}), + ((1, 2), {"a": "a"}), + ], + ) + def test_getitem_dict_and_set_deprecated_multiindex(self, key): + # GH#42825 enforced in 2.0 + df = DataFrame( + [[1, 2], [3, 4]], + columns=["a", "b"], + index=MultiIndex.from_tuples([(1, 2), (3, 4)]), + ) + with pytest.raises(TypeError, match="as an indexer is not supported"): + df.loc[key] + + @pytest.mark.parametrize( + "key", [{1}, {1: 1}, ({1}, "a"), ({1: 1}, "a"), (1, {"a"}), (1, {"a": "a"})] + ) + def test_setitem_dict_and_set_disallowed(self, key): + # GH#42825 enforced in 2.0 + df = DataFrame([[1, 2], [3, 4]], columns=["a", "b"]) + with pytest.raises(TypeError, match="as an indexer is not supported"): + df.loc[key] = 1 + + @pytest.mark.parametrize( + "key", + [ + {1}, + {1: 1}, + (({1}, 2), "a"), + (({1: 1}, 2), "a"), + ((1, 2), {"a"}), + ((1, 2), {"a": "a"}), + ], + ) + def test_setitem_dict_and_set_disallowed_multiindex(self, key): + # GH#42825 enforced in 2.0 + df = DataFrame( + [[1, 2], [3, 4]], + columns=["a", "b"], + index=MultiIndex.from_tuples([(1, 2), (3, 4)]), + ) + with pytest.raises(TypeError, match="as an indexer is not supported"): + df.loc[key] = 1 + + +def test_adding_new_conditional_column() -> None: + # https://github.com/pandas-dev/pandas/issues/55025 + df = DataFrame({"x": [1]}) + df.loc[df["x"] == 1, "y"] = "1" + expected = DataFrame({"x": [1], "y": ["1"]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"x": [1]}) + # try inserting something which numpy would store as 'object' + value = lambda x: x + df.loc[df["x"] == 1, "y"] = value + expected = DataFrame({"x": [1], "y": [value]}) + tm.assert_frame_equal(df, expected) + + +@pytest.mark.parametrize( + ("dtype", "infer_string"), + [ + (object, False), + (pd.StringDtype(na_value=np.nan), True), + ], +) +def test_adding_new_conditional_column_with_string(dtype, infer_string) -> None: + # https://github.com/pandas-dev/pandas/issues/56204 + df = DataFrame({"a": [1, 2], "b": [3, 4]}) + with pd.option_context("future.infer_string", infer_string): + df.loc[df["a"] == 1, "c"] = "1" + expected = DataFrame({"a": [1, 2], "b": [3, 4], "c": ["1", float("nan")]}).astype( + {"a": "int64", "b": "int64", "c": dtype} + ) + tm.assert_frame_equal(df, expected) + + +def test_add_new_column_infer_string(): + # GH#55366 + df = DataFrame({"x": [1]}) + with pd.option_context("future.infer_string", True): + df.loc[df["x"] == 1, "y"] = "1" + expected = DataFrame( + {"x": [1], "y": Series(["1"], dtype=pd.StringDtype(na_value=np.nan))}, + columns=Index(["x", "y"], dtype="str"), + ) + tm.assert_frame_equal(df, expected) + + +class TestSetitemValidation: + # This is adapted from pandas/tests/arrays/masked/test_indexing.py + # but checks for warnings instead of errors. + def _check_setitem_invalid(self, df, invalid, indexer, warn): + msg = "Setting an item of incompatible dtype is deprecated" + msg = re.escape(msg) + + orig_df = df.copy() + + # iloc + with tm.assert_produces_warning(warn, match=msg): + df.iloc[indexer, 0] = invalid + df = orig_df.copy() + + # loc + with tm.assert_produces_warning(warn, match=msg): + df.loc[indexer, "a"] = invalid + df = orig_df.copy() + + _invalid_scalars = [ + 1 + 2j, + "True", + "1", + "1.0", + pd.NaT, + np.datetime64("NaT"), + np.timedelta64("NaT"), + ] + _indexers = [0, [0], slice(0, 1), [True, False, False], slice(None, None, None)] + + @pytest.mark.parametrize( + "invalid", _invalid_scalars + [1, 1.0, np.int64(1), np.float64(1)] + ) + @pytest.mark.parametrize("indexer", _indexers) + def test_setitem_validation_scalar_bool(self, invalid, indexer): + df = DataFrame({"a": [True, False, False]}, dtype="bool") + self._check_setitem_invalid(df, invalid, indexer, FutureWarning) + + @pytest.mark.parametrize("invalid", _invalid_scalars + [True, 1.5, np.float64(1.5)]) + @pytest.mark.parametrize("indexer", _indexers) + def test_setitem_validation_scalar_int(self, invalid, any_int_numpy_dtype, indexer): + df = DataFrame({"a": [1, 2, 3]}, dtype=any_int_numpy_dtype) + if isna(invalid) and invalid is not pd.NaT and not np.isnat(invalid): + warn = None + else: + warn = FutureWarning + self._check_setitem_invalid(df, invalid, indexer, warn) + + @pytest.mark.parametrize("invalid", _invalid_scalars + [True]) + @pytest.mark.parametrize("indexer", _indexers) + def test_setitem_validation_scalar_float(self, invalid, float_numpy_dtype, indexer): + df = DataFrame({"a": [1, 2, None]}, dtype=float_numpy_dtype) + self._check_setitem_invalid(df, invalid, indexer, FutureWarning) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_insert.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_insert.py new file mode 100644 index 0000000000000000000000000000000000000000..7e702bdc993bd1444dc48f85e016c768dadd042f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_insert.py @@ -0,0 +1,120 @@ +""" +test_insert is specifically for the DataFrame.insert method; not to be +confused with tests with "insert" in their names that are really testing +__setitem__. +""" +import numpy as np +import pytest + +from pandas.errors import PerformanceWarning + +from pandas import ( + DataFrame, + Index, +) +import pandas._testing as tm + + +class TestDataFrameInsert: + def test_insert(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=np.arange(5), + columns=["c", "b", "a"], + ) + + df.insert(0, "foo", df["a"]) + tm.assert_index_equal(df.columns, Index(["foo", "c", "b", "a"])) + tm.assert_series_equal(df["a"], df["foo"], check_names=False) + + df.insert(2, "bar", df["c"]) + tm.assert_index_equal(df.columns, Index(["foo", "c", "bar", "b", "a"])) + tm.assert_almost_equal(df["c"], df["bar"], check_names=False) + + with pytest.raises(ValueError, match="already exists"): + df.insert(1, "a", df["b"]) + + msg = "cannot insert c, already exists" + with pytest.raises(ValueError, match=msg): + df.insert(1, "c", df["b"]) + + df.columns.name = "some_name" + # preserve columns name field + df.insert(0, "baz", df["c"]) + assert df.columns.name == "some_name" + + def test_insert_column_bug_4032(self): + # GH#4032, inserting a column and renaming causing errors + df = DataFrame({"b": [1.1, 2.2]}) + + df = df.rename(columns={}) + df.insert(0, "a", [1, 2]) + result = df.rename(columns={}) + + expected = DataFrame([[1, 1.1], [2, 2.2]], columns=["a", "b"]) + tm.assert_frame_equal(result, expected) + + df.insert(0, "c", [1.3, 2.3]) + result = df.rename(columns={}) + + expected = DataFrame([[1.3, 1, 1.1], [2.3, 2, 2.2]], columns=["c", "a", "b"]) + tm.assert_frame_equal(result, expected) + + def test_insert_with_columns_dups(self): + # GH#14291 + df = DataFrame() + df.insert(0, "A", ["g", "h", "i"], allow_duplicates=True) + df.insert(0, "A", ["d", "e", "f"], allow_duplicates=True) + df.insert(0, "A", ["a", "b", "c"], allow_duplicates=True) + exp = DataFrame( + [["a", "d", "g"], ["b", "e", "h"], ["c", "f", "i"]], columns=["A", "A", "A"] + ) + tm.assert_frame_equal(df, exp) + + def test_insert_item_cache(self, using_array_manager, using_copy_on_write): + df = DataFrame(np.random.default_rng(2).standard_normal((4, 3))) + ser = df[0] + + if using_array_manager: + expected_warning = None + else: + # with BlockManager warn about high fragmentation of single dtype + expected_warning = PerformanceWarning + + with tm.assert_produces_warning(expected_warning): + for n in range(100): + df[n + 3] = df[1] * n + + if using_copy_on_write: + ser.iloc[0] = 99 + assert df.iloc[0, 0] == df[0][0] + assert df.iloc[0, 0] != 99 + else: + ser.values[0] = 99 + assert df.iloc[0, 0] == df[0][0] + assert df.iloc[0, 0] == 99 + + def test_insert_EA_no_warning(self): + # PerformanceWarning about fragmented frame should not be raised when + # using EAs (https://github.com/pandas-dev/pandas/issues/44098) + df = DataFrame( + np.random.default_rng(2).integers(0, 100, size=(3, 100)), dtype="Int64" + ) + with tm.assert_produces_warning(None): + df["a"] = np.array([1, 2, 3]) + + def test_insert_frame(self): + # GH#42403 + df = DataFrame({"col1": [1, 2], "col2": [3, 4]}) + + msg = ( + "Expected a one-dimensional object, got a DataFrame with 2 columns instead." + ) + with pytest.raises(ValueError, match=msg): + df.insert(1, "newcol", df) + + def test_insert_int64_loc(self): + # GH#53193 + df = DataFrame({"a": [1, 2]}) + df.insert(np.int64(0), "b", 0) + tm.assert_frame_equal(df, DataFrame({"b": [0, 0], "a": [1, 2]})) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_mask.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_mask.py new file mode 100644 index 0000000000000000000000000000000000000000..264e27c9c122ebb6d59c5b16531ebbdc8ce51320 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_mask.py @@ -0,0 +1,152 @@ +""" +Tests for DataFrame.mask; tests DataFrame.where as a side-effect. +""" + +import numpy as np + +from pandas import ( + NA, + DataFrame, + Float64Dtype, + Series, + StringDtype, + Timedelta, + isna, +) +import pandas._testing as tm + + +class TestDataFrameMask: + def test_mask(self): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + cond = df > 0 + + rs = df.where(cond, np.nan) + tm.assert_frame_equal(rs, df.mask(df <= 0)) + tm.assert_frame_equal(rs, df.mask(~cond)) + + other = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + rs = df.where(cond, other) + tm.assert_frame_equal(rs, df.mask(df <= 0, other)) + tm.assert_frame_equal(rs, df.mask(~cond, other)) + + def test_mask2(self): + # see GH#21891 + df = DataFrame([1, 2]) + res = df.mask([[True], [False]]) + + exp = DataFrame([np.nan, 2]) + tm.assert_frame_equal(res, exp) + + def test_mask_inplace(self): + # GH#8801 + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + cond = df > 0 + + rdf = df.copy() + + return_value = rdf.where(cond, inplace=True) + assert return_value is None + tm.assert_frame_equal(rdf, df.where(cond)) + tm.assert_frame_equal(rdf, df.mask(~cond)) + + rdf = df.copy() + return_value = rdf.where(cond, -df, inplace=True) + assert return_value is None + tm.assert_frame_equal(rdf, df.where(cond, -df)) + tm.assert_frame_equal(rdf, df.mask(~cond, -df)) + + def test_mask_edge_case_1xN_frame(self): + # GH#4071 + df = DataFrame([[1, 2]]) + res = df.mask(DataFrame([[True, False]])) + expec = DataFrame([[np.nan, 2]]) + tm.assert_frame_equal(res, expec) + + def test_mask_callable(self): + # GH#12533 + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) + result = df.mask(lambda x: x > 4, lambda x: x + 1) + exp = DataFrame([[1, 2, 3], [4, 6, 7], [8, 9, 10]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, df.mask(df > 4, df + 1)) + + # return ndarray and scalar + result = df.mask(lambda x: (x % 2 == 0).values, lambda x: 99) + exp = DataFrame([[1, 99, 3], [99, 5, 99], [7, 99, 9]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, df.mask(df % 2 == 0, 99)) + + # chain + result = (df + 2).mask(lambda x: x > 8, lambda x: x + 10) + exp = DataFrame([[3, 4, 5], [6, 7, 8], [19, 20, 21]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, (df + 2).mask((df + 2) > 8, (df + 2) + 10)) + + def test_mask_dtype_bool_conversion(self): + # GH#3733 + df = DataFrame(data=np.random.default_rng(2).standard_normal((100, 50))) + df = df.where(df > 0) # create nans + bools = df > 0 + mask = isna(df) + expected = bools.astype(object).mask(mask) + result = bools.mask(mask) + tm.assert_frame_equal(result, expected) + + +def test_mask_stringdtype(frame_or_series): + # GH 40824 + obj = DataFrame( + {"A": ["foo", "bar", "baz", NA]}, + index=["id1", "id2", "id3", "id4"], + dtype=StringDtype(), + ) + filtered_obj = DataFrame( + {"A": ["this", "that"]}, index=["id2", "id3"], dtype=StringDtype() + ) + expected = DataFrame( + {"A": [NA, "this", "that", NA]}, + index=["id1", "id2", "id3", "id4"], + dtype=StringDtype(), + ) + if frame_or_series is Series: + obj = obj["A"] + filtered_obj = filtered_obj["A"] + expected = expected["A"] + + filter_ser = Series([False, True, True, False]) + result = obj.mask(filter_ser, filtered_obj) + + tm.assert_equal(result, expected) + + +def test_mask_where_dtype_timedelta(): + # https://github.com/pandas-dev/pandas/issues/39548 + df = DataFrame([Timedelta(i, unit="d") for i in range(5)]) + + expected = DataFrame(np.full(5, np.nan, dtype="timedelta64[ns]")) + tm.assert_frame_equal(df.mask(df.notna()), expected) + + expected = DataFrame( + [np.nan, np.nan, np.nan, Timedelta("3 day"), Timedelta("4 day")] + ) + tm.assert_frame_equal(df.where(df > Timedelta(2, unit="d")), expected) + + +def test_mask_return_dtype(): + # GH#50488 + ser = Series([0.0, 1.0, 2.0, 3.0], dtype=Float64Dtype()) + cond = ~ser.isna() + other = Series([True, False, True, False]) + excepted = Series([1.0, 0.0, 1.0, 0.0], dtype=ser.dtype) + result = ser.mask(cond, other) + tm.assert_series_equal(result, excepted) + + +def test_mask_inplace_no_other(): + # GH#51685 + df = DataFrame({"a": [1.0, 2.0], "b": ["x", "y"]}) + cond = DataFrame({"a": [True, False], "b": [False, True]}) + df.mask(cond, inplace=True) + expected = DataFrame({"a": [np.nan, 2], "b": ["x", np.nan]}) + tm.assert_frame_equal(df, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_set_value.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_set_value.py new file mode 100644 index 0000000000000000000000000000000000000000..3d23e13264911c52dabd58c12ed133f8cf1766a6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_set_value.py @@ -0,0 +1,77 @@ +import numpy as np + +from pandas.core.dtypes.common import is_float_dtype + +from pandas import ( + DataFrame, + isna, +) +import pandas._testing as tm + + +class TestSetValue: + def test_set_value(self, float_frame): + for idx in float_frame.index: + for col in float_frame.columns: + float_frame._set_value(idx, col, 1) + assert float_frame[col][idx] == 1 + + def test_set_value_resize(self, float_frame, using_infer_string): + res = float_frame._set_value("foobar", "B", 0) + assert res is None + assert float_frame.index[-1] == "foobar" + assert float_frame._get_value("foobar", "B") == 0 + + float_frame.loc["foobar", "qux"] = 0 + assert float_frame._get_value("foobar", "qux") == 0 + + res = float_frame.copy() + res._set_value("foobar", "baz", "sam") + if using_infer_string: + assert res["baz"].dtype == "str" + else: + assert res["baz"].dtype == np.object_ + res = float_frame.copy() + res._set_value("foobar", "baz", True) + assert res["baz"].dtype == np.object_ + + res = float_frame.copy() + res._set_value("foobar", "baz", 5) + assert is_float_dtype(res["baz"]) + assert isna(res["baz"].drop(["foobar"])).all() + + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + res._set_value("foobar", "baz", "sam") + assert res.loc["foobar", "baz"] == "sam" + + def test_set_value_with_index_dtype_change(self): + df_orig = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=range(3), + columns=list("ABC"), + ) + + # this is actually ambiguous as the 2 is interpreted as a positional + # so column is not created + df = df_orig.copy() + df._set_value("C", 2, 1.0) + assert list(df.index) == list(df_orig.index) + ["C"] + # assert list(df.columns) == list(df_orig.columns) + [2] + + df = df_orig.copy() + df.loc["C", 2] = 1.0 + assert list(df.index) == list(df_orig.index) + ["C"] + # assert list(df.columns) == list(df_orig.columns) + [2] + + # create both new + df = df_orig.copy() + df._set_value("C", "D", 1.0) + assert list(df.index) == list(df_orig.index) + ["C"] + assert list(df.columns) == list(df_orig.columns) + ["D"] + + df = df_orig.copy() + df.loc["C", "D"] = 1.0 + assert list(df.index) == list(df_orig.index) + ["C"] + assert list(df.columns) == list(df_orig.columns) + ["D"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_setitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_setitem.py new file mode 100644 index 0000000000000000000000000000000000000000..b3fe538d938f49f63e986a8ff5cfaa95130a1b90 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_setitem.py @@ -0,0 +1,1437 @@ +from datetime import datetime + +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +from pandas.core.dtypes.base import _registry as ea_registry +from pandas.core.dtypes.common import is_object_dtype +from pandas.core.dtypes.dtypes import ( + CategoricalDtype, + DatetimeTZDtype, + IntervalDtype, + PeriodDtype, +) + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + DatetimeIndex, + Index, + Interval, + IntervalIndex, + MultiIndex, + NaT, + Period, + PeriodIndex, + Series, + Timestamp, + cut, + date_range, + notna, + period_range, +) +import pandas._testing as tm +from pandas.core.arrays import SparseArray + +from pandas.tseries.offsets import BDay + + +class TestDataFrameSetItem: + def test_setitem_str_subclass(self): + # GH#37366 + class mystring(str): + pass + + data = ["2020-10-22 01:21:00+00:00"] + index = DatetimeIndex(data) + df = DataFrame({"a": [1]}, index=index) + df["b"] = 2 + df[mystring("c")] = 3 + expected = DataFrame({"a": [1], "b": [2], mystring("c"): [3]}, index=index) + tm.assert_equal(df, expected) + + @pytest.mark.parametrize( + "dtype", ["int32", "int64", "uint32", "uint64", "float32", "float64"] + ) + def test_setitem_dtype(self, dtype, float_frame): + # Use integers since casting negative floats to uints is undefined + arr = np.random.default_rng(2).integers(1, 10, len(float_frame)) + + float_frame[dtype] = np.array(arr, dtype=dtype) + assert float_frame[dtype].dtype.name == dtype + + def test_setitem_list_not_dataframe(self, float_frame): + data = np.random.default_rng(2).standard_normal((len(float_frame), 2)) + float_frame[["A", "B"]] = data + tm.assert_almost_equal(float_frame[["A", "B"]].values, data) + + def test_setitem_error_msmgs(self): + # GH 7432 + df = DataFrame( + {"bar": [1, 2, 3], "baz": ["d", "e", "f"]}, + index=Index(["a", "b", "c"], name="foo"), + ) + ser = Series( + ["g", "h", "i", "j"], + index=Index(["a", "b", "c", "a"], name="foo"), + name="fiz", + ) + msg = "cannot reindex on an axis with duplicate labels" + with pytest.raises(ValueError, match=msg): + df["newcol"] = ser + + # GH 4107, more descriptive error message + df = DataFrame( + np.random.default_rng(2).integers(0, 2, (4, 4)), + columns=["a", "b", "c", "d"], + ) + + msg = "Cannot set a DataFrame with multiple columns to the single column gr" + with pytest.raises(ValueError, match=msg): + df["gr"] = df.groupby(["b", "c"]).count() + + # GH 55956, specific message for zero columns + msg = "Cannot set a DataFrame without columns to the column gr" + with pytest.raises(ValueError, match=msg): + df["gr"] = DataFrame() + + def test_setitem_benchmark(self): + # from the vb_suite/frame_methods/frame_insert_columns + N = 10 + K = 5 + df = DataFrame(index=range(N)) + new_col = np.random.default_rng(2).standard_normal(N) + for i in range(K): + df[i] = new_col + expected = DataFrame(np.repeat(new_col, K).reshape(N, K), index=range(N)) + tm.assert_frame_equal(df, expected) + + def test_setitem_different_dtype(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=np.arange(5), + columns=["c", "b", "a"], + ) + df.insert(0, "foo", df["a"]) + df.insert(2, "bar", df["c"]) + + # diff dtype + + # new item + df["x"] = df["a"].astype("float32") + result = df.dtypes + expected = Series( + [np.dtype("float64")] * 5 + [np.dtype("float32")], + index=["foo", "c", "bar", "b", "a", "x"], + ) + tm.assert_series_equal(result, expected) + + # replacing current (in different block) + df["a"] = df["a"].astype("float32") + result = df.dtypes + expected = Series( + [np.dtype("float64")] * 4 + [np.dtype("float32")] * 2, + index=["foo", "c", "bar", "b", "a", "x"], + ) + tm.assert_series_equal(result, expected) + + df["y"] = df["a"].astype("int32") + result = df.dtypes + expected = Series( + [np.dtype("float64")] * 4 + [np.dtype("float32")] * 2 + [np.dtype("int32")], + index=["foo", "c", "bar", "b", "a", "x", "y"], + ) + tm.assert_series_equal(result, expected) + + def test_setitem_overwrite_index(self): + # GH 13522 - assign the index as a column and then overwrite the values + # -> should not affect the index + df = DataFrame(index=["A", "B", "C"]) + df["X"] = df.index + df["X"] = ["x", "y", "z"] + exp = DataFrame( + data={"X": ["x", "y", "z"]}, index=["A", "B", "C"], columns=["X"] + ) + tm.assert_frame_equal(df, exp) + + def test_setitem_empty_columns(self): + # Starting from an empty DataFrame and setting a column should result + # in a default string dtype for the columns' Index + # https://github.com/pandas-dev/pandas/issues/60338 + + df = DataFrame() + df["foo"] = [1, 2, 3] + expected = DataFrame({"foo": [1, 2, 3]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame(columns=Index([])) + df["foo"] = [1, 2, 3] + expected = DataFrame({"foo": [1, 2, 3]}) + tm.assert_frame_equal(df, expected) + + def test_setitem_dt64_index_empty_columns(self): + rng = date_range("1/1/2000 00:00:00", "1/1/2000 1:59:50", freq="10s") + df = DataFrame(index=np.arange(len(rng))) + + df["A"] = rng + assert df["A"].dtype == np.dtype("M8[ns]") + + def test_setitem_timestamp_empty_columns(self): + # GH#19843 + df = DataFrame(index=range(3)) + df["now"] = Timestamp("20130101", tz="UTC").as_unit("ns") + + expected = DataFrame( + [[Timestamp("20130101", tz="UTC")]] * 3, index=range(3), columns=["now"] + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_wrong_length_categorical_dtype_raises(self): + # GH#29523 + cat = Categorical.from_codes([0, 1, 1, 0, 1, 2], ["a", "b", "c"]) + df = DataFrame(range(10), columns=["bar"]) + + msg = ( + rf"Length of values \({len(cat)}\) " + rf"does not match length of index \({len(df)}\)" + ) + with pytest.raises(ValueError, match=msg): + df["foo"] = cat + + def test_setitem_with_sparse_value(self): + # GH#8131 + df = DataFrame({"c_1": ["a", "b", "c"], "n_1": [1.0, 2.0, 3.0]}) + sp_array = SparseArray([0, 0, 1]) + df["new_column"] = sp_array + + expected = Series(sp_array, name="new_column") + tm.assert_series_equal(df["new_column"], expected) + + def test_setitem_with_unaligned_sparse_value(self): + df = DataFrame({"c_1": ["a", "b", "c"], "n_1": [1.0, 2.0, 3.0]}) + sp_series = Series(SparseArray([0, 0, 1]), index=[2, 1, 0]) + + df["new_column"] = sp_series + expected = Series(SparseArray([1, 0, 0]), name="new_column") + tm.assert_series_equal(df["new_column"], expected) + + def test_setitem_period_preserves_dtype(self): + # GH: 26861 + data = [Period("2003-12", "D")] + result = DataFrame([]) + result["a"] = data + + expected = DataFrame({"a": data}, columns=["a"]) + + tm.assert_frame_equal(result, expected) + + def test_setitem_dict_preserves_dtypes(self): + # https://github.com/pandas-dev/pandas/issues/34573 + expected = DataFrame( + { + "a": Series([0, 1, 2], dtype="int64"), + "b": Series([1, 2, 3], dtype=float), + "c": Series([1, 2, 3], dtype=float), + "d": Series([1, 2, 3], dtype="uint32"), + } + ) + df = DataFrame( + { + "a": Series([], dtype="int64"), + "b": Series([], dtype=float), + "c": Series([], dtype=float), + "d": Series([], dtype="uint32"), + } + ) + for idx, b in enumerate([1, 2, 3]): + df.loc[df.shape[0]] = { + "a": int(idx), + "b": float(b), + "c": float(b), + "d": np.uint32(b), + } + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "obj,dtype", + [ + (Period("2020-01"), PeriodDtype("M")), + (Interval(left=0, right=5), IntervalDtype("int64", "right")), + ( + Timestamp("2011-01-01", tz="US/Eastern"), + DatetimeTZDtype(unit="s", tz="US/Eastern"), + ), + ], + ) + def test_setitem_extension_types(self, obj, dtype): + # GH: 34832 + expected = DataFrame({"idx": [1, 2, 3], "obj": Series([obj] * 3, dtype=dtype)}) + + df = DataFrame({"idx": [1, 2, 3]}) + df["obj"] = obj + + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "ea_name", + [ + dtype.name + for dtype in ea_registry.dtypes + # property would require instantiation + if not isinstance(dtype.name, property) + ] + + ["datetime64[ns, UTC]", "period[D]"], + ) + def test_setitem_with_ea_name(self, ea_name): + # GH 38386 + result = DataFrame([0]) + result[ea_name] = [1] + expected = DataFrame({0: [0], ea_name: [1]}) + tm.assert_frame_equal(result, expected) + + def test_setitem_dt64_ndarray_with_NaT_and_diff_time_units(self): + # GH#7492 + data_ns = np.array([1, "nat"], dtype="datetime64[ns]") + result = Series(data_ns).to_frame() + result["new"] = data_ns + expected = DataFrame({0: [1, None], "new": [1, None]}, dtype="datetime64[ns]") + tm.assert_frame_equal(result, expected) + + # OutOfBoundsDatetime error shouldn't occur; as of 2.0 we preserve "M8[s]" + data_s = np.array([1, "nat"], dtype="datetime64[s]") + result["new"] = data_s + tm.assert_series_equal(result[0], expected[0]) + tm.assert_numpy_array_equal(result["new"].to_numpy(), data_s) + + @pytest.mark.parametrize("unit", ["h", "m", "s", "ms", "D", "M", "Y"]) + def test_frame_setitem_datetime64_col_other_units(self, unit): + # Check that non-nano dt64 values get cast to dt64 on setitem + # into a not-yet-existing column + n = 100 + + dtype = np.dtype(f"M8[{unit}]") + vals = np.arange(n, dtype=np.int64).view(dtype) + if unit in ["s", "ms"]: + # supported unit + ex_vals = vals + else: + # we get the nearest supported units, i.e. "s" + ex_vals = vals.astype("datetime64[s]") + + df = DataFrame({"ints": np.arange(n)}, index=np.arange(n)) + df[unit] = vals + + assert df[unit].dtype == ex_vals.dtype + assert (df[unit].values == ex_vals).all() + + @pytest.mark.parametrize("unit", ["h", "m", "s", "ms", "D", "M", "Y"]) + def test_frame_setitem_existing_datetime64_col_other_units(self, unit): + # Check that non-nano dt64 values get cast to dt64 on setitem + # into an already-existing dt64 column + n = 100 + + dtype = np.dtype(f"M8[{unit}]") + vals = np.arange(n, dtype=np.int64).view(dtype) + ex_vals = vals.astype("datetime64[ns]") + + df = DataFrame({"ints": np.arange(n)}, index=np.arange(n)) + df["dates"] = np.arange(n, dtype=np.int64).view("M8[ns]") + + # We overwrite existing dt64 column with new, non-nano dt64 vals + df["dates"] = vals + assert (df["dates"].values == ex_vals).all() + + def test_setitem_dt64tz(self, timezone_frame, using_copy_on_write): + df = timezone_frame + idx = df["B"].rename("foo") + + # setitem + df["C"] = idx + tm.assert_series_equal(df["C"], Series(idx, name="C")) + + df["D"] = "foo" + df["D"] = idx + tm.assert_series_equal(df["D"], Series(idx, name="D")) + del df["D"] + + # assert that A & C are not sharing the same base (e.g. they + # are copies) + # Note: This does not hold with Copy on Write (because of lazy copying) + v1 = df._mgr.arrays[1] + v2 = df._mgr.arrays[2] + tm.assert_extension_array_equal(v1, v2) + v1base = v1._ndarray.base + v2base = v2._ndarray.base + if not using_copy_on_write: + assert v1base is None or (id(v1base) != id(v2base)) + else: + assert id(v1base) == id(v2base) + + # with nan + df2 = df.copy() + df2.iloc[1, 1] = NaT + df2.iloc[1, 2] = NaT + result = df2["B"] + tm.assert_series_equal(notna(result), Series([True, False, True], name="B")) + tm.assert_series_equal(df2.dtypes, df.dtypes) + + def test_setitem_periodindex(self): + rng = period_range("1/1/2000", periods=5, name="index") + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3)), index=rng) + + df["Index"] = rng + rs = Index(df["Index"]) + tm.assert_index_equal(rs, rng, check_names=False) + assert rs.name == "Index" + assert rng.name == "index" + + rs = df.reset_index().set_index("index") + assert isinstance(rs.index, PeriodIndex) + tm.assert_index_equal(rs.index, rng) + + def test_setitem_complete_column_with_array(self): + # GH#37954 + df = DataFrame({"a": ["one", "two", "three"], "b": [1, 2, 3]}) + arr = np.array([[1, 1], [3, 1], [5, 1]]) + df[["c", "d"]] = arr + expected = DataFrame( + { + "a": ["one", "two", "three"], + "b": [1, 2, 3], + "c": [1, 3, 5], + "d": [1, 1, 1], + } + ) + expected["c"] = expected["c"].astype(arr.dtype) + expected["d"] = expected["d"].astype(arr.dtype) + assert expected["c"].dtype == arr.dtype + assert expected["d"].dtype == arr.dtype + tm.assert_frame_equal(df, expected) + + def test_setitem_period_d_dtype(self): + # GH 39763 + rng = period_range("2016-01-01", periods=9, freq="D", name="A") + result = DataFrame(rng) + expected = DataFrame( + {"A": ["NaT", "NaT", "NaT", "NaT", "NaT", "NaT", "NaT", "NaT", "NaT"]}, + dtype="period[D]", + ) + result.iloc[:] = rng._na_value + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dtype", ["f8", "i8", "u8"]) + def test_setitem_bool_with_numeric_index(self, dtype): + # GH#36319 + cols = Index([1, 2, 3], dtype=dtype) + df = DataFrame(np.random.default_rng(2).standard_normal((3, 3)), columns=cols) + + df[False] = ["a", "b", "c"] + + expected_cols = Index([1, 2, 3, False], dtype=object) + if dtype == "f8": + expected_cols = Index([1.0, 2.0, 3.0, False], dtype=object) + + tm.assert_index_equal(df.columns, expected_cols) + + @pytest.mark.parametrize("indexer", ["B", ["B"]]) + def test_setitem_frame_length_0_str_key(self, indexer): + # GH#38831 + df = DataFrame(columns=["A", "B"]) + other = DataFrame({"B": [1, 2]}) + df[indexer] = other + expected = DataFrame({"A": [np.nan] * 2, "B": [1, 2]}) + expected["A"] = expected["A"].astype("object") + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_duplicate_columns(self): + # GH#15695 + cols = ["A", "B", "C"] * 2 + df = DataFrame(index=range(3), columns=cols) + df.loc[0, "A"] = (0, 3) + df.loc[:, "B"] = (1, 4) + df["C"] = (2, 5) + expected = DataFrame( + [ + [0, 1, 2, 3, 4, 5], + [np.nan, 1, 2, np.nan, 4, 5], + [np.nan, 1, 2, np.nan, 4, 5], + ], + dtype="object", + ) + + # set these with unique columns to be extra-unambiguous + expected[2] = expected[2].astype(np.int64) + expected[5] = expected[5].astype(np.int64) + expected.columns = cols + + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_duplicate_columns_size_mismatch(self): + # GH#39510 + cols = ["A", "B", "C"] * 2 + df = DataFrame(index=range(3), columns=cols) + with pytest.raises(ValueError, match="Columns must be same length as key"): + df[["A"]] = (0, 3, 5) + + df2 = df.iloc[:, :3] # unique columns + with pytest.raises(ValueError, match="Columns must be same length as key"): + df2[["A"]] = (0, 3, 5) + + @pytest.mark.parametrize("cols", [["a", "b", "c"], ["a", "a", "a"]]) + def test_setitem_df_wrong_column_number(self, cols): + # GH#38604 + df = DataFrame([[1, 2, 3]], columns=cols) + rhs = DataFrame([[10, 11]], columns=["d", "e"]) + msg = "Columns must be same length as key" + with pytest.raises(ValueError, match=msg): + df["a"] = rhs + + def test_setitem_listlike_indexer_duplicate_columns(self): + # GH#38604 + df = DataFrame([[1, 2, 3]], columns=["a", "b", "b"]) + rhs = DataFrame([[10, 11, 12]], columns=["a", "b", "b"]) + df[["a", "b"]] = rhs + expected = DataFrame([[10, 11, 12]], columns=["a", "b", "b"]) + tm.assert_frame_equal(df, expected) + + df[["c", "b"]] = rhs + expected = DataFrame([[10, 11, 12, 10]], columns=["a", "b", "b", "c"]) + tm.assert_frame_equal(df, expected) + + def test_setitem_listlike_indexer_duplicate_columns_not_equal_length(self): + # GH#39403 + df = DataFrame([[1, 2, 3]], columns=["a", "b", "b"]) + rhs = DataFrame([[10, 11]], columns=["a", "b"]) + msg = "Columns must be same length as key" + with pytest.raises(ValueError, match=msg): + df[["a", "b"]] = rhs + + def test_setitem_intervals(self): + df = DataFrame({"A": range(10)}) + ser = cut(df["A"], 5) + assert isinstance(ser.cat.categories, IntervalIndex) + + # B & D end up as Categoricals + # the remainder are converted to in-line objects + # containing an IntervalIndex.values + df["B"] = ser + df["C"] = np.array(ser) + df["D"] = ser.values + df["E"] = np.array(ser.values) + df["F"] = ser.astype(object) + + assert isinstance(df["B"].dtype, CategoricalDtype) + assert isinstance(df["B"].cat.categories.dtype, IntervalDtype) + assert isinstance(df["D"].dtype, CategoricalDtype) + assert isinstance(df["D"].cat.categories.dtype, IntervalDtype) + + # These go through the Series constructor and so get inferred back + # to IntervalDtype + assert isinstance(df["C"].dtype, IntervalDtype) + assert isinstance(df["E"].dtype, IntervalDtype) + + # But the Series constructor doesn't do inference on Series objects, + # so setting df["F"] doesn't get cast back to IntervalDtype + assert is_object_dtype(df["F"]) + + # they compare equal as Index + # when converted to numpy objects + c = lambda x: Index(np.array(x)) + tm.assert_index_equal(c(df.B), c(df.B)) + tm.assert_index_equal(c(df.B), c(df.C), check_names=False) + tm.assert_index_equal(c(df.B), c(df.D), check_names=False) + tm.assert_index_equal(c(df.C), c(df.D), check_names=False) + + # B & D are the same Series + tm.assert_series_equal(df["B"], df["B"]) + tm.assert_series_equal(df["B"], df["D"], check_names=False) + + # C & E are the same Series + tm.assert_series_equal(df["C"], df["C"]) + tm.assert_series_equal(df["C"], df["E"], check_names=False) + + def test_setitem_categorical(self): + # GH#35369 + df = DataFrame({"h": Series(list("mn")).astype("category")}) + df.h = df.h.cat.reorder_categories(["n", "m"]) + expected = DataFrame( + {"h": Categorical(["m", "n"]).reorder_categories(["n", "m"])} + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_with_empty_listlike(self): + # GH#17101 + index = Index([], name="idx") + result = DataFrame(columns=["A"], index=index) + result["A"] = [] + expected = DataFrame(columns=["A"], index=index) + tm.assert_index_equal(result.index, expected.index) + + @pytest.mark.parametrize( + "cols, values, expected", + [ + (["C", "D", "D", "a"], [1, 2, 3, 4], 4), # with duplicates + (["D", "C", "D", "a"], [1, 2, 3, 4], 4), # mixed order + (["C", "B", "B", "a"], [1, 2, 3, 4], 4), # other duplicate cols + (["C", "B", "a"], [1, 2, 3], 3), # no duplicates + (["B", "C", "a"], [3, 2, 1], 1), # alphabetical order + (["C", "a", "B"], [3, 2, 1], 2), # in the middle + ], + ) + def test_setitem_same_column(self, cols, values, expected): + # GH#23239 + df = DataFrame([values], columns=cols) + df["a"] = df["a"] + result = df["a"].values[0] + assert result == expected + + def test_setitem_multi_index(self): + # GH#7655, test that assigning to a sub-frame of a frame + # with multi-index columns aligns both rows and columns + it = ["jim", "joe", "jolie"], ["first", "last"], ["left", "center", "right"] + + cols = MultiIndex.from_product(it) + index = date_range("20141006", periods=20) + vals = np.random.default_rng(2).integers(1, 1000, (len(index), len(cols))) + df = DataFrame(vals, columns=cols, index=index) + + i, j = df.index.values.copy(), it[-1][:] + + np.random.default_rng(2).shuffle(i) + df["jim"] = df["jolie"].loc[i, ::-1] + tm.assert_frame_equal(df["jim"], df["jolie"]) + + np.random.default_rng(2).shuffle(j) + df[("joe", "first")] = df[("jolie", "last")].loc[i, j] + tm.assert_frame_equal(df[("joe", "first")], df[("jolie", "last")]) + + np.random.default_rng(2).shuffle(j) + df[("joe", "last")] = df[("jolie", "first")].loc[i, j] + tm.assert_frame_equal(df[("joe", "last")], df[("jolie", "first")]) + + @pytest.mark.parametrize( + "columns,box,expected", + [ + ( + ["A", "B", "C", "D"], + 7, + DataFrame( + [[7, 7, 7, 7], [7, 7, 7, 7], [7, 7, 7, 7]], + columns=["A", "B", "C", "D"], + ), + ), + ( + ["C", "D"], + [7, 8], + DataFrame( + [[1, 2, 7, 8], [3, 4, 7, 8], [5, 6, 7, 8]], + columns=["A", "B", "C", "D"], + ), + ), + ( + ["A", "B", "C"], + np.array([7, 8, 9], dtype=np.int64), + DataFrame([[7, 8, 9], [7, 8, 9], [7, 8, 9]], columns=["A", "B", "C"]), + ), + ( + ["B", "C", "D"], + [[7, 8, 9], [10, 11, 12], [13, 14, 15]], + DataFrame( + [[1, 7, 8, 9], [3, 10, 11, 12], [5, 13, 14, 15]], + columns=["A", "B", "C", "D"], + ), + ), + ( + ["C", "A", "D"], + np.array([[7, 8, 9], [10, 11, 12], [13, 14, 15]], dtype=np.int64), + DataFrame( + [[8, 2, 7, 9], [11, 4, 10, 12], [14, 6, 13, 15]], + columns=["A", "B", "C", "D"], + ), + ), + ( + ["A", "C"], + DataFrame([[7, 8], [9, 10], [11, 12]], columns=["A", "C"]), + DataFrame( + [[7, 2, 8], [9, 4, 10], [11, 6, 12]], columns=["A", "B", "C"] + ), + ), + ], + ) + def test_setitem_list_missing_columns(self, columns, box, expected): + # GH#29334 + df = DataFrame([[1, 2], [3, 4], [5, 6]], columns=["A", "B"]) + df[columns] = box + tm.assert_frame_equal(df, expected) + + def test_setitem_list_of_tuples(self, float_frame): + tuples = list(zip(float_frame["A"], float_frame["B"])) + float_frame["tuples"] = tuples + + result = float_frame["tuples"] + expected = Series(tuples, index=float_frame.index, name="tuples") + tm.assert_series_equal(result, expected) + + def test_setitem_iloc_generator(self): + # GH#39614 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + indexer = (x for x in [1, 2]) + df.iloc[indexer] = 1 + expected = DataFrame({"a": [1, 1, 1], "b": [4, 1, 1]}) + tm.assert_frame_equal(df, expected) + + def test_setitem_iloc_two_dimensional_generator(self): + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + indexer = (x for x in [1, 2]) + df.iloc[indexer, 1] = 1 + expected = DataFrame({"a": [1, 2, 3], "b": [4, 1, 1]}) + tm.assert_frame_equal(df, expected) + + def test_setitem_dtypes_bytes_type_to_object(self): + # GH 20734 + index = Series(name="id", dtype="S24") + df = DataFrame(index=index, columns=Index([], dtype="str")) + df["a"] = Series(name="a", index=index, dtype=np.uint32) + df["b"] = Series(name="b", index=index, dtype="S64") + df["c"] = Series(name="c", index=index, dtype="S64") + df["d"] = Series(name="d", index=index, dtype=np.uint8) + result = df.dtypes + expected = Series([np.uint32, object, object, np.uint8], index=list("abcd")) + tm.assert_series_equal(result, expected) + + def test_boolean_mask_nullable_int64(self): + # GH 28928 + result = DataFrame({"a": [3, 4], "b": [5, 6]}).astype( + {"a": "int64", "b": "Int64"} + ) + mask = Series(False, index=result.index) + result.loc[mask, "a"] = result["a"] + result.loc[mask, "b"] = result["b"] + expected = DataFrame({"a": [3, 4], "b": [5, 6]}).astype( + {"a": "int64", "b": "Int64"} + ) + tm.assert_frame_equal(result, expected) + + def test_setitem_ea_dtype_rhs_series(self): + # GH#47425 + df = DataFrame({"a": [1, 2]}) + df["a"] = Series([1, 2], dtype="Int64") + expected = DataFrame({"a": [1, 2]}, dtype="Int64") + tm.assert_frame_equal(df, expected) + + # TODO(ArrayManager) set column with 2d column array, see #44788 + @td.skip_array_manager_not_yet_implemented + def test_setitem_npmatrix_2d(self): + # GH#42376 + # for use-case df["x"] = sparse.random((10, 10)).mean(axis=1) + expected = DataFrame( + {"np-array": np.ones(10), "np-matrix": np.ones(10)}, index=np.arange(10) + ) + + a = np.ones((10, 1)) + df = DataFrame(index=np.arange(10), columns=Index([], dtype="str")) + df["np-array"] = a + + # Instantiation of `np.matrix` gives PendingDeprecationWarning + with tm.assert_produces_warning(PendingDeprecationWarning): + df["np-matrix"] = np.matrix(a) + + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("vals", [{}, {"d": "a"}]) + def test_setitem_aligning_dict_with_index(self, vals): + # GH#47216 + df = DataFrame({"a": [1, 2], "b": [3, 4], **vals}) + df.loc[:, "a"] = {1: 100, 0: 200} + df.loc[:, "c"] = {0: 5, 1: 6} + df.loc[:, "e"] = {1: 5} + expected = DataFrame( + {"a": [200, 100], "b": [3, 4], **vals, "c": [5, 6], "e": [np.nan, 5]} + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_rhs_dataframe(self): + # GH#47578 + df = DataFrame({"a": [1, 2]}) + df["a"] = DataFrame({"a": [10, 11]}, index=[1, 2]) + expected = DataFrame({"a": [np.nan, 10]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": [1, 2]}) + df.isetitem(0, DataFrame({"a": [10, 11]}, index=[1, 2])) + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_overwrite_with_ea_dtype(self, any_numeric_ea_dtype): + # GH#46896 + df = DataFrame(columns=["a", "b"], data=[[1, 2], [3, 4]]) + df["a"] = DataFrame({"a": [10, 11]}, dtype=any_numeric_ea_dtype) + expected = DataFrame( + { + "a": Series([10, 11], dtype=any_numeric_ea_dtype), + "b": [2, 4], + } + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_string_option_object_index(self): + # GH#55638 + pytest.importorskip("pyarrow") + df = DataFrame({"a": [1, 2]}) + with pd.option_context("future.infer_string", True): + df["b"] = Index(["a", "b"], dtype=object) + expected = DataFrame({"a": [1, 2], "b": Series(["a", "b"], dtype=object)}) + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_midx_columns(self): + # GH#49121 + df = DataFrame({("a", "b"): [10]}) + expected = df.copy() + col_name = ("a", "b") + df[col_name] = df[[col_name]] + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_ea_dtype(self): + # GH#55604 + df = DataFrame({"a": np.array([10], dtype="i8")}) + df.loc[:, "a"] = Series([11], dtype="Int64") + expected = DataFrame({"a": np.array([11], dtype="i8")}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": np.array([10], dtype="i8")}) + df.iloc[:, 0] = Series([11], dtype="Int64") + tm.assert_frame_equal(df, expected) + + def test_setitem_object_inferring(self): + # GH#56102 + idx = Index([Timestamp("2019-12-31")], dtype=object) + df = DataFrame({"a": [1]}) + with tm.assert_produces_warning(FutureWarning, match="infer"): + df.loc[:, "b"] = idx + with tm.assert_produces_warning(FutureWarning, match="infer"): + df["c"] = idx + + expected = DataFrame( + { + "a": [1], + "b": Series([Timestamp("2019-12-31")], dtype="datetime64[ns]"), + "c": Series([Timestamp("2019-12-31")], dtype="datetime64[ns]"), + } + ) + tm.assert_frame_equal(df, expected) + + +class TestSetitemTZAwareValues: + @pytest.fixture + def idx(self): + naive = DatetimeIndex(["2013-1-1 13:00", "2013-1-2 14:00"], name="B") + idx = naive.tz_localize("US/Pacific") + return idx + + @pytest.fixture + def expected(self, idx): + expected = Series(np.array(idx.tolist(), dtype="object"), name="B") + assert expected.dtype == idx.dtype + return expected + + def test_setitem_dt64series(self, idx, expected): + # convert to utc + df = DataFrame(np.random.default_rng(2).standard_normal((2, 1)), columns=["A"]) + df["B"] = idx + df["B"] = idx.to_series(index=[0, 1]).dt.tz_convert(None) + + result = df["B"] + comp = Series(idx.tz_convert("UTC").tz_localize(None), name="B") + tm.assert_series_equal(result, comp) + + def test_setitem_datetimeindex(self, idx, expected): + # setting a DataFrame column with a tzaware DTI retains the dtype + df = DataFrame(np.random.default_rng(2).standard_normal((2, 1)), columns=["A"]) + + # assign to frame + df["B"] = idx + result = df["B"] + tm.assert_series_equal(result, expected) + + def test_setitem_object_array_of_tzaware_datetimes(self, idx, expected): + # setting a DataFrame column with a tzaware DTI retains the dtype + df = DataFrame(np.random.default_rng(2).standard_normal((2, 1)), columns=["A"]) + + # object array of datetimes with a tz + df["B"] = idx.to_pydatetime() + result = df["B"] + tm.assert_series_equal(result, expected) + + +class TestDataFrameSetItemWithExpansion: + def test_setitem_listlike_views(self, using_copy_on_write, warn_copy_on_write): + # GH#38148 + df = DataFrame({"a": [1, 2, 3], "b": [4, 4, 6]}) + + # get one column as a view of df + ser = df["a"] + + # add columns with list-like indexer + df[["c", "d"]] = np.array([[0.1, 0.2], [0.3, 0.4], [0.4, 0.5]]) + + # edit in place the first column to check view semantics + with tm.assert_cow_warning(warn_copy_on_write): + df.iloc[0, 0] = 100 + + if using_copy_on_write: + expected = Series([1, 2, 3], name="a") + else: + expected = Series([100, 2, 3], name="a") + tm.assert_series_equal(ser, expected) + + def test_setitem_string_column_numpy_dtype_raising(self): + # GH#39010 + df = DataFrame([[1, 2], [3, 4]]) + df["0 - Name"] = [5, 6] + expected = DataFrame([[1, 2, 5], [3, 4, 6]], columns=[0, 1, "0 - Name"]) + tm.assert_frame_equal(df, expected) + + def test_setitem_empty_df_duplicate_columns(self, using_copy_on_write): + # GH#38521 + df = DataFrame(columns=["a", "b", "b"], dtype="float64") + df.loc[:, "a"] = list(range(2)) + expected = DataFrame( + [[0, np.nan, np.nan], [1, np.nan, np.nan]], columns=["a", "b", "b"] + ) + tm.assert_frame_equal(df, expected) + + def test_setitem_with_expansion_categorical_dtype(self): + # assignment + df = DataFrame( + { + "value": np.array( + np.random.default_rng(2).integers(0, 10000, 100), dtype="int32" + ) + } + ) + labels = Categorical([f"{i} - {i + 499}" for i in range(0, 10000, 500)]) + + df = df.sort_values(by=["value"], ascending=True) + ser = cut(df.value, range(0, 10500, 500), right=False, labels=labels) + cat = ser.values + + # setting with a Categorical + df["D"] = cat + result = df.dtypes + expected = Series( + [np.dtype("int32"), CategoricalDtype(categories=labels, ordered=False)], + index=["value", "D"], + ) + tm.assert_series_equal(result, expected) + + # setting with a Series + df["E"] = ser + result = df.dtypes + expected = Series( + [ + np.dtype("int32"), + CategoricalDtype(categories=labels, ordered=False), + CategoricalDtype(categories=labels, ordered=False), + ], + index=["value", "D", "E"], + ) + tm.assert_series_equal(result, expected) + + result1 = df["D"] + result2 = df["E"] + tm.assert_categorical_equal(result1._mgr.array, cat) + + # sorting + ser.name = "E" + tm.assert_series_equal(result2.sort_index(), ser.sort_index()) + + def test_setitem_scalars_no_index(self): + # GH#16823 / GH#17894 + df = DataFrame() + df["foo"] = 1 + expected = DataFrame(columns=["foo"]).astype(np.int64) + tm.assert_frame_equal(df, expected) + + def test_setitem_newcol_tuple_key(self, float_frame): + assert ( + "A", + "B", + ) not in float_frame.columns + float_frame["A", "B"] = float_frame["A"] + assert ("A", "B") in float_frame.columns + + result = float_frame["A", "B"] + expected = float_frame["A"] + tm.assert_series_equal(result, expected, check_names=False) + + def test_frame_setitem_newcol_timestamp(self): + # GH#2155 + columns = date_range(start="1/1/2012", end="2/1/2012", freq=BDay()) + data = DataFrame(columns=columns, index=range(10)) + t = datetime(2012, 11, 1) + ts = Timestamp(t) + data[ts] = np.nan # works, mostly a smoke-test + assert np.isnan(data[ts]).all() + + def test_frame_setitem_rangeindex_into_new_col(self): + # GH#47128 + df = DataFrame({"a": ["a", "b"]}) + df["b"] = df.index + df.loc[[False, True], "b"] = 100 + result = df.loc[[1], :] + expected = DataFrame({"a": ["b"], "b": [100]}, index=[1]) + tm.assert_frame_equal(result, expected) + + def test_setitem_frame_keep_ea_dtype(self, any_numeric_ea_dtype): + # GH#46896 + df = DataFrame(columns=["a", "b"], data=[[1, 2], [3, 4]]) + df["c"] = DataFrame({"a": [10, 11]}, dtype=any_numeric_ea_dtype) + expected = DataFrame( + { + "a": [1, 3], + "b": [2, 4], + "c": Series([10, 11], dtype=any_numeric_ea_dtype), + } + ) + tm.assert_frame_equal(df, expected) + + def test_loc_expansion_with_timedelta_type(self): + result = DataFrame(columns=list("abc")) + result.loc[0] = { + "a": pd.to_timedelta(5, unit="s"), + "b": pd.to_timedelta(72, unit="s"), + "c": "23", + } + expected = DataFrame( + [[pd.Timedelta("0 days 00:00:05"), pd.Timedelta("0 days 00:01:12"), "23"]], + index=Index([0]), + columns=(["a", "b", "c"]), + ) + tm.assert_frame_equal(result, expected) + + +class TestDataFrameSetItemSlicing: + def test_setitem_slice_position(self): + # GH#31469 + df = DataFrame(np.zeros((100, 1))) + df[-4:] = 1 + arr = np.zeros((100, 1)) + arr[-4:] = 1 + expected = DataFrame(arr) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [tm.setitem, tm.iloc]) + @pytest.mark.parametrize("box", [Series, np.array, list, pd.array]) + @pytest.mark.parametrize("n", [1, 2, 3]) + def test_setitem_slice_indexer_broadcasting_rhs(self, n, box, indexer): + # GH#40440 + df = DataFrame([[1, 3, 5]] + [[2, 4, 6]] * n, columns=["a", "b", "c"]) + indexer(df)[1:] = box([10, 11, 12]) + expected = DataFrame([[1, 3, 5]] + [[10, 11, 12]] * n, columns=["a", "b", "c"]) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("box", [Series, np.array, list, pd.array]) + @pytest.mark.parametrize("n", [1, 2, 3]) + def test_setitem_list_indexer_broadcasting_rhs(self, n, box): + # GH#40440 + df = DataFrame([[1, 3, 5]] + [[2, 4, 6]] * n, columns=["a", "b", "c"]) + df.iloc[list(range(1, n + 1))] = box([10, 11, 12]) + expected = DataFrame([[1, 3, 5]] + [[10, 11, 12]] * n, columns=["a", "b", "c"]) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [tm.setitem, tm.iloc]) + @pytest.mark.parametrize("box", [Series, np.array, list, pd.array]) + @pytest.mark.parametrize("n", [1, 2, 3]) + def test_setitem_slice_broadcasting_rhs_mixed_dtypes(self, n, box, indexer): + # GH#40440 + df = DataFrame( + [[1, 3, 5], ["x", "y", "z"]] + [[2, 4, 6]] * n, columns=["a", "b", "c"] + ) + indexer(df)[1:] = box([10, 11, 12]) + expected = DataFrame( + [[1, 3, 5]] + [[10, 11, 12]] * (n + 1), + columns=["a", "b", "c"], + dtype="object", + ) + tm.assert_frame_equal(df, expected) + + +class TestDataFrameSetItemCallable: + def test_setitem_callable(self): + # GH#12533 + df = DataFrame({"A": [1, 2, 3, 4], "B": [5, 6, 7, 8]}) + df[lambda x: "A"] = [11, 12, 13, 14] + + exp = DataFrame({"A": [11, 12, 13, 14], "B": [5, 6, 7, 8]}) + tm.assert_frame_equal(df, exp) + + def test_setitem_other_callable(self): + # GH#13299 + def inc(x): + return x + 1 + + # Set dtype object straight away to avoid upcast when setting inc below + df = DataFrame([[-1, 1], [1, -1]], dtype=object) + df[df > 0] = inc + + expected = DataFrame([[-1, inc], [inc, -1]]) + tm.assert_frame_equal(df, expected) + + +class TestDataFrameSetItemBooleanMask: + @td.skip_array_manager_invalid_test # TODO(ArrayManager) rewrite not using .values + @pytest.mark.parametrize( + "mask_type", + [lambda df: df > np.abs(df) / 2, lambda df: (df > np.abs(df) / 2).values], + ids=["dataframe", "array"], + ) + def test_setitem_boolean_mask(self, mask_type, float_frame): + # Test for issue #18582 + df = float_frame.copy() + mask = mask_type(df) + + # index with boolean mask + result = df.copy() + result[mask] = np.nan + + expected = df.values.copy() + expected[np.array(mask)] = np.nan + expected = DataFrame(expected, index=df.index, columns=df.columns) + tm.assert_frame_equal(result, expected) + + @pytest.mark.xfail(reason="Currently empty indexers are treated as all False") + @pytest.mark.parametrize("box", [list, np.array, Series]) + def test_setitem_loc_empty_indexer_raises_with_non_empty_value(self, box): + # GH#37672 + df = DataFrame({"a": ["a"], "b": [1], "c": [1]}) + if box == Series: + indexer = box([], dtype="object") + else: + indexer = box([]) + msg = "Must have equal len keys and value when setting with an iterable" + with pytest.raises(ValueError, match=msg): + df.loc[indexer, ["b"]] = [1] + + @pytest.mark.parametrize("box", [list, np.array, Series]) + def test_setitem_loc_only_false_indexer_dtype_changed(self, box): + # GH#37550 + # Dtype is only changed when value to set is a Series and indexer is + # empty/bool all False + df = DataFrame({"a": ["a"], "b": [1], "c": [1]}) + indexer = box([False]) + df.loc[indexer, ["b"]] = 10 - df["c"] + expected = DataFrame({"a": ["a"], "b": [1], "c": [1]}) + tm.assert_frame_equal(df, expected) + + df.loc[indexer, ["b"]] = 9 + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [tm.setitem, tm.loc]) + def test_setitem_boolean_mask_aligning(self, indexer): + # GH#39931 + df = DataFrame({"a": [1, 4, 2, 3], "b": [5, 6, 7, 8]}) + expected = df.copy() + mask = df["a"] >= 3 + indexer(df)[mask] = indexer(df)[mask].sort_values("a") + tm.assert_frame_equal(df, expected) + + def test_setitem_mask_categorical(self): + # assign multiple rows (mixed values) (-> array) -> exp_multi_row + # changed multiple rows + cats2 = Categorical(["a", "a", "b", "b", "a", "a", "a"], categories=["a", "b"]) + idx2 = Index(["h", "i", "j", "k", "l", "m", "n"]) + values2 = [1, 1, 2, 2, 1, 1, 1] + exp_multi_row = DataFrame({"cats": cats2, "values": values2}, index=idx2) + + catsf = Categorical( + ["a", "a", "c", "c", "a", "a", "a"], categories=["a", "b", "c"] + ) + idxf = Index(["h", "i", "j", "k", "l", "m", "n"]) + valuesf = [1, 1, 3, 3, 1, 1, 1] + df = DataFrame({"cats": catsf, "values": valuesf}, index=idxf) + + exp_fancy = exp_multi_row.copy() + exp_fancy["cats"] = exp_fancy["cats"].cat.set_categories(["a", "b", "c"]) + + mask = df["cats"] == "c" + df[mask] = ["b", 2] + # category c is kept in .categories + tm.assert_frame_equal(df, exp_fancy) + + @pytest.mark.parametrize("dtype", ["float", "int64"]) + @pytest.mark.parametrize("kwargs", [{}, {"index": [1]}, {"columns": ["A"]}]) + def test_setitem_empty_frame_with_boolean(self, dtype, kwargs): + # see GH#10126 + kwargs["dtype"] = dtype + df = DataFrame(**kwargs) + + df2 = df.copy() + df[df > df2] = 47 + tm.assert_frame_equal(df, df2) + + def test_setitem_boolean_indexing(self): + idx = list(range(3)) + cols = ["A", "B", "C"] + df1 = DataFrame( + index=idx, + columns=cols, + data=np.array( + [[0.0, 0.5, 1.0], [1.5, 2.0, 2.5], [3.0, 3.5, 4.0]], dtype=float + ), + ) + df2 = DataFrame(index=idx, columns=cols, data=np.ones((len(idx), len(cols)))) + + expected = DataFrame( + index=idx, + columns=cols, + data=np.array([[0.0, 0.5, 1.0], [1.5, 2.0, -1], [-1, -1, -1]], dtype=float), + ) + + df1[df1 > 2.0 * df2] = -1 + tm.assert_frame_equal(df1, expected) + with pytest.raises(ValueError, match="Item wrong length"): + df1[df1.index[:-1] > 2] = -1 + + def test_loc_setitem_all_false_boolean_two_blocks(self): + # GH#40885 + df = DataFrame({"a": [1, 2], "b": [3, 4], "c": "a"}) + expected = df.copy() + indexer = Series([False, False], name="c") + df.loc[indexer, ["b"]] = DataFrame({"b": [5, 6]}, index=[0, 1]) + tm.assert_frame_equal(df, expected) + + def test_setitem_ea_boolean_mask(self): + # GH#47125 + df = DataFrame([[-1, 2], [3, -4]]) + expected = DataFrame([[0, 2], [3, 0]]) + boolean_indexer = DataFrame( + { + 0: Series([True, False], dtype="boolean"), + 1: Series([pd.NA, True], dtype="boolean"), + } + ) + df[boolean_indexer] = 0 + tm.assert_frame_equal(df, expected) + + +class TestDataFrameSetitemCopyViewSemantics: + def test_setitem_always_copy(self, float_frame): + assert "E" not in float_frame.columns + s = float_frame["A"].copy() + float_frame["E"] = s + + float_frame.iloc[5:10, float_frame.columns.get_loc("E")] = np.nan + assert notna(s[5:10]).all() + + @pytest.mark.parametrize("consolidate", [True, False]) + def test_setitem_partial_column_inplace( + self, consolidate, using_array_manager, using_copy_on_write + ): + # This setting should be in-place, regardless of whether frame is + # single-block or multi-block + # GH#304 this used to be incorrectly not-inplace, in which case + # we needed to ensure _item_cache was cleared. + + df = DataFrame( + {"x": [1.1, 2.1, 3.1, 4.1], "y": [5.1, 6.1, 7.1, 8.1]}, index=[0, 1, 2, 3] + ) + df.insert(2, "z", np.nan) + if not using_array_manager: + if consolidate: + df._consolidate_inplace() + assert len(df._mgr.blocks) == 1 + else: + assert len(df._mgr.blocks) == 2 + + zvals = df["z"]._values + + df.loc[2:, "z"] = 42 + + expected = Series([np.nan, np.nan, 42, 42], index=df.index, name="z") + tm.assert_series_equal(df["z"], expected) + + # check setting occurred in-place + if not using_copy_on_write: + tm.assert_numpy_array_equal(zvals, expected.values) + assert np.shares_memory(zvals, df["z"]._values) + + def test_setitem_duplicate_columns_not_inplace(self): + # GH#39510 + cols = ["A", "B"] * 2 + df = DataFrame(0.0, index=[0], columns=cols) + df_copy = df.copy() + df_view = df[:] + df["B"] = (2, 5) + + expected = DataFrame([[0.0, 2, 0.0, 5]], columns=cols) + tm.assert_frame_equal(df_view, df_copy) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "value", [1, np.array([[1], [1]], dtype="int64"), [[1], [1]]] + ) + def test_setitem_same_dtype_not_inplace(self, value, using_array_manager): + # GH#39510 + cols = ["A", "B"] + df = DataFrame(0, index=[0, 1], columns=cols) + df_copy = df.copy() + df_view = df[:] + df[["B"]] = value + + expected = DataFrame([[0, 1], [0, 1]], columns=cols) + tm.assert_frame_equal(df, expected) + tm.assert_frame_equal(df_view, df_copy) + + @pytest.mark.parametrize("value", [1.0, np.array([[1.0], [1.0]]), [[1.0], [1.0]]]) + def test_setitem_listlike_key_scalar_value_not_inplace(self, value): + # GH#39510 + cols = ["A", "B"] + df = DataFrame(0, index=[0, 1], columns=cols) + df_copy = df.copy() + df_view = df[:] + df[["B"]] = value + + expected = DataFrame([[0, 1.0], [0, 1.0]], columns=cols) + tm.assert_frame_equal(df_view, df_copy) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "indexer", + [ + "a", + ["a"], + pytest.param( + [True, False], + marks=pytest.mark.xfail( + reason="Boolean indexer incorrectly setting inplace", + strict=False, # passing on some builds, no obvious pattern + ), + ), + ], + ) + @pytest.mark.parametrize( + "value, set_value", + [ + (1, 5), + (1.0, 5.0), + (Timestamp("2020-12-31"), Timestamp("2021-12-31")), + ("a", "b"), + ], + ) + def test_setitem_not_operating_inplace(self, value, set_value, indexer): + # GH#43406 + df = DataFrame({"a": value}, index=[0, 1]) + expected = df.copy() + view = df[:] + df[indexer] = set_value + tm.assert_frame_equal(view, expected) + + @td.skip_array_manager_invalid_test + def test_setitem_column_update_inplace( + self, using_copy_on_write, warn_copy_on_write + ): + # https://github.com/pandas-dev/pandas/issues/47172 + + labels = [f"c{i}" for i in range(10)] + df = DataFrame({col: np.zeros(len(labels)) for col in labels}, index=labels) + values = df._mgr.blocks[0].values + + with tm.raises_chained_assignment_error(): + for label in df.columns: + df[label][label] = 1 + if not using_copy_on_write: + # diagonal values all updated + assert np.all(values[np.arange(10), np.arange(10)] == 1) + else: + # original dataframe not updated + assert np.all(values[np.arange(10), np.arange(10)] == 0) + + def test_setitem_column_frame_as_category(self): + # GH31581 + df = DataFrame([1, 2, 3]) + df["col1"] = DataFrame([1, 2, 3], dtype="category") + df["col2"] = Series([1, 2, 3], dtype="category") + + expected_types = Series( + ["int64", "category", "category"], index=[0, "col1", "col2"], dtype=object + ) + tm.assert_series_equal(df.dtypes, expected_types) + + @pytest.mark.parametrize("dtype", ["int64", "Int64"]) + def test_setitem_iloc_with_numpy_array(self, dtype): + # GH-33828 + df = DataFrame({"a": np.ones(3)}, dtype=dtype) + df.iloc[np.array([0]), np.array([0])] = np.array([[2]]) + + expected = DataFrame({"a": [2, 1, 1]}, dtype=dtype) + tm.assert_frame_equal(df, expected) + + def test_setitem_frame_dup_cols_dtype(self): + # GH#53143 + df = DataFrame([[1, 2, 3, 4], [4, 5, 6, 7]], columns=["a", "b", "a", "c"]) + rhs = DataFrame([[0, 1.5], [2, 2.5]], columns=["a", "a"]) + df["a"] = rhs + expected = DataFrame( + [[0, 2, 1.5, 4], [2, 5, 2.5, 7]], columns=["a", "b", "a", "c"] + ) + tm.assert_frame_equal(df, expected) + + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["a", "a", "b"]) + rhs = DataFrame([[0, 1.5], [2, 2.5]], columns=["a", "a"]) + df["a"] = rhs + expected = DataFrame([[0, 1.5, 3], [2, 2.5, 6]], columns=["a", "a", "b"]) + tm.assert_frame_equal(df, expected) + + def test_frame_setitem_empty_dataframe(self): + # GH#28871 + dti = DatetimeIndex(["2000-01-01"], dtype="M8[ns]", name="date") + df = DataFrame({"date": dti}).set_index("date") + df = df[0:0].copy() + + df["3010"] = None + df["2010"] = None + + expected = DataFrame( + [], + columns=["3010", "2010"], + index=dti[:0], + ) + tm.assert_frame_equal(df, expected) + + +def test_full_setter_loc_incompatible_dtype(): + # https://github.com/pandas-dev/pandas/issues/55791 + df = DataFrame({"a": [1, 2]}) + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "a"] = True + expected = DataFrame({"a": [True, True]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": [1, 2]}) + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "a"] = {0: 3.5, 1: 4.5} + expected = DataFrame({"a": [3.5, 4.5]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": [1, 2]}) + df.loc[:, "a"] = {0: 3, 1: 4} + expected = DataFrame({"a": [3, 4]}) + tm.assert_frame_equal(df, expected) + + +def test_setitem_partial_row_multiple_columns(): + # https://github.com/pandas-dev/pandas/issues/56503 + df = DataFrame({"A": [1, 2, 3], "B": [4.0, 5, 6]}) + # should not warn + df.loc[df.index <= 1, ["F", "G"]] = (1, "abc") + expected = DataFrame( + { + "A": [1, 2, 3], + "B": [4.0, 5, 6], + "F": [1.0, 1, float("nan")], + "G": ["abc", "abc", float("nan")], + } + ) + tm.assert_frame_equal(df, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_take.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_take.py new file mode 100644 index 0000000000000000000000000000000000000000..8c172314409171bc102e599bb26ca0d1e0b12078 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_take.py @@ -0,0 +1,92 @@ +import pytest + +import pandas._testing as tm + + +class TestDataFrameTake: + def test_take_slices_deprecated(self, float_frame): + # GH#51539 + df = float_frame + + slc = slice(0, 4, 1) + with tm.assert_produces_warning(FutureWarning): + df.take(slc, axis=0) + with tm.assert_produces_warning(FutureWarning): + df.take(slc, axis=1) + + def test_take(self, float_frame): + # homogeneous + order = [3, 1, 2, 0] + for df in [float_frame]: + result = df.take(order, axis=0) + expected = df.reindex(df.index.take(order)) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.take(order, axis=1) + expected = df.loc[:, ["D", "B", "C", "A"]] + tm.assert_frame_equal(result, expected, check_names=False) + + # negative indices + order = [2, 1, -1] + for df in [float_frame]: + result = df.take(order, axis=0) + expected = df.reindex(df.index.take(order)) + tm.assert_frame_equal(result, expected) + + result = df.take(order, axis=0) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.take(order, axis=1) + expected = df.loc[:, ["C", "B", "D"]] + tm.assert_frame_equal(result, expected, check_names=False) + + # illegal indices + msg = "indices are out-of-bounds" + with pytest.raises(IndexError, match=msg): + df.take([3, 1, 2, 30], axis=0) + with pytest.raises(IndexError, match=msg): + df.take([3, 1, 2, -31], axis=0) + with pytest.raises(IndexError, match=msg): + df.take([3, 1, 2, 5], axis=1) + with pytest.raises(IndexError, match=msg): + df.take([3, 1, 2, -5], axis=1) + + def test_take_mixed_type(self, float_string_frame): + # mixed-dtype + order = [4, 1, 2, 0, 3] + for df in [float_string_frame]: + result = df.take(order, axis=0) + expected = df.reindex(df.index.take(order)) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.take(order, axis=1) + expected = df.loc[:, ["foo", "B", "C", "A", "D"]] + tm.assert_frame_equal(result, expected) + + # negative indices + order = [4, 1, -2] + for df in [float_string_frame]: + result = df.take(order, axis=0) + expected = df.reindex(df.index.take(order)) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.take(order, axis=1) + expected = df.loc[:, ["foo", "B", "D"]] + tm.assert_frame_equal(result, expected) + + def test_take_mixed_numeric(self, mixed_float_frame, mixed_int_frame): + # by dtype + order = [1, 2, 0, 3] + for df in [mixed_float_frame, mixed_int_frame]: + result = df.take(order, axis=0) + expected = df.reindex(df.index.take(order)) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = df.take(order, axis=1) + expected = df.loc[:, ["B", "C", "A", "D"]] + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_where.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_where.py new file mode 100644 index 0000000000000000000000000000000000000000..356257bbfec9804336159becf86212d2afeeed0d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_where.py @@ -0,0 +1,1104 @@ +from datetime import datetime + +from hypothesis import given +import numpy as np +import pytest + +from pandas.core.dtypes.common import is_scalar + +import pandas as pd +from pandas import ( + DataFrame, + DatetimeIndex, + Index, + Series, + StringDtype, + Timestamp, + date_range, + isna, +) +import pandas._testing as tm +from pandas._testing._hypothesis import OPTIONAL_ONE_OF_ALL + + +@pytest.fixture(params=["default", "float_string", "mixed_float", "mixed_int"]) +def where_frame(request, float_string_frame, mixed_float_frame, mixed_int_frame): + if request.param == "default": + return DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), columns=["A", "B", "C"] + ) + if request.param == "float_string": + return float_string_frame + if request.param == "mixed_float": + return mixed_float_frame + if request.param == "mixed_int": + return mixed_int_frame + + +def _safe_add(df): + # only add to the numeric items + def is_ok(s): + return ( + issubclass(s.dtype.type, (np.integer, np.floating)) and s.dtype != "uint8" + ) + + return DataFrame(dict((c, s + 1) if is_ok(s) else (c, s) for c, s in df.items())) + + +class TestDataFrameIndexingWhere: + def test_where_get(self, where_frame, float_string_frame): + def _check_get(df, cond, check_dtypes=True): + other1 = _safe_add(df) + rs = df.where(cond, other1) + rs2 = df.where(cond.values, other1) + for k, v in rs.items(): + exp = Series(np.where(cond[k], df[k], other1[k]), index=v.index) + tm.assert_series_equal(v, exp, check_names=False) + tm.assert_frame_equal(rs, rs2) + + # dtypes + if check_dtypes: + assert (rs.dtypes == df.dtypes).all() + + # check getting + df = where_frame + if df is float_string_frame: + msg = ( + "'>' not supported between instances of 'str' and 'int'" + "|Invalid comparison" + ) + with pytest.raises(TypeError, match=msg): + df > 0 + return + cond = df > 0 + _check_get(df, cond) + + def test_where_upcasting(self): + # upcasting case (GH # 2794) + df = DataFrame( + { + c: Series([1] * 3, dtype=c) + for c in ["float32", "float64", "int32", "int64"] + } + ) + df.iloc[1, :] = 0 + result = df.dtypes + expected = Series( + [ + np.dtype("float32"), + np.dtype("float64"), + np.dtype("int32"), + np.dtype("int64"), + ], + index=["float32", "float64", "int32", "int64"], + ) + + # when we don't preserve boolean casts + # + # expected = Series({ 'float32' : 1, 'float64' : 3 }) + + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") + def test_where_alignment(self, where_frame, float_string_frame): + # aligning + def _check_align(df, cond, other, check_dtypes=True): + rs = df.where(cond, other) + for i, k in enumerate(rs.columns): + result = rs[k] + d = df[k].values + c = cond[k].reindex(df[k].index).fillna(False).values + + if is_scalar(other): + o = other + elif isinstance(other, np.ndarray): + o = Series(other[:, i], index=result.index).values + else: + o = other[k].values + + new_values = d if c.all() else np.where(c, d, o) + expected = Series(new_values, index=result.index, name=k) + + # since we can't always have the correct numpy dtype + # as numpy doesn't know how to downcast, don't check + tm.assert_series_equal(result, expected, check_dtype=False) + + # dtypes + # can't check dtype when other is an ndarray + + if check_dtypes and not isinstance(other, np.ndarray): + assert (rs.dtypes == df.dtypes).all() + + df = where_frame + if df is float_string_frame: + msg = ( + "'>' not supported between instances of 'str' and 'int'" + "|Invalid comparison" + ) + with pytest.raises(TypeError, match=msg): + df > 0 + return + + # other is a frame + cond = (df > 0)[1:] + _check_align(df, cond, _safe_add(df)) + + # check other is ndarray + cond = df > 0 + _check_align(df, cond, (_safe_add(df).values)) + + # integers are upcast, so don't check the dtypes + cond = df > 0 + check_dtypes = all(not issubclass(s.type, np.integer) for s in df.dtypes) + _check_align(df, cond, np.nan, check_dtypes=check_dtypes) + + # Ignore deprecation warning in Python 3.12 for inverting a bool + @pytest.mark.filterwarnings("ignore::DeprecationWarning") + def test_where_invalid(self): + # invalid conditions + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), columns=["A", "B", "C"] + ) + cond = df > 0 + + err1 = (df + 1).values[0:2, :] + msg = "other must be the same shape as self when an ndarray" + with pytest.raises(ValueError, match=msg): + df.where(cond, err1) + + err2 = cond.iloc[:2, :].values + other1 = _safe_add(df) + msg = "Array conditional must be same shape as self" + with pytest.raises(ValueError, match=msg): + df.where(err2, other1) + + with pytest.raises(ValueError, match=msg): + df.mask(True) + with pytest.raises(ValueError, match=msg): + df.mask(0) + + @pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") + def test_where_set(self, where_frame, float_string_frame, mixed_int_frame): + # where inplace + + def _check_set(df, cond, check_dtypes=True): + dfi = df.copy() + econd = cond.reindex_like(df).fillna(True).infer_objects(copy=False) + expected = dfi.mask(~econd) + + return_value = dfi.where(cond, np.nan, inplace=True) + assert return_value is None + tm.assert_frame_equal(dfi, expected) + + # dtypes (and confirm upcasts)x + if check_dtypes: + for k, v in df.dtypes.items(): + if issubclass(v.type, np.integer) and not cond[k].all(): + v = np.dtype("float64") + assert dfi[k].dtype == v + + df = where_frame + if df is float_string_frame: + msg = ( + "'>' not supported between instances of 'str' and 'int'" + "|Invalid comparison" + ) + with pytest.raises(TypeError, match=msg): + df > 0 + return + if df is mixed_int_frame: + df = df.astype("float64") + + cond = df > 0 + _check_set(df, cond) + + cond = df >= 0 + _check_set(df, cond) + + # aligning + cond = (df >= 0)[1:] + _check_set(df, cond) + + def test_where_series_slicing(self): + # GH 10218 + # test DataFrame.where with Series slicing + df = DataFrame({"a": range(3), "b": range(4, 7)}) + result = df.where(df["a"] == 1) + expected = df[df["a"] == 1].reindex(df.index) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("klass", [list, tuple, np.array]) + def test_where_array_like(self, klass): + # see gh-15414 + df = DataFrame({"a": [1, 2, 3]}) + cond = [[False], [True], [True]] + expected = DataFrame({"a": [np.nan, 2, 3]}) + + result = df.where(klass(cond)) + tm.assert_frame_equal(result, expected) + + df["b"] = 2 + expected["b"] = [2, np.nan, 2] + cond = [[False, True], [True, False], [True, True]] + + result = df.where(klass(cond)) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "cond", + [ + [[1], [0], [1]], + Series([[2], [5], [7]]), + DataFrame({"a": [2, 5, 7]}), + [["True"], ["False"], ["True"]], + [[Timestamp("2017-01-01")], [pd.NaT], [Timestamp("2017-01-02")]], + ], + ) + def test_where_invalid_input_single(self, cond): + # see gh-15414: only boolean arrays accepted + df = DataFrame({"a": [1, 2, 3]}) + msg = "Boolean array expected for the condition" + + with pytest.raises(ValueError, match=msg): + df.where(cond) + + @pytest.mark.parametrize( + "cond", + [ + [[0, 1], [1, 0], [1, 1]], + Series([[0, 2], [5, 0], [4, 7]]), + [["False", "True"], ["True", "False"], ["True", "True"]], + DataFrame({"a": [2, 5, 7], "b": [4, 8, 9]}), + [ + [pd.NaT, Timestamp("2017-01-01")], + [Timestamp("2017-01-02"), pd.NaT], + [Timestamp("2017-01-03"), Timestamp("2017-01-03")], + ], + ], + ) + def test_where_invalid_input_multiple(self, cond): + # see gh-15414: only boolean arrays accepted + df = DataFrame({"a": [1, 2, 3], "b": [2, 2, 2]}) + msg = "Boolean array expected for the condition" + + with pytest.raises(ValueError, match=msg): + df.where(cond) + + def test_where_dataframe_col_match(self): + df = DataFrame([[1, 2, 3], [4, 5, 6]]) + cond = DataFrame([[True, False, True], [False, False, True]]) + + result = df.where(cond) + expected = DataFrame([[1.0, np.nan, 3], [np.nan, np.nan, 6]]) + tm.assert_frame_equal(result, expected) + + # this *does* align, though has no matching columns + cond.columns = ["a", "b", "c"] + result = df.where(cond) + expected = DataFrame(np.nan, index=df.index, columns=df.columns) + tm.assert_frame_equal(result, expected) + + def test_where_ndframe_align(self): + msg = "Array conditional must be same shape as self" + df = DataFrame([[1, 2, 3], [4, 5, 6]]) + + cond = [True] + with pytest.raises(ValueError, match=msg): + df.where(cond) + + expected = DataFrame([[1, 2, 3], [np.nan, np.nan, np.nan]]) + + out = df.where(Series(cond)) + tm.assert_frame_equal(out, expected) + + cond = np.array([False, True, False, True]) + with pytest.raises(ValueError, match=msg): + df.where(cond) + + expected = DataFrame([[np.nan, np.nan, np.nan], [4, 5, 6]]) + + out = df.where(Series(cond)) + tm.assert_frame_equal(out, expected) + + def test_where_bug(self): + # see gh-2793 + df = DataFrame( + {"a": [1.0, 2.0, 3.0, 4.0], "b": [4.0, 3.0, 2.0, 1.0]}, dtype="float64" + ) + expected = DataFrame( + {"a": [np.nan, np.nan, 3.0, 4.0], "b": [4.0, 3.0, np.nan, np.nan]}, + dtype="float64", + ) + result = df.where(df > 2, np.nan) + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(result > 2, np.nan, inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + def test_where_bug_mixed(self, any_signed_int_numpy_dtype): + # see gh-2793 + df = DataFrame( + { + "a": np.array([1, 2, 3, 4], dtype=any_signed_int_numpy_dtype), + "b": np.array([4.0, 3.0, 2.0, 1.0], dtype="float64"), + } + ) + + expected = DataFrame( + {"a": [-1, -1, 3, 4], "b": [4.0, 3.0, -1, -1]}, + ).astype({"a": any_signed_int_numpy_dtype, "b": "float64"}) + + result = df.where(df > 2, -1) + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(result > 2, -1, inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + def test_where_bug_transposition(self): + # see gh-7506 + a = DataFrame({0: [1, 2], 1: [3, 4], 2: [5, 6]}) + b = DataFrame({0: [np.nan, 8], 1: [9, np.nan], 2: [np.nan, np.nan]}) + do_not_replace = b.isna() | (a > b) + + expected = a.copy() + expected[~do_not_replace] = b + + msg = "Downcasting behavior in Series and DataFrame methods 'where'" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = a.where(do_not_replace, b) + tm.assert_frame_equal(result, expected) + + a = DataFrame({0: [4, 6], 1: [1, 0]}) + b = DataFrame({0: [np.nan, 3], 1: [3, np.nan]}) + do_not_replace = b.isna() | (a > b) + + expected = a.copy() + expected[~do_not_replace] = b + + with tm.assert_produces_warning(FutureWarning, match=msg): + result = a.where(do_not_replace, b) + tm.assert_frame_equal(result, expected) + + def test_where_datetime(self): + # GH 3311 + df = DataFrame( + { + "A": date_range("20130102", periods=5), + "B": date_range("20130104", periods=5), + "C": np.random.default_rng(2).standard_normal(5), + } + ) + + stamp = datetime(2013, 1, 3) + msg = "'>' not supported between instances of 'float' and 'datetime.datetime'" + with pytest.raises(TypeError, match=msg): + df > stamp + + result = df[df.iloc[:, :-1] > stamp] + + expected = df.copy() + expected.loc[[0, 1], "A"] = np.nan + + expected.loc[:, "C"] = np.nan + tm.assert_frame_equal(result, expected) + + def test_where_none(self): + # GH 4667 + # setting with None changes dtype + df = DataFrame({"series": Series(range(10))}).astype(float) + df[df > 7] = None + expected = DataFrame( + {"series": Series([0, 1, 2, 3, 4, 5, 6, 7, np.nan, np.nan])} + ) + tm.assert_frame_equal(df, expected) + + # GH 7656 + df = DataFrame( + [ + {"A": 1, "B": np.nan, "C": "Test"}, + {"A": np.nan, "B": "Test", "C": np.nan}, + ] + ) + + orig = df.copy() + + mask = ~isna(df) + df.where(mask, None, inplace=True) + expected = DataFrame( + { + "A": [1.0, np.nan], + "B": [None, "Test"], + "C": ["Test", None], + } + ) + tm.assert_frame_equal(df, expected) + + df = orig.copy() + df[~mask] = None + tm.assert_frame_equal(df, expected) + + def test_where_empty_df_and_empty_cond_having_non_bool_dtypes(self): + # see gh-21947 + df = DataFrame(columns=["a"]) + cond = df + assert (cond.dtypes == object).all() + + result = df.where(cond) + tm.assert_frame_equal(result, df) + + def test_where_align(self): + def create(): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 3))) + df.iloc[3:5, 0] = np.nan + df.iloc[4:6, 1] = np.nan + df.iloc[5:8, 2] = np.nan + return df + + # series + df = create() + expected = df.fillna(df.mean()) + result = df.where(pd.notna(df), df.mean(), axis="columns") + tm.assert_frame_equal(result, expected) + + return_value = df.where(pd.notna(df), df.mean(), inplace=True, axis="columns") + assert return_value is None + tm.assert_frame_equal(df, expected) + + df = create().fillna(0) + expected = df.apply(lambda x, y: x.where(x > 0, y), y=df[0]) + result = df.where(df > 0, df[0], axis="index") + tm.assert_frame_equal(result, expected) + result = df.where(df > 0, df[0], axis="rows") + tm.assert_frame_equal(result, expected) + + # frame + df = create() + expected = df.fillna(1) + result = df.where( + pd.notna(df), DataFrame(1, index=df.index, columns=df.columns) + ) + tm.assert_frame_equal(result, expected) + + def test_where_complex(self): + # GH 6345 + expected = DataFrame([[1 + 1j, 2], [np.nan, 4 + 1j]], columns=["a", "b"]) + df = DataFrame([[1 + 1j, 2], [5 + 1j, 4 + 1j]], columns=["a", "b"]) + df[df.abs() >= 5] = np.nan + tm.assert_frame_equal(df, expected) + + def test_where_axis(self): + # GH 9736 + df = DataFrame(np.random.default_rng(2).standard_normal((2, 2))) + mask = DataFrame([[False, False], [False, False]]) + ser = Series([0, 1]) + + expected = DataFrame([[0, 0], [1, 1]], dtype="float64") + result = df.where(mask, ser, axis="index") + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(mask, ser, axis="index", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + expected = DataFrame([[0, 1], [0, 1]], dtype="float64") + result = df.where(mask, ser, axis="columns") + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(mask, ser, axis="columns", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + def test_where_axis_with_upcast(self): + # Upcast needed + df = DataFrame([[1, 2], [3, 4]], dtype="int64") + mask = DataFrame([[False, False], [False, False]]) + ser = Series([0, np.nan]) + + expected = DataFrame([[0, 0], [np.nan, np.nan]], dtype="float64") + result = df.where(mask, ser, axis="index") + tm.assert_frame_equal(result, expected) + + result = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + return_value = result.where(mask, ser, axis="index", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + expected = DataFrame([[0, np.nan], [0, np.nan]]) + result = df.where(mask, ser, axis="columns") + tm.assert_frame_equal(result, expected) + + expected = DataFrame( + { + 0: np.array([0, 0], dtype="int64"), + 1: np.array([np.nan, np.nan], dtype="float64"), + } + ) + result = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + return_value = result.where(mask, ser, axis="columns", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + def test_where_axis_multiple_dtypes(self): + # Multiple dtypes (=> multiple Blocks) + df = pd.concat( + [ + DataFrame(np.random.default_rng(2).standard_normal((10, 2))), + DataFrame( + np.random.default_rng(2).integers(0, 10, size=(10, 2)), + dtype="int64", + ), + ], + ignore_index=True, + axis=1, + ) + mask = DataFrame(False, columns=df.columns, index=df.index) + s1 = Series(1, index=df.columns) + s2 = Series(2, index=df.index) + + result = df.where(mask, s1, axis="columns") + expected = DataFrame(1.0, columns=df.columns, index=df.index) + expected[2] = expected[2].astype("int64") + expected[3] = expected[3].astype("int64") + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(mask, s1, axis="columns", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + result = df.where(mask, s2, axis="index") + expected = DataFrame(2.0, columns=df.columns, index=df.index) + expected[2] = expected[2].astype("int64") + expected[3] = expected[3].astype("int64") + tm.assert_frame_equal(result, expected) + + result = df.copy() + return_value = result.where(mask, s2, axis="index", inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + + # DataFrame vs DataFrame + d1 = df.copy().drop(1, axis=0) + # Explicit cast to avoid implicit cast when setting value to np.nan + expected = df.copy().astype("float") + expected.loc[1, :] = np.nan + + result = df.where(mask, d1) + tm.assert_frame_equal(result, expected) + result = df.where(mask, d1, axis="index") + tm.assert_frame_equal(result, expected) + result = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + return_value = result.where(mask, d1, inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + result = df.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + return_value = result.where(mask, d1, inplace=True, axis="index") + assert return_value is None + tm.assert_frame_equal(result, expected) + + d2 = df.copy().drop(1, axis=1) + expected = df.copy() + expected.loc[:, 1] = np.nan + + result = df.where(mask, d2) + tm.assert_frame_equal(result, expected) + result = df.where(mask, d2, axis="columns") + tm.assert_frame_equal(result, expected) + result = df.copy() + return_value = result.where(mask, d2, inplace=True) + assert return_value is None + tm.assert_frame_equal(result, expected) + result = df.copy() + return_value = result.where(mask, d2, inplace=True, axis="columns") + assert return_value is None + tm.assert_frame_equal(result, expected) + + def test_where_callable(self): + # GH 12533 + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) + result = df.where(lambda x: x > 4, lambda x: x + 1) + exp = DataFrame([[2, 3, 4], [5, 5, 6], [7, 8, 9]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, df.where(df > 4, df + 1)) + + # return ndarray and scalar + result = df.where(lambda x: (x % 2 == 0).values, lambda x: 99) + exp = DataFrame([[99, 2, 99], [4, 99, 6], [99, 8, 99]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, df.where(df % 2 == 0, 99)) + + # chain + result = (df + 2).where(lambda x: x > 8, lambda x: x + 10) + exp = DataFrame([[13, 14, 15], [16, 17, 18], [9, 10, 11]]) + tm.assert_frame_equal(result, exp) + tm.assert_frame_equal(result, (df + 2).where((df + 2) > 8, (df + 2) + 10)) + + def test_where_tz_values(self, tz_naive_fixture, frame_or_series): + obj1 = DataFrame( + DatetimeIndex(["20150101", "20150102", "20150103"], tz=tz_naive_fixture), + columns=["date"], + ) + obj2 = DataFrame( + DatetimeIndex(["20150103", "20150104", "20150105"], tz=tz_naive_fixture), + columns=["date"], + ) + mask = DataFrame([True, True, False], columns=["date"]) + exp = DataFrame( + DatetimeIndex(["20150101", "20150102", "20150105"], tz=tz_naive_fixture), + columns=["date"], + ) + if frame_or_series is Series: + obj1 = obj1["date"] + obj2 = obj2["date"] + mask = mask["date"] + exp = exp["date"] + + result = obj1.where(mask, obj2) + tm.assert_equal(exp, result) + + def test_df_where_change_dtype(self): + # GH#16979 + df = DataFrame(np.arange(2 * 3).reshape(2, 3), columns=list("ABC")) + mask = np.array([[True, False, False], [False, False, True]]) + + result = df.where(mask) + expected = DataFrame( + [[0, np.nan, np.nan], [np.nan, np.nan, 5]], columns=list("ABC") + ) + + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("kwargs", [{}, {"other": None}]) + def test_df_where_with_category(self, kwargs): + # GH#16979 + data = np.arange(2 * 3, dtype=np.int64).reshape(2, 3) + df = DataFrame(data, columns=list("ABC")) + mask = np.array([[True, False, False], [False, False, True]]) + + # change type to category + df.A = df.A.astype("category") + df.B = df.B.astype("category") + df.C = df.C.astype("category") + + result = df.where(mask, **kwargs) + A = pd.Categorical([0, np.nan], categories=[0, 3]) + B = pd.Categorical([np.nan, np.nan], categories=[1, 4]) + C = pd.Categorical([np.nan, 5], categories=[2, 5]) + expected = DataFrame({"A": A, "B": B, "C": C}) + + tm.assert_frame_equal(result, expected) + + # Check Series.where while we're here + result = df.A.where(mask[:, 0], **kwargs) + expected = Series(A, name="A") + + tm.assert_series_equal(result, expected) + + def test_where_categorical_filtering(self): + # GH#22609 Verify filtering operations on DataFrames with categorical Series + df = DataFrame(data=[[0, 0], [1, 1]], columns=["a", "b"]) + df["b"] = df["b"].astype("category") + + result = df.where(df["a"] > 0) + # Explicitly cast to 'float' to avoid implicit cast when setting np.nan + expected = df.copy().astype({"a": "float"}) + expected.loc[0, :] = np.nan + + tm.assert_equal(result, expected) + + def test_where_ea_other(self): + # GH#38729/GH#38742 + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + arr = pd.array([7, pd.NA, 9]) + ser = Series(arr) + mask = np.ones(df.shape, dtype=bool) + mask[1, :] = False + + # TODO: ideally we would get Int64 instead of object + result = df.where(mask, ser, axis=0) + expected = DataFrame({"A": [1, np.nan, 3], "B": [4, np.nan, 6]}) + tm.assert_frame_equal(result, expected) + + ser2 = Series(arr[:2], index=["A", "B"]) + expected = DataFrame({"A": [1, 7, 3], "B": [4, np.nan, 6]}) + result = df.where(mask, ser2, axis=1) + tm.assert_frame_equal(result, expected) + + def test_where_interval_noop(self): + # GH#44181 + df = DataFrame([pd.Interval(0, 0)]) + res = df.where(df.notna()) + tm.assert_frame_equal(res, df) + + ser = df[0] + res = ser.where(ser.notna()) + tm.assert_series_equal(res, ser) + + def test_where_interval_fullop_downcast(self, frame_or_series): + # GH#45768 + obj = frame_or_series([pd.Interval(0, 0)] * 2) + other = frame_or_series([1.0, 2.0]) + + msg = "Downcasting behavior in Series and DataFrame methods 'where'" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = obj.where(~obj.notna(), other) + + # since all entries are being changed, we will downcast result + # from object to ints (not floats) + tm.assert_equal(res, other.astype(np.int64)) + + # unlike where, Block.putmask does not downcast + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + obj.mask(obj.notna(), other, inplace=True) + tm.assert_equal(obj, other.astype(object)) + + @pytest.mark.parametrize( + "dtype", + [ + "timedelta64[ns]", + "datetime64[ns]", + "datetime64[ns, Asia/Tokyo]", + "Period[D]", + ], + ) + def test_where_datetimelike_noop(self, dtype): + # GH#45135, analogue to GH#44181 for Period don't raise on no-op + # For td64/dt64/dt64tz we already don't raise, but also are + # checking that we don't unnecessarily upcast to object. + with tm.assert_produces_warning(FutureWarning, match="is deprecated"): + ser = Series(np.arange(3) * 10**9, dtype=np.int64).view(dtype) + df = ser.to_frame() + mask = np.array([False, False, False]) + + res = ser.where(~mask, "foo") + tm.assert_series_equal(res, ser) + + mask2 = mask.reshape(-1, 1) + res2 = df.where(~mask2, "foo") + tm.assert_frame_equal(res2, df) + + res3 = ser.mask(mask, "foo") + tm.assert_series_equal(res3, ser) + + res4 = df.mask(mask2, "foo") + tm.assert_frame_equal(res4, df) + + # opposite case where we are replacing *all* values -> we downcast + # from object dtype # GH#45768 + msg = "Downcasting behavior in Series and DataFrame methods 'where'" + with tm.assert_produces_warning(FutureWarning, match=msg): + res5 = df.where(mask2, 4) + expected = DataFrame(4, index=df.index, columns=df.columns) + tm.assert_frame_equal(res5, expected) + + # unlike where, Block.putmask does not downcast + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.mask(~mask2, 4, inplace=True) + tm.assert_frame_equal(df, expected.astype(object)) + + +def test_where_int_downcasting_deprecated(): + # GH#44597 + arr = np.arange(6).astype(np.int16).reshape(3, 2) + df = DataFrame(arr) + + mask = np.zeros(arr.shape, dtype=bool) + mask[:, 0] = True + + res = df.where(mask, 2**17) + + expected = DataFrame({0: arr[:, 0], 1: np.array([2**17] * 3, dtype=np.int32)}) + tm.assert_frame_equal(res, expected) + + +def test_where_copies_with_noop(frame_or_series): + # GH-39595 + result = frame_or_series([1, 2, 3, 4]) + expected = result.copy() + col = result[0] if frame_or_series is DataFrame else result + + where_res = result.where(col < 5) + where_res *= 2 + + tm.assert_equal(result, expected) + + where_res = result.where(col > 5, [1, 2, 3, 4]) + where_res *= 2 + + tm.assert_equal(result, expected) + + +def test_where_string_dtype(frame_or_series): + # GH40824 + obj = frame_or_series( + ["a", "b", "c", "d"], index=["id1", "id2", "id3", "id4"], dtype=StringDtype() + ) + filtered_obj = frame_or_series( + ["b", "c"], index=["id2", "id3"], dtype=StringDtype() + ) + filter_ser = Series([False, True, True, False]) + + result = obj.where(filter_ser, filtered_obj) + expected = frame_or_series( + [pd.NA, "b", "c", pd.NA], + index=["id1", "id2", "id3", "id4"], + dtype=StringDtype(), + ) + tm.assert_equal(result, expected) + + result = obj.mask(~filter_ser, filtered_obj) + tm.assert_equal(result, expected) + + obj.mask(~filter_ser, filtered_obj, inplace=True) + tm.assert_equal(result, expected) + + +def test_where_bool_comparison(): + # GH 10336 + df_mask = DataFrame( + {"AAA": [True] * 4, "BBB": [False] * 4, "CCC": [True, False, True, False]} + ) + result = df_mask.where(df_mask == False) # noqa: E712 + expected = DataFrame( + { + "AAA": np.array([np.nan] * 4, dtype=object), + "BBB": [False] * 4, + "CCC": [np.nan, False, np.nan, False], + } + ) + tm.assert_frame_equal(result, expected) + + +def test_where_none_nan_coerce(): + # GH 15613 + expected = DataFrame( + { + "A": [Timestamp("20130101"), pd.NaT, Timestamp("20130103")], + "B": [1, 2, np.nan], + } + ) + result = expected.where(expected.notnull(), None) + tm.assert_frame_equal(result, expected) + + +def test_where_duplicate_axes_mixed_dtypes(): + # GH 25399, verify manually masking is not affected anymore by dtype of column for + # duplicate axes. + result = DataFrame(data=[[0, np.nan]], columns=Index(["A", "A"])) + index, columns = result.axes + mask = DataFrame(data=[[True, True]], columns=columns, index=index) + a = result.astype(object).where(mask) + b = result.astype("f8").where(mask) + c = result.T.where(mask.T).T + d = result.where(mask) # used to fail with "cannot reindex from a duplicate axis" + tm.assert_frame_equal(a.astype("f8"), b.astype("f8")) + tm.assert_frame_equal(b.astype("f8"), c.astype("f8")) + tm.assert_frame_equal(c.astype("f8"), d.astype("f8")) + + +def test_where_columns_casting(): + # GH 42295 + + df = DataFrame({"a": [1.0, 2.0], "b": [3, np.nan]}) + expected = df.copy() + result = df.where(pd.notnull(df), None) + # make sure dtypes don't change + tm.assert_frame_equal(expected, result) + + +@pytest.mark.parametrize("as_cat", [True, False]) +def test_where_period_invalid_na(frame_or_series, as_cat, request): + # GH#44697 + idx = pd.period_range("2016-01-01", periods=3, freq="D") + if as_cat: + idx = idx.astype("category") + obj = frame_or_series(idx) + + # NA value that we should *not* cast to Period dtype + tdnat = pd.NaT.to_numpy("m8[ns]") + + mask = np.array([True, True, False], ndmin=obj.ndim).T + + if as_cat: + msg = ( + r"Cannot setitem on a Categorical with a new category \(NaT\), " + "set the categories first" + ) + else: + msg = "value should be a 'Period'" + + if as_cat: + with pytest.raises(TypeError, match=msg): + obj.where(mask, tdnat) + + with pytest.raises(TypeError, match=msg): + obj.mask(mask, tdnat) + + with pytest.raises(TypeError, match=msg): + obj.mask(mask, tdnat, inplace=True) + + else: + # With PeriodDtype, ser[i] = tdnat coerces instead of raising, + # so for consistency, ser[mask] = tdnat must as well + expected = obj.astype(object).where(mask, tdnat) + result = obj.where(mask, tdnat) + tm.assert_equal(result, expected) + + expected = obj.astype(object).mask(mask, tdnat) + result = obj.mask(mask, tdnat) + tm.assert_equal(result, expected) + + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + obj.mask(mask, tdnat, inplace=True) + tm.assert_equal(obj, expected) + + +def test_where_nullable_invalid_na(frame_or_series, any_numeric_ea_dtype): + # GH#44697 + arr = pd.array([1, 2, 3], dtype=any_numeric_ea_dtype) + obj = frame_or_series(arr) + + mask = np.array([True, True, False], ndmin=obj.ndim).T + + msg = r"Invalid value '.*' for dtype '(U?Int|Float)\d{1,2}'" + + for null in tm.NP_NAT_OBJECTS + [pd.NaT]: + # NaT is an NA value that we should *not* cast to pd.NA dtype + with pytest.raises(TypeError, match=msg): + obj.where(mask, null) + + with pytest.raises(TypeError, match=msg): + obj.mask(mask, null) + + +@given(data=OPTIONAL_ONE_OF_ALL) +def test_where_inplace_casting(data): + # GH 22051 + df = DataFrame({"a": data}) + df_copy = df.where(pd.notnull(df), None).copy() + df.where(pd.notnull(df), None, inplace=True) + tm.assert_equal(df, df_copy) + + +def test_where_downcast_to_td64(): + ser = Series([1, 2, 3]) + + mask = np.array([False, False, False]) + + td = pd.Timedelta(days=1) + + msg = "Downcasting behavior in Series and DataFrame methods 'where'" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = ser.where(mask, td) + expected = Series([td, td, td], dtype="m8[ns]") + tm.assert_series_equal(res, expected) + + with pd.option_context("future.no_silent_downcasting", True): + with tm.assert_produces_warning(None, match=msg): + res2 = ser.where(mask, td) + expected2 = expected.astype(object) + tm.assert_series_equal(res2, expected2) + + +def _check_where_equivalences(df, mask, other, expected): + # similar to tests.series.indexing.test_setitem.SetitemCastingEquivalences + # but with DataFrame in mind and less fleshed-out + res = df.where(mask, other) + tm.assert_frame_equal(res, expected) + + res = df.mask(~mask, other) + tm.assert_frame_equal(res, expected) + + # Note: frame.mask(~mask, other, inplace=True) takes some more work bc + # Block.putmask does *not* downcast. The change to 'expected' here + # is specific to the cases in test_where_dt64_2d. + df = df.copy() + df.mask(~mask, other, inplace=True) + if not mask.all(): + # with mask.all(), Block.putmask is a no-op, so does not downcast + expected = expected.copy() + expected["A"] = expected["A"].astype(object) + tm.assert_frame_equal(df, expected) + + +def test_where_dt64_2d(): + dti = date_range("2016-01-01", periods=6) + dta = dti._data.reshape(3, 2) + other = dta - dta[0, 0] + + df = DataFrame(dta, columns=["A", "B"]) + + mask = np.asarray(df.isna()).copy() + mask[:, 1] = True + + # setting all of one column, none of the other + expected = DataFrame({"A": other[:, 0], "B": dta[:, 1]}) + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + _check_where_equivalences(df, mask, other, expected) + + # setting part of one column, none of the other + mask[1, 0] = True + expected = DataFrame( + { + "A": np.array([other[0, 0], dta[1, 0], other[2, 0]], dtype=object), + "B": dta[:, 1], + } + ) + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + _check_where_equivalences(df, mask, other, expected) + + # setting nothing in either column + mask[:] = True + expected = df + _check_where_equivalences(df, mask, other, expected) + + +def test_where_producing_ea_cond_for_np_dtype(): + # GH#44014 + df = DataFrame({"a": Series([1, pd.NA, 2], dtype="Int64"), "b": [1, 2, 3]}) + result = df.where(lambda x: x.apply(lambda y: y > 1, axis=1)) + expected = DataFrame( + {"a": Series([pd.NA, pd.NA, 2], dtype="Int64"), "b": [np.nan, 2, 3]} + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "replacement", [0.001, True, "snake", None, datetime(2022, 5, 4)] +) +def test_where_int_overflow(replacement): + # GH 31687 + df = DataFrame([[1.0, 2e25, "nine"], [np.nan, 0.1, None]]) + result = df.where(pd.notnull(df), replacement) + expected = DataFrame([[1.0, 2e25, "nine"], [replacement, 0.1, replacement]]) + + tm.assert_frame_equal(result, expected) + + +def test_where_inplace_no_other(): + # GH#51685 + df = DataFrame({"a": [1.0, 2.0], "b": ["x", "y"]}) + cond = DataFrame({"a": [True, False], "b": [False, True]}) + df.where(cond, inplace=True) + expected = DataFrame({"a": [1, np.nan], "b": [np.nan, "y"]}) + tm.assert_frame_equal(df, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_xs.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_xs.py new file mode 100644 index 0000000000000000000000000000000000000000..2aa27d1d6a5489933459bb877fbbbba1d5a1d98b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/indexing/test_xs.py @@ -0,0 +1,444 @@ +import re + +import numpy as np +import pytest + +from pandas.errors import SettingWithCopyError + +from pandas import ( + DataFrame, + Index, + IndexSlice, + MultiIndex, + Series, + concat, +) +import pandas._testing as tm + +from pandas.tseries.offsets import BDay + + +@pytest.fixture +def four_level_index_dataframe(): + arr = np.array( + [ + [-0.5109, -2.3358, -0.4645, 0.05076, 0.364], + [0.4473, 1.4152, 0.2834, 1.00661, 0.1744], + [-0.6662, -0.5243, -0.358, 0.89145, 2.5838], + ] + ) + index = MultiIndex( + levels=[["a", "x"], ["b", "q"], [10.0032, 20.0, 30.0], [3, 4, 5]], + codes=[[0, 0, 1], [0, 1, 1], [0, 1, 2], [2, 1, 0]], + names=["one", "two", "three", "four"], + ) + return DataFrame(arr, index=index, columns=list("ABCDE")) + + +class TestXS: + def test_xs( + self, float_frame, datetime_frame, using_copy_on_write, warn_copy_on_write + ): + float_frame_orig = float_frame.copy() + idx = float_frame.index[5] + xs = float_frame.xs(idx) + for item, value in xs.items(): + if np.isnan(value): + assert np.isnan(float_frame[item][idx]) + else: + assert value == float_frame[item][idx] + + # mixed-type xs + test_data = {"A": {"1": 1, "2": 2}, "B": {"1": "1", "2": "2", "3": "3"}} + frame = DataFrame(test_data) + xs = frame.xs("1") + assert xs.dtype == np.object_ + assert xs["A"] == 1 + assert xs["B"] == "1" + + with pytest.raises( + KeyError, match=re.escape("Timestamp('1999-12-31 00:00:00')") + ): + datetime_frame.xs(datetime_frame.index[0] - BDay()) + + # xs get column + series = float_frame.xs("A", axis=1) + expected = float_frame["A"] + tm.assert_series_equal(series, expected) + + # view is returned if possible + series = float_frame.xs("A", axis=1) + with tm.assert_cow_warning(warn_copy_on_write): + series[:] = 5 + if using_copy_on_write: + # but with CoW the view shouldn't propagate mutations + tm.assert_series_equal(float_frame["A"], float_frame_orig["A"]) + assert not (expected == 5).all() + else: + assert (expected == 5).all() + + def test_xs_corner(self): + # pathological mixed-type reordering case + df = DataFrame(index=[0], columns=Index([], dtype="str")) + df["A"] = 1.0 + df["B"] = "foo" + df["C"] = 2.0 + df["D"] = "bar" + df["E"] = 3.0 + + xs = df.xs(0) + exp = Series([1.0, "foo", 2.0, "bar", 3.0], index=list("ABCDE"), name=0) + tm.assert_series_equal(xs, exp) + + # no columns but Index(dtype=object) + df = DataFrame(index=["a", "b", "c"]) + result = df.xs("a") + expected = Series([], name="a", dtype=np.float64) + tm.assert_series_equal(result, expected) + + def test_xs_duplicates(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), + index=["b", "b", "c", "b", "a"], + ) + + cross = df.xs("c") + exp = df.iloc[2] + tm.assert_series_equal(cross, exp) + + def test_xs_keep_level(self): + df = DataFrame( + { + "day": {0: "sat", 1: "sun"}, + "flavour": {0: "strawberry", 1: "strawberry"}, + "sales": {0: 10, 1: 12}, + "year": {0: 2008, 1: 2008}, + } + ).set_index(["year", "flavour", "day"]) + result = df.xs("sat", level="day", drop_level=False) + expected = df[:1] + tm.assert_frame_equal(result, expected) + + result = df.xs((2008, "sat"), level=["year", "day"], drop_level=False) + tm.assert_frame_equal(result, expected) + + def test_xs_view( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + # in 0.14 this will return a view if possible a copy otherwise, but + # this is numpy dependent + + dm = DataFrame(np.arange(20.0).reshape(4, 5), index=range(4), columns=range(5)) + df_orig = dm.copy() + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + dm.xs(2)[:] = 20 + tm.assert_frame_equal(dm, df_orig) + elif using_array_manager: + # INFO(ArrayManager) with ArrayManager getting a row as a view is + # not possible + msg = r"\nA value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + dm.xs(2)[:] = 20 + assert not (dm.xs(2) == 20).any() + else: + with tm.raises_chained_assignment_error(): + dm.xs(2)[:] = 20 + assert (dm.xs(2) == 20).all() + + +class TestXSWithMultiIndex: + def test_xs_doc_example(self): + # TODO: more descriptive name + # based on example in advanced.rst + arrays = [ + ["bar", "bar", "baz", "baz", "foo", "foo", "qux", "qux"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ] + tuples = list(zip(*arrays)) + + index = MultiIndex.from_tuples(tuples, names=["first", "second"]) + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 8)), + index=["A", "B", "C"], + columns=index, + ) + + result = df.xs(("one", "bar"), level=("second", "first"), axis=1) + + expected = df.iloc[:, [0]] + tm.assert_frame_equal(result, expected) + + def test_xs_integer_key(self): + # see GH#2107 + dates = range(20111201, 20111205) + ids = list("abcde") + index = MultiIndex.from_product([dates, ids], names=["date", "secid"]) + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 3)), + index, + ["X", "Y", "Z"], + ) + + result = df.xs(20111201, level="date") + expected = df.loc[20111201, :] + tm.assert_frame_equal(result, expected) + + def test_xs_level(self, multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + result = df.xs("two", level="second") + expected = df[df.index.get_level_values(1) == "two"] + expected.index = Index(["foo", "bar", "baz", "qux"], name="first") + tm.assert_frame_equal(result, expected) + + def test_xs_level_eq_2(self): + arr = np.random.default_rng(2).standard_normal((3, 5)) + index = MultiIndex( + levels=[["a", "p", "x"], ["b", "q", "y"], ["c", "r", "z"]], + codes=[[2, 0, 1], [2, 0, 1], [2, 0, 1]], + ) + df = DataFrame(arr, index=index) + expected = DataFrame(arr[1:2], index=[["a"], ["b"]]) + result = df.xs("c", level=2) + tm.assert_frame_equal(result, expected) + + def test_xs_setting_with_copy_error( + self, + multiindex_dataframe_random_data, + using_copy_on_write, + warn_copy_on_write, + ): + # this is a copy in 0.14 + df = multiindex_dataframe_random_data + df_orig = df.copy() + result = df.xs("two", level="second") + + if using_copy_on_write or warn_copy_on_write: + result[:] = 10 + else: + # setting this will give a SettingWithCopyError + # as we are trying to write a view + msg = "A value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + result[:] = 10 + tm.assert_frame_equal(df, df_orig) + + def test_xs_setting_with_copy_error_multiple( + self, four_level_index_dataframe, using_copy_on_write, warn_copy_on_write + ): + # this is a copy in 0.14 + df = four_level_index_dataframe + df_orig = df.copy() + result = df.xs(("a", 4), level=["one", "four"]) + + if using_copy_on_write or warn_copy_on_write: + result[:] = 10 + else: + # setting this will give a SettingWithCopyError + # as we are trying to write a view + msg = "A value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + result[:] = 10 + tm.assert_frame_equal(df, df_orig) + + @pytest.mark.parametrize("key, level", [("one", "second"), (["one"], ["second"])]) + def test_xs_with_duplicates(self, key, level, multiindex_dataframe_random_data): + # see GH#13719 + frame = multiindex_dataframe_random_data + df = concat([frame] * 2) + assert df.index.is_unique is False + expected = concat([frame.xs("one", level="second")] * 2) + + if isinstance(key, list): + result = df.xs(tuple(key), level=level) + else: + result = df.xs(key, level=level) + tm.assert_frame_equal(result, expected) + + def test_xs_missing_values_in_index(self): + # see GH#6574 + # missing values in returned index should be preserved + acc = [ + ("a", "abcde", 1), + ("b", "bbcde", 2), + ("y", "yzcde", 25), + ("z", "xbcde", 24), + ("z", None, 26), + ("z", "zbcde", 25), + ("z", "ybcde", 26), + ] + df = DataFrame(acc, columns=["a1", "a2", "cnt"]).set_index(["a1", "a2"]) + expected = DataFrame( + {"cnt": [24, 26, 25, 26]}, + index=Index(["xbcde", np.nan, "zbcde", "ybcde"], name="a2"), + ) + + result = df.xs("z", level="a1") + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "key, level, exp_arr, exp_index", + [ + ("a", "lvl0", lambda x: x[:, 0:2], Index(["bar", "foo"], name="lvl1")), + ("foo", "lvl1", lambda x: x[:, 1:2], Index(["a"], name="lvl0")), + ], + ) + def test_xs_named_levels_axis_eq_1(self, key, level, exp_arr, exp_index): + # see GH#2903 + arr = np.random.default_rng(2).standard_normal((4, 4)) + index = MultiIndex( + levels=[["a", "b"], ["bar", "foo", "hello", "world"]], + codes=[[0, 0, 1, 1], [0, 1, 2, 3]], + names=["lvl0", "lvl1"], + ) + df = DataFrame(arr, columns=index) + result = df.xs(key, level=level, axis=1) + expected = DataFrame(exp_arr(arr), columns=exp_index) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "indexer", + [ + lambda df: df.xs(("a", 4), level=["one", "four"]), + lambda df: df.xs("a").xs(4, level="four"), + ], + ) + def test_xs_level_multiple(self, indexer, four_level_index_dataframe): + df = four_level_index_dataframe + expected_values = [[0.4473, 1.4152, 0.2834, 1.00661, 0.1744]] + expected_index = MultiIndex( + levels=[["q"], [20.0]], codes=[[0], [0]], names=["two", "three"] + ) + expected = DataFrame( + expected_values, index=expected_index, columns=list("ABCDE") + ) + result = indexer(df) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "indexer", [lambda df: df.xs("a", level=0), lambda df: df.xs("a")] + ) + def test_xs_level0(self, indexer, four_level_index_dataframe): + df = four_level_index_dataframe + expected_values = [ + [-0.5109, -2.3358, -0.4645, 0.05076, 0.364], + [0.4473, 1.4152, 0.2834, 1.00661, 0.1744], + ] + expected_index = MultiIndex( + levels=[["b", "q"], [10.0032, 20.0], [4, 5]], + codes=[[0, 1], [0, 1], [1, 0]], + names=["two", "three", "four"], + ) + expected = DataFrame( + expected_values, index=expected_index, columns=list("ABCDE") + ) + + result = indexer(df) + tm.assert_frame_equal(result, expected) + + def test_xs_values(self, multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + result = df.xs(("bar", "two")).values + expected = df.values[4] + tm.assert_almost_equal(result, expected) + + def test_xs_loc_equality(self, multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + result = df.xs(("bar", "two")) + expected = df.loc[("bar", "two")] + tm.assert_series_equal(result, expected) + + def test_xs_IndexSlice_argument_not_implemented(self, frame_or_series): + # GH#35301 + + index = MultiIndex( + levels=[[("foo", "bar", 0), ("foo", "baz", 0), ("foo", "qux", 0)], [0, 1]], + codes=[[0, 0, 1, 1, 2, 2], [0, 1, 0, 1, 0, 1]], + ) + + obj = DataFrame(np.random.default_rng(2).standard_normal((6, 4)), index=index) + if frame_or_series is Series: + obj = obj[0] + + expected = obj.iloc[-2:].droplevel(0) + + result = obj.xs(IndexSlice[("foo", "qux", 0), :]) + tm.assert_equal(result, expected) + + result = obj.loc[IndexSlice[("foo", "qux", 0), :]] + tm.assert_equal(result, expected) + + def test_xs_levels_raises(self, frame_or_series): + obj = DataFrame({"A": [1, 2, 3]}) + if frame_or_series is Series: + obj = obj["A"] + + msg = "Index must be a MultiIndex" + with pytest.raises(TypeError, match=msg): + obj.xs(0, level="as") + + def test_xs_multiindex_droplevel_false(self): + # GH#19056 + mi = MultiIndex.from_tuples( + [("a", "x"), ("a", "y"), ("b", "x")], names=["level1", "level2"] + ) + df = DataFrame([[1, 2, 3]], columns=mi) + result = df.xs("a", axis=1, drop_level=False) + expected = DataFrame( + [[1, 2]], + columns=MultiIndex.from_tuples( + [("a", "x"), ("a", "y")], names=["level1", "level2"] + ), + ) + tm.assert_frame_equal(result, expected) + + def test_xs_droplevel_false(self): + # GH#19056 + df = DataFrame([[1, 2, 3]], columns=Index(["a", "b", "c"])) + result = df.xs("a", axis=1, drop_level=False) + expected = DataFrame({"a": [1]}) + tm.assert_frame_equal(result, expected) + + def test_xs_droplevel_false_view( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + # GH#37832 + df = DataFrame([[1, 2, 3]], columns=Index(["a", "b", "c"])) + result = df.xs("a", axis=1, drop_level=False) + # check that result still views the same data as df + assert np.shares_memory(result.iloc[:, 0]._values, df.iloc[:, 0]._values) + + with tm.assert_cow_warning(warn_copy_on_write): + df.iloc[0, 0] = 2 + if using_copy_on_write: + # with copy on write the subset is never modified + expected = DataFrame({"a": [1]}) + else: + # modifying original df also modifies result when having a single block + expected = DataFrame({"a": [2]}) + tm.assert_frame_equal(result, expected) + + # with mixed dataframe, modifying the parent doesn't modify result + # TODO the "split" path behaves differently here as with single block + df = DataFrame([[1, 2.5, "a"]], columns=Index(["a", "b", "c"])) + result = df.xs("a", axis=1, drop_level=False) + df.iloc[0, 0] = 2 + if using_copy_on_write: + # with copy on write the subset is never modified + expected = DataFrame({"a": [1]}) + elif using_array_manager: + # Here the behavior is consistent + expected = DataFrame({"a": [2]}) + else: + # FIXME: iloc does not update the array inplace using + # "split" path + expected = DataFrame({"a": [1]}) + tm.assert_frame_equal(result, expected) + + def test_xs_list_indexer_droplevel_false(self): + # GH#41760 + mi = MultiIndex.from_tuples([("x", "m", "a"), ("x", "n", "b"), ("y", "o", "c")]) + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=mi) + with pytest.raises(KeyError, match="y"): + df.xs(("x", "y"), drop_level=False, axis=1) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..245594bfdc9e72ff5cb3a4799e9055c7cd6b5a3e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/__init__.py @@ -0,0 +1,7 @@ +""" +Test files dedicated to individual (stand-alone) DataFrame methods + +Ideally these files/tests should correspond 1-to-1 with tests.series.methods + +These may also present opportunities for sharing/de-duplicating test code. +""" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_add_prefix_suffix.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_add_prefix_suffix.py new file mode 100644 index 0000000000000000000000000000000000000000..92d7cdd7990e168721610b7f52f653a69ac1e078 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_add_prefix_suffix.py @@ -0,0 +1,49 @@ +import pytest + +from pandas import Index +import pandas._testing as tm + + +def test_add_prefix_suffix(float_frame): + with_prefix = float_frame.add_prefix("foo#") + expected = Index([f"foo#{c}" for c in float_frame.columns]) + tm.assert_index_equal(with_prefix.columns, expected) + + with_suffix = float_frame.add_suffix("#foo") + expected = Index([f"{c}#foo" for c in float_frame.columns]) + tm.assert_index_equal(with_suffix.columns, expected) + + with_pct_prefix = float_frame.add_prefix("%") + expected = Index([f"%{c}" for c in float_frame.columns]) + tm.assert_index_equal(with_pct_prefix.columns, expected) + + with_pct_suffix = float_frame.add_suffix("%") + expected = Index([f"{c}%" for c in float_frame.columns]) + tm.assert_index_equal(with_pct_suffix.columns, expected) + + +def test_add_prefix_suffix_axis(float_frame): + # GH 47819 + with_prefix = float_frame.add_prefix("foo#", axis=0) + expected = Index([f"foo#{c}" for c in float_frame.index]) + tm.assert_index_equal(with_prefix.index, expected) + + with_prefix = float_frame.add_prefix("foo#", axis=1) + expected = Index([f"foo#{c}" for c in float_frame.columns]) + tm.assert_index_equal(with_prefix.columns, expected) + + with_pct_suffix = float_frame.add_suffix("#foo", axis=0) + expected = Index([f"{c}#foo" for c in float_frame.index]) + tm.assert_index_equal(with_pct_suffix.index, expected) + + with_pct_suffix = float_frame.add_suffix("#foo", axis=1) + expected = Index([f"{c}#foo" for c in float_frame.columns]) + tm.assert_index_equal(with_pct_suffix.columns, expected) + + +def test_add_prefix_suffix_invalid_axis(float_frame): + with pytest.raises(ValueError, match="No axis named 2 for object type DataFrame"): + float_frame.add_prefix("foo#", axis=2) + + with pytest.raises(ValueError, match="No axis named 2 for object type DataFrame"): + float_frame.add_suffix("foo#", axis=2) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_align.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_align.py new file mode 100644 index 0000000000000000000000000000000000000000..5a9c47866dae8102fdf51541aaae5c61eeb7e84c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_align.py @@ -0,0 +1,484 @@ +from datetime import timezone + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameAlign: + def test_align_asfreq_method_raises(self): + df = DataFrame({"A": [1, np.nan, 2]}) + msg = "Invalid fill method" + msg2 = "The 'method', 'limit', and 'fill_axis' keywords" + with pytest.raises(ValueError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=msg2): + df.align(df.iloc[::-1], method="asfreq") + + def test_frame_align_aware(self): + idx1 = date_range("2001", periods=5, freq="h", tz="US/Eastern") + idx2 = date_range("2001", periods=5, freq="2h", tz="US/Eastern") + df1 = DataFrame(np.random.default_rng(2).standard_normal((len(idx1), 3)), idx1) + df2 = DataFrame(np.random.default_rng(2).standard_normal((len(idx2), 3)), idx2) + new1, new2 = df1.align(df2) + assert df1.index.tz == new1.index.tz + assert df2.index.tz == new2.index.tz + + # different timezones convert to UTC + + # frame with frame + df1_central = df1.tz_convert("US/Central") + new1, new2 = df1.align(df1_central) + assert new1.index.tz is timezone.utc + assert new2.index.tz is timezone.utc + + # frame with Series + new1, new2 = df1.align(df1_central[0], axis=0) + assert new1.index.tz is timezone.utc + assert new2.index.tz is timezone.utc + + df1[0].align(df1_central, axis=0) + assert new1.index.tz is timezone.utc + assert new2.index.tz is timezone.utc + + def test_align_float(self, float_frame, using_copy_on_write): + af, bf = float_frame.align(float_frame) + assert af._mgr is not float_frame._mgr + + af, bf = float_frame.align(float_frame, copy=False) + if not using_copy_on_write: + assert af._mgr is float_frame._mgr + else: + assert af._mgr is not float_frame._mgr + + # axis = 0 + other = float_frame.iloc[:-5, :3] + af, bf = float_frame.align(other, axis=0, fill_value=-1) + + tm.assert_index_equal(bf.columns, other.columns) + + # test fill value + join_idx = float_frame.index.join(other.index) + diff_a = float_frame.index.difference(join_idx) + diff_a_vals = af.reindex(diff_a).values + assert (diff_a_vals == -1).all() + + af, bf = float_frame.align(other, join="right", axis=0) + tm.assert_index_equal(bf.columns, other.columns) + tm.assert_index_equal(bf.index, other.index) + tm.assert_index_equal(af.index, other.index) + + # axis = 1 + other = float_frame.iloc[:-5, :3].copy() + af, bf = float_frame.align(other, axis=1) + tm.assert_index_equal(bf.columns, float_frame.columns) + tm.assert_index_equal(bf.index, other.index) + + # test fill value + join_idx = float_frame.index.join(other.index) + diff_a = float_frame.index.difference(join_idx) + diff_a_vals = af.reindex(diff_a).values + + assert (diff_a_vals == -1).all() + + af, bf = float_frame.align(other, join="inner", axis=1) + tm.assert_index_equal(bf.columns, other.columns) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = float_frame.align(other, join="inner", axis=1, method="pad") + tm.assert_index_equal(bf.columns, other.columns) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = float_frame.align( + other.iloc[:, 0], join="inner", axis=1, method=None, fill_value=None + ) + tm.assert_index_equal(bf.index, Index([]).astype(bf.index.dtype)) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = float_frame.align( + other.iloc[:, 0], join="inner", axis=1, method=None, fill_value=0 + ) + tm.assert_index_equal(bf.index, Index([]).astype(bf.index.dtype)) + + # Try to align DataFrame to Series along bad axis + msg = "No axis named 2 for object type DataFrame" + with pytest.raises(ValueError, match=msg): + float_frame.align(af.iloc[0, :3], join="inner", axis=2) + + def test_align_frame_with_series(self, float_frame): + # align dataframe to series with broadcast or not + idx = float_frame.index + s = Series(range(len(idx)), index=idx) + + left, right = float_frame.align(s, axis=0) + tm.assert_index_equal(left.index, float_frame.index) + tm.assert_index_equal(right.index, float_frame.index) + assert isinstance(right, Series) + + msg = "The 'broadcast_axis' keyword in DataFrame.align is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + left, right = float_frame.align(s, broadcast_axis=1) + tm.assert_index_equal(left.index, float_frame.index) + expected = {c: s for c in float_frame.columns} + expected = DataFrame( + expected, index=float_frame.index, columns=float_frame.columns + ) + tm.assert_frame_equal(right, expected) + + def test_align_series_condition(self): + # see gh-9558 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + result = df[df["a"] == 2] + expected = DataFrame([[2, 5]], index=[1], columns=["a", "b"]) + tm.assert_frame_equal(result, expected) + + result = df.where(df["a"] == 2, 0) + expected = DataFrame({"a": [0, 2, 0], "b": [0, 5, 0]}) + tm.assert_frame_equal(result, expected) + + def test_align_int(self, int_frame): + # test other non-float types + other = DataFrame(index=range(5), columns=["A", "B", "C"]) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = int_frame.align(other, join="inner", axis=1, method="pad") + tm.assert_index_equal(bf.columns, other.columns) + + def test_align_mixed_type(self, float_string_frame): + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = float_string_frame.align( + float_string_frame, join="inner", axis=1, method="pad" + ) + tm.assert_index_equal(bf.columns, float_string_frame.columns) + + def test_align_mixed_float(self, mixed_float_frame): + # mixed floats/ints + other = DataFrame(index=range(5), columns=["A", "B", "C"]) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = mixed_float_frame.align( + other.iloc[:, 0], join="inner", axis=1, method=None, fill_value=0 + ) + tm.assert_index_equal(bf.index, Index([])) + + def test_align_mixed_int(self, mixed_int_frame): + other = DataFrame(index=range(5), columns=["A", "B", "C"]) + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + af, bf = mixed_int_frame.align( + other.iloc[:, 0], join="inner", axis=1, method=None, fill_value=0 + ) + tm.assert_index_equal(bf.index, Index([])) + + @pytest.mark.parametrize( + "l_ordered,r_ordered,expected", + [ + [True, True, pd.CategoricalIndex], + [True, False, Index], + [False, True, Index], + [False, False, pd.CategoricalIndex], + ], + ) + def test_align_categorical(self, l_ordered, r_ordered, expected): + # GH-28397 + df_1 = DataFrame( + { + "A": np.arange(6, dtype="int64"), + "B": Series(list("aabbca")).astype( + pd.CategoricalDtype(list("cab"), ordered=l_ordered) + ), + } + ).set_index("B") + df_2 = DataFrame( + { + "A": np.arange(5, dtype="int64"), + "B": Series(list("babca")).astype( + pd.CategoricalDtype(list("cab"), ordered=r_ordered) + ), + } + ).set_index("B") + + aligned_1, aligned_2 = df_1.align(df_2) + assert isinstance(aligned_1.index, expected) + assert isinstance(aligned_2.index, expected) + tm.assert_index_equal(aligned_1.index, aligned_2.index) + + def test_align_multiindex(self): + # GH#10665 + # same test cases as test_align_multiindex in test_series.py + + midx = pd.MultiIndex.from_product( + [range(2), range(3), range(2)], names=("a", "b", "c") + ) + idx = Index(range(2), name="b") + df1 = DataFrame(np.arange(12, dtype="int64"), index=midx) + df2 = DataFrame(np.arange(2, dtype="int64"), index=idx) + + # these must be the same results (but flipped) + res1l, res1r = df1.align(df2, join="left") + res2l, res2r = df2.align(df1, join="right") + + expl = df1 + tm.assert_frame_equal(expl, res1l) + tm.assert_frame_equal(expl, res2r) + expr = DataFrame([0, 0, 1, 1, np.nan, np.nan] * 2, index=midx) + tm.assert_frame_equal(expr, res1r) + tm.assert_frame_equal(expr, res2l) + + res1l, res1r = df1.align(df2, join="right") + res2l, res2r = df2.align(df1, join="left") + + exp_idx = pd.MultiIndex.from_product( + [range(2), range(2), range(2)], names=("a", "b", "c") + ) + expl = DataFrame([0, 1, 2, 3, 6, 7, 8, 9], index=exp_idx) + tm.assert_frame_equal(expl, res1l) + tm.assert_frame_equal(expl, res2r) + expr = DataFrame([0, 0, 1, 1] * 2, index=exp_idx) + tm.assert_frame_equal(expr, res1r) + tm.assert_frame_equal(expr, res2l) + + def test_align_series_combinations(self): + df = DataFrame({"a": [1, 3, 5], "b": [1, 3, 5]}, index=list("ACE")) + s = Series([1, 2, 4], index=list("ABD"), name="x") + + # frame + series + res1, res2 = df.align(s, axis=0) + exp1 = DataFrame( + {"a": [1, np.nan, 3, np.nan, 5], "b": [1, np.nan, 3, np.nan, 5]}, + index=list("ABCDE"), + ) + exp2 = Series([1, 2, np.nan, 4, np.nan], index=list("ABCDE"), name="x") + + tm.assert_frame_equal(res1, exp1) + tm.assert_series_equal(res2, exp2) + + # series + frame + res1, res2 = s.align(df) + tm.assert_series_equal(res1, exp2) + tm.assert_frame_equal(res2, exp1) + + def test_multiindex_align_to_series_with_common_index_level(self): + # GH-46001 + foo_index = Index([1, 2, 3], name="foo") + bar_index = Index([1, 2], name="bar") + + series = Series([1, 2], index=bar_index, name="foo_series") + df = DataFrame( + {"col": np.arange(6)}, + index=pd.MultiIndex.from_product([foo_index, bar_index]), + ) + + expected_r = Series([1, 2] * 3, index=df.index, name="foo_series") + result_l, result_r = df.align(series, axis=0) + + tm.assert_frame_equal(result_l, df) + tm.assert_series_equal(result_r, expected_r) + + def test_multiindex_align_to_series_with_common_index_level_missing_in_left(self): + # GH-46001 + foo_index = Index([1, 2, 3], name="foo") + bar_index = Index([1, 2], name="bar") + + series = Series( + [1, 2, 3, 4], index=Index([1, 2, 3, 4], name="bar"), name="foo_series" + ) + df = DataFrame( + {"col": np.arange(6)}, + index=pd.MultiIndex.from_product([foo_index, bar_index]), + ) + + expected_r = Series([1, 2] * 3, index=df.index, name="foo_series") + result_l, result_r = df.align(series, axis=0) + + tm.assert_frame_equal(result_l, df) + tm.assert_series_equal(result_r, expected_r) + + def test_multiindex_align_to_series_with_common_index_level_missing_in_right(self): + # GH-46001 + foo_index = Index([1, 2, 3], name="foo") + bar_index = Index([1, 2, 3, 4], name="bar") + + series = Series([1, 2], index=Index([1, 2], name="bar"), name="foo_series") + df = DataFrame( + {"col": np.arange(12)}, + index=pd.MultiIndex.from_product([foo_index, bar_index]), + ) + + expected_r = Series( + [1, 2, np.nan, np.nan] * 3, index=df.index, name="foo_series" + ) + result_l, result_r = df.align(series, axis=0) + + tm.assert_frame_equal(result_l, df) + tm.assert_series_equal(result_r, expected_r) + + def test_multiindex_align_to_series_with_common_index_level_missing_in_both(self): + # GH-46001 + foo_index = Index([1, 2, 3], name="foo") + bar_index = Index([1, 3, 4], name="bar") + + series = Series( + [1, 2, 3], index=Index([1, 2, 4], name="bar"), name="foo_series" + ) + df = DataFrame( + {"col": np.arange(9)}, + index=pd.MultiIndex.from_product([foo_index, bar_index]), + ) + + expected_r = Series([1, np.nan, 3] * 3, index=df.index, name="foo_series") + result_l, result_r = df.align(series, axis=0) + + tm.assert_frame_equal(result_l, df) + tm.assert_series_equal(result_r, expected_r) + + def test_multiindex_align_to_series_with_common_index_level_non_unique_cols(self): + # GH-46001 + foo_index = Index([1, 2, 3], name="foo") + bar_index = Index([1, 2], name="bar") + + series = Series([1, 2], index=bar_index, name="foo_series") + df = DataFrame( + np.arange(18).reshape(6, 3), + index=pd.MultiIndex.from_product([foo_index, bar_index]), + ) + df.columns = ["cfoo", "cbar", "cfoo"] + + expected = Series([1, 2] * 3, index=df.index, name="foo_series") + result_left, result_right = df.align(series, axis=0) + + tm.assert_series_equal(result_right, expected) + tm.assert_index_equal(result_left.columns, df.columns) + + def test_missing_axis_specification_exception(self): + df = DataFrame(np.arange(50).reshape((10, 5))) + series = Series(np.arange(5)) + + with pytest.raises(ValueError, match=r"axis=0 or 1"): + df.align(series) + + @pytest.mark.parametrize("method", ["pad", "bfill"]) + @pytest.mark.parametrize("axis", [0, 1, None]) + @pytest.mark.parametrize("fill_axis", [0, 1]) + @pytest.mark.parametrize("how", ["inner", "outer", "left", "right"]) + @pytest.mark.parametrize( + "left_slice", + [ + [slice(4), slice(10)], + [slice(0), slice(0)], + ], + ) + @pytest.mark.parametrize( + "right_slice", + [ + [slice(2, None), slice(6, None)], + [slice(0), slice(0)], + ], + ) + @pytest.mark.parametrize("limit", [1, None]) + def test_align_fill_method( + self, how, method, axis, fill_axis, float_frame, left_slice, right_slice, limit + ): + frame = float_frame + left = frame.iloc[left_slice[0], left_slice[1]] + right = frame.iloc[right_slice[0], right_slice[1]] + + msg = ( + "The 'method', 'limit', and 'fill_axis' keywords in DataFrame.align " + "are deprecated" + ) + + with tm.assert_produces_warning(FutureWarning, match=msg): + aa, ab = left.align( + right, + axis=axis, + join=how, + method=method, + limit=limit, + fill_axis=fill_axis, + ) + + join_index, join_columns = None, None + + ea, eb = left, right + if axis is None or axis == 0: + join_index = left.index.join(right.index, how=how) + ea = ea.reindex(index=join_index) + eb = eb.reindex(index=join_index) + + if axis is None or axis == 1: + join_columns = left.columns.join(right.columns, how=how) + ea = ea.reindex(columns=join_columns) + eb = eb.reindex(columns=join_columns) + + msg = "DataFrame.fillna with 'method' is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + ea = ea.fillna(axis=fill_axis, method=method, limit=limit) + eb = eb.fillna(axis=fill_axis, method=method, limit=limit) + + tm.assert_frame_equal(aa, ea) + tm.assert_frame_equal(ab, eb) + + def test_align_series_check_copy(self): + # GH# + df = DataFrame({0: [1, 2]}) + ser = Series([1], name=0) + expected = ser.copy() + result, other = df.align(ser, axis=1) + ser.iloc[0] = 100 + tm.assert_series_equal(other, expected) + + def test_align_identical_different_object(self): + # GH#51032 + df = DataFrame({"a": [1, 2]}) + ser = Series([3, 4]) + result, result2 = df.align(ser, axis=0) + tm.assert_frame_equal(result, df) + tm.assert_series_equal(result2, ser) + assert df is not result + assert ser is not result2 + + def test_align_identical_different_object_columns(self): + # GH#51032 + df = DataFrame({"a": [1, 2]}) + ser = Series([1], index=["a"]) + result, result2 = df.align(ser, axis=1) + tm.assert_frame_equal(result, df) + tm.assert_series_equal(result2, ser) + assert df is not result + assert ser is not result2 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asfreq.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asfreq.py new file mode 100644 index 0000000000000000000000000000000000000000..ef72ca1ac86b9a6eb395a5a64bbfb99aef76a02a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asfreq.py @@ -0,0 +1,263 @@ +from datetime import datetime + +import numpy as np +import pytest + +from pandas._libs.tslibs.offsets import MonthEnd + +from pandas import ( + DataFrame, + DatetimeIndex, + Series, + date_range, + period_range, + to_datetime, +) +import pandas._testing as tm + +from pandas.tseries import offsets + + +class TestAsFreq: + @pytest.fixture(params=["s", "ms", "us", "ns"]) + def unit(self, request): + return request.param + + def test_asfreq2(self, frame_or_series): + ts = frame_or_series( + [0.0, 1.0, 2.0], + index=DatetimeIndex( + [ + datetime(2009, 10, 30), + datetime(2009, 11, 30), + datetime(2009, 12, 31), + ], + dtype="M8[ns]", + freq="BME", + ), + ) + + daily_ts = ts.asfreq("B") + monthly_ts = daily_ts.asfreq("BME") + tm.assert_equal(monthly_ts, ts) + + daily_ts = ts.asfreq("B", method="pad") + monthly_ts = daily_ts.asfreq("BME") + tm.assert_equal(monthly_ts, ts) + + daily_ts = ts.asfreq(offsets.BDay()) + monthly_ts = daily_ts.asfreq(offsets.BMonthEnd()) + tm.assert_equal(monthly_ts, ts) + + result = ts[:0].asfreq("ME") + assert len(result) == 0 + assert result is not ts + + if frame_or_series is Series: + daily_ts = ts.asfreq("D", fill_value=-1) + result = daily_ts.value_counts().sort_index() + expected = Series( + [60, 1, 1, 1], index=[-1.0, 2.0, 1.0, 0.0], name="count" + ).sort_index() + tm.assert_series_equal(result, expected) + + def test_asfreq_datetimeindex_empty(self, frame_or_series): + # GH#14320 + index = DatetimeIndex(["2016-09-29 11:00"]) + expected = frame_or_series(index=index, dtype=object).asfreq("h") + result = frame_or_series([3], index=index.copy()).asfreq("h") + tm.assert_index_equal(expected.index, result.index) + + @pytest.mark.parametrize("tz", ["US/Eastern", "dateutil/US/Eastern"]) + def test_tz_aware_asfreq_smoke(self, tz, frame_or_series): + dr = date_range("2011-12-01", "2012-07-20", freq="D", tz=tz) + + obj = frame_or_series( + np.random.default_rng(2).standard_normal(len(dr)), index=dr + ) + + # it works! + obj.asfreq("min") + + def test_asfreq_normalize(self, frame_or_series): + rng = date_range("1/1/2000 09:30", periods=20) + norm = date_range("1/1/2000", periods=20) + + vals = np.random.default_rng(2).standard_normal((20, 3)) + + obj = DataFrame(vals, index=rng) + expected = DataFrame(vals, index=norm) + if frame_or_series is Series: + obj = obj[0] + expected = expected[0] + + result = obj.asfreq("D", normalize=True) + tm.assert_equal(result, expected) + + def test_asfreq_keep_index_name(self, frame_or_series): + # GH#9854 + index_name = "bar" + index = date_range("20130101", periods=20, name=index_name) + obj = DataFrame(list(range(20)), columns=["foo"], index=index) + obj = tm.get_obj(obj, frame_or_series) + + assert index_name == obj.index.name + assert index_name == obj.asfreq("10D").index.name + + def test_asfreq_ts(self, frame_or_series): + index = period_range(freq="Y", start="1/1/2001", end="12/31/2010") + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 3)), index=index + ) + obj = tm.get_obj(obj, frame_or_series) + + result = obj.asfreq("D", how="end") + exp_index = index.asfreq("D", how="end") + assert len(result) == len(obj) + tm.assert_index_equal(result.index, exp_index) + + result = obj.asfreq("D", how="start") + exp_index = index.asfreq("D", how="start") + assert len(result) == len(obj) + tm.assert_index_equal(result.index, exp_index) + + def test_asfreq_resample_set_correct_freq(self, frame_or_series): + # GH#5613 + # we test if .asfreq() and .resample() set the correct value for .freq + dti = to_datetime(["2012-01-01", "2012-01-02", "2012-01-03"]) + obj = DataFrame({"col": [1, 2, 3]}, index=dti) + obj = tm.get_obj(obj, frame_or_series) + + # testing the settings before calling .asfreq() and .resample() + assert obj.index.freq is None + assert obj.index.inferred_freq == "D" + + # does .asfreq() set .freq correctly? + assert obj.asfreq("D").index.freq == "D" + + # does .resample() set .freq correctly? + assert obj.resample("D").asfreq().index.freq == "D" + + def test_asfreq_empty(self, datetime_frame): + # test does not blow up on length-0 DataFrame + zero_length = datetime_frame.reindex([]) + result = zero_length.asfreq("BME") + assert result is not zero_length + + def test_asfreq(self, datetime_frame): + offset_monthly = datetime_frame.asfreq(offsets.BMonthEnd()) + rule_monthly = datetime_frame.asfreq("BME") + + tm.assert_frame_equal(offset_monthly, rule_monthly) + + rule_monthly.asfreq("B", method="pad") + # TODO: actually check that this worked. + + # don't forget! + rule_monthly.asfreq("B", method="pad") + + def test_asfreq_datetimeindex(self): + df = DataFrame( + {"A": [1, 2, 3]}, + index=[datetime(2011, 11, 1), datetime(2011, 11, 2), datetime(2011, 11, 3)], + ) + df = df.asfreq("B") + assert isinstance(df.index, DatetimeIndex) + + ts = df["A"].asfreq("B") + assert isinstance(ts.index, DatetimeIndex) + + def test_asfreq_fillvalue(self): + # test for fill value during upsampling, related to issue 3715 + + # setup + rng = date_range("1/1/2016", periods=10, freq="2s") + # Explicit cast to 'float' to avoid implicit cast when setting None + ts = Series(np.arange(len(rng)), index=rng, dtype="float") + df = DataFrame({"one": ts}) + + # insert pre-existing missing value + df.loc["2016-01-01 00:00:08", "one"] = None + + actual_df = df.asfreq(freq="1s", fill_value=9.0) + expected_df = df.asfreq(freq="1s").fillna(9.0) + expected_df.loc["2016-01-01 00:00:08", "one"] = None + tm.assert_frame_equal(expected_df, actual_df) + + expected_series = ts.asfreq(freq="1s").fillna(9.0) + actual_series = ts.asfreq(freq="1s", fill_value=9.0) + tm.assert_series_equal(expected_series, actual_series) + + def test_asfreq_with_date_object_index(self, frame_or_series): + rng = date_range("1/1/2000", periods=20) + ts = frame_or_series(np.random.default_rng(2).standard_normal(20), index=rng) + + ts2 = ts.copy() + ts2.index = [x.date() for x in ts2.index] + + result = ts2.asfreq("4h", method="ffill") + expected = ts.asfreq("4h", method="ffill") + tm.assert_equal(result, expected) + + def test_asfreq_with_unsorted_index(self, frame_or_series): + # GH#39805 + # Test that rows are not dropped when the datetime index is out of order + index = to_datetime(["2021-01-04", "2021-01-02", "2021-01-03", "2021-01-01"]) + result = frame_or_series(range(4), index=index) + + expected = result.reindex(sorted(index)) + expected.index = expected.index._with_freq("infer") + + result = result.asfreq("D") + tm.assert_equal(result, expected) + + def test_asfreq_after_normalize(self, unit): + # https://github.com/pandas-dev/pandas/issues/50727 + result = DatetimeIndex( + date_range("2000", periods=2).as_unit(unit).normalize(), freq="D" + ) + expected = DatetimeIndex(["2000-01-01", "2000-01-02"], freq="D").as_unit(unit) + tm.assert_index_equal(result, expected) + + @pytest.mark.parametrize( + "freq, freq_half", + [ + ("2ME", "ME"), + (MonthEnd(2), MonthEnd(1)), + ], + ) + def test_asfreq_2ME(self, freq, freq_half): + index = date_range("1/1/2000", periods=6, freq=freq_half) + df = DataFrame({"s": Series([0.0, 1.0, 2.0, 3.0, 4.0, 5.0], index=index)}) + expected = df.asfreq(freq=freq) + + index = date_range("1/1/2000", periods=3, freq=freq) + result = DataFrame({"s": Series([0.0, 2.0, 4.0], index=index)}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "freq, freq_depr", + [ + ("2ME", "2M"), + ("2QE", "2Q"), + ("2QE-SEP", "2Q-SEP"), + ("1BQE", "1BQ"), + ("2BQE-SEP", "2BQ-SEP"), + ("1YE", "1Y"), + ("2YE-MAR", "2Y-MAR"), + ("1YE", "1A"), + ("2YE-MAR", "2A-MAR"), + ("2BYE-MAR", "2BA-MAR"), + ], + ) + def test_asfreq_frequency_M_Q_Y_A_deprecated(self, freq, freq_depr): + # GH#9586, #55978 + depr_msg = f"'{freq_depr[1:]}' is deprecated and will be removed " + f"in a future version, please use '{freq[1:]}' instead." + + index = date_range("1/1/2000", periods=4, freq=f"{freq[1:]}") + df = DataFrame({"s": Series([0.0, 1.0, 2.0, 3.0], index=index)}) + expected = df.asfreq(freq=freq) + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + result = df.asfreq(freq=freq_depr) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asof.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asof.py new file mode 100644 index 0000000000000000000000000000000000000000..4a8adf89b3aef83001f6bb7669d8a9eae12529ea --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_asof.py @@ -0,0 +1,198 @@ +import numpy as np +import pytest + +from pandas._libs.tslibs import IncompatibleFrequency + +from pandas import ( + DataFrame, + Period, + Series, + Timestamp, + date_range, + period_range, + to_datetime, +) +import pandas._testing as tm + + +@pytest.fixture +def date_range_frame(): + """ + Fixture for DataFrame of ints with date_range index + + Columns are ['A', 'B']. + """ + N = 50 + rng = date_range("1/1/1990", periods=N, freq="53s") + return DataFrame({"A": np.arange(N), "B": np.arange(N)}, index=rng) + + +class TestFrameAsof: + def test_basic(self, date_range_frame): + # Explicitly cast to float to avoid implicit cast when setting np.nan + df = date_range_frame.astype({"A": "float"}) + N = 50 + df.loc[df.index[15:30], "A"] = np.nan + dates = date_range("1/1/1990", periods=N * 3, freq="25s") + + result = df.asof(dates) + assert result.notna().all(1).all() + lb = df.index[14] + ub = df.index[30] + + dates = list(dates) + + result = df.asof(dates) + assert result.notna().all(1).all() + + mask = (result.index >= lb) & (result.index < ub) + rs = result[mask] + assert (rs == 14).all(1).all() + + def test_subset(self, date_range_frame): + N = 10 + # explicitly cast to float to avoid implicit upcast when setting to np.nan + df = date_range_frame.iloc[:N].copy().astype({"A": "float"}) + df.loc[df.index[4:8], "A"] = np.nan + dates = date_range("1/1/1990", periods=N * 3, freq="25s") + + # with a subset of A should be the same + result = df.asof(dates, subset="A") + expected = df.asof(dates) + tm.assert_frame_equal(result, expected) + + # same with A/B + result = df.asof(dates, subset=["A", "B"]) + expected = df.asof(dates) + tm.assert_frame_equal(result, expected) + + # B gives df.asof + result = df.asof(dates, subset="B") + expected = df.resample("25s", closed="right").ffill().reindex(dates) + expected.iloc[20:] = 9 + # no "missing", so "B" can retain int dtype (df["A"].dtype platform-dependent) + expected["B"] = expected["B"].astype(df["B"].dtype) + + tm.assert_frame_equal(result, expected) + + def test_missing(self, date_range_frame): + # GH 15118 + # no match found - `where` value before earliest date in index + N = 10 + # Cast to 'float64' to avoid upcast when introducing nan in df.asof + df = date_range_frame.iloc[:N].copy().astype("float64") + + result = df.asof("1989-12-31") + + expected = Series( + index=["A", "B"], name=Timestamp("1989-12-31"), dtype=np.float64 + ) + tm.assert_series_equal(result, expected) + + result = df.asof(to_datetime(["1989-12-31"])) + expected = DataFrame( + index=to_datetime(["1989-12-31"]), columns=["A", "B"], dtype="float64" + ) + tm.assert_frame_equal(result, expected) + + # Check that we handle PeriodIndex correctly, dont end up with + # period.ordinal for series name + df = df.to_period("D") + result = df.asof("1989-12-31") + assert isinstance(result.name, Period) + + def test_asof_all_nans(self, frame_or_series): + # GH 15713 + # DataFrame/Series is all nans + result = frame_or_series([np.nan]).asof([0]) + expected = frame_or_series([np.nan]) + tm.assert_equal(result, expected) + + def test_all_nans(self, date_range_frame): + # GH 15713 + # DataFrame is all nans + + # testing non-default indexes, multiple inputs + N = 150 + rng = date_range_frame.index + dates = date_range("1/1/1990", periods=N, freq="25s") + result = DataFrame(np.nan, index=rng, columns=["A"]).asof(dates) + expected = DataFrame(np.nan, index=dates, columns=["A"]) + tm.assert_frame_equal(result, expected) + + # testing multiple columns + dates = date_range("1/1/1990", periods=N, freq="25s") + result = DataFrame(np.nan, index=rng, columns=["A", "B", "C"]).asof(dates) + expected = DataFrame(np.nan, index=dates, columns=["A", "B", "C"]) + tm.assert_frame_equal(result, expected) + + # testing scalar input + result = DataFrame(np.nan, index=[1, 2], columns=["A", "B"]).asof([3]) + expected = DataFrame(np.nan, index=[3], columns=["A", "B"]) + tm.assert_frame_equal(result, expected) + + result = DataFrame(np.nan, index=[1, 2], columns=["A", "B"]).asof(3) + expected = Series(np.nan, index=["A", "B"], name=3) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "stamp,expected", + [ + ( + Timestamp("2018-01-01 23:22:43.325+00:00"), + Series(2, name=Timestamp("2018-01-01 23:22:43.325+00:00")), + ), + ( + Timestamp("2018-01-01 22:33:20.682+01:00"), + Series(1, name=Timestamp("2018-01-01 22:33:20.682+01:00")), + ), + ], + ) + def test_time_zone_aware_index(self, stamp, expected): + # GH21194 + # Testing awareness of DataFrame index considering different + # UTC and timezone + df = DataFrame( + data=[1, 2], + index=[ + Timestamp("2018-01-01 21:00:05.001+00:00"), + Timestamp("2018-01-01 22:35:10.550+00:00"), + ], + ) + + result = df.asof(stamp) + tm.assert_series_equal(result, expected) + + def test_is_copy(self, date_range_frame): + # GH-27357, GH-30784: ensure the result of asof is an actual copy and + # doesn't track the parent dataframe / doesn't give SettingWithCopy warnings + df = date_range_frame.astype({"A": "float"}) + N = 50 + df.loc[df.index[15:30], "A"] = np.nan + dates = date_range("1/1/1990", periods=N * 3, freq="25s") + + result = df.asof(dates) + + with tm.assert_produces_warning(None): + result["C"] = 1 + + def test_asof_periodindex_mismatched_freq(self): + N = 50 + rng = period_range("1/1/1990", periods=N, freq="h") + df = DataFrame(np.random.default_rng(2).standard_normal(N), index=rng) + + # Mismatched freq + msg = "Input has different freq" + with pytest.raises(IncompatibleFrequency, match=msg): + df.asof(rng.asfreq("D")) + + def test_asof_preserves_bool_dtype(self): + # GH#16063 was casting bools to floats + dti = date_range("2017-01-01", freq="MS", periods=4) + ser = Series([True, False, True], index=dti[:-1]) + + ts = dti[-1] + res = ser.asof([ts]) + + expected = Series([True], index=[ts]) + tm.assert_series_equal(res, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_assign.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_assign.py new file mode 100644 index 0000000000000000000000000000000000000000..0ae501d43e74252a420acf96b9428ab4b8f5f211 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_assign.py @@ -0,0 +1,84 @@ +import pytest + +from pandas import DataFrame +import pandas._testing as tm + + +class TestAssign: + def test_assign(self): + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + original = df.copy() + result = df.assign(C=df.B / df.A) + expected = df.copy() + expected["C"] = [4, 2.5, 2] + tm.assert_frame_equal(result, expected) + + # lambda syntax + result = df.assign(C=lambda x: x.B / x.A) + tm.assert_frame_equal(result, expected) + + # original is unmodified + tm.assert_frame_equal(df, original) + + # Non-Series array-like + result = df.assign(C=[4, 2.5, 2]) + tm.assert_frame_equal(result, expected) + # original is unmodified + tm.assert_frame_equal(df, original) + + result = df.assign(B=df.B / df.A) + expected = expected.drop("B", axis=1).rename(columns={"C": "B"}) + tm.assert_frame_equal(result, expected) + + # overwrite + result = df.assign(A=df.A + df.B) + expected = df.copy() + expected["A"] = [5, 7, 9] + tm.assert_frame_equal(result, expected) + + # lambda + result = df.assign(A=lambda x: x.A + x.B) + tm.assert_frame_equal(result, expected) + + def test_assign_multiple(self): + df = DataFrame([[1, 4], [2, 5], [3, 6]], columns=["A", "B"]) + result = df.assign(C=[7, 8, 9], D=df.A, E=lambda x: x.B) + expected = DataFrame( + [[1, 4, 7, 1, 4], [2, 5, 8, 2, 5], [3, 6, 9, 3, 6]], columns=list("ABCDE") + ) + tm.assert_frame_equal(result, expected) + + def test_assign_order(self): + # GH 9818 + df = DataFrame([[1, 2], [3, 4]], columns=["A", "B"]) + result = df.assign(D=df.A + df.B, C=df.A - df.B) + + expected = DataFrame([[1, 2, 3, -1], [3, 4, 7, -1]], columns=list("ABDC")) + tm.assert_frame_equal(result, expected) + result = df.assign(C=df.A - df.B, D=df.A + df.B) + + expected = DataFrame([[1, 2, -1, 3], [3, 4, -1, 7]], columns=list("ABCD")) + + tm.assert_frame_equal(result, expected) + + def test_assign_bad(self): + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + + # non-keyword argument + msg = r"assign\(\) takes 1 positional argument but 2 were given" + with pytest.raises(TypeError, match=msg): + df.assign(lambda x: x.A) + msg = "'DataFrame' object has no attribute 'C'" + with pytest.raises(AttributeError, match=msg): + df.assign(C=df.A, D=df.A + df.C) + + def test_assign_dependent(self): + df = DataFrame({"A": [1, 2], "B": [3, 4]}) + + result = df.assign(C=df.A, D=lambda x: x["A"] + x["C"]) + expected = DataFrame([[1, 3, 1, 2], [2, 4, 2, 4]], columns=list("ABCD")) + tm.assert_frame_equal(result, expected) + + result = df.assign(C=lambda df: df.A, D=lambda df: df["A"] + df["C"]) + expected = DataFrame([[1, 3, 1, 2], [2, 4, 2, 4]], columns=list("ABCD")) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_astype.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_astype.py new file mode 100644 index 0000000000000000000000000000000000000000..938f9cfcde3f834a3788dff186cd0dfff3c093d1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_astype.py @@ -0,0 +1,924 @@ +import re + +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + CategoricalDtype, + DataFrame, + DatetimeTZDtype, + Index, + Interval, + IntervalDtype, + NaT, + Series, + Timedelta, + Timestamp, + concat, + date_range, + option_context, +) +import pandas._testing as tm + + +def _check_cast(df, v): + """ + Check if all dtypes of df are equal to v + """ + assert all(s.dtype.name == v for _, s in df.items()) + + +class TestAstype: + def test_astype_float(self, float_frame): + casted = float_frame.astype(int) + expected = DataFrame( + float_frame.values.astype(int), + index=float_frame.index, + columns=float_frame.columns, + ) + tm.assert_frame_equal(casted, expected) + + casted = float_frame.astype(np.int32) + expected = DataFrame( + float_frame.values.astype(np.int32), + index=float_frame.index, + columns=float_frame.columns, + ) + tm.assert_frame_equal(casted, expected) + + float_frame["foo"] = "5" + casted = float_frame.astype(int) + expected = DataFrame( + float_frame.values.astype(int), + index=float_frame.index, + columns=float_frame.columns, + ) + tm.assert_frame_equal(casted, expected) + + def test_astype_mixed_float(self, mixed_float_frame): + # mixed casting + casted = mixed_float_frame.reindex(columns=["A", "B"]).astype("float32") + _check_cast(casted, "float32") + + casted = mixed_float_frame.reindex(columns=["A", "B"]).astype("float16") + _check_cast(casted, "float16") + + def test_astype_mixed_type(self): + # mixed casting + df = DataFrame( + { + "a": 1.0, + "b": 2, + "c": "foo", + "float32": np.array([1.0] * 10, dtype="float32"), + "int32": np.array([1] * 10, dtype="int32"), + }, + index=np.arange(10), + ) + mn = df._get_numeric_data().copy() + mn["little_float"] = np.array(12345.0, dtype="float16") + mn["big_float"] = np.array(123456789101112.0, dtype="float64") + + casted = mn.astype("float64") + _check_cast(casted, "float64") + + casted = mn.astype("int64") + _check_cast(casted, "int64") + + casted = mn.reindex(columns=["little_float"]).astype("float16") + _check_cast(casted, "float16") + + casted = mn.astype("float32") + _check_cast(casted, "float32") + + casted = mn.astype("int32") + _check_cast(casted, "int32") + + # to object + casted = mn.astype("O") + _check_cast(casted, "object") + + def test_astype_with_exclude_string(self, float_frame): + df = float_frame.copy() + expected = float_frame.astype(int) + df["string"] = "foo" + casted = df.astype(int, errors="ignore") + + expected["string"] = "foo" + tm.assert_frame_equal(casted, expected) + + df = float_frame.copy() + expected = float_frame.astype(np.int32) + df["string"] = "foo" + casted = df.astype(np.int32, errors="ignore") + + expected["string"] = "foo" + tm.assert_frame_equal(casted, expected) + + def test_astype_with_view_float(self, float_frame): + # this is the only real reason to do it this way + tf = np.round(float_frame).astype(np.int32) + tf.astype(np.float32, copy=False) + + # TODO(wesm): verification? + tf = float_frame.astype(np.float64) + tf.astype(np.int64, copy=False) + + def test_astype_with_view_mixed_float(self, mixed_float_frame): + tf = mixed_float_frame.reindex(columns=["A", "B", "C"]) + + tf.astype(np.int64) + tf.astype(np.float32) + + @pytest.mark.parametrize("dtype", [np.int32, np.int64]) + @pytest.mark.parametrize("val", [np.nan, np.inf]) + def test_astype_cast_nan_inf_int(self, val, dtype): + # see GH#14265 + # + # Check NaN and inf --> raise error when converting to int. + msg = "Cannot convert non-finite values \\(NA or inf\\) to integer" + df = DataFrame([val]) + + with pytest.raises(ValueError, match=msg): + df.astype(dtype) + + def test_astype_str(self): + # see GH#9757 + a = Series(date_range("2010-01-04", periods=5)) + b = Series(date_range("3/6/2012 00:00", periods=5, tz="US/Eastern")) + c = Series([Timedelta(x, unit="d") for x in range(5)]) + d = Series(range(5)) + e = Series([0.0, 0.2, 0.4, 0.6, 0.8]) + + df = DataFrame({"a": a, "b": b, "c": c, "d": d, "e": e}) + + # Datetime-like + result = df.astype(str) + + expected = DataFrame( + { + "a": list(map(str, (Timestamp(x)._date_repr for x in a._values))), + "b": list(map(str, map(Timestamp, b._values))), + "c": [Timedelta(x)._repr_base() for x in c._values], + "d": list(map(str, d._values)), + "e": list(map(str, e._values)), + }, + dtype="str", + ) + + tm.assert_frame_equal(result, expected) + + def test_astype_str_float(self, using_infer_string): + # see GH#11302 + result = DataFrame([np.nan]).astype(str) + expected = DataFrame([np.nan if using_infer_string else "nan"], dtype="str") + + tm.assert_frame_equal(result, expected) + result = DataFrame([1.12345678901234567890]).astype(str) + + val = "1.1234567890123457" + expected = DataFrame([val], dtype="str") + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dtype_class", [dict, Series]) + def test_astype_dict_like(self, dtype_class): + # GH7271 & GH16717 + a = Series(date_range("2010-01-04", periods=5)) + b = Series(range(5)) + c = Series([0.0, 0.2, 0.4, 0.6, 0.8]) + d = Series(["1.0", "2", "3.14", "4", "5.4"]) + df = DataFrame({"a": a, "b": b, "c": c, "d": d}) + original = df.copy(deep=True) + + # change type of a subset of columns + dt1 = dtype_class({"b": "str", "d": "float32"}) + result = df.astype(dt1) + expected = DataFrame( + { + "a": a, + "b": Series(["0", "1", "2", "3", "4"], dtype="str"), + "c": c, + "d": Series([1.0, 2.0, 3.14, 4.0, 5.4], dtype="float32"), + } + ) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(df, original) + + dt2 = dtype_class({"b": np.float32, "c": "float32", "d": np.float64}) + result = df.astype(dt2) + expected = DataFrame( + { + "a": a, + "b": Series([0.0, 1.0, 2.0, 3.0, 4.0], dtype="float32"), + "c": Series([0.0, 0.2, 0.4, 0.6, 0.8], dtype="float32"), + "d": Series([1.0, 2.0, 3.14, 4.0, 5.4], dtype="float64"), + } + ) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(df, original) + + # change all columns + dt3 = dtype_class({"a": str, "b": str, "c": str, "d": str}) + tm.assert_frame_equal(df.astype(dt3), df.astype(str)) + tm.assert_frame_equal(df, original) + + # error should be raised when using something other than column labels + # in the keys of the dtype dict + dt4 = dtype_class({"b": str, 2: str}) + dt5 = dtype_class({"e": str}) + msg_frame = ( + "Only a column name can be used for the key in a dtype mappings argument. " + "'{}' not found in columns." + ) + with pytest.raises(KeyError, match=msg_frame.format(2)): + df.astype(dt4) + with pytest.raises(KeyError, match=msg_frame.format("e")): + df.astype(dt5) + tm.assert_frame_equal(df, original) + + # if the dtypes provided are the same as the original dtypes, the + # resulting DataFrame should be the same as the original DataFrame + dt6 = dtype_class({col: df[col].dtype for col in df.columns}) + equiv = df.astype(dt6) + tm.assert_frame_equal(df, equiv) + tm.assert_frame_equal(df, original) + + # GH#16717 + # if dtypes provided is empty, the resulting DataFrame + # should be the same as the original DataFrame + dt7 = dtype_class({}) if dtype_class is dict else dtype_class({}, dtype=object) + equiv = df.astype(dt7) + tm.assert_frame_equal(df, equiv) + tm.assert_frame_equal(df, original) + + def test_astype_duplicate_col(self): + a1 = Series([1, 2, 3, 4, 5], name="a") + b = Series([0.1, 0.2, 0.4, 0.6, 0.8], name="b") + a2 = Series([0, 1, 2, 3, 4], name="a") + df = concat([a1, b, a2], axis=1) + + result = df.astype("str") + a1_str = Series(["1", "2", "3", "4", "5"], dtype="str", name="a") + b_str = Series(["0.1", "0.2", "0.4", "0.6", "0.8"], dtype="str", name="b") + a2_str = Series(["0", "1", "2", "3", "4"], dtype="str", name="a") + expected = concat([a1_str, b_str, a2_str], axis=1) + tm.assert_frame_equal(result, expected) + + result = df.astype({"a": "str"}) + expected = concat([a1_str, b, a2_str], axis=1) + tm.assert_frame_equal(result, expected) + + def test_astype_duplicate_col_series_arg(self): + # GH#44417 + vals = np.random.default_rng(2).standard_normal((3, 4)) + df = DataFrame(vals, columns=["A", "B", "C", "A"]) + dtypes = df.dtypes + dtypes.iloc[0] = str + dtypes.iloc[2] = "Float64" + + result = df.astype(dtypes) + expected = DataFrame( + { + 0: Series(vals[:, 0].astype(str), dtype="str"), + 1: vals[:, 1], + 2: pd.array(vals[:, 2], dtype="Float64"), + 3: vals[:, 3], + } + ) + expected.columns = df.columns + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "dtype", + [ + "category", + CategoricalDtype(), + CategoricalDtype(ordered=True), + CategoricalDtype(ordered=False), + CategoricalDtype(categories=list("abcdef")), + CategoricalDtype(categories=list("edba"), ordered=False), + CategoricalDtype(categories=list("edcb"), ordered=True), + ], + ids=repr, + ) + def test_astype_categorical(self, dtype): + # GH#18099 + d = {"A": list("abbc"), "B": list("bccd"), "C": list("cdde")} + df = DataFrame(d) + result = df.astype(dtype) + expected = DataFrame({k: Categorical(v, dtype=dtype) for k, v in d.items()}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("cls", [CategoricalDtype, DatetimeTZDtype, IntervalDtype]) + def test_astype_categoricaldtype_class_raises(self, cls): + df = DataFrame({"A": ["a", "a", "b", "c"]}) + xpr = f"Expected an instance of {cls.__name__}" + with pytest.raises(TypeError, match=xpr): + df.astype({"A": cls}) + + with pytest.raises(TypeError, match=xpr): + df["A"].astype(cls) + + @pytest.mark.parametrize("dtype", ["Int64", "Int32", "Int16"]) + def test_astype_extension_dtypes(self, dtype): + # GH#22578 + df = DataFrame([[1.0, 2.0], [3.0, 4.0], [5.0, 6.0]], columns=["a", "b"]) + + expected1 = DataFrame( + { + "a": pd.array([1, 3, 5], dtype=dtype), + "b": pd.array([2, 4, 6], dtype=dtype), + } + ) + tm.assert_frame_equal(df.astype(dtype), expected1) + tm.assert_frame_equal(df.astype("int64").astype(dtype), expected1) + tm.assert_frame_equal(df.astype(dtype).astype("float64"), df) + + df = DataFrame([[1.0, 2.0], [3.0, 4.0], [5.0, 6.0]], columns=["a", "b"]) + df["b"] = df["b"].astype(dtype) + expected2 = DataFrame( + {"a": [1.0, 3.0, 5.0], "b": pd.array([2, 4, 6], dtype=dtype)} + ) + tm.assert_frame_equal(df, expected2) + + tm.assert_frame_equal(df.astype(dtype), expected1) + tm.assert_frame_equal(df.astype("int64").astype(dtype), expected1) + + @pytest.mark.parametrize("dtype", ["Int64", "Int32", "Int16"]) + def test_astype_extension_dtypes_1d(self, dtype): + # GH#22578 + df = DataFrame({"a": [1.0, 2.0, 3.0]}) + + expected1 = DataFrame({"a": pd.array([1, 2, 3], dtype=dtype)}) + tm.assert_frame_equal(df.astype(dtype), expected1) + tm.assert_frame_equal(df.astype("int64").astype(dtype), expected1) + + df = DataFrame({"a": [1.0, 2.0, 3.0]}) + df["a"] = df["a"].astype(dtype) + expected2 = DataFrame({"a": pd.array([1, 2, 3], dtype=dtype)}) + tm.assert_frame_equal(df, expected2) + + tm.assert_frame_equal(df.astype(dtype), expected1) + tm.assert_frame_equal(df.astype("int64").astype(dtype), expected1) + + @pytest.mark.parametrize("dtype", ["category", "Int64"]) + def test_astype_extension_dtypes_duplicate_col(self, dtype): + # GH#24704 + a1 = Series([0, np.nan, 4], name="a") + a2 = Series([np.nan, 3, 5], name="a") + df = concat([a1, a2], axis=1) + + result = df.astype(dtype) + expected = concat([a1.astype(dtype), a2.astype(dtype)], axis=1) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "dtype", [{100: "float64", 200: "uint64"}, "category", "float64"] + ) + def test_astype_column_metadata(self, dtype): + # GH#19920 + columns = Index([100, 200, 300], dtype=np.uint64, name="foo") + df = DataFrame(np.arange(15).reshape(5, 3), columns=columns) + df = df.astype(dtype) + tm.assert_index_equal(df.columns, columns) + + @pytest.mark.parametrize("unit", ["Y", "M", "W", "D", "h", "m"]) + def test_astype_from_object_to_datetime_unit(self, unit): + vals = [ + ["2015-01-01", "2015-01-02", "2015-01-03"], + ["2017-01-01", "2017-01-02", "2017-02-03"], + ] + df = DataFrame(vals, dtype=object) + msg = ( + rf"Unexpected value for 'dtype': 'datetime64\[{unit}\]'. " + r"Must be 'datetime64\[s\]', 'datetime64\[ms\]', 'datetime64\[us\]', " + r"'datetime64\[ns\]' or DatetimeTZDtype" + ) + with pytest.raises(ValueError, match=msg): + df.astype(f"M8[{unit}]") + + @pytest.mark.parametrize("unit", ["Y", "M", "W", "D", "h", "m"]) + def test_astype_from_object_to_timedelta_unit(self, unit): + vals = [ + ["1 Day", "2 Days", "3 Days"], + ["4 Days", "5 Days", "6 Days"], + ] + df = DataFrame(vals, dtype=object) + msg = ( + r"Cannot convert from timedelta64\[ns\] to timedelta64\[.*\]. " + "Supported resolutions are 's', 'ms', 'us', 'ns'" + ) + with pytest.raises(ValueError, match=msg): + # TODO: this is ValueError while for DatetimeArray it is TypeError; + # get these consistent + df.astype(f"m8[{unit}]") + + @pytest.mark.parametrize("dtype", ["M8", "m8"]) + @pytest.mark.parametrize("unit", ["ns", "us", "ms", "s", "h", "m", "D"]) + def test_astype_from_datetimelike_to_object(self, dtype, unit): + # tests astype to object dtype + # GH#19223 / GH#12425 + dtype = f"{dtype}[{unit}]" + arr = np.array([[1, 2, 3]], dtype=dtype) + df = DataFrame(arr) + result = df.astype(object) + assert (result.dtypes == object).all() + + if dtype.startswith("M8"): + assert result.iloc[0, 0] == Timestamp(1, unit=unit) + else: + assert result.iloc[0, 0] == Timedelta(1, unit=unit) + + @pytest.mark.parametrize("arr_dtype", [np.int64, np.float64]) + @pytest.mark.parametrize("dtype", ["M8", "m8"]) + @pytest.mark.parametrize("unit", ["ns", "us", "ms", "s", "h", "m", "D"]) + def test_astype_to_datetimelike_unit(self, arr_dtype, dtype, unit): + # tests all units from numeric origination + # GH#19223 / GH#12425 + dtype = f"{dtype}[{unit}]" + arr = np.array([[1, 2, 3]], dtype=arr_dtype) + df = DataFrame(arr) + result = df.astype(dtype) + expected = DataFrame(arr.astype(dtype)) + + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("unit", ["ns", "us", "ms", "s", "h", "m", "D"]) + def test_astype_to_datetime_unit(self, unit): + # tests all units from datetime origination + # GH#19223 + dtype = f"M8[{unit}]" + arr = np.array([[1, 2, 3]], dtype=dtype) + df = DataFrame(arr) + ser = df.iloc[:, 0] + idx = Index(ser) + dta = ser._values + + if unit in ["ns", "us", "ms", "s"]: + # GH#48928 + result = df.astype(dtype) + else: + # we use the nearest supported dtype (i.e. M8[s]) + msg = rf"Cannot cast DatetimeArray to dtype datetime64\[{unit}\]" + with pytest.raises(TypeError, match=msg): + df.astype(dtype) + + with pytest.raises(TypeError, match=msg): + ser.astype(dtype) + + with pytest.raises(TypeError, match=msg.replace("Array", "Index")): + idx.astype(dtype) + + with pytest.raises(TypeError, match=msg): + dta.astype(dtype) + + return + + exp_df = DataFrame(arr.astype(dtype)) + assert (exp_df.dtypes == dtype).all() + tm.assert_frame_equal(result, exp_df) + + res_ser = ser.astype(dtype) + exp_ser = exp_df.iloc[:, 0] + assert exp_ser.dtype == dtype + tm.assert_series_equal(res_ser, exp_ser) + + exp_dta = exp_ser._values + + res_index = idx.astype(dtype) + exp_index = Index(exp_ser) + assert exp_index.dtype == dtype + tm.assert_index_equal(res_index, exp_index) + + res_dta = dta.astype(dtype) + assert exp_dta.dtype == dtype + tm.assert_extension_array_equal(res_dta, exp_dta) + + @pytest.mark.parametrize("unit", ["ns"]) + def test_astype_to_timedelta_unit_ns(self, unit): + # preserver the timedelta conversion + # GH#19223 + dtype = f"m8[{unit}]" + arr = np.array([[1, 2, 3]], dtype=dtype) + df = DataFrame(arr) + result = df.astype(dtype) + expected = DataFrame(arr.astype(dtype)) + + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("unit", ["us", "ms", "s", "h", "m", "D"]) + def test_astype_to_timedelta_unit(self, unit): + # coerce to float + # GH#19223 until 2.0 used to coerce to float + dtype = f"m8[{unit}]" + arr = np.array([[1, 2, 3]], dtype=dtype) + df = DataFrame(arr) + ser = df.iloc[:, 0] + tdi = Index(ser) + tda = tdi._values + + if unit in ["us", "ms", "s"]: + assert (df.dtypes == dtype).all() + result = df.astype(dtype) + else: + # We get the nearest supported unit, i.e. "s" + assert (df.dtypes == "m8[s]").all() + + msg = ( + rf"Cannot convert from timedelta64\[s\] to timedelta64\[{unit}\]. " + "Supported resolutions are 's', 'ms', 'us', 'ns'" + ) + with pytest.raises(ValueError, match=msg): + df.astype(dtype) + with pytest.raises(ValueError, match=msg): + ser.astype(dtype) + with pytest.raises(ValueError, match=msg): + tdi.astype(dtype) + with pytest.raises(ValueError, match=msg): + tda.astype(dtype) + + return + + result = df.astype(dtype) + # The conversion is a no-op, so we just get a copy + expected = df + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("unit", ["ns", "us", "ms", "s", "h", "m", "D"]) + def test_astype_to_incorrect_datetimelike(self, unit): + # trying to astype a m to a M, or vice-versa + # GH#19224 + dtype = f"M8[{unit}]" + other = f"m8[{unit}]" + + df = DataFrame(np.array([[1, 2, 3]], dtype=dtype)) + msg = "|".join( + [ + # BlockManager path + rf"Cannot cast DatetimeArray to dtype timedelta64\[{unit}\]", + # ArrayManager path + "cannot astype a datetimelike from " + rf"\[datetime64\[ns\]\] to \[timedelta64\[{unit}\]\]", + ] + ) + with pytest.raises(TypeError, match=msg): + df.astype(other) + + msg = "|".join( + [ + # BlockManager path + rf"Cannot cast TimedeltaArray to dtype datetime64\[{unit}\]", + # ArrayManager path + "cannot astype a timedelta from " + rf"\[timedelta64\[ns\]\] to \[datetime64\[{unit}\]\]", + ] + ) + df = DataFrame(np.array([[1, 2, 3]], dtype=other)) + with pytest.raises(TypeError, match=msg): + df.astype(dtype) + + def test_astype_arg_for_errors(self): + # GH#14878 + + df = DataFrame([1, 2, 3]) + + msg = ( + "Expected value of kwarg 'errors' to be one of " + "['raise', 'ignore']. Supplied value is 'True'" + ) + with pytest.raises(ValueError, match=re.escape(msg)): + df.astype(np.float64, errors=True) + + df.astype(np.int8, errors="ignore") + + def test_astype_invalid_conversion(self): + # GH#47571 + df = DataFrame({"a": [1, 2, "text"], "b": [1, 2, 3]}) + + msg = ( + "invalid literal for int() with base 10: 'text': " + "Error while type casting for column 'a'" + ) + + with pytest.raises(ValueError, match=re.escape(msg)): + df.astype({"a": int}) + + def test_astype_arg_for_errors_dictlist(self): + # GH#25905 + df = DataFrame( + [ + {"a": "1", "b": "16.5%", "c": "test"}, + {"a": "2.2", "b": "15.3", "c": "another_test"}, + ] + ) + expected = DataFrame( + [ + {"a": 1.0, "b": "16.5%", "c": "test"}, + {"a": 2.2, "b": "15.3", "c": "another_test"}, + ] + ) + expected["c"] = expected["c"].astype("object") + type_dict = {"a": "float64", "b": "float64", "c": "object"} + + result = df.astype(dtype=type_dict, errors="ignore") + + tm.assert_frame_equal(result, expected) + + def test_astype_dt64tz(self, timezone_frame): + # astype + expected = np.array( + [ + [ + Timestamp("2013-01-01 00:00:00"), + Timestamp("2013-01-02 00:00:00"), + Timestamp("2013-01-03 00:00:00"), + ], + [ + Timestamp("2013-01-01 00:00:00-0500", tz="US/Eastern"), + NaT, + Timestamp("2013-01-03 00:00:00-0500", tz="US/Eastern"), + ], + [ + Timestamp("2013-01-01 00:00:00+0100", tz="CET"), + NaT, + Timestamp("2013-01-03 00:00:00+0100", tz="CET"), + ], + ], + dtype=object, + ).T + expected = DataFrame( + expected, + index=timezone_frame.index, + columns=timezone_frame.columns, + dtype=object, + ) + result = timezone_frame.astype(object) + tm.assert_frame_equal(result, expected) + + msg = "Cannot use .astype to convert from timezone-aware dtype to timezone-" + with pytest.raises(TypeError, match=msg): + # dt64tz->dt64 deprecated + timezone_frame.astype("datetime64[ns]") + + def test_astype_dt64tz_to_str(self, timezone_frame, using_infer_string): + # str formatting + result = timezone_frame.astype(str) + na_value = np.nan if using_infer_string else "NaT" + expected = DataFrame( + [ + [ + "2013-01-01", + "2013-01-01 00:00:00-05:00", + "2013-01-01 00:00:00+01:00", + ], + ["2013-01-02", na_value, na_value], + [ + "2013-01-03", + "2013-01-03 00:00:00-05:00", + "2013-01-03 00:00:00+01:00", + ], + ], + columns=timezone_frame.columns, + dtype="str", + ) + tm.assert_frame_equal(result, expected) + + with option_context("display.max_columns", 20): + result = str(timezone_frame) + assert ( + "0 2013-01-01 2013-01-01 00:00:00-05:00 2013-01-01 00:00:00+01:00" + ) in result + assert ( + "1 2013-01-02 NaT NaT" + ) in result + assert ( + "2 2013-01-03 2013-01-03 00:00:00-05:00 2013-01-03 00:00:00+01:00" + ) in result + + def test_astype_empty_dtype_dict(self): + # issue mentioned further down in the following issue's thread + # https://github.com/pandas-dev/pandas/issues/33113 + df = DataFrame() + result = df.astype({}) + tm.assert_frame_equal(result, df) + assert result is not df + + @pytest.mark.parametrize( + "data, dtype", + [ + (["x", "y", "z"], "string[python]"), + pytest.param( + ["x", "y", "z"], + "string[pyarrow]", + marks=td.skip_if_no("pyarrow"), + ), + (["x", "y", "z"], "category"), + (3 * [Timestamp("2020-01-01", tz="UTC")], None), + (3 * [Interval(0, 1)], None), + ], + ) + @pytest.mark.parametrize("errors", ["raise", "ignore"]) + def test_astype_ignores_errors_for_extension_dtypes(self, data, dtype, errors): + # https://github.com/pandas-dev/pandas/issues/35471 + df = DataFrame(Series(data, dtype=dtype)) + if errors == "ignore": + expected = df + result = df.astype(float, errors=errors) + tm.assert_frame_equal(result, expected) + else: + msg = "(Cannot cast)|(could not convert)" + with pytest.raises((ValueError, TypeError), match=msg): + df.astype(float, errors=errors) + + def test_astype_tz_conversion(self): + # GH 35973 + val = {"tz": date_range("2020-08-30", freq="d", periods=2, tz="Europe/London")} + df = DataFrame(val) + result = df.astype({"tz": "datetime64[ns, Europe/Berlin]"}) + + expected = df + expected["tz"] = expected["tz"].dt.tz_convert("Europe/Berlin") + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("tz", ["UTC", "Europe/Berlin"]) + def test_astype_tz_object_conversion(self, tz): + # GH 35973 + val = {"tz": date_range("2020-08-30", freq="d", periods=2, tz="Europe/London")} + expected = DataFrame(val) + + # convert expected to object dtype from other tz str (independently tested) + result = expected.astype({"tz": f"datetime64[ns, {tz}]"}) + result = result.astype({"tz": "object"}) + + # do real test: object dtype to a specified tz, different from construction tz. + result = result.astype({"tz": "datetime64[ns, Europe/London]"}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string) GH#60639") + def test_astype_dt64_to_string( + self, frame_or_series, tz_naive_fixture, using_infer_string + ): + # GH#41409 + tz = tz_naive_fixture + + dti = date_range("2016-01-01", periods=3, tz=tz) + dta = dti._data + dta[0] = NaT + + obj = frame_or_series(dta) + result = obj.astype("string") + + # Check that Series/DataFrame.astype matches DatetimeArray.astype + expected = frame_or_series(dta.astype("string")) + tm.assert_equal(result, expected) + + item = result.iloc[0] + if frame_or_series is DataFrame: + item = item.iloc[0] + if using_infer_string: + assert item is np.nan + else: + assert item is pd.NA + + # For non-NA values, we should match what we get for non-EA str + alt = obj.astype(str) + assert np.all(alt.iloc[1:] == result.iloc[1:]) + + def test_astype_td64_to_string(self, frame_or_series): + # GH#41409 + tdi = pd.timedelta_range("1 Day", periods=3) + obj = frame_or_series(tdi) + + expected = frame_or_series(["1 days", "2 days", "3 days"], dtype="string") + result = obj.astype("string") + tm.assert_equal(result, expected) + + def test_astype_bytes(self): + # GH#39474 + result = DataFrame(["foo", "bar", "baz"]).astype(bytes) + assert result.dtypes[0] == np.dtype("S3") + + @pytest.mark.parametrize( + "index_slice", + [ + np.s_[:2, :2], + np.s_[:1, :2], + np.s_[:2, :1], + np.s_[::2, ::2], + np.s_[::1, ::2], + np.s_[::2, ::1], + ], + ) + def test_astype_noncontiguous(self, index_slice): + # GH#42396 + data = np.arange(16).reshape(4, 4) + df = DataFrame(data) + + result = df.iloc[index_slice].astype("int16") + expected = df.iloc[index_slice] + tm.assert_frame_equal(result, expected, check_dtype=False) + + def test_astype_retain_attrs(self, any_numpy_dtype): + # GH#44414 + df = DataFrame({"a": [0, 1, 2], "b": [3, 4, 5]}) + df.attrs["Location"] = "Michigan" + + result = df.astype({"a": any_numpy_dtype}).attrs + expected = df.attrs + + tm.assert_dict_equal(expected, result) + + +class TestAstypeCategorical: + def test_astype_from_categorical3(self): + df = DataFrame({"cats": [1, 2, 3, 4, 5, 6], "vals": [1, 2, 3, 4, 5, 6]}) + cats = Categorical([1, 2, 3, 4, 5, 6]) + exp_df = DataFrame({"cats": cats, "vals": [1, 2, 3, 4, 5, 6]}) + df["cats"] = df["cats"].astype("category") + tm.assert_frame_equal(exp_df, df) + + def test_astype_from_categorical4(self): + df = DataFrame( + {"cats": ["a", "b", "b", "a", "a", "d"], "vals": [1, 2, 3, 4, 5, 6]} + ) + cats = Categorical(["a", "b", "b", "a", "a", "d"]) + exp_df = DataFrame({"cats": cats, "vals": [1, 2, 3, 4, 5, 6]}) + df["cats"] = df["cats"].astype("category") + tm.assert_frame_equal(exp_df, df) + + def test_categorical_astype_to_int(self, any_int_dtype): + # GH#39402 + + df = DataFrame(data={"col1": pd.array([2.0, 1.0, 3.0])}) + df.col1 = df.col1.astype("category") + df.col1 = df.col1.astype(any_int_dtype) + expected = DataFrame({"col1": pd.array([2, 1, 3], dtype=any_int_dtype)}) + tm.assert_frame_equal(df, expected) + + def test_astype_categorical_to_string_missing(self): + # https://github.com/pandas-dev/pandas/issues/41797 + df = DataFrame(["a", "b", np.nan]) + expected = df.astype(str) + cat = df.astype("category") + result = cat.astype(str) + tm.assert_frame_equal(result, expected) + + +class IntegerArrayNoCopy(pd.core.arrays.IntegerArray): + # GH 42501 + + def copy(self): + assert False + + +class Int16DtypeNoCopy(pd.Int16Dtype): + # GH 42501 + + @classmethod + def construct_array_type(cls): + return IntegerArrayNoCopy + + +def test_frame_astype_no_copy(): + # GH 42501 + df = DataFrame({"a": [1, 4, None, 5], "b": [6, 7, 8, 9]}, dtype=object) + result = df.astype({"a": Int16DtypeNoCopy()}, copy=False) + + assert result.a.dtype == pd.Int16Dtype() + assert np.shares_memory(df.b.values, result.b.values) + + +@pytest.mark.parametrize("dtype", ["int64", "Int64"]) +def test_astype_copies(dtype): + # GH#50984 + pytest.importorskip("pyarrow") + df = DataFrame({"a": [1, 2, 3]}, dtype=dtype) + result = df.astype("int64[pyarrow]", copy=True) + df.iloc[0, 0] = 100 + expected = DataFrame({"a": [1, 2, 3]}, dtype="int64[pyarrow]") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("val", [None, 1, 1.5, np.nan, NaT]) +def test_astype_to_string_not_modifying_input(string_storage, val): + # GH#51073 + df = DataFrame({"a": ["a", "b", val]}) + expected = df.copy() + with option_context("mode.string_storage", string_storage): + df.astype("string", copy=False) + tm.assert_frame_equal(df, expected) + + +@pytest.mark.parametrize("val", [None, 1, 1.5, np.nan, NaT]) +def test_astype_to_string_dtype_not_modifying_input(any_string_dtype, val): + # GH#51073 - variant of the above test with explicit dtype instances + df = DataFrame({"a": ["a", "b", val]}) + expected = df.copy() + df.astype(any_string_dtype) + tm.assert_frame_equal(df, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_at_time.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_at_time.py new file mode 100644 index 0000000000000000000000000000000000000000..4c1434bd66aff127e07c4ff3fce90a22721b2035 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_at_time.py @@ -0,0 +1,132 @@ +from datetime import time + +import numpy as np +import pytest +import pytz + +from pandas._libs.tslibs import timezones + +from pandas import ( + DataFrame, + date_range, +) +import pandas._testing as tm + + +class TestAtTime: + @pytest.mark.parametrize("tzstr", ["US/Eastern", "dateutil/US/Eastern"]) + def test_localized_at_time(self, tzstr, frame_or_series): + tz = timezones.maybe_get_tz(tzstr) + + rng = date_range("4/16/2012", "5/1/2012", freq="h") + ts = frame_or_series( + np.random.default_rng(2).standard_normal(len(rng)), index=rng + ) + + ts_local = ts.tz_localize(tzstr) + + result = ts_local.at_time(time(10, 0)) + expected = ts.at_time(time(10, 0)).tz_localize(tzstr) + tm.assert_equal(result, expected) + assert timezones.tz_compare(result.index.tz, tz) + + def test_at_time(self, frame_or_series): + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 2)), index=rng + ) + ts = tm.get_obj(ts, frame_or_series) + rs = ts.at_time(rng[1]) + assert (rs.index.hour == rng[1].hour).all() + assert (rs.index.minute == rng[1].minute).all() + assert (rs.index.second == rng[1].second).all() + + result = ts.at_time("9:30") + expected = ts.at_time(time(9, 30)) + tm.assert_equal(result, expected) + + def test_at_time_midnight(self, frame_or_series): + # midnight, everything + rng = date_range("1/1/2000", "1/31/2000") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 3)), index=rng + ) + ts = tm.get_obj(ts, frame_or_series) + + result = ts.at_time(time(0, 0)) + tm.assert_equal(result, ts) + + def test_at_time_nonexistent(self, frame_or_series): + # time doesn't exist + rng = date_range("1/1/2012", freq="23Min", periods=384) + ts = DataFrame(np.random.default_rng(2).standard_normal(len(rng)), rng) + ts = tm.get_obj(ts, frame_or_series) + rs = ts.at_time("16:00") + assert len(rs) == 0 + + @pytest.mark.parametrize( + "hour", ["1:00", "1:00AM", time(1), time(1, tzinfo=pytz.UTC)] + ) + def test_at_time_errors(self, hour): + # GH#24043 + dti = date_range("2018", periods=3, freq="h") + df = DataFrame(list(range(len(dti))), index=dti) + if getattr(hour, "tzinfo", None) is None: + result = df.at_time(hour) + expected = df.iloc[1:2] + tm.assert_frame_equal(result, expected) + else: + with pytest.raises(ValueError, match="Index must be timezone"): + df.at_time(hour) + + def test_at_time_tz(self): + # GH#24043 + dti = date_range("2018", periods=3, freq="h", tz="US/Pacific") + df = DataFrame(list(range(len(dti))), index=dti) + result = df.at_time(time(4, tzinfo=pytz.timezone("US/Eastern"))) + expected = df.iloc[1:2] + tm.assert_frame_equal(result, expected) + + def test_at_time_raises(self, frame_or_series): + # GH#20725 + obj = DataFrame([[1, 2, 3], [4, 5, 6]]) + obj = tm.get_obj(obj, frame_or_series) + msg = "Index must be DatetimeIndex" + with pytest.raises(TypeError, match=msg): # index is not a DatetimeIndex + obj.at_time("00:00") + + @pytest.mark.parametrize("axis", ["index", "columns", 0, 1]) + def test_at_time_axis(self, axis): + # issue 8839 + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame(np.random.default_rng(2).standard_normal((len(rng), len(rng)))) + ts.index, ts.columns = rng, rng + + indices = rng[(rng.hour == 9) & (rng.minute == 30) & (rng.second == 0)] + + if axis in ["index", 0]: + expected = ts.loc[indices, :] + elif axis in ["columns", 1]: + expected = ts.loc[:, indices] + + result = ts.at_time("9:30", axis=axis) + + # Without clearing freq, result has freq 1440T and expected 5T + result.index = result.index._with_freq(None) + expected.index = expected.index._with_freq(None) + tm.assert_frame_equal(result, expected) + + def test_at_time_datetimeindex(self): + index = date_range("2012-01-01", "2012-01-05", freq="30min") + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 5)), index=index + ) + akey = time(12, 0, 0) + ainds = [24, 72, 120, 168] + + result = df.at_time(akey) + expected = df.loc[akey] + expected2 = df.iloc[ainds] + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result, expected2) + assert len(result) == 4 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_between_time.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_between_time.py new file mode 100644 index 0000000000000000000000000000000000000000..74d6291707e19d2b6536f4a5b758302ce3aa8e2b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_between_time.py @@ -0,0 +1,227 @@ +from datetime import ( + datetime, + time, +) + +import numpy as np +import pytest + +from pandas._libs.tslibs import timezones +import pandas.util._test_decorators as td + +from pandas import ( + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +class TestBetweenTime: + @td.skip_if_not_us_locale + def test_between_time_formats(self, frame_or_series): + # GH#11818 + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 2)), index=rng + ) + ts = tm.get_obj(ts, frame_or_series) + + strings = [ + ("2:00", "2:30"), + ("0200", "0230"), + ("2:00am", "2:30am"), + ("0200am", "0230am"), + ("2:00:00", "2:30:00"), + ("020000", "023000"), + ("2:00:00am", "2:30:00am"), + ("020000am", "023000am"), + ] + expected_length = 28 + + for time_string in strings: + assert len(ts.between_time(*time_string)) == expected_length + + @pytest.mark.parametrize("tzstr", ["US/Eastern", "dateutil/US/Eastern"]) + def test_localized_between_time(self, tzstr, frame_or_series): + tz = timezones.maybe_get_tz(tzstr) + + rng = date_range("4/16/2012", "5/1/2012", freq="h") + ts = Series(np.random.default_rng(2).standard_normal(len(rng)), index=rng) + if frame_or_series is DataFrame: + ts = ts.to_frame() + + ts_local = ts.tz_localize(tzstr) + + t1, t2 = time(10, 0), time(11, 0) + result = ts_local.between_time(t1, t2) + expected = ts.between_time(t1, t2).tz_localize(tzstr) + tm.assert_equal(result, expected) + assert timezones.tz_compare(result.index.tz, tz) + + def test_between_time_types(self, frame_or_series): + # GH11818 + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + obj = DataFrame({"A": 0}, index=rng) + obj = tm.get_obj(obj, frame_or_series) + + msg = r"Cannot convert arg \[datetime\.datetime\(2010, 1, 2, 1, 0\)\] to a time" + with pytest.raises(ValueError, match=msg): + obj.between_time(datetime(2010, 1, 2, 1), datetime(2010, 1, 2, 5)) + + def test_between_time(self, inclusive_endpoints_fixture, frame_or_series): + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 2)), index=rng + ) + ts = tm.get_obj(ts, frame_or_series) + + stime = time(0, 0) + etime = time(1, 0) + inclusive = inclusive_endpoints_fixture + + filtered = ts.between_time(stime, etime, inclusive=inclusive) + exp_len = 13 * 4 + 1 + + if inclusive in ["right", "neither"]: + exp_len -= 5 + if inclusive in ["left", "neither"]: + exp_len -= 4 + + assert len(filtered) == exp_len + for rs in filtered.index: + t = rs.time() + if inclusive in ["left", "both"]: + assert t >= stime + else: + assert t > stime + + if inclusive in ["right", "both"]: + assert t <= etime + else: + assert t < etime + + result = ts.between_time("00:00", "01:00") + expected = ts.between_time(stime, etime) + tm.assert_equal(result, expected) + + # across midnight + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 2)), index=rng + ) + ts = tm.get_obj(ts, frame_or_series) + stime = time(22, 0) + etime = time(9, 0) + + filtered = ts.between_time(stime, etime, inclusive=inclusive) + exp_len = (12 * 11 + 1) * 4 + 1 + if inclusive in ["right", "neither"]: + exp_len -= 4 + if inclusive in ["left", "neither"]: + exp_len -= 4 + + assert len(filtered) == exp_len + for rs in filtered.index: + t = rs.time() + if inclusive in ["left", "both"]: + assert (t >= stime) or (t <= etime) + else: + assert (t > stime) or (t <= etime) + + if inclusive in ["right", "both"]: + assert (t <= etime) or (t >= stime) + else: + assert (t < etime) or (t >= stime) + + def test_between_time_raises(self, frame_or_series): + # GH#20725 + obj = DataFrame([[1, 2, 3], [4, 5, 6]]) + obj = tm.get_obj(obj, frame_or_series) + + msg = "Index must be DatetimeIndex" + with pytest.raises(TypeError, match=msg): # index is not a DatetimeIndex + obj.between_time(start_time="00:00", end_time="12:00") + + def test_between_time_axis(self, frame_or_series): + # GH#8839 + rng = date_range("1/1/2000", periods=100, freq="10min") + ts = Series(np.random.default_rng(2).standard_normal(len(rng)), index=rng) + if frame_or_series is DataFrame: + ts = ts.to_frame() + + stime, etime = ("08:00:00", "09:00:00") + expected_length = 7 + + assert len(ts.between_time(stime, etime)) == expected_length + assert len(ts.between_time(stime, etime, axis=0)) == expected_length + msg = f"No axis named {ts.ndim} for object type {type(ts).__name__}" + with pytest.raises(ValueError, match=msg): + ts.between_time(stime, etime, axis=ts.ndim) + + def test_between_time_axis_aliases(self, axis): + # GH#8839 + rng = date_range("1/1/2000", periods=100, freq="10min") + ts = DataFrame(np.random.default_rng(2).standard_normal((len(rng), len(rng)))) + stime, etime = ("08:00:00", "09:00:00") + exp_len = 7 + + if axis in ["index", 0]: + ts.index = rng + assert len(ts.between_time(stime, etime)) == exp_len + assert len(ts.between_time(stime, etime, axis=0)) == exp_len + + if axis in ["columns", 1]: + ts.columns = rng + selected = ts.between_time(stime, etime, axis=1).columns + assert len(selected) == exp_len + + def test_between_time_axis_raises(self, axis): + # issue 8839 + rng = date_range("1/1/2000", periods=100, freq="10min") + mask = np.arange(0, len(rng)) + rand_data = np.random.default_rng(2).standard_normal((len(rng), len(rng))) + ts = DataFrame(rand_data, index=rng, columns=rng) + stime, etime = ("08:00:00", "09:00:00") + + msg = "Index must be DatetimeIndex" + if axis in ["columns", 1]: + ts.index = mask + with pytest.raises(TypeError, match=msg): + ts.between_time(stime, etime) + with pytest.raises(TypeError, match=msg): + ts.between_time(stime, etime, axis=0) + + if axis in ["index", 0]: + ts.columns = mask + with pytest.raises(TypeError, match=msg): + ts.between_time(stime, etime, axis=1) + + def test_between_time_datetimeindex(self): + index = date_range("2012-01-01", "2012-01-05", freq="30min") + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 5)), index=index + ) + bkey = slice(time(13, 0, 0), time(14, 0, 0)) + binds = [26, 27, 28, 74, 75, 76, 122, 123, 124, 170, 171, 172] + + result = df.between_time(bkey.start, bkey.stop) + expected = df.loc[bkey] + expected2 = df.iloc[binds] + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result, expected2) + assert len(result) == 12 + + def test_between_time_incorrect_arg_inclusive(self): + # GH40245 + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + ts = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 2)), index=rng + ) + + stime = time(0, 0) + etime = time(1, 0) + inclusive = "bad_string" + msg = "Inclusive has to be either 'both', 'neither', 'left' or 'right'" + with pytest.raises(ValueError, match=msg): + ts.between_time(stime, etime, inclusive=inclusive) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_clip.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_clip.py new file mode 100644 index 0000000000000000000000000000000000000000..f783a388d75179e9b68e373da65218dfffb04b55 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_clip.py @@ -0,0 +1,199 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +class TestDataFrameClip: + def test_clip(self, float_frame): + median = float_frame.median().median() + original = float_frame.copy() + + double = float_frame.clip(upper=median, lower=median) + assert not (double.values != median).any() + + # Verify that float_frame was not changed inplace + assert (float_frame.values == original.values).all() + + def test_inplace_clip(self, float_frame): + # GH#15388 + median = float_frame.median().median() + frame_copy = float_frame.copy() + + return_value = frame_copy.clip(upper=median, lower=median, inplace=True) + assert return_value is None + assert not (frame_copy.values != median).any() + + def test_dataframe_clip(self): + # GH#2747 + df = DataFrame(np.random.default_rng(2).standard_normal((1000, 2))) + + for lb, ub in [(-1, 1), (1, -1)]: + clipped_df = df.clip(lb, ub) + + lb, ub = min(lb, ub), max(ub, lb) + lb_mask = df.values <= lb + ub_mask = df.values >= ub + mask = ~lb_mask & ~ub_mask + assert (clipped_df.values[lb_mask] == lb).all() + assert (clipped_df.values[ub_mask] == ub).all() + assert (clipped_df.values[mask] == df.values[mask]).all() + + def test_clip_mixed_numeric(self): + # clip on mixed integer or floats + # GH#24162, clipping now preserves numeric types per column + df = DataFrame({"A": [1, 2, 3], "B": [1.0, np.nan, 3.0]}) + result = df.clip(1, 2) + expected = DataFrame({"A": [1, 2, 2], "B": [1.0, np.nan, 2.0]}) + tm.assert_frame_equal(result, expected) + + df = DataFrame([[1, 2, 3.4], [3, 4, 5.6]], columns=["foo", "bar", "baz"]) + expected = df.dtypes + result = df.clip(upper=3).dtypes + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("inplace", [True, False]) + def test_clip_against_series(self, inplace): + # GH#6966 + + df = DataFrame(np.random.default_rng(2).standard_normal((1000, 2))) + lb = Series(np.random.default_rng(2).standard_normal(1000)) + ub = lb + 1 + + original = df.copy() + clipped_df = df.clip(lb, ub, axis=0, inplace=inplace) + + if inplace: + clipped_df = df + + for i in range(2): + lb_mask = original.iloc[:, i] <= lb + ub_mask = original.iloc[:, i] >= ub + mask = ~lb_mask & ~ub_mask + + result = clipped_df.loc[lb_mask, i] + tm.assert_series_equal(result, lb[lb_mask], check_names=False) + assert result.name == i + + result = clipped_df.loc[ub_mask, i] + tm.assert_series_equal(result, ub[ub_mask], check_names=False) + assert result.name == i + + tm.assert_series_equal(clipped_df.loc[mask, i], df.loc[mask, i]) + + @pytest.mark.parametrize("inplace", [True, False]) + @pytest.mark.parametrize("lower", [[2, 3, 4], np.asarray([2, 3, 4])]) + @pytest.mark.parametrize( + "axis,res", + [ + (0, [[2.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 7.0, 7.0]]), + (1, [[2.0, 3.0, 4.0], [4.0, 5.0, 6.0], [5.0, 6.0, 7.0]]), + ], + ) + def test_clip_against_list_like(self, inplace, lower, axis, res): + # GH#15390 + arr = np.array([[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]) + + original = DataFrame( + arr, columns=["one", "two", "three"], index=["a", "b", "c"] + ) + + result = original.clip(lower=lower, upper=[5, 6, 7], axis=axis, inplace=inplace) + + expected = DataFrame(res, columns=original.columns, index=original.index) + if inplace: + result = original + tm.assert_frame_equal(result, expected, check_exact=True) + + @pytest.mark.parametrize("axis", [0, 1, None]) + def test_clip_against_frame(self, axis): + df = DataFrame(np.random.default_rng(2).standard_normal((1000, 2))) + lb = DataFrame(np.random.default_rng(2).standard_normal((1000, 2))) + ub = lb + 1 + + clipped_df = df.clip(lb, ub, axis=axis) + + lb_mask = df <= lb + ub_mask = df >= ub + mask = ~lb_mask & ~ub_mask + + tm.assert_frame_equal(clipped_df[lb_mask], lb[lb_mask]) + tm.assert_frame_equal(clipped_df[ub_mask], ub[ub_mask]) + tm.assert_frame_equal(clipped_df[mask], df[mask]) + + def test_clip_against_unordered_columns(self): + # GH#20911 + df1 = DataFrame( + np.random.default_rng(2).standard_normal((1000, 4)), + columns=["A", "B", "C", "D"], + ) + df2 = DataFrame( + np.random.default_rng(2).standard_normal((1000, 4)), + columns=["D", "A", "B", "C"], + ) + df3 = DataFrame(df2.values - 1, columns=["B", "D", "C", "A"]) + result_upper = df1.clip(lower=0, upper=df2) + expected_upper = df1.clip(lower=0, upper=df2[df1.columns]) + result_lower = df1.clip(lower=df3, upper=3) + expected_lower = df1.clip(lower=df3[df1.columns], upper=3) + result_lower_upper = df1.clip(lower=df3, upper=df2) + expected_lower_upper = df1.clip(lower=df3[df1.columns], upper=df2[df1.columns]) + tm.assert_frame_equal(result_upper, expected_upper) + tm.assert_frame_equal(result_lower, expected_lower) + tm.assert_frame_equal(result_lower_upper, expected_lower_upper) + + def test_clip_with_na_args(self, float_frame): + """Should process np.nan argument as None""" + # GH#17276 + tm.assert_frame_equal(float_frame.clip(np.nan), float_frame) + tm.assert_frame_equal(float_frame.clip(upper=np.nan, lower=np.nan), float_frame) + + # GH#19992 and adjusted in GH#40420 + df = DataFrame({"col_0": [1, 2, 3], "col_1": [4, 5, 6], "col_2": [7, 8, 9]}) + + msg = "Downcasting behavior in Series and DataFrame methods 'where'" + # TODO: avoid this warning here? seems like we should never be upcasting + # in the first place? + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.clip(lower=[4, 5, np.nan], axis=0) + expected = DataFrame( + {"col_0": [4, 5, 3], "col_1": [4, 5, 6], "col_2": [7, 8, 9]} + ) + tm.assert_frame_equal(result, expected) + + result = df.clip(lower=[4, 5, np.nan], axis=1) + expected = DataFrame( + {"col_0": [4, 4, 4], "col_1": [5, 5, 6], "col_2": [7, 8, 9]} + ) + tm.assert_frame_equal(result, expected) + + # GH#40420 + data = {"col_0": [9, -3, 0, -1, 5], "col_1": [-2, -7, 6, 8, -5]} + df = DataFrame(data) + t = Series([2, -4, np.nan, 6, 3]) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.clip(lower=t, axis=0) + expected = DataFrame({"col_0": [9, -3, 0, 6, 5], "col_1": [2, -4, 6, 8, 3]}) + tm.assert_frame_equal(result, expected) + + def test_clip_int_data_with_float_bound(self): + # GH51472 + df = DataFrame({"a": [1, 2, 3]}) + result = df.clip(lower=1.5) + expected = DataFrame({"a": [1.5, 2.0, 3.0]}) + tm.assert_frame_equal(result, expected) + + def test_clip_with_list_bound(self): + # GH#54817 + df = DataFrame([1, 5]) + expected = DataFrame([3, 5]) + result = df.clip([3]) + tm.assert_frame_equal(result, expected) + + expected = DataFrame([1, 3]) + result = df.clip(upper=[3]) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine.py new file mode 100644 index 0000000000000000000000000000000000000000..bc6a67e4e1f320dbb71220d33ba03eaf788bcb4b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine.py @@ -0,0 +1,47 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +class TestCombine: + @pytest.mark.parametrize( + "data", + [ + pd.date_range("2000", periods=4), + pd.date_range("2000", periods=4, tz="US/Central"), + pd.period_range("2000", periods=4), + pd.timedelta_range(0, periods=4), + ], + ) + def test_combine_datetlike_udf(self, data): + # GH#23079 + df = pd.DataFrame({"A": data}) + other = df.copy() + df.iloc[1, 0] = None + + def combiner(a, b): + return b + + result = df.combine(other, combiner) + tm.assert_frame_equal(result, other) + + def test_combine_generic(self, float_frame): + df1 = float_frame + df2 = float_frame.loc[float_frame.index[:-5], ["A", "B", "C"]] + + combined = df1.combine(df2, np.add) + combined2 = df2.combine(df1, np.add) + assert combined["D"].isna().all() + assert combined2["D"].isna().all() + + chunk = combined.loc[combined.index[:-5], ["A", "B", "C"]] + chunk2 = combined2.loc[combined2.index[:-5], ["A", "B", "C"]] + + exp = ( + float_frame.loc[float_frame.index[:-5], ["A", "B", "C"]].reindex_like(chunk) + * 2 + ) + tm.assert_frame_equal(chunk, exp) + tm.assert_frame_equal(chunk2, exp) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine_first.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine_first.py new file mode 100644 index 0000000000000000000000000000000000000000..8aeab5dacd8b4aeb96ef5b91ea0de34c485eab2c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_combine_first.py @@ -0,0 +1,556 @@ +from datetime import datetime + +import numpy as np +import pytest + +from pandas.core.dtypes.cast import find_common_type +from pandas.core.dtypes.common import is_dtype_equal + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm + + +class TestDataFrameCombineFirst: + def test_combine_first_mixed(self): + a = Series(["a", "b"], index=range(2)) + b = Series(range(2), index=range(2)) + f = DataFrame({"A": a, "B": b}) + + a = Series(["a", "b"], index=range(5, 7)) + b = Series(range(2), index=range(5, 7)) + g = DataFrame({"A": a, "B": b}) + + exp = DataFrame({"A": list("abab"), "B": [0, 1, 0, 1]}, index=[0, 1, 5, 6]) + combined = f.combine_first(g) + tm.assert_frame_equal(combined, exp) + + def test_combine_first(self, float_frame, using_infer_string): + # disjoint + head, tail = float_frame[:5], float_frame[5:] + + combined = head.combine_first(tail) + reordered_frame = float_frame.reindex(combined.index) + tm.assert_frame_equal(combined, reordered_frame) + tm.assert_index_equal(combined.columns, float_frame.columns) + tm.assert_series_equal(combined["A"], reordered_frame["A"]) + + # same index + fcopy = float_frame.copy() + fcopy["A"] = 1 + del fcopy["C"] + + fcopy2 = float_frame.copy() + fcopy2["B"] = 0 + del fcopy2["D"] + + combined = fcopy.combine_first(fcopy2) + + assert (combined["A"] == 1).all() + tm.assert_series_equal(combined["B"], fcopy["B"]) + tm.assert_series_equal(combined["C"], fcopy2["C"]) + tm.assert_series_equal(combined["D"], fcopy["D"]) + + # overlap + head, tail = reordered_frame[:10].copy(), reordered_frame + head["A"] = 1 + + combined = head.combine_first(tail) + assert (combined["A"][:10] == 1).all() + + # reverse overlap + tail.iloc[:10, tail.columns.get_loc("A")] = 0 + combined = tail.combine_first(head) + assert (combined["A"][:10] == 0).all() + + # no overlap + f = float_frame[:10] + g = float_frame[10:] + combined = f.combine_first(g) + tm.assert_series_equal(combined["A"].reindex(f.index), f["A"]) + tm.assert_series_equal(combined["A"].reindex(g.index), g["A"]) + + # corner cases + warning = FutureWarning if using_infer_string else None + with tm.assert_produces_warning(warning, match="empty entries"): + comb = float_frame.combine_first(DataFrame()) + tm.assert_frame_equal(comb, float_frame) + + comb = DataFrame().combine_first(float_frame) + tm.assert_frame_equal(comb, float_frame.sort_index()) + + comb = float_frame.combine_first(DataFrame(index=["faz", "boo"])) + assert "faz" in comb.index + + # #2525 + df = DataFrame({"a": [1]}, index=[datetime(2012, 1, 1)]) + df2 = DataFrame(columns=["b"]) + result = df.combine_first(df2) + assert "b" in result + + def test_combine_first_mixed_bug(self): + idx = Index(["a", "b", "c", "e"]) + ser1 = Series([5.0, -9.0, 4.0, 100.0], index=idx) + ser2 = Series(["a", "b", "c", "e"], index=idx) + ser3 = Series([12, 4, 5, 97], index=idx) + + frame1 = DataFrame({"col0": ser1, "col2": ser2, "col3": ser3}) + + idx = Index(["a", "b", "c", "f"]) + ser1 = Series([5.0, -9.0, 4.0, 100.0], index=idx) + ser2 = Series(["a", "b", "c", "f"], index=idx) + ser3 = Series([12, 4, 5, 97], index=idx) + + frame2 = DataFrame({"col1": ser1, "col2": ser2, "col5": ser3}) + + combined = frame1.combine_first(frame2) + assert len(combined.columns) == 5 + + def test_combine_first_same_as_in_update(self): + # gh 3016 (same as in update) + df = DataFrame( + [[1.0, 2.0, False, True], [4.0, 5.0, True, False]], + columns=["A", "B", "bool1", "bool2"], + ) + + other = DataFrame([[45, 45]], index=[0], columns=["A", "B"]) + result = df.combine_first(other) + tm.assert_frame_equal(result, df) + + df.loc[0, "A"] = np.nan + result = df.combine_first(other) + df.loc[0, "A"] = 45 + tm.assert_frame_equal(result, df) + + def test_combine_first_doc_example(self): + # doc example + df1 = DataFrame( + {"A": [1.0, np.nan, 3.0, 5.0, np.nan], "B": [np.nan, 2.0, 3.0, np.nan, 6.0]} + ) + + df2 = DataFrame( + { + "A": [5.0, 2.0, 4.0, np.nan, 3.0, 7.0], + "B": [np.nan, np.nan, 3.0, 4.0, 6.0, 8.0], + } + ) + + result = df1.combine_first(df2) + expected = DataFrame({"A": [1, 2, 3, 5, 3, 7.0], "B": [np.nan, 2, 3, 4, 6, 8]}) + tm.assert_frame_equal(result, expected) + + def test_combine_first_return_obj_type_with_bools(self): + # GH3552 + + df1 = DataFrame( + [[np.nan, 3.0, True], [-4.6, np.nan, True], [np.nan, 7.0, False]] + ) + df2 = DataFrame([[-42.6, np.nan, True], [-5.0, 1.6, False]], index=[1, 2]) + + expected = Series([True, True, False], name=2, dtype=bool) + + result_12 = df1.combine_first(df2)[2] + tm.assert_series_equal(result_12, expected) + + result_21 = df2.combine_first(df1)[2] + tm.assert_series_equal(result_21, expected) + + @pytest.mark.parametrize( + "data1, data2, data_expected", + ( + ( + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + [pd.NaT, pd.NaT, pd.NaT], + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + ), + ( + [pd.NaT, pd.NaT, pd.NaT], + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + ), + ( + [datetime(2000, 1, 2), pd.NaT, pd.NaT], + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + [datetime(2000, 1, 2), datetime(2000, 1, 2), datetime(2000, 1, 3)], + ), + ( + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + [datetime(2000, 1, 2), pd.NaT, pd.NaT], + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + ), + ), + ) + def test_combine_first_convert_datatime_correctly( + self, data1, data2, data_expected + ): + # GH 3593 + + df1, df2 = DataFrame({"a": data1}), DataFrame({"a": data2}) + result = df1.combine_first(df2) + expected = DataFrame({"a": data_expected}) + tm.assert_frame_equal(result, expected) + + def test_combine_first_align_nan(self): + # GH 7509 (not fixed) + dfa = DataFrame([[pd.Timestamp("2011-01-01"), 2]], columns=["a", "b"]) + dfb = DataFrame([[4], [5]], columns=["b"]) + assert dfa["a"].dtype == "datetime64[ns]" + assert dfa["b"].dtype == "int64" + + res = dfa.combine_first(dfb) + exp = DataFrame( + {"a": [pd.Timestamp("2011-01-01"), pd.NaT], "b": [2, 5]}, + columns=["a", "b"], + ) + tm.assert_frame_equal(res, exp) + assert res["a"].dtype == "datetime64[ns]" + # TODO: this must be int64 + assert res["b"].dtype == "int64" + + res = dfa.iloc[:0].combine_first(dfb) + exp = DataFrame({"a": [np.nan, np.nan], "b": [4, 5]}, columns=["a", "b"]) + tm.assert_frame_equal(res, exp) + # TODO: this must be datetime64 + assert res["a"].dtype == "float64" + # TODO: this must be int64 + assert res["b"].dtype == "int64" + + def test_combine_first_timezone(self, unit): + # see gh-7630 + data1 = pd.to_datetime("20100101 01:01").tz_localize("UTC").as_unit(unit) + df1 = DataFrame( + columns=["UTCdatetime", "abc"], + data=data1, + index=pd.date_range("20140627", periods=1), + ) + data2 = pd.to_datetime("20121212 12:12").tz_localize("UTC").as_unit(unit) + df2 = DataFrame( + columns=["UTCdatetime", "xyz"], + data=data2, + index=pd.date_range("20140628", periods=1), + ) + res = df2[["UTCdatetime"]].combine_first(df1) + exp = DataFrame( + { + "UTCdatetime": [ + pd.Timestamp("2010-01-01 01:01", tz="UTC"), + pd.Timestamp("2012-12-12 12:12", tz="UTC"), + ], + "abc": [pd.Timestamp("2010-01-01 01:01:00", tz="UTC"), pd.NaT], + }, + columns=["UTCdatetime", "abc"], + index=pd.date_range("20140627", periods=2, freq="D"), + dtype=f"datetime64[{unit}, UTC]", + ) + assert res["UTCdatetime"].dtype == f"datetime64[{unit}, UTC]" + assert res["abc"].dtype == f"datetime64[{unit}, UTC]" + + tm.assert_frame_equal(res, exp) + + def test_combine_first_timezone2(self, unit): + # see gh-10567 + dts1 = pd.date_range("2015-01-01", "2015-01-05", tz="UTC", unit=unit) + df1 = DataFrame({"DATE": dts1}) + dts2 = pd.date_range("2015-01-03", "2015-01-05", tz="UTC", unit=unit) + df2 = DataFrame({"DATE": dts2}) + + res = df1.combine_first(df2) + tm.assert_frame_equal(res, df1) + assert res["DATE"].dtype == f"datetime64[{unit}, UTC]" + + def test_combine_first_timezone3(self, unit): + dts1 = pd.DatetimeIndex( + ["2011-01-01", "NaT", "2011-01-03", "2011-01-04"], tz="US/Eastern" + ).as_unit(unit) + df1 = DataFrame({"DATE": dts1}, index=[1, 3, 5, 7]) + dts2 = pd.DatetimeIndex( + ["2012-01-01", "2012-01-02", "2012-01-03"], tz="US/Eastern" + ).as_unit(unit) + df2 = DataFrame({"DATE": dts2}, index=[2, 4, 5]) + + res = df1.combine_first(df2) + exp_dts = pd.DatetimeIndex( + [ + "2011-01-01", + "2012-01-01", + "NaT", + "2012-01-02", + "2011-01-03", + "2011-01-04", + ], + tz="US/Eastern", + ).as_unit(unit) + exp = DataFrame({"DATE": exp_dts}, index=[1, 2, 3, 4, 5, 7]) + tm.assert_frame_equal(res, exp) + + # FIXME: parametrizing over unit breaks on non-nano + def test_combine_first_timezone4(self): + # different tz + dts1 = pd.date_range("2015-01-01", "2015-01-05", tz="US/Eastern") + df1 = DataFrame({"DATE": dts1}) + dts2 = pd.date_range("2015-01-03", "2015-01-05") + df2 = DataFrame({"DATE": dts2}) + + # if df1 doesn't have NaN, keep its dtype + res = df1.combine_first(df2) + tm.assert_frame_equal(res, df1) + assert res["DATE"].dtype == "datetime64[ns, US/Eastern]" + + def test_combine_first_timezone5(self, unit): + dts1 = pd.date_range("2015-01-01", "2015-01-02", tz="US/Eastern", unit=unit) + df1 = DataFrame({"DATE": dts1}) + dts2 = pd.date_range("2015-01-01", "2015-01-03", unit=unit) + df2 = DataFrame({"DATE": dts2}) + + res = df1.combine_first(df2) + exp_dts = [ + pd.Timestamp("2015-01-01", tz="US/Eastern"), + pd.Timestamp("2015-01-02", tz="US/Eastern"), + pd.Timestamp("2015-01-03"), + ] + exp = DataFrame({"DATE": exp_dts}) + tm.assert_frame_equal(res, exp) + assert res["DATE"].dtype == "object" + + def test_combine_first_timedelta(self): + data1 = pd.TimedeltaIndex(["1 day", "NaT", "3 day", "4day"]) + df1 = DataFrame({"TD": data1}, index=[1, 3, 5, 7]) + data2 = pd.TimedeltaIndex(["10 day", "11 day", "12 day"]) + df2 = DataFrame({"TD": data2}, index=[2, 4, 5]) + + res = df1.combine_first(df2) + exp_dts = pd.TimedeltaIndex( + ["1 day", "10 day", "NaT", "11 day", "3 day", "4 day"] + ) + exp = DataFrame({"TD": exp_dts}, index=[1, 2, 3, 4, 5, 7]) + tm.assert_frame_equal(res, exp) + assert res["TD"].dtype == "timedelta64[ns]" + + def test_combine_first_period(self): + data1 = pd.PeriodIndex(["2011-01", "NaT", "2011-03", "2011-04"], freq="M") + df1 = DataFrame({"P": data1}, index=[1, 3, 5, 7]) + data2 = pd.PeriodIndex(["2012-01-01", "2012-02", "2012-03"], freq="M") + df2 = DataFrame({"P": data2}, index=[2, 4, 5]) + + res = df1.combine_first(df2) + exp_dts = pd.PeriodIndex( + ["2011-01", "2012-01", "NaT", "2012-02", "2011-03", "2011-04"], freq="M" + ) + exp = DataFrame({"P": exp_dts}, index=[1, 2, 3, 4, 5, 7]) + tm.assert_frame_equal(res, exp) + assert res["P"].dtype == data1.dtype + + # different freq + dts2 = pd.PeriodIndex(["2012-01-01", "2012-01-02", "2012-01-03"], freq="D") + df2 = DataFrame({"P": dts2}, index=[2, 4, 5]) + + res = df1.combine_first(df2) + exp_dts = [ + pd.Period("2011-01", freq="M"), + pd.Period("2012-01-01", freq="D"), + pd.NaT, + pd.Period("2012-01-02", freq="D"), + pd.Period("2011-03", freq="M"), + pd.Period("2011-04", freq="M"), + ] + exp = DataFrame({"P": exp_dts}, index=[1, 2, 3, 4, 5, 7]) + tm.assert_frame_equal(res, exp) + assert res["P"].dtype == "object" + + def test_combine_first_int(self): + # GH14687 - integer series that do no align exactly + + df1 = DataFrame({"a": [0, 1, 3, 5]}, dtype="int64") + df2 = DataFrame({"a": [1, 4]}, dtype="int64") + + result_12 = df1.combine_first(df2) + expected_12 = DataFrame({"a": [0, 1, 3, 5]}) + tm.assert_frame_equal(result_12, expected_12) + + result_21 = df2.combine_first(df1) + expected_21 = DataFrame({"a": [1, 4, 3, 5]}) + tm.assert_frame_equal(result_21, expected_21) + + @pytest.mark.parametrize("val", [1, 1.0]) + def test_combine_first_with_asymmetric_other(self, val): + # see gh-20699 + df1 = DataFrame({"isNum": [val]}) + df2 = DataFrame({"isBool": [True]}) + + res = df1.combine_first(df2) + exp = DataFrame({"isBool": [True], "isNum": [val]}) + + tm.assert_frame_equal(res, exp) + + def test_combine_first_string_dtype_only_na(self, nullable_string_dtype): + # GH: 37519 + df = DataFrame( + {"a": ["962", "85"], "b": [pd.NA] * 2}, dtype=nullable_string_dtype + ) + df2 = DataFrame({"a": ["85"], "b": [pd.NA]}, dtype=nullable_string_dtype) + df.set_index(["a", "b"], inplace=True) + df2.set_index(["a", "b"], inplace=True) + result = df.combine_first(df2) + expected = DataFrame( + {"a": ["962", "85"], "b": [pd.NA] * 2}, dtype=nullable_string_dtype + ).set_index(["a", "b"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "scalar1, scalar2", + [ + (datetime(2020, 1, 1), datetime(2020, 1, 2)), + (pd.Period("2020-01-01", "D"), pd.Period("2020-01-02", "D")), + (pd.Timedelta("89 days"), pd.Timedelta("60 min")), + (pd.Interval(left=0, right=1), pd.Interval(left=2, right=3, closed="left")), + ], +) +def test_combine_first_timestamp_bug(scalar1, scalar2, nulls_fixture): + # GH28481 + na_value = nulls_fixture + + frame = DataFrame([[na_value, na_value]], columns=["a", "b"]) + other = DataFrame([[scalar1, scalar2]], columns=["b", "c"]) + + common_dtype = find_common_type([frame.dtypes["b"], other.dtypes["b"]]) + + if is_dtype_equal(common_dtype, "object") or frame.dtypes["b"] == other.dtypes["b"]: + val = scalar1 + else: + val = na_value + + result = frame.combine_first(other) + + expected = DataFrame([[na_value, val, scalar2]], columns=["a", "b", "c"]) + + expected["b"] = expected["b"].astype(common_dtype) + + tm.assert_frame_equal(result, expected) + + +def test_combine_first_timestamp_bug_NaT(): + # GH28481 + frame = DataFrame([[pd.NaT, pd.NaT]], columns=["a", "b"]) + other = DataFrame( + [[datetime(2020, 1, 1), datetime(2020, 1, 2)]], columns=["b", "c"] + ) + + result = frame.combine_first(other) + expected = DataFrame( + [[pd.NaT, datetime(2020, 1, 1), datetime(2020, 1, 2)]], columns=["a", "b", "c"] + ) + + tm.assert_frame_equal(result, expected) + + +def test_combine_first_with_nan_multiindex(): + # gh-36562 + + mi1 = MultiIndex.from_arrays( + [["b", "b", "c", "a", "b", np.nan], [1, 2, 3, 4, 5, 6]], names=["a", "b"] + ) + df = DataFrame({"c": [1, 1, 1, 1, 1, 1]}, index=mi1) + mi2 = MultiIndex.from_arrays( + [["a", "b", "c", "a", "b", "d"], [1, 1, 1, 1, 1, 1]], names=["a", "b"] + ) + s = Series([1, 2, 3, 4, 5, 6], index=mi2) + res = df.combine_first(DataFrame({"d": s})) + mi_expected = MultiIndex.from_arrays( + [ + ["a", "a", "a", "b", "b", "b", "b", "c", "c", "d", np.nan], + [1, 1, 4, 1, 1, 2, 5, 1, 3, 1, 6], + ], + names=["a", "b"], + ) + expected = DataFrame( + { + "c": [np.nan, np.nan, 1, 1, 1, 1, 1, np.nan, 1, np.nan, 1], + "d": [1.0, 4.0, np.nan, 2.0, 5.0, np.nan, np.nan, 3.0, np.nan, 6.0, np.nan], + }, + index=mi_expected, + ) + tm.assert_frame_equal(res, expected) + + +def test_combine_preserve_dtypes(): + # GH7509 + a_column = Series(["a", "b"], index=range(2)) + b_column = Series(range(2), index=range(2)) + df1 = DataFrame({"A": a_column, "B": b_column}) + + c_column = Series(["a", "b"], index=range(5, 7)) + b_column = Series(range(-1, 1), index=range(5, 7)) + df2 = DataFrame({"B": b_column, "C": c_column}) + + expected = DataFrame( + { + "A": ["a", "b", np.nan, np.nan], + "B": [0, 1, -1, 0], + "C": [np.nan, np.nan, "a", "b"], + }, + index=[0, 1, 5, 6], + ) + combined = df1.combine_first(df2) + tm.assert_frame_equal(combined, expected) + + +def test_combine_first_duplicates_rows_for_nan_index_values(): + # GH39881 + df1 = DataFrame( + {"x": [9, 10, 11]}, + index=MultiIndex.from_arrays([[1, 2, 3], [np.nan, 5, 6]], names=["a", "b"]), + ) + + df2 = DataFrame( + {"y": [12, 13, 14]}, + index=MultiIndex.from_arrays([[1, 2, 4], [np.nan, 5, 7]], names=["a", "b"]), + ) + + expected = DataFrame( + { + "x": [9.0, 10.0, 11.0, np.nan], + "y": [12.0, 13.0, np.nan, 14.0], + }, + index=MultiIndex.from_arrays( + [[1, 2, 3, 4], [np.nan, 5, 6, 7]], names=["a", "b"] + ), + ) + combined = df1.combine_first(df2) + tm.assert_frame_equal(combined, expected) + + +def test_combine_first_int64_not_cast_to_float64(): + # GH 28613 + df_1 = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}) + df_2 = DataFrame({"A": [1, 20, 30], "B": [40, 50, 60], "C": [12, 34, 65]}) + result = df_1.combine_first(df_2) + expected = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [12, 34, 65]}) + tm.assert_frame_equal(result, expected) + + +def test_midx_losing_dtype(): + # GH#49830 + midx = MultiIndex.from_arrays([[0, 0], [np.nan, np.nan]]) + midx2 = MultiIndex.from_arrays([[1, 1], [np.nan, np.nan]]) + df1 = DataFrame({"a": [None, 4]}, index=midx) + df2 = DataFrame({"a": [3, 3]}, index=midx2) + result = df1.combine_first(df2) + expected_midx = MultiIndex.from_arrays( + [[0, 0, 1, 1], [np.nan, np.nan, np.nan, np.nan]] + ) + expected = DataFrame({"a": [np.nan, 4, 3, 3]}, index=expected_midx) + tm.assert_frame_equal(result, expected) + + +def test_combine_first_empty_columns(): + left = DataFrame(columns=["a", "b"]) + right = DataFrame(columns=["a", "c"]) + result = left.combine_first(right) + expected = DataFrame(columns=["a", "b", "c"]) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_compare.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_compare.py new file mode 100644 index 0000000000000000000000000000000000000000..a4d0a7068a3a650beb11529065d0b62ab702143b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_compare.py @@ -0,0 +1,305 @@ +import numpy as np +import pytest + +from pandas.compat.numpy import np_version_gte1p25 + +import pandas as pd +import pandas._testing as tm + + +@pytest.mark.parametrize("align_axis", [0, 1, "index", "columns"]) +def test_compare_axis(align_axis): + # GH#30429 + df = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + columns=["col1", "col2", "col3"], + ) + df2 = df.copy() + df2.loc[0, "col1"] = "c" + df2.loc[2, "col3"] = 4.0 + + result = df.compare(df2, align_axis=align_axis) + + if align_axis in (1, "columns"): + indices = pd.Index([0, 2]) + columns = pd.MultiIndex.from_product([["col1", "col3"], ["self", "other"]]) + expected = pd.DataFrame( + [["a", "c", np.nan, np.nan], [np.nan, np.nan, 3.0, 4.0]], + index=indices, + columns=columns, + ) + else: + indices = pd.MultiIndex.from_product([[0, 2], ["self", "other"]]) + columns = pd.Index(["col1", "col3"]) + expected = pd.DataFrame( + [["a", np.nan], ["c", np.nan], [np.nan, 3.0], [np.nan, 4.0]], + index=indices, + columns=columns, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "keep_shape, keep_equal", + [ + (True, False), + (False, True), + (True, True), + # False, False case is already covered in test_compare_axis + ], +) +def test_compare_various_formats(keep_shape, keep_equal): + df = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + columns=["col1", "col2", "col3"], + ) + df2 = df.copy() + df2.loc[0, "col1"] = "c" + df2.loc[2, "col3"] = 4.0 + + result = df.compare(df2, keep_shape=keep_shape, keep_equal=keep_equal) + + if keep_shape: + indices = pd.Index([0, 1, 2]) + columns = pd.MultiIndex.from_product( + [["col1", "col2", "col3"], ["self", "other"]] + ) + if keep_equal: + expected = pd.DataFrame( + [ + ["a", "c", 1.0, 1.0, 1.0, 1.0], + ["b", "b", 2.0, 2.0, 2.0, 2.0], + ["c", "c", np.nan, np.nan, 3.0, 4.0], + ], + index=indices, + columns=columns, + ) + else: + expected = pd.DataFrame( + [ + ["a", "c", np.nan, np.nan, np.nan, np.nan], + [np.nan, np.nan, np.nan, np.nan, np.nan, np.nan], + [np.nan, np.nan, np.nan, np.nan, 3.0, 4.0], + ], + index=indices, + columns=columns, + ) + else: + indices = pd.Index([0, 2]) + columns = pd.MultiIndex.from_product([["col1", "col3"], ["self", "other"]]) + expected = pd.DataFrame( + [["a", "c", 1.0, 1.0], ["c", "c", 3.0, 4.0]], index=indices, columns=columns + ) + tm.assert_frame_equal(result, expected) + + +def test_compare_with_equal_nulls(): + # We want to make sure two NaNs are considered the same + # and dropped where applicable + df = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + columns=["col1", "col2", "col3"], + ) + df2 = df.copy() + df2.loc[0, "col1"] = "c" + + result = df.compare(df2) + indices = pd.Index([0]) + columns = pd.MultiIndex.from_product([["col1"], ["self", "other"]]) + expected = pd.DataFrame([["a", "c"]], index=indices, columns=columns) + tm.assert_frame_equal(result, expected) + + +def test_compare_with_non_equal_nulls(): + # We want to make sure the relevant NaNs do not get dropped + # even if the entire row or column are NaNs + df = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + columns=["col1", "col2", "col3"], + ) + df2 = df.copy() + df2.loc[0, "col1"] = "c" + df2.loc[2, "col3"] = np.nan + + result = df.compare(df2) + + indices = pd.Index([0, 2]) + columns = pd.MultiIndex.from_product([["col1", "col3"], ["self", "other"]]) + expected = pd.DataFrame( + [["a", "c", np.nan, np.nan], [np.nan, np.nan, 3.0, np.nan]], + index=indices, + columns=columns, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("align_axis", [0, 1]) +def test_compare_multi_index(align_axis): + df = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]} + ) + df.columns = pd.MultiIndex.from_arrays([["a", "a", "b"], ["col1", "col2", "col3"]]) + df.index = pd.MultiIndex.from_arrays([["x", "x", "y"], [0, 1, 2]]) + + df2 = df.copy() + df2.iloc[0, 0] = "c" + df2.iloc[2, 2] = 4.0 + + result = df.compare(df2, align_axis=align_axis) + + if align_axis == 0: + indices = pd.MultiIndex.from_arrays( + [["x", "x", "y", "y"], [0, 0, 2, 2], ["self", "other", "self", "other"]] + ) + columns = pd.MultiIndex.from_arrays([["a", "b"], ["col1", "col3"]]) + data = [["a", np.nan], ["c", np.nan], [np.nan, 3.0], [np.nan, 4.0]] + else: + indices = pd.MultiIndex.from_arrays([["x", "y"], [0, 2]]) + columns = pd.MultiIndex.from_arrays( + [ + ["a", "a", "b", "b"], + ["col1", "col1", "col3", "col3"], + ["self", "other", "self", "other"], + ] + ) + data = [["a", "c", np.nan, np.nan], [np.nan, np.nan, 3.0, 4.0]] + + expected = pd.DataFrame(data=data, index=indices, columns=columns) + tm.assert_frame_equal(result, expected) + + +def test_compare_unaligned_objects(): + # test DataFrames with different indices + msg = ( + r"Can only compare identically-labeled \(both index and columns\) DataFrame " + "objects" + ) + with pytest.raises(ValueError, match=msg): + df1 = pd.DataFrame([1, 2, 3], index=["a", "b", "c"]) + df2 = pd.DataFrame([1, 2, 3], index=["a", "b", "d"]) + df1.compare(df2) + + # test DataFrames with different shapes + msg = ( + r"Can only compare identically-labeled \(both index and columns\) DataFrame " + "objects" + ) + with pytest.raises(ValueError, match=msg): + df1 = pd.DataFrame(np.ones((3, 3))) + df2 = pd.DataFrame(np.zeros((2, 1))) + df1.compare(df2) + + +def test_compare_result_names(): + # GH 44354 + df1 = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + ) + df2 = pd.DataFrame( + { + "col1": ["c", "b", "c"], + "col2": [1.0, 2.0, np.nan], + "col3": [1.0, 2.0, np.nan], + }, + ) + result = df1.compare(df2, result_names=("left", "right")) + expected = pd.DataFrame( + { + ("col1", "left"): {0: "a", 2: np.nan}, + ("col1", "right"): {0: "c", 2: np.nan}, + ("col3", "left"): {0: np.nan, 2: 3.0}, + ("col3", "right"): {0: np.nan, 2: np.nan}, + } + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "result_names", + [ + [1, 2], + "HK", + {"2": 2, "3": 3}, + 3, + 3.0, + ], +) +def test_invalid_input_result_names(result_names): + # GH 44354 + df1 = pd.DataFrame( + {"col1": ["a", "b", "c"], "col2": [1.0, 2.0, np.nan], "col3": [1.0, 2.0, 3.0]}, + ) + df2 = pd.DataFrame( + { + "col1": ["c", "b", "c"], + "col2": [1.0, 2.0, np.nan], + "col3": [1.0, 2.0, np.nan], + }, + ) + with pytest.raises( + TypeError, + match=( + f"Passing 'result_names' as a {type(result_names)} is not " + "supported. Provide 'result_names' as a tuple instead." + ), + ): + df1.compare(df2, result_names=result_names) + + +@pytest.mark.parametrize( + "val1,val2", + [(4, pd.NA), (pd.NA, pd.NA), (pd.NA, 4)], +) +def test_compare_ea_and_np_dtype(val1, val2): + # GH 48966 + arr = [4.0, val1] + ser = pd.Series([1, val2], dtype="Int64") + + df1 = pd.DataFrame({"a": arr, "b": [1.0, 2]}) + df2 = pd.DataFrame({"a": ser, "b": [1.0, 2]}) + expected = pd.DataFrame( + { + ("a", "self"): arr, + ("a", "other"): ser, + ("b", "self"): np.nan, + ("b", "other"): np.nan, + } + ) + if val1 is pd.NA and val2 is pd.NA: + # GH#18463 TODO: is this really the desired behavior? + expected.loc[1, ("a", "self")] = np.nan + + if val1 is pd.NA and np_version_gte1p25: + # can't compare with numpy array if it contains pd.NA + with pytest.raises(TypeError, match="boolean value of NA is ambiguous"): + result = df1.compare(df2, keep_shape=True) + else: + result = df1.compare(df2, keep_shape=True) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "df1_val,df2_val,diff_self,diff_other", + [ + (4, 3, 4, 3), + (4, 4, pd.NA, pd.NA), + (4, pd.NA, 4, pd.NA), + (pd.NA, pd.NA, pd.NA, pd.NA), + ], +) +def test_compare_nullable_int64_dtype(df1_val, df2_val, diff_self, diff_other): + # GH 48966 + df1 = pd.DataFrame({"a": pd.Series([df1_val, pd.NA], dtype="Int64"), "b": [1.0, 2]}) + df2 = df1.copy() + df2.loc[0, "a"] = df2_val + + expected = pd.DataFrame( + { + ("a", "self"): pd.Series([diff_self, pd.NA], dtype="Int64"), + ("a", "other"): pd.Series([diff_other, pd.NA], dtype="Int64"), + ("b", "self"): np.nan, + ("b", "other"): np.nan, + } + ) + result = df1.compare(df2, keep_shape=True) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_convert_dtypes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_convert_dtypes.py new file mode 100644 index 0000000000000000000000000000000000000000..e7f6e5d625d3ece20131a5a719bf4f545b21a19b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_convert_dtypes.py @@ -0,0 +1,198 @@ +import datetime + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +class TestConvertDtypes: + @pytest.mark.parametrize( + "convert_integer, expected", [(False, np.dtype("int32")), (True, "Int32")] + ) + def test_convert_dtypes(self, convert_integer, expected, string_storage): + # Specific types are tested in tests/series/test_dtypes.py + # Just check that it works for DataFrame here + df = pd.DataFrame( + { + "a": pd.Series([1, 2, 3], dtype=np.dtype("int32")), + "b": pd.Series(["x", "y", "z"], dtype=np.dtype("O")), + } + ) + with pd.option_context("string_storage", string_storage): + result = df.convert_dtypes(True, True, convert_integer, False) + expected = pd.DataFrame( + { + "a": pd.Series([1, 2, 3], dtype=expected), + "b": pd.Series(["x", "y", "z"], dtype=f"string[{string_storage}]"), + } + ) + tm.assert_frame_equal(result, expected) + + def test_convert_empty(self): + # Empty DataFrame can pass convert_dtypes, see GH#40393 + empty_df = pd.DataFrame() + tm.assert_frame_equal(empty_df, empty_df.convert_dtypes()) + + def test_convert_dtypes_retain_column_names(self): + # GH#41435 + df = pd.DataFrame({"a": [1, 2], "b": [3, 4]}) + df.columns.name = "cols" + + result = df.convert_dtypes() + tm.assert_index_equal(result.columns, df.columns) + assert result.columns.name == "cols" + + def test_pyarrow_dtype_backend(self): + pa = pytest.importorskip("pyarrow") + df = pd.DataFrame( + { + "a": pd.Series([1, 2, 3], dtype=np.dtype("int32")), + "b": pd.Series(["x", "y", None], dtype=np.dtype("O")), + "c": pd.Series([True, False, None], dtype=np.dtype("O")), + "d": pd.Series([np.nan, 100.5, 200], dtype=np.dtype("float")), + "e": pd.Series(pd.date_range("2022", periods=3)), + "f": pd.Series(pd.date_range("2022", periods=3, tz="UTC").as_unit("s")), + "g": pd.Series(pd.timedelta_range("1D", periods=3)), + } + ) + result = df.convert_dtypes(dtype_backend="pyarrow") + expected = pd.DataFrame( + { + "a": pd.arrays.ArrowExtensionArray( + pa.array([1, 2, 3], type=pa.int32()) + ), + "b": pd.arrays.ArrowExtensionArray(pa.array(["x", "y", None])), + "c": pd.arrays.ArrowExtensionArray(pa.array([True, False, None])), + "d": pd.arrays.ArrowExtensionArray(pa.array([None, 100.5, 200.0])), + "e": pd.arrays.ArrowExtensionArray( + pa.array( + [ + datetime.datetime(2022, 1, 1), + datetime.datetime(2022, 1, 2), + datetime.datetime(2022, 1, 3), + ], + type=pa.timestamp(unit="ns"), + ) + ), + "f": pd.arrays.ArrowExtensionArray( + pa.array( + [ + datetime.datetime(2022, 1, 1), + datetime.datetime(2022, 1, 2), + datetime.datetime(2022, 1, 3), + ], + type=pa.timestamp(unit="s", tz="UTC"), + ) + ), + "g": pd.arrays.ArrowExtensionArray( + pa.array( + [ + datetime.timedelta(1), + datetime.timedelta(2), + datetime.timedelta(3), + ], + type=pa.duration("ns"), + ) + ), + } + ) + tm.assert_frame_equal(result, expected) + + def test_pyarrow_dtype_backend_already_pyarrow(self): + pytest.importorskip("pyarrow") + expected = pd.DataFrame([1, 2, 3], dtype="int64[pyarrow]") + result = expected.convert_dtypes(dtype_backend="pyarrow") + tm.assert_frame_equal(result, expected) + + def test_pyarrow_dtype_backend_from_pandas_nullable(self): + pa = pytest.importorskip("pyarrow") + df = pd.DataFrame( + { + "a": pd.Series([1, 2, None], dtype="Int32"), + "b": pd.Series(["x", "y", None], dtype="string[python]"), + "c": pd.Series([True, False, None], dtype="boolean"), + "d": pd.Series([None, 100.5, 200], dtype="Float64"), + } + ) + result = df.convert_dtypes(dtype_backend="pyarrow") + expected = pd.DataFrame( + { + "a": pd.arrays.ArrowExtensionArray( + pa.array([1, 2, None], type=pa.int32()) + ), + "b": pd.arrays.ArrowExtensionArray(pa.array(["x", "y", None])), + "c": pd.arrays.ArrowExtensionArray(pa.array([True, False, None])), + "d": pd.arrays.ArrowExtensionArray(pa.array([None, 100.5, 200.0])), + } + ) + tm.assert_frame_equal(result, expected) + + def test_pyarrow_dtype_empty_object(self): + # GH 50970 + pytest.importorskip("pyarrow") + expected = pd.DataFrame(columns=[0]) + result = expected.convert_dtypes(dtype_backend="pyarrow") + tm.assert_frame_equal(result, expected) + + def test_pyarrow_engine_lines_false(self): + # GH 48893 + df = pd.DataFrame({"a": [1, 2, 3]}) + msg = ( + "dtype_backend numpy is invalid, only 'numpy_nullable' and " + "'pyarrow' are allowed." + ) + with pytest.raises(ValueError, match=msg): + df.convert_dtypes(dtype_backend="numpy") + + def test_pyarrow_backend_no_conversion(self): + # GH#52872 + pytest.importorskip("pyarrow") + df = pd.DataFrame({"a": [1, 2], "b": 1.5, "c": True, "d": "x"}) + expected = df.copy() + result = df.convert_dtypes( + convert_floating=False, + convert_integer=False, + convert_boolean=False, + convert_string=False, + dtype_backend="pyarrow", + ) + tm.assert_frame_equal(result, expected) + + def test_convert_dtypes_pyarrow_to_np_nullable(self): + # GH 53648 + pytest.importorskip("pyarrow") + ser = pd.DataFrame(range(2), dtype="int32[pyarrow]") + result = ser.convert_dtypes(dtype_backend="numpy_nullable") + expected = pd.DataFrame(range(2), dtype="Int32") + tm.assert_frame_equal(result, expected) + + def test_convert_dtypes_pyarrow_timestamp(self): + # GH 54191 + pytest.importorskip("pyarrow") + ser = pd.Series(pd.date_range("2020-01-01", "2020-01-02", freq="1min")) + expected = ser.astype("timestamp[ms][pyarrow]") + result = expected.convert_dtypes(dtype_backend="pyarrow") + tm.assert_series_equal(result, expected) + + def test_convert_dtypes_avoid_block_splitting(self): + # GH#55341 + df = pd.DataFrame({"a": [1, 2, 3], "b": [4, 5, 6], "c": "a"}) + result = df.convert_dtypes(convert_integer=False) + expected = pd.DataFrame( + { + "a": [1, 2, 3], + "b": [4, 5, 6], + "c": pd.Series(["a"] * 3, dtype="string[python]"), + } + ) + tm.assert_frame_equal(result, expected) + assert result._mgr.nblocks == 2 + + def test_convert_dtypes_from_arrow(self): + # GH#56581 + df = pd.DataFrame([["a", datetime.time(18, 12)]], columns=["a", "b"]) + result = df.convert_dtypes() + expected = df.astype({"a": "string[python]"}) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_copy.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_copy.py new file mode 100644 index 0000000000000000000000000000000000000000..e7901ed36310668dc21b96d44fed0686de368b1f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_copy.py @@ -0,0 +1,64 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +from pandas import DataFrame +import pandas._testing as tm + + +class TestCopy: + @pytest.mark.parametrize("attr", ["index", "columns"]) + def test_copy_index_name_checking(self, float_frame, attr): + # don't want to be able to modify the index stored elsewhere after + # making a copy + ind = getattr(float_frame, attr) + ind.name = None + cp = float_frame.copy() + getattr(cp, attr).name = "foo" + assert getattr(float_frame, attr).name is None + + @td.skip_copy_on_write_invalid_test + def test_copy_cache(self): + # GH#31784 _item_cache not cleared on copy causes incorrect reads after updates + df = DataFrame({"a": [1]}) + + df["x"] = [0] + df["a"] + + df.copy() + + df["a"].values[0] = -1 + + tm.assert_frame_equal(df, DataFrame({"a": [-1], "x": [0]})) + + df["y"] = [0] + + assert df["a"].values[0] == -1 + tm.assert_frame_equal(df, DataFrame({"a": [-1], "x": [0], "y": [0]})) + + def test_copy(self, float_frame, float_string_frame): + cop = float_frame.copy() + cop["E"] = cop["A"] + assert "E" not in float_frame + + # copy objects + copy = float_string_frame.copy() + assert copy._mgr is not float_string_frame._mgr + + @td.skip_array_manager_invalid_test + def test_copy_consolidates(self): + # GH#42477 + df = DataFrame( + { + "a": np.random.default_rng(2).integers(0, 100, size=55), + "b": np.random.default_rng(2).integers(0, 100, size=55), + } + ) + + for i in range(10): + df.loc[:, f"n_{i}"] = np.random.default_rng(2).integers(0, 100, size=55) + + assert len(df._mgr.blocks) == 11 + result = df.copy() + assert len(result._mgr.blocks) == 1 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_count.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_count.py new file mode 100644 index 0000000000000000000000000000000000000000..1553a8a86305dd931c5378245daf272472d41b20 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_count.py @@ -0,0 +1,39 @@ +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +class TestDataFrameCount: + def test_count(self): + # corner case + frame = DataFrame() + ct1 = frame.count(1) + assert isinstance(ct1, Series) + + ct2 = frame.count(0) + assert isinstance(ct2, Series) + + # GH#423 + df = DataFrame(index=range(10)) + result = df.count(1) + expected = Series(0, index=df.index) + tm.assert_series_equal(result, expected) + + df = DataFrame(columns=range(10)) + result = df.count(0) + expected = Series(0, index=df.columns) + tm.assert_series_equal(result, expected) + + df = DataFrame() + result = df.count() + expected = Series(dtype="int64") + tm.assert_series_equal(result, expected) + + def test_count_objects(self, float_string_frame): + dm = DataFrame(float_string_frame._series) + df = DataFrame(float_string_frame._series) + + tm.assert_series_equal(dm.count(), df.count()) + tm.assert_series_equal(dm.count(1), df.count(1)) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_cov_corr.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_cov_corr.py new file mode 100644 index 0000000000000000000000000000000000000000..9abf1996c43e6bc262405a7d132986edc3219614 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_cov_corr.py @@ -0,0 +1,470 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + date_range, + isna, +) +import pandas._testing as tm + + +class TestDataFrameCov: + def test_cov(self, float_frame, float_string_frame): + # min_periods no NAs (corner case) + expected = float_frame.cov() + result = float_frame.cov(min_periods=len(float_frame)) + + tm.assert_frame_equal(expected, result) + + result = float_frame.cov(min_periods=len(float_frame) + 1) + assert isna(result.values).all() + + # with NAs + frame = float_frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + frame.iloc[5:10, frame.columns.get_loc("B")] = np.nan + result = frame.cov(min_periods=len(frame) - 8) + expected = frame.cov() + expected.loc["A", "B"] = np.nan + expected.loc["B", "A"] = np.nan + tm.assert_frame_equal(result, expected) + + # regular + result = frame.cov() + expected = frame["A"].cov(frame["C"]) + tm.assert_almost_equal(result["A"]["C"], expected) + + # fails on non-numeric types + with pytest.raises(ValueError, match="could not convert string to float"): + float_string_frame.cov() + result = float_string_frame.cov(numeric_only=True) + expected = float_string_frame.loc[:, ["A", "B", "C", "D"]].cov() + tm.assert_frame_equal(result, expected) + + # Single column frame + df = DataFrame(np.linspace(0.0, 1.0, 10)) + result = df.cov() + expected = DataFrame( + np.cov(df.values.T).reshape((1, 1)), index=df.columns, columns=df.columns + ) + tm.assert_frame_equal(result, expected) + df.loc[0] = np.nan + result = df.cov() + expected = DataFrame( + np.cov(df.values[1:].T).reshape((1, 1)), + index=df.columns, + columns=df.columns, + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("test_ddof", [None, 0, 1, 2, 3]) + def test_cov_ddof(self, test_ddof): + # GH#34611 + np_array1 = np.random.default_rng(2).random(10) + np_array2 = np.random.default_rng(2).random(10) + df = DataFrame({0: np_array1, 1: np_array2}) + result = df.cov(ddof=test_ddof) + expected_np = np.cov(np_array1, np_array2, ddof=test_ddof) + expected = DataFrame(expected_np) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "other_column", [pd.array([1, 2, 3]), np.array([1.0, 2.0, 3.0])] + ) + def test_cov_nullable_integer(self, other_column): + # https://github.com/pandas-dev/pandas/issues/33803 + data = DataFrame({"a": pd.array([1, 2, None]), "b": other_column}) + result = data.cov() + arr = np.array([[0.5, 0.5], [0.5, 1.0]]) + expected = DataFrame(arr, columns=["a", "b"], index=["a", "b"]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("numeric_only", [True, False]) + def test_cov_numeric_only(self, numeric_only): + # when dtypes of pandas series are different + # then ndarray will have dtype=object, + # so it need to be properly handled + df = DataFrame({"a": [1, 0], "c": ["x", "y"]}) + expected = DataFrame(0.5, index=["a"], columns=["a"]) + if numeric_only: + result = df.cov(numeric_only=numeric_only) + tm.assert_frame_equal(result, expected) + else: + with pytest.raises(ValueError, match="could not convert string to float"): + df.cov(numeric_only=numeric_only) + + +class TestDataFrameCorr: + # DataFrame.corr(), as opposed to DataFrame.corrwith + + @pytest.mark.parametrize("method", ["pearson", "kendall", "spearman"]) + def test_corr_scipy_method(self, float_frame, method): + pytest.importorskip("scipy") + float_frame.loc[float_frame.index[:5], "A"] = np.nan + float_frame.loc[float_frame.index[5:10], "B"] = np.nan + float_frame.loc[float_frame.index[:10], "A"] = float_frame["A"][10:20].copy() + + correls = float_frame.corr(method=method) + expected = float_frame["A"].corr(float_frame["C"], method=method) + tm.assert_almost_equal(correls["A"]["C"], expected) + + # --------------------------------------------------------------------- + + def test_corr_non_numeric(self, float_string_frame): + with pytest.raises(ValueError, match="could not convert string to float"): + float_string_frame.corr() + result = float_string_frame.corr(numeric_only=True) + expected = float_string_frame.loc[:, ["A", "B", "C", "D"]].corr() + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("meth", ["pearson", "kendall", "spearman"]) + def test_corr_nooverlap(self, meth): + # nothing in common + pytest.importorskip("scipy") + df = DataFrame( + { + "A": [1, 1.5, 1, np.nan, np.nan, np.nan], + "B": [np.nan, np.nan, np.nan, 1, 1.5, 1], + "C": [np.nan, np.nan, np.nan, np.nan, np.nan, np.nan], + } + ) + rs = df.corr(meth) + assert isna(rs.loc["A", "B"]) + assert isna(rs.loc["B", "A"]) + assert rs.loc["A", "A"] == 1 + assert rs.loc["B", "B"] == 1 + assert isna(rs.loc["C", "C"]) + + @pytest.mark.parametrize("meth", ["pearson", "spearman"]) + def test_corr_constant(self, meth): + # constant --> all NA + df = DataFrame( + { + "A": [1, 1, 1, np.nan, np.nan, np.nan], + "B": [np.nan, np.nan, np.nan, 1, 1, 1], + } + ) + rs = df.corr(meth) + assert isna(rs.values).all() + + @pytest.mark.filterwarnings("ignore::RuntimeWarning") + @pytest.mark.parametrize("meth", ["pearson", "kendall", "spearman"]) + def test_corr_int_and_boolean(self, meth): + # when dtypes of pandas series are different + # then ndarray will have dtype=object, + # so it need to be properly handled + pytest.importorskip("scipy") + df = DataFrame({"a": [True, False], "b": [1, 0]}) + + expected = DataFrame(np.ones((2, 2)), index=["a", "b"], columns=["a", "b"]) + result = df.corr(meth) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("method", ["cov", "corr"]) + def test_corr_cov_independent_index_column(self, method): + # GH#14617 + df = DataFrame( + np.random.default_rng(2).standard_normal(4 * 10).reshape(10, 4), + columns=list("abcd"), + ) + result = getattr(df, method)() + assert result.index is not result.columns + assert result.index.equals(result.columns) + + def test_corr_invalid_method(self): + # GH#22298 + df = DataFrame(np.random.default_rng(2).normal(size=(10, 2))) + msg = "method must be either 'pearson', 'spearman', 'kendall', or a callable, " + with pytest.raises(ValueError, match=msg): + df.corr(method="____") + + def test_corr_int(self): + # dtypes other than float64 GH#1761 + df = DataFrame({"a": [1, 2, 3, 4], "b": [1, 2, 3, 4]}) + + df.cov() + df.corr() + + @pytest.mark.parametrize( + "nullable_column", [pd.array([1, 2, 3]), pd.array([1, 2, None])] + ) + @pytest.mark.parametrize( + "other_column", + [pd.array([1, 2, 3]), np.array([1.0, 2.0, 3.0]), np.array([1.0, 2.0, np.nan])], + ) + @pytest.mark.parametrize("method", ["pearson", "spearman", "kendall"]) + def test_corr_nullable_integer(self, nullable_column, other_column, method): + # https://github.com/pandas-dev/pandas/issues/33803 + pytest.importorskip("scipy") + data = DataFrame({"a": nullable_column, "b": other_column}) + result = data.corr(method=method) + expected = DataFrame(np.ones((2, 2)), columns=["a", "b"], index=["a", "b"]) + tm.assert_frame_equal(result, expected) + + def test_corr_item_cache(self, using_copy_on_write, warn_copy_on_write): + # Check that corr does not lead to incorrect entries in item_cache + + df = DataFrame({"A": range(10)}) + df["B"] = range(10)[::-1] + + ser = df["A"] # populate item_cache + assert len(df._mgr.arrays) == 2 # i.e. 2 blocks + + _ = df.corr(numeric_only=True) + + if using_copy_on_write: + ser.iloc[0] = 99 + assert df.loc[0, "A"] == 0 + else: + # Check that the corr didn't break link between ser and df + ser.values[0] = 99 + assert df.loc[0, "A"] == 99 + if not warn_copy_on_write: + assert df["A"] is ser + assert df.values[0, 0] == 99 + + @pytest.mark.parametrize("length", [2, 20, 200, 2000]) + def test_corr_for_constant_columns(self, length): + # GH: 37448 + df = DataFrame(length * [[0.4, 0.1]], columns=["A", "B"]) + result = df.corr() + expected = DataFrame( + {"A": [np.nan, np.nan], "B": [np.nan, np.nan]}, index=["A", "B"] + ) + tm.assert_frame_equal(result, expected) + + def test_calc_corr_small_numbers(self): + # GH: 37452 + df = DataFrame( + {"A": [1.0e-20, 2.0e-20, 3.0e-20], "B": [1.0e-20, 2.0e-20, 3.0e-20]} + ) + result = df.corr() + expected = DataFrame({"A": [1.0, 1.0], "B": [1.0, 1.0]}, index=["A", "B"]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("method", ["pearson", "spearman", "kendall"]) + def test_corr_min_periods_greater_than_length(self, method): + pytest.importorskip("scipy") + df = DataFrame({"A": [1, 2], "B": [1, 2]}) + result = df.corr(method=method, min_periods=3) + expected = DataFrame( + {"A": [np.nan, np.nan], "B": [np.nan, np.nan]}, index=["A", "B"] + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("meth", ["pearson", "kendall", "spearman"]) + @pytest.mark.parametrize("numeric_only", [True, False]) + def test_corr_numeric_only(self, meth, numeric_only): + # when dtypes of pandas series are different + # then ndarray will have dtype=object, + # so it need to be properly handled + pytest.importorskip("scipy") + df = DataFrame({"a": [1, 0], "b": [1, 0], "c": ["x", "y"]}) + expected = DataFrame(np.ones((2, 2)), index=["a", "b"], columns=["a", "b"]) + if numeric_only: + result = df.corr(meth, numeric_only=numeric_only) + tm.assert_frame_equal(result, expected) + else: + with pytest.raises(ValueError, match="could not convert string to float"): + df.corr(meth, numeric_only=numeric_only) + + +class TestDataFrameCorrWith: + @pytest.mark.parametrize( + "dtype", + [ + "float64", + "Float64", + pytest.param("float64[pyarrow]", marks=td.skip_if_no("pyarrow")), + ], + ) + def test_corrwith(self, datetime_frame, dtype): + datetime_frame = datetime_frame.astype(dtype) + + a = datetime_frame + noise = Series(np.random.default_rng(2).standard_normal(len(a)), index=a.index) + + b = datetime_frame.add(noise, axis=0) + + # make sure order does not matter + b = b.reindex(columns=b.columns[::-1], index=b.index[::-1][10:]) + del b["B"] + + colcorr = a.corrwith(b, axis=0) + tm.assert_almost_equal(colcorr["A"], a["A"].corr(b["A"])) + + rowcorr = a.corrwith(b, axis=1) + tm.assert_series_equal(rowcorr, a.T.corrwith(b.T, axis=0)) + + dropped = a.corrwith(b, axis=0, drop=True) + tm.assert_almost_equal(dropped["A"], a["A"].corr(b["A"])) + assert "B" not in dropped + + dropped = a.corrwith(b, axis=1, drop=True) + assert a.index[-1] not in dropped.index + + # non time-series data + index = ["a", "b", "c", "d", "e"] + columns = ["one", "two", "three", "four"] + df1 = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + index=index, + columns=columns, + ) + df2 = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=index[:4], + columns=columns, + ) + correls = df1.corrwith(df2, axis=1) + for row in index[:4]: + tm.assert_almost_equal(correls[row], df1.loc[row].corr(df2.loc[row])) + + def test_corrwith_with_objects(self, using_infer_string): + df1 = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + df2 = df1.copy() + cols = ["A", "B", "C", "D"] + + df1["obj"] = "foo" + df2["obj"] = "bar" + + if using_infer_string: + msg = "Cannot perform reduction 'mean' with string dtype" + with pytest.raises(TypeError, match=msg): + df1.corrwith(df2) + else: + with pytest.raises(TypeError, match="Could not convert"): + df1.corrwith(df2) + result = df1.corrwith(df2, numeric_only=True) + expected = df1.loc[:, cols].corrwith(df2.loc[:, cols]) + tm.assert_series_equal(result, expected) + + with pytest.raises(TypeError, match="unsupported operand type"): + df1.corrwith(df2, axis=1) + result = df1.corrwith(df2, axis=1, numeric_only=True) + expected = df1.loc[:, cols].corrwith(df2.loc[:, cols], axis=1) + tm.assert_series_equal(result, expected) + + def test_corrwith_series(self, datetime_frame): + result = datetime_frame.corrwith(datetime_frame["A"]) + expected = datetime_frame.apply(datetime_frame["A"].corr) + + tm.assert_series_equal(result, expected) + + def test_corrwith_matches_corrcoef(self): + df1 = DataFrame(np.arange(10000), columns=["a"]) + df2 = DataFrame(np.arange(10000) ** 2, columns=["a"]) + c1 = df1.corrwith(df2)["a"] + c2 = np.corrcoef(df1["a"], df2["a"])[0][1] + + tm.assert_almost_equal(c1, c2) + assert c1 < 1 + + @pytest.mark.parametrize("numeric_only", [True, False]) + def test_corrwith_mixed_dtypes(self, numeric_only): + # GH#18570 + df = DataFrame( + {"a": [1, 4, 3, 2], "b": [4, 6, 7, 3], "c": ["a", "b", "c", "d"]} + ) + s = Series([0, 6, 7, 3]) + if numeric_only: + result = df.corrwith(s, numeric_only=numeric_only) + corrs = [df["a"].corr(s), df["b"].corr(s)] + expected = Series(data=corrs, index=["a", "b"]) + tm.assert_series_equal(result, expected) + else: + with pytest.raises( + ValueError, + match="could not convert string to float", + ): + df.corrwith(s, numeric_only=numeric_only) + + def test_corrwith_index_intersection(self): + df1 = DataFrame( + np.random.default_rng(2).random(size=(10, 2)), columns=["a", "b"] + ) + df2 = DataFrame( + np.random.default_rng(2).random(size=(10, 3)), columns=["a", "b", "c"] + ) + + result = df1.corrwith(df2, drop=True).index.sort_values() + expected = df1.columns.intersection(df2.columns).sort_values() + tm.assert_index_equal(result, expected) + + def test_corrwith_index_union(self): + df1 = DataFrame( + np.random.default_rng(2).random(size=(10, 2)), columns=["a", "b"] + ) + df2 = DataFrame( + np.random.default_rng(2).random(size=(10, 3)), columns=["a", "b", "c"] + ) + + result = df1.corrwith(df2, drop=False).index.sort_values() + expected = df1.columns.union(df2.columns).sort_values() + tm.assert_index_equal(result, expected) + + def test_corrwith_dup_cols(self): + # GH#21925 + df1 = DataFrame(np.vstack([np.arange(10)] * 3).T) + df2 = df1.copy() + df2 = pd.concat((df2, df2[0]), axis=1) + + result = df1.corrwith(df2) + expected = Series(np.ones(4), index=[0, 0, 1, 2]) + tm.assert_series_equal(result, expected) + + def test_corr_numerical_instabilities(self): + # GH#45640 + df = DataFrame([[0.2, 0.4], [0.4, 0.2]]) + result = df.corr() + expected = DataFrame({0: [1.0, -1.0], 1: [-1.0, 1.0]}) + tm.assert_frame_equal(result - 1, expected - 1, atol=1e-17) + + def test_corrwith_spearman(self): + # GH#21925 + pytest.importorskip("scipy") + df = DataFrame(np.random.default_rng(2).random(size=(100, 3))) + result = df.corrwith(df**2, method="spearman") + expected = Series(np.ones(len(result))) + tm.assert_series_equal(result, expected) + + def test_corrwith_kendall(self): + # GH#21925 + pytest.importorskip("scipy") + df = DataFrame(np.random.default_rng(2).random(size=(100, 3))) + result = df.corrwith(df**2, method="kendall") + expected = Series(np.ones(len(result))) + tm.assert_series_equal(result, expected) + + def test_corrwith_spearman_with_tied_data(self): + # GH#48826 + pytest.importorskip("scipy") + df1 = DataFrame( + { + "A": [1, np.nan, 7, 8], + "B": [False, True, True, False], + "C": [10, 4, 9, 3], + } + ) + df2 = df1[["B", "C"]] + result = (df1 + 1).corrwith(df2.B, method="spearman") + expected = Series([0.0, 1.0, 0.0], index=["A", "B", "C"]) + tm.assert_series_equal(result, expected) + + df_bool = DataFrame( + {"A": [True, True, False, False], "B": [True, False, False, True]} + ) + ser_bool = Series([True, True, False, True]) + result = df_bool.corrwith(ser_bool) + expected = Series([0.57735, 0.57735], index=["A", "B"]) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_describe.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_describe.py new file mode 100644 index 0000000000000000000000000000000000000000..5beb09940acf32a4a597819f5b130863d90261e5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_describe.py @@ -0,0 +1,417 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameDescribe: + def test_describe_bool_in_mixed_frame(self): + df = DataFrame( + { + "string_data": ["a", "b", "c", "d", "e"], + "bool_data": [True, True, False, False, False], + "int_data": [10, 20, 30, 40, 50], + } + ) + + # Integer data are included in .describe() output, + # Boolean and string data are not. + result = df.describe() + expected = DataFrame( + {"int_data": [5, 30, df.int_data.std(), 10, 20, 30, 40, 50]}, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_frame_equal(result, expected) + + # Top value is a boolean value that is False + result = df.describe(include=["bool"]) + + expected = DataFrame( + {"bool_data": [5, 2, False, 3]}, index=["count", "unique", "top", "freq"] + ) + tm.assert_frame_equal(result, expected) + + def test_describe_empty_object(self): + # GH#27183 + df = DataFrame({"A": [None, None]}, dtype=object) + result = df.describe() + expected = DataFrame( + {"A": [0, 0, np.nan, np.nan]}, + dtype=object, + index=["count", "unique", "top", "freq"], + ) + tm.assert_frame_equal(result, expected) + + result = df.iloc[:0].describe() + tm.assert_frame_equal(result, expected) + + def test_describe_bool_frame(self): + # GH#13891 + df = DataFrame( + { + "bool_data_1": [False, False, True, True], + "bool_data_2": [False, True, True, True], + } + ) + result = df.describe() + expected = DataFrame( + {"bool_data_1": [4, 2, False, 2], "bool_data_2": [4, 2, True, 3]}, + index=["count", "unique", "top", "freq"], + ) + tm.assert_frame_equal(result, expected) + + df = DataFrame( + { + "bool_data": [False, False, True, True, False], + "int_data": [0, 1, 2, 3, 4], + } + ) + result = df.describe() + expected = DataFrame( + {"int_data": [5, 2, df.int_data.std(), 0, 1, 2, 3, 4]}, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_frame_equal(result, expected) + + df = DataFrame( + {"bool_data": [False, False, True, True], "str_data": ["a", "b", "c", "a"]} + ) + result = df.describe() + expected = DataFrame( + {"bool_data": [4, 2, False, 2], "str_data": [4, 3, "a", 2]}, + index=["count", "unique", "top", "freq"], + ) + tm.assert_frame_equal(result, expected) + + def test_describe_categorical(self): + df = DataFrame({"value": np.random.default_rng(2).integers(0, 10000, 100)}) + labels = [f"{i} - {i + 499}" for i in range(0, 10000, 500)] + cat_labels = Categorical(labels, labels) + + df = df.sort_values(by=["value"], ascending=True) + df["value_group"] = pd.cut( + df.value, range(0, 10500, 500), right=False, labels=cat_labels + ) + cat = df + + # Categoricals should not show up together with numerical columns + result = cat.describe() + assert len(result.columns) == 1 + + # In a frame, describe() for the cat should be the same as for string + # arrays (count, unique, top, freq) + + cat = Categorical( + ["a", "b", "b", "b"], categories=["a", "b", "c"], ordered=True + ) + s = Series(cat) + result = s.describe() + expected = Series([4, 2, "b", 3], index=["count", "unique", "top", "freq"]) + tm.assert_series_equal(result, expected) + + cat = Series(Categorical(["a", "b", "c", "c"])) + df3 = DataFrame({"cat": cat, "s": ["a", "b", "c", "c"]}) + result = df3.describe() + tm.assert_numpy_array_equal(result["cat"].values, result["s"].values) + + def test_describe_empty_categorical_column(self): + # GH#26397 + # Ensure the index of an empty categorical DataFrame column + # also contains (count, unique, top, freq) + df = DataFrame({"empty_col": Categorical([])}) + result = df.describe() + expected = DataFrame( + {"empty_col": [0, 0, np.nan, np.nan]}, + index=["count", "unique", "top", "freq"], + dtype="object", + ) + tm.assert_frame_equal(result, expected) + # ensure NaN, not None + assert np.isnan(result.iloc[2, 0]) + assert np.isnan(result.iloc[3, 0]) + + def test_describe_categorical_columns(self): + # GH#11558 + columns = pd.CategoricalIndex(["int1", "int2", "obj"], ordered=True, name="XXX") + df = DataFrame( + { + "int1": [10, 20, 30, 40, 50], + "int2": [10, 20, 30, 40, 50], + "obj": ["A", 0, None, "X", 1], + }, + columns=columns, + ) + result = df.describe() + + exp_columns = pd.CategoricalIndex( + ["int1", "int2"], + categories=["int1", "int2", "obj"], + ordered=True, + name="XXX", + ) + expected = DataFrame( + { + "int1": [5, 30, df.int1.std(), 10, 20, 30, 40, 50], + "int2": [5, 30, df.int2.std(), 10, 20, 30, 40, 50], + }, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + columns=exp_columns, + ) + + tm.assert_frame_equal(result, expected) + tm.assert_categorical_equal(result.columns.values, expected.columns.values) + + def test_describe_datetime_columns(self): + columns = pd.DatetimeIndex( + ["2011-01-01", "2011-02-01", "2011-03-01"], + freq="MS", + tz="US/Eastern", + name="XXX", + ) + df = DataFrame( + { + 0: [10, 20, 30, 40, 50], + 1: [10, 20, 30, 40, 50], + 2: ["A", 0, None, "X", 1], + } + ) + df.columns = columns + result = df.describe() + + exp_columns = pd.DatetimeIndex( + ["2011-01-01", "2011-02-01"], freq="MS", tz="US/Eastern", name="XXX" + ) + expected = DataFrame( + { + 0: [5, 30, df.iloc[:, 0].std(), 10, 20, 30, 40, 50], + 1: [5, 30, df.iloc[:, 1].std(), 10, 20, 30, 40, 50], + }, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + expected.columns = exp_columns + tm.assert_frame_equal(result, expected) + assert result.columns.freq == "MS" + assert result.columns.tz == expected.columns.tz + + def test_describe_timedelta_values(self): + # GH#6145 + t1 = pd.timedelta_range("1 days", freq="D", periods=5) + t2 = pd.timedelta_range("1 hours", freq="h", periods=5) + df = DataFrame({"t1": t1, "t2": t2}) + + expected = DataFrame( + { + "t1": [ + 5, + pd.Timedelta("3 days"), + df.iloc[:, 0].std(), + pd.Timedelta("1 days"), + pd.Timedelta("2 days"), + pd.Timedelta("3 days"), + pd.Timedelta("4 days"), + pd.Timedelta("5 days"), + ], + "t2": [ + 5, + pd.Timedelta("3 hours"), + df.iloc[:, 1].std(), + pd.Timedelta("1 hours"), + pd.Timedelta("2 hours"), + pd.Timedelta("3 hours"), + pd.Timedelta("4 hours"), + pd.Timedelta("5 hours"), + ], + }, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + + result = df.describe() + tm.assert_frame_equal(result, expected) + + exp_repr = ( + " t1 t2\n" + "count 5 5\n" + "mean 3 days 00:00:00 0 days 03:00:00\n" + "std 1 days 13:56:50.394919273 0 days 01:34:52.099788303\n" + "min 1 days 00:00:00 0 days 01:00:00\n" + "25% 2 days 00:00:00 0 days 02:00:00\n" + "50% 3 days 00:00:00 0 days 03:00:00\n" + "75% 4 days 00:00:00 0 days 04:00:00\n" + "max 5 days 00:00:00 0 days 05:00:00" + ) + assert repr(result) == exp_repr + + def test_describe_tz_values(self, tz_naive_fixture): + # GH#21332 + tz = tz_naive_fixture + s1 = Series(range(5)) + start = Timestamp(2018, 1, 1) + end = Timestamp(2018, 1, 5) + s2 = Series(date_range(start, end, tz=tz)) + df = DataFrame({"s1": s1, "s2": s2}) + + expected = DataFrame( + { + "s1": [5, 2, 0, 1, 2, 3, 4, 1.581139], + "s2": [ + 5, + Timestamp(2018, 1, 3).tz_localize(tz), + start.tz_localize(tz), + s2[1], + s2[2], + s2[3], + end.tz_localize(tz), + np.nan, + ], + }, + index=["count", "mean", "min", "25%", "50%", "75%", "max", "std"], + ) + result = df.describe(include="all") + tm.assert_frame_equal(result, expected) + + def test_datetime_is_numeric_includes_datetime(self): + df = DataFrame({"a": date_range("2012", periods=3), "b": [1, 2, 3]}) + result = df.describe() + expected = DataFrame( + { + "a": [ + 3, + Timestamp("2012-01-02"), + Timestamp("2012-01-01"), + Timestamp("2012-01-01T12:00:00"), + Timestamp("2012-01-02"), + Timestamp("2012-01-02T12:00:00"), + Timestamp("2012-01-03"), + np.nan, + ], + "b": [3, 2, 1, 1.5, 2, 2.5, 3, 1], + }, + index=["count", "mean", "min", "25%", "50%", "75%", "max", "std"], + ) + tm.assert_frame_equal(result, expected) + + def test_describe_tz_values2(self): + tz = "CET" + s1 = Series(range(5)) + start = Timestamp(2018, 1, 1) + end = Timestamp(2018, 1, 5) + s2 = Series(date_range(start, end, tz=tz)) + df = DataFrame({"s1": s1, "s2": s2}) + + s1_ = s1.describe() + s2_ = s2.describe() + idx = [ + "count", + "mean", + "min", + "25%", + "50%", + "75%", + "max", + "std", + ] + expected = pd.concat([s1_, s2_], axis=1, keys=["s1", "s2"]).reindex( + idx, copy=False + ) + + result = df.describe(include="all") + tm.assert_frame_equal(result, expected) + + def test_describe_percentiles_integer_idx(self): + # GH#26660 + df = DataFrame({"x": [1]}) + pct = np.linspace(0, 1, 10 + 1) + result = df.describe(percentiles=pct) + + expected = DataFrame( + {"x": [1.0, 1.0, np.nan, 1.0, *(1.0 for _ in pct), 1.0]}, + index=[ + "count", + "mean", + "std", + "min", + "0%", + "10%", + "20%", + "30%", + "40%", + "50%", + "60%", + "70%", + "80%", + "90%", + "100%", + "max", + ], + ) + tm.assert_frame_equal(result, expected) + + def test_describe_does_not_raise_error_for_dictlike_elements(self): + # GH#32409 + df = DataFrame([{"test": {"a": "1"}}, {"test": {"a": "2"}}]) + expected = DataFrame( + {"test": [2, 2, {"a": "1"}, 1]}, index=["count", "unique", "top", "freq"] + ) + result = df.describe() + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("exclude", ["x", "y", ["x", "y"], ["x", "z"]]) + def test_describe_when_include_all_exclude_not_allowed(self, exclude): + """ + When include is 'all', then setting exclude != None is not allowed. + """ + df = DataFrame({"x": [1], "y": [2], "z": [3]}) + msg = "exclude must be None when include is 'all'" + with pytest.raises(ValueError, match=msg): + df.describe(include="all", exclude=exclude) + + def test_describe_with_duplicate_columns(self): + df = DataFrame( + [[1, 1, 1], [2, 2, 2], [3, 3, 3]], + columns=["bar", "a", "a"], + dtype="float64", + ) + result = df.describe() + ser = df.iloc[:, 0].describe() + expected = pd.concat([ser, ser, ser], keys=df.columns, axis=1) + tm.assert_frame_equal(result, expected) + + def test_ea_with_na(self, any_numeric_ea_dtype): + # GH#48778 + + df = DataFrame({"a": [1, pd.NA, pd.NA], "b": pd.NA}, dtype=any_numeric_ea_dtype) + result = df.describe() + expected = DataFrame( + {"a": [1.0, 1.0, pd.NA] + [1.0] * 5, "b": [0.0] + [pd.NA] * 7}, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + dtype="Float64", + ) + tm.assert_frame_equal(result, expected) + + def test_describe_exclude_pa_dtype(self): + # GH#52570 + pa = pytest.importorskip("pyarrow") + df = DataFrame( + { + "a": Series([1, 2, 3], dtype=pd.ArrowDtype(pa.int8())), + "b": Series([1, 2, 3], dtype=pd.ArrowDtype(pa.int16())), + "c": Series([1, 2, 3], dtype=pd.ArrowDtype(pa.int32())), + } + ) + result = df.describe( + include=pd.ArrowDtype(pa.int8()), exclude=pd.ArrowDtype(pa.int32()) + ) + expected = DataFrame( + {"a": [3, 2, 1, 1, 1.5, 2, 2.5, 3]}, + index=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + dtype=pd.ArrowDtype(pa.float64()), + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_diff.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_diff.py new file mode 100644 index 0000000000000000000000000000000000000000..bef18dbaf8a8a914eae683c16f4e71cc90514c39 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_diff.py @@ -0,0 +1,308 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameDiff: + def test_diff_requires_integer(self): + df = DataFrame(np.random.default_rng(2).standard_normal((2, 2))) + with pytest.raises(ValueError, match="periods must be an integer"): + df.diff(1.5) + + # GH#44572 np.int64 is accepted + @pytest.mark.parametrize("num", [1, np.int64(1)]) + def test_diff(self, datetime_frame, num): + df = datetime_frame + the_diff = df.diff(num) + + expected = df["A"] - df["A"].shift(num) + tm.assert_series_equal(the_diff["A"], expected) + + def test_diff_int_dtype(self): + # int dtype + a = 10_000_000_000_000_000 + b = a + 1 + ser = Series([a, b]) + + rs = DataFrame({"s": ser}).diff() + assert rs.s[1] == 1 + + def test_diff_mixed_numeric(self, datetime_frame): + # mixed numeric + tf = datetime_frame.astype("float32") + the_diff = tf.diff(1) + tm.assert_series_equal(the_diff["A"], tf["A"] - tf["A"].shift(1)) + + def test_diff_axis1_nonconsolidated(self): + # GH#10907 + df = DataFrame({"y": Series([2]), "z": Series([3])}) + df.insert(0, "x", 1) + result = df.diff(axis=1) + expected = DataFrame({"x": np.nan, "y": Series(1), "z": Series(1)}) + tm.assert_frame_equal(result, expected) + + def test_diff_timedelta64_with_nat(self): + # GH#32441 + arr = np.arange(6).reshape(3, 2).astype("timedelta64[ns]") + arr[:, 0] = np.timedelta64("NaT", "ns") + + df = DataFrame(arr) + result = df.diff(1, axis=0) + + expected = DataFrame({0: df[0], 1: [pd.NaT, pd.Timedelta(2), pd.Timedelta(2)]}) + tm.assert_equal(result, expected) + + result = df.diff(0) + expected = df - df + assert expected[0].isna().all() + tm.assert_equal(result, expected) + + result = df.diff(-1, axis=1) + expected = df * np.nan + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_diff_datetime_axis0_with_nat(self, tz, unit): + # GH#32441 + dti = pd.DatetimeIndex(["NaT", "2019-01-01", "2019-01-02"], tz=tz).as_unit(unit) + ser = Series(dti) + + df = ser.to_frame() + + result = df.diff() + ex_index = pd.TimedeltaIndex([pd.NaT, pd.NaT, pd.Timedelta(days=1)]).as_unit( + unit + ) + expected = Series(ex_index).to_frame() + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_diff_datetime_with_nat_zero_periods(self, tz): + # diff on NaT values should give NaT, not timedelta64(0) + dti = date_range("2016-01-01", periods=4, tz=tz) + ser = Series(dti) + df = ser.to_frame().copy() + + df[1] = ser.copy() + + df.iloc[:, 0] = pd.NaT + + expected = df - df + assert expected[0].isna().all() + + result = df.diff(0, axis=0) + tm.assert_frame_equal(result, expected) + + result = df.diff(0, axis=1) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_diff_datetime_axis0(self, tz): + # GH#18578 + df = DataFrame( + { + 0: date_range("2010", freq="D", periods=2, tz=tz), + 1: date_range("2010", freq="D", periods=2, tz=tz), + } + ) + + result = df.diff(axis=0) + expected = DataFrame( + { + 0: pd.TimedeltaIndex(["NaT", "1 days"]), + 1: pd.TimedeltaIndex(["NaT", "1 days"]), + } + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_diff_datetime_axis1(self, tz): + # GH#18578 + df = DataFrame( + { + 0: date_range("2010", freq="D", periods=2, tz=tz), + 1: date_range("2010", freq="D", periods=2, tz=tz), + } + ) + + result = df.diff(axis=1) + expected = DataFrame( + { + 0: pd.TimedeltaIndex(["NaT", "NaT"]), + 1: pd.TimedeltaIndex(["0 days", "0 days"]), + } + ) + tm.assert_frame_equal(result, expected) + + def test_diff_timedelta(self, unit): + # GH#4533 + df = DataFrame( + { + "time": [Timestamp("20130101 9:01"), Timestamp("20130101 9:02")], + "value": [1.0, 2.0], + } + ) + df["time"] = df["time"].dt.as_unit(unit) + + res = df.diff() + exp = DataFrame( + [[pd.NaT, np.nan], [pd.Timedelta("00:01:00"), 1]], columns=["time", "value"] + ) + exp["time"] = exp["time"].dt.as_unit(unit) + tm.assert_frame_equal(res, exp) + + def test_diff_mixed_dtype(self): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df["A"] = np.array([1, 2, 3, 4, 5], dtype=object) + + result = df.diff() + assert result[0].dtype == np.float64 + + def test_diff_neg_n(self, datetime_frame): + rs = datetime_frame.diff(-1) + xp = datetime_frame - datetime_frame.shift(-1) + tm.assert_frame_equal(rs, xp) + + def test_diff_float_n(self, datetime_frame): + rs = datetime_frame.diff(1.0) + xp = datetime_frame.diff(1) + tm.assert_frame_equal(rs, xp) + + def test_diff_axis(self): + # GH#9727 + df = DataFrame([[1.0, 2.0], [3.0, 4.0]]) + tm.assert_frame_equal( + df.diff(axis=1), DataFrame([[np.nan, 1.0], [np.nan, 1.0]]) + ) + tm.assert_frame_equal( + df.diff(axis=0), DataFrame([[np.nan, np.nan], [2.0, 2.0]]) + ) + + def test_diff_period(self): + # GH#32995 Don't pass an incorrect axis + pi = date_range("2016-01-01", periods=3).to_period("D") + df = DataFrame({"A": pi}) + + result = df.diff(1, axis=1) + + expected = (df - pd.NaT).astype(object) + tm.assert_frame_equal(result, expected) + + def test_diff_axis1_mixed_dtypes(self): + # GH#32995 operate column-wise when we have mixed dtypes and axis=1 + df = DataFrame({"A": range(3), "B": 2 * np.arange(3, dtype=np.float64)}) + + expected = DataFrame({"A": [np.nan, np.nan, np.nan], "B": df["B"] / 2}) + + result = df.diff(axis=1) + tm.assert_frame_equal(result, expected) + + # GH#21437 mixed-float-dtypes + df = DataFrame( + {"a": np.arange(3, dtype="float32"), "b": np.arange(3, dtype="float64")} + ) + result = df.diff(axis=1) + expected = DataFrame({"a": df["a"] * np.nan, "b": df["b"] * 0}) + tm.assert_frame_equal(result, expected) + + def test_diff_axis1_mixed_dtypes_large_periods(self): + # GH#32995 operate column-wise when we have mixed dtypes and axis=1 + df = DataFrame({"A": range(3), "B": 2 * np.arange(3, dtype=np.float64)}) + + expected = df * np.nan + + result = df.diff(axis=1, periods=3) + tm.assert_frame_equal(result, expected) + + def test_diff_axis1_mixed_dtypes_negative_periods(self): + # GH#32995 operate column-wise when we have mixed dtypes and axis=1 + df = DataFrame({"A": range(3), "B": 2 * np.arange(3, dtype=np.float64)}) + + expected = DataFrame({"A": -1.0 * df["A"], "B": df["B"] * np.nan}) + + result = df.diff(axis=1, periods=-1) + tm.assert_frame_equal(result, expected) + + def test_diff_sparse(self): + # GH#28813 .diff() should work for sparse dataframes as well + sparse_df = DataFrame([[0, 1], [1, 0]], dtype="Sparse[int]") + + result = sparse_df.diff() + expected = DataFrame( + [[np.nan, np.nan], [1.0, -1.0]], dtype=pd.SparseDtype("float", 0.0) + ) + + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "axis,expected", + [ + ( + 0, + DataFrame( + { + "a": [np.nan, 0, 1, 0, np.nan, np.nan, np.nan, 0], + "b": [np.nan, 1, np.nan, np.nan, -2, 1, np.nan, np.nan], + "c": np.repeat(np.nan, 8), + "d": [np.nan, 3, 5, 7, 9, 11, 13, 15], + }, + dtype="Int64", + ), + ), + ( + 1, + DataFrame( + { + "a": np.repeat(np.nan, 8), + "b": [0, 1, np.nan, 1, np.nan, np.nan, np.nan, 0], + "c": np.repeat(np.nan, 8), + "d": np.repeat(np.nan, 8), + }, + dtype="Int64", + ), + ), + ], + ) + def test_diff_integer_na(self, axis, expected): + # GH#24171 IntegerNA Support for DataFrame.diff() + df = DataFrame( + { + "a": np.repeat([0, 1, np.nan, 2], 2), + "b": np.tile([0, 1, np.nan, 2], 2), + "c": np.repeat(np.nan, 8), + "d": np.arange(1, 9) ** 2, + }, + dtype="Int64", + ) + + # Test case for default behaviour of diff + result = df.diff(axis=axis) + tm.assert_frame_equal(result, expected) + + def test_diff_readonly(self): + # https://github.com/pandas-dev/pandas/issues/35559 + arr = np.random.default_rng(2).standard_normal((5, 2)) + arr.flags.writeable = False + df = DataFrame(arr) + result = df.diff() + expected = DataFrame(np.array(df)).diff() + tm.assert_frame_equal(result, expected) + + def test_diff_all_int_dtype(self, any_int_numpy_dtype): + # GH 14773 + df = DataFrame(range(5)) + df = df.astype(any_int_numpy_dtype) + result = df.diff() + expected_dtype = ( + "float32" if any_int_numpy_dtype in ("int8", "int16") else "float64" + ) + expected = DataFrame([np.nan, 1.0, 1.0, 1.0, 1.0], dtype=expected_dtype) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dot.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dot.py new file mode 100644 index 0000000000000000000000000000000000000000..3e01f67c8794bcf35d2b7be57f8bedcc06c2a137 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dot.py @@ -0,0 +1,155 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +class DotSharedTests: + @pytest.fixture + def obj(self): + raise NotImplementedError + + @pytest.fixture + def other(self) -> DataFrame: + """ + other is a DataFrame that is indexed so that obj.dot(other) is valid + """ + raise NotImplementedError + + @pytest.fixture + def expected(self, obj, other) -> DataFrame: + """ + The expected result of obj.dot(other) + """ + raise NotImplementedError + + @classmethod + def reduced_dim_assert(cls, result, expected): + """ + Assertion about results with 1 fewer dimension that self.obj + """ + raise NotImplementedError + + def test_dot_equiv_values_dot(self, obj, other, expected): + # `expected` is constructed from obj.values.dot(other.values) + result = obj.dot(other) + tm.assert_equal(result, expected) + + def test_dot_2d_ndarray(self, obj, other, expected): + # Check ndarray argument; in this case we get matching values, + # but index/columns may not match + result = obj.dot(other.values) + assert np.all(result == expected.values) + + def test_dot_1d_ndarray(self, obj, expected): + # can pass correct-length array + row = obj.iloc[0] if obj.ndim == 2 else obj + + result = obj.dot(row.values) + expected = obj.dot(row) + self.reduced_dim_assert(result, expected) + + def test_dot_series(self, obj, other, expected): + # Check series argument + result = obj.dot(other["1"]) + self.reduced_dim_assert(result, expected["1"]) + + def test_dot_series_alignment(self, obj, other, expected): + result = obj.dot(other.iloc[::-1]["1"]) + self.reduced_dim_assert(result, expected["1"]) + + def test_dot_aligns(self, obj, other, expected): + # Check index alignment + other2 = other.iloc[::-1] + result = obj.dot(other2) + tm.assert_equal(result, expected) + + def test_dot_shape_mismatch(self, obj): + msg = "Dot product shape mismatch" + # exception raised is of type Exception + with pytest.raises(Exception, match=msg): + obj.dot(obj.values[:3]) + + def test_dot_misaligned(self, obj, other): + msg = "matrices are not aligned" + with pytest.raises(ValueError, match=msg): + obj.dot(other.T) + + +class TestSeriesDot(DotSharedTests): + @pytest.fixture + def obj(self): + return Series( + np.random.default_rng(2).standard_normal(4), index=["p", "q", "r", "s"] + ) + + @pytest.fixture + def other(self): + return DataFrame( + np.random.default_rng(2).standard_normal((3, 4)), + index=["1", "2", "3"], + columns=["p", "q", "r", "s"], + ).T + + @pytest.fixture + def expected(self, obj, other): + return Series(np.dot(obj.values, other.values), index=other.columns) + + @classmethod + def reduced_dim_assert(cls, result, expected): + """ + Assertion about results with 1 fewer dimension that self.obj + """ + tm.assert_almost_equal(result, expected) + + +class TestDataFrameDot(DotSharedTests): + @pytest.fixture + def obj(self): + return DataFrame( + np.random.default_rng(2).standard_normal((3, 4)), + index=["a", "b", "c"], + columns=["p", "q", "r", "s"], + ) + + @pytest.fixture + def other(self): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 2)), + index=["p", "q", "r", "s"], + columns=["1", "2"], + ) + + @pytest.fixture + def expected(self, obj, other): + return DataFrame( + np.dot(obj.values, other.values), index=obj.index, columns=other.columns + ) + + @classmethod + def reduced_dim_assert(cls, result, expected): + """ + Assertion about results with 1 fewer dimension that self.obj + """ + tm.assert_series_equal(result, expected, check_names=False) + assert result.name is None + + +@pytest.mark.parametrize( + "dtype,exp_dtype", + [("Float32", "Float64"), ("Int16", "Int32"), ("float[pyarrow]", "double[pyarrow]")], +) +def test_arrow_dtype(dtype, exp_dtype): + pytest.importorskip("pyarrow") + + cols = ["a", "b"] + df_a = DataFrame([[1, 2], [3, 4], [5, 6]], columns=cols, dtype="int32") + df_b = DataFrame([[1, 0], [0, 1]], index=cols, dtype=dtype) + result = df_a.dot(df_b) + expected = DataFrame([[1, 2], [3, 4], [5, 6]], dtype=exp_dtype) + + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop.py new file mode 100644 index 0000000000000000000000000000000000000000..06cd51b43a0aa038868d533d4e664db6681bc801 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop.py @@ -0,0 +1,546 @@ +import re + +import numpy as np +import pytest + +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import ( + DataFrame, + DatetimeIndex, + Index, + MultiIndex, + Series, + Timestamp, +) +import pandas._testing as tm + + +@pytest.mark.parametrize( + "msg,labels,level", + [ + (r"labels \[4\] not found in level", 4, "a"), + (r"labels \[7\] not found in level", 7, "b"), + ], +) +def test_drop_raise_exception_if_labels_not_in_level(msg, labels, level): + # GH 8594 + mi = MultiIndex.from_arrays([[1, 2, 3], [4, 5, 6]], names=["a", "b"]) + s = Series([10, 20, 30], index=mi) + df = DataFrame([10, 20, 30], index=mi) + + with pytest.raises(KeyError, match=msg): + s.drop(labels, level=level) + with pytest.raises(KeyError, match=msg): + df.drop(labels, level=level) + + +@pytest.mark.parametrize("labels,level", [(4, "a"), (7, "b")]) +def test_drop_errors_ignore(labels, level): + # GH 8594 + mi = MultiIndex.from_arrays([[1, 2, 3], [4, 5, 6]], names=["a", "b"]) + s = Series([10, 20, 30], index=mi) + df = DataFrame([10, 20, 30], index=mi) + + expected_s = s.drop(labels, level=level, errors="ignore") + tm.assert_series_equal(s, expected_s) + + expected_df = df.drop(labels, level=level, errors="ignore") + tm.assert_frame_equal(df, expected_df) + + +def test_drop_with_non_unique_datetime_index_and_invalid_keys(): + # GH 30399 + + # define dataframe with unique datetime index + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + columns=["a", "b", "c"], + index=pd.date_range("2012", freq="h", periods=5), + ) + # create dataframe with non-unique datetime index + df = df.iloc[[0, 2, 2, 3]].copy() + + with pytest.raises(KeyError, match="not found in axis"): + df.drop(["a", "b"]) # Dropping with labels not exist in the index + + +class TestDataFrameDrop: + def test_drop_names(self): + df = DataFrame( + [[1, 2, 3], [3, 4, 5], [5, 6, 7]], + index=["a", "b", "c"], + columns=["d", "e", "f"], + ) + df.index.name, df.columns.name = "first", "second" + df_dropped_b = df.drop("b") + df_dropped_e = df.drop("e", axis=1) + df_inplace_b, df_inplace_e = df.copy(), df.copy() + return_value = df_inplace_b.drop("b", inplace=True) + assert return_value is None + return_value = df_inplace_e.drop("e", axis=1, inplace=True) + assert return_value is None + for obj in (df_dropped_b, df_dropped_e, df_inplace_b, df_inplace_e): + assert obj.index.name == "first" + assert obj.columns.name == "second" + assert list(df.columns) == ["d", "e", "f"] + + msg = r"\['g'\] not found in axis" + with pytest.raises(KeyError, match=msg): + df.drop(["g"]) + with pytest.raises(KeyError, match=msg): + df.drop(["g"], axis=1) + + # errors = 'ignore' + dropped = df.drop(["g"], errors="ignore") + expected = Index(["a", "b", "c"], name="first") + tm.assert_index_equal(dropped.index, expected) + + dropped = df.drop(["b", "g"], errors="ignore") + expected = Index(["a", "c"], name="first") + tm.assert_index_equal(dropped.index, expected) + + dropped = df.drop(["g"], axis=1, errors="ignore") + expected = Index(["d", "e", "f"], name="second") + tm.assert_index_equal(dropped.columns, expected) + + dropped = df.drop(["d", "g"], axis=1, errors="ignore") + expected = Index(["e", "f"], name="second") + tm.assert_index_equal(dropped.columns, expected) + + # GH 16398 + dropped = df.drop([], errors="ignore") + expected = Index(["a", "b", "c"], name="first") + tm.assert_index_equal(dropped.index, expected) + + def test_drop(self): + simple = DataFrame({"A": [1, 2, 3, 4], "B": [0, 1, 2, 3]}) + tm.assert_frame_equal(simple.drop("A", axis=1), simple[["B"]]) + tm.assert_frame_equal(simple.drop(["A", "B"], axis="columns"), simple[[]]) + tm.assert_frame_equal(simple.drop([0, 1, 3], axis=0), simple.loc[[2], :]) + tm.assert_frame_equal(simple.drop([0, 3], axis="index"), simple.loc[[1, 2], :]) + + with pytest.raises(KeyError, match=r"\[5\] not found in axis"): + simple.drop(5) + with pytest.raises(KeyError, match=r"\['C'\] not found in axis"): + simple.drop("C", axis=1) + with pytest.raises(KeyError, match=r"\[5\] not found in axis"): + simple.drop([1, 5]) + with pytest.raises(KeyError, match=r"\['C'\] not found in axis"): + simple.drop(["A", "C"], axis=1) + + # GH 42881 + with pytest.raises(KeyError, match=r"\['C', 'D', 'F'\] not found in axis"): + simple.drop(["C", "D", "F"], axis=1) + + # errors = 'ignore' + tm.assert_frame_equal(simple.drop(5, errors="ignore"), simple) + tm.assert_frame_equal( + simple.drop([0, 5], errors="ignore"), simple.loc[[1, 2, 3], :] + ) + tm.assert_frame_equal(simple.drop("C", axis=1, errors="ignore"), simple) + tm.assert_frame_equal( + simple.drop(["A", "C"], axis=1, errors="ignore"), simple[["B"]] + ) + + # non-unique - wheee! + nu_df = DataFrame( + list(zip(range(3), range(-3, 1), list("abc"))), columns=["a", "a", "b"] + ) + tm.assert_frame_equal(nu_df.drop("a", axis=1), nu_df[["b"]]) + tm.assert_frame_equal(nu_df.drop("b", axis="columns"), nu_df["a"]) + tm.assert_frame_equal(nu_df.drop([]), nu_df) # GH 16398 + + nu_df = nu_df.set_index(Index(["X", "Y", "X"])) + nu_df.columns = list("abc") + tm.assert_frame_equal(nu_df.drop("X", axis="rows"), nu_df.loc[["Y"], :]) + tm.assert_frame_equal(nu_df.drop(["X", "Y"], axis=0), nu_df.loc[[], :]) + + # inplace cache issue + # GH#5628 + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 3)), columns=list("abc") + ) + expected = df[~(df.b > 0)] + return_value = df.drop(labels=df[df.b > 0].index, inplace=True) + assert return_value is None + tm.assert_frame_equal(df, expected) + + def test_drop_multiindex_not_lexsorted(self): + # GH#11640 + + # define the lexsorted version + lexsorted_mi = MultiIndex.from_tuples( + [("a", ""), ("b1", "c1"), ("b2", "c2")], names=["b", "c"] + ) + lexsorted_df = DataFrame([[1, 3, 4]], columns=lexsorted_mi) + assert lexsorted_df.columns._is_lexsorted() + + # define the non-lexsorted version + not_lexsorted_df = DataFrame( + columns=["a", "b", "c", "d"], data=[[1, "b1", "c1", 3], [1, "b2", "c2", 4]] + ) + not_lexsorted_df = not_lexsorted_df.pivot_table( + index="a", columns=["b", "c"], values="d" + ) + not_lexsorted_df = not_lexsorted_df.reset_index() + assert not not_lexsorted_df.columns._is_lexsorted() + + expected = lexsorted_df.drop("a", axis=1).astype(float) + with tm.assert_produces_warning(PerformanceWarning): + result = not_lexsorted_df.drop("a", axis=1) + + tm.assert_frame_equal(result, expected) + + def test_drop_api_equivalence(self): + # equivalence of the labels/axis and index/columns API's (GH#12392) + df = DataFrame( + [[1, 2, 3], [3, 4, 5], [5, 6, 7]], + index=["a", "b", "c"], + columns=["d", "e", "f"], + ) + + res1 = df.drop("a") + res2 = df.drop(index="a") + tm.assert_frame_equal(res1, res2) + + res1 = df.drop("d", axis=1) + res2 = df.drop(columns="d") + tm.assert_frame_equal(res1, res2) + + res1 = df.drop(labels="e", axis=1) + res2 = df.drop(columns="e") + tm.assert_frame_equal(res1, res2) + + res1 = df.drop(["a"], axis=0) + res2 = df.drop(index=["a"]) + tm.assert_frame_equal(res1, res2) + + res1 = df.drop(["a"], axis=0).drop(["d"], axis=1) + res2 = df.drop(index=["a"], columns=["d"]) + tm.assert_frame_equal(res1, res2) + + msg = "Cannot specify both 'labels' and 'index'/'columns'" + with pytest.raises(ValueError, match=msg): + df.drop(labels="a", index="b") + + with pytest.raises(ValueError, match=msg): + df.drop(labels="a", columns="b") + + msg = "Need to specify at least one of 'labels', 'index' or 'columns'" + with pytest.raises(ValueError, match=msg): + df.drop(axis=1) + + data = [[1, 2, 3], [1, 2, 3]] + + @pytest.mark.parametrize( + "actual", + [ + DataFrame(data=data, index=["a", "a"]), + DataFrame(data=data, index=["a", "b"]), + DataFrame(data=data, index=["a", "b"]).set_index([0, 1]), + DataFrame(data=data, index=["a", "a"]).set_index([0, 1]), + ], + ) + def test_raise_on_drop_duplicate_index(self, actual): + # GH#19186 + level = 0 if isinstance(actual.index, MultiIndex) else None + msg = re.escape("\"['c'] not found in axis\"") + with pytest.raises(KeyError, match=msg): + actual.drop("c", level=level, axis=0) + with pytest.raises(KeyError, match=msg): + actual.T.drop("c", level=level, axis=1) + expected_no_err = actual.drop("c", axis=0, level=level, errors="ignore") + tm.assert_frame_equal(expected_no_err, actual) + expected_no_err = actual.T.drop("c", axis=1, level=level, errors="ignore") + tm.assert_frame_equal(expected_no_err.T, actual) + + @pytest.mark.parametrize("index", [[1, 2, 3], [1, 1, 2]]) + @pytest.mark.parametrize("drop_labels", [[], [1], [2]]) + def test_drop_empty_list(self, index, drop_labels): + # GH#21494 + expected_index = [i for i in index if i not in drop_labels] + frame = DataFrame(index=index).drop(drop_labels) + tm.assert_frame_equal(frame, DataFrame(index=expected_index)) + + @pytest.mark.parametrize("index", [[1, 2, 3], [1, 2, 2]]) + @pytest.mark.parametrize("drop_labels", [[1, 4], [4, 5]]) + def test_drop_non_empty_list(self, index, drop_labels): + # GH# 21494 + with pytest.raises(KeyError, match="not found in axis"): + DataFrame(index=index).drop(drop_labels) + + @pytest.mark.parametrize( + "empty_listlike", + [ + [], + {}, + np.array([]), + Series([], dtype="datetime64[ns]"), + Index([]), + DatetimeIndex([]), + ], + ) + def test_drop_empty_listlike_non_unique_datetime_index(self, empty_listlike): + # GH#27994 + data = {"column_a": [5, 10], "column_b": ["one", "two"]} + index = [Timestamp("2021-01-01"), Timestamp("2021-01-01")] + df = DataFrame(data, index=index) + + # Passing empty list-like should return the same DataFrame. + expected = df.copy() + result = df.drop(empty_listlike) + tm.assert_frame_equal(result, expected) + + def test_mixed_depth_drop(self): + arrays = [ + ["a", "top", "top", "routine1", "routine1", "routine2"], + ["", "OD", "OD", "result1", "result2", "result1"], + ["", "wx", "wy", "", "", ""], + ] + + tuples = sorted(zip(*arrays)) + index = MultiIndex.from_tuples(tuples) + df = DataFrame(np.random.default_rng(2).standard_normal((4, 6)), columns=index) + + result = df.drop("a", axis=1) + expected = df.drop([("a", "", "")], axis=1) + tm.assert_frame_equal(expected, result) + + result = df.drop(["top"], axis=1) + expected = df.drop([("top", "OD", "wx")], axis=1) + expected = expected.drop([("top", "OD", "wy")], axis=1) + tm.assert_frame_equal(expected, result) + + result = df.drop(("top", "OD", "wx"), axis=1) + expected = df.drop([("top", "OD", "wx")], axis=1) + tm.assert_frame_equal(expected, result) + + expected = df.drop([("top", "OD", "wy")], axis=1) + expected = df.drop("top", axis=1) + + result = df.drop("result1", level=1, axis=1) + expected = df.drop( + [("routine1", "result1", ""), ("routine2", "result1", "")], axis=1 + ) + tm.assert_frame_equal(expected, result) + + def test_drop_multiindex_other_level_nan(self): + # GH#12754 + df = ( + DataFrame( + { + "A": ["one", "one", "two", "two"], + "B": [np.nan, 0.0, 1.0, 2.0], + "C": ["a", "b", "c", "c"], + "D": [1, 2, 3, 4], + } + ) + .set_index(["A", "B", "C"]) + .sort_index() + ) + result = df.drop("c", level="C") + expected = DataFrame( + [2, 1], + columns=["D"], + index=MultiIndex.from_tuples( + [("one", 0.0, "b"), ("one", np.nan, "a")], names=["A", "B", "C"] + ), + ) + tm.assert_frame_equal(result, expected) + + def test_drop_nonunique(self): + df = DataFrame( + [ + ["x-a", "x", "a", 1.5], + ["x-a", "x", "a", 1.2], + ["z-c", "z", "c", 3.1], + ["x-a", "x", "a", 4.1], + ["x-b", "x", "b", 5.1], + ["x-b", "x", "b", 4.1], + ["x-b", "x", "b", 2.2], + ["y-a", "y", "a", 1.2], + ["z-b", "z", "b", 2.1], + ], + columns=["var1", "var2", "var3", "var4"], + ) + + grp_size = df.groupby("var1").size() + drop_idx = grp_size.loc[grp_size == 1] + + idf = df.set_index(["var1", "var2", "var3"]) + + # it works! GH#2101 + result = idf.drop(drop_idx.index, level=0).reset_index() + expected = df[-df.var1.isin(drop_idx.index)] + + result.index = expected.index + + tm.assert_frame_equal(result, expected) + + def test_drop_level(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + + result = frame.drop(["bar", "qux"], level="first") + expected = frame.iloc[[0, 1, 2, 5, 6]] + tm.assert_frame_equal(result, expected) + + result = frame.drop(["two"], level="second") + expected = frame.iloc[[0, 2, 3, 6, 7, 9]] + tm.assert_frame_equal(result, expected) + + result = frame.T.drop(["bar", "qux"], axis=1, level="first") + expected = frame.iloc[[0, 1, 2, 5, 6]].T + tm.assert_frame_equal(result, expected) + + result = frame.T.drop(["two"], axis=1, level="second") + expected = frame.iloc[[0, 2, 3, 6, 7, 9]].T + tm.assert_frame_equal(result, expected) + + def test_drop_level_nonunique_datetime(self): + # GH#12701 + idx = Index([2, 3, 4, 4, 5], name="id") + idxdt = pd.to_datetime( + [ + "2016-03-23 14:00", + "2016-03-23 15:00", + "2016-03-23 16:00", + "2016-03-23 16:00", + "2016-03-23 17:00", + ] + ) + df = DataFrame(np.arange(10).reshape(5, 2), columns=list("ab"), index=idx) + df["tstamp"] = idxdt + df = df.set_index("tstamp", append=True) + ts = Timestamp("201603231600") + assert df.index.is_unique is False + + result = df.drop(ts, level="tstamp") + expected = df.loc[idx != 4] + tm.assert_frame_equal(result, expected) + + def test_drop_tz_aware_timestamp_across_dst(self, frame_or_series): + # GH#21761 + start = Timestamp("2017-10-29", tz="Europe/Berlin") + end = Timestamp("2017-10-29 04:00:00", tz="Europe/Berlin") + index = pd.date_range(start, end, freq="15min") + data = frame_or_series(data=[1] * len(index), index=index) + result = data.drop(start) + expected_start = Timestamp("2017-10-29 00:15:00", tz="Europe/Berlin") + expected_idx = pd.date_range(expected_start, end, freq="15min") + expected = frame_or_series(data=[1] * len(expected_idx), index=expected_idx) + tm.assert_equal(result, expected) + + def test_drop_preserve_names(self): + index = MultiIndex.from_arrays( + [[0, 0, 0, 1, 1, 1], [1, 2, 3, 1, 2, 3]], names=["one", "two"] + ) + + df = DataFrame(np.random.default_rng(2).standard_normal((6, 3)), index=index) + + result = df.drop([(0, 2)]) + assert result.index.names == ("one", "two") + + @pytest.mark.parametrize( + "operation", ["__iadd__", "__isub__", "__imul__", "__ipow__"] + ) + @pytest.mark.parametrize("inplace", [False, True]) + def test_inplace_drop_and_operation(self, operation, inplace): + # GH#30484 + df = DataFrame({"x": range(5)}) + expected = df.copy() + df["y"] = range(5) + y = df["y"] + + with tm.assert_produces_warning(None): + if inplace: + df.drop("y", axis=1, inplace=inplace) + else: + df = df.drop("y", axis=1, inplace=inplace) + + # Perform operation and check result + getattr(y, operation)(1) + tm.assert_frame_equal(df, expected) + + def test_drop_with_non_unique_multiindex(self): + # GH#36293 + mi = MultiIndex.from_arrays([["x", "y", "x"], ["i", "j", "i"]]) + df = DataFrame([1, 2, 3], index=mi) + result = df.drop(index="x") + expected = DataFrame([2], index=MultiIndex.from_arrays([["y"], ["j"]])) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("indexer", [("a", "a"), [("a", "a")]]) + def test_drop_tuple_with_non_unique_multiindex(self, indexer): + # GH#42771 + idx = MultiIndex.from_product([["a", "b"], ["a", "a"]]) + df = DataFrame({"x": range(len(idx))}, index=idx) + result = df.drop(index=[("a", "a")]) + expected = DataFrame( + {"x": [2, 3]}, index=MultiIndex.from_tuples([("b", "a"), ("b", "a")]) + ) + tm.assert_frame_equal(result, expected) + + def test_drop_with_duplicate_columns(self): + df = DataFrame( + [[1, 5, 7.0], [1, 5, 7.0], [1, 5, 7.0]], columns=["bar", "a", "a"] + ) + result = df.drop(["a"], axis=1) + expected = DataFrame([[1], [1], [1]], columns=["bar"]) + tm.assert_frame_equal(result, expected) + result = df.drop("a", axis=1) + tm.assert_frame_equal(result, expected) + + def test_drop_with_duplicate_columns2(self): + # drop buggy GH#6240 + df = DataFrame( + { + "A": np.random.default_rng(2).standard_normal(5), + "B": np.random.default_rng(2).standard_normal(5), + "C": np.random.default_rng(2).standard_normal(5), + "D": ["a", "b", "c", "d", "e"], + } + ) + + expected = df.take([0, 1, 1], axis=1) + df2 = df.take([2, 0, 1, 2, 1], axis=1) + result = df2.drop("C", axis=1) + tm.assert_frame_equal(result, expected) + + def test_drop_inplace_no_leftover_column_reference(self): + # GH 13934 + df = DataFrame({"a": [1, 2, 3]}, columns=Index(["a"], dtype="object")) + a = df.a + df.drop(["a"], axis=1, inplace=True) + tm.assert_index_equal(df.columns, Index([], dtype="object")) + a -= a.mean() + tm.assert_index_equal(df.columns, Index([], dtype="object")) + + def test_drop_level_missing_label_multiindex(self): + # GH 18561 + df = DataFrame(index=MultiIndex.from_product([range(3), range(3)])) + with pytest.raises(KeyError, match="labels \\[5\\] not found in level"): + df.drop(5, level=0) + + @pytest.mark.parametrize("idx, level", [(["a", "b"], 0), (["a"], None)]) + def test_drop_index_ea_dtype(self, any_numeric_ea_dtype, idx, level): + # GH#45860 + df = DataFrame( + {"a": [1, 2, 2, pd.NA], "b": 100}, dtype=any_numeric_ea_dtype + ).set_index(idx) + result = df.drop(Index([2, pd.NA]), level=level) + expected = DataFrame( + {"a": [1], "b": 100}, dtype=any_numeric_ea_dtype + ).set_index(idx) + tm.assert_frame_equal(result, expected) + + def test_drop_parse_strings_datetime_index(self): + # GH #5355 + df = DataFrame( + {"a": [1, 2], "b": [1, 2]}, + index=[Timestamp("2000-01-03"), Timestamp("2000-01-04")], + ) + result = df.drop("2000-01-03", axis=0) + expected = DataFrame({"a": [2], "b": [2]}, index=[Timestamp("2000-01-04")]) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop_duplicates.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop_duplicates.py new file mode 100644 index 0000000000000000000000000000000000000000..6bea97b2cf189d81b99996cc8cc78a3b92f7afc0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_drop_duplicates.py @@ -0,0 +1,473 @@ +from datetime import datetime +import re + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + NaT, + concat, +) +import pandas._testing as tm + + +@pytest.mark.parametrize("subset", ["a", ["a"], ["a", "B"]]) +def test_drop_duplicates_with_misspelled_column_name(subset): + # GH 19730 + df = DataFrame({"A": [0, 0, 1], "B": [0, 0, 1], "C": [0, 0, 1]}) + msg = re.escape("Index(['a'], dtype=") + + with pytest.raises(KeyError, match=msg): + df.drop_duplicates(subset) + + +def test_drop_duplicates(): + df = DataFrame( + { + "AAA": ["foo", "bar", "foo", "bar", "foo", "bar", "bar", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1, 1, 2, 2, 2, 2, 1, 2], + "D": range(8), + } + ) + # single column + result = df.drop_duplicates("AAA") + expected = df[:2] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("AAA", keep="last") + expected = df.loc[[6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("AAA", keep=False) + expected = df.loc[[]] + tm.assert_frame_equal(result, expected) + assert len(result) == 0 + + # multi column + expected = df.loc[[0, 1, 2, 3]] + result = df.drop_duplicates(np.array(["AAA", "B"])) + tm.assert_frame_equal(result, expected) + result = df.drop_duplicates(["AAA", "B"]) + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(("AAA", "B"), keep="last") + expected = df.loc[[0, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(("AAA", "B"), keep=False) + expected = df.loc[[0]] + tm.assert_frame_equal(result, expected) + + # consider everything + df2 = df.loc[:, ["AAA", "B", "C"]] + + result = df2.drop_duplicates() + # in this case only + expected = df2.drop_duplicates(["AAA", "B"]) + tm.assert_frame_equal(result, expected) + + result = df2.drop_duplicates(keep="last") + expected = df2.drop_duplicates(["AAA", "B"], keep="last") + tm.assert_frame_equal(result, expected) + + result = df2.drop_duplicates(keep=False) + expected = df2.drop_duplicates(["AAA", "B"], keep=False) + tm.assert_frame_equal(result, expected) + + # integers + result = df.drop_duplicates("C") + expected = df.iloc[[0, 2]] + tm.assert_frame_equal(result, expected) + result = df.drop_duplicates("C", keep="last") + expected = df.iloc[[-2, -1]] + tm.assert_frame_equal(result, expected) + + df["E"] = df["C"].astype("int8") + result = df.drop_duplicates("E") + expected = df.iloc[[0, 2]] + tm.assert_frame_equal(result, expected) + result = df.drop_duplicates("E", keep="last") + expected = df.iloc[[-2, -1]] + tm.assert_frame_equal(result, expected) + + # GH 11376 + df = DataFrame({"x": [7, 6, 3, 3, 4, 8, 0], "y": [0, 6, 5, 5, 9, 1, 2]}) + expected = df.loc[df.index != 3] + tm.assert_frame_equal(df.drop_duplicates(), expected) + + df = DataFrame([[1, 0], [0, 2]]) + tm.assert_frame_equal(df.drop_duplicates(), df) + + df = DataFrame([[-2, 0], [0, -4]]) + tm.assert_frame_equal(df.drop_duplicates(), df) + + x = np.iinfo(np.int64).max / 3 * 2 + df = DataFrame([[-x, x], [0, x + 4]]) + tm.assert_frame_equal(df.drop_duplicates(), df) + + df = DataFrame([[-x, x], [x, x + 4]]) + tm.assert_frame_equal(df.drop_duplicates(), df) + + # GH 11864 + df = DataFrame([i] * 9 for i in range(16)) + df = concat([df, DataFrame([[1] + [0] * 8])], ignore_index=True) + + for keep in ["first", "last", False]: + assert df.duplicated(keep=keep).sum() == 0 + + +def test_drop_duplicates_with_duplicate_column_names(): + # GH17836 + df = DataFrame([[1, 2, 5], [3, 4, 6], [3, 4, 7]], columns=["a", "a", "b"]) + + result0 = df.drop_duplicates() + tm.assert_frame_equal(result0, df) + + result1 = df.drop_duplicates("a") + expected1 = df[:2] + tm.assert_frame_equal(result1, expected1) + + +def test_drop_duplicates_for_take_all(): + df = DataFrame( + { + "AAA": ["foo", "bar", "baz", "bar", "foo", "bar", "qux", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1, 1, 2, 2, 2, 2, 1, 2], + "D": range(8), + } + ) + # single column + result = df.drop_duplicates("AAA") + expected = df.iloc[[0, 1, 2, 6]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("AAA", keep="last") + expected = df.iloc[[2, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("AAA", keep=False) + expected = df.iloc[[2, 6]] + tm.assert_frame_equal(result, expected) + + # multiple columns + result = df.drop_duplicates(["AAA", "B"]) + expected = df.iloc[[0, 1, 2, 3, 4, 6]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["AAA", "B"], keep="last") + expected = df.iloc[[0, 1, 2, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["AAA", "B"], keep=False) + expected = df.iloc[[0, 1, 2, 6]] + tm.assert_frame_equal(result, expected) + + +def test_drop_duplicates_tuple(): + df = DataFrame( + { + ("AA", "AB"): ["foo", "bar", "foo", "bar", "foo", "bar", "bar", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1, 1, 2, 2, 2, 2, 1, 2], + "D": range(8), + } + ) + # single column + result = df.drop_duplicates(("AA", "AB")) + expected = df[:2] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(("AA", "AB"), keep="last") + expected = df.loc[[6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(("AA", "AB"), keep=False) + expected = df.loc[[]] # empty df + assert len(result) == 0 + tm.assert_frame_equal(result, expected) + + # multi column + expected = df.loc[[0, 1, 2, 3]] + result = df.drop_duplicates((("AA", "AB"), "B")) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "df", + [ + DataFrame(), + DataFrame(columns=[]), + DataFrame(columns=["A", "B", "C"]), + DataFrame(index=[]), + DataFrame(index=["A", "B", "C"]), + ], +) +def test_drop_duplicates_empty(df): + # GH 20516 + result = df.drop_duplicates() + tm.assert_frame_equal(result, df) + + result = df.copy() + result.drop_duplicates(inplace=True) + tm.assert_frame_equal(result, df) + + +def test_drop_duplicates_NA(): + # none + df = DataFrame( + { + "A": [None, None, "foo", "bar", "foo", "bar", "bar", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1.0, np.nan, np.nan, np.nan, 1.0, 1.0, 1, 1.0], + "D": range(8), + } + ) + # single column + result = df.drop_duplicates("A") + expected = df.loc[[0, 2, 3]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("A", keep="last") + expected = df.loc[[1, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("A", keep=False) + expected = df.loc[[]] # empty df + tm.assert_frame_equal(result, expected) + assert len(result) == 0 + + # multi column + result = df.drop_duplicates(["A", "B"]) + expected = df.loc[[0, 2, 3, 6]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["A", "B"], keep="last") + expected = df.loc[[1, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["A", "B"], keep=False) + expected = df.loc[[6]] + tm.assert_frame_equal(result, expected) + + # nan + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "bar", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1.0, np.nan, np.nan, np.nan, 1.0, 1.0, 1, 1.0], + "D": range(8), + } + ) + # single column + result = df.drop_duplicates("C") + expected = df[:2] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("C", keep="last") + expected = df.loc[[3, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("C", keep=False) + expected = df.loc[[]] # empty df + tm.assert_frame_equal(result, expected) + assert len(result) == 0 + + # multi column + result = df.drop_duplicates(["C", "B"]) + expected = df.loc[[0, 1, 2, 4]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["C", "B"], keep="last") + expected = df.loc[[1, 3, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates(["C", "B"], keep=False) + expected = df.loc[[1]] + tm.assert_frame_equal(result, expected) + + +def test_drop_duplicates_NA_for_take_all(): + # none + df = DataFrame( + { + "A": [None, None, "foo", "bar", "foo", "baz", "bar", "qux"], + "C": [1.0, np.nan, np.nan, np.nan, 1.0, 2.0, 3, 1.0], + } + ) + + # single column + result = df.drop_duplicates("A") + expected = df.iloc[[0, 2, 3, 5, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("A", keep="last") + expected = df.iloc[[1, 4, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("A", keep=False) + expected = df.iloc[[5, 7]] + tm.assert_frame_equal(result, expected) + + # nan + + # single column + result = df.drop_duplicates("C") + expected = df.iloc[[0, 1, 5, 6]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("C", keep="last") + expected = df.iloc[[3, 5, 6, 7]] + tm.assert_frame_equal(result, expected) + + result = df.drop_duplicates("C", keep=False) + expected = df.iloc[[5, 6]] + tm.assert_frame_equal(result, expected) + + +def test_drop_duplicates_inplace(): + orig = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "bar", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": [1, 1, 2, 2, 2, 2, 1, 2], + "D": range(8), + } + ) + # single column + df = orig.copy() + return_value = df.drop_duplicates("A", inplace=True) + expected = orig[:2] + result = df + tm.assert_frame_equal(result, expected) + assert return_value is None + + df = orig.copy() + return_value = df.drop_duplicates("A", keep="last", inplace=True) + expected = orig.loc[[6, 7]] + result = df + tm.assert_frame_equal(result, expected) + assert return_value is None + + df = orig.copy() + return_value = df.drop_duplicates("A", keep=False, inplace=True) + expected = orig.loc[[]] + result = df + tm.assert_frame_equal(result, expected) + assert len(df) == 0 + assert return_value is None + + # multi column + df = orig.copy() + return_value = df.drop_duplicates(["A", "B"], inplace=True) + expected = orig.loc[[0, 1, 2, 3]] + result = df + tm.assert_frame_equal(result, expected) + assert return_value is None + + df = orig.copy() + return_value = df.drop_duplicates(["A", "B"], keep="last", inplace=True) + expected = orig.loc[[0, 5, 6, 7]] + result = df + tm.assert_frame_equal(result, expected) + assert return_value is None + + df = orig.copy() + return_value = df.drop_duplicates(["A", "B"], keep=False, inplace=True) + expected = orig.loc[[0]] + result = df + tm.assert_frame_equal(result, expected) + assert return_value is None + + # consider everything + orig2 = orig.loc[:, ["A", "B", "C"]].copy() + + df2 = orig2.copy() + return_value = df2.drop_duplicates(inplace=True) + # in this case only + expected = orig2.drop_duplicates(["A", "B"]) + result = df2 + tm.assert_frame_equal(result, expected) + assert return_value is None + + df2 = orig2.copy() + return_value = df2.drop_duplicates(keep="last", inplace=True) + expected = orig2.drop_duplicates(["A", "B"], keep="last") + result = df2 + tm.assert_frame_equal(result, expected) + assert return_value is None + + df2 = orig2.copy() + return_value = df2.drop_duplicates(keep=False, inplace=True) + expected = orig2.drop_duplicates(["A", "B"], keep=False) + result = df2 + tm.assert_frame_equal(result, expected) + assert return_value is None + + +@pytest.mark.parametrize("inplace", [True, False]) +@pytest.mark.parametrize( + "origin_dict, output_dict, ignore_index, output_index", + [ + ({"A": [2, 2, 3]}, {"A": [2, 3]}, True, [0, 1]), + ({"A": [2, 2, 3]}, {"A": [2, 3]}, False, [0, 2]), + ({"A": [2, 2, 3], "B": [2, 2, 4]}, {"A": [2, 3], "B": [2, 4]}, True, [0, 1]), + ({"A": [2, 2, 3], "B": [2, 2, 4]}, {"A": [2, 3], "B": [2, 4]}, False, [0, 2]), + ], +) +def test_drop_duplicates_ignore_index( + inplace, origin_dict, output_dict, ignore_index, output_index +): + # GH 30114 + df = DataFrame(origin_dict) + expected = DataFrame(output_dict, index=output_index) + + if inplace: + result_df = df.copy() + result_df.drop_duplicates(ignore_index=ignore_index, inplace=inplace) + else: + result_df = df.drop_duplicates(ignore_index=ignore_index, inplace=inplace) + + tm.assert_frame_equal(result_df, expected) + tm.assert_frame_equal(df, DataFrame(origin_dict)) + + +def test_drop_duplicates_null_in_object_column(nulls_fixture): + # https://github.com/pandas-dev/pandas/issues/32992 + df = DataFrame([[1, nulls_fixture], [2, "a"]], dtype=object) + result = df.drop_duplicates() + tm.assert_frame_equal(result, df) + + +def test_drop_duplicates_series_vs_dataframe(keep): + # GH#14192 + df = DataFrame( + { + "a": [1, 1, 1, "one", "one"], + "b": [2, 2, np.nan, np.nan, np.nan], + "c": [3, 3, np.nan, np.nan, "three"], + "d": [1, 2, 3, 4, 4], + "e": [ + datetime(2015, 1, 1), + datetime(2015, 1, 1), + datetime(2015, 2, 1), + NaT, + NaT, + ], + } + ) + for column in df.columns: + dropped_frame = df[[column]].drop_duplicates(keep=keep) + dropped_series = df[column].drop_duplicates(keep=keep) + tm.assert_frame_equal(dropped_frame, dropped_series.to_frame()) + + +@pytest.mark.parametrize("arg", [[1], 1, "True", [], 0]) +def test_drop_duplicates_non_boolean_ignore_index(arg): + # GH#38274 + df = DataFrame({"a": [1, 2, 1, 3]}) + msg = '^For argument "ignore_index" expected type bool, received type .*.$' + with pytest.raises(ValueError, match=msg): + df.drop_duplicates(ignore_index=arg) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_droplevel.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_droplevel.py new file mode 100644 index 0000000000000000000000000000000000000000..e1302d4b73f2b9c8e74b06c70ec29a92c1e48723 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_droplevel.py @@ -0,0 +1,36 @@ +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, +) +import pandas._testing as tm + + +class TestDropLevel: + def test_droplevel(self, frame_or_series): + # GH#20342 + cols = MultiIndex.from_tuples( + [("c", "e"), ("d", "f")], names=["level_1", "level_2"] + ) + mi = MultiIndex.from_tuples([(1, 2), (5, 6), (9, 10)], names=["a", "b"]) + df = DataFrame([[3, 4], [7, 8], [11, 12]], index=mi, columns=cols) + if frame_or_series is not DataFrame: + df = df.iloc[:, 0] + + # test that dropping of a level in index works + expected = df.reset_index("a", drop=True) + result = df.droplevel("a", axis="index") + tm.assert_equal(result, expected) + + if frame_or_series is DataFrame: + # test that dropping of a level in columns works + expected = df.copy() + expected.columns = Index(["c", "d"], name="level_1") + result = df.droplevel("level_2", axis="columns") + tm.assert_equal(result, expected) + else: + # test that droplevel raises ValueError on axis != 0 + with pytest.raises(ValueError, match="No axis named columns"): + df.droplevel(1, axis="columns") diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dtypes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dtypes.py new file mode 100644 index 0000000000000000000000000000000000000000..524a5587dce10b477f570efa01407f0c0b190bfd --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_dtypes.py @@ -0,0 +1,150 @@ +from datetime import timedelta + +import numpy as np +import pytest + +from pandas.core.dtypes.dtypes import DatetimeTZDtype + +import pandas as pd +from pandas import ( + DataFrame, + Series, + date_range, + option_context, +) +import pandas._testing as tm + + +class TestDataFrameDataTypes: + def test_empty_frame_dtypes(self): + empty_df = DataFrame() + tm.assert_series_equal(empty_df.dtypes, Series(dtype=object)) + + nocols_df = DataFrame(index=[1, 2, 3]) + tm.assert_series_equal(nocols_df.dtypes, Series(dtype=object)) + + norows_df = DataFrame(columns=list("abc")) + tm.assert_series_equal(norows_df.dtypes, Series(object, index=list("abc"))) + + norows_int_df = DataFrame(columns=list("abc")).astype(np.int32) + tm.assert_series_equal( + norows_int_df.dtypes, Series(np.dtype("int32"), index=list("abc")) + ) + + df = DataFrame({"a": 1, "b": True, "c": 1.0}, index=[1, 2, 3]) + ex_dtypes = Series({"a": np.int64, "b": np.bool_, "c": np.float64}) + tm.assert_series_equal(df.dtypes, ex_dtypes) + + # same but for empty slice of df + tm.assert_series_equal(df[:0].dtypes, ex_dtypes) + + def test_datetime_with_tz_dtypes(self): + tzframe = DataFrame( + { + "A": date_range("20130101", periods=3), + "B": date_range("20130101", periods=3, tz="US/Eastern"), + "C": date_range("20130101", periods=3, tz="CET"), + } + ) + tzframe.iloc[1, 1] = pd.NaT + tzframe.iloc[1, 2] = pd.NaT + result = tzframe.dtypes.sort_index() + expected = Series( + [ + np.dtype("datetime64[ns]"), + DatetimeTZDtype("ns", "US/Eastern"), + DatetimeTZDtype("ns", "CET"), + ], + ["A", "B", "C"], + ) + + tm.assert_series_equal(result, expected) + + def test_dtypes_are_correct_after_column_slice(self): + # GH6525 + df = DataFrame(index=range(5), columns=list("abc"), dtype=np.float64) + tm.assert_series_equal( + df.dtypes, + Series({"a": np.float64, "b": np.float64, "c": np.float64}), + ) + tm.assert_series_equal(df.iloc[:, 2:].dtypes, Series({"c": np.float64})) + tm.assert_series_equal( + df.dtypes, + Series({"a": np.float64, "b": np.float64, "c": np.float64}), + ) + + @pytest.mark.parametrize( + "data", + [pd.NA, True], + ) + def test_dtypes_are_correct_after_groupby_last(self, data): + # GH46409 + df = DataFrame( + {"id": [1, 2, 3, 4], "test": [True, pd.NA, data, False]} + ).convert_dtypes() + result = df.groupby("id").last().test + expected = df.set_index("id").test + assert result.dtype == pd.BooleanDtype() + tm.assert_series_equal(expected, result) + + def test_dtypes_gh8722(self, float_string_frame): + float_string_frame["bool"] = float_string_frame["A"] > 0 + result = float_string_frame.dtypes + expected = Series( + {k: v.dtype for k, v in float_string_frame.items()}, index=result.index + ) + tm.assert_series_equal(result, expected) + + # compat, GH 8722 + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with option_context("use_inf_as_na", True): + df = DataFrame([[1]]) + result = df.dtypes + tm.assert_series_equal(result, Series({0: np.dtype("int64")})) + + def test_dtypes_timedeltas(self): + df = DataFrame( + { + "A": Series(date_range("2012-1-1", periods=3, freq="D")), + "B": Series([timedelta(days=i) for i in range(3)]), + } + ) + result = df.dtypes + expected = Series( + [np.dtype("datetime64[ns]"), np.dtype("timedelta64[ns]")], index=list("AB") + ) + tm.assert_series_equal(result, expected) + + df["C"] = df["A"] + df["B"] + result = df.dtypes + expected = Series( + [ + np.dtype("datetime64[ns]"), + np.dtype("timedelta64[ns]"), + np.dtype("datetime64[ns]"), + ], + index=list("ABC"), + ) + tm.assert_series_equal(result, expected) + + # mixed int types + df["D"] = 1 + result = df.dtypes + expected = Series( + [ + np.dtype("datetime64[ns]"), + np.dtype("timedelta64[ns]"), + np.dtype("datetime64[ns]"), + np.dtype("int64"), + ], + index=list("ABCD"), + ) + tm.assert_series_equal(result, expected) + + def test_frame_apply_np_array_return_type(self, using_infer_string): + # GH 35517 + df = DataFrame([["foo"]]) + result = df.apply(lambda col: np.array("bar")) + expected = Series(np.array("bar")) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_head_tail.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_head_tail.py new file mode 100644 index 0000000000000000000000000000000000000000..9363c4d79983f0530bc17666aec7ec8609fb93e4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_head_tail.py @@ -0,0 +1,57 @@ +import numpy as np + +from pandas import DataFrame +import pandas._testing as tm + + +def test_head_tail_generic(index, frame_or_series): + # GH#5370 + + ndim = 2 if frame_or_series is DataFrame else 1 + shape = (len(index),) * ndim + vals = np.random.default_rng(2).standard_normal(shape) + obj = frame_or_series(vals, index=index) + + tm.assert_equal(obj.head(), obj.iloc[:5]) + tm.assert_equal(obj.tail(), obj.iloc[-5:]) + + # 0-len + tm.assert_equal(obj.head(0), obj.iloc[0:0]) + tm.assert_equal(obj.tail(0), obj.iloc[0:0]) + + # bounded + tm.assert_equal(obj.head(len(obj) + 1), obj) + tm.assert_equal(obj.tail(len(obj) + 1), obj) + + # neg index + tm.assert_equal(obj.head(-3), obj.head(len(index) - 3)) + tm.assert_equal(obj.tail(-3), obj.tail(len(index) - 3)) + + +def test_head_tail(float_frame): + tm.assert_frame_equal(float_frame.head(), float_frame[:5]) + tm.assert_frame_equal(float_frame.tail(), float_frame[-5:]) + + tm.assert_frame_equal(float_frame.head(0), float_frame[0:0]) + tm.assert_frame_equal(float_frame.tail(0), float_frame[0:0]) + + tm.assert_frame_equal(float_frame.head(-1), float_frame[:-1]) + tm.assert_frame_equal(float_frame.tail(-1), float_frame[1:]) + tm.assert_frame_equal(float_frame.head(1), float_frame[:1]) + tm.assert_frame_equal(float_frame.tail(1), float_frame[-1:]) + # with a float index + df = float_frame.copy() + df.index = np.arange(len(float_frame)) + 0.1 + tm.assert_frame_equal(df.head(), df.iloc[:5]) + tm.assert_frame_equal(df.tail(), df.iloc[-5:]) + tm.assert_frame_equal(df.head(0), df[0:0]) + tm.assert_frame_equal(df.tail(0), df[0:0]) + tm.assert_frame_equal(df.head(-1), df.iloc[:-1]) + tm.assert_frame_equal(df.tail(-1), df.iloc[1:]) + + +def test_head_tail_empty(): + # test empty dataframe + empty_df = DataFrame() + tm.assert_frame_equal(empty_df.tail(), empty_df) + tm.assert_frame_equal(empty_df.head(), empty_df) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_size.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_size.py new file mode 100644 index 0000000000000000000000000000000000000000..0c8b6473c85ea8e4a9749e79c8b4459afe6637d8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_size.py @@ -0,0 +1,21 @@ +import numpy as np +import pytest + +from pandas import DataFrame + + +@pytest.mark.parametrize( + "data, index, expected", + [ + ({"col1": [1], "col2": [3]}, None, 2), + ({}, None, 0), + ({"col1": [1, np.nan], "col2": [3, 4]}, None, 4), + ({"col1": [1, 2], "col2": [3, 4]}, [["a", "b"], [1, 2]], 4), + ({"col1": [1, 2, 3, 4], "col2": [3, 4, 5, 6]}, ["x", "y", "a", "b"], 8), + ], +) +def test_size(data, index, expected): + # GH#52897 + df = DataFrame(data, index=index) + assert df.size == expected + assert isinstance(df.size, int) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_to_timestamp.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_to_timestamp.py new file mode 100644 index 0000000000000000000000000000000000000000..0e7e1d595d6be9250638932e7690f420b9a12fc0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_to_timestamp.py @@ -0,0 +1,154 @@ +from datetime import timedelta + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + DatetimeIndex, + PeriodIndex, + Series, + Timedelta, + date_range, + period_range, + to_datetime, +) +import pandas._testing as tm + + +def _get_with_delta(delta, freq="YE-DEC"): + return date_range( + to_datetime("1/1/2001") + delta, + to_datetime("12/31/2009") + delta, + freq=freq, + ) + + +class TestToTimestamp: + def test_to_timestamp(self, frame_or_series): + K = 5 + index = period_range(freq="Y", start="1/1/2001", end="12/1/2009") + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(index), K)), + index=index, + columns=["A", "B", "C", "D", "E"], + ) + obj["mix"] = "a" + obj = tm.get_obj(obj, frame_or_series) + + exp_index = date_range("1/1/2001", end="12/31/2009", freq="YE-DEC") + exp_index = exp_index + Timedelta(1, "D") - Timedelta(1, "ns") + result = obj.to_timestamp("D", "end") + tm.assert_index_equal(result.index, exp_index) + tm.assert_numpy_array_equal(result.values, obj.values) + if frame_or_series is Series: + assert result.name == "A" + + exp_index = date_range("1/1/2001", end="1/1/2009", freq="YS-JAN") + result = obj.to_timestamp("D", "start") + tm.assert_index_equal(result.index, exp_index) + + result = obj.to_timestamp(how="start") + tm.assert_index_equal(result.index, exp_index) + + delta = timedelta(hours=23) + result = obj.to_timestamp("H", "end") + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "h") - Timedelta(1, "ns") + tm.assert_index_equal(result.index, exp_index) + + delta = timedelta(hours=23, minutes=59) + result = obj.to_timestamp("T", "end") + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "m") - Timedelta(1, "ns") + tm.assert_index_equal(result.index, exp_index) + + result = obj.to_timestamp("S", "end") + delta = timedelta(hours=23, minutes=59, seconds=59) + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "s") - Timedelta(1, "ns") + tm.assert_index_equal(result.index, exp_index) + + def test_to_timestamp_columns(self): + K = 5 + index = period_range(freq="Y", start="1/1/2001", end="12/1/2009") + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), K)), + index=index, + columns=["A", "B", "C", "D", "E"], + ) + df["mix"] = "a" + + # columns + df = df.T + + exp_index = date_range("1/1/2001", end="12/31/2009", freq="YE-DEC") + exp_index = exp_index + Timedelta(1, "D") - Timedelta(1, "ns") + result = df.to_timestamp("D", "end", axis=1) + tm.assert_index_equal(result.columns, exp_index) + tm.assert_numpy_array_equal(result.values, df.values) + + exp_index = date_range("1/1/2001", end="1/1/2009", freq="YS-JAN") + result = df.to_timestamp("D", "start", axis=1) + tm.assert_index_equal(result.columns, exp_index) + + delta = timedelta(hours=23) + result = df.to_timestamp("H", "end", axis=1) + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "h") - Timedelta(1, "ns") + tm.assert_index_equal(result.columns, exp_index) + + delta = timedelta(hours=23, minutes=59) + result = df.to_timestamp("min", "end", axis=1) + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "m") - Timedelta(1, "ns") + tm.assert_index_equal(result.columns, exp_index) + + result = df.to_timestamp("S", "end", axis=1) + delta = timedelta(hours=23, minutes=59, seconds=59) + exp_index = _get_with_delta(delta) + exp_index = exp_index + Timedelta(1, "s") - Timedelta(1, "ns") + tm.assert_index_equal(result.columns, exp_index) + + result1 = df.to_timestamp("5min", axis=1) + result2 = df.to_timestamp("min", axis=1) + expected = date_range("2001-01-01", "2009-01-01", freq="YS") + assert isinstance(result1.columns, DatetimeIndex) + assert isinstance(result2.columns, DatetimeIndex) + tm.assert_numpy_array_equal(result1.columns.asi8, expected.asi8) + tm.assert_numpy_array_equal(result2.columns.asi8, expected.asi8) + # PeriodIndex.to_timestamp always use 'infer' + assert result1.columns.freqstr == "YS-JAN" + assert result2.columns.freqstr == "YS-JAN" + + def test_to_timestamp_invalid_axis(self): + index = period_range(freq="Y", start="1/1/2001", end="12/1/2009") + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 5)), index=index + ) + + # invalid axis + with pytest.raises(ValueError, match="axis"): + obj.to_timestamp(axis=2) + + def test_to_timestamp_hourly(self, frame_or_series): + index = period_range(freq="h", start="1/1/2001", end="1/2/2001") + obj = Series(1, index=index, name="foo") + if frame_or_series is not Series: + obj = obj.to_frame() + + exp_index = date_range("1/1/2001 00:59:59", end="1/2/2001 00:59:59", freq="h") + result = obj.to_timestamp(how="end") + exp_index = exp_index + Timedelta(1, "s") - Timedelta(1, "ns") + tm.assert_index_equal(result.index, exp_index) + if frame_or_series is Series: + assert result.name == "foo" + + def test_to_timestamp_raises(self, index, frame_or_series): + # GH#33327 + obj = frame_or_series(index=index, dtype=object) + + if not isinstance(index, PeriodIndex): + msg = f"unsupported Type {type(index).__name__}" + with pytest.raises(TypeError, match=msg): + obj.to_timestamp() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_transpose.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_transpose.py new file mode 100644 index 0000000000000000000000000000000000000000..3e74094f266d14b8752e562653cf490868dcd0b0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_transpose.py @@ -0,0 +1,209 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + DatetimeIndex, + Index, + IntervalIndex, + Series, + Timestamp, + bdate_range, + date_range, + timedelta_range, +) +import pandas._testing as tm + + +class TestTranspose: + def test_transpose_td64_intervals(self): + # GH#44917 + tdi = timedelta_range("0 Days", "3 Days") + ii = IntervalIndex.from_breaks(tdi) + ii = ii.insert(-1, np.nan) + df = DataFrame(ii) + + result = df.T + expected = DataFrame({i: ii[i : i + 1] for i in range(len(ii))}) + tm.assert_frame_equal(result, expected) + + def test_transpose_empty_preserves_datetimeindex(self): + # GH#41382 + dti = DatetimeIndex([], dtype="M8[ns]") + df = DataFrame(index=dti) + + expected = DatetimeIndex([], dtype="datetime64[ns]", freq=None) + + result1 = df.T.sum().index + result2 = df.sum(axis=1).index + + tm.assert_index_equal(result1, expected) + tm.assert_index_equal(result2, expected) + + def test_transpose_tzaware_1col_single_tz(self): + # GH#26825 + dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") + + df = DataFrame(dti) + assert (df.dtypes == dti.dtype).all() + res = df.T + assert (res.dtypes == dti.dtype).all() + + def test_transpose_tzaware_2col_single_tz(self): + # GH#26825 + dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") + + df3 = DataFrame({"A": dti, "B": dti}) + assert (df3.dtypes == dti.dtype).all() + res3 = df3.T + assert (res3.dtypes == dti.dtype).all() + + def test_transpose_tzaware_2col_mixed_tz(self): + # GH#26825 + dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") + dti2 = dti.tz_convert("US/Pacific") + + df4 = DataFrame({"A": dti, "B": dti2}) + assert (df4.dtypes == [dti.dtype, dti2.dtype]).all() + assert (df4.T.dtypes == object).all() + tm.assert_frame_equal(df4.T.T, df4.astype(object)) + + @pytest.mark.parametrize("tz", [None, "America/New_York"]) + def test_transpose_preserves_dtindex_equality_with_dst(self, tz): + # GH#19970 + idx = date_range("20161101", "20161130", freq="4h", tz=tz) + df = DataFrame({"a": range(len(idx)), "b": range(len(idx))}, index=idx) + result = df.T == df.T + expected = DataFrame(True, index=list("ab"), columns=idx) + tm.assert_frame_equal(result, expected) + + def test_transpose_object_to_tzaware_mixed_tz(self): + # GH#26825 + dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") + dti2 = dti.tz_convert("US/Pacific") + + # mixed all-tzaware dtypes + df2 = DataFrame([dti, dti2]) + assert (df2.dtypes == object).all() + res2 = df2.T + assert (res2.dtypes == object).all() + + def test_transpose_uint64(self): + df = DataFrame( + {"A": np.arange(3), "B": [2**63, 2**63 + 5, 2**63 + 10]}, + dtype=np.uint64, + ) + result = df.T + expected = DataFrame(df.values.T) + expected.index = ["A", "B"] + tm.assert_frame_equal(result, expected) + + def test_transpose_float(self, float_frame): + frame = float_frame + dft = frame.T + for idx, series in dft.items(): + for col, value in series.items(): + if np.isnan(value): + assert np.isnan(frame[col][idx]) + else: + assert value == frame[col][idx] + + def test_transpose_mixed(self): + # mixed type + mixed = DataFrame( + { + "A": [0.0, 1.0, 2.0, 3.0, 4.0], + "B": [0.0, 1.0, 0.0, 1.0, 0.0], + "C": ["foo1", "foo2", "foo3", "foo4", "foo5"], + "D": bdate_range("1/1/2009", periods=5), + }, + index=Index(["a", "b", "c", "d", "e"], dtype=object), + ) + + mixed_T = mixed.T + for col, s in mixed_T.items(): + assert s.dtype == np.object_ + + @td.skip_array_manager_invalid_test + def test_transpose_get_view(self, float_frame, using_copy_on_write): + dft = float_frame.T + dft.iloc[:, 5:10] = 5 + + if using_copy_on_write: + assert (float_frame.values[5:10] != 5).all() + else: + assert (float_frame.values[5:10] == 5).all() + + @td.skip_array_manager_invalid_test + def test_transpose_get_view_dt64tzget_view(self, using_copy_on_write): + dti = date_range("2016-01-01", periods=6, tz="US/Pacific") + arr = dti._data.reshape(3, 2) + df = DataFrame(arr) + assert df._mgr.nblocks == 1 + + result = df.T + assert result._mgr.nblocks == 1 + + rtrip = result._mgr.blocks[0].values + if using_copy_on_write: + assert np.shares_memory(df._mgr.blocks[0].values._ndarray, rtrip._ndarray) + else: + assert np.shares_memory(arr._ndarray, rtrip._ndarray) + + def test_transpose_not_inferring_dt(self): + # GH#51546 + df = DataFrame( + { + "a": [Timestamp("2019-12-31"), Timestamp("2019-12-31")], + }, + dtype=object, + ) + result = df.T + expected = DataFrame( + [[Timestamp("2019-12-31"), Timestamp("2019-12-31")]], + columns=[0, 1], + index=["a"], + dtype=object, + ) + tm.assert_frame_equal(result, expected) + + def test_transpose_not_inferring_dt_mixed_blocks(self): + # GH#51546 + df = DataFrame( + { + "a": Series( + [Timestamp("2019-12-31"), Timestamp("2019-12-31")], dtype=object + ), + "b": [Timestamp("2019-12-31"), Timestamp("2019-12-31")], + } + ) + result = df.T + expected = DataFrame( + [ + [Timestamp("2019-12-31"), Timestamp("2019-12-31")], + [Timestamp("2019-12-31"), Timestamp("2019-12-31")], + ], + columns=[0, 1], + index=["a", "b"], + dtype=object, + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dtype1", ["Int64", "Float64"]) + @pytest.mark.parametrize("dtype2", ["Int64", "Float64"]) + def test_transpose(self, dtype1, dtype2): + # GH#57315 - transpose should have F contiguous blocks + df = DataFrame( + { + "a": pd.array([1, 1, 2], dtype=dtype1), + "b": pd.array([3, 4, 5], dtype=dtype2), + } + ) + result = df.T + for blk in result._mgr.blocks: + # When dtypes are unequal, we get NumPy object array + data = blk.values._data if dtype1 == dtype2 else blk.values + assert data.flags["F_CONTIGUOUS"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_convert.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_convert.py new file mode 100644 index 0000000000000000000000000000000000000000..bcb8e423980fdc06195846a6d79afa00f8e691fd --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_convert.py @@ -0,0 +1,131 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + date_range, +) +import pandas._testing as tm + + +class TestTZConvert: + def test_tz_convert(self, frame_or_series): + rng = date_range("1/1/2011", periods=200, freq="D", tz="US/Eastern") + + obj = DataFrame({"a": 1}, index=rng) + obj = tm.get_obj(obj, frame_or_series) + + result = obj.tz_convert("Europe/Berlin") + expected = DataFrame({"a": 1}, rng.tz_convert("Europe/Berlin")) + expected = tm.get_obj(expected, frame_or_series) + + assert result.index.tz.zone == "Europe/Berlin" + tm.assert_equal(result, expected) + + def test_tz_convert_axis1(self): + rng = date_range("1/1/2011", periods=200, freq="D", tz="US/Eastern") + + obj = DataFrame({"a": 1}, index=rng) + + obj = obj.T + result = obj.tz_convert("Europe/Berlin", axis=1) + assert result.columns.tz.zone == "Europe/Berlin" + + expected = DataFrame({"a": 1}, rng.tz_convert("Europe/Berlin")) + + tm.assert_equal(result, expected.T) + + def test_tz_convert_naive(self, frame_or_series): + # can't convert tz-naive + rng = date_range("1/1/2011", periods=200, freq="D") + ts = Series(1, index=rng) + ts = frame_or_series(ts) + + with pytest.raises(TypeError, match="Cannot convert tz-naive"): + ts.tz_convert("US/Eastern") + + @pytest.mark.parametrize("fn", ["tz_localize", "tz_convert"]) + def test_tz_convert_and_localize(self, fn): + l0 = date_range("20140701", periods=5, freq="D") + l1 = date_range("20140701", periods=5, freq="D") + + int_idx = Index(range(5)) + + if fn == "tz_convert": + l0 = l0.tz_localize("UTC") + l1 = l1.tz_localize("UTC") + + for idx in [l0, l1]: + l0_expected = getattr(idx, fn)("US/Pacific") + l1_expected = getattr(idx, fn)("US/Pacific") + + df1 = DataFrame(np.ones(5), index=l0) + df1 = getattr(df1, fn)("US/Pacific") + tm.assert_index_equal(df1.index, l0_expected) + + # MultiIndex + # GH7846 + df2 = DataFrame(np.ones(5), MultiIndex.from_arrays([l0, l1])) + + # freq is not preserved in MultiIndex construction + l1_expected = l1_expected._with_freq(None) + l0_expected = l0_expected._with_freq(None) + l1 = l1._with_freq(None) + l0 = l0._with_freq(None) + + df3 = getattr(df2, fn)("US/Pacific", level=0) + assert not df3.index.levels[0].equals(l0) + tm.assert_index_equal(df3.index.levels[0], l0_expected) + tm.assert_index_equal(df3.index.levels[1], l1) + assert not df3.index.levels[1].equals(l1_expected) + + df3 = getattr(df2, fn)("US/Pacific", level=1) + tm.assert_index_equal(df3.index.levels[0], l0) + assert not df3.index.levels[0].equals(l0_expected) + tm.assert_index_equal(df3.index.levels[1], l1_expected) + assert not df3.index.levels[1].equals(l1) + + df4 = DataFrame(np.ones(5), MultiIndex.from_arrays([int_idx, l0])) + + # TODO: untested + getattr(df4, fn)("US/Pacific", level=1) + + tm.assert_index_equal(df3.index.levels[0], l0) + assert not df3.index.levels[0].equals(l0_expected) + tm.assert_index_equal(df3.index.levels[1], l1_expected) + assert not df3.index.levels[1].equals(l1) + + # Bad Inputs + + # Not DatetimeIndex / PeriodIndex + with pytest.raises(TypeError, match="DatetimeIndex"): + df = DataFrame(index=int_idx) + getattr(df, fn)("US/Pacific") + + # Not DatetimeIndex / PeriodIndex + with pytest.raises(TypeError, match="DatetimeIndex"): + df = DataFrame(np.ones(5), MultiIndex.from_arrays([int_idx, l0])) + getattr(df, fn)("US/Pacific", level=0) + + # Invalid level + with pytest.raises(ValueError, match="not valid"): + df = DataFrame(index=l0) + getattr(df, fn)("US/Pacific", level=1) + + @pytest.mark.parametrize("copy", [True, False]) + def test_tz_convert_copy_inplace_mutate(self, copy, frame_or_series): + # GH#6326 + obj = frame_or_series( + np.arange(0, 5), + index=date_range("20131027", periods=5, freq="h", tz="Europe/Berlin"), + ) + orig = obj.copy() + result = obj.tz_convert("UTC", copy=copy) + expected = frame_or_series(np.arange(0, 5), index=obj.index.tz_convert("UTC")) + tm.assert_equal(result, expected) + tm.assert_equal(obj, orig) + assert result.index is not obj.index + assert result is not obj diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_localize.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_localize.py new file mode 100644 index 0000000000000000000000000000000000000000..b167afc17f484cce36c3909222b3f3d80ff4c926 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_tz_localize.py @@ -0,0 +1,68 @@ +from datetime import timezone + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +class TestTZLocalize: + # See also: + # test_tz_convert_and_localize in test_tz_convert + + def test_tz_localize(self, frame_or_series): + rng = date_range("1/1/2011", periods=100, freq="h") + + obj = DataFrame({"a": 1}, index=rng) + obj = tm.get_obj(obj, frame_or_series) + + result = obj.tz_localize("utc") + expected = DataFrame({"a": 1}, rng.tz_localize("UTC")) + expected = tm.get_obj(expected, frame_or_series) + + assert result.index.tz is timezone.utc + tm.assert_equal(result, expected) + + def test_tz_localize_axis1(self): + rng = date_range("1/1/2011", periods=100, freq="h") + + df = DataFrame({"a": 1}, index=rng) + + df = df.T + result = df.tz_localize("utc", axis=1) + assert result.columns.tz is timezone.utc + + expected = DataFrame({"a": 1}, rng.tz_localize("UTC")) + + tm.assert_frame_equal(result, expected.T) + + def test_tz_localize_naive(self, frame_or_series): + # Can't localize if already tz-aware + rng = date_range("1/1/2011", periods=100, freq="h", tz="utc") + ts = Series(1, index=rng) + ts = frame_or_series(ts) + + with pytest.raises(TypeError, match="Already tz-aware"): + ts.tz_localize("US/Eastern") + + @pytest.mark.parametrize("copy", [True, False]) + def test_tz_localize_copy_inplace_mutate(self, copy, frame_or_series): + # GH#6326 + obj = frame_or_series( + np.arange(0, 5), index=date_range("20131027", periods=5, freq="1h", tz=None) + ) + orig = obj.copy() + result = obj.tz_localize("UTC", copy=copy) + expected = frame_or_series( + np.arange(0, 5), + index=date_range("20131027", periods=5, freq="1h", tz="UTC"), + ) + tm.assert_equal(result, expected) + tm.assert_equal(obj, orig) + assert result.index is not obj.index + assert result is not obj diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_update.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_update.py new file mode 100644 index 0000000000000000000000000000000000000000..56700ab6bd1f7327ba7622f6d2cb7418c96146ab --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_update.py @@ -0,0 +1,204 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameUpdate: + def test_update_nan(self): + # #15593 #15617 + # test 1 + df1 = DataFrame({"A": [1.0, 2, 3], "B": date_range("2000", periods=3)}) + df2 = DataFrame({"A": [None, 2, 3]}) + expected = df1.copy() + df1.update(df2, overwrite=False) + + tm.assert_frame_equal(df1, expected) + + # test 2 + df1 = DataFrame({"A": [1.0, None, 3], "B": date_range("2000", periods=3)}) + df2 = DataFrame({"A": [None, 2, 3]}) + expected = DataFrame({"A": [1.0, 2, 3], "B": date_range("2000", periods=3)}) + df1.update(df2, overwrite=False) + + tm.assert_frame_equal(df1, expected) + + def test_update(self): + df = DataFrame( + [[1.5, np.nan, 3.0], [1.5, np.nan, 3.0], [1.5, np.nan, 3], [1.5, np.nan, 3]] + ) + + other = DataFrame([[3.6, 2.0, np.nan], [np.nan, np.nan, 7]], index=[1, 3]) + + df.update(other) + + expected = DataFrame( + [[1.5, np.nan, 3], [3.6, 2, 3], [1.5, np.nan, 3], [1.5, np.nan, 7.0]] + ) + tm.assert_frame_equal(df, expected) + + def test_update_dtypes(self): + # gh 3016 + df = DataFrame( + [[1.0, 2.0, 1, False, True], [4.0, 5.0, 2, True, False]], + columns=["A", "B", "int", "bool1", "bool2"], + ) + + other = DataFrame( + [[45, 45, 3, True]], index=[0], columns=["A", "B", "int", "bool1"] + ) + df.update(other) + + expected = DataFrame( + [[45.0, 45.0, 3, True, True], [4.0, 5.0, 2, True, False]], + columns=["A", "B", "int", "bool1", "bool2"], + ) + tm.assert_frame_equal(df, expected) + + def test_update_nooverwrite(self): + df = DataFrame( + [[1.5, np.nan, 3.0], [1.5, np.nan, 3.0], [1.5, np.nan, 3], [1.5, np.nan, 3]] + ) + + other = DataFrame([[3.6, 2.0, np.nan], [np.nan, np.nan, 7]], index=[1, 3]) + + df.update(other, overwrite=False) + + expected = DataFrame( + [[1.5, np.nan, 3], [1.5, 2, 3], [1.5, np.nan, 3], [1.5, np.nan, 3.0]] + ) + tm.assert_frame_equal(df, expected) + + def test_update_filtered(self): + df = DataFrame( + [[1.5, np.nan, 3.0], [1.5, np.nan, 3.0], [1.5, np.nan, 3], [1.5, np.nan, 3]] + ) + + other = DataFrame([[3.6, 2.0, np.nan], [np.nan, np.nan, 7]], index=[1, 3]) + + df.update(other, filter_func=lambda x: x > 2) + + expected = DataFrame( + [[1.5, np.nan, 3], [1.5, np.nan, 3], [1.5, np.nan, 3], [1.5, np.nan, 7.0]] + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "bad_kwarg, exception, msg", + [ + # errors must be 'ignore' or 'raise' + ({"errors": "something"}, ValueError, "The parameter errors must.*"), + ({"join": "inner"}, NotImplementedError, "Only left join is supported"), + ], + ) + def test_update_raise_bad_parameter(self, bad_kwarg, exception, msg): + df = DataFrame([[1.5, 1, 3.0]]) + with pytest.raises(exception, match=msg): + df.update(df, **bad_kwarg) + + def test_update_raise_on_overlap(self): + df = DataFrame( + [[1.5, 1, 3.0], [1.5, np.nan, 3.0], [1.5, np.nan, 3], [1.5, np.nan, 3]] + ) + + other = DataFrame([[2.0, np.nan], [np.nan, 7]], index=[1, 3], columns=[1, 2]) + with pytest.raises(ValueError, match="Data overlaps"): + df.update(other, errors="raise") + + def test_update_from_non_df(self): + d = {"a": Series([1, 2, 3, 4]), "b": Series([5, 6, 7, 8])} + df = DataFrame(d) + + d["a"] = Series([5, 6, 7, 8]) + df.update(d) + + expected = DataFrame(d) + + tm.assert_frame_equal(df, expected) + + d = {"a": [1, 2, 3, 4], "b": [5, 6, 7, 8]} + df = DataFrame(d) + + d["a"] = [5, 6, 7, 8] + df.update(d) + + expected = DataFrame(d) + + tm.assert_frame_equal(df, expected) + + def test_update_datetime_tz(self): + # GH 25807 + result = DataFrame([pd.Timestamp("2019", tz="UTC")]) + with tm.assert_produces_warning(None): + result.update(result) + expected = DataFrame([pd.Timestamp("2019", tz="UTC")]) + tm.assert_frame_equal(result, expected) + + def test_update_datetime_tz_in_place(self, using_copy_on_write, warn_copy_on_write): + # https://github.com/pandas-dev/pandas/issues/56227 + result = DataFrame([pd.Timestamp("2019", tz="UTC")]) + orig = result.copy() + view = result[:] + with tm.assert_produces_warning( + FutureWarning if warn_copy_on_write else None, match="Setting a value" + ): + result.update(result + pd.Timedelta(days=1)) + expected = DataFrame([pd.Timestamp("2019-01-02", tz="UTC")]) + tm.assert_frame_equal(result, expected) + if not using_copy_on_write: + tm.assert_frame_equal(view, expected) + else: + tm.assert_frame_equal(view, orig) + + def test_update_with_different_dtype(self, using_copy_on_write): + # GH#3217 + df = DataFrame({"a": [1, 3], "b": [np.nan, 2]}) + df["c"] = np.nan + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.update({"c": Series(["foo"], index=[0])}) + + expected = DataFrame( + { + "a": [1, 3], + "b": [np.nan, 2], + "c": Series(["foo", np.nan]), + } + ) + tm.assert_frame_equal(df, expected) + + @td.skip_array_manager_invalid_test + def test_update_modify_view( + self, using_copy_on_write, warn_copy_on_write, using_infer_string + ): + # GH#47188 + df = DataFrame({"A": ["1", np.nan], "B": ["100", np.nan]}) + df2 = DataFrame({"A": ["a", "x"], "B": ["100", "200"]}) + df2_orig = df2.copy() + result_view = df2[:] + # TODO(CoW-warn) better warning message + with tm.assert_cow_warning(warn_copy_on_write): + df2.update(df) + expected = DataFrame({"A": ["1", "x"], "B": ["100", "200"]}) + tm.assert_frame_equal(df2, expected) + if using_copy_on_write or using_infer_string: + tm.assert_frame_equal(result_view, df2_orig) + else: + tm.assert_frame_equal(result_view, expected) + + def test_update_dt_column_with_NaT_create_column(self): + # GH#16713 + df = DataFrame({"A": [1, None], "B": [pd.NaT, pd.to_datetime("2016-01-01")]}) + df2 = DataFrame({"A": [2, 3]}) + df.update(df2, overwrite=False) + expected = DataFrame( + {"A": [1.0, 3.0], "B": [pd.NaT, pd.to_datetime("2016-01-01")]} + ) + tm.assert_frame_equal(df, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_value_counts.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_value_counts.py new file mode 100644 index 0000000000000000000000000000000000000000..4136d641ef67f2d289142b34db7a2616de24ad24 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_value_counts.py @@ -0,0 +1,205 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +def test_data_frame_value_counts_unsorted(): + df = pd.DataFrame( + {"num_legs": [2, 4, 4, 6], "num_wings": [2, 0, 0, 0]}, + index=["falcon", "dog", "cat", "ant"], + ) + + result = df.value_counts(sort=False) + expected = pd.Series( + data=[1, 2, 1], + index=pd.MultiIndex.from_arrays( + [(2, 4, 6), (2, 0, 0)], names=["num_legs", "num_wings"] + ), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_ascending(): + df = pd.DataFrame( + {"num_legs": [2, 4, 4, 6], "num_wings": [2, 0, 0, 0]}, + index=["falcon", "dog", "cat", "ant"], + ) + + result = df.value_counts(ascending=True) + expected = pd.Series( + data=[1, 1, 2], + index=pd.MultiIndex.from_arrays( + [(2, 6, 4), (2, 0, 0)], names=["num_legs", "num_wings"] + ), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_default(): + df = pd.DataFrame( + {"num_legs": [2, 4, 4, 6], "num_wings": [2, 0, 0, 0]}, + index=["falcon", "dog", "cat", "ant"], + ) + + result = df.value_counts() + expected = pd.Series( + data=[2, 1, 1], + index=pd.MultiIndex.from_arrays( + [(4, 2, 6), (0, 2, 0)], names=["num_legs", "num_wings"] + ), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_normalize(): + df = pd.DataFrame( + {"num_legs": [2, 4, 4, 6], "num_wings": [2, 0, 0, 0]}, + index=["falcon", "dog", "cat", "ant"], + ) + + result = df.value_counts(normalize=True) + expected = pd.Series( + data=[0.5, 0.25, 0.25], + index=pd.MultiIndex.from_arrays( + [(4, 2, 6), (0, 2, 0)], names=["num_legs", "num_wings"] + ), + name="proportion", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_single_col_default(): + df = pd.DataFrame({"num_legs": [2, 4, 4, 6]}) + + result = df.value_counts() + expected = pd.Series( + data=[2, 1, 1], + index=pd.MultiIndex.from_arrays([[4, 2, 6]], names=["num_legs"]), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_empty(): + df_no_cols = pd.DataFrame() + + result = df_no_cols.value_counts() + expected = pd.Series( + [], dtype=np.int64, name="count", index=np.array([], dtype=np.intp) + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_empty_normalize(): + df_no_cols = pd.DataFrame() + + result = df_no_cols.value_counts(normalize=True) + expected = pd.Series( + [], dtype=np.float64, name="proportion", index=np.array([], dtype=np.intp) + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_dropna_true(nulls_fixture): + # GH 41334 + df = pd.DataFrame( + { + "first_name": ["John", "Anne", "John", "Beth"], + "middle_name": ["Smith", nulls_fixture, nulls_fixture, "Louise"], + }, + ) + result = df.value_counts() + expected = pd.Series( + data=[1, 1], + index=pd.MultiIndex.from_arrays( + [("Beth", "John"), ("Louise", "Smith")], names=["first_name", "middle_name"] + ), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_data_frame_value_counts_dropna_false(nulls_fixture): + # GH 41334 + df = pd.DataFrame( + { + "first_name": ["John", "Anne", "John", "Beth"], + "middle_name": ["Smith", nulls_fixture, nulls_fixture, "Louise"], + }, + ) + + result = df.value_counts(dropna=False) + expected = pd.Series( + data=[1, 1, 1, 1], + index=pd.MultiIndex( + levels=[ + pd.Index(["Anne", "Beth", "John"]), + pd.Index(["Louise", "Smith", np.nan]), + ], + codes=[[0, 1, 2, 2], [2, 0, 1, 2]], + names=["first_name", "middle_name"], + ), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("columns", (["first_name", "middle_name"], [0, 1])) +def test_data_frame_value_counts_subset(nulls_fixture, columns): + # GH 50829 + df = pd.DataFrame( + { + columns[0]: ["John", "Anne", "John", "Beth"], + columns[1]: ["Smith", nulls_fixture, nulls_fixture, "Louise"], + }, + ) + result = df.value_counts(columns[0]) + expected = pd.Series( + data=[2, 1, 1], + index=pd.Index(["John", "Anne", "Beth"], name=columns[0]), + name="count", + ) + + tm.assert_series_equal(result, expected) + + +def test_value_counts_categorical_future_warning(): + # GH#54775 + df = pd.DataFrame({"a": [1, 2, 3]}, dtype="category") + result = df.value_counts() + expected = pd.Series( + 1, + index=pd.MultiIndex.from_arrays( + [pd.Index([1, 2, 3], name="a", dtype="category")] + ), + name="count", + ) + tm.assert_series_equal(result, expected) + + +def test_value_counts_with_missing_category(): + # GH-54836 + df = pd.DataFrame({"a": pd.Categorical([1, 2, 4], categories=[1, 2, 3, 4])}) + result = df.value_counts() + expected = pd.Series( + [1, 1, 1, 0], + index=pd.MultiIndex.from_arrays( + [pd.CategoricalIndex([1, 2, 4, 3], categories=[1, 2, 3, 4], name="a")] + ), + name="count", + ) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_values.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_values.py new file mode 100644 index 0000000000000000000000000000000000000000..bbca4ee1b88b1b756ea27140d2944d349049c37c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/methods/test_values.py @@ -0,0 +1,280 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +from pandas import ( + DataFrame, + NaT, + Series, + Timestamp, + date_range, + period_range, +) +import pandas._testing as tm + + +class TestDataFrameValues: + @td.skip_array_manager_invalid_test + def test_values(self, float_frame, using_copy_on_write): + if using_copy_on_write: + with pytest.raises(ValueError, match="read-only"): + float_frame.values[:, 0] = 5.0 + assert (float_frame.values[:, 0] != 5).all() + else: + float_frame.values[:, 0] = 5.0 + assert (float_frame.values[:, 0] == 5).all() + + def test_more_values(self, float_string_frame): + values = float_string_frame.values + assert values.shape[1] == len(float_string_frame.columns) + + def test_values_mixed_dtypes(self, float_frame, float_string_frame): + frame = float_frame + arr = frame.values + + frame_cols = frame.columns + for i, row in enumerate(arr): + for j, value in enumerate(row): + col = frame_cols[j] + if np.isnan(value): + assert np.isnan(frame[col].iloc[i]) + else: + assert value == frame[col].iloc[i] + + # mixed type + arr = float_string_frame[["foo", "A"]].values + assert arr[0, 0] == "bar" + + df = DataFrame({"complex": [1j, 2j, 3j], "real": [1, 2, 3]}) + arr = df.values + assert arr[0, 0] == 1j + + def test_values_duplicates(self): + df = DataFrame( + [[1, 2, "a", "b"], [1, 2, "a", "b"]], columns=["one", "one", "two", "two"] + ) + + result = df.values + expected = np.array([[1, 2, "a", "b"], [1, 2, "a", "b"]], dtype=object) + + tm.assert_numpy_array_equal(result, expected) + + def test_values_with_duplicate_columns(self): + df = DataFrame([[1, 2.5], [3, 4.5]], index=[1, 2], columns=["x", "x"]) + result = df.values + expected = np.array([[1, 2.5], [3, 4.5]]) + assert (result == expected).all().all() + + @pytest.mark.parametrize("constructor", [date_range, period_range]) + def test_values_casts_datetimelike_to_object(self, constructor): + series = Series(constructor("2000-01-01", periods=10, freq="D")) + + expected = series.astype("object") + + df = DataFrame( + {"a": series, "b": np.random.default_rng(2).standard_normal(len(series))} + ) + + result = df.values.squeeze() + assert (result[:, 0] == expected.values).all() + + df = DataFrame({"a": series, "b": ["foo"] * len(series)}) + + result = df.values.squeeze() + assert (result[:, 0] == expected.values).all() + + def test_frame_values_with_tz(self): + tz = "US/Central" + df = DataFrame({"A": date_range("2000", periods=4, tz=tz)}) + result = df.values + expected = np.array( + [ + [Timestamp("2000-01-01", tz=tz)], + [Timestamp("2000-01-02", tz=tz)], + [Timestamp("2000-01-03", tz=tz)], + [Timestamp("2000-01-04", tz=tz)], + ] + ) + tm.assert_numpy_array_equal(result, expected) + + # two columns, homogeneous + + df["B"] = df["A"] + result = df.values + expected = np.concatenate([expected, expected], axis=1) + tm.assert_numpy_array_equal(result, expected) + + # three columns, heterogeneous + est = "US/Eastern" + df["C"] = df["A"].dt.tz_convert(est) + + new = np.array( + [ + [Timestamp("2000-01-01T01:00:00", tz=est)], + [Timestamp("2000-01-02T01:00:00", tz=est)], + [Timestamp("2000-01-03T01:00:00", tz=est)], + [Timestamp("2000-01-04T01:00:00", tz=est)], + ] + ) + expected = np.concatenate([expected, new], axis=1) + result = df.values + tm.assert_numpy_array_equal(result, expected) + + def test_interleave_with_tzaware(self, timezone_frame): + # interleave with object + result = timezone_frame.assign(D="foo").values + expected = np.array( + [ + [ + Timestamp("2013-01-01 00:00:00"), + Timestamp("2013-01-02 00:00:00"), + Timestamp("2013-01-03 00:00:00"), + ], + [ + Timestamp("2013-01-01 00:00:00-0500", tz="US/Eastern"), + NaT, + Timestamp("2013-01-03 00:00:00-0500", tz="US/Eastern"), + ], + [ + Timestamp("2013-01-01 00:00:00+0100", tz="CET"), + NaT, + Timestamp("2013-01-03 00:00:00+0100", tz="CET"), + ], + ["foo", "foo", "foo"], + ], + dtype=object, + ).T + tm.assert_numpy_array_equal(result, expected) + + # interleave with only datetime64[ns] + result = timezone_frame.values + expected = np.array( + [ + [ + Timestamp("2013-01-01 00:00:00"), + Timestamp("2013-01-02 00:00:00"), + Timestamp("2013-01-03 00:00:00"), + ], + [ + Timestamp("2013-01-01 00:00:00-0500", tz="US/Eastern"), + NaT, + Timestamp("2013-01-03 00:00:00-0500", tz="US/Eastern"), + ], + [ + Timestamp("2013-01-01 00:00:00+0100", tz="CET"), + NaT, + Timestamp("2013-01-03 00:00:00+0100", tz="CET"), + ], + ], + dtype=object, + ).T + tm.assert_numpy_array_equal(result, expected) + + def test_values_interleave_non_unique_cols(self): + df = DataFrame( + [[Timestamp("20130101"), 3.5], [Timestamp("20130102"), 4.5]], + columns=["x", "x"], + index=[1, 2], + ) + + df_unique = df.copy() + df_unique.columns = ["x", "y"] + assert df_unique.values.shape == df.values.shape + tm.assert_numpy_array_equal(df_unique.values[0], df.values[0]) + tm.assert_numpy_array_equal(df_unique.values[1], df.values[1]) + + def test_values_numeric_cols(self, float_frame): + float_frame["foo"] = "bar" + + values = float_frame[["A", "B", "C", "D"]].values + assert values.dtype == np.float64 + + def test_values_lcd(self, mixed_float_frame, mixed_int_frame): + # mixed lcd + values = mixed_float_frame[["A", "B", "C", "D"]].values + assert values.dtype == np.float64 + + values = mixed_float_frame[["A", "B", "C"]].values + assert values.dtype == np.float32 + + values = mixed_float_frame[["C"]].values + assert values.dtype == np.float16 + + # GH#10364 + # B uint64 forces float because there are other signed int types + values = mixed_int_frame[["A", "B", "C", "D"]].values + assert values.dtype == np.float64 + + values = mixed_int_frame[["A", "D"]].values + assert values.dtype == np.int64 + + # B uint64 forces float because there are other signed int types + values = mixed_int_frame[["A", "B", "C"]].values + assert values.dtype == np.float64 + + # as B and C are both unsigned, no forcing to float is needed + values = mixed_int_frame[["B", "C"]].values + assert values.dtype == np.uint64 + + values = mixed_int_frame[["A", "C"]].values + assert values.dtype == np.int32 + + values = mixed_int_frame[["C", "D"]].values + assert values.dtype == np.int64 + + values = mixed_int_frame[["A"]].values + assert values.dtype == np.int32 + + values = mixed_int_frame[["C"]].values + assert values.dtype == np.uint8 + + +class TestPrivateValues: + @td.skip_array_manager_invalid_test + def test_private_values_dt64tz(self, using_copy_on_write): + dta = date_range("2000", periods=4, tz="US/Central")._data.reshape(-1, 1) + + df = DataFrame(dta, columns=["A"]) + tm.assert_equal(df._values, dta) + + if using_copy_on_write: + assert not np.shares_memory(df._values._ndarray, dta._ndarray) + else: + # we have a view + assert np.shares_memory(df._values._ndarray, dta._ndarray) + + # TimedeltaArray + tda = dta - dta + df2 = df - df + tm.assert_equal(df2._values, tda) + + @td.skip_array_manager_invalid_test + def test_private_values_dt64tz_multicol(self, using_copy_on_write): + dta = date_range("2000", periods=8, tz="US/Central")._data.reshape(-1, 2) + + df = DataFrame(dta, columns=["A", "B"]) + tm.assert_equal(df._values, dta) + + if using_copy_on_write: + assert not np.shares_memory(df._values._ndarray, dta._ndarray) + else: + # we have a view + assert np.shares_memory(df._values._ndarray, dta._ndarray) + + # TimedeltaArray + tda = dta - dta + df2 = df - df + tm.assert_equal(df2._values, tda) + + def test_private_values_dt64_multiblock(self): + dta = date_range("2000", periods=8)._data + + df = DataFrame({"A": dta[:4]}, copy=False) + df["B"] = dta[4:] + + assert len(df._mgr.arrays) == 2 + + result = df._values + expected = dta.reshape(2, 4).T + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_alter_axes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_alter_axes.py new file mode 100644 index 0000000000000000000000000000000000000000..c68171ab254c7c8582a206a8e9b44b3845c47efc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_alter_axes.py @@ -0,0 +1,30 @@ +from datetime import datetime + +import pytz + +from pandas import DataFrame +import pandas._testing as tm + + +class TestDataFrameAlterAxes: + # Tests for setting index/columns attributes directly (i.e. __setattr__) + + def test_set_axis_setattr_index(self): + # GH 6785 + # set the index manually + + df = DataFrame([{"ts": datetime(2014, 4, 1, tzinfo=pytz.utc), "foo": 1}]) + expected = df.set_index("ts") + df.index = df["ts"] + df.pop("ts") + tm.assert_frame_equal(df, expected) + + # Renaming + + def test_assign_columns(self, float_frame): + float_frame["hi"] = "there" + + df = float_frame.copy() + df.columns = ["foo", "bar", "baz", "quux", "foo2"] + tm.assert_series_equal(float_frame["C"], df["baz"], check_names=False) + tm.assert_series_equal(float_frame["hi"], df["foo2"], check_names=False) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_api.py new file mode 100644 index 0000000000000000000000000000000000000000..6c6944f806a2ae77b4a826684a9474769cd18e30 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_api.py @@ -0,0 +1,395 @@ +from copy import deepcopy +import inspect +import pydoc + +import numpy as np +import pytest + +from pandas._config import using_string_dtype +from pandas._config.config import option_context + +from pandas.compat import HAS_PYARROW + +import pandas as pd +from pandas import ( + DataFrame, + Series, + date_range, + timedelta_range, +) +import pandas._testing as tm + + +class TestDataFrameMisc: + def test_getitem_pop_assign_name(self, float_frame): + s = float_frame["A"] + assert s.name == "A" + + s = float_frame.pop("A") + assert s.name == "A" + + s = float_frame.loc[:, "B"] + assert s.name == "B" + + s2 = s.loc[:] + assert s2.name == "B" + + def test_get_axis(self, float_frame): + f = float_frame + assert f._get_axis_number(0) == 0 + assert f._get_axis_number(1) == 1 + assert f._get_axis_number("index") == 0 + assert f._get_axis_number("rows") == 0 + assert f._get_axis_number("columns") == 1 + + assert f._get_axis_name(0) == "index" + assert f._get_axis_name(1) == "columns" + assert f._get_axis_name("index") == "index" + assert f._get_axis_name("rows") == "index" + assert f._get_axis_name("columns") == "columns" + + assert f._get_axis(0) is f.index + assert f._get_axis(1) is f.columns + + with pytest.raises(ValueError, match="No axis named"): + f._get_axis_number(2) + + with pytest.raises(ValueError, match="No axis.*foo"): + f._get_axis_name("foo") + + with pytest.raises(ValueError, match="No axis.*None"): + f._get_axis_name(None) + + with pytest.raises(ValueError, match="No axis named"): + f._get_axis_number(None) + + def test_column_contains_raises(self, float_frame): + with pytest.raises(TypeError, match="unhashable type: 'Index'"): + float_frame.columns in float_frame + + def test_tab_completion(self): + # DataFrame whose columns are identifiers shall have them in __dir__. + df = DataFrame([list("abcd"), list("efgh")], columns=list("ABCD")) + for key in list("ABCD"): + assert key in dir(df) + assert isinstance(df.__getitem__("A"), Series) + + # DataFrame whose first-level columns are identifiers shall have + # them in __dir__. + df = DataFrame( + [list("abcd"), list("efgh")], + columns=pd.MultiIndex.from_tuples(list(zip("ABCD", "EFGH"))), + ) + for key in list("ABCD"): + assert key in dir(df) + for key in list("EFGH"): + assert key not in dir(df) + assert isinstance(df.__getitem__("A"), DataFrame) + + def test_display_max_dir_items(self): + # display.max_dir_items increaes the number of columns that are in __dir__. + columns = ["a" + str(i) for i in range(420)] + values = [range(420), range(420)] + df = DataFrame(values, columns=columns) + + # The default value for display.max_dir_items is 100 + assert "a99" in dir(df) + assert "a100" not in dir(df) + + with option_context("display.max_dir_items", 300): + df = DataFrame(values, columns=columns) + assert "a299" in dir(df) + assert "a300" not in dir(df) + + with option_context("display.max_dir_items", None): + df = DataFrame(values, columns=columns) + assert "a419" in dir(df) + + def test_not_hashable(self): + empty_frame = DataFrame() + + df = DataFrame([1]) + msg = "unhashable type: 'DataFrame'" + with pytest.raises(TypeError, match=msg): + hash(df) + with pytest.raises(TypeError, match=msg): + hash(empty_frame) + + @pytest.mark.xfail( + using_string_dtype() and HAS_PYARROW, reason="surrogates not allowed" + ) + def test_column_name_contains_unicode_surrogate(self): + # GH 25509 + colname = "\ud83d" + df = DataFrame({colname: []}) + # this should not crash + assert colname not in dir(df) + assert df.columns[0] == colname + + def test_new_empty_index(self): + df1 = DataFrame(np.random.default_rng(2).standard_normal((0, 3))) + df2 = DataFrame(np.random.default_rng(2).standard_normal((0, 3))) + df1.index.name = "foo" + assert df2.index.name is None + + def test_get_agg_axis(self, float_frame): + cols = float_frame._get_agg_axis(0) + assert cols is float_frame.columns + + idx = float_frame._get_agg_axis(1) + assert idx is float_frame.index + + msg = r"Axis must be 0 or 1 \(got 2\)" + with pytest.raises(ValueError, match=msg): + float_frame._get_agg_axis(2) + + def test_empty(self, float_frame, float_string_frame): + empty_frame = DataFrame() + assert empty_frame.empty + + assert not float_frame.empty + assert not float_string_frame.empty + + # corner case + df = DataFrame({"A": [1.0, 2.0, 3.0], "B": ["a", "b", "c"]}, index=np.arange(3)) + del df["A"] + assert not df.empty + + def test_len(self, float_frame): + assert len(float_frame) == len(float_frame.index) + + # single block corner case + arr = float_frame[["A", "B"]].values + expected = float_frame.reindex(columns=["A", "B"]).values + tm.assert_almost_equal(arr, expected) + + def test_axis_aliases(self, float_frame): + f = float_frame + + # reg name + expected = f.sum(axis=0) + result = f.sum(axis="index") + tm.assert_series_equal(result, expected) + + expected = f.sum(axis=1) + result = f.sum(axis="columns") + tm.assert_series_equal(result, expected) + + def test_class_axis(self): + # GH 18147 + # no exception and no empty docstring + assert pydoc.getdoc(DataFrame.index) + assert pydoc.getdoc(DataFrame.columns) + + def test_series_put_names(self, float_string_frame): + series = float_string_frame._series + for k, v in series.items(): + assert v.name == k + + def test_empty_nonzero(self): + df = DataFrame([1, 2, 3]) + assert not df.empty + df = DataFrame(index=[1], columns=[1]) + assert not df.empty + df = DataFrame(index=["a", "b"], columns=["c", "d"]).dropna() + assert df.empty + assert df.T.empty + + @pytest.mark.parametrize( + "df", + [ + DataFrame(), + DataFrame(index=[1]), + DataFrame(columns=[1]), + DataFrame({1: []}), + ], + ) + def test_empty_like(self, df): + assert df.empty + assert df.T.empty + + def test_with_datetimelikes(self): + df = DataFrame( + { + "A": date_range("20130101", periods=10), + "B": timedelta_range("1 day", periods=10), + } + ) + t = df.T + + result = t.dtypes.value_counts() + expected = Series({np.dtype("object"): 10}, name="count") + tm.assert_series_equal(result, expected) + + def test_deepcopy(self, float_frame): + cp = deepcopy(float_frame) + cp.loc[0, "A"] = 10 + assert not float_frame.equals(cp) + + def test_inplace_return_self(self): + # GH 1893 + + data = DataFrame( + {"a": ["foo", "bar", "baz", "qux"], "b": [0, 0, 1, 1], "c": [1, 2, 3, 4]} + ) + + def _check_f(base, f): + result = f(base) + assert result is None + + # -----DataFrame----- + + # set_index + f = lambda x: x.set_index("a", inplace=True) + _check_f(data.copy(), f) + + # reset_index + f = lambda x: x.reset_index(inplace=True) + _check_f(data.set_index("a"), f) + + # drop_duplicates + f = lambda x: x.drop_duplicates(inplace=True) + _check_f(data.copy(), f) + + # sort + f = lambda x: x.sort_values("b", inplace=True) + _check_f(data.copy(), f) + + # sort_index + f = lambda x: x.sort_index(inplace=True) + _check_f(data.copy(), f) + + # fillna + f = lambda x: x.fillna(0, inplace=True) + _check_f(data.copy(), f) + + # replace + f = lambda x: x.replace(1, 0, inplace=True) + _check_f(data.copy(), f) + + # rename + f = lambda x: x.rename({1: "foo"}, inplace=True) + _check_f(data.copy(), f) + + # -----Series----- + d = data.copy()["c"] + + # reset_index + f = lambda x: x.reset_index(inplace=True, drop=True) + _check_f(data.set_index("a")["c"], f) + + # fillna + f = lambda x: x.fillna(0, inplace=True) + _check_f(d.copy(), f) + + # replace + f = lambda x: x.replace(1, 0, inplace=True) + _check_f(d.copy(), f) + + # rename + f = lambda x: x.rename({1: "foo"}, inplace=True) + _check_f(d.copy(), f) + + def test_tab_complete_warning(self, ip, frame_or_series): + # GH 16409 + pytest.importorskip("IPython", minversion="6.0.0") + from IPython.core.completer import provisionalcompleter + + if frame_or_series is DataFrame: + code = "from pandas import DataFrame; obj = DataFrame()" + else: + code = "from pandas import Series; obj = Series(dtype=object)" + + ip.run_cell(code) + # GH 31324 newer jedi version raises Deprecation warning; + # appears resolved 2021-02-02 + with tm.assert_produces_warning(None, raise_on_extra_warnings=False): + with provisionalcompleter("ignore"): + list(ip.Completer.completions("obj.", 1)) + + def test_attrs(self): + df = DataFrame({"A": [2, 3]}) + assert df.attrs == {} + df.attrs["version"] = 1 + + result = df.rename(columns=str) + assert result.attrs == {"version": 1} + + def test_attrs_deepcopy(self): + df = DataFrame({"A": [2, 3]}) + assert df.attrs == {} + df.attrs["tags"] = {"spam", "ham"} + + result = df.rename(columns=str) + assert result.attrs == df.attrs + assert result.attrs["tags"] is not df.attrs["tags"] + + @pytest.mark.parametrize("allows_duplicate_labels", [True, False, None]) + def test_set_flags( + self, + allows_duplicate_labels, + frame_or_series, + using_copy_on_write, + warn_copy_on_write, + ): + obj = DataFrame({"A": [1, 2]}) + key = (0, 0) + if frame_or_series is Series: + obj = obj["A"] + key = 0 + + result = obj.set_flags(allows_duplicate_labels=allows_duplicate_labels) + + if allows_duplicate_labels is None: + # We don't update when it's not provided + assert result.flags.allows_duplicate_labels is True + else: + assert result.flags.allows_duplicate_labels is allows_duplicate_labels + + # We made a copy + assert obj is not result + + # We didn't mutate obj + assert obj.flags.allows_duplicate_labels is True + + # But we didn't copy data + if frame_or_series is Series: + assert np.may_share_memory(obj.values, result.values) + else: + assert np.may_share_memory(obj["A"].values, result["A"].values) + + with tm.assert_cow_warning(warn_copy_on_write): + result.iloc[key] = 0 + if using_copy_on_write: + assert obj.iloc[key] == 1 + else: + assert obj.iloc[key] == 0 + # set back to 1 for test below + with tm.assert_cow_warning(warn_copy_on_write): + result.iloc[key] = 1 + + # Now we do copy. + result = obj.set_flags( + copy=True, allows_duplicate_labels=allows_duplicate_labels + ) + result.iloc[key] = 10 + assert obj.iloc[key] == 1 + + def test_constructor_expanddim(self): + # GH#33628 accessing _constructor_expanddim should not raise NotImplementedError + # GH38782 pandas has no container higher than DataFrame (two-dim), so + # DataFrame._constructor_expand_dim, doesn't make sense, so is removed. + df = DataFrame() + + msg = "'DataFrame' object has no attribute '_constructor_expanddim'" + with pytest.raises(AttributeError, match=msg): + df._constructor_expanddim(np.arange(27).reshape(3, 3, 3)) + + def test_inspect_getmembers(self): + # GH38740 + df = DataFrame() + msg = "DataFrame._data is deprecated" + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + inspect.getmembers(df) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arithmetic.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arithmetic.py new file mode 100644 index 0000000000000000000000000000000000000000..195126f1c53822f103d2c558ebb2843feac45a30 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arithmetic.py @@ -0,0 +1,2145 @@ +from collections import deque +from datetime import ( + datetime, + timezone, +) +from enum import Enum +import functools +import operator +import re + +import numpy as np +import pytest + +from pandas.compat import HAS_PYARROW +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm +from pandas.core.computation import expressions as expr +from pandas.tests.frame.common import ( + _check_mixed_float, + _check_mixed_int, +) + + +@pytest.fixture +def simple_frame(): + """ + Fixture for simple 3x3 DataFrame + + Columns are ['one', 'two', 'three'], index is ['a', 'b', 'c']. + + one two three + a 1.0 2.0 3.0 + b 4.0 5.0 6.0 + c 7.0 8.0 9.0 + """ + arr = np.array([[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]) + + return DataFrame(arr, columns=["one", "two", "three"], index=["a", "b", "c"]) + + +@pytest.fixture(autouse=True, params=[0, 100], ids=["numexpr", "python"]) +def switch_numexpr_min_elements(request, monkeypatch): + with monkeypatch.context() as m: + m.setattr(expr, "_MIN_ELEMENTS", request.param) + yield request.param + + +class DummyElement: + def __init__(self, value, dtype) -> None: + self.value = value + self.dtype = np.dtype(dtype) + + def __array__(self, dtype=None, copy=None): + return np.array(self.value, dtype=self.dtype) + + def __str__(self) -> str: + return f"DummyElement({self.value}, {self.dtype})" + + def __repr__(self) -> str: + return str(self) + + def astype(self, dtype, copy=False): + self.dtype = dtype + return self + + def view(self, dtype): + return type(self)(self.value.view(dtype), dtype) + + def any(self, axis=None): + return bool(self.value) + + +# ------------------------------------------------------------------- +# Comparisons + + +class TestFrameComparisons: + # Specifically _not_ flex-comparisons + + def test_comparison_with_categorical_dtype(self): + # GH#12564 + + df = DataFrame({"A": ["foo", "bar", "baz"]}) + exp = DataFrame({"A": [True, False, False]}) + + res = df == "foo" + tm.assert_frame_equal(res, exp) + + # casting to categorical shouldn't affect the result + df["A"] = df["A"].astype("category") + + res = df == "foo" + tm.assert_frame_equal(res, exp) + + def test_frame_in_list(self): + # GH#12689 this should raise at the DataFrame level, not blocks + df = DataFrame( + np.random.default_rng(2).standard_normal((6, 4)), columns=list("ABCD") + ) + msg = "The truth value of a DataFrame is ambiguous" + with pytest.raises(ValueError, match=msg): + df in [None] + + @pytest.mark.parametrize( + "arg, arg2", + [ + [ + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": pd.date_range("20010101", periods=10), + }, + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": np.random.default_rng(2).integers(10, size=10), + }, + ], + [ + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": np.random.default_rng(2).integers(10, size=10), + }, + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": pd.date_range("20010101", periods=10), + }, + ], + [ + { + "a": pd.date_range("20010101", periods=10), + "b": pd.date_range("20010101", periods=10), + }, + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": np.random.default_rng(2).integers(10, size=10), + }, + ], + [ + { + "a": np.random.default_rng(2).integers(10, size=10), + "b": pd.date_range("20010101", periods=10), + }, + { + "a": pd.date_range("20010101", periods=10), + "b": pd.date_range("20010101", periods=10), + }, + ], + ], + ) + def test_comparison_invalid(self, arg, arg2): + # GH4968 + # invalid date/int comparisons + x = DataFrame(arg) + y = DataFrame(arg2) + # we expect the result to match Series comparisons for + # == and !=, inequalities should raise + result = x == y + expected = DataFrame( + {col: x[col] == y[col] for col in x.columns}, + index=x.index, + columns=x.columns, + ) + tm.assert_frame_equal(result, expected) + + result = x != y + expected = DataFrame( + {col: x[col] != y[col] for col in x.columns}, + index=x.index, + columns=x.columns, + ) + tm.assert_frame_equal(result, expected) + + msgs = [ + r"Invalid comparison between dtype=datetime64\[ns\] and ndarray", + "invalid type promotion", + ( + # npdev 1.20.0 + r"The DTypes and " + r" do not have a common DType." + ), + ] + msg = "|".join(msgs) + with pytest.raises(TypeError, match=msg): + x >= y + with pytest.raises(TypeError, match=msg): + x > y + with pytest.raises(TypeError, match=msg): + x < y + with pytest.raises(TypeError, match=msg): + x <= y + + @pytest.mark.parametrize( + "left, right", + [ + ("gt", "lt"), + ("lt", "gt"), + ("ge", "le"), + ("le", "ge"), + ("eq", "eq"), + ("ne", "ne"), + ], + ) + def test_timestamp_compare(self, left, right): + # make sure we can compare Timestamps on the right AND left hand side + # GH#4982 + df = DataFrame( + { + "dates1": pd.date_range("20010101", periods=10), + "dates2": pd.date_range("20010102", periods=10), + "intcol": np.random.default_rng(2).integers(1000000000, size=10), + "floatcol": np.random.default_rng(2).standard_normal(10), + "stringcol": [chr(100 + i) for i in range(10)], + } + ) + df.loc[np.random.default_rng(2).random(len(df)) > 0.5, "dates2"] = pd.NaT + left_f = getattr(operator, left) + right_f = getattr(operator, right) + + # no nats + if left in ["eq", "ne"]: + expected = left_f(df, pd.Timestamp("20010109")) + result = right_f(pd.Timestamp("20010109"), df) + tm.assert_frame_equal(result, expected) + else: + msg = ( + "'(<|>)=?' not supported between " + "instances of 'numpy.ndarray' and 'Timestamp'" + ) + with pytest.raises(TypeError, match=msg): + left_f(df, pd.Timestamp("20010109")) + with pytest.raises(TypeError, match=msg): + right_f(pd.Timestamp("20010109"), df) + # nats + if left in ["eq", "ne"]: + expected = left_f(df, pd.Timestamp("nat")) + result = right_f(pd.Timestamp("nat"), df) + tm.assert_frame_equal(result, expected) + else: + msg = ( + "'(<|>)=?' not supported between " + "instances of 'numpy.ndarray' and 'NaTType'" + ) + with pytest.raises(TypeError, match=msg): + left_f(df, pd.Timestamp("nat")) + with pytest.raises(TypeError, match=msg): + right_f(pd.Timestamp("nat"), df) + + def test_mixed_comparison(self): + # GH#13128, GH#22163 != datetime64 vs non-dt64 should be False, + # not raise TypeError + # (this appears to be fixed before GH#22163, not sure when) + df = DataFrame([["1989-08-01", 1], ["1989-08-01", 2]]) + other = DataFrame([["a", "b"], ["c", "d"]]) + + result = df == other + assert not result.any().any() + + result = df != other + assert result.all().all() + + def test_df_boolean_comparison_error(self): + # GH#4576, GH#22880 + # comparing DataFrame against list/tuple with len(obj) matching + # len(df.columns) is supported as of GH#22800 + df = DataFrame(np.arange(6).reshape((3, 2))) + + expected = DataFrame([[False, False], [True, False], [False, False]]) + + result = df == (2, 2) + tm.assert_frame_equal(result, expected) + + result = df == [2, 2] + tm.assert_frame_equal(result, expected) + + def test_df_float_none_comparison(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((8, 3)), + index=range(8), + columns=["A", "B", "C"], + ) + + result = df.__eq__(None) + assert not result.any().any() + + def test_df_string_comparison(self): + df = DataFrame([{"a": 1, "b": "foo"}, {"a": 2, "b": "bar"}]) + mask_a = df.a > 1 + tm.assert_frame_equal(df[mask_a], df.loc[1:1, :]) + tm.assert_frame_equal(df[-mask_a], df.loc[0:0, :]) + + mask_b = df.b == "foo" + tm.assert_frame_equal(df[mask_b], df.loc[0:0, :]) + tm.assert_frame_equal(df[-mask_b], df.loc[1:1, :]) + + +class TestFrameFlexComparisons: + # TODO: test_bool_flex_frame needs a better name + @pytest.mark.parametrize("op", ["eq", "ne", "gt", "lt", "ge", "le"]) + def test_bool_flex_frame(self, op): + data = np.random.default_rng(2).standard_normal((5, 3)) + other_data = np.random.default_rng(2).standard_normal((5, 3)) + df = DataFrame(data) + other = DataFrame(other_data) + ndim_5 = np.ones(df.shape + (1, 3)) + + # DataFrame + assert df.eq(df).values.all() + assert not df.ne(df).values.any() + f = getattr(df, op) + o = getattr(operator, op) + # No NAs + tm.assert_frame_equal(f(other), o(df, other)) + # Unaligned + part_o = other.loc[3:, 1:].copy() + rs = f(part_o) + xp = o(df, part_o.reindex(index=df.index, columns=df.columns)) + tm.assert_frame_equal(rs, xp) + # ndarray + tm.assert_frame_equal(f(other.values), o(df, other.values)) + # scalar + tm.assert_frame_equal(f(0), o(df, 0)) + # NAs + msg = "Unable to coerce to Series/DataFrame" + tm.assert_frame_equal(f(np.nan), o(df, np.nan)) + with pytest.raises(ValueError, match=msg): + f(ndim_5) + + @pytest.mark.parametrize("box", [np.array, Series]) + def test_bool_flex_series(self, box): + # Series + # list/tuple + data = np.random.default_rng(2).standard_normal((5, 3)) + df = DataFrame(data) + idx_ser = box(np.random.default_rng(2).standard_normal(5)) + col_ser = box(np.random.default_rng(2).standard_normal(3)) + + idx_eq = df.eq(idx_ser, axis=0) + col_eq = df.eq(col_ser) + idx_ne = df.ne(idx_ser, axis=0) + col_ne = df.ne(col_ser) + tm.assert_frame_equal(col_eq, df == Series(col_ser)) + tm.assert_frame_equal(col_eq, -col_ne) + tm.assert_frame_equal(idx_eq, -idx_ne) + tm.assert_frame_equal(idx_eq, df.T.eq(idx_ser).T) + tm.assert_frame_equal(col_eq, df.eq(list(col_ser))) + tm.assert_frame_equal(idx_eq, df.eq(Series(idx_ser), axis=0)) + tm.assert_frame_equal(idx_eq, df.eq(list(idx_ser), axis=0)) + + idx_gt = df.gt(idx_ser, axis=0) + col_gt = df.gt(col_ser) + idx_le = df.le(idx_ser, axis=0) + col_le = df.le(col_ser) + + tm.assert_frame_equal(col_gt, df > Series(col_ser)) + tm.assert_frame_equal(col_gt, -col_le) + tm.assert_frame_equal(idx_gt, -idx_le) + tm.assert_frame_equal(idx_gt, df.T.gt(idx_ser).T) + + idx_ge = df.ge(idx_ser, axis=0) + col_ge = df.ge(col_ser) + idx_lt = df.lt(idx_ser, axis=0) + col_lt = df.lt(col_ser) + tm.assert_frame_equal(col_ge, df >= Series(col_ser)) + tm.assert_frame_equal(col_ge, -col_lt) + tm.assert_frame_equal(idx_ge, -idx_lt) + tm.assert_frame_equal(idx_ge, df.T.ge(idx_ser).T) + + idx_ser = Series(np.random.default_rng(2).standard_normal(5)) + col_ser = Series(np.random.default_rng(2).standard_normal(3)) + + def test_bool_flex_frame_na(self): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + # NA + df.loc[0, 0] = np.nan + rs = df.eq(df) + assert not rs.loc[0, 0] + rs = df.ne(df) + assert rs.loc[0, 0] + rs = df.gt(df) + assert not rs.loc[0, 0] + rs = df.lt(df) + assert not rs.loc[0, 0] + rs = df.ge(df) + assert not rs.loc[0, 0] + rs = df.le(df) + assert not rs.loc[0, 0] + + def test_bool_flex_frame_complex_dtype(self): + # complex + arr = np.array([np.nan, 1, 6, np.nan]) + arr2 = np.array([2j, np.nan, 7, None]) + df = DataFrame({"a": arr}) + df2 = DataFrame({"a": arr2}) + + msg = "|".join( + [ + "'>' not supported between instances of '.*' and 'complex'", + r"unorderable types: .*complex\(\)", # PY35 + ] + ) + with pytest.raises(TypeError, match=msg): + # inequalities are not well-defined for complex numbers + df.gt(df2) + with pytest.raises(TypeError, match=msg): + # regression test that we get the same behavior for Series + df["a"].gt(df2["a"]) + with pytest.raises(TypeError, match=msg): + # Check that we match numpy behavior here + df.values > df2.values + + rs = df.ne(df2) + assert rs.values.all() + + arr3 = np.array([2j, np.nan, None]) + df3 = DataFrame({"a": arr3}) + + with pytest.raises(TypeError, match=msg): + # inequalities are not well-defined for complex numbers + df3.gt(2j) + with pytest.raises(TypeError, match=msg): + # regression test that we get the same behavior for Series + df3["a"].gt(2j) + with pytest.raises(TypeError, match=msg): + # Check that we match numpy behavior here + df3.values > 2j + + def test_bool_flex_frame_object_dtype(self): + # corner, dtype=object + df1 = DataFrame({"col": ["foo", np.nan, "bar"]}, dtype=object) + df2 = DataFrame({"col": ["foo", datetime.now(), "bar"]}, dtype=object) + result = df1.ne(df2) + exp = DataFrame({"col": [False, True, False]}) + tm.assert_frame_equal(result, exp) + + def test_flex_comparison_nat(self): + # GH 15697, GH 22163 df.eq(pd.NaT) should behave like df == pd.NaT, + # and _definitely_ not be NaN + df = DataFrame([pd.NaT]) + + result = df == pd.NaT + # result.iloc[0, 0] is a np.bool_ object + assert result.iloc[0, 0].item() is False + + result = df.eq(pd.NaT) + assert result.iloc[0, 0].item() is False + + result = df != pd.NaT + assert result.iloc[0, 0].item() is True + + result = df.ne(pd.NaT) + assert result.iloc[0, 0].item() is True + + @pytest.mark.parametrize("opname", ["eq", "ne", "gt", "lt", "ge", "le"]) + def test_df_flex_cmp_constant_return_types(self, opname): + # GH 15077, non-empty DataFrame + df = DataFrame({"x": [1, 2, 3], "y": [1.0, 2.0, 3.0]}) + const = 2 + + result = getattr(df, opname)(const).dtypes.value_counts() + tm.assert_series_equal( + result, Series([2], index=[np.dtype(bool)], name="count") + ) + + @pytest.mark.parametrize("opname", ["eq", "ne", "gt", "lt", "ge", "le"]) + def test_df_flex_cmp_constant_return_types_empty(self, opname): + # GH 15077 empty DataFrame + df = DataFrame({"x": [1, 2, 3], "y": [1.0, 2.0, 3.0]}) + const = 2 + + empty = df.iloc[:0] + result = getattr(empty, opname)(const).dtypes.value_counts() + tm.assert_series_equal( + result, Series([2], index=[np.dtype(bool)], name="count") + ) + + def test_df_flex_cmp_ea_dtype_with_ndarray_series(self): + ii = pd.IntervalIndex.from_breaks([1, 2, 3]) + df = DataFrame({"A": ii, "B": ii}) + + ser = Series([0, 0]) + res = df.eq(ser, axis=0) + + expected = DataFrame({"A": [False, False], "B": [False, False]}) + tm.assert_frame_equal(res, expected) + + ser2 = Series([1, 2], index=["A", "B"]) + res2 = df.eq(ser2, axis=1) + tm.assert_frame_equal(res2, expected) + + +# ------------------------------------------------------------------- +# Arithmetic + + +class TestFrameFlexArithmetic: + def test_floordiv_axis0(self): + # make sure we df.floordiv(ser, axis=0) matches column-wise result + arr = np.arange(3) + ser = Series(arr) + df = DataFrame({"A": ser, "B": ser}) + + result = df.floordiv(ser, axis=0) + + expected = DataFrame({col: df[col] // ser for col in df.columns}) + + tm.assert_frame_equal(result, expected) + + result2 = df.floordiv(ser.values, axis=0) + tm.assert_frame_equal(result2, expected) + + def test_df_add_td64_columnwise(self): + # GH 22534 Check that column-wise addition broadcasts correctly + dti = pd.date_range("2016-01-01", periods=10) + tdi = pd.timedelta_range("1", periods=10) + tser = Series(tdi) + df = DataFrame({0: dti, 1: tdi}) + + result = df.add(tser, axis=0) + expected = DataFrame({0: dti + tdi, 1: tdi + tdi}) + tm.assert_frame_equal(result, expected) + + def test_df_add_flex_filled_mixed_dtypes(self): + # GH 19611 + dti = pd.date_range("2016-01-01", periods=3) + ser = Series(["1 Day", "NaT", "2 Days"], dtype="timedelta64[ns]") + df = DataFrame({"A": dti, "B": ser}) + other = DataFrame({"A": ser, "B": ser}) + fill = pd.Timedelta(days=1).to_timedelta64() + result = df.add(other, fill_value=fill) + + expected = DataFrame( + { + "A": Series( + ["2016-01-02", "2016-01-03", "2016-01-05"], dtype="datetime64[ns]" + ), + "B": ser * 2, + } + ) + tm.assert_frame_equal(result, expected) + + def test_arith_flex_frame( + self, all_arithmetic_operators, float_frame, mixed_float_frame + ): + # one instance of parametrized fixture + op = all_arithmetic_operators + + def f(x, y): + # r-versions not in operator-stdlib; get op without "r" and invert + if op.startswith("__r"): + return getattr(operator, op.replace("__r", "__"))(y, x) + return getattr(operator, op)(x, y) + + result = getattr(float_frame, op)(2 * float_frame) + expected = f(float_frame, 2 * float_frame) + tm.assert_frame_equal(result, expected) + + # vs mix float + result = getattr(mixed_float_frame, op)(2 * mixed_float_frame) + expected = f(mixed_float_frame, 2 * mixed_float_frame) + tm.assert_frame_equal(result, expected) + _check_mixed_float(result, dtype={"C": None}) + + @pytest.mark.parametrize("op", ["__add__", "__sub__", "__mul__"]) + def test_arith_flex_frame_mixed( + self, + op, + int_frame, + mixed_int_frame, + mixed_float_frame, + switch_numexpr_min_elements, + ): + f = getattr(operator, op) + + # vs mix int + result = getattr(mixed_int_frame, op)(2 + mixed_int_frame) + expected = f(mixed_int_frame, 2 + mixed_int_frame) + + # no overflow in the uint + dtype = None + if op in ["__sub__"]: + dtype = {"B": "uint64", "C": None} + elif op in ["__add__", "__mul__"]: + dtype = {"C": None} + if expr.USE_NUMEXPR and switch_numexpr_min_elements == 0: + # when using numexpr, the casting rules are slightly different: + # in the `2 + mixed_int_frame` operation, int32 column becomes + # and int64 column (not preserving dtype in operation with Python + # scalar), and then the int32/int64 combo results in int64 result + dtype["A"] = (2 + mixed_int_frame)["A"].dtype + tm.assert_frame_equal(result, expected) + _check_mixed_int(result, dtype=dtype) + + # vs mix float + result = getattr(mixed_float_frame, op)(2 * mixed_float_frame) + expected = f(mixed_float_frame, 2 * mixed_float_frame) + tm.assert_frame_equal(result, expected) + _check_mixed_float(result, dtype={"C": None}) + + # vs plain int + result = getattr(int_frame, op)(2 * int_frame) + expected = f(int_frame, 2 * int_frame) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dim", range(3, 6)) + def test_arith_flex_frame_raise(self, all_arithmetic_operators, float_frame, dim): + # one instance of parametrized fixture + op = all_arithmetic_operators + + # Check that arrays with dim >= 3 raise + arr = np.ones((1,) * dim) + msg = "Unable to coerce to Series/DataFrame" + with pytest.raises(ValueError, match=msg): + getattr(float_frame, op)(arr) + + def test_arith_flex_frame_corner(self, float_frame): + const_add = float_frame.add(1) + tm.assert_frame_equal(const_add, float_frame + 1) + + # corner cases + result = float_frame.add(float_frame[:0]) + expected = float_frame.sort_index() * np.nan + tm.assert_frame_equal(result, expected) + + result = float_frame[:0].add(float_frame) + expected = float_frame.sort_index() * np.nan + tm.assert_frame_equal(result, expected) + + with pytest.raises(NotImplementedError, match="fill_value"): + float_frame.add(float_frame.iloc[0], fill_value=3) + + with pytest.raises(NotImplementedError, match="fill_value"): + float_frame.add(float_frame.iloc[0], axis="index", fill_value=3) + + @pytest.mark.parametrize("op", ["add", "sub", "mul", "mod"]) + def test_arith_flex_series_ops(self, simple_frame, op): + # after arithmetic refactor, add truediv here + df = simple_frame + + row = df.xs("a") + col = df["two"] + f = getattr(df, op) + op = getattr(operator, op) + tm.assert_frame_equal(f(row), op(df, row)) + tm.assert_frame_equal(f(col, axis=0), op(df.T, col).T) + + def test_arith_flex_series(self, simple_frame): + df = simple_frame + + row = df.xs("a") + col = df["two"] + # special case for some reason + tm.assert_frame_equal(df.add(row, axis=None), df + row) + + # cases which will be refactored after big arithmetic refactor + tm.assert_frame_equal(df.div(row), df / row) + tm.assert_frame_equal(df.div(col, axis=0), (df.T / col).T) + + @pytest.mark.parametrize("dtype", ["int64", "float64"]) + def test_arith_flex_series_broadcasting(self, dtype): + # broadcasting issue in GH 7325 + df = DataFrame(np.arange(3 * 2).reshape((3, 2)), dtype=dtype) + expected = DataFrame([[np.nan, np.inf], [1.0, 1.5], [1.0, 1.25]]) + result = df.div(df[0], axis="index") + tm.assert_frame_equal(result, expected) + + def test_arith_flex_zero_len_raises(self): + # GH 19522 passing fill_value to frame flex arith methods should + # raise even in the zero-length special cases + ser_len0 = Series([], dtype=object) + df_len0 = DataFrame(columns=["A", "B"]) + df = DataFrame([[1, 2], [3, 4]], columns=["A", "B"]) + + with pytest.raises(NotImplementedError, match="fill_value"): + df.add(ser_len0, fill_value="E") + + with pytest.raises(NotImplementedError, match="fill_value"): + df_len0.sub(df["A"], axis=None, fill_value=3) + + def test_flex_add_scalar_fill_value(self): + # GH#12723 + dat = np.array([0, 1, np.nan, 3, 4, 5], dtype="float") + df = DataFrame({"foo": dat}, index=range(6)) + + exp = df.fillna(0).add(2) + res = df.add(2, fill_value=0) + tm.assert_frame_equal(res, exp) + + def test_sub_alignment_with_duplicate_index(self): + # GH#5185 dup aligning operations should work + df1 = DataFrame([1, 2, 3, 4, 5], index=[1, 2, 1, 2, 3]) + df2 = DataFrame([1, 2, 3], index=[1, 2, 3]) + expected = DataFrame([0, 2, 0, 2, 2], index=[1, 1, 2, 2, 3]) + result = df1.sub(df2) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("op", ["__add__", "__mul__", "__sub__", "__truediv__"]) + def test_arithmetic_with_duplicate_columns(self, op): + # operations + df = DataFrame({"A": np.arange(10), "B": np.random.default_rng(2).random(10)}) + expected = getattr(df, op)(df) + expected.columns = ["A", "A"] + df.columns = ["A", "A"] + result = getattr(df, op)(df) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("level", [0, None]) + def test_broadcast_multiindex(self, level): + # GH34388 + df1 = DataFrame({"A": [0, 1, 2], "B": [1, 2, 3]}) + df1.columns = df1.columns.set_names("L1") + + df2 = DataFrame({("A", "C"): [0, 0, 0], ("A", "D"): [0, 0, 0]}) + df2.columns = df2.columns.set_names(["L1", "L2"]) + + result = df1.add(df2, level=level) + expected = DataFrame({("A", "C"): [0, 1, 2], ("A", "D"): [0, 1, 2]}) + expected.columns = expected.columns.set_names(["L1", "L2"]) + + tm.assert_frame_equal(result, expected) + + def test_frame_multiindex_operations(self): + # GH 43321 + df = DataFrame( + {2010: [1, 2, 3], 2020: [3, 4, 5]}, + index=MultiIndex.from_product( + [["a"], ["b"], [0, 1, 2]], names=["scen", "mod", "id"] + ), + ) + + series = Series( + [0.4], + index=MultiIndex.from_product([["b"], ["a"]], names=["mod", "scen"]), + ) + + expected = DataFrame( + {2010: [1.4, 2.4, 3.4], 2020: [3.4, 4.4, 5.4]}, + index=MultiIndex.from_product( + [["a"], ["b"], [0, 1, 2]], names=["scen", "mod", "id"] + ), + ) + result = df.add(series, axis=0) + + tm.assert_frame_equal(result, expected) + + def test_frame_multiindex_operations_series_index_to_frame_index(self): + # GH 43321 + df = DataFrame( + {2010: [1], 2020: [3]}, + index=MultiIndex.from_product([["a"], ["b"]], names=["scen", "mod"]), + ) + + series = Series( + [10.0, 20.0, 30.0], + index=MultiIndex.from_product( + [["a"], ["b"], [0, 1, 2]], names=["scen", "mod", "id"] + ), + ) + + expected = DataFrame( + {2010: [11.0, 21, 31.0], 2020: [13.0, 23.0, 33.0]}, + index=MultiIndex.from_product( + [["a"], ["b"], [0, 1, 2]], names=["scen", "mod", "id"] + ), + ) + result = df.add(series, axis=0) + + tm.assert_frame_equal(result, expected) + + def test_frame_multiindex_operations_no_align(self): + df = DataFrame( + {2010: [1, 2, 3], 2020: [3, 4, 5]}, + index=MultiIndex.from_product( + [["a"], ["b"], [0, 1, 2]], names=["scen", "mod", "id"] + ), + ) + + series = Series( + [0.4], + index=MultiIndex.from_product([["c"], ["a"]], names=["mod", "scen"]), + ) + + expected = DataFrame( + {2010: np.nan, 2020: np.nan}, + index=MultiIndex.from_tuples( + [ + ("a", "b", 0), + ("a", "b", 1), + ("a", "b", 2), + ("a", "c", np.nan), + ], + names=["scen", "mod", "id"], + ), + ) + result = df.add(series, axis=0) + + tm.assert_frame_equal(result, expected) + + def test_frame_multiindex_operations_part_align(self): + df = DataFrame( + {2010: [1, 2, 3], 2020: [3, 4, 5]}, + index=MultiIndex.from_tuples( + [ + ("a", "b", 0), + ("a", "b", 1), + ("a", "c", 2), + ], + names=["scen", "mod", "id"], + ), + ) + + series = Series( + [0.4], + index=MultiIndex.from_product([["b"], ["a"]], names=["mod", "scen"]), + ) + + expected = DataFrame( + {2010: [1.4, 2.4, np.nan], 2020: [3.4, 4.4, np.nan]}, + index=MultiIndex.from_tuples( + [ + ("a", "b", 0), + ("a", "b", 1), + ("a", "c", 2), + ], + names=["scen", "mod", "id"], + ), + ) + result = df.add(series, axis=0) + + tm.assert_frame_equal(result, expected) + + +class TestFrameArithmetic: + def test_td64_op_nat_casting(self): + # Make sure we don't accidentally treat timedelta64(NaT) as datetime64 + # when calling dispatch_to_series in DataFrame arithmetic + ser = Series(["NaT", "NaT"], dtype="timedelta64[ns]") + df = DataFrame([[1, 2], [3, 4]]) + + result = df * ser + expected = DataFrame({0: ser, 1: ser}) + tm.assert_frame_equal(result, expected) + + def test_df_add_2d_array_rowlike_broadcasts(self): + # GH#23000 + arr = np.arange(6).reshape(3, 2) + df = DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) + + rowlike = arr[[1], :] # shape --> (1, ncols) + assert rowlike.shape == (1, df.shape[1]) + + expected = DataFrame( + [[2, 4], [4, 6], [6, 8]], + columns=df.columns, + index=df.index, + # specify dtype explicitly to avoid failing + # on 32bit builds + dtype=arr.dtype, + ) + result = df + rowlike + tm.assert_frame_equal(result, expected) + result = rowlike + df + tm.assert_frame_equal(result, expected) + + def test_df_add_2d_array_collike_broadcasts(self): + # GH#23000 + arr = np.arange(6).reshape(3, 2) + df = DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) + + collike = arr[:, [1]] # shape --> (nrows, 1) + assert collike.shape == (df.shape[0], 1) + + expected = DataFrame( + [[1, 2], [5, 6], [9, 10]], + columns=df.columns, + index=df.index, + # specify dtype explicitly to avoid failing + # on 32bit builds + dtype=arr.dtype, + ) + result = df + collike + tm.assert_frame_equal(result, expected) + result = collike + df + tm.assert_frame_equal(result, expected) + + def test_df_arith_2d_array_rowlike_broadcasts( + self, request, all_arithmetic_operators, using_array_manager + ): + # GH#23000 + opname = all_arithmetic_operators + + if using_array_manager and opname in ("__rmod__", "__rfloordiv__"): + # TODO(ArrayManager) decide on dtypes + td.mark_array_manager_not_yet_implemented(request) + + arr = np.arange(6).reshape(3, 2) + df = DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) + + rowlike = arr[[1], :] # shape --> (1, ncols) + assert rowlike.shape == (1, df.shape[1]) + + exvals = [ + getattr(df.loc["A"], opname)(rowlike.squeeze()), + getattr(df.loc["B"], opname)(rowlike.squeeze()), + getattr(df.loc["C"], opname)(rowlike.squeeze()), + ] + + expected = DataFrame(exvals, columns=df.columns, index=df.index) + + result = getattr(df, opname)(rowlike) + tm.assert_frame_equal(result, expected) + + def test_df_arith_2d_array_collike_broadcasts( + self, request, all_arithmetic_operators, using_array_manager + ): + # GH#23000 + opname = all_arithmetic_operators + + if using_array_manager and opname in ("__rmod__", "__rfloordiv__"): + # TODO(ArrayManager) decide on dtypes + td.mark_array_manager_not_yet_implemented(request) + + arr = np.arange(6).reshape(3, 2) + df = DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) + + collike = arr[:, [1]] # shape --> (nrows, 1) + assert collike.shape == (df.shape[0], 1) + + exvals = { + True: getattr(df[True], opname)(collike.squeeze()), + False: getattr(df[False], opname)(collike.squeeze()), + } + + dtype = None + if opname in ["__rmod__", "__rfloordiv__"]: + # Series ops may return mixed int/float dtypes in cases where + # DataFrame op will return all-float. So we upcast `expected` + dtype = np.common_type(*(x.values for x in exvals.values())) + + expected = DataFrame(exvals, columns=df.columns, index=df.index, dtype=dtype) + + result = getattr(df, opname)(collike) + tm.assert_frame_equal(result, expected) + + def test_df_bool_mul_int(self): + # GH 22047, GH 22163 multiplication by 1 should result in int dtype, + # not object dtype + df = DataFrame([[False, True], [False, False]]) + result = df * 1 + + # On appveyor this comes back as np.int32 instead of np.int64, + # so we check dtype.kind instead of just dtype + kinds = result.dtypes.apply(lambda x: x.kind) + assert (kinds == "i").all() + + result = 1 * df + kinds = result.dtypes.apply(lambda x: x.kind) + assert (kinds == "i").all() + + def test_arith_mixed(self): + left = DataFrame({"A": ["a", "b", "c"], "B": [1, 2, 3]}) + + result = left + left + expected = DataFrame({"A": ["aa", "bb", "cc"], "B": [2, 4, 6]}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("col", ["A", "B"]) + def test_arith_getitem_commute(self, all_arithmetic_functions, col): + df = DataFrame({"A": [1.1, 3.3], "B": [2.5, -3.9]}) + result = all_arithmetic_functions(df, 1)[col] + expected = all_arithmetic_functions(df[col], 1) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "values", [[1, 2], (1, 2), np.array([1, 2]), range(1, 3), deque([1, 2])] + ) + def test_arith_alignment_non_pandas_object(self, values): + # GH#17901 + df = DataFrame({"A": [1, 1], "B": [1, 1]}) + expected = DataFrame({"A": [2, 2], "B": [3, 3]}) + result = df + values + tm.assert_frame_equal(result, expected) + + def test_arith_non_pandas_object(self): + df = DataFrame( + np.arange(1, 10, dtype="f8").reshape(3, 3), + columns=["one", "two", "three"], + index=["a", "b", "c"], + ) + + val1 = df.xs("a").values + added = DataFrame(df.values + val1, index=df.index, columns=df.columns) + tm.assert_frame_equal(df + val1, added) + + added = DataFrame((df.values.T + val1).T, index=df.index, columns=df.columns) + tm.assert_frame_equal(df.add(val1, axis=0), added) + + val2 = list(df["two"]) + + added = DataFrame(df.values + val2, index=df.index, columns=df.columns) + tm.assert_frame_equal(df + val2, added) + + added = DataFrame((df.values.T + val2).T, index=df.index, columns=df.columns) + tm.assert_frame_equal(df.add(val2, axis="index"), added) + + val3 = np.random.default_rng(2).random(df.shape) + added = DataFrame(df.values + val3, index=df.index, columns=df.columns) + tm.assert_frame_equal(df.add(val3), added) + + def test_operations_with_interval_categories_index(self, all_arithmetic_operators): + # GH#27415 + op = all_arithmetic_operators + ind = pd.CategoricalIndex(pd.interval_range(start=0.0, end=2.0)) + data = [1, 2] + df = DataFrame([data], columns=ind) + num = 10 + result = getattr(df, op)(num) + expected = DataFrame([[getattr(n, op)(num) for n in data]], columns=ind) + tm.assert_frame_equal(result, expected) + + def test_frame_with_frame_reindex(self): + # GH#31623 + df = DataFrame( + { + "foo": [pd.Timestamp("2019"), pd.Timestamp("2020")], + "bar": [pd.Timestamp("2018"), pd.Timestamp("2021")], + }, + columns=["foo", "bar"], + dtype="M8[ns]", + ) + df2 = df[["foo"]] + + result = df - df2 + + expected = DataFrame( + {"foo": [pd.Timedelta(0), pd.Timedelta(0)], "bar": [np.nan, np.nan]}, + columns=["bar", "foo"], + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "value, dtype", + [ + (1, "i8"), + (1.0, "f8"), + (2**63, "f8"), + (1j, "complex128"), + (2**63, "complex128"), + (True, "bool"), + (np.timedelta64(20, "ns"), "]=?' not supported between instances of 'str' and 'int'", + "Invalid comparison between dtype=str and int", + ] + ) + with pytest.raises(TypeError, match=msg): + f(df, 0) + + def test_comparison_protected_from_errstate(self): + missing_df = DataFrame( + np.ones((10, 4), dtype=np.float64), + columns=Index(list("ABCD"), dtype=object), + ) + missing_df.loc[missing_df.index[0], "A"] = np.nan + with np.errstate(invalid="ignore"): + expected = missing_df.values < 0 + with np.errstate(invalid="raise"): + result = (missing_df < 0).values + tm.assert_numpy_array_equal(result, expected) + + def test_boolean_comparison(self): + # GH 4576 + # boolean comparisons with a tuple/list give unexpected results + df = DataFrame(np.arange(6).reshape((3, 2))) + b = np.array([2, 2]) + b_r = np.atleast_2d([2, 2]) + b_c = b_r.T + lst = [2, 2, 2] + tup = tuple(lst) + + # gt + expected = DataFrame([[False, False], [False, True], [True, True]]) + result = df > b + tm.assert_frame_equal(result, expected) + + result = df.values > b + tm.assert_numpy_array_equal(result, expected.values) + + msg1d = "Unable to coerce to Series, length must be 2: given 3" + msg2d = "Unable to coerce to DataFrame, shape must be" + msg2db = "operands could not be broadcast together with shapes" + with pytest.raises(ValueError, match=msg1d): + # wrong shape + df > lst + + with pytest.raises(ValueError, match=msg1d): + # wrong shape + df > tup + + # broadcasts like ndarray (GH#23000) + result = df > b_r + tm.assert_frame_equal(result, expected) + + result = df.values > b_r + tm.assert_numpy_array_equal(result, expected.values) + + with pytest.raises(ValueError, match=msg2d): + df > b_c + + with pytest.raises(ValueError, match=msg2db): + df.values > b_c + + # == + expected = DataFrame([[False, False], [True, False], [False, False]]) + result = df == b + tm.assert_frame_equal(result, expected) + + with pytest.raises(ValueError, match=msg1d): + df == lst + + with pytest.raises(ValueError, match=msg1d): + df == tup + + # broadcasts like ndarray (GH#23000) + result = df == b_r + tm.assert_frame_equal(result, expected) + + result = df.values == b_r + tm.assert_numpy_array_equal(result, expected.values) + + with pytest.raises(ValueError, match=msg2d): + df == b_c + + assert df.values.shape != b_c.shape + + # with alignment + df = DataFrame( + np.arange(6).reshape((3, 2)), columns=list("AB"), index=list("abc") + ) + expected.index = df.index + expected.columns = df.columns + + with pytest.raises(ValueError, match=msg1d): + df == lst + + with pytest.raises(ValueError, match=msg1d): + df == tup + + def test_inplace_ops_alignment(self): + # inplace ops / ops alignment + # GH 8511 + + columns = list("abcdefg") + X_orig = DataFrame( + np.arange(10 * len(columns)).reshape(-1, len(columns)), + columns=columns, + index=range(10), + ) + Z = 100 * X_orig.iloc[:, 1:-1].copy() + block1 = list("bedcf") + subs = list("bcdef") + + # add + X = X_orig.copy() + result1 = (X[block1] + Z).reindex(columns=subs) + + X[block1] += Z + result2 = X.reindex(columns=subs) + + X = X_orig.copy() + result3 = (X[block1] + Z[block1]).reindex(columns=subs) + + X[block1] += Z[block1] + result4 = X.reindex(columns=subs) + + tm.assert_frame_equal(result1, result2) + tm.assert_frame_equal(result1, result3) + tm.assert_frame_equal(result1, result4) + + # sub + X = X_orig.copy() + result1 = (X[block1] - Z).reindex(columns=subs) + + X[block1] -= Z + result2 = X.reindex(columns=subs) + + X = X_orig.copy() + result3 = (X[block1] - Z[block1]).reindex(columns=subs) + + X[block1] -= Z[block1] + result4 = X.reindex(columns=subs) + + tm.assert_frame_equal(result1, result2) + tm.assert_frame_equal(result1, result3) + tm.assert_frame_equal(result1, result4) + + def test_inplace_ops_identity(self): + # GH 5104 + # make sure that we are actually changing the object + s_orig = Series([1, 2, 3]) + df_orig = DataFrame( + np.random.default_rng(2).integers(0, 5, size=10).reshape(-1, 5) + ) + + # no dtype change + s = s_orig.copy() + s2 = s + s += 1 + tm.assert_series_equal(s, s2) + tm.assert_series_equal(s_orig + 1, s) + assert s is s2 + assert s._mgr is s2._mgr + + df = df_orig.copy() + df2 = df + df += 1 + tm.assert_frame_equal(df, df2) + tm.assert_frame_equal(df_orig + 1, df) + assert df is df2 + assert df._mgr is df2._mgr + + # dtype change + s = s_orig.copy() + s2 = s + s += 1.5 + tm.assert_series_equal(s, s2) + tm.assert_series_equal(s_orig + 1.5, s) + + df = df_orig.copy() + df2 = df + df += 1.5 + tm.assert_frame_equal(df, df2) + tm.assert_frame_equal(df_orig + 1.5, df) + assert df is df2 + assert df._mgr is df2._mgr + + # mixed dtype + arr = np.random.default_rng(2).integers(0, 10, size=5) + df_orig = DataFrame({"A": arr.copy(), "B": "foo"}) + df = df_orig.copy() + df2 = df + df["A"] += 1 + expected = DataFrame({"A": arr.copy() + 1, "B": "foo"}) + tm.assert_frame_equal(df, expected) + tm.assert_frame_equal(df2, expected) + assert df._mgr is df2._mgr + + df = df_orig.copy() + df2 = df + df["A"] += 1.5 + expected = DataFrame({"A": arr.copy() + 1.5, "B": "foo"}) + tm.assert_frame_equal(df, expected) + tm.assert_frame_equal(df2, expected) + assert df._mgr is df2._mgr + + @pytest.mark.parametrize( + "op", + [ + "add", + "and", + pytest.param( + "div", + marks=pytest.mark.xfail( + raises=AttributeError, reason="__idiv__ not implemented" + ), + ), + "floordiv", + "mod", + "mul", + "or", + "pow", + "sub", + "truediv", + "xor", + ], + ) + def test_inplace_ops_identity2(self, op): + df = DataFrame({"a": [1.0, 2.0, 3.0], "b": [1, 2, 3]}) + + operand = 2 + if op in ("and", "or", "xor"): + # cannot use floats for boolean ops + df["a"] = [True, False, True] + + df_copy = df.copy() + iop = f"__i{op}__" + op = f"__{op}__" + + # no id change and value is correct + getattr(df, iop)(operand) + expected = getattr(df_copy, op)(operand) + tm.assert_frame_equal(df, expected) + expected = id(df) + assert id(df) == expected + + @pytest.mark.parametrize( + "val", + [ + [1, 2, 3], + (1, 2, 3), + np.array([1, 2, 3], dtype=np.int64), + range(1, 4), + ], + ) + def test_alignment_non_pandas(self, val): + index = ["A", "B", "C"] + columns = ["X", "Y", "Z"] + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=index, + columns=columns, + ) + + align = DataFrame._align_for_op + + expected = DataFrame({"X": val, "Y": val, "Z": val}, index=df.index) + tm.assert_frame_equal(align(df, val, axis=0)[1], expected) + + expected = DataFrame( + {"X": [1, 1, 1], "Y": [2, 2, 2], "Z": [3, 3, 3]}, index=df.index + ) + tm.assert_frame_equal(align(df, val, axis=1)[1], expected) + + @pytest.mark.parametrize("val", [[1, 2], (1, 2), np.array([1, 2]), range(1, 3)]) + def test_alignment_non_pandas_length_mismatch(self, val): + index = ["A", "B", "C"] + columns = ["X", "Y", "Z"] + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=index, + columns=columns, + ) + + align = DataFrame._align_for_op + # length mismatch + msg = "Unable to coerce to Series, length must be 3: given 2" + with pytest.raises(ValueError, match=msg): + align(df, val, axis=0) + + with pytest.raises(ValueError, match=msg): + align(df, val, axis=1) + + def test_alignment_non_pandas_index_columns(self): + index = ["A", "B", "C"] + columns = ["X", "Y", "Z"] + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=index, + columns=columns, + ) + + align = DataFrame._align_for_op + val = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) + tm.assert_frame_equal( + align(df, val, axis=0)[1], + DataFrame(val, index=df.index, columns=df.columns), + ) + tm.assert_frame_equal( + align(df, val, axis=1)[1], + DataFrame(val, index=df.index, columns=df.columns), + ) + + # shape mismatch + msg = "Unable to coerce to DataFrame, shape must be" + val = np.array([[1, 2, 3], [4, 5, 6]]) + with pytest.raises(ValueError, match=msg): + align(df, val, axis=0) + + with pytest.raises(ValueError, match=msg): + align(df, val, axis=1) + + val = np.zeros((3, 3, 3)) + msg = re.escape( + "Unable to coerce to Series/DataFrame, dimension must be <= 2: (3, 3, 3)" + ) + with pytest.raises(ValueError, match=msg): + align(df, val, axis=0) + with pytest.raises(ValueError, match=msg): + align(df, val, axis=1) + + def test_no_warning(self, all_arithmetic_operators): + df = DataFrame({"A": [0.0, 0.0], "B": [0.0, None]}) + b = df["B"] + with tm.assert_produces_warning(None): + getattr(df, all_arithmetic_operators)(b) + + def test_dunder_methods_binary(self, all_arithmetic_operators): + # GH#??? frame.__foo__ should only accept one argument + df = DataFrame({"A": [0.0, 0.0], "B": [0.0, None]}) + b = df["B"] + with pytest.raises(TypeError, match="takes 2 positional arguments"): + getattr(df, all_arithmetic_operators)(b, 0) + + def test_align_int_fill_bug(self): + # GH#910 + X = np.arange(10 * 10, dtype="float64").reshape(10, 10) + Y = np.ones((10, 1), dtype=int) + + df1 = DataFrame(X) + df1["0.X"] = Y.squeeze() + + df2 = df1.astype(float) + + result = df1 - df1.mean() + expected = df2 - df2.mean() + tm.assert_frame_equal(result, expected) + + +def test_pow_with_realignment(): + # GH#32685 pow has special semantics for operating with null values + left = DataFrame({"A": [0, 1, 2]}) + right = DataFrame(index=[0, 1, 2]) + + result = left**right + expected = DataFrame({"A": [np.nan, 1.0, np.nan]}) + tm.assert_frame_equal(result, expected) + + +def test_dataframe_series_extension_dtypes(): + # https://github.com/pandas-dev/pandas/issues/34311 + df = DataFrame( + np.random.default_rng(2).integers(0, 100, (10, 3)), columns=["a", "b", "c"] + ) + ser = Series([1, 2, 3], index=["a", "b", "c"]) + + expected = df.to_numpy("int64") + ser.to_numpy("int64").reshape(-1, 3) + expected = DataFrame(expected, columns=df.columns, dtype="Int64") + + df_ea = df.astype("Int64") + result = df_ea + ser + tm.assert_frame_equal(result, expected) + result = df_ea + ser.astype("Int64") + tm.assert_frame_equal(result, expected) + + +def test_dataframe_blockwise_slicelike(): + # GH#34367 + arr = np.random.default_rng(2).integers(0, 1000, (100, 10)) + df1 = DataFrame(arr) + # Explicit cast to float to avoid implicit cast when setting nan + df2 = df1.copy().astype({1: "float", 3: "float", 7: "float"}) + df2.iloc[0, [1, 3, 7]] = np.nan + + # Explicit cast to float to avoid implicit cast when setting nan + df3 = df1.copy().astype({5: "float"}) + df3.iloc[0, [5]] = np.nan + + # Explicit cast to float to avoid implicit cast when setting nan + df4 = df1.copy().astype({2: "float", 3: "float", 4: "float"}) + df4.iloc[0, np.arange(2, 5)] = np.nan + # Explicit cast to float to avoid implicit cast when setting nan + df5 = df1.copy().astype({4: "float", 5: "float", 6: "float"}) + df5.iloc[0, np.arange(4, 7)] = np.nan + + for left, right in [(df1, df2), (df2, df3), (df4, df5)]: + res = left + right + + expected = DataFrame({i: left[i] + right[i] for i in left.columns}) + tm.assert_frame_equal(res, expected) + + +@pytest.mark.parametrize( + "df, col_dtype", + [ + (DataFrame([[1.0, 2.0], [4.0, 5.0]], columns=list("ab")), "float64"), + ( + DataFrame([[1.0, "b"], [4.0, "b"]], columns=list("ab")).astype( + {"b": object} + ), + "object", + ), + ], +) +def test_dataframe_operation_with_non_numeric_types(df, col_dtype): + # GH #22663 + expected = DataFrame([[0.0, np.nan], [3.0, np.nan]], columns=list("ab")) + expected = expected.astype({"b": col_dtype}) + result = df + Series([-1.0], index=list("a")) + tm.assert_frame_equal(result, expected) + + +def test_arith_reindex_with_duplicates(): + # https://github.com/pandas-dev/pandas/issues/35194 + df1 = DataFrame(data=[[0]], columns=["second"]) + df2 = DataFrame(data=[[0, 0, 0]], columns=["first", "second", "second"]) + result = df1 + df2 + expected = DataFrame([[np.nan, 0, 0]], columns=["first", "second", "second"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("to_add", [[Series([1, 1])], [Series([1, 1]), Series([1, 1])]]) +def test_arith_list_of_arraylike_raise(to_add): + # GH 36702. Raise when trying to add list of array-like to DataFrame + df = DataFrame({"x": [1, 2], "y": [1, 2]}) + + msg = f"Unable to coerce list of {type(to_add[0])} to Series/DataFrame" + with pytest.raises(ValueError, match=msg): + df + to_add + with pytest.raises(ValueError, match=msg): + to_add + df + + +def test_inplace_arithmetic_series_update(using_copy_on_write, warn_copy_on_write): + # https://github.com/pandas-dev/pandas/issues/36373 + df = DataFrame({"A": [1, 2, 3]}) + df_orig = df.copy() + series = df["A"] + vals = series._values + + with tm.assert_cow_warning(warn_copy_on_write): + series += 1 + if using_copy_on_write: + assert series._values is not vals + tm.assert_frame_equal(df, df_orig) + else: + assert series._values is vals + + expected = DataFrame({"A": [2, 3, 4]}) + tm.assert_frame_equal(df, expected) + + +def test_arithmetic_multiindex_align(): + """ + Regression test for: https://github.com/pandas-dev/pandas/issues/33765 + """ + df1 = DataFrame( + [[1]], + index=["a"], + columns=MultiIndex.from_product([[0], [1]], names=["a", "b"]), + ) + df2 = DataFrame([[1]], index=["a"], columns=Index([0], name="a")) + expected = DataFrame( + [[0]], + index=["a"], + columns=MultiIndex.from_product([[0], [1]], names=["a", "b"]), + ) + result = df1 - df2 + tm.assert_frame_equal(result, expected) + + +def test_bool_frame_mult_float(): + # GH 18549 + df = DataFrame(True, list("ab"), list("cd")) + result = df * 1.0 + expected = DataFrame(np.ones((2, 2)), list("ab"), list("cd")) + tm.assert_frame_equal(result, expected) + + +def test_frame_sub_nullable_int(any_int_ea_dtype): + # GH 32822 + series1 = Series([1, 2, None], dtype=any_int_ea_dtype) + series2 = Series([1, 2, 3], dtype=any_int_ea_dtype) + expected = DataFrame([0, 0, None], dtype=any_int_ea_dtype) + result = series1.to_frame() - series2.to_frame() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings( + "ignore:Passing a BlockManager|Passing a SingleBlockManager:DeprecationWarning" +) +def test_frame_op_subclass_nonclass_constructor(): + # GH#43201 subclass._constructor is a function, not the subclass itself + + class SubclassedSeries(Series): + @property + def _constructor(self): + return SubclassedSeries + + @property + def _constructor_expanddim(self): + return SubclassedDataFrame + + class SubclassedDataFrame(DataFrame): + _metadata = ["my_extra_data"] + + def __init__(self, my_extra_data, *args, **kwargs) -> None: + self.my_extra_data = my_extra_data + super().__init__(*args, **kwargs) + + @property + def _constructor(self): + return functools.partial(type(self), self.my_extra_data) + + @property + def _constructor_sliced(self): + return SubclassedSeries + + sdf = SubclassedDataFrame("some_data", {"A": [1, 2, 3], "B": [4, 5, 6]}) + result = sdf * 2 + expected = SubclassedDataFrame("some_data", {"A": [2, 4, 6], "B": [8, 10, 12]}) + tm.assert_frame_equal(result, expected) + + result = sdf + sdf + tm.assert_frame_equal(result, expected) + + +def test_enum_column_equality(): + Cols = Enum("Cols", "col1 col2") + + q1 = DataFrame({Cols.col1: [1, 2, 3]}) + q2 = DataFrame({Cols.col1: [1, 2, 3]}) + + result = q1[Cols.col1] == q2[Cols.col1] + expected = Series([True, True, True], name=Cols.col1) + + tm.assert_series_equal(result, expected) + + +def test_mixed_col_index_dtype(using_infer_string): + # GH 47382 + df1 = DataFrame(columns=list("abc"), data=1.0, index=[0]) + df2 = DataFrame(columns=list("abc"), data=0.0, index=[0]) + df1.columns = df2.columns.astype("string") + result = df1 + df2 + expected = DataFrame(columns=list("abc"), data=1.0, index=[0]) + if using_infer_string: + # df2.columns.dtype will be "str" instead of object, + # so the aligned result will be "string", not object + if HAS_PYARROW: + dtype = "string[pyarrow]" + else: + dtype = "string" + expected.columns = expected.columns.astype(dtype) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arrow_interface.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arrow_interface.py new file mode 100644 index 0000000000000000000000000000000000000000..b36b6b5ffe0cc3f843243a09cb08a2b74d6b728f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_arrow_interface.py @@ -0,0 +1,47 @@ +import ctypes + +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd + +pa = pytest.importorskip("pyarrow") + + +@td.skip_if_no("pyarrow", min_version="14.0") +def test_dataframe_arrow_interface(using_infer_string): + df = pd.DataFrame({"a": [1, 2, 3], "b": ["a", "b", "c"]}) + + capsule = df.__arrow_c_stream__() + assert ( + ctypes.pythonapi.PyCapsule_IsValid( + ctypes.py_object(capsule), b"arrow_array_stream" + ) + == 1 + ) + + table = pa.table(df) + string_type = pa.large_string() if using_infer_string else pa.string() + expected = pa.table({"a": [1, 2, 3], "b": pa.array(["a", "b", "c"], string_type)}) + assert table.equals(expected) + + schema = pa.schema([("a", pa.int8()), ("b", pa.string())]) + table = pa.table(df, schema=schema) + expected = expected.cast(schema) + assert table.equals(expected) + + +@td.skip_if_no("pyarrow", min_version="15.0") +def test_dataframe_to_arrow(using_infer_string): + df = pd.DataFrame({"a": [1, 2, 3], "b": ["a", "b", "c"]}) + + table = pa.RecordBatchReader.from_stream(df).read_all() + string_type = pa.large_string() if using_infer_string else pa.string() + expected = pa.table({"a": [1, 2, 3], "b": pa.array(["a", "b", "c"], string_type)}) + assert table.equals(expected) + + schema = pa.schema([("a", pa.int8()), ("b", pa.string())]) + table = pa.RecordBatchReader.from_stream(df, schema=schema).read_all() + expected = expected.cast(schema) + assert table.equals(expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_block_internals.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_block_internals.py new file mode 100644 index 0000000000000000000000000000000000000000..b2fcba50de0972c1d101da1c2180c7516d507e0d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_block_internals.py @@ -0,0 +1,449 @@ +from datetime import ( + datetime, + timedelta, +) +import itertools + +import numpy as np +import pytest + +from pandas.errors import PerformanceWarning +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + Series, + Timestamp, + date_range, + option_context, +) +import pandas._testing as tm +from pandas.core.internals.blocks import NumpyBlock + +# Segregated collection of methods that require the BlockManager internal data +# structure + + +# TODO(ArrayManager) check which of those tests need to be rewritten to test the +# equivalent for ArrayManager +pytestmark = td.skip_array_manager_invalid_test + + +class TestDataFrameBlockInternals: + def test_setitem_invalidates_datetime_index_freq(self): + # GH#24096 altering a datetime64tz column inplace invalidates the + # `freq` attribute on the underlying DatetimeIndex + + dti = date_range("20130101", periods=3, tz="US/Eastern") + ts = dti[1] + + df = DataFrame({"B": dti}) + assert df["B"]._values.freq is None + + df.iloc[1, 0] = pd.NaT + assert df["B"]._values.freq is None + + # check that the DatetimeIndex was not altered in place + assert dti.freq == "D" + assert dti[1] == ts + + def test_cast_internals(self, float_frame): + msg = "Passing a BlockManager to DataFrame" + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + casted = DataFrame(float_frame._mgr, dtype=int) + expected = DataFrame(float_frame._series, dtype=int) + tm.assert_frame_equal(casted, expected) + + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + casted = DataFrame(float_frame._mgr, dtype=np.int32) + expected = DataFrame(float_frame._series, dtype=np.int32) + tm.assert_frame_equal(casted, expected) + + def test_consolidate(self, float_frame): + float_frame["E"] = 7.0 + consolidated = float_frame._consolidate() + assert len(consolidated._mgr.blocks) == 1 + + # Ensure copy, do I want this? + recons = consolidated._consolidate() + assert recons is not consolidated + tm.assert_frame_equal(recons, consolidated) + + float_frame["F"] = 8.0 + assert len(float_frame._mgr.blocks) == 3 + + return_value = float_frame._consolidate_inplace() + assert return_value is None + assert len(float_frame._mgr.blocks) == 1 + + def test_consolidate_inplace(self, float_frame): + # triggers in-place consolidation + for letter in range(ord("A"), ord("Z")): + float_frame[chr(letter)] = chr(letter) + + def test_modify_values(self, float_frame, using_copy_on_write): + if using_copy_on_write: + with pytest.raises(ValueError, match="read-only"): + float_frame.values[5] = 5 + assert (float_frame.values[5] != 5).all() + return + + float_frame.values[5] = 5 + assert (float_frame.values[5] == 5).all() + + # unconsolidated + float_frame["E"] = 7.0 + col = float_frame["E"] + float_frame.values[6] = 6 + # as of 2.0 .values does not consolidate, so subsequent calls to .values + # does not share data + assert not (float_frame.values[6] == 6).all() + + assert (col == 7).all() + + def test_boolean_set_uncons(self, float_frame): + float_frame["E"] = 7.0 + + expected = float_frame.values.copy() + expected[expected > 1] = 2 + + float_frame[float_frame > 1] = 2 + tm.assert_almost_equal(expected, float_frame.values) + + def test_constructor_with_convert(self): + # this is actually mostly a test of lib.maybe_convert_objects + # #2845 + df = DataFrame({"A": [2**63 - 1]}) + result = df["A"] + expected = Series(np.asarray([2**63 - 1], np.int64), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [2**63]}) + result = df["A"] + expected = Series(np.asarray([2**63], np.uint64), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [datetime(2005, 1, 1), True]}) + result = df["A"] + expected = Series( + np.asarray([datetime(2005, 1, 1), True], np.object_), name="A" + ) + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [None, 1]}) + result = df["A"] + expected = Series(np.asarray([np.nan, 1], np.float64), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0, 2]}) + result = df["A"] + expected = Series(np.asarray([1.0, 2], np.float64), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0 + 2.0j, 3]}) + result = df["A"] + expected = Series(np.asarray([1.0 + 2.0j, 3], np.complex128), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0 + 2.0j, 3.0]}) + result = df["A"] + expected = Series(np.asarray([1.0 + 2.0j, 3.0], np.complex128), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0 + 2.0j, True]}) + result = df["A"] + expected = Series(np.asarray([1.0 + 2.0j, True], np.object_), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0, None]}) + result = df["A"] + expected = Series(np.asarray([1.0, np.nan], np.float64), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1.0 + 2.0j, None]}) + result = df["A"] + expected = Series(np.asarray([1.0 + 2.0j, np.nan], np.complex128), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [2.0, 1, True, None]}) + result = df["A"] + expected = Series(np.asarray([2.0, 1, True, None], np.object_), name="A") + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [2.0, 1, datetime(2006, 1, 1), None]}) + result = df["A"] + expected = Series( + np.asarray([2.0, 1, datetime(2006, 1, 1), None], np.object_), name="A" + ) + tm.assert_series_equal(result, expected) + + def test_construction_with_mixed(self, float_string_frame, using_infer_string): + # mixed-type frames + float_string_frame["datetime"] = datetime.now() + float_string_frame["timedelta"] = timedelta(days=1, seconds=1) + assert float_string_frame["datetime"].dtype == "M8[us]" + assert float_string_frame["timedelta"].dtype == "m8[us]" + result = float_string_frame.dtypes + expected = Series( + [np.dtype("float64")] * 4 + + [ + np.dtype("object") + if not using_infer_string + else pd.StringDtype(na_value=np.nan), + np.dtype("datetime64[us]"), + np.dtype("timedelta64[us]"), + ], + index=list("ABCD") + ["foo", "datetime", "timedelta"], + ) + tm.assert_series_equal(result, expected) + + def test_construction_with_conversions(self): + # convert from a numpy array of non-ns timedelta64; as of 2.0 this does + # *not* convert + arr = np.array([1, 2, 3], dtype="timedelta64[s]") + df = DataFrame({"A": arr}) + expected = DataFrame( + {"A": pd.timedelta_range("00:00:01", periods=3, freq="s")}, index=range(3) + ) + tm.assert_numpy_array_equal(df["A"].to_numpy(), arr) + + expected = DataFrame( + { + "dt1": Timestamp("20130101"), + "dt2": date_range("20130101", periods=3).astype("M8[s]"), + # 'dt3' : date_range('20130101 00:00:01',periods=3,freq='s'), + # FIXME: don't leave commented-out + }, + index=range(3), + ) + assert expected.dtypes["dt1"] == "M8[s]" + assert expected.dtypes["dt2"] == "M8[s]" + + dt1 = np.datetime64("2013-01-01") + dt2 = np.array( + ["2013-01-01", "2013-01-02", "2013-01-03"], dtype="datetime64[D]" + ) + df = DataFrame({"dt1": dt1, "dt2": dt2}) + + # df['dt3'] = np.array(['2013-01-01 00:00:01','2013-01-01 + # 00:00:02','2013-01-01 00:00:03'],dtype='datetime64[s]') + # FIXME: don't leave commented-out + + tm.assert_frame_equal(df, expected) + + def test_constructor_compound_dtypes(self): + # GH 5191 + # compound dtypes should raise not-implementederror + + def f(dtype): + data = list(itertools.repeat((datetime(2001, 1, 1), "aa", 20), 9)) + return DataFrame(data=data, columns=["A", "B", "C"], dtype=dtype) + + msg = "compound dtypes are not implemented in the DataFrame constructor" + with pytest.raises(NotImplementedError, match=msg): + f([("A", "datetime64[h]"), ("B", "str"), ("C", "int32")]) + + # pre-2.0 these used to work (though results may be unexpected) + with pytest.raises(TypeError, match="argument must be"): + f("int64") + with pytest.raises(TypeError, match="argument must be"): + f("float64") + + # 10822 + msg = "^Unknown datetime string format, unable to parse: aa, at position 0$" + with pytest.raises(ValueError, match=msg): + f("M8[ns]") + + def test_pickle(self, float_string_frame, timezone_frame): + empty_frame = DataFrame() + + unpickled = tm.round_trip_pickle(float_string_frame) + tm.assert_frame_equal(float_string_frame, unpickled) + + # buglet + float_string_frame._mgr.ndim + + # empty + unpickled = tm.round_trip_pickle(empty_frame) + repr(unpickled) + + # tz frame + unpickled = tm.round_trip_pickle(timezone_frame) + tm.assert_frame_equal(timezone_frame, unpickled) + + def test_consolidate_datetime64(self): + # numpy vstack bug + + df = DataFrame( + { + "starting": pd.to_datetime( + [ + "2012-06-21 00:00", + "2012-06-23 07:00", + "2012-06-23 16:30", + "2012-06-25 08:00", + "2012-06-26 12:00", + ] + ), + "ending": pd.to_datetime( + [ + "2012-06-23 07:00", + "2012-06-23 16:30", + "2012-06-25 08:00", + "2012-06-26 12:00", + "2012-06-27 08:00", + ] + ), + "measure": [77, 65, 77, 0, 77], + } + ) + + ser_starting = df.starting + ser_starting.index = ser_starting.values + ser_starting = ser_starting.tz_localize("US/Eastern") + ser_starting = ser_starting.tz_convert("UTC") + ser_starting.index.name = "starting" + + ser_ending = df.ending + ser_ending.index = ser_ending.values + ser_ending = ser_ending.tz_localize("US/Eastern") + ser_ending = ser_ending.tz_convert("UTC") + ser_ending.index.name = "ending" + + df.starting = ser_starting.index + df.ending = ser_ending.index + + tm.assert_index_equal(pd.DatetimeIndex(df.starting), ser_starting.index) + tm.assert_index_equal(pd.DatetimeIndex(df.ending), ser_ending.index) + + def test_is_mixed_type(self, float_frame, float_string_frame): + assert not float_frame._is_mixed_type + assert float_string_frame._is_mixed_type + + def test_stale_cached_series_bug_473(self, using_copy_on_write, warn_copy_on_write): + # this is chained, but ok + with option_context("chained_assignment", None): + Y = DataFrame( + np.random.default_rng(2).random((4, 4)), + index=("a", "b", "c", "d"), + columns=("e", "f", "g", "h"), + ) + repr(Y) + Y["e"] = Y["e"].astype("object") + with tm.raises_chained_assignment_error(): + Y["g"]["c"] = np.nan + repr(Y) + Y.sum() + Y["g"].sum() + if using_copy_on_write: + assert not pd.isna(Y["g"]["c"]) + else: + assert pd.isna(Y["g"]["c"]) + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + def test_strange_column_corruption_issue(self, using_copy_on_write): + # TODO(wesm): Unclear how exactly this is related to internal matters + df = DataFrame(index=[0, 1]) + df[0] = np.nan + wasCol = {} + + with tm.assert_produces_warning( + PerformanceWarning, raise_on_extra_warnings=False + ): + for i, dt in enumerate(df.index): + for col in range(100, 200): + if col not in wasCol: + wasCol[col] = 1 + df[col] = np.nan + if using_copy_on_write: + df.loc[dt, col] = i + else: + df[col][dt] = i + + myid = 100 + + first = len(df.loc[pd.isna(df[myid]), [myid]]) + second = len(df.loc[pd.isna(df[myid]), [myid]]) + assert first == second == 0 + + def test_constructor_no_pandas_array(self): + # Ensure that NumpyExtensionArray isn't allowed inside Series + # See https://github.com/pandas-dev/pandas/issues/23995 for more. + arr = Series([1, 2, 3]).array + result = DataFrame({"A": arr}) + expected = DataFrame({"A": [1, 2, 3]}) + tm.assert_frame_equal(result, expected) + assert isinstance(result._mgr.blocks[0], NumpyBlock) + assert result._mgr.blocks[0].is_numeric + + def test_add_column_with_pandas_array(self): + # GH 26390 + df = DataFrame({"a": [1, 2, 3, 4], "b": ["a", "b", "c", "d"]}) + df["c"] = pd.arrays.NumpyExtensionArray(np.array([1, 2, None, 3], dtype=object)) + df2 = DataFrame( + { + "a": [1, 2, 3, 4], + "b": ["a", "b", "c", "d"], + "c": pd.arrays.NumpyExtensionArray( + np.array([1, 2, None, 3], dtype=object) + ), + } + ) + assert type(df["c"]._mgr.blocks[0]) == NumpyBlock + assert df["c"]._mgr.blocks[0].is_object + assert type(df2["c"]._mgr.blocks[0]) == NumpyBlock + assert df2["c"]._mgr.blocks[0].is_object + tm.assert_frame_equal(df, df2) + + +def test_update_inplace_sets_valid_block_values(using_copy_on_write): + # https://github.com/pandas-dev/pandas/issues/33457 + df = DataFrame({"a": Series([1, 2, None], dtype="category")}) + + # inplace update of a single column + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df["a"].fillna(1, inplace=True) + else: + with tm.assert_produces_warning(FutureWarning, match="inplace method"): + df["a"].fillna(1, inplace=True) + + # check we haven't put a Series into any block.values + assert isinstance(df._mgr.blocks[0].values, Categorical) + + if not using_copy_on_write: + # smoketest for OP bug from GH#35731 + assert df.isnull().sum().sum() == 0 + + +def test_nonconsolidated_item_cache_take(): + # https://github.com/pandas-dev/pandas/issues/35521 + + # create non-consolidated dataframe with object dtype columns + df = DataFrame( + { + "col1": Series(["a"], dtype=object), + } + ) + df["col2"] = Series([0], dtype=object) + assert not df._mgr.is_consolidated() + + # access column (item cache) + df["col1"] == "A" + # take operation + # (regression was that this consolidated but didn't reset item cache, + # resulting in an invalid cache and the .at operation not working properly) + df[df["col2"] == 0] + + # now setting value should update actual dataframe + df.at[0, "col1"] = "A" + + expected = DataFrame({"col1": ["A"], "col2": [0]}, dtype=object) + tm.assert_frame_equal(df, expected) + assert df.at[0, "col1"] == "A" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_constructors.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_constructors.py new file mode 100644 index 0000000000000000000000000000000000000000..efc40536d56beb94b5a3f72f36267bd15cc72702 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_constructors.py @@ -0,0 +1,3387 @@ +import array +from collections import ( + OrderedDict, + abc, + defaultdict, + namedtuple, +) +from collections.abc import Iterator +from dataclasses import make_dataclass +from datetime import ( + date, + datetime, + timedelta, +) +import functools +import re + +import numpy as np +from numpy import ma +from numpy.ma import mrecords +import pytest +import pytz + +from pandas._libs import lib +from pandas.compat.numpy import np_version_gt2 +from pandas.errors import IntCastingNaNError +import pandas.util._test_decorators as td + +from pandas.core.dtypes.common import is_integer_dtype +from pandas.core.dtypes.dtypes import ( + DatetimeTZDtype, + IntervalDtype, + NumpyEADtype, + PeriodDtype, +) + +import pandas as pd +from pandas import ( + Categorical, + CategoricalIndex, + DataFrame, + DatetimeIndex, + Index, + Interval, + MultiIndex, + Period, + RangeIndex, + Series, + Timedelta, + Timestamp, + cut, + date_range, + isna, +) +import pandas._testing as tm +from pandas.arrays import ( + DatetimeArray, + IntervalArray, + PeriodArray, + SparseArray, + TimedeltaArray, +) + +MIXED_FLOAT_DTYPES = ["float16", "float32", "float64"] +MIXED_INT_DTYPES = [ + "uint8", + "uint16", + "uint32", + "uint64", + "int8", + "int16", + "int32", + "int64", +] + + +class TestDataFrameConstructors: + def test_constructor_from_ndarray_with_str_dtype(self): + # If we don't ravel/reshape around ensure_str_array, we end up + # with an array of strings each of which is e.g. "[0 1 2]" + arr = np.arange(12).reshape(4, 3) + df = DataFrame(arr, dtype=str) + expected = DataFrame(arr.astype(str), dtype="str") + tm.assert_frame_equal(df, expected) + + def test_constructor_from_2d_datetimearray(self, using_array_manager): + dti = date_range("2016-01-01", periods=6, tz="US/Pacific") + dta = dti._data.reshape(3, 2) + + df = DataFrame(dta) + expected = DataFrame({0: dta[:, 0], 1: dta[:, 1]}) + tm.assert_frame_equal(df, expected) + if not using_array_manager: + # GH#44724 big performance hit if we de-consolidate + assert len(df._mgr.blocks) == 1 + + def test_constructor_dict_with_tzaware_scalar(self): + # GH#42505 + dt = Timestamp("2019-11-03 01:00:00-0700").tz_convert("America/Los_Angeles") + dt = dt.as_unit("ns") + + df = DataFrame({"dt": dt}, index=[0]) + expected = DataFrame({"dt": [dt]}) + tm.assert_frame_equal(df, expected) + + # Non-homogeneous + df = DataFrame({"dt": dt, "value": [1]}) + expected = DataFrame({"dt": [dt], "value": [1]}) + tm.assert_frame_equal(df, expected) + + def test_construct_ndarray_with_nas_and_int_dtype(self): + # GH#26919 match Series by not casting np.nan to meaningless int + arr = np.array([[1, np.nan], [2, 3]]) + msg = r"Cannot convert non-finite values \(NA or inf\) to integer" + with pytest.raises(IntCastingNaNError, match=msg): + DataFrame(arr, dtype="i8") + + # check this matches Series behavior + with pytest.raises(IntCastingNaNError, match=msg): + Series(arr[0], dtype="i8", name=0) + + def test_construct_from_list_of_datetimes(self): + df = DataFrame([datetime.now(), datetime.now()]) + assert df[0].dtype == np.dtype("M8[ns]") + + def test_constructor_from_tzaware_datetimeindex(self): + # don't cast a DatetimeIndex WITH a tz, leave as object + # GH#6032 + naive = DatetimeIndex(["2013-1-1 13:00", "2013-1-2 14:00"], name="B") + idx = naive.tz_localize("US/Pacific") + + expected = Series(np.array(idx.tolist(), dtype="object"), name="B") + assert expected.dtype == idx.dtype + + # convert index to series + result = Series(idx) + tm.assert_series_equal(result, expected) + + def test_columns_with_leading_underscore_work_with_to_dict(self): + col_underscore = "_b" + df = DataFrame({"a": [1, 2], col_underscore: [3, 4]}) + d = df.to_dict(orient="records") + + ref_d = [{"a": 1, col_underscore: 3}, {"a": 2, col_underscore: 4}] + + assert ref_d == d + + def test_columns_with_leading_number_and_underscore_work_with_to_dict(self): + col_with_num = "1_b" + df = DataFrame({"a": [1, 2], col_with_num: [3, 4]}) + d = df.to_dict(orient="records") + + ref_d = [{"a": 1, col_with_num: 3}, {"a": 2, col_with_num: 4}] + + assert ref_d == d + + def test_array_of_dt64_nat_with_td64dtype_raises(self, frame_or_series): + # GH#39462 + nat = np.datetime64("NaT", "ns") + arr = np.array([nat], dtype=object) + if frame_or_series is DataFrame: + arr = arr.reshape(1, 1) + + msg = "Invalid type for timedelta scalar: " + with pytest.raises(TypeError, match=msg): + frame_or_series(arr, dtype="m8[ns]") + + @pytest.mark.parametrize("kind", ["m", "M"]) + def test_datetimelike_values_with_object_dtype(self, kind, frame_or_series): + # with dtype=object, we should cast dt64 values to Timestamps, not pydatetimes + if kind == "M": + dtype = "M8[ns]" + scalar_type = Timestamp + else: + dtype = "m8[ns]" + scalar_type = Timedelta + + arr = np.arange(6, dtype="i8").view(dtype).reshape(3, 2) + if frame_or_series is Series: + arr = arr[:, 0] + + obj = frame_or_series(arr, dtype=object) + assert obj._mgr.arrays[0].dtype == object + assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) + + # go through a different path in internals.construction + obj = frame_or_series(frame_or_series(arr), dtype=object) + assert obj._mgr.arrays[0].dtype == object + assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) + + obj = frame_or_series(frame_or_series(arr), dtype=NumpyEADtype(object)) + assert obj._mgr.arrays[0].dtype == object + assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) + + if frame_or_series is DataFrame: + # other paths through internals.construction + sers = [Series(x) for x in arr] + obj = frame_or_series(sers, dtype=object) + assert obj._mgr.arrays[0].dtype == object + assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) + + def test_series_with_name_not_matching_column(self): + # GH#9232 + x = Series(range(5), name=1) + y = Series(range(5), name=0) + + result = DataFrame(x, columns=[0]) + expected = DataFrame([], columns=[0]) + tm.assert_frame_equal(result, expected) + + result = DataFrame(y, columns=[1]) + expected = DataFrame([], columns=[1]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "constructor", + [ + lambda: DataFrame(), + lambda: DataFrame(None), + lambda: DataFrame(()), + lambda: DataFrame([]), + lambda: DataFrame(_ for _ in []), + lambda: DataFrame(range(0)), + lambda: DataFrame(data=None), + lambda: DataFrame(data=()), + lambda: DataFrame(data=[]), + lambda: DataFrame(data=(_ for _ in [])), + lambda: DataFrame(data=range(0)), + ], + ) + def test_empty_constructor(self, constructor): + expected = DataFrame() + result = constructor() + assert len(result.index) == 0 + assert len(result.columns) == 0 + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "constructor", + [ + lambda: DataFrame({}), + lambda: DataFrame(data={}), + ], + ) + def test_empty_constructor_object_index(self, constructor): + expected = DataFrame(index=RangeIndex(0), columns=RangeIndex(0)) + result = constructor() + assert len(result.index) == 0 + assert len(result.columns) == 0 + tm.assert_frame_equal(result, expected, check_index_type=True) + + @pytest.mark.parametrize( + "emptylike,expected_index,expected_columns", + [ + ([[]], RangeIndex(1), RangeIndex(0)), + ([[], []], RangeIndex(2), RangeIndex(0)), + ([(_ for _ in [])], RangeIndex(1), RangeIndex(0)), + ], + ) + def test_emptylike_constructor(self, emptylike, expected_index, expected_columns): + expected = DataFrame(index=expected_index, columns=expected_columns) + result = DataFrame(emptylike) + tm.assert_frame_equal(result, expected) + + def test_constructor_mixed(self, float_string_frame, using_infer_string): + dtype = "str" if using_infer_string else np.object_ + assert float_string_frame["foo"].dtype == dtype + + def test_constructor_cast_failure(self): + # as of 2.0, we raise if we can't respect "dtype", previously we + # silently ignored + msg = "could not convert string to float" + with pytest.raises(ValueError, match=msg): + DataFrame({"a": ["a", "b", "c"]}, dtype=np.float64) + + # GH 3010, constructing with odd arrays + df = DataFrame(np.ones((4, 2))) + + # this is ok + df["foo"] = np.ones((4, 2)).tolist() + + # this is not ok + msg = "Expected a 1D array, got an array with shape \\(4, 2\\)" + with pytest.raises(ValueError, match=msg): + df["test"] = np.ones((4, 2)) + + # this is ok + df["foo2"] = np.ones((4, 2)).tolist() + + def test_constructor_dtype_copy(self): + orig_df = DataFrame({"col1": [1.0], "col2": [2.0], "col3": [3.0]}) + + new_df = DataFrame(orig_df, dtype=float, copy=True) + + new_df["col1"] = 200.0 + assert orig_df["col1"][0] == 1.0 + + def test_constructor_dtype_nocast_view_dataframe( + self, using_copy_on_write, warn_copy_on_write + ): + df = DataFrame([[1, 2]]) + should_be_view = DataFrame(df, dtype=df[0].dtype) + if using_copy_on_write: + should_be_view.iloc[0, 0] = 99 + assert df.values[0, 0] == 1 + else: + with tm.assert_cow_warning(warn_copy_on_write): + should_be_view.iloc[0, 0] = 99 + assert df.values[0, 0] == 99 + + def test_constructor_dtype_nocast_view_2d_array( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + df = DataFrame([[1, 2], [3, 4]], dtype="int64") + if not using_array_manager and not using_copy_on_write: + should_be_view = DataFrame(df.values, dtype=df[0].dtype) + # TODO(CoW-warn) this should warn + # with tm.assert_cow_warning(warn_copy_on_write): + should_be_view.iloc[0, 0] = 97 + assert df.values[0, 0] == 97 + else: + # INFO(ArrayManager) DataFrame(ndarray) doesn't necessarily preserve + # a view on the array to ensure contiguous 1D arrays + df2 = DataFrame(df.values, dtype=df[0].dtype) + assert df2._mgr.arrays[0].flags.c_contiguous + + @td.skip_array_manager_invalid_test + def test_1d_object_array_does_not_copy(self, using_infer_string): + # https://github.com/pandas-dev/pandas/issues/39272 + arr = np.array(["a", "b"], dtype="object") + df = DataFrame(arr, copy=False) + if using_infer_string: + if df[0].dtype.storage == "pyarrow": + # object dtype strings are converted to arrow memory, + # no numpy arrays to compare + pass + else: + assert np.shares_memory(df[0].to_numpy(), arr) + else: + assert np.shares_memory(df.values, arr) + + df = DataFrame(arr, dtype=object, copy=False) + assert np.shares_memory(df.values, arr) + + @td.skip_array_manager_invalid_test + def test_2d_object_array_does_not_copy(self, using_infer_string): + # https://github.com/pandas-dev/pandas/issues/39272 + arr = np.array([["a", "b"], ["c", "d"]], dtype="object") + df = DataFrame(arr, copy=False) + if using_infer_string: + if df[0].dtype.storage == "pyarrow": + # object dtype strings are converted to arrow memory, + # no numpy arrays to compare + pass + else: + assert np.shares_memory(df[0].to_numpy(), arr) + else: + assert np.shares_memory(df.values, arr) + + df = DataFrame(arr, dtype=object, copy=False) + assert np.shares_memory(df.values, arr) + + def test_constructor_dtype_list_data(self): + df = DataFrame([[1, "2"], [None, "a"]], dtype=object) + assert df.loc[1, 0] is None + assert df.loc[0, 1] == "2" + + def test_constructor_list_of_2d_raises(self): + # https://github.com/pandas-dev/pandas/issues/32289 + a = DataFrame() + b = np.empty((0, 0)) + with pytest.raises(ValueError, match=r"shape=\(1, 0, 0\)"): + DataFrame([a]) + + with pytest.raises(ValueError, match=r"shape=\(1, 0, 0\)"): + DataFrame([b]) + + a = DataFrame({"A": [1, 2]}) + with pytest.raises(ValueError, match=r"shape=\(2, 2, 1\)"): + DataFrame([a, a]) + + @pytest.mark.parametrize( + "typ, ad", + [ + # mixed floating and integer coexist in the same frame + ["float", {}], + # add lots of types + ["float", {"A": 1, "B": "foo", "C": "bar"}], + # GH 622 + ["int", {}], + ], + ) + def test_constructor_mixed_dtypes(self, typ, ad): + if typ == "int": + dtypes = MIXED_INT_DTYPES + arrays = [ + np.array(np.random.default_rng(2).random(10), dtype=d) for d in dtypes + ] + elif typ == "float": + dtypes = MIXED_FLOAT_DTYPES + arrays = [ + np.array(np.random.default_rng(2).integers(10, size=10), dtype=d) + for d in dtypes + ] + + for d, a in zip(dtypes, arrays): + assert a.dtype == d + ad.update(dict(zip(dtypes, arrays))) + df = DataFrame(ad) + + dtypes = MIXED_FLOAT_DTYPES + MIXED_INT_DTYPES + for d in dtypes: + if d in df: + assert df.dtypes[d] == d + + def test_constructor_complex_dtypes(self): + # GH10952 + a = np.random.default_rng(2).random(10).astype(np.complex64) + b = np.random.default_rng(2).random(10).astype(np.complex128) + + df = DataFrame({"a": a, "b": b}) + assert a.dtype == df.a.dtype + assert b.dtype == df.b.dtype + + def test_constructor_dtype_str_na_values(self, string_dtype): + # https://github.com/pandas-dev/pandas/issues/21083 + df = DataFrame({"A": ["x", None]}, dtype=string_dtype) + result = df.isna() + expected = DataFrame({"A": [False, True]}) + tm.assert_frame_equal(result, expected) + assert df.iloc[1, 0] is None + + df = DataFrame({"A": ["x", np.nan]}, dtype=string_dtype) + assert np.isnan(df.iloc[1, 0]) + + def test_constructor_rec(self, float_frame): + rec = float_frame.to_records(index=False) + rec.dtype.names = list(rec.dtype.names)[::-1] + + index = float_frame.index + + df = DataFrame(rec) + tm.assert_index_equal(df.columns, Index(rec.dtype.names)) + + df2 = DataFrame(rec, index=index) + tm.assert_index_equal(df2.columns, Index(rec.dtype.names)) + tm.assert_index_equal(df2.index, index) + + # case with columns != the ones we would infer from the data + rng = np.arange(len(rec))[::-1] + df3 = DataFrame(rec, index=rng, columns=["C", "B"]) + expected = DataFrame(rec, index=rng).reindex(columns=["C", "B"]) + tm.assert_frame_equal(df3, expected) + + def test_constructor_bool(self): + df = DataFrame({0: np.ones(10, dtype=bool), 1: np.zeros(10, dtype=bool)}) + assert df.values.dtype == np.bool_ + + def test_constructor_overflow_int64(self): + # see gh-14881 + values = np.array([2**64 - i for i in range(1, 10)], dtype=np.uint64) + + result = DataFrame({"a": values}) + assert result["a"].dtype == np.uint64 + + # see gh-2355 + data_scores = [ + (6311132704823138710, 273), + (2685045978526272070, 23), + (8921811264899370420, 45), + (17019687244989530680, 270), + (9930107427299601010, 273), + ] + dtype = [("uid", "u8"), ("score", "u8")] + data = np.zeros((len(data_scores),), dtype=dtype) + data[:] = data_scores + df_crawls = DataFrame(data) + assert df_crawls["uid"].dtype == np.uint64 + + @pytest.mark.parametrize( + "values", + [ + np.array([2**64], dtype=object), + np.array([2**65]), + [2**64 + 1], + np.array([-(2**63) - 4], dtype=object), + np.array([-(2**64) - 1]), + [-(2**65) - 2], + ], + ) + def test_constructor_int_overflow(self, values): + # see gh-18584 + value = values[0] + result = DataFrame(values) + + assert result[0].dtype == object + assert result[0][0] == value + + @pytest.mark.parametrize( + "values", + [ + np.array([1], dtype=np.uint16), + np.array([1], dtype=np.uint32), + np.array([1], dtype=np.uint64), + [np.uint16(1)], + [np.uint32(1)], + [np.uint64(1)], + ], + ) + def test_constructor_numpy_uints(self, values): + # GH#47294 + value = values[0] + result = DataFrame(values) + + assert result[0].dtype == value.dtype + assert result[0][0] == value + + def test_constructor_ordereddict(self): + nitems = 100 + nums = list(range(nitems)) + np.random.default_rng(2).shuffle(nums) + expected = [f"A{i:d}" for i in nums] + df = DataFrame(OrderedDict(zip(expected, [[0]] * nitems))) + assert expected == list(df.columns) + + def test_constructor_dict(self): + datetime_series = Series( + np.arange(30, dtype=np.float64), index=date_range("2020-01-01", periods=30) + ) + # test expects index shifted by 5 + datetime_series_short = datetime_series[5:] + + frame = DataFrame({"col1": datetime_series, "col2": datetime_series_short}) + + # col2 is padded with NaN + assert len(datetime_series) == 30 + assert len(datetime_series_short) == 25 + + tm.assert_series_equal(frame["col1"], datetime_series.rename("col1")) + + exp = Series( + np.concatenate([[np.nan] * 5, datetime_series_short.values]), + index=datetime_series.index, + name="col2", + ) + tm.assert_series_equal(exp, frame["col2"]) + + frame = DataFrame( + {"col1": datetime_series, "col2": datetime_series_short}, + columns=["col2", "col3", "col4"], + ) + + assert len(frame) == len(datetime_series_short) + assert "col1" not in frame + assert isna(frame["col3"]).all() + + # Corner cases + assert len(DataFrame()) == 0 + + # mix dict and array, wrong size - no spec for which error should raise + # first + msg = "Mixing dicts with non-Series may lead to ambiguous ordering." + with pytest.raises(ValueError, match=msg): + DataFrame({"A": {"a": "a", "b": "b"}, "B": ["a", "b", "c"]}) + + def test_constructor_dict_length1(self): + # Length-one dict micro-optimization + frame = DataFrame({"A": {"1": 1, "2": 2}}) + tm.assert_index_equal(frame.index, Index(["1", "2"])) + + def test_constructor_dict_with_index(self): + # empty dict plus index + idx = Index([0, 1, 2]) + frame = DataFrame({}, index=idx) + assert frame.index is idx + + def test_constructor_dict_with_index_and_columns(self): + # empty dict with index and columns + idx = Index([0, 1, 2]) + frame = DataFrame({}, index=idx, columns=idx) + assert frame.index is idx + assert frame.columns is idx + assert len(frame._series) == 3 + + def test_constructor_dict_of_empty_lists(self): + # with dict of empty list and Series + frame = DataFrame({"A": [], "B": []}, columns=["A", "B"]) + tm.assert_index_equal(frame.index, RangeIndex(0), exact=True) + + def test_constructor_dict_with_none(self): + # GH 14381 + # Dict with None value + frame_none = DataFrame({"a": None}, index=[0]) + frame_none_list = DataFrame({"a": [None]}, index=[0]) + assert frame_none._get_value(0, "a") is None + assert frame_none_list._get_value(0, "a") is None + tm.assert_frame_equal(frame_none, frame_none_list) + + def test_constructor_dict_errors(self): + # GH10856 + # dict with scalar values should raise error, even if columns passed + msg = "If using all scalar values, you must pass an index" + with pytest.raises(ValueError, match=msg): + DataFrame({"a": 0.7}) + + with pytest.raises(ValueError, match=msg): + DataFrame({"a": 0.7}, columns=["a"]) + + @pytest.mark.parametrize("scalar", [2, np.nan, None, "D"]) + def test_constructor_invalid_items_unused(self, scalar): + # No error if invalid (scalar) value is in fact not used: + result = DataFrame({"a": scalar}, columns=["b"]) + expected = DataFrame(columns=["b"]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("value", [2, np.nan, None, float("nan")]) + def test_constructor_dict_nan_key(self, value): + # GH 18455 + cols = [1, value, 3] + idx = ["a", value] + values = [[0, 3], [1, 4], [2, 5]] + data = {cols[c]: Series(values[c], index=idx) for c in range(3)} + result = DataFrame(data).sort_values(1).sort_values("a", axis=1) + expected = DataFrame( + np.arange(6, dtype="int64").reshape(2, 3), index=idx, columns=cols + ) + tm.assert_frame_equal(result, expected) + + result = DataFrame(data, index=idx).sort_values("a", axis=1) + tm.assert_frame_equal(result, expected) + + result = DataFrame(data, index=idx, columns=cols) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("value", [np.nan, None, float("nan")]) + def test_constructor_dict_nan_tuple_key(self, value): + # GH 18455 + cols = Index([(11, 21), (value, 22), (13, value)]) + idx = Index([("a", value), (value, 2)]) + values = [[0, 3], [1, 4], [2, 5]] + data = {cols[c]: Series(values[c], index=idx) for c in range(3)} + result = DataFrame(data).sort_values((11, 21)).sort_values(("a", value), axis=1) + expected = DataFrame( + np.arange(6, dtype="int64").reshape(2, 3), index=idx, columns=cols + ) + tm.assert_frame_equal(result, expected) + + result = DataFrame(data, index=idx).sort_values(("a", value), axis=1) + tm.assert_frame_equal(result, expected) + + result = DataFrame(data, index=idx, columns=cols) + tm.assert_frame_equal(result, expected) + + def test_constructor_dict_order_insertion(self): + datetime_series = Series( + np.arange(10, dtype=np.float64), index=date_range("2020-01-01", periods=10) + ) + datetime_series_short = datetime_series[:5] + + # GH19018 + # initialization ordering: by insertion order if python>= 3.6 + d = {"b": datetime_series_short, "a": datetime_series} + frame = DataFrame(data=d) + expected = DataFrame(data=d, columns=list("ba")) + tm.assert_frame_equal(frame, expected) + + def test_constructor_dict_nan_key_and_columns(self): + # GH 16894 + result = DataFrame({np.nan: [1, 2], 2: [2, 3]}, columns=[np.nan, 2]) + expected = DataFrame([[1, 2], [2, 3]], columns=[np.nan, 2]) + tm.assert_frame_equal(result, expected) + + def test_constructor_multi_index(self): + # GH 4078 + # construction error with mi and all-nan frame + tuples = [(2, 3), (3, 3), (3, 3)] + mi = MultiIndex.from_tuples(tuples) + df = DataFrame(index=mi, columns=mi) + assert isna(df).values.ravel().all() + + tuples = [(3, 3), (2, 3), (3, 3)] + mi = MultiIndex.from_tuples(tuples) + df = DataFrame(index=mi, columns=mi) + assert isna(df).values.ravel().all() + + def test_constructor_2d_index(self): + # GH 25416 + # handling of 2d index in construction + df = DataFrame([[1]], columns=[[1]], index=[1, 2]) + expected = DataFrame( + [1, 1], + index=Index([1, 2], dtype="int64"), + columns=MultiIndex(levels=[[1]], codes=[[0]]), + ) + tm.assert_frame_equal(df, expected) + + df = DataFrame([[1]], columns=[[1]], index=[[1, 2]]) + expected = DataFrame( + [1, 1], + index=MultiIndex(levels=[[1, 2]], codes=[[0, 1]]), + columns=MultiIndex(levels=[[1]], codes=[[0]]), + ) + tm.assert_frame_equal(df, expected) + + def test_constructor_error_msgs(self): + msg = "Empty data passed with indices specified." + # passing an empty array with columns specified. + with pytest.raises(ValueError, match=msg): + DataFrame(np.empty(0), index=[1]) + + msg = "Mixing dicts with non-Series may lead to ambiguous ordering." + # mix dict and array, wrong size + with pytest.raises(ValueError, match=msg): + DataFrame({"A": {"a": "a", "b": "b"}, "B": ["a", "b", "c"]}) + + # wrong size ndarray, GH 3105 + msg = r"Shape of passed values is \(4, 3\), indices imply \(3, 3\)" + with pytest.raises(ValueError, match=msg): + DataFrame( + np.arange(12).reshape((4, 3)), + columns=["foo", "bar", "baz"], + index=date_range("2000-01-01", periods=3), + ) + + arr = np.array([[4, 5, 6]]) + msg = r"Shape of passed values is \(1, 3\), indices imply \(1, 4\)" + with pytest.raises(ValueError, match=msg): + DataFrame(index=[0], columns=range(4), data=arr) + + arr = np.array([4, 5, 6]) + msg = r"Shape of passed values is \(3, 1\), indices imply \(1, 4\)" + with pytest.raises(ValueError, match=msg): + DataFrame(index=[0], columns=range(4), data=arr) + + # higher dim raise exception + with pytest.raises(ValueError, match="Must pass 2-d input"): + DataFrame(np.zeros((3, 3, 3)), columns=["A", "B", "C"], index=[1]) + + # wrong size axis labels + msg = r"Shape of passed values is \(2, 3\), indices imply \(1, 3\)" + with pytest.raises(ValueError, match=msg): + DataFrame( + np.random.default_rng(2).random((2, 3)), + columns=["A", "B", "C"], + index=[1], + ) + + msg = r"Shape of passed values is \(2, 3\), indices imply \(2, 2\)" + with pytest.raises(ValueError, match=msg): + DataFrame( + np.random.default_rng(2).random((2, 3)), + columns=["A", "B"], + index=[1, 2], + ) + + # gh-26429 + msg = "2 columns passed, passed data had 10 columns" + with pytest.raises(ValueError, match=msg): + DataFrame((range(10), range(10, 20)), columns=("ones", "twos")) + + msg = "If using all scalar values, you must pass an index" + with pytest.raises(ValueError, match=msg): + DataFrame({"a": False, "b": True}) + + def test_constructor_subclass_dict(self, dict_subclass): + # Test for passing dict subclass to constructor + data = { + "col1": dict_subclass((x, 10.0 * x) for x in range(10)), + "col2": dict_subclass((x, 20.0 * x) for x in range(10)), + } + df = DataFrame(data) + refdf = DataFrame({col: dict(val.items()) for col, val in data.items()}) + tm.assert_frame_equal(refdf, df) + + data = dict_subclass(data.items()) + df = DataFrame(data) + tm.assert_frame_equal(refdf, df) + + def test_constructor_defaultdict(self, float_frame): + # try with defaultdict + data = {} + float_frame.loc[: float_frame.index[10], "B"] = np.nan + + for k, v in float_frame.items(): + dct = defaultdict(dict) + dct.update(v.to_dict()) + data[k] = dct + frame = DataFrame(data) + expected = frame.reindex(index=float_frame.index) + tm.assert_frame_equal(float_frame, expected) + + def test_constructor_dict_block(self): + expected = np.array([[4.0, 3.0, 2.0, 1.0]]) + df = DataFrame( + {"d": [4.0], "c": [3.0], "b": [2.0], "a": [1.0]}, + columns=["d", "c", "b", "a"], + ) + tm.assert_numpy_array_equal(df.values, expected) + + def test_constructor_dict_cast(self, using_infer_string): + # cast float tests + test_data = {"A": {"1": 1, "2": 2}, "B": {"1": "1", "2": "2", "3": "3"}} + frame = DataFrame(test_data, dtype=float) + assert len(frame) == 3 + assert frame["B"].dtype == np.float64 + assert frame["A"].dtype == np.float64 + + frame = DataFrame(test_data) + assert len(frame) == 3 + assert frame["B"].dtype == np.object_ if not using_infer_string else "str" + assert frame["A"].dtype == np.float64 + + def test_constructor_dict_cast2(self): + # can't cast to float + test_data = { + "A": dict(zip(range(20), [f"word_{i}" for i in range(20)])), + "B": dict(zip(range(15), np.random.default_rng(2).standard_normal(15))), + } + with pytest.raises(ValueError, match="could not convert string"): + DataFrame(test_data, dtype=float) + + def test_constructor_dict_dont_upcast(self): + d = {"Col1": {"Row1": "A String", "Row2": np.nan}} + df = DataFrame(d) + assert isinstance(df["Col1"]["Row2"], float) + + def test_constructor_dict_dont_upcast2(self): + dm = DataFrame([[1, 2], ["a", "b"]], index=[1, 2], columns=[1, 2]) + assert isinstance(dm[1][1], int) + + def test_constructor_dict_of_tuples(self): + # GH #1491 + data = {"a": (1, 2, 3), "b": (4, 5, 6)} + + result = DataFrame(data) + expected = DataFrame({k: list(v) for k, v in data.items()}) + tm.assert_frame_equal(result, expected, check_dtype=False) + + def test_constructor_dict_of_ranges(self): + # GH 26356 + data = {"a": range(3), "b": range(3, 6)} + + result = DataFrame(data) + expected = DataFrame({"a": [0, 1, 2], "b": [3, 4, 5]}) + tm.assert_frame_equal(result, expected) + + def test_constructor_dict_of_iterators(self): + # GH 26349 + data = {"a": iter(range(3)), "b": reversed(range(3))} + + result = DataFrame(data) + expected = DataFrame({"a": [0, 1, 2], "b": [2, 1, 0]}) + tm.assert_frame_equal(result, expected) + + def test_constructor_dict_of_generators(self): + # GH 26349 + data = {"a": (i for i in (range(3))), "b": (i for i in reversed(range(3)))} + result = DataFrame(data) + expected = DataFrame({"a": [0, 1, 2], "b": [2, 1, 0]}) + tm.assert_frame_equal(result, expected) + + def test_constructor_dict_multiindex(self): + d = { + ("a", "a"): {("i", "i"): 0, ("i", "j"): 1, ("j", "i"): 2}, + ("b", "a"): {("i", "i"): 6, ("i", "j"): 5, ("j", "i"): 4}, + ("b", "c"): {("i", "i"): 7, ("i", "j"): 8, ("j", "i"): 9}, + } + _d = sorted(d.items()) + df = DataFrame(d) + expected = DataFrame( + [x[1] for x in _d], index=MultiIndex.from_tuples([x[0] for x in _d]) + ).T + expected.index = MultiIndex.from_tuples(expected.index) + tm.assert_frame_equal( + df, + expected, + ) + + d["z"] = {"y": 123.0, ("i", "i"): 111, ("i", "j"): 111, ("j", "i"): 111} + _d.insert(0, ("z", d["z"])) + expected = DataFrame( + [x[1] for x in _d], index=Index([x[0] for x in _d], tupleize_cols=False) + ).T + expected.index = Index(expected.index, tupleize_cols=False) + df = DataFrame(d) + df = df.reindex(columns=expected.columns, index=expected.index) + tm.assert_frame_equal(df, expected) + + def test_constructor_dict_datetime64_index(self): + # GH 10160 + dates_as_str = ["1984-02-19", "1988-11-06", "1989-12-03", "1990-03-15"] + + def create_data(constructor): + return {i: {constructor(s): 2 * i} for i, s in enumerate(dates_as_str)} + + data_datetime64 = create_data(np.datetime64) + data_datetime = create_data(lambda x: datetime.strptime(x, "%Y-%m-%d")) + data_Timestamp = create_data(Timestamp) + + expected = DataFrame( + [ + {0: 0, 1: None, 2: None, 3: None}, + {0: None, 1: 2, 2: None, 3: None}, + {0: None, 1: None, 2: 4, 3: None}, + {0: None, 1: None, 2: None, 3: 6}, + ], + index=[Timestamp(dt) for dt in dates_as_str], + ) + + result_datetime64 = DataFrame(data_datetime64) + result_datetime = DataFrame(data_datetime) + result_Timestamp = DataFrame(data_Timestamp) + tm.assert_frame_equal(result_datetime64, expected) + tm.assert_frame_equal(result_datetime, expected) + tm.assert_frame_equal(result_Timestamp, expected) + + @pytest.mark.parametrize( + "klass,name", + [ + (lambda x: np.timedelta64(x, "D"), "timedelta64"), + (lambda x: timedelta(days=x), "pytimedelta"), + (lambda x: Timedelta(x, "D"), "Timedelta[ns]"), + (lambda x: Timedelta(x, "D").as_unit("s"), "Timedelta[s]"), + ], + ) + def test_constructor_dict_timedelta64_index(self, klass, name): + # GH 10160 + td_as_int = [1, 2, 3, 4] + + data = {i: {klass(s): 2 * i} for i, s in enumerate(td_as_int)} + + expected = DataFrame( + [ + {0: 0, 1: None, 2: None, 3: None}, + {0: None, 1: 2, 2: None, 3: None}, + {0: None, 1: None, 2: 4, 3: None}, + {0: None, 1: None, 2: None, 3: 6}, + ], + index=[Timedelta(td, "D") for td in td_as_int], + ) + + result = DataFrame(data) + + tm.assert_frame_equal(result, expected) + + def test_constructor_period_dict(self): + # PeriodIndex + a = pd.PeriodIndex(["2012-01", "NaT", "2012-04"], freq="M") + b = pd.PeriodIndex(["2012-02-01", "2012-03-01", "NaT"], freq="D") + df = DataFrame({"a": a, "b": b}) + assert df["a"].dtype == a.dtype + assert df["b"].dtype == b.dtype + + # list of periods + df = DataFrame({"a": a.astype(object).tolist(), "b": b.astype(object).tolist()}) + assert df["a"].dtype == a.dtype + assert df["b"].dtype == b.dtype + + def test_constructor_dict_extension_scalar(self, ea_scalar_and_dtype): + ea_scalar, ea_dtype = ea_scalar_and_dtype + df = DataFrame({"a": ea_scalar}, index=[0]) + assert df["a"].dtype == ea_dtype + + expected = DataFrame(index=[0], columns=["a"], data=ea_scalar) + + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "data,dtype", + [ + (Period("2020-01"), PeriodDtype("M")), + (Interval(left=0, right=5), IntervalDtype("int64", "right")), + ( + Timestamp("2011-01-01", tz="US/Eastern"), + DatetimeTZDtype(unit="s", tz="US/Eastern"), + ), + ], + ) + def test_constructor_extension_scalar_data(self, data, dtype): + # GH 34832 + df = DataFrame(index=[0, 1], columns=["a", "b"], data=data) + + assert df["a"].dtype == dtype + assert df["b"].dtype == dtype + + arr = pd.array([data] * 2, dtype=dtype) + expected = DataFrame({"a": arr, "b": arr}) + + tm.assert_frame_equal(df, expected) + + def test_nested_dict_frame_constructor(self): + rng = pd.period_range("1/1/2000", periods=5) + df = DataFrame(np.random.default_rng(2).standard_normal((10, 5)), columns=rng) + + data = {} + for col in df.columns: + for row in df.index: + data.setdefault(col, {})[row] = df._get_value(row, col) + + result = DataFrame(data, columns=rng) + tm.assert_frame_equal(result, df) + + data = {} + for col in df.columns: + for row in df.index: + data.setdefault(row, {})[col] = df._get_value(row, col) + + result = DataFrame(data, index=rng).T + tm.assert_frame_equal(result, df) + + def _check_basic_constructor(self, empty): + # mat: 2d matrix with shape (3, 2) to input. empty - makes sized + # objects + mat = empty((2, 3), dtype=float) + # 2-D input + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + + assert len(frame.index) == 2 + assert len(frame.columns) == 3 + + # 1-D input + frame = DataFrame(empty((3,)), columns=["A"], index=[1, 2, 3]) + assert len(frame.index) == 3 + assert len(frame.columns) == 1 + + if empty is not np.ones: + msg = r"Cannot convert non-finite values \(NA or inf\) to integer" + with pytest.raises(IntCastingNaNError, match=msg): + DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.int64) + return + else: + frame = DataFrame( + mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.int64 + ) + assert frame.values.dtype == np.int64 + + # wrong size axis labels + msg = r"Shape of passed values is \(2, 3\), indices imply \(1, 3\)" + with pytest.raises(ValueError, match=msg): + DataFrame(mat, columns=["A", "B", "C"], index=[1]) + msg = r"Shape of passed values is \(2, 3\), indices imply \(2, 2\)" + with pytest.raises(ValueError, match=msg): + DataFrame(mat, columns=["A", "B"], index=[1, 2]) + + # higher dim raise exception + with pytest.raises(ValueError, match="Must pass 2-d input"): + DataFrame(empty((3, 3, 3)), columns=["A", "B", "C"], index=[1]) + + # automatic labeling + frame = DataFrame(mat) + tm.assert_index_equal(frame.index, Index(range(2)), exact=True) + tm.assert_index_equal(frame.columns, Index(range(3)), exact=True) + + frame = DataFrame(mat, index=[1, 2]) + tm.assert_index_equal(frame.columns, Index(range(3)), exact=True) + + frame = DataFrame(mat, columns=["A", "B", "C"]) + tm.assert_index_equal(frame.index, Index(range(2)), exact=True) + + # 0-length axis + frame = DataFrame(empty((0, 3))) + assert len(frame.index) == 0 + + frame = DataFrame(empty((3, 0))) + assert len(frame.columns) == 0 + + def test_constructor_ndarray(self): + self._check_basic_constructor(np.ones) + + frame = DataFrame(["foo", "bar"], index=[0, 1], columns=["A"]) + assert len(frame) == 2 + + def test_constructor_maskedarray(self): + self._check_basic_constructor(ma.masked_all) + + # Check non-masked values + mat = ma.masked_all((2, 3), dtype=float) + mat[0, 0] = 1.0 + mat[1, 2] = 2.0 + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + assert 1.0 == frame["A"][1] + assert 2.0 == frame["C"][2] + + # what is this even checking?? + mat = ma.masked_all((2, 3), dtype=float) + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + assert np.all(~np.asarray(frame == frame)) + + @pytest.mark.filterwarnings( + "ignore:elementwise comparison failed:DeprecationWarning" + ) + def test_constructor_maskedarray_nonfloat(self): + # masked int promoted to float + mat = ma.masked_all((2, 3), dtype=int) + # 2-D input + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + + assert len(frame.index) == 2 + assert len(frame.columns) == 3 + assert np.all(~np.asarray(frame == frame)) + + # cast type + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.float64) + assert frame.values.dtype == np.float64 + + # Check non-masked values + mat2 = ma.copy(mat) + mat2[0, 0] = 1 + mat2[1, 2] = 2 + frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) + assert 1 == frame["A"][1] + assert 2 == frame["C"][2] + + # masked np.datetime64 stays (use NaT as null) + mat = ma.masked_all((2, 3), dtype="M8[ns]") + # 2-D input + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + + assert len(frame.index) == 2 + assert len(frame.columns) == 3 + assert isna(frame).values.all() + + # cast type + msg = r"datetime64\[ns\] values and dtype=int64 is not supported" + with pytest.raises(TypeError, match=msg): + DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.int64) + + # Check non-masked values + mat2 = ma.copy(mat) + mat2[0, 0] = 1 + mat2[1, 2] = 2 + frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) + assert 1 == frame["A"].astype("i8")[1] + assert 2 == frame["C"].astype("i8")[2] + + # masked bool promoted to object + mat = ma.masked_all((2, 3), dtype=bool) + # 2-D input + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) + + assert len(frame.index) == 2 + assert len(frame.columns) == 3 + assert np.all(~np.asarray(frame == frame)) + + # cast type + frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=object) + assert frame.values.dtype == object + + # Check non-masked values + mat2 = ma.copy(mat) + mat2[0, 0] = True + mat2[1, 2] = False + frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) + assert frame["A"][1] is True + assert frame["C"][2] is False + + def test_constructor_maskedarray_hardened(self): + # Check numpy masked arrays with hard masks -- from GH24574 + mat_hard = ma.masked_all((2, 2), dtype=float).harden_mask() + result = DataFrame(mat_hard, columns=["A", "B"], index=[1, 2]) + expected = DataFrame( + {"A": [np.nan, np.nan], "B": [np.nan, np.nan]}, + columns=["A", "B"], + index=[1, 2], + dtype=float, + ) + tm.assert_frame_equal(result, expected) + # Check case where mask is hard but no data are masked + mat_hard = ma.ones((2, 2), dtype=float).harden_mask() + result = DataFrame(mat_hard, columns=["A", "B"], index=[1, 2]) + expected = DataFrame( + {"A": [1.0, 1.0], "B": [1.0, 1.0]}, + columns=["A", "B"], + index=[1, 2], + dtype=float, + ) + tm.assert_frame_equal(result, expected) + + def test_constructor_maskedrecarray_dtype(self): + # Ensure constructor honors dtype + data = np.ma.array( + np.ma.zeros(5, dtype=[("date", " None: + self._lst = lst + + def __getitem__(self, n): + return self._lst.__getitem__(n) + + def __len__(self) -> int: + return self._lst.__len__() + + lst_containers = [DummyContainer([1, "a"]), DummyContainer([2, "b"])] + columns = ["num", "str"] + result = DataFrame(lst_containers, columns=columns) + expected = DataFrame([[1, "a"], [2, "b"]], columns=columns) + tm.assert_frame_equal(result, expected, check_dtype=False) + + def test_constructor_stdlib_array(self): + # GH 4297 + # support Array + result = DataFrame({"A": array.array("i", range(10))}) + expected = DataFrame({"A": list(range(10))}) + tm.assert_frame_equal(result, expected, check_dtype=False) + + expected = DataFrame([list(range(10)), list(range(10))]) + result = DataFrame([array.array("i", range(10)), array.array("i", range(10))]) + tm.assert_frame_equal(result, expected, check_dtype=False) + + def test_constructor_range(self): + # GH26342 + result = DataFrame(range(10)) + expected = DataFrame(list(range(10))) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_ranges(self): + result = DataFrame([range(10), range(10)]) + expected = DataFrame([list(range(10)), list(range(10))]) + tm.assert_frame_equal(result, expected) + + def test_constructor_iterable(self): + # GH 21987 + class Iter: + def __iter__(self) -> Iterator: + for i in range(10): + yield [1, 2, 3] + + expected = DataFrame([[1, 2, 3]] * 10) + result = DataFrame(Iter()) + tm.assert_frame_equal(result, expected) + + def test_constructor_iterator(self): + result = DataFrame(iter(range(10))) + expected = DataFrame(list(range(10))) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_iterators(self): + result = DataFrame([iter(range(10)), iter(range(10))]) + expected = DataFrame([list(range(10)), list(range(10))]) + tm.assert_frame_equal(result, expected) + + def test_constructor_generator(self): + # related #2305 + + gen1 = (i for i in range(10)) + gen2 = (i for i in range(10)) + + expected = DataFrame([list(range(10)), list(range(10))]) + result = DataFrame([gen1, gen2]) + tm.assert_frame_equal(result, expected) + + gen = ([i, "a"] for i in range(10)) + result = DataFrame(gen) + expected = DataFrame({0: range(10), 1: "a"}) + tm.assert_frame_equal(result, expected, check_dtype=False) + + def test_constructor_list_of_dicts(self): + result = DataFrame([{}]) + expected = DataFrame(index=RangeIndex(1), columns=[]) + tm.assert_frame_equal(result, expected) + + def test_constructor_ordered_dict_nested_preserve_order(self): + # see gh-18166 + nested1 = OrderedDict([("b", 1), ("a", 2)]) + nested2 = OrderedDict([("b", 2), ("a", 5)]) + data = OrderedDict([("col2", nested1), ("col1", nested2)]) + result = DataFrame(data) + data = {"col2": [1, 2], "col1": [2, 5]} + expected = DataFrame(data=data, index=["b", "a"]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dict_type", [dict, OrderedDict]) + def test_constructor_ordered_dict_preserve_order(self, dict_type): + # see gh-13304 + expected = DataFrame([[2, 1]], columns=["b", "a"]) + + data = dict_type() + data["b"] = [2] + data["a"] = [1] + + result = DataFrame(data) + tm.assert_frame_equal(result, expected) + + data = dict_type() + data["b"] = 2 + data["a"] = 1 + + result = DataFrame([data]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dict_type", [dict, OrderedDict]) + def test_constructor_ordered_dict_conflicting_orders(self, dict_type): + # the first dict element sets the ordering for the DataFrame, + # even if there are conflicting orders from subsequent ones + row_one = dict_type() + row_one["b"] = 2 + row_one["a"] = 1 + + row_two = dict_type() + row_two["a"] = 1 + row_two["b"] = 2 + + row_three = {"b": 2, "a": 1} + + expected = DataFrame([[2, 1], [2, 1]], columns=["b", "a"]) + result = DataFrame([row_one, row_two]) + tm.assert_frame_equal(result, expected) + + expected = DataFrame([[2, 1], [2, 1], [2, 1]], columns=["b", "a"]) + result = DataFrame([row_one, row_two, row_three]) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_series_aligned_index(self): + series = [Series(i, index=["b", "a", "c"], name=str(i)) for i in range(3)] + result = DataFrame(series) + expected = DataFrame( + {"b": [0, 1, 2], "a": [0, 1, 2], "c": [0, 1, 2]}, + columns=["b", "a", "c"], + index=["0", "1", "2"], + ) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_derived_dicts(self): + class CustomDict(dict): + pass + + d = {"a": 1.5, "b": 3} + + data_custom = [CustomDict(d)] + data = [d] + + result_custom = DataFrame(data_custom) + result = DataFrame(data) + tm.assert_frame_equal(result, result_custom) + + def test_constructor_ragged(self): + data = { + "A": np.random.default_rng(2).standard_normal(10), + "B": np.random.default_rng(2).standard_normal(8), + } + with pytest.raises(ValueError, match="All arrays must be of the same length"): + DataFrame(data) + + def test_constructor_scalar(self): + idx = Index(range(3)) + df = DataFrame({"a": 0}, index=idx) + expected = DataFrame({"a": [0, 0, 0]}, index=idx) + tm.assert_frame_equal(df, expected, check_dtype=False) + + def test_constructor_Series_copy_bug(self, float_frame): + df = DataFrame(float_frame["A"], index=float_frame.index, columns=["A"]) + df.copy() + + def test_constructor_mixed_dict_and_Series(self): + data = {} + data["A"] = {"foo": 1, "bar": 2, "baz": 3} + data["B"] = Series([4, 3, 2, 1], index=["bar", "qux", "baz", "foo"]) + + result = DataFrame(data) + assert result.index.is_monotonic_increasing + + # ordering ambiguous, raise exception + with pytest.raises(ValueError, match="ambiguous ordering"): + DataFrame({"A": ["a", "b"], "B": {"a": "a", "b": "b"}}) + + # this is OK though + result = DataFrame({"A": ["a", "b"], "B": Series(["a", "b"], index=["a", "b"])}) + expected = DataFrame({"A": ["a", "b"], "B": ["a", "b"]}, index=["a", "b"]) + tm.assert_frame_equal(result, expected) + + def test_constructor_mixed_type_rows(self): + # Issue 25075 + data = [[1, 2], (3, 4)] + result = DataFrame(data) + expected = DataFrame([[1, 2], [3, 4]]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "tuples,lists", + [ + ((), []), + ((()), []), + (((), ()), [(), ()]), + (((), ()), [[], []]), + (([], []), [[], []]), + (([1], [2]), [[1], [2]]), # GH 32776 + (([1, 2, 3], [4, 5, 6]), [[1, 2, 3], [4, 5, 6]]), + ], + ) + def test_constructor_tuple(self, tuples, lists): + # GH 25691 + result = DataFrame(tuples) + expected = DataFrame(lists) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_tuples(self): + result = DataFrame({"A": [(1, 2), (3, 4)]}) + expected = DataFrame({"A": Series([(1, 2), (3, 4)])}) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_namedtuples(self): + # GH11181 + named_tuple = namedtuple("Pandas", list("ab")) + tuples = [named_tuple(1, 3), named_tuple(2, 4)] + expected = DataFrame({"a": [1, 2], "b": [3, 4]}) + result = DataFrame(tuples) + tm.assert_frame_equal(result, expected) + + # with columns + expected = DataFrame({"y": [1, 2], "z": [3, 4]}) + result = DataFrame(tuples, columns=["y", "z"]) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_dataclasses(self): + # GH21910 + Point = make_dataclass("Point", [("x", int), ("y", int)]) + + data = [Point(0, 3), Point(1, 3)] + expected = DataFrame({"x": [0, 1], "y": [3, 3]}) + result = DataFrame(data) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_dataclasses_with_varying_types(self): + # GH21910 + # varying types + Point = make_dataclass("Point", [("x", int), ("y", int)]) + HLine = make_dataclass("HLine", [("x0", int), ("x1", int), ("y", int)]) + + data = [Point(0, 3), HLine(1, 3, 3)] + + expected = DataFrame( + {"x": [0, np.nan], "y": [3, 3], "x0": [np.nan, 1], "x1": [np.nan, 3]} + ) + result = DataFrame(data) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_of_dataclasses_error_thrown(self): + # GH21910 + Point = make_dataclass("Point", [("x", int), ("y", int)]) + + # expect TypeError + msg = "asdict() should be called on dataclass instances" + with pytest.raises(TypeError, match=re.escape(msg)): + DataFrame([Point(0, 0), {"x": 1, "y": 0}]) + + def test_constructor_list_of_dict_order(self): + # GH10056 + data = [ + {"First": 1, "Second": 4, "Third": 7, "Fourth": 10}, + {"Second": 5, "First": 2, "Fourth": 11, "Third": 8}, + {"Second": 6, "First": 3, "Fourth": 12, "Third": 9, "YYY": 14, "XXX": 13}, + ] + expected = DataFrame( + { + "First": [1, 2, 3], + "Second": [4, 5, 6], + "Third": [7, 8, 9], + "Fourth": [10, 11, 12], + "YYY": [None, None, 14], + "XXX": [None, None, 13], + } + ) + result = DataFrame(data) + tm.assert_frame_equal(result, expected) + + def test_constructor_Series_named(self): + a = Series([1, 2, 3], index=["a", "b", "c"], name="x") + df = DataFrame(a) + assert df.columns[0] == "x" + tm.assert_index_equal(df.index, a.index) + + # ndarray like + arr = np.random.default_rng(2).standard_normal(10) + s = Series(arr, name="x") + df = DataFrame(s) + expected = DataFrame({"x": s}) + tm.assert_frame_equal(df, expected) + + s = Series(arr, index=range(3, 13)) + df = DataFrame(s) + expected = DataFrame({0: s}) + tm.assert_frame_equal(df, expected) + + msg = r"Shape of passed values is \(10, 1\), indices imply \(10, 2\)" + with pytest.raises(ValueError, match=msg): + DataFrame(s, columns=[1, 2]) + + # #2234 + a = Series([], name="x", dtype=object) + df = DataFrame(a) + assert df.columns[0] == "x" + + # series with name and w/o + s1 = Series(arr, name="x") + df = DataFrame([s1, arr]).T + expected = DataFrame({"x": s1, "Unnamed 0": arr}, columns=["x", "Unnamed 0"]) + tm.assert_frame_equal(df, expected) + + # this is a bit non-intuitive here; the series collapse down to arrays + df = DataFrame([arr, s1]).T + expected = DataFrame({1: s1, 0: arr}, columns=[0, 1]) + tm.assert_frame_equal(df, expected) + + def test_constructor_Series_named_and_columns(self): + # GH 9232 validation + + s0 = Series(range(5), name=0) + s1 = Series(range(5), name=1) + + # matching name and column gives standard frame + tm.assert_frame_equal(DataFrame(s0, columns=[0]), s0.to_frame()) + tm.assert_frame_equal(DataFrame(s1, columns=[1]), s1.to_frame()) + + # non-matching produces empty frame + assert DataFrame(s0, columns=[1]).empty + assert DataFrame(s1, columns=[0]).empty + + def test_constructor_Series_differently_indexed(self): + # name + s1 = Series([1, 2, 3], index=["a", "b", "c"], name="x") + + # no name + s2 = Series([1, 2, 3], index=["a", "b", "c"]) + + other_index = Index(["a", "b"]) + + df1 = DataFrame(s1, index=other_index) + exp1 = DataFrame(s1.reindex(other_index)) + assert df1.columns[0] == "x" + tm.assert_frame_equal(df1, exp1) + + df2 = DataFrame(s2, index=other_index) + exp2 = DataFrame(s2.reindex(other_index)) + assert df2.columns[0] == 0 + tm.assert_index_equal(df2.index, other_index) + tm.assert_frame_equal(df2, exp2) + + @pytest.mark.parametrize( + "name_in1,name_in2,name_in3,name_out", + [ + ("idx", "idx", "idx", "idx"), + ("idx", "idx", None, None), + ("idx", None, None, None), + ("idx1", "idx2", None, None), + ("idx1", "idx1", "idx2", None), + ("idx1", "idx2", "idx3", None), + (None, None, None, None), + ], + ) + def test_constructor_index_names(self, name_in1, name_in2, name_in3, name_out): + # GH13475 + indices = [ + Index(["a", "b", "c"], name=name_in1), + Index(["b", "c", "d"], name=name_in2), + Index(["c", "d", "e"], name=name_in3), + ] + series = { + c: Series([0, 1, 2], index=i) for i, c in zip(indices, ["x", "y", "z"]) + } + result = DataFrame(series) + + exp_ind = Index(["a", "b", "c", "d", "e"], name=name_out) + expected = DataFrame( + { + "x": [0, 1, 2, np.nan, np.nan], + "y": [np.nan, 0, 1, 2, np.nan], + "z": [np.nan, np.nan, 0, 1, 2], + }, + index=exp_ind, + ) + + tm.assert_frame_equal(result, expected) + + def test_constructor_manager_resize(self, float_frame): + index = list(float_frame.index[:5]) + columns = list(float_frame.columns[:3]) + + msg = "Passing a BlockManager to DataFrame" + with tm.assert_produces_warning( + DeprecationWarning, match=msg, check_stacklevel=False + ): + result = DataFrame(float_frame._mgr, index=index, columns=columns) + tm.assert_index_equal(result.index, Index(index)) + tm.assert_index_equal(result.columns, Index(columns)) + + def test_constructor_mix_series_nonseries(self, float_frame): + df = DataFrame( + {"A": float_frame["A"], "B": list(float_frame["B"])}, columns=["A", "B"] + ) + tm.assert_frame_equal(df, float_frame.loc[:, ["A", "B"]]) + + msg = "does not match index length" + with pytest.raises(ValueError, match=msg): + DataFrame({"A": float_frame["A"], "B": list(float_frame["B"])[:-2]}) + + def test_constructor_miscast_na_int_dtype(self): + msg = r"Cannot convert non-finite values \(NA or inf\) to integer" + + with pytest.raises(IntCastingNaNError, match=msg): + DataFrame([[np.nan, 1], [1, 0]], dtype=np.int64) + + def test_constructor_column_duplicates(self): + # it works! #2079 + df = DataFrame([[8, 5]], columns=["a", "a"]) + edf = DataFrame([[8, 5]]) + edf.columns = ["a", "a"] + + tm.assert_frame_equal(df, edf) + + idf = DataFrame.from_records([(8, 5)], columns=["a", "a"]) + + tm.assert_frame_equal(idf, edf) + + def test_constructor_empty_with_string_dtype(self, using_infer_string): + # GH 9428 + expected = DataFrame(index=[0, 1], columns=[0, 1], dtype=object) + expected_str = DataFrame( + index=[0, 1], columns=[0, 1], dtype=pd.StringDtype(na_value=np.nan) + ) + + df = DataFrame(index=[0, 1], columns=[0, 1], dtype=str) + if using_infer_string: + tm.assert_frame_equal(df, expected_str) + else: + tm.assert_frame_equal(df, expected) + df = DataFrame(index=[0, 1], columns=[0, 1], dtype=np.str_) + tm.assert_frame_equal(df, expected) + df = DataFrame(index=[0, 1], columns=[0, 1], dtype="U5") + tm.assert_frame_equal(df, expected) + + def test_constructor_empty_with_string_extension(self, nullable_string_dtype): + # GH 34915 + expected = DataFrame(columns=["c1"], dtype=nullable_string_dtype) + df = DataFrame(columns=["c1"], dtype=nullable_string_dtype) + tm.assert_frame_equal(df, expected) + + def test_constructor_single_value(self): + # expecting single value upcasting here + df = DataFrame(0.0, index=[1, 2, 3], columns=["a", "b", "c"]) + tm.assert_frame_equal( + df, DataFrame(np.zeros(df.shape).astype("float64"), df.index, df.columns) + ) + + df = DataFrame(0, index=[1, 2, 3], columns=["a", "b", "c"]) + tm.assert_frame_equal( + df, DataFrame(np.zeros(df.shape).astype("int64"), df.index, df.columns) + ) + + df = DataFrame("a", index=[1, 2], columns=["a", "c"]) + tm.assert_frame_equal( + df, + DataFrame( + np.array([["a", "a"], ["a", "a"]], dtype=object), + index=[1, 2], + columns=["a", "c"], + ), + ) + + msg = "DataFrame constructor not properly called!" + with pytest.raises(ValueError, match=msg): + DataFrame("a", [1, 2]) + with pytest.raises(ValueError, match=msg): + DataFrame("a", columns=["a", "c"]) + + msg = "incompatible data and dtype" + with pytest.raises(TypeError, match=msg): + DataFrame("a", [1, 2], ["a", "c"], float) + + def test_constructor_with_datetimes(self, using_infer_string): + intname = np.dtype(int).name + floatname = np.dtype(np.float64).name + objectname = np.dtype(np.object_).name + + # single item + df = DataFrame( + { + "A": 1, + "B": "foo", + "C": "bar", + "D": Timestamp("20010101"), + "E": datetime(2001, 1, 2, 0, 0), + }, + index=np.arange(10), + ) + result = df.dtypes + expected = Series( + [np.dtype("int64")] + + [ + np.dtype(objectname) + if not using_infer_string + else pd.StringDtype(na_value=np.nan) + ] + * 2 + + [np.dtype("M8[s]"), np.dtype("M8[us]")], + index=list("ABCDE"), + ) + tm.assert_series_equal(result, expected) + + # check with ndarray construction ndim==0 (e.g. we are passing a ndim 0 + # ndarray with a dtype specified) + df = DataFrame( + { + "a": 1.0, + "b": 2, + "c": "foo", + floatname: np.array(1.0, dtype=floatname), + intname: np.array(1, dtype=intname), + }, + index=np.arange(10), + ) + result = df.dtypes + expected = Series( + [np.dtype("float64")] + + [np.dtype("int64")] + + [ + np.dtype("object") + if not using_infer_string + else pd.StringDtype(na_value=np.nan) + ] + + [np.dtype("float64")] + + [np.dtype(intname)], + index=["a", "b", "c", floatname, intname], + ) + tm.assert_series_equal(result, expected) + + # check with ndarray construction ndim>0 + df = DataFrame( + { + "a": 1.0, + "b": 2, + "c": "foo", + floatname: np.array([1.0] * 10, dtype=floatname), + intname: np.array([1] * 10, dtype=intname), + }, + index=np.arange(10), + ) + result = df.dtypes + expected = Series( + [np.dtype("float64")] + + [np.dtype("int64")] + + [ + np.dtype("object") + if not using_infer_string + else pd.StringDtype(na_value=np.nan) + ] + + [np.dtype("float64")] + + [np.dtype(intname)], + index=["a", "b", "c", floatname, intname], + ) + tm.assert_series_equal(result, expected) + + def test_constructor_with_datetimes1(self): + # GH 2809 + ind = date_range(start="2000-01-01", freq="D", periods=10) + datetimes = [ts.to_pydatetime() for ts in ind] + datetime_s = Series(datetimes) + assert datetime_s.dtype == "M8[ns]" + + def test_constructor_with_datetimes2(self): + # GH 2810 + ind = date_range(start="2000-01-01", freq="D", periods=10) + datetimes = [ts.to_pydatetime() for ts in ind] + dates = [ts.date() for ts in ind] + df = DataFrame(datetimes, columns=["datetimes"]) + df["dates"] = dates + result = df.dtypes + expected = Series( + [np.dtype("datetime64[ns]"), np.dtype("object")], + index=["datetimes", "dates"], + ) + tm.assert_series_equal(result, expected) + + def test_constructor_with_datetimes3(self): + # GH 7594 + # don't coerce tz-aware + tz = pytz.timezone("US/Eastern") + dt = tz.localize(datetime(2012, 1, 1)) + + df = DataFrame({"End Date": dt}, index=[0]) + assert df.iat[0, 0] == dt + tm.assert_series_equal( + df.dtypes, Series({"End Date": "datetime64[us, US/Eastern]"}, dtype=object) + ) + + df = DataFrame([{"End Date": dt}]) + assert df.iat[0, 0] == dt + tm.assert_series_equal( + df.dtypes, Series({"End Date": "datetime64[ns, US/Eastern]"}, dtype=object) + ) + + def test_constructor_with_datetimes4(self): + # tz-aware (UTC and other tz's) + # GH 8411 + dr = date_range("20130101", periods=3) + df = DataFrame({"value": dr}) + assert df.iat[0, 0].tz is None + dr = date_range("20130101", periods=3, tz="UTC") + df = DataFrame({"value": dr}) + assert str(df.iat[0, 0].tz) == "UTC" + dr = date_range("20130101", periods=3, tz="US/Eastern") + df = DataFrame({"value": dr}) + assert str(df.iat[0, 0].tz) == "US/Eastern" + + def test_constructor_with_datetimes5(self): + # GH 7822 + # preserver an index with a tz on dict construction + i = date_range("1/1/2011", periods=5, freq="10s", tz="US/Eastern") + + expected = DataFrame({"a": i.to_series().reset_index(drop=True)}) + df = DataFrame() + df["a"] = i + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": i}) + tm.assert_frame_equal(df, expected) + + def test_constructor_with_datetimes6(self): + # multiples + i = date_range("1/1/2011", periods=5, freq="10s", tz="US/Eastern") + i_no_tz = date_range("1/1/2011", periods=5, freq="10s") + df = DataFrame({"a": i, "b": i_no_tz}) + expected = DataFrame({"a": i.to_series().reset_index(drop=True), "b": i_no_tz}) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "arr", + [ + np.array([None, None, None, None, datetime.now(), None]), + np.array([None, None, datetime.now(), None]), + [[np.datetime64("NaT")], [None]], + [[np.datetime64("NaT")], [pd.NaT]], + [[None], [np.datetime64("NaT")]], + [[None], [pd.NaT]], + [[pd.NaT], [np.datetime64("NaT")]], + [[pd.NaT], [None]], + ], + ) + def test_constructor_datetimes_with_nulls(self, arr): + # gh-15869, GH#11220 + result = DataFrame(arr).dtypes + expected = Series([np.dtype("datetime64[ns]")]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("order", ["K", "A", "C", "F"]) + @pytest.mark.parametrize( + "unit", + ["M", "D", "h", "m", "s", "ms", "us", "ns"], + ) + def test_constructor_datetimes_non_ns(self, order, unit): + dtype = f"datetime64[{unit}]" + na = np.array( + [ + ["2015-01-01", "2015-01-02", "2015-01-03"], + ["2017-01-01", "2017-01-02", "2017-02-03"], + ], + dtype=dtype, + order=order, + ) + df = DataFrame(na) + expected = DataFrame(na.astype("M8[ns]")) + if unit in ["M", "D", "h", "m"]: + with pytest.raises(TypeError, match="Cannot cast"): + expected.astype(dtype) + + # instead the constructor casts to the closest supported reso, i.e. "s" + expected = expected.astype("datetime64[s]") + else: + expected = expected.astype(dtype=dtype) + + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("order", ["K", "A", "C", "F"]) + @pytest.mark.parametrize( + "unit", + [ + "D", + "h", + "m", + "s", + "ms", + "us", + "ns", + ], + ) + def test_constructor_timedelta_non_ns(self, order, unit): + dtype = f"timedelta64[{unit}]" + na = np.array( + [ + [np.timedelta64(1, "D"), np.timedelta64(2, "D")], + [np.timedelta64(4, "D"), np.timedelta64(5, "D")], + ], + dtype=dtype, + order=order, + ) + df = DataFrame(na) + if unit in ["D", "h", "m"]: + # we get the nearest supported unit, i.e. "s" + exp_unit = "s" + else: + exp_unit = unit + exp_dtype = np.dtype(f"m8[{exp_unit}]") + expected = DataFrame( + [ + [Timedelta(1, "D"), Timedelta(2, "D")], + [Timedelta(4, "D"), Timedelta(5, "D")], + ], + dtype=exp_dtype, + ) + # TODO(2.0): ideally we should get the same 'expected' without passing + # dtype=exp_dtype. + tm.assert_frame_equal(df, expected) + + def test_constructor_for_list_with_dtypes(self, using_infer_string): + # test list of lists/ndarrays + df = DataFrame([np.arange(5) for x in range(5)]) + result = df.dtypes + expected = Series([np.dtype("int")] * 5) + tm.assert_series_equal(result, expected) + + df = DataFrame([np.array(np.arange(5), dtype="int32") for x in range(5)]) + result = df.dtypes + expected = Series([np.dtype("int32")] * 5) + tm.assert_series_equal(result, expected) + + # overflow issue? (we always expected int64 upcasting here) + df = DataFrame({"a": [2**31, 2**31 + 1]}) + assert df.dtypes.iloc[0] == np.dtype("int64") + + # GH #2751 (construction with no index specified), make sure we cast to + # platform values + df = DataFrame([1, 2]) + assert df.dtypes.iloc[0] == np.dtype("int64") + + df = DataFrame([1.0, 2.0]) + assert df.dtypes.iloc[0] == np.dtype("float64") + + df = DataFrame({"a": [1, 2]}) + assert df.dtypes.iloc[0] == np.dtype("int64") + + df = DataFrame({"a": [1.0, 2.0]}) + assert df.dtypes.iloc[0] == np.dtype("float64") + + df = DataFrame({"a": 1}, index=range(3)) + assert df.dtypes.iloc[0] == np.dtype("int64") + + df = DataFrame({"a": 1.0}, index=range(3)) + assert df.dtypes.iloc[0] == np.dtype("float64") + + # with object list + df = DataFrame( + { + "a": [1, 2, 4, 7], + "b": [1.2, 2.3, 5.1, 6.3], + "c": list("abcd"), + "d": [datetime(2000, 1, 1) for i in range(4)], + "e": [1.0, 2, 4.0, 7], + } + ) + result = df.dtypes + expected = Series( + [ + np.dtype("int64"), + np.dtype("float64"), + np.dtype("object") + if not using_infer_string + else pd.StringDtype(na_value=np.nan), + np.dtype("datetime64[ns]"), + np.dtype("float64"), + ], + index=list("abcde"), + ) + tm.assert_series_equal(result, expected) + + def test_constructor_frame_copy(self, float_frame): + cop = DataFrame(float_frame, copy=True) + cop["A"] = 5 + assert (cop["A"] == 5).all() + assert not (float_frame["A"] == 5).all() + + def test_constructor_frame_shallow_copy(self, float_frame): + # constructing a DataFrame from DataFrame with copy=False should still + # give a "shallow" copy (share data, not attributes) + # https://github.com/pandas-dev/pandas/issues/49523 + orig = float_frame.copy() + cop = DataFrame(float_frame) + assert cop._mgr is not float_frame._mgr + # Overwriting index of copy doesn't change original + cop.index = np.arange(len(cop)) + tm.assert_frame_equal(float_frame, orig) + + def test_constructor_ndarray_copy( + self, float_frame, using_array_manager, using_copy_on_write + ): + if not using_array_manager: + arr = float_frame.values.copy() + df = DataFrame(arr) + + arr[5] = 5 + if using_copy_on_write: + assert not (df.values[5] == 5).all() + else: + assert (df.values[5] == 5).all() + + df = DataFrame(arr, copy=True) + arr[6] = 6 + assert not (df.values[6] == 6).all() + else: + arr = float_frame.values.copy() + # default: copy to ensure contiguous arrays + df = DataFrame(arr) + assert df._mgr.arrays[0].flags.c_contiguous + arr[0, 0] = 100 + assert df.iloc[0, 0] != 100 + + # manually specify copy=False + df = DataFrame(arr, copy=False) + assert not df._mgr.arrays[0].flags.c_contiguous + arr[0, 0] = 1000 + assert df.iloc[0, 0] == 1000 + + def test_constructor_series_copy(self, float_frame): + series = float_frame._series + + df = DataFrame({"A": series["A"]}, copy=True) + # TODO can be replaced with `df.loc[:, "A"] = 5` after deprecation about + # inplace mutation is enforced + df.loc[df.index[0] : df.index[-1], "A"] = 5 + + assert not (series["A"] == 5).all() + + @pytest.mark.parametrize( + "df", + [ + DataFrame([[1, 2, 3], [4, 5, 6]], index=[1, np.nan]), + DataFrame([[1, 2, 3], [4, 5, 6]], columns=[1.1, 2.2, np.nan]), + DataFrame([[0, 1, 2, 3], [4, 5, 6, 7]], columns=[np.nan, 1.1, 2.2, np.nan]), + DataFrame( + [[0.0, 1, 2, 3.0], [4, 5, 6, 7]], columns=[np.nan, 1.1, 2.2, np.nan] + ), + DataFrame([[0.0, 1, 2, 3.0], [4, 5, 6, 7]], columns=[np.nan, 1, 2, 2]), + ], + ) + def test_constructor_with_nas(self, df): + # GH 5016 + # na's in indices + # GH 21428 (non-unique columns) + + for i in range(len(df.columns)): + df.iloc[:, i] + + indexer = np.arange(len(df.columns))[isna(df.columns)] + + # No NaN found -> error + if len(indexer) == 0: + with pytest.raises(KeyError, match="^nan$"): + df.loc[:, np.nan] + # single nan should result in Series + elif len(indexer) == 1: + tm.assert_series_equal(df.iloc[:, indexer[0]], df.loc[:, np.nan]) + # multiple nans should result in DataFrame + else: + tm.assert_frame_equal(df.iloc[:, indexer], df.loc[:, np.nan]) + + def test_constructor_lists_to_object_dtype(self): + # from #1074 + d = DataFrame({"a": [np.nan, False]}) + assert d["a"].dtype == np.object_ + assert not d["a"][1] + + def test_constructor_ndarray_categorical_dtype(self): + cat = Categorical(["A", "B", "C"]) + arr = np.array(cat).reshape(-1, 1) + arr = np.broadcast_to(arr, (3, 4)) + + result = DataFrame(arr, dtype=cat.dtype) + + expected = DataFrame({0: cat, 1: cat, 2: cat, 3: cat}) + tm.assert_frame_equal(result, expected) + + def test_constructor_categorical(self): + # GH8626 + + # dict creation + df = DataFrame({"A": list("abc")}, dtype="category") + expected = Series(list("abc"), dtype="category", name="A") + tm.assert_series_equal(df["A"], expected) + + # to_frame + s = Series(list("abc"), dtype="category") + result = s.to_frame() + expected = Series(list("abc"), dtype="category", name=0) + tm.assert_series_equal(result[0], expected) + result = s.to_frame(name="foo") + expected = Series(list("abc"), dtype="category", name="foo") + tm.assert_series_equal(result["foo"], expected) + + # list-like creation + df = DataFrame(list("abc"), dtype="category") + expected = Series(list("abc"), dtype="category", name=0) + tm.assert_series_equal(df[0], expected) + + def test_construct_from_1item_list_of_categorical(self): + # pre-2.0 this behaved as DataFrame({0: cat}), in 2.0 we remove + # Categorical special case + # ndim != 1 + cat = Categorical(list("abc")) + df = DataFrame([cat]) + expected = DataFrame([cat.astype(object)]) + tm.assert_frame_equal(df, expected) + + def test_construct_from_list_of_categoricals(self): + # pre-2.0 this behaved as DataFrame({0: cat}), in 2.0 we remove + # Categorical special case + + df = DataFrame([Categorical(list("abc")), Categorical(list("abd"))]) + expected = DataFrame([["a", "b", "c"], ["a", "b", "d"]]) + tm.assert_frame_equal(df, expected) + + def test_from_nested_listlike_mixed_types(self): + # pre-2.0 this behaved as DataFrame({0: cat}), in 2.0 we remove + # Categorical special case + # mixed + df = DataFrame([Categorical(list("abc")), list("def")]) + expected = DataFrame([["a", "b", "c"], ["d", "e", "f"]]) + tm.assert_frame_equal(df, expected) + + def test_construct_from_listlikes_mismatched_lengths(self): + df = DataFrame([Categorical(list("abc")), Categorical(list("abdefg"))]) + expected = DataFrame([list("abc"), list("abdefg")]) + tm.assert_frame_equal(df, expected) + + def test_constructor_categorical_series(self): + items = [1, 2, 3, 1] + exp = Series(items).astype("category") + res = Series(items, dtype="category") + tm.assert_series_equal(res, exp) + + items = ["a", "b", "c", "a"] + exp = Series(items).astype("category") + res = Series(items, dtype="category") + tm.assert_series_equal(res, exp) + + # insert into frame with different index + # GH 8076 + index = date_range("20000101", periods=3) + expected = Series( + Categorical(values=[np.nan, np.nan, np.nan], categories=["a", "b", "c"]) + ) + expected.index = index + + expected = DataFrame({"x": expected}) + df = DataFrame({"x": Series(["a", "b", "c"], dtype="category")}, index=index) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "dtype", + tm.ALL_NUMERIC_DTYPES + + tm.DATETIME64_DTYPES + + tm.TIMEDELTA64_DTYPES + + tm.BOOL_DTYPES, + ) + def test_check_dtype_empty_numeric_column(self, dtype): + # GH24386: Ensure dtypes are set correctly for an empty DataFrame. + # Empty DataFrame is generated via dictionary data with non-overlapping columns. + data = DataFrame({"a": [1, 2]}, columns=["b"], dtype=dtype) + + assert data.b.dtype == dtype + + @pytest.mark.parametrize( + "dtype", tm.STRING_DTYPES + tm.BYTES_DTYPES + tm.OBJECT_DTYPES + ) + def test_check_dtype_empty_string_column(self, request, dtype, using_array_manager): + # GH24386: Ensure dtypes are set correctly for an empty DataFrame. + # Empty DataFrame is generated via dictionary data with non-overlapping columns. + data = DataFrame({"a": [1, 2]}, columns=["b"], dtype=dtype) + + if using_array_manager and dtype in tm.BYTES_DTYPES: + # TODO(ArrayManager) astype to bytes dtypes does not yet give object dtype + td.mark_array_manager_not_yet_implemented(request) + + assert data.b.dtype.name == "object" + + def test_to_frame_with_falsey_names(self): + # GH 16114 + result = Series(name=0, dtype=object).to_frame().dtypes + expected = Series({0: object}) + tm.assert_series_equal(result, expected) + + result = DataFrame(Series(name=0, dtype=object)).dtypes + tm.assert_series_equal(result, expected) + + @pytest.mark.arm_slow + @pytest.mark.parametrize("dtype", [None, "uint8", "category"]) + def test_constructor_range_dtype(self, dtype): + expected = DataFrame({"A": [0, 1, 2, 3, 4]}, dtype=dtype or "int64") + + # GH 26342 + result = DataFrame(range(5), columns=["A"], dtype=dtype) + tm.assert_frame_equal(result, expected) + + # GH 16804 + result = DataFrame({"A": range(5)}, dtype=dtype) + tm.assert_frame_equal(result, expected) + + def test_frame_from_list_subclass(self): + # GH21226 + class List(list): + pass + + expected = DataFrame([[1, 2, 3], [4, 5, 6]]) + result = DataFrame(List([List([1, 2, 3]), List([4, 5, 6])])) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "extension_arr", + [ + Categorical(list("aabbc")), + SparseArray([1, np.nan, np.nan, np.nan]), + IntervalArray([Interval(0, 1), Interval(1, 5)]), + PeriodArray(pd.period_range(start="1/1/2017", end="1/1/2018", freq="M")), + ], + ) + def test_constructor_with_extension_array(self, extension_arr): + # GH11363 + expected = DataFrame(Series(extension_arr)) + result = DataFrame(extension_arr) + tm.assert_frame_equal(result, expected) + + def test_datetime_date_tuple_columns_from_dict(self): + # GH 10863 + v = date.today() + tup = v, v + result = DataFrame({tup: Series(range(3), index=range(3))}, columns=[tup]) + expected = DataFrame([0, 1, 2], columns=Index(Series([tup]))) + tm.assert_frame_equal(result, expected) + + def test_construct_with_two_categoricalindex_series(self): + # GH 14600 + s1 = Series([39, 6, 4], index=CategoricalIndex(["female", "male", "unknown"])) + s2 = Series( + [2, 152, 2, 242, 150], + index=CategoricalIndex(["f", "female", "m", "male", "unknown"]), + ) + result = DataFrame([s1, s2]) + expected = DataFrame( + np.array([[39, 6, 4, np.nan, np.nan], [152.0, 242.0, 150.0, 2.0, 2.0]]), + columns=["female", "male", "unknown", "f", "m"], + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + def test_constructor_series_nonexact_categoricalindex(self): + # GH 42424 + ser = Series(range(100)) + ser1 = cut(ser, 10).value_counts().head(5) + ser2 = cut(ser, 10).value_counts().tail(5) + result = DataFrame({"1": ser1, "2": ser2}) + index = CategoricalIndex( + [ + Interval(-0.099, 9.9, closed="right"), + Interval(9.9, 19.8, closed="right"), + Interval(19.8, 29.7, closed="right"), + Interval(29.7, 39.6, closed="right"), + Interval(39.6, 49.5, closed="right"), + Interval(49.5, 59.4, closed="right"), + Interval(59.4, 69.3, closed="right"), + Interval(69.3, 79.2, closed="right"), + Interval(79.2, 89.1, closed="right"), + Interval(89.1, 99, closed="right"), + ], + ordered=True, + ) + expected = DataFrame( + {"1": [10] * 5 + [np.nan] * 5, "2": [np.nan] * 5 + [10] * 5}, index=index + ) + tm.assert_frame_equal(expected, result) + + def test_from_M8_structured(self): + dates = [(datetime(2012, 9, 9, 0, 0), datetime(2012, 9, 8, 15, 10))] + arr = np.array(dates, dtype=[("Date", "M8[us]"), ("Forecasting", "M8[us]")]) + df = DataFrame(arr) + + assert df["Date"][0] == dates[0][0] + assert df["Forecasting"][0] == dates[0][1] + + s = Series(arr["Date"]) + assert isinstance(s[0], Timestamp) + assert s[0] == dates[0][0] + + def test_from_datetime_subclass(self): + # GH21142 Verify whether Datetime subclasses are also of dtype datetime + class DatetimeSubclass(datetime): + pass + + data = DataFrame({"datetime": [DatetimeSubclass(2020, 1, 1, 1, 1)]}) + assert data.datetime.dtype == "datetime64[ns]" + + def test_with_mismatched_index_length_raises(self): + # GH#33437 + dti = date_range("2016-01-01", periods=3, tz="US/Pacific") + msg = "Shape of passed values|Passed arrays should have the same length" + with pytest.raises(ValueError, match=msg): + DataFrame(dti, index=range(4)) + + def test_frame_ctor_datetime64_column(self): + rng = date_range("1/1/2000 00:00:00", "1/1/2000 1:59:50", freq="10s") + dates = np.asarray(rng) + + df = DataFrame( + {"A": np.random.default_rng(2).standard_normal(len(rng)), "B": dates} + ) + assert np.issubdtype(df["B"].dtype, np.dtype("M8[ns]")) + + def test_dataframe_constructor_infer_multiindex(self): + index_lists = [["a", "a", "b", "b"], ["x", "y", "x", "y"]] + + multi = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=[np.array(x) for x in index_lists], + ) + assert isinstance(multi.index, MultiIndex) + assert not isinstance(multi.columns, MultiIndex) + + multi = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), columns=index_lists + ) + assert isinstance(multi.columns, MultiIndex) + + @pytest.mark.parametrize( + "input_vals", + [ + ([1, 2]), + (["1", "2"]), + (list(date_range("1/1/2011", periods=2, freq="h"))), + (list(date_range("1/1/2011", periods=2, freq="h", tz="US/Eastern"))), + ([Interval(left=0, right=5)]), + ], + ) + def test_constructor_list_str(self, input_vals, string_dtype): + # GH#16605 + # Ensure that data elements are converted to strings when + # dtype is str, 'str', or 'U' + + result = DataFrame({"A": input_vals}, dtype=string_dtype) + expected = DataFrame({"A": input_vals}).astype({"A": string_dtype}) + tm.assert_frame_equal(result, expected) + + def test_constructor_list_str_na(self, string_dtype): + result = DataFrame({"A": [1.0, 2.0, None]}, dtype=string_dtype) + expected = DataFrame({"A": ["1.0", "2.0", None]}, dtype=object) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("copy", [False, True]) + def test_dict_nocopy( + self, + request, + copy, + any_numeric_ea_dtype, + any_numpy_dtype, + using_array_manager, + using_copy_on_write, + ): + if ( + using_array_manager + and not copy + and any_numpy_dtype not in tm.STRING_DTYPES + tm.BYTES_DTYPES + ): + # TODO(ArrayManager) properly honor copy keyword for dict input + td.mark_array_manager_not_yet_implemented(request) + + a = np.array([1, 2], dtype=any_numpy_dtype) + b = np.array([3, 4], dtype=any_numpy_dtype) + if b.dtype.kind in ["S", "U"]: + # These get cast, making the checks below more cumbersome + pytest.skip(f"{b.dtype} get cast, making the checks below more cumbersome") + + c = pd.array([1, 2], dtype=any_numeric_ea_dtype) + c_orig = c.copy() + df = DataFrame({"a": a, "b": b, "c": c}, copy=copy) + + def get_base(obj): + if isinstance(obj, np.ndarray): + return obj.base + elif isinstance(obj.dtype, np.dtype): + # i.e. DatetimeArray, TimedeltaArray + return obj._ndarray.base + else: + raise TypeError + + def check_views(c_only: bool = False): + # written to work for either BlockManager or ArrayManager + + # Check that the underlying data behind df["c"] is still `c` + # after setting with iloc. Since we don't know which entry in + # df._mgr.arrays corresponds to df["c"], we just check that exactly + # one of these arrays is `c`. GH#38939 + assert sum(x is c for x in df._mgr.arrays) == 1 + if c_only: + # If we ever stop consolidating in setitem_with_indexer, + # this will become unnecessary. + return + + assert ( + sum( + get_base(x) is a + for x in df._mgr.arrays + if isinstance(x.dtype, np.dtype) + ) + == 1 + ) + assert ( + sum( + get_base(x) is b + for x in df._mgr.arrays + if isinstance(x.dtype, np.dtype) + ) + == 1 + ) + + if not copy: + # constructor preserves views + check_views() + + # TODO: most of the rest of this test belongs in indexing tests + if lib.is_np_dtype(df.dtypes.iloc[0], "fciuO"): + warn = None + else: + warn = FutureWarning + with tm.assert_produces_warning(warn, match="incompatible dtype"): + df.iloc[0, 0] = 0 + df.iloc[0, 1] = 0 + if not copy: + check_views(True) + + # FIXME(GH#35417): until GH#35417, iloc.setitem into EA values does not preserve + # view, so we have to check in the other direction + df.iloc[:, 2] = pd.array([45, 46], dtype=c.dtype) + assert df.dtypes.iloc[2] == c.dtype + if not copy and not using_copy_on_write: + check_views(True) + + if copy: + if a.dtype.kind == "M": + assert a[0] == a.dtype.type(1, "ns") + assert b[0] == b.dtype.type(3, "ns") + else: + assert a[0] == a.dtype.type(1) + assert b[0] == b.dtype.type(3) + # FIXME(GH#35417): enable after GH#35417 + assert c[0] == c_orig[0] # i.e. df.iloc[0, 2]=45 did *not* update c + elif not using_copy_on_write: + # TODO: we can call check_views if we stop consolidating + # in setitem_with_indexer + assert c[0] == 45 # i.e. df.iloc[0, 2]=45 *did* update c + # TODO: we can check b[0] == 0 if we stop consolidating in + # setitem_with_indexer (except for datetimelike?) + + def test_construct_from_dict_ea_series(self): + # GH#53744 - default of copy=True should also apply for Series with + # extension dtype + ser = Series([1, 2, 3], dtype="Int64") + df = DataFrame({"a": ser}) + assert not np.shares_memory(ser.values._data, df["a"].values._data) + + def test_from_series_with_name_with_columns(self): + # GH 7893 + result = DataFrame(Series(1, name="foo"), columns=["bar"]) + expected = DataFrame(columns=["bar"]) + tm.assert_frame_equal(result, expected) + + def test_nested_list_columns(self): + # GH 14467 + result = DataFrame( + [[1, 2, 3], [4, 5, 6]], columns=[["A", "A", "A"], ["a", "b", "c"]] + ) + expected = DataFrame( + [[1, 2, 3], [4, 5, 6]], + columns=MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("A", "c")]), + ) + tm.assert_frame_equal(result, expected) + + def test_from_2d_object_array_of_periods_or_intervals(self): + # Period analogue to GH#26825 + pi = pd.period_range("2016-04-05", periods=3) + data = pi._data.astype(object).reshape(1, -1) + df = DataFrame(data) + assert df.shape == (1, 3) + assert (df.dtypes == pi.dtype).all() + assert (df == pi).all().all() + + ii = pd.IntervalIndex.from_breaks([3, 4, 5, 6]) + data2 = ii._data.astype(object).reshape(1, -1) + df2 = DataFrame(data2) + assert df2.shape == (1, 3) + assert (df2.dtypes == ii.dtype).all() + assert (df2 == ii).all().all() + + # mixed + data3 = np.r_[data, data2, data, data2].T + df3 = DataFrame(data3) + expected = DataFrame({0: pi, 1: ii, 2: pi, 3: ii}) + tm.assert_frame_equal(df3, expected) + + @pytest.mark.parametrize( + "col_a, col_b", + [ + ([[1], [2]], np.array([[1], [2]])), + (np.array([[1], [2]]), [[1], [2]]), + (np.array([[1], [2]]), np.array([[1], [2]])), + ], + ) + def test_error_from_2darray(self, col_a, col_b): + msg = "Per-column arrays must each be 1-dimensional" + with pytest.raises(ValueError, match=msg): + DataFrame({"a": col_a, "b": col_b}) + + def test_from_dict_with_missing_copy_false(self): + # GH#45369 filled columns should not be views of one another + df = DataFrame(index=[1, 2, 3], columns=["a", "b", "c"], copy=False) + assert not np.shares_memory(df["a"]._values, df["b"]._values) + + df.iloc[0, 0] = 0 + expected = DataFrame( + { + "a": [0, np.nan, np.nan], + "b": [np.nan, np.nan, np.nan], + "c": [np.nan, np.nan, np.nan], + }, + index=[1, 2, 3], + dtype=object, + ) + tm.assert_frame_equal(df, expected) + + def test_construction_empty_array_multi_column_raises(self): + # GH#46822 + msg = r"Shape of passed values is \(0, 1\), indices imply \(0, 2\)" + with pytest.raises(ValueError, match=msg): + DataFrame(data=np.array([]), columns=["a", "b"]) + + def test_construct_with_strings_and_none(self): + # GH#32218 + df = DataFrame(["1", "2", None], columns=["a"], dtype="str") + expected = DataFrame({"a": ["1", "2", None]}, dtype="str") + tm.assert_frame_equal(df, expected) + + def test_frame_string_inference(self): + # GH#54430 + dtype = pd.StringDtype(na_value=np.nan) + expected = DataFrame( + {"a": ["a", "b"]}, dtype=dtype, columns=Index(["a"], dtype=dtype) + ) + with pd.option_context("future.infer_string", True): + df = DataFrame({"a": ["a", "b"]}) + tm.assert_frame_equal(df, expected) + + expected = DataFrame( + {"a": ["a", "b"]}, + dtype=dtype, + columns=Index(["a"], dtype=dtype), + index=Index(["x", "y"], dtype=dtype), + ) + with pd.option_context("future.infer_string", True): + df = DataFrame({"a": ["a", "b"]}, index=["x", "y"]) + tm.assert_frame_equal(df, expected) + + expected = DataFrame( + {"a": ["a", 1]}, dtype="object", columns=Index(["a"], dtype=dtype) + ) + with pd.option_context("future.infer_string", True): + df = DataFrame({"a": ["a", 1]}) + tm.assert_frame_equal(df, expected) + + expected = DataFrame( + {"a": ["a", "b"]}, dtype="object", columns=Index(["a"], dtype=dtype) + ) + with pd.option_context("future.infer_string", True): + df = DataFrame({"a": ["a", "b"]}, dtype="object") + tm.assert_frame_equal(df, expected) + + def test_frame_string_inference_array_string_dtype(self): + # GH#54496 + dtype = pd.StringDtype(na_value=np.nan) + expected = DataFrame( + {"a": ["a", "b"]}, dtype=dtype, columns=Index(["a"], dtype=dtype) + ) + with pd.option_context("future.infer_string", True): + df = DataFrame({"a": np.array(["a", "b"])}) + tm.assert_frame_equal(df, expected) + + expected = DataFrame({0: ["a", "b"], 1: ["c", "d"]}, dtype=dtype) + with pd.option_context("future.infer_string", True): + df = DataFrame(np.array([["a", "c"], ["b", "d"]])) + tm.assert_frame_equal(df, expected) + + expected = DataFrame( + {"a": ["a", "b"], "b": ["c", "d"]}, + dtype=dtype, + columns=Index(["a", "b"], dtype=dtype), + ) + with pd.option_context("future.infer_string", True): + df = DataFrame(np.array([["a", "c"], ["b", "d"]]), columns=["a", "b"]) + tm.assert_frame_equal(df, expected) + + def test_frame_string_inference_block_dim(self): + # GH#55363 + with pd.option_context("future.infer_string", True): + df = DataFrame(np.array([["hello", "goodbye"], ["hello", "Hello"]])) + assert df._mgr.blocks[0].ndim == 2 + + def test_inference_on_pandas_objects(self): + # GH#56012 + idx = Index([Timestamp("2019-12-31")], dtype=object) + with tm.assert_produces_warning(FutureWarning, match="Dtype inference"): + result = DataFrame(idx, columns=["a"]) + assert result.dtypes.iloc[0] != np.object_ + result = DataFrame({"a": idx}) + assert result.dtypes.iloc[0] == np.object_ + + ser = Series([Timestamp("2019-12-31")], dtype=object) + + with tm.assert_produces_warning(FutureWarning, match="Dtype inference"): + result = DataFrame(ser, columns=["a"]) + assert result.dtypes.iloc[0] != np.object_ + result = DataFrame({"a": ser}) + assert result.dtypes.iloc[0] == np.object_ + + +class TestDataFrameConstructorIndexInference: + def test_frame_from_dict_of_series_overlapping_monthly_period_indexes(self): + rng1 = pd.period_range("1/1/1999", "1/1/2012", freq="M") + s1 = Series(np.random.default_rng(2).standard_normal(len(rng1)), rng1) + + rng2 = pd.period_range("1/1/1980", "12/1/2001", freq="M") + s2 = Series(np.random.default_rng(2).standard_normal(len(rng2)), rng2) + df = DataFrame({"s1": s1, "s2": s2}) + + exp = pd.period_range("1/1/1980", "1/1/2012", freq="M") + tm.assert_index_equal(df.index, exp) + + def test_frame_from_dict_with_mixed_tzaware_indexes(self): + # GH#44091 + dti = date_range("2016-01-01", periods=3) + + ser1 = Series(range(3), index=dti) + ser2 = Series(range(3), index=dti.tz_localize("UTC")) + ser3 = Series(range(3), index=dti.tz_localize("US/Central")) + ser4 = Series(range(3)) + + # no tz-naive, but we do have mixed tzs and a non-DTI + df1 = DataFrame({"A": ser2, "B": ser3, "C": ser4}) + exp_index = Index( + list(ser2.index) + list(ser3.index) + list(ser4.index), dtype=object + ) + tm.assert_index_equal(df1.index, exp_index) + + df2 = DataFrame({"A": ser2, "C": ser4, "B": ser3}) + exp_index3 = Index( + list(ser2.index) + list(ser4.index) + list(ser3.index), dtype=object + ) + tm.assert_index_equal(df2.index, exp_index3) + + df3 = DataFrame({"B": ser3, "A": ser2, "C": ser4}) + exp_index3 = Index( + list(ser3.index) + list(ser2.index) + list(ser4.index), dtype=object + ) + tm.assert_index_equal(df3.index, exp_index3) + + df4 = DataFrame({"C": ser4, "B": ser3, "A": ser2}) + exp_index4 = Index( + list(ser4.index) + list(ser3.index) + list(ser2.index), dtype=object + ) + tm.assert_index_equal(df4.index, exp_index4) + + # TODO: not clear if these raising is desired (no extant tests), + # but this is de facto behavior 2021-12-22 + msg = "Cannot join tz-naive with tz-aware DatetimeIndex" + with pytest.raises(TypeError, match=msg): + DataFrame({"A": ser2, "B": ser3, "C": ser4, "D": ser1}) + with pytest.raises(TypeError, match=msg): + DataFrame({"A": ser2, "B": ser3, "D": ser1}) + with pytest.raises(TypeError, match=msg): + DataFrame({"D": ser1, "A": ser2, "B": ser3}) + + @pytest.mark.parametrize( + "key_val, col_vals, col_type", + [ + ["3", ["3", "4"], "utf8"], + [3, [3, 4], "int8"], + ], + ) + def test_dict_data_arrow_column_expansion(self, key_val, col_vals, col_type): + # GH 53617 + pa = pytest.importorskip("pyarrow") + cols = pd.arrays.ArrowExtensionArray( + pa.array(col_vals, type=pa.dictionary(pa.int8(), getattr(pa, col_type)())) + ) + result = DataFrame({key_val: [1, 2]}, columns=cols) + expected = DataFrame([[1, np.nan], [2, np.nan]], columns=cols) + expected.isetitem(1, expected.iloc[:, 1].astype(object)) + tm.assert_frame_equal(result, expected) + + +class TestDataFrameConstructorWithDtypeCoercion: + def test_floating_values_integer_dtype(self): + # GH#40110 make DataFrame behavior with arraylike floating data and + # inty dtype match Series behavior + + arr = np.random.default_rng(2).standard_normal((10, 5)) + + # GH#49599 in 2.0 we raise instead of either + # a) silently ignoring dtype and returningfloat (the old Series behavior) or + # b) rounding (the old DataFrame behavior) + msg = "Trying to coerce float values to integers" + with pytest.raises(ValueError, match=msg): + DataFrame(arr, dtype="i8") + + df = DataFrame(arr.round(), dtype="i8") + assert (df.dtypes == "i8").all() + + # with NaNs, we go through a different path with a different warning + arr[0, 0] = np.nan + msg = r"Cannot convert non-finite values \(NA or inf\) to integer" + with pytest.raises(IntCastingNaNError, match=msg): + DataFrame(arr, dtype="i8") + with pytest.raises(IntCastingNaNError, match=msg): + Series(arr[0], dtype="i8") + # The future (raising) behavior matches what we would get via astype: + msg = r"Cannot convert non-finite values \(NA or inf\) to integer" + with pytest.raises(IntCastingNaNError, match=msg): + DataFrame(arr).astype("i8") + with pytest.raises(IntCastingNaNError, match=msg): + Series(arr[0]).astype("i8") + + +class TestDataFrameConstructorWithDatetimeTZ: + @pytest.mark.parametrize("tz", ["US/Eastern", "dateutil/US/Eastern"]) + def test_construction_preserves_tzaware_dtypes(self, tz): + # after GH#7822 + # these retain the timezones on dict construction + dr = date_range("2011/1/1", "2012/1/1", freq="W-FRI") + dr_tz = dr.tz_localize(tz) + df = DataFrame({"A": "foo", "B": dr_tz}, index=dr) + tz_expected = DatetimeTZDtype("ns", dr_tz.tzinfo) + assert df["B"].dtype == tz_expected + + # GH#2810 (with timezones) + datetimes_naive = [ts.to_pydatetime() for ts in dr] + datetimes_with_tz = [ts.to_pydatetime() for ts in dr_tz] + df = DataFrame({"dr": dr}) + df["dr_tz"] = dr_tz + df["datetimes_naive"] = datetimes_naive + df["datetimes_with_tz"] = datetimes_with_tz + result = df.dtypes + expected = Series( + [ + np.dtype("datetime64[ns]"), + DatetimeTZDtype(tz=tz), + np.dtype("datetime64[ns]"), + DatetimeTZDtype(tz=tz), + ], + index=["dr", "dr_tz", "datetimes_naive", "datetimes_with_tz"], + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("pydt", [True, False]) + def test_constructor_data_aware_dtype_naive(self, tz_aware_fixture, pydt): + # GH#25843, GH#41555, GH#33401 + tz = tz_aware_fixture + ts = Timestamp("2019", tz=tz) + if pydt: + ts = ts.to_pydatetime() + + msg = ( + "Cannot convert timezone-aware data to timezone-naive dtype. " + r"Use pd.Series\(values\).dt.tz_localize\(None\) instead." + ) + with pytest.raises(ValueError, match=msg): + DataFrame({0: [ts]}, dtype="datetime64[ns]") + + msg2 = "Cannot unbox tzaware Timestamp to tznaive dtype" + with pytest.raises(TypeError, match=msg2): + DataFrame({0: ts}, index=[0], dtype="datetime64[ns]") + + with pytest.raises(ValueError, match=msg): + DataFrame([ts], dtype="datetime64[ns]") + + with pytest.raises(ValueError, match=msg): + DataFrame(np.array([ts], dtype=object), dtype="datetime64[ns]") + + with pytest.raises(TypeError, match=msg2): + DataFrame(ts, index=[0], columns=[0], dtype="datetime64[ns]") + + with pytest.raises(ValueError, match=msg): + DataFrame([Series([ts])], dtype="datetime64[ns]") + + with pytest.raises(ValueError, match=msg): + DataFrame([[ts]], columns=[0], dtype="datetime64[ns]") + + def test_from_dict(self): + # 8260 + # support datetime64 with tz + + idx = Index(date_range("20130101", periods=3, tz="US/Eastern"), name="foo") + dr = date_range("20130110", periods=3) + + # construction + df = DataFrame({"A": idx, "B": dr}) + assert df["A"].dtype, "M8[ns, US/Eastern" + assert df["A"].name == "A" + tm.assert_series_equal(df["A"], Series(idx, name="A")) + tm.assert_series_equal(df["B"], Series(dr, name="B")) + + def test_from_index(self): + # from index + idx2 = date_range("20130101", periods=3, tz="US/Eastern", name="foo") + df2 = DataFrame(idx2) + tm.assert_series_equal(df2["foo"], Series(idx2, name="foo")) + df2 = DataFrame(Series(idx2)) + tm.assert_series_equal(df2["foo"], Series(idx2, name="foo")) + + idx2 = date_range("20130101", periods=3, tz="US/Eastern") + df2 = DataFrame(idx2) + tm.assert_series_equal(df2[0], Series(idx2, name=0)) + df2 = DataFrame(Series(idx2)) + tm.assert_series_equal(df2[0], Series(idx2, name=0)) + + def test_frame_dict_constructor_datetime64_1680(self): + dr = date_range("1/1/2012", periods=10) + s = Series(dr, index=dr) + + # it works! + DataFrame({"a": "foo", "b": s}, index=dr) + DataFrame({"a": "foo", "b": s.values}, index=dr) + + def test_frame_datetime64_mixed_index_ctor_1681(self): + dr = date_range("2011/1/1", "2012/1/1", freq="W-FRI") + ts = Series(dr) + + # it works! + d = DataFrame({"A": "foo", "B": ts}, index=dr) + assert d["B"].isna().all() + + def test_frame_timeseries_column(self): + # GH19157 + dr = date_range( + start="20130101T10:00:00", periods=3, freq="min", tz="US/Eastern" + ) + result = DataFrame(dr, columns=["timestamps"]) + expected = DataFrame( + { + "timestamps": [ + Timestamp("20130101T10:00:00", tz="US/Eastern"), + Timestamp("20130101T10:01:00", tz="US/Eastern"), + Timestamp("20130101T10:02:00", tz="US/Eastern"), + ] + } + ) + tm.assert_frame_equal(result, expected) + + def test_nested_dict_construction(self): + # GH22227 + columns = ["Nevada", "Ohio"] + pop = { + "Nevada": {2001: 2.4, 2002: 2.9}, + "Ohio": {2000: 1.5, 2001: 1.7, 2002: 3.6}, + } + result = DataFrame(pop, index=[2001, 2002, 2003], columns=columns) + expected = DataFrame( + [(2.4, 1.7), (2.9, 3.6), (np.nan, np.nan)], + columns=columns, + index=Index([2001, 2002, 2003]), + ) + tm.assert_frame_equal(result, expected) + + def test_from_tzaware_object_array(self): + # GH#26825 2D object array of tzaware timestamps should not raise + dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") + data = dti._data.astype(object).reshape(1, -1) + df = DataFrame(data) + assert df.shape == (1, 3) + assert (df.dtypes == dti.dtype).all() + assert (df == dti).all().all() + + def test_from_tzaware_mixed_object_array(self): + # GH#26825 + arr = np.array( + [ + [ + Timestamp("2013-01-01 00:00:00"), + Timestamp("2013-01-02 00:00:00"), + Timestamp("2013-01-03 00:00:00"), + ], + [ + Timestamp("2013-01-01 00:00:00-0500", tz="US/Eastern"), + pd.NaT, + Timestamp("2013-01-03 00:00:00-0500", tz="US/Eastern"), + ], + [ + Timestamp("2013-01-01 00:00:00+0100", tz="CET"), + pd.NaT, + Timestamp("2013-01-03 00:00:00+0100", tz="CET"), + ], + ], + dtype=object, + ).T + res = DataFrame(arr, columns=["A", "B", "C"]) + + expected_dtypes = [ + "datetime64[ns]", + "datetime64[ns, US/Eastern]", + "datetime64[ns, CET]", + ] + assert (res.dtypes == expected_dtypes).all() + + def test_from_2d_ndarray_with_dtype(self): + # GH#12513 + array_dim2 = np.arange(10).reshape((5, 2)) + df = DataFrame(array_dim2, dtype="datetime64[ns, UTC]") + + expected = DataFrame(array_dim2).astype("datetime64[ns, UTC]") + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("typ", [set, frozenset]) + def test_construction_from_set_raises(self, typ): + # https://github.com/pandas-dev/pandas/issues/32582 + values = typ({1, 2, 3}) + msg = f"'{typ.__name__}' type is unordered" + with pytest.raises(TypeError, match=msg): + DataFrame({"a": values}) + + with pytest.raises(TypeError, match=msg): + Series(values) + + def test_construction_from_ndarray_datetimelike(self): + # ensure the underlying arrays are properly wrapped as EA when + # constructed from 2D ndarray + arr = np.arange(0, 12, dtype="datetime64[ns]").reshape(4, 3) + df = DataFrame(arr) + assert all(isinstance(arr, DatetimeArray) for arr in df._mgr.arrays) + + def test_construction_from_ndarray_with_eadtype_mismatched_columns(self): + arr = np.random.default_rng(2).standard_normal((10, 2)) + dtype = pd.array([2.0]).dtype + msg = r"len\(arrays\) must match len\(columns\)" + with pytest.raises(ValueError, match=msg): + DataFrame(arr, columns=["foo"], dtype=dtype) + + arr2 = pd.array([2.0, 3.0, 4.0]) + with pytest.raises(ValueError, match=msg): + DataFrame(arr2, columns=["foo", "bar"]) + + def test_columns_indexes_raise_on_sets(self): + # GH 47215 + data = [[1, 2, 3], [4, 5, 6]] + with pytest.raises(ValueError, match="index cannot be a set"): + DataFrame(data, index={"a", "b"}) + with pytest.raises(ValueError, match="columns cannot be a set"): + DataFrame(data, columns={"a", "b", "c"}) + + # TODO: make this not cast to object in pandas 3.0 + @pytest.mark.skipif( + not np_version_gt2, reason="StringDType only available in numpy 2 and above" + ) + @pytest.mark.parametrize( + "data", + [ + {"a": ["a", "b", "c"], "b": [1.0, 2.0, 3.0], "c": ["d", "e", "f"]}, + ], + ) + def test_np_string_array_object_cast(self, data): + from numpy.dtypes import StringDType + + data["a"] = np.array(data["a"], dtype=StringDType()) + res = DataFrame(data) + assert res["a"].dtype == np.object_ + assert (res["a"] == data["a"]).all() + + +def get1(obj): # TODO: make a helper in tm? + if isinstance(obj, Series): + return obj.iloc[0] + else: + return obj.iloc[0, 0] + + +class TestFromScalar: + @pytest.fixture(params=[list, dict, None]) + def box(self, request): + return request.param + + @pytest.fixture + def constructor(self, frame_or_series, box): + extra = {"index": range(2)} + if frame_or_series is DataFrame: + extra["columns"] = ["A"] + + if box is None: + return functools.partial(frame_or_series, **extra) + + elif box is dict: + if frame_or_series is Series: + return lambda x, **kwargs: frame_or_series( + {0: x, 1: x}, **extra, **kwargs + ) + else: + return lambda x, **kwargs: frame_or_series({"A": x}, **extra, **kwargs) + elif frame_or_series is Series: + return lambda x, **kwargs: frame_or_series([x, x], **extra, **kwargs) + else: + return lambda x, **kwargs: frame_or_series({"A": [x, x]}, **extra, **kwargs) + + @pytest.mark.parametrize("dtype", ["M8[ns]", "m8[ns]"]) + def test_from_nat_scalar(self, dtype, constructor): + obj = constructor(pd.NaT, dtype=dtype) + assert np.all(obj.dtypes == dtype) + assert np.all(obj.isna()) + + def test_from_timedelta_scalar_preserves_nanos(self, constructor): + td = Timedelta(1) + + obj = constructor(td, dtype="m8[ns]") + assert get1(obj) == td + + def test_from_timestamp_scalar_preserves_nanos(self, constructor, fixed_now_ts): + ts = fixed_now_ts + Timedelta(1) + + obj = constructor(ts, dtype="M8[ns]") + assert get1(obj) == ts + + def test_from_timedelta64_scalar_object(self, constructor): + td = Timedelta(1) + td64 = td.to_timedelta64() + + obj = constructor(td64, dtype=object) + assert isinstance(get1(obj), np.timedelta64) + + @pytest.mark.parametrize("cls", [np.datetime64, np.timedelta64]) + def test_from_scalar_datetimelike_mismatched(self, constructor, cls): + scalar = cls("NaT", "ns") + dtype = {np.datetime64: "m8[ns]", np.timedelta64: "M8[ns]"}[cls] + + if cls is np.datetime64: + msg1 = "Invalid type for timedelta scalar: " + else: + msg1 = " is not convertible to datetime" + msg = "|".join(["Cannot cast", msg1]) + + with pytest.raises(TypeError, match=msg): + constructor(scalar, dtype=dtype) + + scalar = cls(4, "ns") + with pytest.raises(TypeError, match=msg): + constructor(scalar, dtype=dtype) + + @pytest.mark.parametrize("cls", [datetime, np.datetime64]) + def test_from_out_of_bounds_ns_datetime( + self, constructor, cls, request, box, frame_or_series + ): + # scalar that won't fit in nanosecond dt64, but will fit in microsecond + if box is list or (frame_or_series is Series and box is dict): + mark = pytest.mark.xfail( + reason="Timestamp constructor has been updated to cast dt64 to " + "non-nano, but DatetimeArray._from_sequence has not", + strict=True, + ) + request.applymarker(mark) + + scalar = datetime(9999, 1, 1) + exp_dtype = "M8[us]" # pydatetime objects default to this reso + + if cls is np.datetime64: + scalar = np.datetime64(scalar, "D") + exp_dtype = "M8[s]" # closest reso to input + result = constructor(scalar) + + item = get1(result) + dtype = tm.get_dtype(result) + + assert type(item) is Timestamp + assert item.asm8.dtype == exp_dtype + assert dtype == exp_dtype + + @pytest.mark.skip_ubsan + def test_out_of_s_bounds_datetime64(self, constructor): + scalar = np.datetime64(np.iinfo(np.int64).max, "D") + result = constructor(scalar) + item = get1(result) + assert type(item) is np.datetime64 + dtype = tm.get_dtype(result) + assert dtype == object + + @pytest.mark.parametrize("cls", [timedelta, np.timedelta64]) + def test_from_out_of_bounds_ns_timedelta( + self, constructor, cls, request, box, frame_or_series + ): + # scalar that won't fit in nanosecond td64, but will fit in microsecond + if box is list or (frame_or_series is Series and box is dict): + mark = pytest.mark.xfail( + reason="TimedeltaArray constructor has been updated to cast td64 " + "to non-nano, but TimedeltaArray._from_sequence has not", + strict=True, + ) + request.applymarker(mark) + + scalar = datetime(9999, 1, 1) - datetime(1970, 1, 1) + exp_dtype = "m8[us]" # smallest reso that fits + if cls is np.timedelta64: + scalar = np.timedelta64(scalar, "D") + exp_dtype = "m8[s]" # closest reso to input + result = constructor(scalar) + + item = get1(result) + dtype = tm.get_dtype(result) + + assert type(item) is Timedelta + assert item.asm8.dtype == exp_dtype + assert dtype == exp_dtype + + @pytest.mark.skip_ubsan + @pytest.mark.parametrize("cls", [np.datetime64, np.timedelta64]) + def test_out_of_s_bounds_timedelta64(self, constructor, cls): + scalar = cls(np.iinfo(np.int64).max, "D") + result = constructor(scalar) + item = get1(result) + assert type(item) is cls + dtype = tm.get_dtype(result) + assert dtype == object + + def test_tzaware_data_tznaive_dtype(self, constructor, box, frame_or_series): + tz = "US/Eastern" + ts = Timestamp("2019", tz=tz) + + if box is None or (frame_or_series is DataFrame and box is dict): + msg = "Cannot unbox tzaware Timestamp to tznaive dtype" + err = TypeError + else: + msg = ( + "Cannot convert timezone-aware data to timezone-naive dtype. " + r"Use pd.Series\(values\).dt.tz_localize\(None\) instead." + ) + err = ValueError + + with pytest.raises(err, match=msg): + constructor(ts, dtype="M8[ns]") + + +# TODO: better location for this test? +class TestAllowNonNano: + # Until 2.0, we do not preserve non-nano dt64/td64 when passed as ndarray, + # but do preserve it when passed as DTA/TDA + + @pytest.fixture(params=[True, False]) + def as_td(self, request): + return request.param + + @pytest.fixture + def arr(self, as_td): + values = np.arange(5).astype(np.int64).view("M8[s]") + if as_td: + values = values - values[0] + return TimedeltaArray._simple_new(values, dtype=values.dtype) + else: + return DatetimeArray._simple_new(values, dtype=values.dtype) + + def test_index_allow_non_nano(self, arr): + idx = Index(arr) + assert idx.dtype == arr.dtype + + def test_dti_tdi_allow_non_nano(self, arr, as_td): + if as_td: + idx = pd.TimedeltaIndex(arr) + else: + idx = DatetimeIndex(arr) + assert idx.dtype == arr.dtype + + def test_series_allow_non_nano(self, arr): + ser = Series(arr) + assert ser.dtype == arr.dtype + + def test_frame_allow_non_nano(self, arr): + df = DataFrame(arr) + assert df.dtypes[0] == arr.dtype + + def test_frame_from_dict_allow_non_nano(self, arr): + df = DataFrame({0: arr}) + assert df.dtypes[0] == arr.dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_cumulative.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_cumulative.py new file mode 100644 index 0000000000000000000000000000000000000000..5bd9c426123159fcfcf6bf5289fd08a60dfd91b2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_cumulative.py @@ -0,0 +1,81 @@ +""" +Tests for DataFrame cumulative operations + +See also +-------- +tests.series.test_cumulative +""" + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +class TestDataFrameCumulativeOps: + # --------------------------------------------------------------------- + # Cumulative Operations - cumsum, cummax, ... + + def test_cumulative_ops_smoke(self): + # it works + df = DataFrame({"A": np.arange(20)}, index=np.arange(20)) + df.cummax() + df.cummin() + df.cumsum() + + dm = DataFrame(np.arange(20).reshape(4, 5), index=range(4), columns=range(5)) + # TODO(wesm): do something with this? + dm.cumsum() + + def test_cumprod_smoke(self, datetime_frame): + datetime_frame.iloc[5:10, 0] = np.nan + datetime_frame.iloc[10:15, 1] = np.nan + datetime_frame.iloc[15:, 2] = np.nan + + # ints + df = datetime_frame.fillna(0).astype(int) + df.cumprod(0) + df.cumprod(1) + + # ints32 + df = datetime_frame.fillna(0).astype(np.int32) + df.cumprod(0) + df.cumprod(1) + + @pytest.mark.parametrize("method", ["cumsum", "cumprod", "cummin", "cummax"]) + def test_cumulative_ops_match_series_apply(self, datetime_frame, method): + datetime_frame.iloc[5:10, 0] = np.nan + datetime_frame.iloc[10:15, 1] = np.nan + datetime_frame.iloc[15:, 2] = np.nan + + # axis = 0 + result = getattr(datetime_frame, method)() + expected = datetime_frame.apply(getattr(Series, method)) + tm.assert_frame_equal(result, expected) + + # axis = 1 + result = getattr(datetime_frame, method)(axis=1) + expected = datetime_frame.apply(getattr(Series, method), axis=1) + tm.assert_frame_equal(result, expected) + + # fix issue TODO: GH ref? + assert np.shape(result) == np.shape(datetime_frame) + + def test_cumsum_preserve_dtypes(self): + # GH#19296 dont incorrectly upcast to object + df = DataFrame({"A": [1, 2, 3], "B": [1, 2, 3.0], "C": [True, False, False]}) + + result = df.cumsum() + + expected = DataFrame( + { + "A": Series([1, 3, 6], dtype=np.int64), + "B": Series([1, 3, 6], dtype=np.float64), + "C": df["C"].cumsum(), + } + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_iteration.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_iteration.py new file mode 100644 index 0000000000000000000000000000000000000000..a1c23ff05f3e19aca490444216ec295453483e80 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_iteration.py @@ -0,0 +1,160 @@ +import datetime + +import numpy as np +import pytest + +from pandas.compat import ( + IS64, + is_platform_windows, +) + +from pandas import ( + Categorical, + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +class TestIteration: + def test_keys(self, float_frame): + assert float_frame.keys() is float_frame.columns + + def test_iteritems(self): + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["a", "a", "b"]) + for k, v in df.items(): + assert isinstance(v, DataFrame._constructor_sliced) + + def test_items(self): + # GH#17213, GH#13918 + cols = ["a", "b", "c"] + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=cols) + for c, (k, v) in zip(cols, df.items()): + assert c == k + assert isinstance(v, Series) + assert (df[k] == v).all() + + def test_items_names(self, float_string_frame): + for k, v in float_string_frame.items(): + assert v.name == k + + def test_iter(self, float_frame): + assert list(float_frame) == list(float_frame.columns) + + def test_iterrows(self, float_frame, float_string_frame): + for k, v in float_frame.iterrows(): + exp = float_frame.loc[k] + tm.assert_series_equal(v, exp) + + for k, v in float_string_frame.iterrows(): + exp = float_string_frame.loc[k] + tm.assert_series_equal(v, exp) + + def test_iterrows_iso8601(self): + # GH#19671 + s = DataFrame( + { + "non_iso8601": ["M1701", "M1802", "M1903", "M2004"], + "iso8601": date_range("2000-01-01", periods=4, freq="ME"), + } + ) + for k, v in s.iterrows(): + exp = s.loc[k] + tm.assert_series_equal(v, exp) + + def test_iterrows_corner(self): + # GH#12222 + df = DataFrame( + { + "a": [datetime.datetime(2015, 1, 1)], + "b": [None], + "c": [None], + "d": [""], + "e": [[]], + "f": [set()], + "g": [{}], + } + ) + expected = Series( + [datetime.datetime(2015, 1, 1), None, None, "", [], set(), {}], + index=list("abcdefg"), + name=0, + dtype="object", + ) + _, result = next(df.iterrows()) + tm.assert_series_equal(result, expected) + + def test_itertuples(self, float_frame): + for i, tup in enumerate(float_frame.itertuples()): + ser = DataFrame._constructor_sliced(tup[1:]) + ser.name = tup[0] + expected = float_frame.iloc[i, :].reset_index(drop=True) + tm.assert_series_equal(ser, expected) + + def test_itertuples_index_false(self): + df = DataFrame( + {"floats": np.random.default_rng(2).standard_normal(5), "ints": range(5)}, + columns=["floats", "ints"], + ) + + for tup in df.itertuples(index=False): + assert isinstance(tup[1], int) + + def test_itertuples_duplicate_cols(self): + df = DataFrame(data={"a": [1, 2, 3], "b": [4, 5, 6]}) + dfaa = df[["a", "a"]] + + assert list(dfaa.itertuples()) == [(0, 1, 1), (1, 2, 2), (2, 3, 3)] + + # repr with int on 32-bit/windows + if not (is_platform_windows() or not IS64): + assert ( + repr(list(df.itertuples(name=None))) + == "[(0, 1, 4), (1, 2, 5), (2, 3, 6)]" + ) + + def test_itertuples_tuple_name(self): + df = DataFrame(data={"a": [1, 2, 3], "b": [4, 5, 6]}) + tup = next(df.itertuples(name="TestName")) + assert tup._fields == ("Index", "a", "b") + assert (tup.Index, tup.a, tup.b) == tup + assert type(tup).__name__ == "TestName" + + def test_itertuples_disallowed_col_labels(self): + df = DataFrame(data={"def": [1, 2, 3], "return": [4, 5, 6]}) + tup2 = next(df.itertuples(name="TestName")) + assert tup2 == (0, 1, 4) + assert tup2._fields == ("Index", "_1", "_2") + + @pytest.mark.parametrize("limit", [254, 255, 1024]) + @pytest.mark.parametrize("index", [True, False]) + def test_itertuples_py2_3_field_limit_namedtuple(self, limit, index): + # GH#28282 + df = DataFrame([{f"foo_{i}": f"bar_{i}" for i in range(limit)}]) + result = next(df.itertuples(index=index)) + assert isinstance(result, tuple) + assert hasattr(result, "_fields") + + def test_sequence_like_with_categorical(self): + # GH#7839 + # make sure can iterate + df = DataFrame( + {"id": [1, 2, 3, 4, 5, 6], "raw_grade": ["a", "b", "b", "a", "a", "e"]} + ) + df["grade"] = Categorical(df["raw_grade"]) + + # basic sequencing testing + result = list(df.grade.values) + expected = np.array(df.grade.values).tolist() + tm.assert_almost_equal(result, expected) + + # iteration + for t in df.itertuples(index=False): + str(t) + + for row, s in df.iterrows(): + str(s) + + for c, col in df.items(): + str(col) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_logical_ops.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_logical_ops.py new file mode 100644 index 0000000000000000000000000000000000000000..f1163e994557f8469931c7b5c6833a84abac3a6d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_logical_ops.py @@ -0,0 +1,215 @@ +import operator +import re + +import numpy as np +import pytest + +from pandas import ( + CategoricalIndex, + DataFrame, + Interval, + Series, + isnull, +) +import pandas._testing as tm + + +class TestDataFrameLogicalOperators: + # &, |, ^ + + @pytest.mark.parametrize( + "left, right, op, expected", + [ + ( + [True, False, np.nan], + [True, False, True], + operator.and_, + [True, False, False], + ), + ( + [True, False, True], + [True, False, np.nan], + operator.and_, + [True, False, False], + ), + ( + [True, False, np.nan], + [True, False, True], + operator.or_, + [True, False, False], + ), + ( + [True, False, True], + [True, False, np.nan], + operator.or_, + [True, False, True], + ), + ], + ) + def test_logical_operators_nans(self, left, right, op, expected, frame_or_series): + # GH#13896 + result = op(frame_or_series(left), frame_or_series(right)) + expected = frame_or_series(expected) + + tm.assert_equal(result, expected) + + def test_logical_ops_empty_frame(self): + # GH#5808 + # empty frames, non-mixed dtype + df = DataFrame(index=[1]) + + result = df & df + tm.assert_frame_equal(result, df) + + result = df | df + tm.assert_frame_equal(result, df) + + df2 = DataFrame(index=[1, 2]) + result = df & df2 + tm.assert_frame_equal(result, df2) + + dfa = DataFrame(index=[1], columns=["A"]) + + result = dfa & dfa + expected = DataFrame(False, index=[1], columns=["A"]) + tm.assert_frame_equal(result, expected) + + def test_logical_ops_bool_frame(self): + # GH#5808 + df1a_bool = DataFrame(True, index=[1], columns=["A"]) + + result = df1a_bool & df1a_bool + tm.assert_frame_equal(result, df1a_bool) + + result = df1a_bool | df1a_bool + tm.assert_frame_equal(result, df1a_bool) + + def test_logical_ops_int_frame(self): + # GH#5808 + df1a_int = DataFrame(1, index=[1], columns=["A"]) + df1a_bool = DataFrame(True, index=[1], columns=["A"]) + + result = df1a_int | df1a_bool + tm.assert_frame_equal(result, df1a_bool) + + # Check that this matches Series behavior + res_ser = df1a_int["A"] | df1a_bool["A"] + tm.assert_series_equal(res_ser, df1a_bool["A"]) + + def test_logical_ops_invalid(self, using_infer_string): + # GH#5808 + + df1 = DataFrame(1.0, index=[1], columns=["A"]) + df2 = DataFrame(True, index=[1], columns=["A"]) + msg = re.escape("unsupported operand type(s) for |: 'float' and 'bool'") + with pytest.raises(TypeError, match=msg): + df1 | df2 + + df1 = DataFrame("foo", index=[1], columns=["A"]) + df2 = DataFrame(True, index=[1], columns=["A"]) + if using_infer_string and df1["A"].dtype.storage == "pyarrow": + msg = "operation 'or_' not supported for dtype 'str'" + else: + msg = re.escape("unsupported operand type(s) for |: 'str' and 'bool'") + with pytest.raises(TypeError, match=msg): + df1 | df2 + + def test_logical_operators(self): + def _check_bin_op(op): + result = op(df1, df2) + expected = DataFrame( + op(df1.values, df2.values), index=df1.index, columns=df1.columns + ) + assert result.values.dtype == np.bool_ + tm.assert_frame_equal(result, expected) + + def _check_unary_op(op): + result = op(df1) + expected = DataFrame(op(df1.values), index=df1.index, columns=df1.columns) + assert result.values.dtype == np.bool_ + tm.assert_frame_equal(result, expected) + + df1 = { + "a": {"a": True, "b": False, "c": False, "d": True, "e": True}, + "b": {"a": False, "b": True, "c": False, "d": False, "e": False}, + "c": {"a": False, "b": False, "c": True, "d": False, "e": False}, + "d": {"a": True, "b": False, "c": False, "d": True, "e": True}, + "e": {"a": True, "b": False, "c": False, "d": True, "e": True}, + } + + df2 = { + "a": {"a": True, "b": False, "c": True, "d": False, "e": False}, + "b": {"a": False, "b": True, "c": False, "d": False, "e": False}, + "c": {"a": True, "b": False, "c": True, "d": False, "e": False}, + "d": {"a": False, "b": False, "c": False, "d": True, "e": False}, + "e": {"a": False, "b": False, "c": False, "d": False, "e": True}, + } + + df1 = DataFrame(df1) + df2 = DataFrame(df2) + + _check_bin_op(operator.and_) + _check_bin_op(operator.or_) + _check_bin_op(operator.xor) + + _check_unary_op(operator.inv) # TODO: belongs elsewhere + + @pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") + def test_logical_with_nas(self): + d = DataFrame({"a": [np.nan, False], "b": [True, True]}) + + # GH4947 + # bool comparisons should return bool + result = d["a"] | d["b"] + expected = Series([False, True]) + tm.assert_series_equal(result, expected) + + # GH4604, automatic casting here + result = d["a"].fillna(False) | d["b"] + expected = Series([True, True]) + tm.assert_series_equal(result, expected) + + msg = "The 'downcast' keyword in fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = d["a"].fillna(False, downcast=False) | d["b"] + expected = Series([True, True]) + tm.assert_series_equal(result, expected) + + def test_logical_ops_categorical_columns(self): + # GH#38367 + intervals = [Interval(1, 2), Interval(3, 4)] + data = DataFrame( + [[1, np.nan], [2, np.nan]], + columns=CategoricalIndex( + intervals, categories=intervals + [Interval(5, 6)] + ), + ) + mask = DataFrame( + [[False, False], [False, False]], columns=data.columns, dtype=bool + ) + result = mask | isnull(data) + expected = DataFrame( + [[False, True], [False, True]], + columns=CategoricalIndex( + intervals, categories=intervals + [Interval(5, 6)] + ), + ) + tm.assert_frame_equal(result, expected) + + def test_int_dtype_different_index_not_bool(self): + # GH 52500 + df1 = DataFrame([1, 2, 3], index=[10, 11, 23], columns=["a"]) + df2 = DataFrame([10, 20, 30], index=[11, 10, 23], columns=["a"]) + result = np.bitwise_xor(df1, df2) + expected = DataFrame([21, 8, 29], index=[10, 11, 23], columns=["a"]) + tm.assert_frame_equal(result, expected) + + result = df1 ^ df2 + tm.assert_frame_equal(result, expected) + + def test_different_dtypes_different_index_raises(self): + # GH 52538 + df1 = DataFrame([1, 2], index=["a", "b"]) + df2 = DataFrame([3, 4], index=["b", "c"]) + with pytest.raises(TypeError, match="unsupported operand type"): + df1 & df2 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_nonunique_indexes.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_nonunique_indexes.py new file mode 100644 index 0000000000000000000000000000000000000000..34f172e900ab7e16d66afe32aed3d5b87be301c3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_nonunique_indexes.py @@ -0,0 +1,337 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Series, + date_range, +) +import pandas._testing as tm + + +class TestDataFrameNonuniqueIndexes: + def test_setattr_columns_vs_construct_with_columns(self): + # assignment + # GH 3687 + arr = np.random.default_rng(2).standard_normal((3, 2)) + idx = list(range(2)) + df = DataFrame(arr, columns=["A", "A"]) + df.columns = idx + expected = DataFrame(arr, columns=idx) + tm.assert_frame_equal(df, expected) + + def test_setattr_columns_vs_construct_with_columns_datetimeindx(self): + idx = date_range("20130101", periods=4, freq="QE-NOV") + df = DataFrame( + [[1, 1, 1, 5], [1, 1, 2, 5], [2, 1, 3, 5]], columns=["a", "a", "a", "a"] + ) + df.columns = idx + expected = DataFrame([[1, 1, 1, 5], [1, 1, 2, 5], [2, 1, 3, 5]], columns=idx) + tm.assert_frame_equal(df, expected) + + def test_insert_with_duplicate_columns(self): + # insert + df = DataFrame( + [[1, 1, 1, 5], [1, 1, 2, 5], [2, 1, 3, 5]], + columns=["foo", "bar", "foo", "hello"], + ) + df["string"] = "bah" + expected = DataFrame( + [[1, 1, 1, 5, "bah"], [1, 1, 2, 5, "bah"], [2, 1, 3, 5, "bah"]], + columns=["foo", "bar", "foo", "hello", "string"], + ) + tm.assert_frame_equal(df, expected) + with pytest.raises(ValueError, match="Length of value"): + df.insert(0, "AnotherColumn", range(len(df.index) - 1)) + + # insert same dtype + df["foo2"] = 3 + expected = DataFrame( + [[1, 1, 1, 5, "bah", 3], [1, 1, 2, 5, "bah", 3], [2, 1, 3, 5, "bah", 3]], + columns=["foo", "bar", "foo", "hello", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # set (non-dup) + df["foo2"] = 4 + expected = DataFrame( + [[1, 1, 1, 5, "bah", 4], [1, 1, 2, 5, "bah", 4], [2, 1, 3, 5, "bah", 4]], + columns=["foo", "bar", "foo", "hello", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + df["foo2"] = 3 + + # delete (non dup) + del df["bar"] + expected = DataFrame( + [[1, 1, 5, "bah", 3], [1, 2, 5, "bah", 3], [2, 3, 5, "bah", 3]], + columns=["foo", "foo", "hello", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # try to delete again (its not consolidated) + del df["hello"] + expected = DataFrame( + [[1, 1, "bah", 3], [1, 2, "bah", 3], [2, 3, "bah", 3]], + columns=["foo", "foo", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # consolidate + df = df._consolidate() + expected = DataFrame( + [[1, 1, "bah", 3], [1, 2, "bah", 3], [2, 3, "bah", 3]], + columns=["foo", "foo", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # insert + df.insert(2, "new_col", 5.0) + expected = DataFrame( + [[1, 1, 5.0, "bah", 3], [1, 2, 5.0, "bah", 3], [2, 3, 5.0, "bah", 3]], + columns=["foo", "foo", "new_col", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # insert a dup + with pytest.raises(ValueError, match="cannot insert"): + df.insert(2, "new_col", 4.0) + + df.insert(2, "new_col", 4.0, allow_duplicates=True) + expected = DataFrame( + [ + [1, 1, 4.0, 5.0, "bah", 3], + [1, 2, 4.0, 5.0, "bah", 3], + [2, 3, 4.0, 5.0, "bah", 3], + ], + columns=["foo", "foo", "new_col", "new_col", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + # delete (dup) + del df["foo"] + expected = DataFrame( + [[4.0, 5.0, "bah", 3], [4.0, 5.0, "bah", 3], [4.0, 5.0, "bah", 3]], + columns=["new_col", "new_col", "string", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + def test_dup_across_dtypes(self): + # dup across dtypes + df = DataFrame( + [[1, 1, 1.0, 5], [1, 1, 2.0, 5], [2, 1, 3.0, 5]], + columns=["foo", "bar", "foo", "hello"], + ) + + df["foo2"] = 7.0 + expected = DataFrame( + [[1, 1, 1.0, 5, 7.0], [1, 1, 2.0, 5, 7.0], [2, 1, 3.0, 5, 7.0]], + columns=["foo", "bar", "foo", "hello", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + result = df["foo"] + expected = DataFrame([[1, 1.0], [1, 2.0], [2, 3.0]], columns=["foo", "foo"]) + tm.assert_frame_equal(result, expected) + + # multiple replacements + df["foo"] = "string" + expected = DataFrame( + [ + ["string", 1, "string", 5, 7.0], + ["string", 1, "string", 5, 7.0], + ["string", 1, "string", 5, 7.0], + ], + columns=["foo", "bar", "foo", "hello", "foo2"], + ) + tm.assert_frame_equal(df, expected) + + del df["foo"] + expected = DataFrame( + [[1, 5, 7.0], [1, 5, 7.0], [1, 5, 7.0]], columns=["bar", "hello", "foo2"] + ) + tm.assert_frame_equal(df, expected) + + def test_column_dups_indexes(self): + # check column dups with index equal and not equal to df's index + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=["a", "b", "c", "d", "e"], + columns=["A", "B", "A"], + ) + for index in [df.index, pd.Index(list("edcba"))]: + this_df = df.copy() + expected_ser = Series(index.values, index=this_df.index) + expected_df = DataFrame( + {"A": expected_ser, "B": this_df["B"]}, + columns=["A", "B", "A"], + ) + this_df["A"] = index + tm.assert_frame_equal(this_df, expected_df) + + def test_changing_dtypes_with_duplicate_columns(self): + # multiple assignments that change dtypes + # the location indexer is a slice + # GH 6120 + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=["that", "that"] + ) + expected = DataFrame(1.0, index=range(5), columns=["that", "that"]) + + df["that"] = 1.0 + tm.assert_frame_equal(df, expected) + + df = DataFrame( + np.random.default_rng(2).random((5, 2)), columns=["that", "that"] + ) + expected = DataFrame(1, index=range(5), columns=["that", "that"]) + + df["that"] = 1 + tm.assert_frame_equal(df, expected) + + def test_dup_columns_comparisons(self): + # equality + df1 = DataFrame([[1, 2], [2, np.nan], [3, 4], [4, 4]], columns=["A", "B"]) + df2 = DataFrame([[0, 1], [2, 4], [2, np.nan], [4, 5]], columns=["A", "A"]) + + # not-comparing like-labelled + msg = ( + r"Can only compare identically-labeled \(both index and columns\) " + "DataFrame objects" + ) + with pytest.raises(ValueError, match=msg): + df1 == df2 + + df1r = df1.reindex_like(df2) + result = df1r == df2 + expected = DataFrame( + [[False, True], [True, False], [False, False], [True, False]], + columns=["A", "A"], + ) + tm.assert_frame_equal(result, expected) + + def test_mixed_column_selection(self): + # mixed column selection + # GH 5639 + dfbool = DataFrame( + { + "one": Series([True, True, False], index=["a", "b", "c"]), + "two": Series([False, False, True, False], index=["a", "b", "c", "d"]), + "three": Series([False, True, True, True], index=["a", "b", "c", "d"]), + } + ) + expected = pd.concat([dfbool["one"], dfbool["three"], dfbool["one"]], axis=1) + result = dfbool[["one", "three", "one"]] + tm.assert_frame_equal(result, expected) + + def test_multi_axis_dups(self): + # multi-axis dups + # GH 6121 + df = DataFrame( + np.arange(25.0).reshape(5, 5), + index=["a", "b", "c", "d", "e"], + columns=["A", "B", "C", "D", "E"], + ) + z = df[["A", "C", "A"]].copy() + expected = z.loc[["a", "c", "a"]] + + df = DataFrame( + np.arange(25.0).reshape(5, 5), + index=["a", "b", "c", "d", "e"], + columns=["A", "B", "C", "D", "E"], + ) + z = df[["A", "C", "A"]] + result = z.loc[["a", "c", "a"]] + tm.assert_frame_equal(result, expected) + + def test_columns_with_dups(self): + # GH 3468 related + + # basic + df = DataFrame([[1, 2]], columns=["a", "a"]) + df.columns = ["a", "a.1"] + expected = DataFrame([[1, 2]], columns=["a", "a.1"]) + tm.assert_frame_equal(df, expected) + + df = DataFrame([[1, 2, 3]], columns=["b", "a", "a"]) + df.columns = ["b", "a", "a.1"] + expected = DataFrame([[1, 2, 3]], columns=["b", "a", "a.1"]) + tm.assert_frame_equal(df, expected) + + def test_columns_with_dup_index(self): + # with a dup index + df = DataFrame([[1, 2]], columns=["a", "a"]) + df.columns = ["b", "b"] + expected = DataFrame([[1, 2]], columns=["b", "b"]) + tm.assert_frame_equal(df, expected) + + def test_multi_dtype(self): + # multi-dtype + df = DataFrame( + [[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]], + columns=["a", "a", "b", "b", "d", "c", "c"], + ) + df.columns = list("ABCDEFG") + expected = DataFrame( + [[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]], columns=list("ABCDEFG") + ) + tm.assert_frame_equal(df, expected) + + def test_multi_dtype2(self): + df = DataFrame([[1, 2, "foo", "bar"]], columns=["a", "a", "a", "a"]) + df.columns = ["a", "a.1", "a.2", "a.3"] + expected = DataFrame([[1, 2, "foo", "bar"]], columns=["a", "a.1", "a.2", "a.3"]) + tm.assert_frame_equal(df, expected) + + def test_dups_across_blocks(self, using_array_manager): + # dups across blocks + df_float = DataFrame( + np.random.default_rng(2).standard_normal((10, 3)), dtype="float64" + ) + df_int = DataFrame( + np.random.default_rng(2).standard_normal((10, 3)).astype("int64") + ) + df_bool = DataFrame(True, index=df_float.index, columns=df_float.columns) + df_object = DataFrame("foo", index=df_float.index, columns=df_float.columns) + df_dt = DataFrame( + pd.Timestamp("20010101"), index=df_float.index, columns=df_float.columns + ) + df = pd.concat([df_float, df_int, df_bool, df_object, df_dt], axis=1) + + if not using_array_manager: + assert len(df._mgr.blknos) == len(df.columns) + assert len(df._mgr.blklocs) == len(df.columns) + + # testing iloc + for i in range(len(df.columns)): + df.iloc[:, i] + + def test_dup_columns_across_dtype(self): + # dup columns across dtype GH 2079/2194 + vals = [[1, -1, 2.0], [2, -2, 3.0]] + rs = DataFrame(vals, columns=["A", "A", "B"]) + xp = DataFrame(vals) + xp.columns = ["A", "A", "B"] + tm.assert_frame_equal(rs, xp) + + def test_set_value_by_index(self): + # See gh-12344 + warn = None + msg = "will attempt to set the values inplace" + + df = DataFrame(np.arange(9).reshape(3, 3).T) + df.columns = list("AAA") + expected = df.iloc[:, 2].copy() + + with tm.assert_produces_warning(warn, match=msg): + df.iloc[:, 0] = 3 + tm.assert_series_equal(df.iloc[:, 2], expected) + + df = DataFrame(np.arange(9).reshape(3, 3).T) + df.columns = [2, float(2), str(2)] + expected = df.iloc[:, 1].copy() + + with tm.assert_produces_warning(warn, match=msg): + df.iloc[:, 0] = 3 + tm.assert_series_equal(df.iloc[:, 1], expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_npfuncs.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_npfuncs.py new file mode 100644 index 0000000000000000000000000000000000000000..afb53bf2de93aa591ca9d7b99af185bc0c4083ee --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_npfuncs.py @@ -0,0 +1,89 @@ +""" +Tests for np.foo applied to DataFrame, not necessarily ufuncs. +""" +import numpy as np + +from pandas import ( + Categorical, + DataFrame, +) +import pandas._testing as tm + + +class TestAsArray: + def test_asarray_homogeneous(self): + df = DataFrame({"A": Categorical([1, 2]), "B": Categorical([1, 2])}) + result = np.asarray(df) + # may change from object in the future + expected = np.array([[1, 1], [2, 2]], dtype="object") + tm.assert_numpy_array_equal(result, expected) + + def test_np_sqrt(self, float_frame): + with np.errstate(all="ignore"): + result = np.sqrt(float_frame) + assert isinstance(result, type(float_frame)) + assert result.index.is_(float_frame.index) + assert result.columns.is_(float_frame.columns) + + tm.assert_frame_equal(result, float_frame.apply(np.sqrt)) + + def test_sum_deprecated_axis_behavior(self): + # GH#52042 deprecated behavior of df.sum(axis=None), which gets + # called when we do np.sum(df) + + arr = np.random.default_rng(2).standard_normal((4, 3)) + df = DataFrame(arr) + + msg = "The behavior of DataFrame.sum with axis=None is deprecated" + with tm.assert_produces_warning( + FutureWarning, match=msg, check_stacklevel=False + ): + res = np.sum(df) + + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.sum(axis=None) + tm.assert_series_equal(res, expected) + + def test_np_ravel(self): + # GH26247 + arr = np.array( + [ + [0.11197053, 0.44361564, -0.92589452], + [0.05883648, -0.00948922, -0.26469934], + ] + ) + + result = np.ravel([DataFrame(batch.reshape(1, 3)) for batch in arr]) + expected = np.array( + [ + 0.11197053, + 0.44361564, + -0.92589452, + 0.05883648, + -0.00948922, + -0.26469934, + ] + ) + tm.assert_numpy_array_equal(result, expected) + + result = np.ravel(DataFrame(arr[0].reshape(1, 3), columns=["x1", "x2", "x3"])) + expected = np.array([0.11197053, 0.44361564, -0.92589452]) + tm.assert_numpy_array_equal(result, expected) + + result = np.ravel( + [ + DataFrame(batch.reshape(1, 3), columns=["x1", "x2", "x3"]) + for batch in arr + ] + ) + expected = np.array( + [ + 0.11197053, + 0.44361564, + -0.92589452, + 0.05883648, + -0.00948922, + -0.26469934, + ] + ) + tm.assert_numpy_array_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_query_eval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_query_eval.py new file mode 100644 index 0000000000000000000000000000000000000000..ffabf238a4884d3b7436c890da77e2700dc8bde4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_query_eval.py @@ -0,0 +1,1437 @@ +import operator + +import numpy as np +import pytest + +from pandas.errors import ( + NumExprClobberingError, + UndefinedVariableError, +) +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + date_range, +) +import pandas._testing as tm +from pandas.core.computation.check import NUMEXPR_INSTALLED + + +@pytest.fixture(params=["python", "pandas"], ids=lambda x: x) +def parser(request): + return request.param + + +@pytest.fixture( + params=["python", pytest.param("numexpr", marks=td.skip_if_no("numexpr"))], + ids=lambda x: x, +) +def engine(request): + return request.param + + +def skip_if_no_pandas_parser(parser): + if parser != "pandas": + pytest.skip(f"cannot evaluate with parser={parser}") + + +class TestCompat: + @pytest.fixture + def df(self): + return DataFrame({"A": [1, 2, 3]}) + + @pytest.fixture + def expected1(self, df): + return df[df.A > 0] + + @pytest.fixture + def expected2(self, df): + return df.A + 1 + + def test_query_default(self, df, expected1, expected2): + # GH 12749 + # this should always work, whether NUMEXPR_INSTALLED or not + result = df.query("A>0") + tm.assert_frame_equal(result, expected1) + result = df.eval("A+1") + tm.assert_series_equal(result, expected2, check_names=False) + + def test_query_None(self, df, expected1, expected2): + result = df.query("A>0", engine=None) + tm.assert_frame_equal(result, expected1) + result = df.eval("A+1", engine=None) + tm.assert_series_equal(result, expected2, check_names=False) + + def test_query_python(self, df, expected1, expected2): + result = df.query("A>0", engine="python") + tm.assert_frame_equal(result, expected1) + result = df.eval("A+1", engine="python") + tm.assert_series_equal(result, expected2, check_names=False) + + def test_query_numexpr(self, df, expected1, expected2): + if NUMEXPR_INSTALLED: + result = df.query("A>0", engine="numexpr") + tm.assert_frame_equal(result, expected1) + result = df.eval("A+1", engine="numexpr") + tm.assert_series_equal(result, expected2, check_names=False) + else: + msg = ( + r"'numexpr' is not installed or an unsupported version. " + r"Cannot use engine='numexpr' for query/eval if 'numexpr' is " + r"not installed" + ) + with pytest.raises(ImportError, match=msg): + df.query("A>0", engine="numexpr") + with pytest.raises(ImportError, match=msg): + df.eval("A+1", engine="numexpr") + + +class TestDataFrameEval: + # smaller hits python, larger hits numexpr + @pytest.mark.parametrize("n", [4, 4000]) + @pytest.mark.parametrize( + "op_str,op,rop", + [ + ("+", "__add__", "__radd__"), + ("-", "__sub__", "__rsub__"), + ("*", "__mul__", "__rmul__"), + ("/", "__truediv__", "__rtruediv__"), + ], + ) + def test_ops(self, op_str, op, rop, n): + # tst ops and reversed ops in evaluation + # GH7198 + + df = DataFrame(1, index=range(n), columns=list("abcd")) + df.iloc[0] = 2 + m = df.mean() + + base = DataFrame( # noqa: F841 + np.tile(m.values, n).reshape(n, -1), columns=list("abcd") + ) + + expected = eval(f"base {op_str} df") + + # ops as strings + result = eval(f"m {op_str} df") + tm.assert_frame_equal(result, expected) + + # these are commutative + if op in ["+", "*"]: + result = getattr(df, op)(m) + tm.assert_frame_equal(result, expected) + + # these are not + elif op in ["-", "/"]: + result = getattr(df, rop)(m) + tm.assert_frame_equal(result, expected) + + def test_dataframe_sub_numexpr_path(self): + # GH7192: Note we need a large number of rows to ensure this + # goes through the numexpr path + df = DataFrame({"A": np.random.default_rng(2).standard_normal(25000)}) + df.iloc[0:5] = np.nan + expected = 1 - np.isnan(df.iloc[0:25]) + result = (1 - np.isnan(df)).iloc[0:25] + tm.assert_frame_equal(result, expected) + + def test_query_non_str(self): + # GH 11485 + df = DataFrame({"A": [1, 2, 3], "B": ["a", "b", "b"]}) + + msg = "expr must be a string to be evaluated" + with pytest.raises(ValueError, match=msg): + df.query(lambda x: x.B == "b") + + with pytest.raises(ValueError, match=msg): + df.query(111) + + def test_query_empty_string(self): + # GH 13139 + df = DataFrame({"A": [1, 2, 3]}) + + msg = "expr cannot be an empty string" + with pytest.raises(ValueError, match=msg): + df.query("") + + def test_eval_resolvers_as_list(self): + # GH 14095 + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 2)), columns=list("ab") + ) + dict1 = {"a": 1} + dict2 = {"b": 2} + assert df.eval("a + b", resolvers=[dict1, dict2]) == dict1["a"] + dict2["b"] + assert pd.eval("a + b", resolvers=[dict1, dict2]) == dict1["a"] + dict2["b"] + + def test_eval_resolvers_combined(self): + # GH 34966 + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 2)), columns=list("ab") + ) + dict1 = {"c": 2} + + # Both input and default index/column resolvers should be usable + result = df.eval("a + b * c", resolvers=[dict1]) + + expected = df["a"] + df["b"] * dict1["c"] + tm.assert_series_equal(result, expected) + + def test_eval_object_dtype_binop(self): + # GH#24883 + df = DataFrame({"a1": ["Y", "N"]}) + res = df.eval("c = ((a1 == 'Y') & True)") + expected = DataFrame({"a1": ["Y", "N"], "c": [True, False]}) + tm.assert_frame_equal(res, expected) + + def test_extension_array_eval(self, engine, parser, request): + # GH#58748 + if engine == "numexpr": + mark = pytest.mark.xfail( + reason="numexpr does not support extension array dtypes" + ) + request.applymarker(mark) + df = DataFrame({"a": pd.array([1, 2, 3]), "b": pd.array([4, 5, 6])}) + result = df.eval("a / b", engine=engine, parser=parser) + expected = Series(pd.array([0.25, 0.40, 0.50])) + tm.assert_series_equal(result, expected) + + def test_complex_eval(self, engine, parser): + # GH#21374 + df = DataFrame({"a": [1 + 2j], "b": [1 + 1j]}) + result = df.eval("a/b", engine=engine, parser=parser) + expected = Series([1.5 + 0.5j]) + tm.assert_series_equal(result, expected) + + +class TestDataFrameQueryWithMultiIndex: + def test_query_with_named_multiindex(self, parser, engine): + skip_if_no_pandas_parser(parser) + a = np.random.default_rng(2).choice(["red", "green"], size=10) + b = np.random.default_rng(2).choice(["eggs", "ham"], size=10) + index = MultiIndex.from_arrays([a, b], names=["color", "food"]) + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2)), index=index) + ind = Series( + df.index.get_level_values("color").values, index=index, name="color" + ) + + # equality + res1 = df.query('color == "red"', parser=parser, engine=engine) + res2 = df.query('"red" == color', parser=parser, engine=engine) + exp = df[ind == "red"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # inequality + res1 = df.query('color != "red"', parser=parser, engine=engine) + res2 = df.query('"red" != color', parser=parser, engine=engine) + exp = df[ind != "red"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # list equality (really just set membership) + res1 = df.query('color == ["red"]', parser=parser, engine=engine) + res2 = df.query('["red"] == color', parser=parser, engine=engine) + exp = df[ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('color != ["red"]', parser=parser, engine=engine) + res2 = df.query('["red"] != color', parser=parser, engine=engine) + exp = df[~ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # in/not in ops + res1 = df.query('["red"] in color', parser=parser, engine=engine) + res2 = df.query('"red" in color', parser=parser, engine=engine) + exp = df[ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('["red"] not in color', parser=parser, engine=engine) + res2 = df.query('"red" not in color', parser=parser, engine=engine) + exp = df[~ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + def test_query_with_unnamed_multiindex(self, parser, engine): + skip_if_no_pandas_parser(parser) + a = np.random.default_rng(2).choice(["red", "green"], size=10) + b = np.random.default_rng(2).choice(["eggs", "ham"], size=10) + index = MultiIndex.from_arrays([a, b]) + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2)), index=index) + ind = Series(df.index.get_level_values(0).values, index=index) + + res1 = df.query('ilevel_0 == "red"', parser=parser, engine=engine) + res2 = df.query('"red" == ilevel_0', parser=parser, engine=engine) + exp = df[ind == "red"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # inequality + res1 = df.query('ilevel_0 != "red"', parser=parser, engine=engine) + res2 = df.query('"red" != ilevel_0', parser=parser, engine=engine) + exp = df[ind != "red"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # list equality (really just set membership) + res1 = df.query('ilevel_0 == ["red"]', parser=parser, engine=engine) + res2 = df.query('["red"] == ilevel_0', parser=parser, engine=engine) + exp = df[ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('ilevel_0 != ["red"]', parser=parser, engine=engine) + res2 = df.query('["red"] != ilevel_0', parser=parser, engine=engine) + exp = df[~ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # in/not in ops + res1 = df.query('["red"] in ilevel_0', parser=parser, engine=engine) + res2 = df.query('"red" in ilevel_0', parser=parser, engine=engine) + exp = df[ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('["red"] not in ilevel_0', parser=parser, engine=engine) + res2 = df.query('"red" not in ilevel_0', parser=parser, engine=engine) + exp = df[~ind.isin(["red"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # ## LEVEL 1 + ind = Series(df.index.get_level_values(1).values, index=index) + res1 = df.query('ilevel_1 == "eggs"', parser=parser, engine=engine) + res2 = df.query('"eggs" == ilevel_1', parser=parser, engine=engine) + exp = df[ind == "eggs"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # inequality + res1 = df.query('ilevel_1 != "eggs"', parser=parser, engine=engine) + res2 = df.query('"eggs" != ilevel_1', parser=parser, engine=engine) + exp = df[ind != "eggs"] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # list equality (really just set membership) + res1 = df.query('ilevel_1 == ["eggs"]', parser=parser, engine=engine) + res2 = df.query('["eggs"] == ilevel_1', parser=parser, engine=engine) + exp = df[ind.isin(["eggs"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('ilevel_1 != ["eggs"]', parser=parser, engine=engine) + res2 = df.query('["eggs"] != ilevel_1', parser=parser, engine=engine) + exp = df[~ind.isin(["eggs"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + # in/not in ops + res1 = df.query('["eggs"] in ilevel_1', parser=parser, engine=engine) + res2 = df.query('"eggs" in ilevel_1', parser=parser, engine=engine) + exp = df[ind.isin(["eggs"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + res1 = df.query('["eggs"] not in ilevel_1', parser=parser, engine=engine) + res2 = df.query('"eggs" not in ilevel_1', parser=parser, engine=engine) + exp = df[~ind.isin(["eggs"])] + tm.assert_frame_equal(res1, exp) + tm.assert_frame_equal(res2, exp) + + def test_query_with_partially_named_multiindex(self, parser, engine): + skip_if_no_pandas_parser(parser) + a = np.random.default_rng(2).choice(["red", "green"], size=10) + b = np.arange(10) + index = MultiIndex.from_arrays([a, b]) + index.names = [None, "rating"] + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2)), index=index) + res = df.query("rating == 1", parser=parser, engine=engine) + ind = Series( + df.index.get_level_values("rating").values, index=index, name="rating" + ) + exp = df[ind == 1] + tm.assert_frame_equal(res, exp) + + res = df.query("rating != 1", parser=parser, engine=engine) + ind = Series( + df.index.get_level_values("rating").values, index=index, name="rating" + ) + exp = df[ind != 1] + tm.assert_frame_equal(res, exp) + + res = df.query('ilevel_0 == "red"', parser=parser, engine=engine) + ind = Series(df.index.get_level_values(0).values, index=index) + exp = df[ind == "red"] + tm.assert_frame_equal(res, exp) + + res = df.query('ilevel_0 != "red"', parser=parser, engine=engine) + ind = Series(df.index.get_level_values(0).values, index=index) + exp = df[ind != "red"] + tm.assert_frame_equal(res, exp) + + def test_query_multiindex_get_index_resolvers(self): + df = DataFrame( + np.ones((10, 3)), + index=MultiIndex.from_arrays( + [range(10) for _ in range(2)], names=["spam", "eggs"] + ), + ) + resolvers = df._get_index_resolvers() + + def to_series(mi, level): + level_values = mi.get_level_values(level) + s = level_values.to_series() + s.index = mi + return s + + col_series = df.columns.to_series() + expected = { + "index": df.index, + "columns": col_series, + "spam": to_series(df.index, "spam"), + "eggs": to_series(df.index, "eggs"), + "clevel_0": col_series, + } + for k, v in resolvers.items(): + if isinstance(v, Index): + assert v.is_(expected[k]) + elif isinstance(v, Series): + tm.assert_series_equal(v, expected[k]) + else: + raise AssertionError("object must be a Series or Index") + + +@td.skip_if_no("numexpr") +class TestDataFrameQueryNumExprPandas: + @pytest.fixture + def engine(self): + return "numexpr" + + @pytest.fixture + def parser(self): + return "pandas" + + def test_date_query_with_attribute_access(self, engine, parser): + skip_if_no_pandas_parser(parser) + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df["dates1"] = date_range("1/1/2012", periods=5) + df["dates2"] = date_range("1/1/2013", periods=5) + df["dates3"] = date_range("1/1/2014", periods=5) + res = df.query( + "@df.dates1 < 20130101 < @df.dates3", engine=engine, parser=parser + ) + expec = df[(df.dates1 < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_query_no_attribute_access(self, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df["dates1"] = date_range("1/1/2012", periods=5) + df["dates2"] = date_range("1/1/2013", periods=5) + df["dates3"] = date_range("1/1/2014", periods=5) + res = df.query("dates1 < 20130101 < dates3", engine=engine, parser=parser) + expec = df[(df.dates1 < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_query_with_NaT(self, engine, parser): + n = 10 + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates2"] = date_range("1/1/2013", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates1"] = pd.NaT + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates3"] = pd.NaT + res = df.query("dates1 < 20130101 < dates3", engine=engine, parser=parser) + expec = df[(df.dates1 < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query(self, engine, parser): + n = 10 + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + res = df.query("index < 20130101 < dates3", engine=engine, parser=parser) + expec = df[(df.index < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query_with_NaT(self, engine, parser): + n = 10 + # Cast to object to avoid implicit cast when setting entry to pd.NaT below + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))).astype( + {0: object} + ) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + df.iloc[0, 0] = pd.NaT + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + res = df.query("index < 20130101 < dates3", engine=engine, parser=parser) + expec = df[(df.index < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query_with_NaT_duplicates(self, engine, parser): + n = 10 + d = {} + d["dates1"] = date_range("1/1/2012", periods=n) + d["dates3"] = date_range("1/1/2014", periods=n) + df = DataFrame(d) + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates1"] = pd.NaT + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + res = df.query("dates1 < 20130101 < dates3", engine=engine, parser=parser) + expec = df[(df.index.to_series() < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_query_with_non_date(self, engine, parser): + n = 10 + df = DataFrame( + {"dates": date_range("1/1/2012", periods=n), "nondate": np.arange(n)} + ) + + result = df.query("dates == nondate", parser=parser, engine=engine) + assert len(result) == 0 + + result = df.query("dates != nondate", parser=parser, engine=engine) + tm.assert_frame_equal(result, df) + + msg = r"Invalid comparison between dtype=datetime64\[ns\] and ndarray" + for op in ["<", ">", "<=", ">="]: + with pytest.raises(TypeError, match=msg): + df.query(f"dates {op} nondate", parser=parser, engine=engine) + + def test_query_syntax_error(self, engine, parser): + df = DataFrame({"i": range(10), "+": range(3, 13), "r": range(4, 14)}) + msg = "invalid syntax" + with pytest.raises(SyntaxError, match=msg): + df.query("i - +", engine=engine, parser=parser) + + def test_query_scope(self, engine, parser): + skip_if_no_pandas_parser(parser) + + df = DataFrame( + np.random.default_rng(2).standard_normal((20, 2)), columns=list("ab") + ) + + a, b = 1, 2 # noqa: F841 + res = df.query("a > b", engine=engine, parser=parser) + expected = df[df.a > df.b] + tm.assert_frame_equal(res, expected) + + res = df.query("@a > b", engine=engine, parser=parser) + expected = df[a > df.b] + tm.assert_frame_equal(res, expected) + + # no local variable c + with pytest.raises( + UndefinedVariableError, match="local variable 'c' is not defined" + ): + df.query("@a > b > @c", engine=engine, parser=parser) + + # no column named 'c' + with pytest.raises(UndefinedVariableError, match="name 'c' is not defined"): + df.query("@a > b > c", engine=engine, parser=parser) + + def test_query_doesnt_pickup_local(self, engine, parser): + n = m = 10 + df = DataFrame( + np.random.default_rng(2).integers(m, size=(n, 3)), columns=list("abc") + ) + + # we don't pick up the local 'sin' + with pytest.raises(UndefinedVariableError, match="name 'sin' is not defined"): + df.query("sin > 5", engine=engine, parser=parser) + + def test_query_builtin(self, engine, parser): + n = m = 10 + df = DataFrame( + np.random.default_rng(2).integers(m, size=(n, 3)), columns=list("abc") + ) + + df.index.name = "sin" + msg = "Variables in expression.+" + with pytest.raises(NumExprClobberingError, match=msg): + df.query("sin > 5", engine=engine, parser=parser) + + def test_query(self, engine, parser): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 3)), columns=["a", "b", "c"] + ) + + tm.assert_frame_equal( + df.query("a < b", engine=engine, parser=parser), df[df.a < df.b] + ) + tm.assert_frame_equal( + df.query("a + b > b * c", engine=engine, parser=parser), + df[df.a + df.b > df.b * df.c], + ) + + def test_query_index_with_name(self, engine, parser): + df = DataFrame( + np.random.default_rng(2).integers(10, size=(10, 3)), + index=Index(range(10), name="blob"), + columns=["a", "b", "c"], + ) + res = df.query("(blob < 5) & (a < b)", engine=engine, parser=parser) + expec = df[(df.index < 5) & (df.a < df.b)] + tm.assert_frame_equal(res, expec) + + res = df.query("blob < b", engine=engine, parser=parser) + expec = df[df.index < df.b] + + tm.assert_frame_equal(res, expec) + + def test_query_index_without_name(self, engine, parser): + df = DataFrame( + np.random.default_rng(2).integers(10, size=(10, 3)), + index=range(10), + columns=["a", "b", "c"], + ) + + # "index" should refer to the index + res = df.query("index < b", engine=engine, parser=parser) + expec = df[df.index < df.b] + tm.assert_frame_equal(res, expec) + + # test against a scalar + res = df.query("index < 5", engine=engine, parser=parser) + expec = df[df.index < 5] + tm.assert_frame_equal(res, expec) + + def test_nested_scope(self, engine, parser): + skip_if_no_pandas_parser(parser) + + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df2 = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + expected = df[(df > 0) & (df2 > 0)] + + result = df.query("(@df > 0) & (@df2 > 0)", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + result = pd.eval("df[df > 0 and df2 > 0]", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + result = pd.eval( + "df[df > 0 and df2 > 0 and df[df > 0] > 0]", engine=engine, parser=parser + ) + expected = df[(df > 0) & (df2 > 0) & (df[df > 0] > 0)] + tm.assert_frame_equal(result, expected) + + result = pd.eval("df[(df>0) & (df2>0)]", engine=engine, parser=parser) + expected = df.query("(@df>0) & (@df2>0)", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + def test_nested_raises_on_local_self_reference(self, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + + # can't reference ourself b/c we're a local so @ is necessary + with pytest.raises(UndefinedVariableError, match="name 'df' is not defined"): + df.query("df > 0", engine=engine, parser=parser) + + def test_local_syntax(self, engine, parser): + skip_if_no_pandas_parser(parser) + + df = DataFrame( + np.random.default_rng(2).standard_normal((100, 10)), + columns=list("abcdefghij"), + ) + b = 1 + expect = df[df.a < b] + result = df.query("a < @b", engine=engine, parser=parser) + tm.assert_frame_equal(result, expect) + + expect = df[df.a < df.b] + result = df.query("a < b", engine=engine, parser=parser) + tm.assert_frame_equal(result, expect) + + def test_chained_cmp_and_in(self, engine, parser): + skip_if_no_pandas_parser(parser) + cols = list("abc") + df = DataFrame( + np.random.default_rng(2).standard_normal((100, len(cols))), columns=cols + ) + res = df.query( + "a < b < c and a not in b not in c", engine=engine, parser=parser + ) + ind = (df.a < df.b) & (df.b < df.c) & ~df.b.isin(df.a) & ~df.c.isin(df.b) + expec = df[ind] + tm.assert_frame_equal(res, expec) + + def test_local_variable_with_in(self, engine, parser): + skip_if_no_pandas_parser(parser) + a = Series(np.random.default_rng(2).integers(3, size=15), name="a") + b = Series(np.random.default_rng(2).integers(10, size=15), name="b") + df = DataFrame({"a": a, "b": b}) + + expected = df.loc[(df.b - 1).isin(a)] + result = df.query("b - 1 in a", engine=engine, parser=parser) + tm.assert_frame_equal(expected, result) + + b = Series(np.random.default_rng(2).integers(10, size=15), name="b") + expected = df.loc[(b - 1).isin(a)] + result = df.query("@b - 1 in a", engine=engine, parser=parser) + tm.assert_frame_equal(expected, result) + + def test_at_inside_string(self, engine, parser): + skip_if_no_pandas_parser(parser) + c = 1 # noqa: F841 + df = DataFrame({"a": ["a", "a", "b", "b", "@c", "@c"]}) + result = df.query('a == "@c"', engine=engine, parser=parser) + expected = df[df.a == "@c"] + tm.assert_frame_equal(result, expected) + + def test_query_undefined_local(self): + engine, parser = self.engine, self.parser + skip_if_no_pandas_parser(parser) + + df = DataFrame(np.random.default_rng(2).random((10, 2)), columns=list("ab")) + with pytest.raises( + UndefinedVariableError, match="local variable 'c' is not defined" + ): + df.query("a == @c", engine=engine, parser=parser) + + def test_index_resolvers_come_after_columns_with_the_same_name( + self, engine, parser + ): + n = 1 # noqa: F841 + a = np.r_[20:101:20] + + df = DataFrame( + {"index": a, "b": np.random.default_rng(2).standard_normal(a.size)} + ) + df.index.name = "index" + result = df.query("index > 5", engine=engine, parser=parser) + expected = df[df["index"] > 5] + tm.assert_frame_equal(result, expected) + + df = DataFrame( + {"index": a, "b": np.random.default_rng(2).standard_normal(a.size)} + ) + result = df.query("ilevel_0 > 5", engine=engine, parser=parser) + expected = df.loc[df.index[df.index > 5]] + tm.assert_frame_equal(result, expected) + + df = DataFrame({"a": a, "b": np.random.default_rng(2).standard_normal(a.size)}) + df.index.name = "a" + result = df.query("a > 5", engine=engine, parser=parser) + expected = df[df.a > 5] + tm.assert_frame_equal(result, expected) + + result = df.query("index > 5", engine=engine, parser=parser) + expected = df.loc[df.index[df.index > 5]] + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("op, f", [["==", operator.eq], ["!=", operator.ne]]) + def test_inf(self, op, f, engine, parser): + n = 10 + df = DataFrame( + { + "a": np.random.default_rng(2).random(n), + "b": np.random.default_rng(2).random(n), + } + ) + df.loc[::2, 0] = np.inf + q = f"a {op} inf" + expected = df[f(df.a, np.inf)] + result = df.query(q, engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + def test_check_tz_aware_index_query(self, tz_aware_fixture): + # https://github.com/pandas-dev/pandas/issues/29463 + tz = tz_aware_fixture + df_index = date_range( + start="2019-01-01", freq="1d", periods=10, tz=tz, name="time" + ) + expected = DataFrame(index=df_index) + df = DataFrame(index=df_index) + result = df.query('"2018-01-03 00:00:00+00" < time') + tm.assert_frame_equal(result, expected) + + expected = DataFrame(df_index) + result = df.reset_index().query('"2018-01-03 00:00:00+00" < time') + tm.assert_frame_equal(result, expected) + + def test_method_calls_in_query(self, engine, parser): + # https://github.com/pandas-dev/pandas/issues/22435 + n = 10 + df = DataFrame( + { + "a": 2 * np.random.default_rng(2).random(n), + "b": np.random.default_rng(2).random(n), + } + ) + expected = df[df["a"].astype("int") == 0] + result = df.query("a.astype('int') == 0", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + df = DataFrame( + { + "a": np.where( + np.random.default_rng(2).random(n) < 0.5, + np.nan, + np.random.default_rng(2).standard_normal(n), + ), + "b": np.random.default_rng(2).standard_normal(n), + } + ) + expected = df[df["a"].notnull()] + result = df.query("a.notnull()", engine=engine, parser=parser) + tm.assert_frame_equal(result, expected) + + +@td.skip_if_no("numexpr") +class TestDataFrameQueryNumExprPython(TestDataFrameQueryNumExprPandas): + @pytest.fixture + def engine(self): + return "numexpr" + + @pytest.fixture + def parser(self): + return "python" + + def test_date_query_no_attribute_access(self, engine, parser): + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df["dates1"] = date_range("1/1/2012", periods=5) + df["dates2"] = date_range("1/1/2013", periods=5) + df["dates3"] = date_range("1/1/2014", periods=5) + res = df.query( + "(dates1 < 20130101) & (20130101 < dates3)", engine=engine, parser=parser + ) + expec = df[(df.dates1 < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_query_with_NaT(self, engine, parser): + n = 10 + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates2"] = date_range("1/1/2013", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates1"] = pd.NaT + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates3"] = pd.NaT + res = df.query( + "(dates1 < 20130101) & (20130101 < dates3)", engine=engine, parser=parser + ) + expec = df[(df.dates1 < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query(self, engine, parser): + n = 10 + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + res = df.query( + "(index < 20130101) & (20130101 < dates3)", engine=engine, parser=parser + ) + expec = df[(df.index < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query_with_NaT(self, engine, parser): + n = 10 + # Cast to object to avoid implicit cast when setting entry to pd.NaT below + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))).astype( + {0: object} + ) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + df.iloc[0, 0] = pd.NaT + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + res = df.query( + "(index < 20130101) & (20130101 < dates3)", engine=engine, parser=parser + ) + expec = df[(df.index < "20130101") & ("20130101" < df.dates3)] + tm.assert_frame_equal(res, expec) + + def test_date_index_query_with_NaT_duplicates(self, engine, parser): + n = 10 + df = DataFrame(np.random.default_rng(2).standard_normal((n, 3))) + df["dates1"] = date_range("1/1/2012", periods=n) + df["dates3"] = date_range("1/1/2014", periods=n) + df.loc[np.random.default_rng(2).random(n) > 0.5, "dates1"] = pd.NaT + return_value = df.set_index("dates1", inplace=True, drop=True) + assert return_value is None + msg = r"'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + df.query("index < 20130101 < dates3", engine=engine, parser=parser) + + def test_nested_scope(self, engine, parser): + # smoke test + x = 1 # noqa: F841 + result = pd.eval("x + 1", engine=engine, parser=parser) + assert result == 2 + + df = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + df2 = DataFrame(np.random.default_rng(2).standard_normal((5, 3))) + + # don't have the pandas parser + msg = r"The '@' prefix is only supported by the pandas parser" + with pytest.raises(SyntaxError, match=msg): + df.query("(@df>0) & (@df2>0)", engine=engine, parser=parser) + + with pytest.raises(UndefinedVariableError, match="name 'df' is not defined"): + df.query("(df>0) & (df2>0)", engine=engine, parser=parser) + + expected = df[(df > 0) & (df2 > 0)] + result = pd.eval("df[(df > 0) & (df2 > 0)]", engine=engine, parser=parser) + tm.assert_frame_equal(expected, result) + + expected = df[(df > 0) & (df2 > 0) & (df[df > 0] > 0)] + result = pd.eval( + "df[(df > 0) & (df2 > 0) & (df[df > 0] > 0)]", engine=engine, parser=parser + ) + tm.assert_frame_equal(expected, result) + + def test_query_numexpr_with_min_and_max_columns(self): + df = DataFrame({"min": [1, 2, 3], "max": [4, 5, 6]}) + regex_to_match = ( + r"Variables in expression \"\(min\) == \(1\)\" " + r"overlap with builtins: \('min'\)" + ) + with pytest.raises(NumExprClobberingError, match=regex_to_match): + df.query("min == 1") + + regex_to_match = ( + r"Variables in expression \"\(max\) == \(1\)\" " + r"overlap with builtins: \('max'\)" + ) + with pytest.raises(NumExprClobberingError, match=regex_to_match): + df.query("max == 1") + + +class TestDataFrameQueryPythonPandas(TestDataFrameQueryNumExprPandas): + @pytest.fixture + def engine(self): + return "python" + + @pytest.fixture + def parser(self): + return "pandas" + + def test_query_builtin(self, engine, parser): + n = m = 10 + df = DataFrame( + np.random.default_rng(2).integers(m, size=(n, 3)), columns=list("abc") + ) + + df.index.name = "sin" + expected = df[df.index > 5] + result = df.query("sin > 5", engine=engine, parser=parser) + tm.assert_frame_equal(expected, result) + + +class TestDataFrameQueryPythonPython(TestDataFrameQueryNumExprPython): + @pytest.fixture + def engine(self): + return "python" + + @pytest.fixture + def parser(self): + return "python" + + def test_query_builtin(self, engine, parser): + n = m = 10 + df = DataFrame( + np.random.default_rng(2).integers(m, size=(n, 3)), columns=list("abc") + ) + + df.index.name = "sin" + expected = df[df.index > 5] + result = df.query("sin > 5", engine=engine, parser=parser) + tm.assert_frame_equal(expected, result) + + +class TestDataFrameQueryStrings: + def test_str_query_method(self, parser, engine): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 1)), columns=["b"]) + df["strings"] = Series(list("aabbccddee")) + expect = df[df.strings == "a"] + + if parser != "pandas": + col = "strings" + lst = '"a"' + + lhs = [col] * 2 + [lst] * 2 + rhs = lhs[::-1] + + eq, ne = "==", "!=" + ops = 2 * ([eq] + [ne]) + msg = r"'(Not)?In' nodes are not implemented" + + for lhs, op, rhs in zip(lhs, ops, rhs): + ex = f"{lhs} {op} {rhs}" + with pytest.raises(NotImplementedError, match=msg): + df.query( + ex, + engine=engine, + parser=parser, + local_dict={"strings": df.strings}, + ) + else: + res = df.query('"a" == strings', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + res = df.query('strings == "a"', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + tm.assert_frame_equal(res, df[df.strings.isin(["a"])]) + + expect = df[df.strings != "a"] + res = df.query('strings != "a"', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + res = df.query('"a" != strings', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + tm.assert_frame_equal(res, df[~df.strings.isin(["a"])]) + + def test_str_list_query_method(self, parser, engine): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 1)), columns=["b"]) + df["strings"] = Series(list("aabbccddee")) + expect = df[df.strings.isin(["a", "b"])] + + if parser != "pandas": + col = "strings" + lst = '["a", "b"]' + + lhs = [col] * 2 + [lst] * 2 + rhs = lhs[::-1] + + eq, ne = "==", "!=" + ops = 2 * ([eq] + [ne]) + msg = r"'(Not)?In' nodes are not implemented" + + for lhs, op, rhs in zip(lhs, ops, rhs): + ex = f"{lhs} {op} {rhs}" + with pytest.raises(NotImplementedError, match=msg): + df.query(ex, engine=engine, parser=parser) + else: + res = df.query('strings == ["a", "b"]', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + res = df.query('["a", "b"] == strings', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + expect = df[~df.strings.isin(["a", "b"])] + + res = df.query('strings != ["a", "b"]', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + res = df.query('["a", "b"] != strings', engine=engine, parser=parser) + tm.assert_frame_equal(res, expect) + + def test_query_with_string_columns(self, parser, engine): + df = DataFrame( + { + "a": list("aaaabbbbcccc"), + "b": list("aabbccddeeff"), + "c": np.random.default_rng(2).integers(5, size=12), + "d": np.random.default_rng(2).integers(9, size=12), + } + ) + if parser == "pandas": + res = df.query("a in b", parser=parser, engine=engine) + expec = df[df.a.isin(df.b)] + tm.assert_frame_equal(res, expec) + + res = df.query("a in b and c < d", parser=parser, engine=engine) + expec = df[df.a.isin(df.b) & (df.c < df.d)] + tm.assert_frame_equal(res, expec) + else: + msg = r"'(Not)?In' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + df.query("a in b", parser=parser, engine=engine) + + msg = r"'BoolOp' nodes are not implemented" + with pytest.raises(NotImplementedError, match=msg): + df.query("a in b and c < d", parser=parser, engine=engine) + + def test_object_array_eq_ne(self, parser, engine): + df = DataFrame( + { + "a": list("aaaabbbbcccc"), + "b": list("aabbccddeeff"), + "c": np.random.default_rng(2).integers(5, size=12), + "d": np.random.default_rng(2).integers(9, size=12), + } + ) + res = df.query("a == b", parser=parser, engine=engine) + exp = df[df.a == df.b] + tm.assert_frame_equal(res, exp) + + res = df.query("a != b", parser=parser, engine=engine) + exp = df[df.a != df.b] + tm.assert_frame_equal(res, exp) + + def test_query_with_nested_strings(self, parser, engine): + skip_if_no_pandas_parser(parser) + events = [ + f"page {n} {act}" for n in range(1, 4) for act in ["load", "exit"] + ] * 2 + stamps1 = date_range("2014-01-01 0:00:01", freq="30s", periods=6) + stamps2 = date_range("2014-02-01 1:00:01", freq="30s", periods=6) + df = DataFrame( + { + "id": np.arange(1, 7).repeat(2), + "event": events, + "timestamp": stamps1.append(stamps2), + } + ) + + expected = df[df.event == '"page 1 load"'] + res = df.query("""'"page 1 load"' in event""", parser=parser, engine=engine) + tm.assert_frame_equal(expected, res) + + def test_query_with_nested_special_character(self, parser, engine): + skip_if_no_pandas_parser(parser) + df = DataFrame({"a": ["a", "b", "test & test"], "b": [1, 2, 3]}) + res = df.query('a == "test & test"', parser=parser, engine=engine) + expec = df[df.a == "test & test"] + tm.assert_frame_equal(res, expec) + + @pytest.mark.parametrize( + "op, func", + [ + ["<", operator.lt], + [">", operator.gt], + ["<=", operator.le], + [">=", operator.ge], + ], + ) + def test_query_lex_compare_strings(self, parser, engine, op, func): + a = Series(np.random.default_rng(2).choice(list("abcde"), 20)) + b = Series(np.arange(a.size)) + df = DataFrame({"X": a, "Y": b}) + + res = df.query(f'X {op} "d"', engine=engine, parser=parser) + expected = df[func(df.X, "d")] + tm.assert_frame_equal(res, expected) + + def test_query_single_element_booleans(self, parser, engine): + columns = "bid", "bidsize", "ask", "asksize" + data = np.random.default_rng(2).integers(2, size=(1, len(columns))).astype(bool) + df = DataFrame(data, columns=columns) + res = df.query("bid & ask", engine=engine, parser=parser) + expected = df[df.bid & df.ask] + tm.assert_frame_equal(res, expected) + + def test_query_string_scalar_variable(self, parser, engine): + skip_if_no_pandas_parser(parser) + df = DataFrame( + { + "Symbol": ["BUD US", "BUD US", "IBM US", "IBM US"], + "Price": [109.70, 109.72, 183.30, 183.35], + } + ) + e = df[df.Symbol == "BUD US"] + symb = "BUD US" # noqa: F841 + r = df.query("Symbol == @symb", parser=parser, engine=engine) + tm.assert_frame_equal(e, r) + + @pytest.mark.parametrize( + "in_list", + [ + [None, "asdf", "ghjk"], + ["asdf", None, "ghjk"], + ["asdf", "ghjk", None], + [None, None, "asdf"], + ["asdf", None, None], + [None, None, None], + ], + ) + def test_query_string_null_elements(self, in_list): + # GITHUB ISSUE #31516 + parser = "pandas" + engine = "python" + expected = {i: value for i, value in enumerate(in_list) if value == "asdf"} + + df_expected = DataFrame({"a": expected}, dtype="string") + df_expected.index = df_expected.index.astype("int64") + df = DataFrame({"a": in_list}, dtype="string") + res1 = df.query("a == 'asdf'", parser=parser, engine=engine) + res2 = df[df["a"] == "asdf"] + res3 = df.query("a <= 'asdf'", parser=parser, engine=engine) + tm.assert_frame_equal(res1, df_expected) + tm.assert_frame_equal(res1, res2) + tm.assert_frame_equal(res1, res3) + tm.assert_frame_equal(res2, res3) + + +class TestDataFrameEvalWithFrame: + @pytest.fixture + def frame(self): + return DataFrame( + np.random.default_rng(2).standard_normal((10, 3)), columns=list("abc") + ) + + def test_simple_expr(self, frame, parser, engine): + res = frame.eval("a + b", engine=engine, parser=parser) + expect = frame.a + frame.b + tm.assert_series_equal(res, expect) + + def test_bool_arith_expr(self, frame, parser, engine): + res = frame.eval("a[a < 1] + b", engine=engine, parser=parser) + expect = frame.a[frame.a < 1] + frame.b + tm.assert_series_equal(res, expect) + + @pytest.mark.parametrize("op", ["+", "-", "*", "/"]) + def test_invalid_type_for_operator_raises(self, parser, engine, op): + df = DataFrame({"a": [1, 2], "b": ["c", "d"]}) + msg = r"unsupported operand type\(s\) for .+: '.+' and '.+'|Cannot" + + with pytest.raises(TypeError, match=msg): + df.eval(f"a {op} b", engine=engine, parser=parser) + + +class TestDataFrameQueryBacktickQuoting: + @pytest.fixture + def df(self): + """ + Yields a dataframe with strings that may or may not need escaping + by backticks. The last two columns cannot be escaped by backticks + and should raise a ValueError. + """ + yield DataFrame( + { + "A": [1, 2, 3], + "B B": [3, 2, 1], + "C C": [4, 5, 6], + "C C": [7, 4, 3], + "C_C": [8, 9, 10], + "D_D D": [11, 1, 101], + "E.E": [6, 3, 5], + "F-F": [8, 1, 10], + "1e1": [2, 4, 8], + "def": [10, 11, 2], + "A (x)": [4, 1, 3], + "B(x)": [1, 1, 5], + "B (x)": [2, 7, 4], + " &^ :!€$?(} > <++*'' ": [2, 5, 6], + "": [10, 11, 1], + " A": [4, 7, 9], + " ": [1, 2, 1], + "it's": [6, 3, 1], + "that's": [9, 1, 8], + "☺": [8, 7, 6], + "foo#bar": [2, 4, 5], + 1: [5, 7, 9], + } + ) + + def test_single_backtick_variable_query(self, df): + res = df.query("1 < `B B`") + expect = df[1 < df["B B"]] + tm.assert_frame_equal(res, expect) + + def test_two_backtick_variables_query(self, df): + res = df.query("1 < `B B` and 4 < `C C`") + expect = df[(1 < df["B B"]) & (4 < df["C C"])] + tm.assert_frame_equal(res, expect) + + def test_single_backtick_variable_expr(self, df): + res = df.eval("A + `B B`") + expect = df["A"] + df["B B"] + tm.assert_series_equal(res, expect) + + def test_two_backtick_variables_expr(self, df): + res = df.eval("`B B` + `C C`") + expect = df["B B"] + df["C C"] + tm.assert_series_equal(res, expect) + + def test_already_underscore_variable(self, df): + res = df.eval("`C_C` + A") + expect = df["C_C"] + df["A"] + tm.assert_series_equal(res, expect) + + def test_same_name_but_underscores(self, df): + res = df.eval("C_C + `C C`") + expect = df["C_C"] + df["C C"] + tm.assert_series_equal(res, expect) + + def test_mixed_underscores_and_spaces(self, df): + res = df.eval("A + `D_D D`") + expect = df["A"] + df["D_D D"] + tm.assert_series_equal(res, expect) + + def test_backtick_quote_name_with_no_spaces(self, df): + res = df.eval("A + `C_C`") + expect = df["A"] + df["C_C"] + tm.assert_series_equal(res, expect) + + def test_special_characters(self, df): + res = df.eval("`E.E` + `F-F` - A") + expect = df["E.E"] + df["F-F"] - df["A"] + tm.assert_series_equal(res, expect) + + def test_start_with_digit(self, df): + res = df.eval("A + `1e1`") + expect = df["A"] + df["1e1"] + tm.assert_series_equal(res, expect) + + def test_keyword(self, df): + res = df.eval("A + `def`") + expect = df["A"] + df["def"] + tm.assert_series_equal(res, expect) + + def test_unneeded_quoting(self, df): + res = df.query("`A` > 2") + expect = df[df["A"] > 2] + tm.assert_frame_equal(res, expect) + + def test_parenthesis(self, df): + res = df.query("`A (x)` > 2") + expect = df[df["A (x)"] > 2] + tm.assert_frame_equal(res, expect) + + def test_empty_string(self, df): + res = df.query("`` > 5") + expect = df[df[""] > 5] + tm.assert_frame_equal(res, expect) + + def test_multiple_spaces(self, df): + res = df.query("`C C` > 5") + expect = df[df["C C"] > 5] + tm.assert_frame_equal(res, expect) + + def test_start_with_spaces(self, df): + res = df.eval("` A` + ` `") + expect = df[" A"] + df[" "] + tm.assert_series_equal(res, expect) + + def test_lots_of_operators_string(self, df): + res = df.query("` &^ :!€$?(} > <++*'' ` > 4") + expect = df[df[" &^ :!€$?(} > <++*'' "] > 4] + tm.assert_frame_equal(res, expect) + + def test_missing_attribute(self, df): + message = "module 'pandas' has no attribute 'thing'" + with pytest.raises(AttributeError, match=message): + df.eval("@pd.thing") + + def test_failing_quote(self, df): + msg = r"(Could not convert ).*( to a valid Python identifier.)" + with pytest.raises(SyntaxError, match=msg): + df.query("`it's` > `that's`") + + def test_failing_character_outside_range(self, df): + msg = r"(Could not convert ).*( to a valid Python identifier.)" + with pytest.raises(SyntaxError, match=msg): + df.query("`☺` > 4") + + def test_failing_hashtag(self, df): + msg = "Failed to parse backticks" + with pytest.raises(SyntaxError, match=msg): + df.query("`foo#bar` > 4") + + def test_call_non_named_expression(self, df): + """ + Only attributes and variables ('named functions') can be called. + .__call__() is not an allowed attribute because that would allow + calling anything. + https://github.com/pandas-dev/pandas/pull/32460 + """ + + def func(*_): + return 1 + + funcs = [func] # noqa: F841 + + df.eval("@func()") + + with pytest.raises(TypeError, match="Only named functions are supported"): + df.eval("@funcs[0]()") + + with pytest.raises(TypeError, match="Only named functions are supported"): + df.eval("@funcs[0].__call__()") + + def test_ea_dtypes(self, any_numeric_ea_and_arrow_dtype): + # GH#29618 + df = DataFrame( + [[1, 2], [3, 4]], columns=["a", "b"], dtype=any_numeric_ea_and_arrow_dtype + ) + warning = RuntimeWarning if NUMEXPR_INSTALLED else None + with tm.assert_produces_warning(warning): + result = df.eval("c = b - a") + expected = DataFrame( + [[1, 2, 1], [3, 4, 1]], + columns=["a", "b", "c"], + dtype=any_numeric_ea_and_arrow_dtype, + ) + tm.assert_frame_equal(result, expected) + + def test_ea_dtypes_and_scalar(self): + # GH#29618 + df = DataFrame([[1, 2], [3, 4]], columns=["a", "b"], dtype="Float64") + warning = RuntimeWarning if NUMEXPR_INSTALLED else None + with tm.assert_produces_warning(warning): + result = df.eval("c = b - 1") + expected = DataFrame( + [[1, 2, 1], [3, 4, 3]], columns=["a", "b", "c"], dtype="Float64" + ) + tm.assert_frame_equal(result, expected) + + def test_ea_dtypes_and_scalar_operation(self, any_numeric_ea_and_arrow_dtype): + # GH#29618 + df = DataFrame( + [[1, 2], [3, 4]], columns=["a", "b"], dtype=any_numeric_ea_and_arrow_dtype + ) + result = df.eval("c = 2 - 1") + expected = DataFrame( + { + "a": Series([1, 3], dtype=any_numeric_ea_and_arrow_dtype), + "b": Series([2, 4], dtype=any_numeric_ea_and_arrow_dtype), + "c": Series([1, 1], dtype=result["c"].dtype), + } + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dtype", ["int64", "Int64", "int64[pyarrow]"]) + def test_query_ea_dtypes(self, dtype): + if dtype == "int64[pyarrow]": + pytest.importorskip("pyarrow") + # GH#50261 + df = DataFrame({"a": Series([1, 2], dtype=dtype)}) + ref = {2} # noqa: F841 + warning = RuntimeWarning if dtype == "Int64" and NUMEXPR_INSTALLED else None + with tm.assert_produces_warning(warning): + result = df.query("a in @ref") + expected = DataFrame({"a": Series([2], dtype=dtype, index=[1])}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("engine", ["python", "numexpr"]) + @pytest.mark.parametrize("dtype", ["int64", "Int64", "int64[pyarrow]"]) + def test_query_ea_equality_comparison(self, dtype, engine): + # GH#50261 + warning = RuntimeWarning if engine == "numexpr" else None + if engine == "numexpr" and not NUMEXPR_INSTALLED: + pytest.skip("numexpr not installed") + if dtype == "int64[pyarrow]": + pytest.importorskip("pyarrow") + df = DataFrame( + {"A": Series([1, 1, 2], dtype="Int64"), "B": Series([1, 2, 2], dtype=dtype)} + ) + with tm.assert_produces_warning(warning): + result = df.query("A == B", engine=engine) + expected = DataFrame( + { + "A": Series([1, 2], dtype="Int64", index=[0, 2]), + "B": Series([1, 2], dtype=dtype, index=[0, 2]), + } + ) + tm.assert_frame_equal(result, expected) + + def test_all_nat_in_object(self): + # GH#57068 + now = pd.Timestamp.now("UTC") # noqa: F841 + df = DataFrame({"a": pd.to_datetime([None, None], utc=True)}, dtype=object) + result = df.query("a > @now") + expected = DataFrame({"a": []}, dtype=object) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_reductions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_reductions.py new file mode 100644 index 0000000000000000000000000000000000000000..8b450cecfca00f0d82195d64a48a2f4e617c7660 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_reductions.py @@ -0,0 +1,2133 @@ +from datetime import timedelta +from decimal import Decimal +import re + +from dateutil.tz import tzlocal +import numpy as np +import pytest + +from pandas.compat import ( + IS64, + is_platform_windows, +) +from pandas.compat.numpy import np_version_gt2 +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + CategoricalDtype, + DataFrame, + DatetimeIndex, + Index, + PeriodIndex, + RangeIndex, + Series, + Timestamp, + date_range, + isna, + notna, + to_datetime, + to_timedelta, +) +import pandas._testing as tm +from pandas.core import ( + algorithms, + nanops, +) + +is_windows_np2_or_is32 = (is_platform_windows() and not np_version_gt2) or not IS64 +is_windows_or_is32 = is_platform_windows() or not IS64 + + +def make_skipna_wrapper(alternative, skipna_alternative=None): + """ + Create a function for calling on an array. + + Parameters + ---------- + alternative : function + The function to be called on the array with no NaNs. + Only used when 'skipna_alternative' is None. + skipna_alternative : function + The function to be called on the original array + + Returns + ------- + function + """ + if skipna_alternative: + + def skipna_wrapper(x): + return skipna_alternative(x.values) + + else: + + def skipna_wrapper(x): + nona = x.dropna() + if len(nona) == 0: + return np.nan + return alternative(nona) + + return skipna_wrapper + + +def assert_stat_op_calc( + opname, + alternative, + frame, + has_skipna=True, + check_dtype=True, + check_dates=False, + rtol=1e-5, + atol=1e-8, + skipna_alternative=None, +): + """ + Check that operator opname works as advertised on frame + + Parameters + ---------- + opname : str + Name of the operator to test on frame + alternative : function + Function that opname is tested against; i.e. "frame.opname()" should + equal "alternative(frame)". + frame : DataFrame + The object that the tests are executed on + has_skipna : bool, default True + Whether the method "opname" has the kwarg "skip_na" + check_dtype : bool, default True + Whether the dtypes of the result of "frame.opname()" and + "alternative(frame)" should be checked. + check_dates : bool, default false + Whether opname should be tested on a Datetime Series + rtol : float, default 1e-5 + Relative tolerance. + atol : float, default 1e-8 + Absolute tolerance. + skipna_alternative : function, default None + NaN-safe version of alternative + """ + f = getattr(frame, opname) + + if check_dates: + df = DataFrame({"b": date_range("1/1/2001", periods=2)}) + with tm.assert_produces_warning(None): + result = getattr(df, opname)() + assert isinstance(result, Series) + + df["a"] = range(len(df)) + with tm.assert_produces_warning(None): + result = getattr(df, opname)() + assert isinstance(result, Series) + assert len(result) + + if has_skipna: + + def wrapper(x): + return alternative(x.values) + + skipna_wrapper = make_skipna_wrapper(alternative, skipna_alternative) + result0 = f(axis=0, skipna=False) + result1 = f(axis=1, skipna=False) + tm.assert_series_equal( + result0, frame.apply(wrapper), check_dtype=check_dtype, rtol=rtol, atol=atol + ) + tm.assert_series_equal( + result1, + frame.apply(wrapper, axis=1), + rtol=rtol, + atol=atol, + ) + else: + skipna_wrapper = alternative + + result0 = f(axis=0) + result1 = f(axis=1) + tm.assert_series_equal( + result0, + frame.apply(skipna_wrapper), + check_dtype=check_dtype, + rtol=rtol, + atol=atol, + ) + + if opname in ["sum", "prod"]: + expected = frame.apply(skipna_wrapper, axis=1) + tm.assert_series_equal( + result1, expected, check_dtype=False, rtol=rtol, atol=atol + ) + + # check dtypes + if check_dtype: + lcd_dtype = frame.values.dtype + assert lcd_dtype == result0.dtype + assert lcd_dtype == result1.dtype + + # bad axis + with pytest.raises(ValueError, match="No axis named 2"): + f(axis=2) + + # all NA case + if has_skipna: + all_na = frame * np.nan + r0 = getattr(all_na, opname)(axis=0) + r1 = getattr(all_na, opname)(axis=1) + if opname in ["sum", "prod"]: + unit = 1 if opname == "prod" else 0 # result for empty sum/prod + expected = Series(unit, index=r0.index, dtype=r0.dtype) + tm.assert_series_equal(r0, expected) + expected = Series(unit, index=r1.index, dtype=r1.dtype) + tm.assert_series_equal(r1, expected) + + +@pytest.fixture +def bool_frame_with_na(): + """ + Fixture for DataFrame of booleans with index of unique strings + + Columns are ['A', 'B', 'C', 'D']; some entries are missing + """ + df = DataFrame( + np.concatenate( + [np.ones((15, 4), dtype=bool), np.zeros((15, 4), dtype=bool)], axis=0 + ), + index=Index([f"foo_{i}" for i in range(30)], dtype=object), + columns=Index(list("ABCD"), dtype=object), + dtype=object, + ) + # set some NAs + df.iloc[5:10] = np.nan + df.iloc[15:20, -2:] = np.nan + return df + + +@pytest.fixture +def float_frame_with_na(): + """ + Fixture for DataFrame of floats with index of unique strings + + Columns are ['A', 'B', 'C', 'D']; some entries are missing + """ + df = DataFrame( + np.random.default_rng(2).standard_normal((30, 4)), + index=Index([f"foo_{i}" for i in range(30)], dtype=object), + columns=Index(list("ABCD"), dtype=object), + ) + # set some NAs + df.iloc[5:10] = np.nan + df.iloc[15:20, -2:] = np.nan + return df + + +class TestDataFrameAnalytics: + # --------------------------------------------------------------------- + # Reductions + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.parametrize( + "opname", + [ + "count", + "sum", + "mean", + "product", + "median", + "min", + "max", + "nunique", + "var", + "std", + "sem", + pytest.param("skew", marks=td.skip_if_no("scipy")), + pytest.param("kurt", marks=td.skip_if_no("scipy")), + ], + ) + def test_stat_op_api_float_string_frame(self, float_string_frame, axis, opname): + if (opname in ("sum", "min", "max") and axis == 0) or opname in ( + "count", + "nunique", + ): + getattr(float_string_frame, opname)(axis=axis) + else: + if opname in ["var", "std", "sem", "skew", "kurt"]: + msg = "could not convert string to float: 'bar'" + elif opname == "product": + if axis == 1: + msg = "can't multiply sequence by non-int of type 'float'" + else: + msg = "can't multiply sequence by non-int of type 'str'" + elif opname == "sum": + msg = r"unsupported operand type\(s\) for \+: 'float' and 'str'" + elif opname == "mean": + if axis == 0: + # different message on different builds + msg = "|".join( + [ + r"Could not convert \['.*'\] to numeric", + "Could not convert string '(bar){30}' to numeric", + ] + ) + else: + msg = r"unsupported operand type\(s\) for \+: 'float' and 'str'" + elif opname in ["min", "max"]: + msg = "'[><]=' not supported between instances of 'float' and 'str'" + elif opname == "median": + msg = re.compile( + r"Cannot convert \[.*\] to numeric|does not support|Cannot perform", + flags=re.S, + ) + if not isinstance(msg, re.Pattern): + msg = msg + "|does not support|Cannot perform reduction" + with pytest.raises(TypeError, match=msg): + getattr(float_string_frame, opname)(axis=axis) + if opname != "nunique": + getattr(float_string_frame, opname)(axis=axis, numeric_only=True) + + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.parametrize( + "opname", + [ + "count", + "sum", + "mean", + "product", + "median", + "min", + "max", + "var", + "std", + "sem", + pytest.param("skew", marks=td.skip_if_no("scipy")), + pytest.param("kurt", marks=td.skip_if_no("scipy")), + ], + ) + def test_stat_op_api_float_frame(self, float_frame, axis, opname): + getattr(float_frame, opname)(axis=axis, numeric_only=False) + + def test_stat_op_calc(self, float_frame_with_na, mixed_float_frame): + def count(s): + return notna(s).sum() + + def nunique(s): + return len(algorithms.unique1d(s.dropna())) + + def var(x): + return np.var(x, ddof=1) + + def std(x): + return np.std(x, ddof=1) + + def sem(x): + return np.std(x, ddof=1) / np.sqrt(len(x)) + + assert_stat_op_calc( + "nunique", + nunique, + float_frame_with_na, + has_skipna=False, + check_dtype=False, + check_dates=True, + ) + + # GH#32571: rol needed for flaky CI builds + # mixed types (with upcasting happening) + assert_stat_op_calc( + "sum", + np.sum, + mixed_float_frame.astype("float32"), + check_dtype=False, + rtol=1e-3, + ) + + assert_stat_op_calc( + "sum", np.sum, float_frame_with_na, skipna_alternative=np.nansum + ) + assert_stat_op_calc("mean", np.mean, float_frame_with_na, check_dates=True) + assert_stat_op_calc( + "product", np.prod, float_frame_with_na, skipna_alternative=np.nanprod + ) + + assert_stat_op_calc("var", var, float_frame_with_na) + assert_stat_op_calc("std", std, float_frame_with_na) + assert_stat_op_calc("sem", sem, float_frame_with_na) + + assert_stat_op_calc( + "count", + count, + float_frame_with_na, + has_skipna=False, + check_dtype=False, + check_dates=True, + ) + + def test_stat_op_calc_skew_kurtosis(self, float_frame_with_na): + sp_stats = pytest.importorskip("scipy.stats") + + def skewness(x): + if len(x) < 3: + return np.nan + return sp_stats.skew(x, bias=False) + + def kurt(x): + if len(x) < 4: + return np.nan + return sp_stats.kurtosis(x, bias=False) + + assert_stat_op_calc("skew", skewness, float_frame_with_na) + assert_stat_op_calc("kurt", kurt, float_frame_with_na) + + def test_median(self, float_frame_with_na, int_frame): + def wrapper(x): + if isna(x).any(): + return np.nan + return np.median(x) + + assert_stat_op_calc("median", wrapper, float_frame_with_na, check_dates=True) + assert_stat_op_calc( + "median", wrapper, int_frame, check_dtype=False, check_dates=True + ) + + @pytest.mark.parametrize( + "method", ["sum", "mean", "prod", "var", "std", "skew", "min", "max"] + ) + @pytest.mark.parametrize( + "df", + [ + DataFrame( + { + "a": [ + -0.00049987540199591344, + -0.0016467257772919831, + 0.00067695870775883013, + ], + "b": [-0, -0, 0.0], + "c": [ + 0.00031111847529610595, + 0.0014902627951905339, + -0.00094099200035979691, + ], + }, + index=["foo", "bar", "baz"], + dtype="O", + ), + DataFrame({0: [np.nan, 2], 1: [np.nan, 3], 2: [np.nan, 4]}, dtype=object), + ], + ) + @pytest.mark.filterwarnings("ignore:Mismatched null-like values:FutureWarning") + def test_stat_operators_attempt_obj_array(self, method, df, axis): + # GH#676 + assert df.values.dtype == np.object_ + result = getattr(df, method)(axis=axis) + expected = getattr(df.astype("f8"), method)(axis=axis).astype(object) + if axis in [1, "columns"] and method in ["min", "max"]: + expected[expected.isna()] = None + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("op", ["mean", "std", "var", "skew", "kurt", "sem"]) + def test_mixed_ops(self, op): + # GH#16116 + df = DataFrame( + { + "int": [1, 2, 3, 4], + "float": [1.0, 2.0, 3.0, 4.0], + "str": ["a", "b", "c", "d"], + } + ) + msg = "|".join( + [ + "Could not convert", + "could not convert", + "can't multiply sequence by non-int", + "does not support", + "Cannot perform", + ] + ) + with pytest.raises(TypeError, match=msg): + getattr(df, op)() + + with pd.option_context("use_bottleneck", False): + with pytest.raises(TypeError, match=msg): + getattr(df, op)() + + def test_reduce_mixed_frame(self): + # GH 6806 + df = DataFrame( + { + "bool_data": [True, True, False, False, False], + "int_data": [10, 20, 30, 40, 50], + "string_data": ["a", "b", "c", "d", "e"], + } + ) + df.reindex(columns=["bool_data", "int_data", "string_data"]) + test = df.sum(axis=0) + tm.assert_numpy_array_equal( + test.values, np.array([2, 150, "abcde"], dtype=object) + ) + alt = df.T.sum(axis=1) + tm.assert_series_equal(test, alt) + + def test_nunique(self): + df = DataFrame({"A": [1, 1, 1], "B": [1, 2, 3], "C": [1, np.nan, 3]}) + tm.assert_series_equal(df.nunique(), Series({"A": 1, "B": 3, "C": 2})) + tm.assert_series_equal( + df.nunique(dropna=False), Series({"A": 1, "B": 3, "C": 3}) + ) + tm.assert_series_equal(df.nunique(axis=1), Series({0: 1, 1: 2, 2: 2})) + tm.assert_series_equal( + df.nunique(axis=1, dropna=False), Series({0: 1, 1: 3, 2: 2}) + ) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_mean_mixed_datetime_numeric(self, tz): + # https://github.com/pandas-dev/pandas/issues/24752 + df = DataFrame({"A": [1, 1], "B": [Timestamp("2000", tz=tz)] * 2}) + result = df.mean() + expected = Series([1.0, Timestamp("2000", tz=tz)], index=["A", "B"]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_mean_includes_datetimes(self, tz): + # https://github.com/pandas-dev/pandas/issues/24752 + # Behavior in 0.24.0rc1 was buggy. + # As of 2.0 with numeric_only=None we do *not* drop datetime columns + df = DataFrame({"A": [Timestamp("2000", tz=tz)] * 2}) + result = df.mean() + + expected = Series([Timestamp("2000", tz=tz)], index=["A"]) + tm.assert_series_equal(result, expected) + + def test_mean_mixed_string_decimal(self): + # GH 11670 + # possible bug when calculating mean of DataFrame? + + d = [ + {"A": 2, "B": None, "C": Decimal("628.00")}, + {"A": 1, "B": None, "C": Decimal("383.00")}, + {"A": 3, "B": None, "C": Decimal("651.00")}, + {"A": 2, "B": None, "C": Decimal("575.00")}, + {"A": 4, "B": None, "C": Decimal("1114.00")}, + {"A": 1, "B": "TEST", "C": Decimal("241.00")}, + {"A": 2, "B": None, "C": Decimal("572.00")}, + {"A": 4, "B": None, "C": Decimal("609.00")}, + {"A": 3, "B": None, "C": Decimal("820.00")}, + {"A": 5, "B": None, "C": Decimal("1223.00")}, + ] + + df = DataFrame(d) + + with pytest.raises( + TypeError, match="unsupported operand type|does not support|Cannot perform" + ): + df.mean() + result = df[["A", "C"]].mean() + expected = Series([2.7, 681.6], index=["A", "C"], dtype=object) + tm.assert_series_equal(result, expected) + + def test_var_std(self, datetime_frame): + result = datetime_frame.std(ddof=4) + expected = datetime_frame.apply(lambda x: x.std(ddof=4)) + tm.assert_almost_equal(result, expected) + + result = datetime_frame.var(ddof=4) + expected = datetime_frame.apply(lambda x: x.var(ddof=4)) + tm.assert_almost_equal(result, expected) + + arr = np.repeat(np.random.default_rng(2).random((1, 1000)), 1000, 0) + result = nanops.nanvar(arr, axis=0) + assert not (result < 0).any() + + with pd.option_context("use_bottleneck", False): + result = nanops.nanvar(arr, axis=0) + assert not (result < 0).any() + + @pytest.mark.parametrize("meth", ["sem", "var", "std"]) + def test_numeric_only_flag(self, meth): + # GH 9201 + df1 = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + columns=["foo", "bar", "baz"], + ) + # Cast to object to avoid implicit cast when setting entry to "100" below + df1 = df1.astype({"foo": object}) + # set one entry to a number in str format + df1.loc[0, "foo"] = "100" + + df2 = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + columns=["foo", "bar", "baz"], + ) + # Cast to object to avoid implicit cast when setting entry to "a" below + df2 = df2.astype({"foo": object}) + # set one entry to a non-number str + df2.loc[0, "foo"] = "a" + + result = getattr(df1, meth)(axis=1, numeric_only=True) + expected = getattr(df1[["bar", "baz"]], meth)(axis=1) + tm.assert_series_equal(expected, result) + + result = getattr(df2, meth)(axis=1, numeric_only=True) + expected = getattr(df2[["bar", "baz"]], meth)(axis=1) + tm.assert_series_equal(expected, result) + + # df1 has all numbers, df2 has a letter inside + msg = r"unsupported operand type\(s\) for -: 'float' and 'str'" + with pytest.raises(TypeError, match=msg): + getattr(df1, meth)(axis=1, numeric_only=False) + msg = "could not convert string to float: 'a'" + with pytest.raises(TypeError, match=msg): + getattr(df2, meth)(axis=1, numeric_only=False) + + def test_sem(self, datetime_frame): + result = datetime_frame.sem(ddof=4) + expected = datetime_frame.apply(lambda x: x.std(ddof=4) / np.sqrt(len(x))) + tm.assert_almost_equal(result, expected) + + arr = np.repeat(np.random.default_rng(2).random((1, 1000)), 1000, 0) + result = nanops.nansem(arr, axis=0) + assert not (result < 0).any() + + with pd.option_context("use_bottleneck", False): + result = nanops.nansem(arr, axis=0) + assert not (result < 0).any() + + @pytest.mark.parametrize( + "dropna, expected", + [ + ( + True, + { + "A": [12], + "B": [10.0], + "C": [1.0], + "D": ["a"], + "E": Categorical(["a"], categories=["a"]), + "F": DatetimeIndex(["2000-01-02"], dtype="M8[ns]"), + "G": to_timedelta(["1 days"]), + }, + ), + ( + False, + { + "A": [12], + "B": [10.0], + "C": [np.nan], + "D": Series([np.nan], dtype="str"), + "E": Categorical([np.nan], categories=["a"]), + "F": DatetimeIndex([pd.NaT], dtype="M8[ns]"), + "G": to_timedelta([pd.NaT]), + }, + ), + ( + True, + { + "H": [8, 9, np.nan, np.nan], + "I": [8, 9, np.nan, np.nan], + "J": [1, np.nan, np.nan, np.nan], + "K": Categorical(["a", np.nan, np.nan, np.nan], categories=["a"]), + "L": DatetimeIndex( + ["2000-01-02", "NaT", "NaT", "NaT"], dtype="M8[ns]" + ), + "M": to_timedelta(["1 days", "nan", "nan", "nan"]), + "N": [0, 1, 2, 3], + }, + ), + ( + False, + { + "H": [8, 9, np.nan, np.nan], + "I": [8, 9, np.nan, np.nan], + "J": [1, np.nan, np.nan, np.nan], + "K": Categorical([np.nan, "a", np.nan, np.nan], categories=["a"]), + "L": DatetimeIndex( + ["NaT", "2000-01-02", "NaT", "NaT"], dtype="M8[ns]" + ), + "M": to_timedelta(["nan", "1 days", "nan", "nan"]), + "N": [0, 1, 2, 3], + }, + ), + ], + ) + def test_mode_dropna(self, dropna, expected): + df = DataFrame( + { + "A": [12, 12, 19, 11], + "B": [10, 10, np.nan, 3], + "C": [1, np.nan, np.nan, np.nan], + "D": Series([np.nan, np.nan, "a", np.nan], dtype="str"), + "E": Categorical([np.nan, np.nan, "a", np.nan]), + "F": DatetimeIndex(["NaT", "2000-01-02", "NaT", "NaT"], dtype="M8[ns]"), + "G": to_timedelta(["1 days", "nan", "nan", "nan"]), + "H": [8, 8, 9, 9], + "I": [9, 9, 8, 8], + "J": [1, 1, np.nan, np.nan], + "K": Categorical(["a", np.nan, "a", np.nan]), + "L": DatetimeIndex( + ["2000-01-02", "2000-01-02", "NaT", "NaT"], dtype="M8[ns]" + ), + "M": to_timedelta(["1 days", "nan", "1 days", "nan"]), + "N": np.arange(4, dtype="int64"), + } + ) + + result = df[sorted(expected.keys())].mode(dropna=dropna) + expected = DataFrame(expected) + tm.assert_frame_equal(result, expected) + + def test_mode_sort_with_na(self, using_infer_string): + df = DataFrame({"A": [np.nan, np.nan, "a", "a"]}) + expected = DataFrame({"A": ["a", np.nan]}) + result = df.mode(dropna=False) + tm.assert_frame_equal(result, expected) + + def test_mode_empty_df(self): + df = DataFrame([], columns=["a", "b"]) + result = df.mode() + expected = DataFrame([], columns=["a", "b"], index=Index([], dtype=np.int64)) + tm.assert_frame_equal(result, expected) + + def test_operators_timedelta64(self): + df = DataFrame( + { + "A": date_range("2012-1-1", periods=3, freq="D"), + "B": date_range("2012-1-2", periods=3, freq="D"), + "C": Timestamp("20120101") - timedelta(minutes=5, seconds=5), + } + ) + + diffs = DataFrame({"A": df["A"] - df["C"], "B": df["A"] - df["B"]}) + + # min + result = diffs.min() + assert result.iloc[0] == diffs.loc[0, "A"] + assert result.iloc[1] == diffs.loc[0, "B"] + + result = diffs.min(axis=1) + assert (result == diffs.loc[0, "B"]).all() + + # max + result = diffs.max() + assert result.iloc[0] == diffs.loc[2, "A"] + assert result.iloc[1] == diffs.loc[2, "B"] + + result = diffs.max(axis=1) + assert (result == diffs["A"]).all() + + # abs + result = diffs.abs() + result2 = abs(diffs) + expected = DataFrame({"A": df["A"] - df["C"], "B": df["B"] - df["A"]}) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + # mixed frame + mixed = diffs.copy() + mixed["C"] = "foo" + mixed["D"] = 1 + mixed["E"] = 1.0 + mixed["F"] = Timestamp("20130101") + + # results in an object array + result = mixed.min() + expected = Series( + [ + pd.Timedelta(timedelta(seconds=5 * 60 + 5)), + pd.Timedelta(timedelta(days=-1)), + "foo", + 1, + 1.0, + Timestamp("20130101"), + ], + index=mixed.columns, + ) + tm.assert_series_equal(result, expected) + + # excludes non-numeric + result = mixed.min(axis=1, numeric_only=True) + expected = Series([1, 1, 1.0], index=[0, 1, 2]) + tm.assert_series_equal(result, expected) + + # works when only those columns are selected + result = mixed[["A", "B"]].min(1) + expected = Series([timedelta(days=-1)] * 3) + tm.assert_series_equal(result, expected) + + result = mixed[["A", "B"]].min() + expected = Series( + [timedelta(seconds=5 * 60 + 5), timedelta(days=-1)], index=["A", "B"] + ) + tm.assert_series_equal(result, expected) + + # GH 3106 + df = DataFrame( + { + "time": date_range("20130102", periods=5), + "time2": date_range("20130105", periods=5), + } + ) + df["off1"] = df["time2"] - df["time"] + assert df["off1"].dtype == "timedelta64[ns]" + + df["off2"] = df["time"] - df["time2"] + df._consolidate_inplace() + assert df["off1"].dtype == "timedelta64[ns]" + assert df["off2"].dtype == "timedelta64[ns]" + + def test_std_timedelta64_skipna_false(self): + # GH#37392 + tdi = pd.timedelta_range("1 Day", periods=10) + df = DataFrame({"A": tdi, "B": tdi}, copy=True) + df.iloc[-2, -1] = pd.NaT + + result = df.std(skipna=False) + expected = Series( + [df["A"].std(), pd.NaT], index=["A", "B"], dtype="timedelta64[ns]" + ) + tm.assert_series_equal(result, expected) + + result = df.std(axis=1, skipna=False) + expected = Series([pd.Timedelta(0)] * 8 + [pd.NaT, pd.Timedelta(0)]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "values", [["2022-01-01", "2022-01-02", pd.NaT, "2022-01-03"], 4 * [pd.NaT]] + ) + def test_std_datetime64_with_nat( + self, values, skipna, using_array_manager, request, unit + ): + # GH#51335 + if using_array_manager and ( + not skipna or all(value is pd.NaT for value in values) + ): + mark = pytest.mark.xfail( + reason="GH#51446: Incorrect type inference on NaT in reduction result" + ) + request.applymarker(mark) + dti = to_datetime(values).as_unit(unit) + df = DataFrame({"a": dti}) + result = df.std(skipna=skipna) + if not skipna or all(value is pd.NaT for value in values): + expected = Series({"a": pd.NaT}, dtype=f"timedelta64[{unit}]") + else: + # 86400000000000ns == 1 day + expected = Series({"a": 86400000000000}, dtype=f"timedelta64[{unit}]") + tm.assert_series_equal(result, expected) + + def test_sum_corner(self): + empty_frame = DataFrame() + + axis0 = empty_frame.sum(0) + axis1 = empty_frame.sum(1) + assert isinstance(axis0, Series) + assert isinstance(axis1, Series) + assert len(axis0) == 0 + assert len(axis1) == 0 + + @pytest.mark.parametrize( + "index", + [ + RangeIndex(0), + DatetimeIndex([]), + Index([], dtype=np.int64), + Index([], dtype=np.float64), + DatetimeIndex([], freq="ME"), + PeriodIndex([], freq="D"), + ], + ) + def test_axis_1_empty(self, all_reductions, index): + df = DataFrame(columns=["a"], index=index) + result = getattr(df, all_reductions)(axis=1) + if all_reductions in ("any", "all"): + expected_dtype = "bool" + elif all_reductions == "count": + expected_dtype = "int64" + else: + expected_dtype = "object" + expected = Series([], index=index, dtype=expected_dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("min_count", [0, 1]) + def test_axis_1_sum_na(self, string_dtype_no_object, skipna, min_count): + # https://github.com/pandas-dev/pandas/issues/60229 + dtype = string_dtype_no_object + df = DataFrame({"a": [pd.NA]}, dtype=dtype) + result = df.sum(axis=1, skipna=skipna, min_count=min_count) + value = "" if skipna and min_count == 0 else pd.NA + expected = Series([value], dtype=dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("method, unit", [("sum", 0), ("prod", 1)]) + @pytest.mark.parametrize("numeric_only", [None, True, False]) + def test_sum_prod_nanops(self, method, unit, numeric_only): + idx = ["a", "b", "c"] + df = DataFrame({"a": [unit, unit], "b": [unit, np.nan], "c": [np.nan, np.nan]}) + # The default + result = getattr(df, method)(numeric_only=numeric_only) + expected = Series([unit, unit, unit], index=idx, dtype="float64") + tm.assert_series_equal(result, expected) + + # min_count=1 + result = getattr(df, method)(numeric_only=numeric_only, min_count=1) + expected = Series([unit, unit, np.nan], index=idx) + tm.assert_series_equal(result, expected) + + # min_count=0 + result = getattr(df, method)(numeric_only=numeric_only, min_count=0) + expected = Series([unit, unit, unit], index=idx, dtype="float64") + tm.assert_series_equal(result, expected) + + result = getattr(df.iloc[1:], method)(numeric_only=numeric_only, min_count=1) + expected = Series([unit, np.nan, np.nan], index=idx) + tm.assert_series_equal(result, expected) + + # min_count > 1 + df = DataFrame({"A": [unit] * 10, "B": [unit] * 5 + [np.nan] * 5}) + result = getattr(df, method)(numeric_only=numeric_only, min_count=5) + expected = Series(result, index=["A", "B"]) + tm.assert_series_equal(result, expected) + + result = getattr(df, method)(numeric_only=numeric_only, min_count=6) + expected = Series(result, index=["A", "B"]) + tm.assert_series_equal(result, expected) + + def test_sum_nanops_timedelta(self): + # prod isn't defined on timedeltas + idx = ["a", "b", "c"] + df = DataFrame({"a": [0, 0], "b": [0, np.nan], "c": [np.nan, np.nan]}) + + df2 = df.apply(to_timedelta) + + # 0 by default + result = df2.sum() + expected = Series([0, 0, 0], dtype="m8[ns]", index=idx) + tm.assert_series_equal(result, expected) + + # min_count=0 + result = df2.sum(min_count=0) + tm.assert_series_equal(result, expected) + + # min_count=1 + result = df2.sum(min_count=1) + expected = Series([0, 0, np.nan], dtype="m8[ns]", index=idx) + tm.assert_series_equal(result, expected) + + def test_sum_nanops_min_count(self): + # https://github.com/pandas-dev/pandas/issues/39738 + df = DataFrame({"x": [1, 2, 3], "y": [4, 5, 6]}) + result = df.sum(min_count=10) + expected = Series([np.nan, np.nan], index=["x", "y"]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("float_type", ["float16", "float32", "float64"]) + @pytest.mark.parametrize( + "kwargs, expected_result", + [ + ({"axis": 1, "min_count": 2}, [3.2, 5.3, np.nan]), + ({"axis": 1, "min_count": 3}, [np.nan, np.nan, np.nan]), + ({"axis": 1, "skipna": False}, [3.2, 5.3, np.nan]), + ], + ) + def test_sum_nanops_dtype_min_count(self, float_type, kwargs, expected_result): + # GH#46947 + df = DataFrame({"a": [1.0, 2.3, 4.4], "b": [2.2, 3, np.nan]}, dtype=float_type) + result = df.sum(**kwargs) + expected = Series(expected_result).astype(float_type) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("float_type", ["float16", "float32", "float64"]) + @pytest.mark.parametrize( + "kwargs, expected_result", + [ + ({"axis": 1, "min_count": 2}, [2.0, 4.0, np.nan]), + ({"axis": 1, "min_count": 3}, [np.nan, np.nan, np.nan]), + ({"axis": 1, "skipna": False}, [2.0, 4.0, np.nan]), + ], + ) + def test_prod_nanops_dtype_min_count(self, float_type, kwargs, expected_result): + # GH#46947 + df = DataFrame( + {"a": [1.0, 2.0, 4.4], "b": [2.0, 2.0, np.nan]}, dtype=float_type + ) + result = df.prod(**kwargs) + expected = Series(expected_result).astype(float_type) + tm.assert_series_equal(result, expected) + + def test_sum_object(self, float_frame): + values = float_frame.values.astype(int) + frame = DataFrame(values, index=float_frame.index, columns=float_frame.columns) + deltas = frame * timedelta(1) + deltas.sum() + + def test_sum_bool(self, float_frame): + # ensure this works, bug report + bools = np.isnan(float_frame) + bools.sum(1) + bools.sum(0) + + def test_sum_mixed_datetime(self): + # GH#30886 + df = DataFrame({"A": date_range("2000", periods=4), "B": [1, 2, 3, 4]}).reindex( + [2, 3, 4] + ) + with pytest.raises(TypeError, match="does not support reduction 'sum'"): + df.sum() + + def test_mean_corner(self, float_frame, float_string_frame): + # unit test when have object data + msg = "Could not convert|does not support|Cannot perform" + with pytest.raises(TypeError, match=msg): + float_string_frame.mean(axis=0) + + # xs sum mixed type, just want to know it works... + with pytest.raises(TypeError, match="unsupported operand type"): + float_string_frame.mean(axis=1) + + # take mean of boolean column + float_frame["bool"] = float_frame["A"] > 0 + means = float_frame.mean(0) + assert means["bool"] == float_frame["bool"].values.mean() + + def test_mean_datetimelike(self): + # GH#24757 check that datetimelike are excluded by default, handled + # correctly with numeric_only=True + # As of 2.0, datetimelike are *not* excluded with numeric_only=None + + df = DataFrame( + { + "A": np.arange(3), + "B": date_range("2016-01-01", periods=3), + "C": pd.timedelta_range("1D", periods=3), + "D": pd.period_range("2016", periods=3, freq="Y"), + } + ) + result = df.mean(numeric_only=True) + expected = Series({"A": 1.0}) + tm.assert_series_equal(result, expected) + + with pytest.raises(TypeError, match="mean is not implemented for PeriodArray"): + df.mean() + + def test_mean_datetimelike_numeric_only_false(self): + df = DataFrame( + { + "A": np.arange(3), + "B": date_range("2016-01-01", periods=3), + "C": pd.timedelta_range("1D", periods=3), + } + ) + + # datetime(tz) and timedelta work + result = df.mean(numeric_only=False) + expected = Series({"A": 1, "B": df.loc[1, "B"], "C": df.loc[1, "C"]}) + tm.assert_series_equal(result, expected) + + # mean of period is not allowed + df["D"] = pd.period_range("2016", periods=3, freq="Y") + + with pytest.raises(TypeError, match="mean is not implemented for Period"): + df.mean(numeric_only=False) + + def test_mean_extensionarray_numeric_only_true(self): + # https://github.com/pandas-dev/pandas/issues/33256 + arr = np.random.default_rng(2).integers(1000, size=(10, 5)) + df = DataFrame(arr, dtype="Int64") + result = df.mean(numeric_only=True) + expected = DataFrame(arr).mean().astype("Float64") + tm.assert_series_equal(result, expected) + + def test_stats_mixed_type(self, float_string_frame): + with pytest.raises(TypeError, match="could not convert"): + float_string_frame.std(1) + with pytest.raises(TypeError, match="could not convert"): + float_string_frame.var(1) + with pytest.raises(TypeError, match="unsupported operand type"): + float_string_frame.mean(1) + with pytest.raises(TypeError, match="could not convert"): + float_string_frame.skew(1) + + def test_sum_bools(self): + df = DataFrame(index=range(1), columns=range(10)) + bools = isna(df) + assert bools.sum(axis=1)[0] == 10 + + # ---------------------------------------------------------------------- + # Index of max / min + + @pytest.mark.parametrize("skipna", [True, False]) + @pytest.mark.parametrize("axis", [0, 1]) + def test_idxmin(self, float_frame, int_frame, skipna, axis): + frame = float_frame + frame.iloc[5:10] = np.nan + frame.iloc[15:20, -2:] = np.nan + for df in [frame, int_frame]: + warn = None + if skipna is False or axis == 1: + warn = None if df is int_frame else FutureWarning + msg = "The behavior of DataFrame.idxmin with all-NA values" + with tm.assert_produces_warning(warn, match=msg): + result = df.idxmin(axis=axis, skipna=skipna) + + msg2 = "The behavior of Series.idxmin" + with tm.assert_produces_warning(warn, match=msg2): + expected = df.apply(Series.idxmin, axis=axis, skipna=skipna) + expected = expected.astype(df.index.dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") + def test_idxmin_empty(self, index, skipna, axis): + # GH53265 + if axis == 0: + frame = DataFrame(index=index) + else: + frame = DataFrame(columns=index) + + result = frame.idxmin(axis=axis, skipna=skipna) + expected = Series(dtype=index.dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("numeric_only", [True, False]) + def test_idxmin_numeric_only(self, numeric_only): + df = DataFrame({"a": [2, 3, 1], "b": [2, 1, 1], "c": list("xyx")}) + result = df.idxmin(numeric_only=numeric_only) + if numeric_only: + expected = Series([2, 1], index=["a", "b"]) + else: + expected = Series([2, 1, 0], index=["a", "b", "c"]) + tm.assert_series_equal(result, expected) + + def test_idxmin_axis_2(self, float_frame): + frame = float_frame + msg = "No axis named 2 for object type DataFrame" + with pytest.raises(ValueError, match=msg): + frame.idxmin(axis=2) + + @pytest.mark.parametrize("axis", [0, 1]) + def test_idxmax(self, float_frame, int_frame, skipna, axis): + frame = float_frame + frame.iloc[5:10] = np.nan + frame.iloc[15:20, -2:] = np.nan + for df in [frame, int_frame]: + warn = None + if skipna is False or axis == 1: + warn = None if df is int_frame else FutureWarning + msg = "The behavior of DataFrame.idxmax with all-NA values" + with tm.assert_produces_warning(warn, match=msg): + result = df.idxmax(axis=axis, skipna=skipna) + + msg2 = "The behavior of Series.idxmax" + with tm.assert_produces_warning(warn, match=msg2): + expected = df.apply(Series.idxmax, axis=axis, skipna=skipna) + expected = expected.astype(df.index.dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") + def test_idxmax_empty(self, index, skipna, axis): + # GH53265 + if axis == 0: + frame = DataFrame(index=index) + else: + frame = DataFrame(columns=index) + + result = frame.idxmax(axis=axis, skipna=skipna) + expected = Series(dtype=index.dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("numeric_only", [True, False]) + def test_idxmax_numeric_only(self, numeric_only): + df = DataFrame({"a": [2, 3, 1], "b": [2, 1, 1], "c": list("xyx")}) + result = df.idxmax(numeric_only=numeric_only) + if numeric_only: + expected = Series([1, 0], index=["a", "b"]) + else: + expected = Series([1, 0, 1], index=["a", "b", "c"]) + tm.assert_series_equal(result, expected) + + def test_idxmax_arrow_types(self): + # GH#55368 + pytest.importorskip("pyarrow") + + df = DataFrame({"a": [2, 3, 1], "b": [2, 1, 1]}, dtype="int64[pyarrow]") + result = df.idxmax() + expected = Series([1, 0], index=["a", "b"]) + tm.assert_series_equal(result, expected) + + result = df.idxmin() + expected = Series([2, 1], index=["a", "b"]) + tm.assert_series_equal(result, expected) + + df = DataFrame({"a": ["b", "c", "a"]}, dtype="string[pyarrow]") + result = df.idxmax(numeric_only=False) + expected = Series([1], index=["a"]) + tm.assert_series_equal(result, expected) + + result = df.idxmin(numeric_only=False) + expected = Series([2], index=["a"]) + tm.assert_series_equal(result, expected) + + def test_idxmax_axis_2(self, float_frame): + frame = float_frame + msg = "No axis named 2 for object type DataFrame" + with pytest.raises(ValueError, match=msg): + frame.idxmax(axis=2) + + def test_idxmax_mixed_dtype(self): + # don't cast to object, which would raise in nanops + dti = date_range("2016-01-01", periods=3) + + # Copying dti is needed for ArrayManager otherwise when we set + # df.loc[0, 3] = pd.NaT below it edits dti + df = DataFrame({1: [0, 2, 1], 2: range(3)[::-1], 3: dti.copy(deep=True)}) + + result = df.idxmax() + expected = Series([1, 0, 2], index=[1, 2, 3]) + tm.assert_series_equal(result, expected) + + result = df.idxmin() + expected = Series([0, 2, 0], index=[1, 2, 3]) + tm.assert_series_equal(result, expected) + + # with NaTs + df.loc[0, 3] = pd.NaT + result = df.idxmax() + expected = Series([1, 0, 2], index=[1, 2, 3]) + tm.assert_series_equal(result, expected) + + result = df.idxmin() + expected = Series([0, 2, 1], index=[1, 2, 3]) + tm.assert_series_equal(result, expected) + + # with multi-column dt64 block + df[4] = dti[::-1] + df._consolidate_inplace() + + result = df.idxmax() + expected = Series([1, 0, 2, 0], index=[1, 2, 3, 4]) + tm.assert_series_equal(result, expected) + + result = df.idxmin() + expected = Series([0, 2, 1, 2], index=[1, 2, 3, 4]) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "op, expected_value", + [("idxmax", [0, 4]), ("idxmin", [0, 5])], + ) + def test_idxmax_idxmin_convert_dtypes(self, op, expected_value): + # GH 40346 + df = DataFrame( + { + "ID": [100, 100, 100, 200, 200, 200], + "value": [0, 0, 0, 1, 2, 0], + }, + dtype="Int64", + ) + df = df.groupby("ID") + + result = getattr(df, op)() + expected = DataFrame( + {"value": expected_value}, + index=Index([100, 200], name="ID", dtype="Int64"), + ) + tm.assert_frame_equal(result, expected) + + def test_idxmax_dt64_multicolumn_axis1(self): + dti = date_range("2016-01-01", periods=3) + df = DataFrame({3: dti, 4: dti[::-1]}, copy=True) + df.iloc[0, 0] = pd.NaT + + df._consolidate_inplace() + + result = df.idxmax(axis=1) + expected = Series([4, 3, 3]) + tm.assert_series_equal(result, expected) + + result = df.idxmin(axis=1) + expected = Series([4, 3, 4]) + tm.assert_series_equal(result, expected) + + # ---------------------------------------------------------------------- + # Logical reductions + + @pytest.mark.parametrize("opname", ["any", "all"]) + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.parametrize("bool_only", [False, True]) + def test_any_all_mixed_float(self, opname, axis, bool_only, float_string_frame): + # make sure op works on mixed-type frame + mixed = float_string_frame + mixed["_bool_"] = np.random.default_rng(2).standard_normal(len(mixed)) > 0.5 + + getattr(mixed, opname)(axis=axis, bool_only=bool_only) + + @pytest.mark.parametrize("opname", ["any", "all"]) + @pytest.mark.parametrize("axis", [0, 1]) + def test_any_all_bool_with_na(self, opname, axis, bool_frame_with_na): + getattr(bool_frame_with_na, opname)(axis=axis, bool_only=False) + + @pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") + @pytest.mark.parametrize("opname", ["any", "all"]) + def test_any_all_bool_frame(self, opname, bool_frame_with_na): + # GH#12863: numpy gives back non-boolean data for object type + # so fill NaNs to compare with pandas behavior + frame = bool_frame_with_na.fillna(True) + alternative = getattr(np, opname) + f = getattr(frame, opname) + + def skipna_wrapper(x): + nona = x.dropna().values + return alternative(nona) + + def wrapper(x): + return alternative(x.values) + + result0 = f(axis=0, skipna=False) + result1 = f(axis=1, skipna=False) + + tm.assert_series_equal(result0, frame.apply(wrapper)) + tm.assert_series_equal(result1, frame.apply(wrapper, axis=1)) + + result0 = f(axis=0) + result1 = f(axis=1) + + tm.assert_series_equal(result0, frame.apply(skipna_wrapper)) + tm.assert_series_equal( + result1, frame.apply(skipna_wrapper, axis=1), check_dtype=False + ) + + # bad axis + with pytest.raises(ValueError, match="No axis named 2"): + f(axis=2) + + # all NA case + all_na = frame * np.nan + r0 = getattr(all_na, opname)(axis=0) + r1 = getattr(all_na, opname)(axis=1) + if opname == "any": + assert not r0.any() + assert not r1.any() + else: + assert r0.all() + assert r1.all() + + def test_any_all_extra(self): + df = DataFrame( + { + "A": [True, False, False], + "B": [True, True, False], + "C": [True, True, True], + }, + index=["a", "b", "c"], + ) + result = df[["A", "B"]].any(axis=1) + expected = Series([True, True, False], index=["a", "b", "c"]) + tm.assert_series_equal(result, expected) + + result = df[["A", "B"]].any(axis=1, bool_only=True) + tm.assert_series_equal(result, expected) + + result = df.all(1) + expected = Series([True, False, False], index=["a", "b", "c"]) + tm.assert_series_equal(result, expected) + + result = df.all(1, bool_only=True) + tm.assert_series_equal(result, expected) + + # Axis is None + result = df.all(axis=None).item() + assert result is False + + result = df.any(axis=None).item() + assert result is True + + result = df[["C"]].all(axis=None).item() + assert result is True + + @pytest.mark.parametrize("axis", [0, 1]) + @pytest.mark.parametrize("bool_agg_func", ["any", "all"]) + @pytest.mark.parametrize("skipna", [True, False]) + def test_any_all_object_dtype(self, axis, bool_agg_func, skipna): + # GH#35450 + df = DataFrame( + data=[ + [1, np.nan, np.nan, True], + [np.nan, 2, np.nan, True], + [np.nan, np.nan, np.nan, True], + [np.nan, np.nan, "5", np.nan], + ] + ) + result = getattr(df, bool_agg_func)(axis=axis, skipna=skipna) + expected = Series([True, True, True, True]) + tm.assert_series_equal(result, expected) + + # GH#50947 deprecates this but it is not emitting a warning in some builds. + @pytest.mark.filterwarnings( + "ignore:'any' with datetime64 dtypes is deprecated.*:FutureWarning" + ) + def test_any_datetime(self): + # GH 23070 + float_data = [1, np.nan, 3, np.nan] + datetime_data = [ + Timestamp("1960-02-15"), + Timestamp("1960-02-16"), + pd.NaT, + pd.NaT, + ] + df = DataFrame({"A": float_data, "B": datetime_data}) + + result = df.any(axis=1) + + expected = Series([True, True, True, False]) + tm.assert_series_equal(result, expected) + + def test_any_all_bool_only(self): + # GH 25101 + df = DataFrame( + {"col1": [1, 2, 3], "col2": [4, 5, 6], "col3": [None, None, None]}, + columns=Index(["col1", "col2", "col3"], dtype=object), + ) + + result = df.all(bool_only=True) + expected = Series(dtype=np.bool_, index=[]) + tm.assert_series_equal(result, expected) + + df = DataFrame( + { + "col1": [1, 2, 3], + "col2": [4, 5, 6], + "col3": [None, None, None], + "col4": [False, False, True], + } + ) + + result = df.all(bool_only=True) + expected = Series({"col4": False}) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "func, data, expected", + [ + (np.any, {}, False), + (np.all, {}, True), + (np.any, {"A": []}, False), + (np.all, {"A": []}, True), + (np.any, {"A": [False, False]}, False), + (np.all, {"A": [False, False]}, False), + (np.any, {"A": [True, False]}, True), + (np.all, {"A": [True, False]}, False), + (np.any, {"A": [True, True]}, True), + (np.all, {"A": [True, True]}, True), + (np.any, {"A": [False], "B": [False]}, False), + (np.all, {"A": [False], "B": [False]}, False), + (np.any, {"A": [False, False], "B": [False, True]}, True), + (np.all, {"A": [False, False], "B": [False, True]}, False), + # other types + (np.all, {"A": Series([0.0, 1.0], dtype="float")}, False), + (np.any, {"A": Series([0.0, 1.0], dtype="float")}, True), + (np.all, {"A": Series([0, 1], dtype=int)}, False), + (np.any, {"A": Series([0, 1], dtype=int)}, True), + pytest.param(np.all, {"A": Series([0, 1], dtype="M8[ns]")}, False), + pytest.param(np.all, {"A": Series([0, 1], dtype="M8[ns, UTC]")}, False), + pytest.param(np.any, {"A": Series([0, 1], dtype="M8[ns]")}, True), + pytest.param(np.any, {"A": Series([0, 1], dtype="M8[ns, UTC]")}, True), + pytest.param(np.all, {"A": Series([1, 2], dtype="M8[ns]")}, True), + pytest.param(np.all, {"A": Series([1, 2], dtype="M8[ns, UTC]")}, True), + pytest.param(np.any, {"A": Series([1, 2], dtype="M8[ns]")}, True), + pytest.param(np.any, {"A": Series([1, 2], dtype="M8[ns, UTC]")}, True), + pytest.param(np.all, {"A": Series([0, 1], dtype="m8[ns]")}, False), + pytest.param(np.any, {"A": Series([0, 1], dtype="m8[ns]")}, True), + pytest.param(np.all, {"A": Series([1, 2], dtype="m8[ns]")}, True), + pytest.param(np.any, {"A": Series([1, 2], dtype="m8[ns]")}, True), + # np.all on Categorical raises, so the reduction drops the + # column, so all is being done on an empty Series, so is True + (np.all, {"A": Series([0, 1], dtype="category")}, True), + (np.any, {"A": Series([0, 1], dtype="category")}, False), + (np.all, {"A": Series([1, 2], dtype="category")}, True), + (np.any, {"A": Series([1, 2], dtype="category")}, False), + # Mix GH#21484 + pytest.param( + np.all, + { + "A": Series([10, 20], dtype="M8[ns]"), + "B": Series([10, 20], dtype="m8[ns]"), + }, + True, + ), + ], + ) + def test_any_all_np_func(self, func, data, expected): + # GH 19976 + data = DataFrame(data) + + if any(isinstance(x, CategoricalDtype) for x in data.dtypes): + with pytest.raises( + TypeError, match="dtype category does not support reduction" + ): + func(data) + + # method version + with pytest.raises( + TypeError, match="dtype category does not support reduction" + ): + getattr(DataFrame(data), func.__name__)(axis=None) + else: + msg = "'(any|all)' with datetime64 dtypes is deprecated" + if data.dtypes.apply(lambda x: x.kind == "M").any(): + warn = FutureWarning + else: + warn = None + + with tm.assert_produces_warning(warn, match=msg, check_stacklevel=False): + # GH#34479 + result = func(data) + assert isinstance(result, np.bool_) + assert result.item() is expected + + # method version + with tm.assert_produces_warning(warn, match=msg): + # GH#34479 + result = getattr(DataFrame(data), func.__name__)(axis=None) + assert isinstance(result, np.bool_) + assert result.item() is expected + + def test_any_all_object(self): + # GH 19976 + result = np.all(DataFrame(columns=["a", "b"])).item() + assert result is True + + result = np.any(DataFrame(columns=["a", "b"])).item() + assert result is False + + def test_any_all_object_bool_only(self): + df = DataFrame({"A": ["foo", 2], "B": [True, False]}).astype(object) + df._consolidate_inplace() + df["C"] = Series([True, True]) + + # Categorical of bools is _not_ considered booly + df["D"] = df["C"].astype("category") + + # The underlying bug is in DataFrame._get_bool_data, so we check + # that while we're here + res = df._get_bool_data() + expected = df[["C"]] + tm.assert_frame_equal(res, expected) + + res = df.all(bool_only=True, axis=0) + expected = Series([True], index=["C"]) + tm.assert_series_equal(res, expected) + + # operating on a subset of columns should not produce a _larger_ Series + res = df[["B", "C"]].all(bool_only=True, axis=0) + tm.assert_series_equal(res, expected) + + assert df.all(bool_only=True, axis=None) + + res = df.any(bool_only=True, axis=0) + expected = Series([True], index=["C"]) + tm.assert_series_equal(res, expected) + + # operating on a subset of columns should not produce a _larger_ Series + res = df[["C"]].any(bool_only=True, axis=0) + tm.assert_series_equal(res, expected) + + assert df.any(bool_only=True, axis=None) + + # --------------------------------------------------------------------- + # Unsorted + + def test_series_broadcasting(self): + # smoke test for numpy warnings + # GH 16378, GH 16306 + df = DataFrame([1.0, 1.0, 1.0]) + df_nan = DataFrame({"A": [np.nan, 2.0, np.nan]}) + s = Series([1, 1, 1]) + s_nan = Series([np.nan, np.nan, 1]) + + with tm.assert_produces_warning(None): + df_nan.clip(lower=s, axis=0) + for op in ["lt", "le", "gt", "ge", "eq", "ne"]: + getattr(df, op)(s_nan, axis=0) + + +class TestDataFrameReductions: + def test_min_max_dt64_with_NaT(self): + # Both NaT and Timestamp are in DataFrame. + df = DataFrame({"foo": [pd.NaT, pd.NaT, Timestamp("2012-05-01")]}) + + res = df.min() + exp = Series([Timestamp("2012-05-01")], index=["foo"]) + tm.assert_series_equal(res, exp) + + res = df.max() + exp = Series([Timestamp("2012-05-01")], index=["foo"]) + tm.assert_series_equal(res, exp) + + # GH12941, only NaTs are in DataFrame. + df = DataFrame({"foo": [pd.NaT, pd.NaT]}) + + res = df.min() + exp = Series([pd.NaT], index=["foo"]) + tm.assert_series_equal(res, exp) + + res = df.max() + exp = Series([pd.NaT], index=["foo"]) + tm.assert_series_equal(res, exp) + + def test_min_max_dt64_with_NaT_skipna_false(self, request, tz_naive_fixture): + # GH#36907 + tz = tz_naive_fixture + if isinstance(tz, tzlocal) and is_platform_windows(): + pytest.skip( + "GH#37659 OSError raised within tzlocal bc Windows " + "chokes in times before 1970-01-01" + ) + + df = DataFrame( + { + "a": [ + Timestamp("2020-01-01 08:00:00", tz=tz), + Timestamp("1920-02-01 09:00:00", tz=tz), + ], + "b": [Timestamp("2020-02-01 08:00:00", tz=tz), pd.NaT], + } + ) + res = df.min(axis=1, skipna=False) + expected = Series([df.loc[0, "a"], pd.NaT]) + assert expected.dtype == df["a"].dtype + + tm.assert_series_equal(res, expected) + + res = df.max(axis=1, skipna=False) + expected = Series([df.loc[0, "b"], pd.NaT]) + assert expected.dtype == df["a"].dtype + + tm.assert_series_equal(res, expected) + + def test_min_max_dt64_api_consistency_with_NaT(self): + # Calling the following sum functions returned an error for dataframes but + # returned NaT for series. These tests check that the API is consistent in + # min/max calls on empty Series/DataFrames. See GH:33704 for more + # information + df = DataFrame({"x": to_datetime([])}) + expected_dt_series = Series(to_datetime([])) + # check axis 0 + assert (df.min(axis=0).x is pd.NaT) == (expected_dt_series.min() is pd.NaT) + assert (df.max(axis=0).x is pd.NaT) == (expected_dt_series.max() is pd.NaT) + + # check axis 1 + tm.assert_series_equal(df.min(axis=1), expected_dt_series) + tm.assert_series_equal(df.max(axis=1), expected_dt_series) + + def test_min_max_dt64_api_consistency_empty_df(self): + # check DataFrame/Series api consistency when calling min/max on an empty + # DataFrame/Series. + df = DataFrame({"x": []}) + expected_float_series = Series([], dtype=float) + # check axis 0 + assert np.isnan(df.min(axis=0).x) == np.isnan(expected_float_series.min()) + assert np.isnan(df.max(axis=0).x) == np.isnan(expected_float_series.max()) + # check axis 1 + tm.assert_series_equal(df.min(axis=1), expected_float_series) + tm.assert_series_equal(df.min(axis=1), expected_float_series) + + @pytest.mark.parametrize( + "initial", + ["2018-10-08 13:36:45+00:00", "2018-10-08 13:36:45+03:00"], # Non-UTC timezone + ) + @pytest.mark.parametrize("method", ["min", "max"]) + def test_preserve_timezone(self, initial: str, method): + # GH 28552 + initial_dt = to_datetime(initial) + expected = Series([initial_dt]) + df = DataFrame([expected]) + result = getattr(df, method)(axis=1) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("method", ["min", "max"]) + def test_minmax_tzaware_skipna_axis_1(self, method, skipna): + # GH#51242 + val = to_datetime("1900-01-01", utc=True) + df = DataFrame( + {"a": Series([pd.NaT, pd.NaT, val]), "b": Series([pd.NaT, val, val])} + ) + op = getattr(df, method) + result = op(axis=1, skipna=skipna) + if skipna: + expected = Series([pd.NaT, val, val]) + else: + expected = Series([pd.NaT, pd.NaT, val]) + tm.assert_series_equal(result, expected) + + def test_frame_any_with_timedelta(self): + # GH#17667 + df = DataFrame( + { + "a": Series([0, 0]), + "t": Series([to_timedelta(0, "s"), to_timedelta(1, "ms")]), + } + ) + + result = df.any(axis=0) + expected = Series(data=[False, True], index=["a", "t"]) + tm.assert_series_equal(result, expected) + + result = df.any(axis=1) + expected = Series(data=[False, True]) + tm.assert_series_equal(result, expected) + + def test_reductions_skipna_none_raises( + self, request, frame_or_series, all_reductions + ): + if all_reductions == "count": + request.applymarker( + pytest.mark.xfail(reason="Count does not accept skipna") + ) + obj = frame_or_series([1, 2, 3]) + msg = 'For argument "skipna" expected type bool, received type NoneType.' + with pytest.raises(ValueError, match=msg): + getattr(obj, all_reductions)(skipna=None) + + @td.skip_array_manager_invalid_test + def test_reduction_timestamp_smallest_unit(self): + # GH#52524 + df = DataFrame( + { + "a": Series([Timestamp("2019-12-31")], dtype="datetime64[s]"), + "b": Series( + [Timestamp("2019-12-31 00:00:00.123")], dtype="datetime64[ms]" + ), + } + ) + result = df.max() + expected = Series( + [Timestamp("2019-12-31"), Timestamp("2019-12-31 00:00:00.123")], + dtype="datetime64[ms]", + index=["a", "b"], + ) + tm.assert_series_equal(result, expected) + + @td.skip_array_manager_not_yet_implemented + def test_reduction_timedelta_smallest_unit(self): + # GH#52524 + df = DataFrame( + { + "a": Series([pd.Timedelta("1 days")], dtype="timedelta64[s]"), + "b": Series([pd.Timedelta("1 days")], dtype="timedelta64[ms]"), + } + ) + result = df.max() + expected = Series( + [pd.Timedelta("1 days"), pd.Timedelta("1 days")], + dtype="timedelta64[ms]", + index=["a", "b"], + ) + tm.assert_series_equal(result, expected) + + +class TestNuisanceColumns: + @pytest.mark.parametrize("method", ["any", "all"]) + def test_any_all_categorical_dtype_nuisance_column(self, method): + # GH#36076 DataFrame should match Series behavior + ser = Series([0, 1], dtype="category", name="A") + df = ser.to_frame() + + # Double-check the Series behavior is to raise + with pytest.raises(TypeError, match="does not support reduction"): + getattr(ser, method)() + + with pytest.raises(TypeError, match="does not support reduction"): + getattr(np, method)(ser) + + with pytest.raises(TypeError, match="does not support reduction"): + getattr(df, method)(bool_only=False) + + with pytest.raises(TypeError, match="does not support reduction"): + getattr(df, method)(bool_only=None) + + with pytest.raises(TypeError, match="does not support reduction"): + getattr(np, method)(df, axis=0) + + def test_median_categorical_dtype_nuisance_column(self): + # GH#21020 DataFrame.median should match Series.median + df = DataFrame({"A": Categorical([1, 2, 2, 2, 3])}) + ser = df["A"] + + # Double-check the Series behavior is to raise + with pytest.raises(TypeError, match="does not support reduction"): + ser.median() + + with pytest.raises(TypeError, match="does not support reduction"): + df.median(numeric_only=False) + + with pytest.raises(TypeError, match="does not support reduction"): + df.median() + + # same thing, but with an additional non-categorical column + df["B"] = df["A"].astype(int) + + with pytest.raises(TypeError, match="does not support reduction"): + df.median(numeric_only=False) + + with pytest.raises(TypeError, match="does not support reduction"): + df.median() + + # TODO: np.median(df, axis=0) gives np.array([2.0, 2.0]) instead + # of expected.values + + @pytest.mark.parametrize("method", ["min", "max"]) + def test_min_max_categorical_dtype_non_ordered_nuisance_column(self, method): + # GH#28949 DataFrame.min should behave like Series.min + cat = Categorical(["a", "b", "c", "b"], ordered=False) + ser = Series(cat) + df = ser.to_frame("A") + + # Double-check the Series behavior + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(ser, method)() + + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(np, method)(ser) + + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(df, method)(numeric_only=False) + + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(df, method)() + + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(np, method)(df, axis=0) + + # same thing, but with an additional non-categorical column + df["B"] = df["A"].astype(object) + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(df, method)() + + with pytest.raises(TypeError, match="is not ordered for operation"): + getattr(np, method)(df, axis=0) + + +class TestEmptyDataFrameReductions: + @pytest.mark.parametrize( + "opname, dtype, exp_value, exp_dtype", + [ + ("sum", np.int8, 0, np.int64), + ("prod", np.int8, 1, np.int_), + ("sum", np.int64, 0, np.int64), + ("prod", np.int64, 1, np.int64), + ("sum", np.uint8, 0, np.uint64), + ("prod", np.uint8, 1, np.uint), + ("sum", np.uint64, 0, np.uint64), + ("prod", np.uint64, 1, np.uint64), + ("sum", np.float32, 0, np.float32), + ("prod", np.float32, 1, np.float32), + ("sum", np.float64, 0, np.float64), + ], + ) + def test_df_empty_min_count_0(self, opname, dtype, exp_value, exp_dtype): + df = DataFrame({0: [], 1: []}, dtype=dtype) + result = getattr(df, opname)(min_count=0) + + expected = Series([exp_value, exp_value], dtype=exp_dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "opname, dtype, exp_dtype", + [ + ("sum", np.int8, np.float64), + ("prod", np.int8, np.float64), + ("sum", np.int64, np.float64), + ("prod", np.int64, np.float64), + ("sum", np.uint8, np.float64), + ("prod", np.uint8, np.float64), + ("sum", np.uint64, np.float64), + ("prod", np.uint64, np.float64), + ("sum", np.float32, np.float32), + ("prod", np.float32, np.float32), + ("sum", np.float64, np.float64), + ], + ) + def test_df_empty_min_count_1(self, opname, dtype, exp_dtype): + df = DataFrame({0: [], 1: []}, dtype=dtype) + result = getattr(df, opname)(min_count=1) + + expected = Series([np.nan, np.nan], dtype=exp_dtype) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "opname, dtype, exp_value, exp_dtype", + [ + ("sum", "Int8", 0, ("Int32" if is_windows_np2_or_is32 else "Int64")), + ("prod", "Int8", 1, ("Int32" if is_windows_np2_or_is32 else "Int64")), + ("prod", "Int8", 1, ("Int32" if is_windows_np2_or_is32 else "Int64")), + ("sum", "Int64", 0, "Int64"), + ("prod", "Int64", 1, "Int64"), + ("sum", "UInt8", 0, ("UInt32" if is_windows_np2_or_is32 else "UInt64")), + ("prod", "UInt8", 1, ("UInt32" if is_windows_np2_or_is32 else "UInt64")), + ("sum", "UInt64", 0, "UInt64"), + ("prod", "UInt64", 1, "UInt64"), + ("sum", "Float32", 0, "Float32"), + ("prod", "Float32", 1, "Float32"), + ("sum", "Float64", 0, "Float64"), + ], + ) + def test_df_empty_nullable_min_count_0(self, opname, dtype, exp_value, exp_dtype): + df = DataFrame({0: [], 1: []}, dtype=dtype) + result = getattr(df, opname)(min_count=0) + + expected = Series([exp_value, exp_value], dtype=exp_dtype) + tm.assert_series_equal(result, expected) + + # TODO: why does min_count=1 impact the resulting Windows dtype + # differently than min_count=0? + @pytest.mark.parametrize( + "opname, dtype, exp_dtype", + [ + ("sum", "Int8", ("Int32" if is_windows_or_is32 else "Int64")), + ("prod", "Int8", ("Int32" if is_windows_or_is32 else "Int64")), + ("sum", "Int64", "Int64"), + ("prod", "Int64", "Int64"), + ("sum", "UInt8", ("UInt32" if is_windows_or_is32 else "UInt64")), + ("prod", "UInt8", ("UInt32" if is_windows_or_is32 else "UInt64")), + ("sum", "UInt64", "UInt64"), + ("prod", "UInt64", "UInt64"), + ("sum", "Float32", "Float32"), + ("prod", "Float32", "Float32"), + ("sum", "Float64", "Float64"), + ], + ) + def test_df_empty_nullable_min_count_1(self, opname, dtype, exp_dtype): + df = DataFrame({0: [], 1: []}, dtype=dtype) + result = getattr(df, opname)(min_count=1) + + expected = Series([pd.NA, pd.NA], dtype=exp_dtype) + tm.assert_series_equal(result, expected) + + +def test_sum_timedelta64_skipna_false(using_array_manager, request): + # GH#17235 + if using_array_manager: + mark = pytest.mark.xfail( + reason="Incorrect type inference on NaT in reduction result" + ) + request.applymarker(mark) + + arr = np.arange(8).astype(np.int64).view("m8[s]").reshape(4, 2) + arr[-1, -1] = "Nat" + + df = DataFrame(arr) + assert (df.dtypes == arr.dtype).all() + + result = df.sum(skipna=False) + expected = Series([pd.Timedelta(seconds=12), pd.NaT], dtype="m8[s]") + tm.assert_series_equal(result, expected) + + result = df.sum(axis=0, skipna=False) + tm.assert_series_equal(result, expected) + + result = df.sum(axis=1, skipna=False) + expected = Series( + [ + pd.Timedelta(seconds=1), + pd.Timedelta(seconds=5), + pd.Timedelta(seconds=9), + pd.NaT, + ], + dtype="m8[s]", + ) + tm.assert_series_equal(result, expected) + + +def test_mixed_frame_with_integer_sum(): + # https://github.com/pandas-dev/pandas/issues/34520 + df = DataFrame([["a", 1]], columns=list("ab")) + df = df.astype({"b": "Int64"}) + result = df.sum() + expected = Series(["a", 1], index=["a", "b"]) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("numeric_only", [True, False, None]) +@pytest.mark.parametrize("method", ["min", "max"]) +def test_minmax_extensionarray(method, numeric_only): + # https://github.com/pandas-dev/pandas/issues/32651 + int64_info = np.iinfo("int64") + ser = Series([int64_info.max, None, int64_info.min], dtype=pd.Int64Dtype()) + df = DataFrame({"Int64": ser}) + result = getattr(df, method)(numeric_only=numeric_only) + expected = Series( + [getattr(int64_info, method)], + dtype="Int64", + index=Index(["Int64"]), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("ts_value", [Timestamp("2000-01-01"), pd.NaT]) +def test_frame_mixed_numeric_object_with_timestamp(ts_value): + # GH 13912 + df = DataFrame({"a": [1], "b": [1.1], "c": ["foo"], "d": [ts_value]}) + with pytest.raises( + TypeError, match="does not support (operation|reduction)|Cannot perform" + ): + df.sum() + + +def test_prod_sum_min_count_mixed_object(): + # https://github.com/pandas-dev/pandas/issues/41074 + df = DataFrame([1, "a", True]) + + result = df.prod(axis=0, min_count=1, numeric_only=False) + expected = Series(["a"], dtype=object) + tm.assert_series_equal(result, expected) + + msg = re.escape("unsupported operand type(s) for +: 'int' and 'str'") + with pytest.raises(TypeError, match=msg): + df.sum(axis=0, min_count=1, numeric_only=False) + + +@pytest.mark.parametrize("method", ["min", "max", "mean", "median", "skew", "kurt"]) +@pytest.mark.parametrize("numeric_only", [True, False]) +@pytest.mark.parametrize("dtype", ["float64", "Float64"]) +def test_reduction_axis_none_returns_scalar(method, numeric_only, dtype): + # GH#21597 As of 2.0, axis=None reduces over all axes. + + df = DataFrame(np.random.default_rng(2).standard_normal((4, 4)), dtype=dtype) + + result = getattr(df, method)(axis=None, numeric_only=numeric_only) + np_arr = df.to_numpy(dtype=np.float64) + if method in {"skew", "kurt"}: + comp_mod = pytest.importorskip("scipy.stats") + if method == "kurt": + method = "kurtosis" + expected = getattr(comp_mod, method)(np_arr, bias=False, axis=None) + tm.assert_almost_equal(result, expected) + else: + expected = getattr(np, method)(np_arr, axis=None) + assert result == expected + + +@pytest.mark.parametrize( + "kernel", + [ + "corr", + "corrwith", + "cov", + "idxmax", + "idxmin", + "kurt", + "max", + "mean", + "median", + "min", + "prod", + "quantile", + "sem", + "skew", + "std", + "sum", + "var", + ], +) +def test_fails_on_non_numeric(kernel): + # GH#46852 + df = DataFrame({"a": [1, 2, 3], "b": object}) + args = (df,) if kernel == "corrwith" else () + msg = "|".join( + [ + "not allowed for this dtype", + "argument must be a string or a number", + "not supported between instances of", + "unsupported operand type", + "argument must be a string or a real number", + ] + ) + if kernel == "median": + # slightly different message on different builds + msg1 = ( + r"Cannot convert \[\[ " + r"\]\] to numeric" + ) + msg2 = ( + r"Cannot convert \[ " + r"\] to numeric" + ) + msg = "|".join([msg1, msg2]) + with pytest.raises(TypeError, match=msg): + getattr(df, kernel)(*args) + + +@pytest.mark.parametrize( + "method", + [ + "all", + "any", + "count", + "idxmax", + "idxmin", + "kurt", + "kurtosis", + "max", + "mean", + "median", + "min", + "nunique", + "prod", + "product", + "sem", + "skew", + "std", + "sum", + "var", + ], +) +@pytest.mark.parametrize("min_count", [0, 2]) +def test_numeric_ea_axis_1(method, skipna, min_count, any_numeric_ea_dtype): + # GH 54341 + df = DataFrame( + { + "a": Series([0, 1, 2, 3], dtype=any_numeric_ea_dtype), + "b": Series([0, 1, pd.NA, 3], dtype=any_numeric_ea_dtype), + }, + ) + expected_df = DataFrame( + { + "a": [0.0, 1.0, 2.0, 3.0], + "b": [0.0, 1.0, np.nan, 3.0], + }, + ) + if method in ("count", "nunique"): + expected_dtype = "int64" + elif method in ("all", "any"): + expected_dtype = "boolean" + elif method in ( + "kurt", + "kurtosis", + "mean", + "median", + "sem", + "skew", + "std", + "var", + ) and not any_numeric_ea_dtype.startswith("Float"): + expected_dtype = "Float64" + else: + expected_dtype = any_numeric_ea_dtype + + kwargs = {} + if method not in ("count", "nunique", "quantile"): + kwargs["skipna"] = skipna + if method in ("prod", "product", "sum"): + kwargs["min_count"] = min_count + + warn = None + msg = None + if not skipna and method in ("idxmax", "idxmin"): + warn = FutureWarning + msg = f"The behavior of DataFrame.{method} with all-NA values" + with tm.assert_produces_warning(warn, match=msg): + result = getattr(df, method)(axis=1, **kwargs) + with tm.assert_produces_warning(warn, match=msg): + expected = getattr(expected_df, method)(axis=1, **kwargs) + if method not in ("idxmax", "idxmin"): + expected = expected.astype(expected_dtype) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_repr.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_repr.py new file mode 100644 index 0000000000000000000000000000000000000000..6184e791cab5d00f8a1057d142e4c63c3690615a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_repr.py @@ -0,0 +1,518 @@ +from datetime import ( + datetime, + timedelta, +) +from io import StringIO + +import numpy as np +import pytest + +from pandas import ( + NA, + Categorical, + CategoricalIndex, + DataFrame, + IntervalIndex, + MultiIndex, + NaT, + PeriodIndex, + Series, + Timestamp, + date_range, + option_context, + period_range, +) +import pandas._testing as tm + + +class TestDataFrameRepr: + def test_repr_should_return_str(self): + # https://docs.python.org/3/reference/datamodel.html#object.__repr__ + # "...The return value must be a string object." + + # (str on py2.x, str (unicode) on py3) + + data = [8, 5, 3, 5] + index1 = ["\u03c3", "\u03c4", "\u03c5", "\u03c6"] + cols = ["\u03c8"] + df = DataFrame(data, columns=cols, index=index1) + assert type(df.__repr__()) is str # noqa: E721 + + ser = df[cols[0]] + assert type(ser.__repr__()) is str # noqa: E721 + + def test_repr_bytes_61_lines(self): + # GH#12857 + lets = list("ACDEFGHIJKLMNOP") + words = np.random.default_rng(2).choice(lets, (1000, 50)) + df = DataFrame(words).astype("U1") + assert (df.dtypes == object).all() + + # smoke tests; at one point this raised with 61 but not 60 + repr(df) + repr(df.iloc[:60, :]) + repr(df.iloc[:61, :]) + + def test_repr_unicode_level_names(self, frame_or_series): + index = MultiIndex.from_tuples([(0, 0), (1, 1)], names=["\u0394", "i1"]) + + obj = DataFrame(np.random.default_rng(2).standard_normal((2, 4)), index=index) + obj = tm.get_obj(obj, frame_or_series) + repr(obj) + + def test_assign_index_sequences(self): + # GH#2200 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6], "c": [7, 8, 9]}).set_index( + ["a", "b"] + ) + index = list(df.index) + index[0] = ("faz", "boo") + df.index = index + repr(df) + + # this travels an improper code path + index[0] = ["faz", "boo"] + df.index = index + repr(df) + + def test_repr_with_mi_nat(self): + df = DataFrame({"X": [1, 2]}, index=[[NaT, Timestamp("20130101")], ["a", "b"]]) + result = repr(df) + expected = " X\nNaT a 1\n2013-01-01 b 2" + assert result == expected + + def test_repr_with_different_nulls(self): + # GH45263 + df = DataFrame([1, 2, 3, 4], [True, None, np.nan, NaT]) + result = repr(df) + expected = """ 0 +True 1 +None 2 +NaN 3 +NaT 4""" + assert result == expected + + def test_repr_with_different_nulls_cols(self): + # GH45263 + d = {np.nan: [1, 2], None: [3, 4], NaT: [6, 7], True: [8, 9]} + df = DataFrame(data=d) + result = repr(df) + expected = """ NaN None NaT True +0 1 3 6 8 +1 2 4 7 9""" + assert result == expected + + def test_multiindex_na_repr(self): + # only an issue with long columns + df3 = DataFrame( + { + "A" * 30: {("A", "A0006000", "nuit"): "A0006000"}, + "B" * 30: {("A", "A0006000", "nuit"): np.nan}, + "C" * 30: {("A", "A0006000", "nuit"): np.nan}, + "D" * 30: {("A", "A0006000", "nuit"): np.nan}, + "E" * 30: {("A", "A0006000", "nuit"): "A"}, + "F" * 30: {("A", "A0006000", "nuit"): np.nan}, + } + ) + + idf = df3.set_index(["A" * 30, "C" * 30]) + repr(idf) + + def test_repr_name_coincide(self): + index = MultiIndex.from_tuples( + [("a", 0, "foo"), ("b", 1, "bar")], names=["a", "b", "c"] + ) + + df = DataFrame({"value": [0, 1]}, index=index) + + lines = repr(df).split("\n") + assert lines[2].startswith("a 0 foo") + + def test_repr_to_string( + self, + multiindex_year_month_day_dataframe_random_data, + multiindex_dataframe_random_data, + ): + ymd = multiindex_year_month_day_dataframe_random_data + frame = multiindex_dataframe_random_data + + repr(frame) + repr(ymd) + repr(frame.T) + repr(ymd.T) + + buf = StringIO() + frame.to_string(buf=buf) + ymd.to_string(buf=buf) + frame.T.to_string(buf=buf) + ymd.T.to_string(buf=buf) + + def test_repr_empty(self): + # empty + repr(DataFrame()) + + # empty with index + frame = DataFrame(index=np.arange(1000)) + repr(frame) + + def test_repr_mixed(self, float_string_frame): + # mixed + repr(float_string_frame) + + @pytest.mark.slow + def test_repr_mixed_big(self): + # big mixed + biggie = DataFrame( + { + "A": np.random.default_rng(2).standard_normal(200), + "B": [str(i) for i in range(200)], + }, + index=range(200), + ) + biggie.loc[:20, "A"] = np.nan + biggie.loc[:20, "B"] = np.nan + + repr(biggie) + + def test_repr(self): + # columns but no index + no_index = DataFrame(columns=[0, 1, 3]) + repr(no_index) + + df = DataFrame(["a\n\r\tb"], columns=["a\n\r\td"], index=["a\n\r\tf"]) + assert "\t" not in repr(df) + assert "\r" not in repr(df) + assert "a\n" not in repr(df) + + def test_repr_dimensions(self): + df = DataFrame([[1, 2], [3, 4]]) + with option_context("display.show_dimensions", True): + assert "2 rows x 2 columns" in repr(df) + + with option_context("display.show_dimensions", False): + assert "2 rows x 2 columns" not in repr(df) + + with option_context("display.show_dimensions", "truncate"): + assert "2 rows x 2 columns" not in repr(df) + + @pytest.mark.slow + def test_repr_big(self): + # big one + biggie = DataFrame(np.zeros((200, 4)), columns=range(4), index=range(200)) + repr(biggie) + + def test_repr_unsortable(self): + # columns are not sortable + + unsortable = DataFrame( + { + "foo": [1] * 50, + datetime.today(): [1] * 50, + "bar": ["bar"] * 50, + datetime.today() + timedelta(1): ["bar"] * 50, + }, + index=np.arange(50), + ) + repr(unsortable) + + def test_repr_float_frame_options(self, float_frame): + repr(float_frame) + + with option_context("display.precision", 3): + repr(float_frame) + + with option_context("display.max_rows", 10, "display.max_columns", 2): + repr(float_frame) + + with option_context("display.max_rows", 1000, "display.max_columns", 1000): + repr(float_frame) + + def test_repr_unicode(self): + uval = "\u03c3\u03c3\u03c3\u03c3" + + df = DataFrame({"A": [uval, uval]}) + + result = repr(df) + ex_top = " A" + assert result.split("\n")[0].rstrip() == ex_top + + df = DataFrame({"A": [uval, uval]}) + result = repr(df) + assert result.split("\n")[0].rstrip() == ex_top + + def test_unicode_string_with_unicode(self): + df = DataFrame({"A": ["\u05d0"]}) + str(df) + + def test_repr_unicode_columns(self): + df = DataFrame({"\u05d0": [1, 2, 3], "\u05d1": [4, 5, 6], "c": [7, 8, 9]}) + repr(df.columns) # should not raise UnicodeDecodeError + + def test_str_to_bytes_raises(self): + # GH 26447 + df = DataFrame({"A": ["abc"]}) + msg = "^'str' object cannot be interpreted as an integer$" + with pytest.raises(TypeError, match=msg): + bytes(df) + + def test_very_wide_repr(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 20)), + columns=np.array(["a" * 10] * 20, dtype=object), + ) + repr(df) + + def test_repr_column_name_unicode_truncation_bug(self): + # #1906 + df = DataFrame( + { + "Id": [7117434], + "StringCol": ( + "Is it possible to modify drop plot code" + "so that the output graph is displayed " + "in iphone simulator, Is it possible to " + "modify drop plot code so that the " + "output graph is \xe2\x80\xa8displayed " + "in iphone simulator.Now we are adding " + "the CSV file externally. I want to Call " + "the File through the code.." + ), + } + ) + + with option_context("display.max_columns", 20): + assert "StringCol" in repr(df) + + def test_latex_repr(self): + pytest.importorskip("jinja2") + expected = r"""\begin{tabular}{llll} +\toprule + & 0 & 1 & 2 \\ +\midrule +0 & $\alpha$ & b & c \\ +1 & 1 & 2 & 3 \\ +\bottomrule +\end{tabular} +""" + with option_context( + "styler.format.escape", None, "styler.render.repr", "latex" + ): + df = DataFrame([[r"$\alpha$", "b", "c"], [1, 2, 3]]) + result = df._repr_latex_() + assert result == expected + + # GH 12182 + assert df._repr_latex_() is None + + def test_repr_with_datetimeindex(self): + df = DataFrame({"A": [1, 2, 3]}, index=date_range("2000", periods=3)) + result = repr(df) + expected = " A\n2000-01-01 1\n2000-01-02 2\n2000-01-03 3" + assert result == expected + + def test_repr_with_intervalindex(self): + # https://github.com/pandas-dev/pandas/pull/24134/files + df = DataFrame( + {"A": [1, 2, 3, 4]}, index=IntervalIndex.from_breaks([0, 1, 2, 3, 4]) + ) + result = repr(df) + expected = " A\n(0, 1] 1\n(1, 2] 2\n(2, 3] 3\n(3, 4] 4" + assert result == expected + + def test_repr_with_categorical_index(self): + df = DataFrame({"A": [1, 2, 3]}, index=CategoricalIndex(["a", "b", "c"])) + result = repr(df) + expected = " A\na 1\nb 2\nc 3" + assert result == expected + + def test_repr_categorical_dates_periods(self): + # normal DataFrame + dt = date_range("2011-01-01 09:00", freq="h", periods=5, tz="US/Eastern") + p = period_range("2011-01", freq="M", periods=5) + df = DataFrame({"dt": dt, "p": p}) + exp = """ dt p +0 2011-01-01 09:00:00-05:00 2011-01 +1 2011-01-01 10:00:00-05:00 2011-02 +2 2011-01-01 11:00:00-05:00 2011-03 +3 2011-01-01 12:00:00-05:00 2011-04 +4 2011-01-01 13:00:00-05:00 2011-05""" + + assert repr(df) == exp + + df2 = DataFrame({"dt": Categorical(dt), "p": Categorical(p)}) + assert repr(df2) == exp + + @pytest.mark.parametrize("arg", [np.datetime64, np.timedelta64]) + @pytest.mark.parametrize( + "box, expected", + [[Series, "0 NaT\ndtype: object"], [DataFrame, " 0\n0 NaT"]], + ) + def test_repr_np_nat_with_object(self, arg, box, expected): + # GH 25445 + result = repr(box([arg("NaT")], dtype=object)) + assert result == expected + + def test_frame_datetime64_pre1900_repr(self): + df = DataFrame({"year": date_range("1/1/1700", periods=50, freq="YE-DEC")}) + # it works! + repr(df) + + def test_frame_to_string_with_periodindex(self): + index = PeriodIndex(["2011-1", "2011-2", "2011-3"], freq="M") + frame = DataFrame(np.random.default_rng(2).standard_normal((3, 4)), index=index) + + # it works! + frame.to_string() + + def test_to_string_ea_na_in_multiindex(self): + # GH#47986 + df = DataFrame( + {"a": [1, 2]}, + index=MultiIndex.from_arrays([Series([NA, 1], dtype="Int64")]), + ) + + result = df.to_string() + expected = """ a + 1 +1 2""" + assert result == expected + + def test_datetime64tz_slice_non_truncate(self): + # GH 30263 + df = DataFrame({"x": date_range("2019", periods=10, tz="UTC")}) + expected = repr(df) + df = df.iloc[:, :5] + result = repr(df) + assert result == expected + + def test_to_records_no_typeerror_in_repr(self): + # GH 48526 + df = DataFrame([["a", "b"], ["c", "d"], ["e", "f"]], columns=["left", "right"]) + df["record"] = df[["left", "right"]].to_records() + expected = """ left right record +0 a b [0, a, b] +1 c d [1, c, d] +2 e f [2, e, f]""" + result = repr(df) + assert result == expected + + def test_to_records_with_na_record_value(self): + # GH 48526 + df = DataFrame( + [["a", np.nan], ["c", "d"], ["e", "f"]], columns=["left", "right"] + ) + df["record"] = df[["left", "right"]].to_records() + expected = """ left right record +0 a NaN [0, a, nan] +1 c d [1, c, d] +2 e f [2, e, f]""" + result = repr(df) + assert result == expected + + def test_to_records_with_na_record(self): + # GH 48526 + df = DataFrame( + [["a", "b"], [np.nan, np.nan], ["e", "f"]], columns=[np.nan, "right"] + ) + df["record"] = df[[np.nan, "right"]].to_records() + expected = """ NaN right record +0 a b [0, a, b] +1 NaN NaN [1, nan, nan] +2 e f [2, e, f]""" + result = repr(df) + assert result == expected + + def test_to_records_with_inf_as_na_record(self): + # GH 48526 + expected = """ NaN inf record +0 inf b [0, inf, b] +1 NaN NaN [1, nan, nan] +2 e f [2, e, f]""" + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with option_context("use_inf_as_na", True): + df = DataFrame( + [[np.inf, "b"], [np.nan, np.nan], ["e", "f"]], + columns=[np.nan, np.inf], + ) + df["record"] = df[[np.nan, np.inf]].to_records() + result = repr(df) + assert result == expected + + def test_to_records_with_inf_record(self): + # GH 48526 + expected = """ NaN inf record +0 inf b [0, inf, b] +1 NaN NaN [1, nan, nan] +2 e f [2, e, f]""" + msg = "use_inf_as_na option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with option_context("use_inf_as_na", False): + df = DataFrame( + [[np.inf, "b"], [np.nan, np.nan], ["e", "f"]], + columns=[np.nan, np.inf], + ) + df["record"] = df[[np.nan, np.inf]].to_records() + result = repr(df) + assert result == expected + + def test_masked_ea_with_formatter(self): + # GH#39336 + df = DataFrame( + { + "a": Series([0.123456789, 1.123456789], dtype="Float64"), + "b": Series([1, 2], dtype="Int64"), + } + ) + result = df.to_string(formatters=["{:.2f}".format, "{:.2f}".format]) + expected = """ a b +0 0.12 1.00 +1 1.12 2.00""" + assert result == expected + + def test_repr_ea_columns(self, any_string_dtype): + # GH#54797 + pytest.importorskip("pyarrow") + df = DataFrame({"long_column_name": [1, 2, 3], "col2": [4, 5, 6]}) + df.columns = df.columns.astype(any_string_dtype) + expected = """ long_column_name col2 +0 1 4 +1 2 5 +2 3 6""" + assert repr(df) == expected + + +@pytest.mark.parametrize( + "data,output", + [ + ([2, complex("nan"), 1], [" 2.0+0.0j", " NaN+0.0j", " 1.0+0.0j"]), + ([2, complex("nan"), -1], [" 2.0+0.0j", " NaN+0.0j", "-1.0+0.0j"]), + ([-2, complex("nan"), -1], ["-2.0+0.0j", " NaN+0.0j", "-1.0+0.0j"]), + ([-1.23j, complex("nan"), -1], ["-0.00-1.23j", " NaN+0.00j", "-1.00+0.00j"]), + ([1.23j, complex("nan"), 1.23], [" 0.00+1.23j", " NaN+0.00j", " 1.23+0.00j"]), + ( + [-1.23j, complex(np.nan, np.nan), 1], + ["-0.00-1.23j", " NaN+ NaNj", " 1.00+0.00j"], + ), + ( + [-1.23j, complex(1.2, np.nan), 1], + ["-0.00-1.23j", " 1.20+ NaNj", " 1.00+0.00j"], + ), + ( + [-1.23j, complex(np.nan, -1.2), 1], + ["-0.00-1.23j", " NaN-1.20j", " 1.00+0.00j"], + ), + ], +) +@pytest.mark.parametrize("as_frame", [True, False]) +def test_repr_with_complex_nans(data, output, as_frame): + # GH#53762, GH#53841 + obj = Series(np.array(data)) + if as_frame: + obj = obj.to_frame(name="val") + reprs = [f"{i} {val}" for i, val in enumerate(output)] + expected = f"{'val': >{len(reprs[0])}}\n" + "\n".join(reprs) + else: + reprs = [f"{i} {val}" for i, val in enumerate(output)] + expected = "\n".join(reprs) + "\ndtype: complex128" + assert str(obj) == expected, f"\n{str(obj)}\n\n{expected}" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_stack_unstack.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_stack_unstack.py new file mode 100644 index 0000000000000000000000000000000000000000..de470fcda18ed47417ff84b88c6b48bc888cec8f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_stack_unstack.py @@ -0,0 +1,2684 @@ +from datetime import datetime +import itertools +import re + +import numpy as np +import pytest + +from pandas._libs import lib +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Period, + Series, + Timedelta, + date_range, +) +import pandas._testing as tm +from pandas.core.reshape import reshape as reshape_lib + + +@pytest.fixture(params=[True, False]) +def future_stack(request): + return request.param + + +class TestDataFrameReshape: + def test_stack_unstack(self, float_frame, future_stack): + df = float_frame.copy() + df[:] = np.arange(np.prod(df.shape)).reshape(df.shape) + + stacked = df.stack(future_stack=future_stack) + stacked_df = DataFrame({"foo": stacked, "bar": stacked}) + + unstacked = stacked.unstack() + unstacked_df = stacked_df.unstack() + + tm.assert_frame_equal(unstacked, df) + tm.assert_frame_equal(unstacked_df["bar"], df) + + unstacked_cols = stacked.unstack(0) + unstacked_cols_df = stacked_df.unstack(0) + tm.assert_frame_equal(unstacked_cols.T, df) + tm.assert_frame_equal(unstacked_cols_df["bar"].T, df) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_mixed_level(self, future_stack): + # GH 18310 + levels = [range(3), [3, "a", "b"], [1, 2]] + + # flat columns: + df = DataFrame(1, index=levels[0], columns=levels[1]) + result = df.stack(future_stack=future_stack) + expected = Series(1, index=MultiIndex.from_product(levels[:2])) + tm.assert_series_equal(result, expected) + + # MultiIndex columns: + df = DataFrame(1, index=levels[0], columns=MultiIndex.from_product(levels[1:])) + result = df.stack(1, future_stack=future_stack) + expected = DataFrame( + 1, index=MultiIndex.from_product([levels[0], levels[2]]), columns=levels[1] + ) + tm.assert_frame_equal(result, expected) + + # as above, but used labels in level are actually of homogeneous type + result = df[["a", "b"]].stack(1, future_stack=future_stack) + expected = expected[["a", "b"]] + tm.assert_frame_equal(result, expected) + + def test_unstack_not_consolidated(self, using_array_manager): + # Gh#34708 + df = DataFrame({"x": [1, 2, np.nan], "y": [3.0, 4, np.nan]}) + df2 = df[["x"]] + df2["y"] = df["y"] + if not using_array_manager: + assert len(df2._mgr.blocks) == 2 + + res = df2.unstack() + expected = df.unstack() + tm.assert_series_equal(res, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_unstack_fill(self, future_stack): + # GH #9746: fill_value keyword argument for Series + # and DataFrame unstack + + # From a series + data = Series([1, 2, 4, 5], dtype=np.int16) + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + result = data.unstack(fill_value=-1) + expected = DataFrame( + {"a": [1, -1, 5], "b": [2, 4, -1]}, index=["x", "y", "z"], dtype=np.int16 + ) + tm.assert_frame_equal(result, expected) + + # From a series with incorrect data type for fill_value + result = data.unstack(fill_value=0.5) + expected = DataFrame( + {"a": [1, 0.5, 5], "b": [2, 4, 0.5]}, index=["x", "y", "z"], dtype=float + ) + tm.assert_frame_equal(result, expected) + + # GH #13971: fill_value when unstacking multiple levels: + df = DataFrame( + {"x": ["a", "a", "b"], "y": ["j", "k", "j"], "z": [0, 1, 2], "w": [0, 1, 2]} + ).set_index(["x", "y", "z"]) + unstacked = df.unstack(["x", "y"], fill_value=0) + key = ("w", "b", "j") + expected = unstacked[key] + result = Series([0, 0, 2], index=unstacked.index, name=key) + tm.assert_series_equal(result, expected) + + stacked = unstacked.stack(["x", "y"], future_stack=future_stack) + stacked.index = stacked.index.reorder_levels(df.index.names) + # Workaround for GH #17886 (unnecessarily casts to float): + stacked = stacked.astype(np.int64) + result = stacked.loc[df.index] + tm.assert_frame_equal(result, df) + + # From a series + s = df["w"] + result = s.unstack(["x", "y"], fill_value=0) + expected = unstacked["w"] + tm.assert_frame_equal(result, expected) + + def test_unstack_fill_frame(self): + # From a dataframe + rows = [[1, 2], [3, 4], [5, 6], [7, 8]] + df = DataFrame(rows, columns=list("AB"), dtype=np.int32) + df.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + result = df.unstack(fill_value=-1) + + rows = [[1, 3, 2, 4], [-1, 5, -1, 6], [7, -1, 8, -1]] + expected = DataFrame(rows, index=list("xyz"), dtype=np.int32) + expected.columns = MultiIndex.from_tuples( + [("A", "a"), ("A", "b"), ("B", "a"), ("B", "b")] + ) + tm.assert_frame_equal(result, expected) + + # From a mixed type dataframe + df["A"] = df["A"].astype(np.int16) + df["B"] = df["B"].astype(np.float64) + + result = df.unstack(fill_value=-1) + expected["A"] = expected["A"].astype(np.int16) + expected["B"] = expected["B"].astype(np.float64) + tm.assert_frame_equal(result, expected) + + # From a dataframe with incorrect data type for fill_value + result = df.unstack(fill_value=0.5) + + rows = [[1, 3, 2, 4], [0.5, 5, 0.5, 6], [7, 0.5, 8, 0.5]] + expected = DataFrame(rows, index=list("xyz"), dtype=float) + expected.columns = MultiIndex.from_tuples( + [("A", "a"), ("A", "b"), ("B", "a"), ("B", "b")] + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_fill_frame_datetime(self): + # Test unstacking with date times + dv = date_range("2012-01-01", periods=4).values + data = Series(dv) + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + result = data.unstack() + expected = DataFrame( + {"a": [dv[0], pd.NaT, dv[3]], "b": [dv[1], dv[2], pd.NaT]}, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + result = data.unstack(fill_value=dv[0]) + expected = DataFrame( + {"a": [dv[0], dv[0], dv[3]], "b": [dv[1], dv[2], dv[0]]}, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_fill_frame_timedelta(self): + # Test unstacking with time deltas + td = [Timedelta(days=i) for i in range(4)] + data = Series(td) + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + result = data.unstack() + expected = DataFrame( + {"a": [td[0], pd.NaT, td[3]], "b": [td[1], td[2], pd.NaT]}, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + result = data.unstack(fill_value=td[1]) + expected = DataFrame( + {"a": [td[0], td[1], td[3]], "b": [td[1], td[2], td[1]]}, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_fill_frame_period(self): + # Test unstacking with period + periods = [ + Period("2012-01"), + Period("2012-02"), + Period("2012-03"), + Period("2012-04"), + ] + data = Series(periods) + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + result = data.unstack() + expected = DataFrame( + {"a": [periods[0], None, periods[3]], "b": [periods[1], periods[2], None]}, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + result = data.unstack(fill_value=periods[1]) + expected = DataFrame( + { + "a": [periods[0], periods[1], periods[3]], + "b": [periods[1], periods[2], periods[1]], + }, + index=["x", "y", "z"], + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_fill_frame_categorical(self): + # Test unstacking with categorical + data = Series(["a", "b", "c", "a"], dtype="category") + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + # By default missing values will be NaN + result = data.unstack() + expected = DataFrame( + { + "a": pd.Categorical(list("axa"), categories=list("abc")), + "b": pd.Categorical(list("bcx"), categories=list("abc")), + }, + index=list("xyz"), + ) + tm.assert_frame_equal(result, expected) + + # Fill with non-category results in a ValueError + msg = r"Cannot setitem on a Categorical with a new category \(d\)" + with pytest.raises(TypeError, match=msg): + data.unstack(fill_value="d") + + # Fill with category value replaces missing values as expected + result = data.unstack(fill_value="c") + expected = DataFrame( + { + "a": pd.Categorical(list("aca"), categories=list("abc")), + "b": pd.Categorical(list("bcc"), categories=list("abc")), + }, + index=list("xyz"), + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_tuplename_in_multiindex(self): + # GH 19966 + idx = MultiIndex.from_product( + [["a", "b", "c"], [1, 2, 3]], names=[("A", "a"), ("B", "b")] + ) + df = DataFrame({"d": [1] * 9, "e": [2] * 9}, index=idx) + result = df.unstack(("A", "a")) + + expected = DataFrame( + [[1, 1, 1, 2, 2, 2], [1, 1, 1, 2, 2, 2], [1, 1, 1, 2, 2, 2]], + columns=MultiIndex.from_tuples( + [ + ("d", "a"), + ("d", "b"), + ("d", "c"), + ("e", "a"), + ("e", "b"), + ("e", "c"), + ], + names=[None, ("A", "a")], + ), + index=Index([1, 2, 3], name=("B", "b")), + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "unstack_idx, expected_values, expected_index, expected_columns", + [ + ( + ("A", "a"), + [[1, 1, 2, 2], [1, 1, 2, 2], [1, 1, 2, 2], [1, 1, 2, 2]], + MultiIndex.from_tuples( + [(1, 3), (1, 4), (2, 3), (2, 4)], names=["B", "C"] + ), + MultiIndex.from_tuples( + [("d", "a"), ("d", "b"), ("e", "a"), ("e", "b")], + names=[None, ("A", "a")], + ), + ), + ( + (("A", "a"), "B"), + [[1, 1, 1, 1, 2, 2, 2, 2], [1, 1, 1, 1, 2, 2, 2, 2]], + Index([3, 4], name="C"), + MultiIndex.from_tuples( + [ + ("d", "a", 1), + ("d", "a", 2), + ("d", "b", 1), + ("d", "b", 2), + ("e", "a", 1), + ("e", "a", 2), + ("e", "b", 1), + ("e", "b", 2), + ], + names=[None, ("A", "a"), "B"], + ), + ), + ], + ) + def test_unstack_mixed_type_name_in_multiindex( + self, unstack_idx, expected_values, expected_index, expected_columns + ): + # GH 19966 + idx = MultiIndex.from_product( + [["a", "b"], [1, 2], [3, 4]], names=[("A", "a"), "B", "C"] + ) + df = DataFrame({"d": [1] * 8, "e": [2] * 8}, index=idx) + result = df.unstack(unstack_idx) + + expected = DataFrame( + expected_values, columns=expected_columns, index=expected_index + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_preserve_dtypes(self): + # Checks fix for #11847 + df = DataFrame( + { + "state": ["IL", "MI", "NC"], + "index": ["a", "b", "c"], + "some_categories": Series(["a", "b", "c"]).astype("category"), + "A": np.random.default_rng(2).random(3), + "B": 1, + "C": "foo", + "D": pd.Timestamp("20010102"), + "E": Series([1.0, 50.0, 100.0]).astype("float32"), + "F": Series([3.0, 4.0, 5.0]).astype("float64"), + "G": False, + "H": Series([1, 200, 923442]).astype("int8"), + } + ) + + def unstack_and_compare(df, column_name): + unstacked1 = df.unstack([column_name]) + unstacked2 = df.unstack(column_name) + tm.assert_frame_equal(unstacked1, unstacked2) + + df1 = df.set_index(["state", "index"]) + unstack_and_compare(df1, "index") + + df1 = df.set_index(["state", "some_categories"]) + unstack_and_compare(df1, "some_categories") + + df1 = df.set_index(["F", "C"]) + unstack_and_compare(df1, "F") + + df1 = df.set_index(["G", "B", "state"]) + unstack_and_compare(df1, "B") + + df1 = df.set_index(["E", "A"]) + unstack_and_compare(df1, "E") + + df1 = df.set_index(["state", "index"]) + s = df1["A"] + unstack_and_compare(s, "index") + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_ints(self, future_stack): + columns = MultiIndex.from_tuples(list(itertools.product(range(3), repeat=3))) + df = DataFrame( + np.random.default_rng(2).standard_normal((30, 27)), columns=columns + ) + + tm.assert_frame_equal( + df.stack(level=[1, 2], future_stack=future_stack), + df.stack(level=1, future_stack=future_stack).stack( + level=1, future_stack=future_stack + ), + ) + tm.assert_frame_equal( + df.stack(level=[-2, -1], future_stack=future_stack), + df.stack(level=1, future_stack=future_stack).stack( + level=1, future_stack=future_stack + ), + ) + + df_named = df.copy() + return_value = df_named.columns.set_names(range(3), inplace=True) + assert return_value is None + + tm.assert_frame_equal( + df_named.stack(level=[1, 2], future_stack=future_stack), + df_named.stack(level=1, future_stack=future_stack).stack( + level=1, future_stack=future_stack + ), + ) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_mixed_levels(self, future_stack): + columns = MultiIndex.from_tuples( + [ + ("A", "cat", "long"), + ("B", "cat", "long"), + ("A", "dog", "short"), + ("B", "dog", "short"), + ], + names=["exp", "animal", "hair_length"], + ) + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), columns=columns + ) + + animal_hair_stacked = df.stack( + level=["animal", "hair_length"], future_stack=future_stack + ) + exp_hair_stacked = df.stack( + level=["exp", "hair_length"], future_stack=future_stack + ) + + # GH #8584: Need to check that stacking works when a number + # is passed that is both a level name and in the range of + # the level numbers + df2 = df.copy() + df2.columns.names = ["exp", "animal", 1] + tm.assert_frame_equal( + df2.stack(level=["animal", 1], future_stack=future_stack), + animal_hair_stacked, + check_names=False, + ) + tm.assert_frame_equal( + df2.stack(level=["exp", 1], future_stack=future_stack), + exp_hair_stacked, + check_names=False, + ) + + # When mixed types are passed and the ints are not level + # names, raise + msg = ( + "level should contain all level names or all level numbers, not " + "a mixture of the two" + ) + with pytest.raises(ValueError, match=msg): + df2.stack(level=["animal", 0], future_stack=future_stack) + + # GH #8584: Having 0 in the level names could raise a + # strange error about lexsort depth + df3 = df.copy() + df3.columns.names = ["exp", "animal", 0] + tm.assert_frame_equal( + df3.stack(level=["animal", 0], future_stack=future_stack), + animal_hair_stacked, + check_names=False, + ) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_int_level_names(self, future_stack): + columns = MultiIndex.from_tuples( + [ + ("A", "cat", "long"), + ("B", "cat", "long"), + ("A", "dog", "short"), + ("B", "dog", "short"), + ], + names=["exp", "animal", "hair_length"], + ) + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), columns=columns + ) + + exp_animal_stacked = df.stack( + level=["exp", "animal"], future_stack=future_stack + ) + animal_hair_stacked = df.stack( + level=["animal", "hair_length"], future_stack=future_stack + ) + exp_hair_stacked = df.stack( + level=["exp", "hair_length"], future_stack=future_stack + ) + + df2 = df.copy() + df2.columns.names = [0, 1, 2] + tm.assert_frame_equal( + df2.stack(level=[1, 2], future_stack=future_stack), + animal_hair_stacked, + check_names=False, + ) + tm.assert_frame_equal( + df2.stack(level=[0, 1], future_stack=future_stack), + exp_animal_stacked, + check_names=False, + ) + tm.assert_frame_equal( + df2.stack(level=[0, 2], future_stack=future_stack), + exp_hair_stacked, + check_names=False, + ) + + # Out-of-order int column names + df3 = df.copy() + df3.columns.names = [2, 0, 1] + tm.assert_frame_equal( + df3.stack(level=[0, 1], future_stack=future_stack), + animal_hair_stacked, + check_names=False, + ) + tm.assert_frame_equal( + df3.stack(level=[2, 0], future_stack=future_stack), + exp_animal_stacked, + check_names=False, + ) + tm.assert_frame_equal( + df3.stack(level=[2, 1], future_stack=future_stack), + exp_hair_stacked, + check_names=False, + ) + + def test_unstack_bool(self): + df = DataFrame( + [False, False], + index=MultiIndex.from_arrays([["a", "b"], ["c", "l"]]), + columns=["col"], + ) + rs = df.unstack() + xp = DataFrame( + np.array([[False, np.nan], [np.nan, False]], dtype=object), + index=["a", "b"], + columns=MultiIndex.from_arrays([["col", "col"], ["c", "l"]]), + ) + tm.assert_frame_equal(rs, xp) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_unstack_level_binding(self, future_stack): + # GH9856 + mi = MultiIndex( + levels=[["foo", "bar"], ["one", "two"], ["a", "b"]], + codes=[[0, 0, 1, 1], [0, 1, 0, 1], [1, 0, 1, 0]], + names=["first", "second", "third"], + ) + s = Series(0, index=mi) + result = s.unstack([1, 2]).stack(0, future_stack=future_stack) + + expected_mi = MultiIndex( + levels=[["foo", "bar"], ["one", "two"]], + codes=[[0, 0, 1, 1], [0, 1, 0, 1]], + names=["first", "second"], + ) + + expected = DataFrame( + np.array( + [[0, np.nan], [np.nan, 0], [0, np.nan], [np.nan, 0]], dtype=np.float64 + ), + index=expected_mi, + columns=Index(["b", "a"], name="third"), + ) + + tm.assert_frame_equal(result, expected) + + def test_unstack_to_series(self, float_frame): + # check reversibility + data = float_frame.unstack() + + assert isinstance(data, Series) + undo = data.unstack().T + tm.assert_frame_equal(undo, float_frame) + + # check NA handling + data = DataFrame({"x": [1, 2, np.nan], "y": [3.0, 4, np.nan]}) + data.index = Index(["a", "b", "c"]) + result = data.unstack() + + midx = MultiIndex( + levels=[["x", "y"], ["a", "b", "c"]], + codes=[[0, 0, 0, 1, 1, 1], [0, 1, 2, 0, 1, 2]], + ) + expected = Series([1, 2, np.nan, 3, 4, np.nan], index=midx) + + tm.assert_series_equal(result, expected) + + # check composability of unstack + old_data = data.copy() + for _ in range(4): + data = data.unstack() + tm.assert_frame_equal(old_data, data) + + def test_unstack_dtypes(self, using_infer_string): + # GH 2929 + rows = [[1, 1, 3, 4], [1, 2, 3, 4], [2, 1, 3, 4], [2, 2, 3, 4]] + + df = DataFrame(rows, columns=list("ABCD")) + result = df.dtypes + expected = Series([np.dtype("int64")] * 4, index=list("ABCD")) + tm.assert_series_equal(result, expected) + + # single dtype + df2 = df.set_index(["A", "B"]) + df3 = df2.unstack("B") + result = df3.dtypes + expected = Series( + [np.dtype("int64")] * 4, + index=MultiIndex.from_arrays( + [["C", "C", "D", "D"], [1, 2, 1, 2]], names=(None, "B") + ), + ) + tm.assert_series_equal(result, expected) + + # mixed + df2 = df.set_index(["A", "B"]) + df2["C"] = 3.0 + df3 = df2.unstack("B") + result = df3.dtypes + expected = Series( + [np.dtype("float64")] * 2 + [np.dtype("int64")] * 2, + index=MultiIndex.from_arrays( + [["C", "C", "D", "D"], [1, 2, 1, 2]], names=(None, "B") + ), + ) + tm.assert_series_equal(result, expected) + df2["D"] = "foo" + df3 = df2.unstack("B") + result = df3.dtypes + dtype = ( + pd.StringDtype(na_value=np.nan) + if using_infer_string + else np.dtype("object") + ) + expected = Series( + [np.dtype("float64")] * 2 + [dtype] * 2, + index=MultiIndex.from_arrays( + [["C", "C", "D", "D"], [1, 2, 1, 2]], names=(None, "B") + ), + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "c, d", + ( + (np.zeros(5), np.zeros(5)), + (np.arange(5, dtype="f8"), np.arange(5, 10, dtype="f8")), + ), + ) + def test_unstack_dtypes_mixed_date(self, c, d): + # GH7405 + df = DataFrame( + { + "A": ["a"] * 5, + "C": c, + "D": d, + "B": date_range("2012-01-01", periods=5), + } + ) + + right = df.iloc[:3].copy(deep=True) + + df = df.set_index(["A", "B"]) + df["D"] = df["D"].astype("int64") + + left = df.iloc[:3].unstack(0) + right = right.set_index(["A", "B"]).unstack(0) + right[("D", "a")] = right[("D", "a")].astype("int64") + + assert left.shape == (3, 2) + tm.assert_frame_equal(left, right) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_unstack_non_unique_index_names(self, future_stack): + idx = MultiIndex.from_tuples([("a", "b"), ("c", "d")], names=["c1", "c1"]) + df = DataFrame([1, 2], index=idx) + msg = "The name c1 occurs multiple times, use a level number" + with pytest.raises(ValueError, match=msg): + df.unstack("c1") + + with pytest.raises(ValueError, match=msg): + df.T.stack("c1", future_stack=future_stack) + + def test_unstack_unused_levels(self): + # GH 17845: unused codes in index make unstack() cast int to float + idx = MultiIndex.from_product([["a"], ["A", "B", "C", "D"]])[:-1] + df = DataFrame([[1, 0]] * 3, index=idx) + + result = df.unstack() + exp_col = MultiIndex.from_product([[0, 1], ["A", "B", "C"]]) + expected = DataFrame([[1, 1, 1, 0, 0, 0]], index=["a"], columns=exp_col) + tm.assert_frame_equal(result, expected) + assert (result.columns.levels[1] == idx.levels[1]).all() + + # Unused items on both levels + levels = [[0, 1, 7], [0, 1, 2, 3]] + codes = [[0, 0, 1, 1], [0, 2, 0, 2]] + idx = MultiIndex(levels, codes) + block = np.arange(4).reshape(2, 2) + df = DataFrame(np.concatenate([block, block + 4]), index=idx) + result = df.unstack() + expected = DataFrame( + np.concatenate([block * 2, block * 2 + 1], axis=1), columns=idx + ) + tm.assert_frame_equal(result, expected) + assert (result.columns.levels[1] == idx.levels[1]).all() + + @pytest.mark.parametrize( + "level, idces, col_level, idx_level", + ( + (0, [13, 16, 6, 9, 2, 5, 8, 11], [np.nan, "a", 2], [np.nan, 5, 1]), + (1, [8, 11, 1, 4, 12, 15, 13, 16], [np.nan, 5, 1], [np.nan, "a", 2]), + ), + ) + def test_unstack_unused_levels_mixed_with_nan( + self, level, idces, col_level, idx_level + ): + # With mixed dtype and NaN + levels = [["a", 2, "c"], [1, 3, 5, 7]] + codes = [[0, -1, 1, 1], [0, 2, -1, 2]] + idx = MultiIndex(levels, codes) + data = np.arange(8) + df = DataFrame(data.reshape(4, 2), index=idx) + + result = df.unstack(level=level) + exp_data = np.zeros(18) * np.nan + exp_data[idces] = data + cols = MultiIndex.from_product([[0, 1], col_level]) + expected = DataFrame(exp_data.reshape(3, 6), index=idx_level, columns=cols) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("cols", [["A", "C"], slice(None)]) + def test_unstack_unused_level(self, cols): + # GH 18562 : unused codes on the unstacked level + df = DataFrame([[2010, "a", "I"], [2011, "b", "II"]], columns=["A", "B", "C"]) + + ind = df.set_index(["A", "B", "C"], drop=False) + selection = ind.loc[(slice(None), slice(None), "I"), cols] + result = selection.unstack() + + expected = ind.iloc[[0]][cols] + expected.columns = MultiIndex.from_product( + [expected.columns, ["I"]], names=[None, "C"] + ) + expected.index = expected.index.droplevel("C") + tm.assert_frame_equal(result, expected) + + def test_unstack_long_index(self): + # PH 32624: Error when using a lot of indices to unstack. + # The error occurred only, if a lot of indices are used. + df = DataFrame( + [[1]], + columns=MultiIndex.from_tuples([[0]], names=["c1"]), + index=MultiIndex.from_tuples( + [[0, 0, 1, 0, 0, 0, 1]], + names=["i1", "i2", "i3", "i4", "i5", "i6", "i7"], + ), + ) + result = df.unstack(["i2", "i3", "i4", "i5", "i6", "i7"]) + expected = DataFrame( + [[1]], + columns=MultiIndex.from_tuples( + [[0, 0, 1, 0, 0, 0, 1]], + names=["c1", "i2", "i3", "i4", "i5", "i6", "i7"], + ), + index=Index([0], name="i1"), + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_multi_level_cols(self): + # PH 24729: Unstack a df with multi level columns + df = DataFrame( + [[0.0, 0.0], [0.0, 0.0]], + columns=MultiIndex.from_tuples( + [["B", "C"], ["B", "D"]], names=["c1", "c2"] + ), + index=MultiIndex.from_tuples( + [[10, 20, 30], [10, 20, 40]], names=["i1", "i2", "i3"] + ), + ) + assert df.unstack(["i2", "i1"]).columns.names[-2:] == ["i2", "i1"] + + def test_unstack_multi_level_rows_and_cols(self): + # PH 28306: Unstack df with multi level cols and rows + df = DataFrame( + [[1, 2], [3, 4], [-1, -2], [-3, -4]], + columns=MultiIndex.from_tuples([["a", "b", "c"], ["d", "e", "f"]]), + index=MultiIndex.from_tuples( + [ + ["m1", "P3", 222], + ["m1", "A5", 111], + ["m2", "P3", 222], + ["m2", "A5", 111], + ], + names=["i1", "i2", "i3"], + ), + ) + result = df.unstack(["i3", "i2"]) + expected = df.unstack(["i3"]).unstack(["i2"]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("idx", [("jim", "joe"), ("joe", "jim")]) + @pytest.mark.parametrize("lev", list(range(2))) + def test_unstack_nan_index1(self, idx, lev): + # GH7466 + def cast(val): + val_str = "" if val != val else val + return f"{val_str:1}" + + df = DataFrame( + { + "jim": ["a", "b", np.nan, "d"], + "joe": ["w", "x", "y", "z"], + "jolie": ["a.w", "b.x", " .y", "d.z"], + } + ) + + left = df.set_index(["jim", "joe"]).unstack()["jolie"] + right = df.set_index(["joe", "jim"]).unstack()["jolie"].T + tm.assert_frame_equal(left, right) + + mi = df.set_index(list(idx)) + udf = mi.unstack(level=lev) + assert udf.notna().values.sum() == len(df) + mk_list = lambda a: list(a) if isinstance(a, tuple) else [a] + rows, cols = udf["jolie"].notna().values.nonzero() + for i, j in zip(rows, cols): + left = sorted(udf["jolie"].iloc[i, j].split(".")) + right = mk_list(udf["jolie"].index[i]) + mk_list(udf["jolie"].columns[j]) + right = sorted(map(cast, right)) + assert left == right + + @pytest.mark.parametrize("idx", itertools.permutations(["1st", "2nd", "3rd"])) + @pytest.mark.parametrize("lev", list(range(3))) + @pytest.mark.parametrize("col", ["4th", "5th"]) + def test_unstack_nan_index_repeats(self, idx, lev, col): + def cast(val): + val_str = "" if val != val else val + return f"{val_str:1}" + + df = DataFrame( + { + "1st": ["d"] * 3 + + [np.nan] * 5 + + ["a"] * 2 + + ["c"] * 3 + + ["e"] * 2 + + ["b"] * 5, + "2nd": ["y"] * 2 + + ["w"] * 3 + + [np.nan] * 3 + + ["z"] * 4 + + [np.nan] * 3 + + ["x"] * 3 + + [np.nan] * 2, + "3rd": [ + 67, + 39, + 53, + 72, + 57, + 80, + 31, + 18, + 11, + 30, + 59, + 50, + 62, + 59, + 76, + 52, + 14, + 53, + 60, + 51, + ], + } + ) + + df["4th"], df["5th"] = ( + df.apply(lambda r: ".".join(map(cast, r)), axis=1), + df.apply(lambda r: ".".join(map(cast, r.iloc[::-1])), axis=1), + ) + + mi = df.set_index(list(idx)) + udf = mi.unstack(level=lev) + assert udf.notna().values.sum() == 2 * len(df) + mk_list = lambda a: list(a) if isinstance(a, tuple) else [a] + rows, cols = udf[col].notna().values.nonzero() + for i, j in zip(rows, cols): + left = sorted(udf[col].iloc[i, j].split(".")) + right = mk_list(udf[col].index[i]) + mk_list(udf[col].columns[j]) + right = sorted(map(cast, right)) + assert left == right + + def test_unstack_nan_index2(self): + # GH7403 + df = DataFrame({"A": list("aaaabbbb"), "B": range(8), "C": range(8)}) + # Explicit cast to avoid implicit cast when setting to np.nan + df = df.astype({"B": "float"}) + df.iloc[3, 1] = np.nan + left = df.set_index(["A", "B"]).unstack(0) + + vals = [ + [3, 0, 1, 2, np.nan, np.nan, np.nan, np.nan], + [np.nan, np.nan, np.nan, np.nan, 4, 5, 6, 7], + ] + vals = list(map(list, zip(*vals))) + idx = Index([np.nan, 0, 1, 2, 4, 5, 6, 7], name="B") + cols = MultiIndex( + levels=[["C"], ["a", "b"]], codes=[[0, 0], [0, 1]], names=[None, "A"] + ) + + right = DataFrame(vals, columns=cols, index=idx) + tm.assert_frame_equal(left, right) + + df = DataFrame({"A": list("aaaabbbb"), "B": list(range(4)) * 2, "C": range(8)}) + # Explicit cast to avoid implicit cast when setting to np.nan + df = df.astype({"B": "float"}) + df.iloc[2, 1] = np.nan + left = df.set_index(["A", "B"]).unstack(0) + + vals = [[2, np.nan], [0, 4], [1, 5], [np.nan, 6], [3, 7]] + cols = MultiIndex( + levels=[["C"], ["a", "b"]], codes=[[0, 0], [0, 1]], names=[None, "A"] + ) + idx = Index([np.nan, 0, 1, 2, 3], name="B") + right = DataFrame(vals, columns=cols, index=idx) + tm.assert_frame_equal(left, right) + + df = DataFrame({"A": list("aaaabbbb"), "B": list(range(4)) * 2, "C": range(8)}) + # Explicit cast to avoid implicit cast when setting to np.nan + df = df.astype({"B": "float"}) + df.iloc[3, 1] = np.nan + left = df.set_index(["A", "B"]).unstack(0) + + vals = [[3, np.nan], [0, 4], [1, 5], [2, 6], [np.nan, 7]] + cols = MultiIndex( + levels=[["C"], ["a", "b"]], codes=[[0, 0], [0, 1]], names=[None, "A"] + ) + idx = Index([np.nan, 0, 1, 2, 3], name="B") + right = DataFrame(vals, columns=cols, index=idx) + tm.assert_frame_equal(left, right) + + def test_unstack_nan_index3(self, using_array_manager): + # GH7401 + df = DataFrame( + { + "A": list("aaaaabbbbb"), + "B": (date_range("2012-01-01", periods=5).tolist() * 2), + "C": np.arange(10), + } + ) + + df.iloc[3, 1] = np.nan + left = df.set_index(["A", "B"]).unstack() + + vals = np.array([[3, 0, 1, 2, np.nan, 4], [np.nan, 5, 6, 7, 8, 9]]) + idx = Index(["a", "b"], name="A") + cols = MultiIndex( + levels=[["C"], date_range("2012-01-01", periods=5)], + codes=[[0, 0, 0, 0, 0, 0], [-1, 0, 1, 2, 3, 4]], + names=[None, "B"], + ) + + right = DataFrame(vals, columns=cols, index=idx) + if using_array_manager: + # INFO(ArrayManager) with ArrayManager preserve dtype where possible + cols = right.columns[[1, 2, 3, 5]] + right[cols] = right[cols].astype(df["C"].dtype) + tm.assert_frame_equal(left, right) + + def test_unstack_nan_index4(self): + # GH4862 + vals = [ + ["Hg", np.nan, np.nan, 680585148], + ["U", 0.0, np.nan, 680585148], + ["Pb", 7.07e-06, np.nan, 680585148], + ["Sn", 2.3614e-05, 0.0133, 680607017], + ["Ag", 0.0, 0.0133, 680607017], + ["Hg", -0.00015, 0.0133, 680607017], + ] + df = DataFrame( + vals, + columns=["agent", "change", "dosage", "s_id"], + index=[17263, 17264, 17265, 17266, 17267, 17268], + ) + + left = df.copy().set_index(["s_id", "dosage", "agent"]).unstack() + + vals = [ + [np.nan, np.nan, 7.07e-06, np.nan, 0.0], + [0.0, -0.00015, np.nan, 2.3614e-05, np.nan], + ] + + idx = MultiIndex( + levels=[[680585148, 680607017], [0.0133]], + codes=[[0, 1], [-1, 0]], + names=["s_id", "dosage"], + ) + + cols = MultiIndex( + levels=[["change"], ["Ag", "Hg", "Pb", "Sn", "U"]], + codes=[[0, 0, 0, 0, 0], [0, 1, 2, 3, 4]], + names=[None, "agent"], + ) + + right = DataFrame(vals, columns=cols, index=idx) + tm.assert_frame_equal(left, right) + + left = df.loc[17264:].copy().set_index(["s_id", "dosage", "agent"]) + tm.assert_frame_equal(left.unstack(), right) + + def test_unstack_nan_index5(self): + # GH9497 - multiple unstack with nulls + df = DataFrame( + { + "1st": [1, 2, 1, 2, 1, 2], + "2nd": date_range("2014-02-01", periods=6, freq="D"), + "jim": 100 + np.arange(6), + "joe": (np.random.default_rng(2).standard_normal(6) * 10).round(2), + } + ) + + df["3rd"] = df["2nd"] - pd.Timestamp("2014-02-02") + df.loc[1, "2nd"] = df.loc[3, "2nd"] = np.nan + df.loc[1, "3rd"] = df.loc[4, "3rd"] = np.nan + + left = df.set_index(["1st", "2nd", "3rd"]).unstack(["2nd", "3rd"]) + assert left.notna().values.sum() == 2 * len(df) + + for col in ["jim", "joe"]: + for _, r in df.iterrows(): + key = r["1st"], (col, r["2nd"], r["3rd"]) + assert r[col] == left.loc[key] + + def test_stack_datetime_column_multiIndex(self, future_stack): + # GH 8039 + t = datetime(2014, 1, 1) + df = DataFrame([1, 2, 3, 4], columns=MultiIndex.from_tuples([(t, "A", "B")])) + warn = None if future_stack else FutureWarning + msg = "The previous implementation of stack is deprecated" + with tm.assert_produces_warning(warn, match=msg): + result = df.stack(future_stack=future_stack) + + eidx = MultiIndex.from_product([(0, 1, 2, 3), ("B",)]) + ecols = MultiIndex.from_tuples([(t, "A")]) + expected = DataFrame([1, 2, 3, 4], index=eidx, columns=ecols) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize( + "multiindex_columns", + [ + [0, 1, 2, 3, 4], + [0, 1, 2, 3], + [0, 1, 2, 4], + [0, 1, 2], + [1, 2, 3], + [2, 3, 4], + [0, 1], + [0, 2], + [0, 3], + [0], + [2], + [4], + [4, 3, 2, 1, 0], + [3, 2, 1, 0], + [4, 2, 1, 0], + [2, 1, 0], + [3, 2, 1], + [4, 3, 2], + [1, 0], + [2, 0], + [3, 0], + ], + ) + @pytest.mark.parametrize("level", (-1, 0, 1, [0, 1], [1, 0])) + def test_stack_partial_multiIndex(self, multiindex_columns, level, future_stack): + # GH 8844 + dropna = False if not future_stack else lib.no_default + full_multiindex = MultiIndex.from_tuples( + [("B", "x"), ("B", "z"), ("A", "y"), ("C", "x"), ("C", "u")], + names=["Upper", "Lower"], + ) + multiindex = full_multiindex[multiindex_columns] + df = DataFrame( + np.arange(3 * len(multiindex)).reshape(3, len(multiindex)), + columns=multiindex, + ) + result = df.stack(level=level, dropna=dropna, future_stack=future_stack) + + if isinstance(level, int) and not future_stack: + # Stacking a single level should not make any all-NaN rows, + # so df.stack(level=level, dropna=False) should be the same + # as df.stack(level=level, dropna=True). + expected = df.stack(level=level, dropna=True, future_stack=future_stack) + if isinstance(expected, Series): + tm.assert_series_equal(result, expected) + else: + tm.assert_frame_equal(result, expected) + + df.columns = MultiIndex.from_tuples( + df.columns.to_numpy(), names=df.columns.names + ) + expected = df.stack(level=level, dropna=dropna, future_stack=future_stack) + if isinstance(expected, Series): + tm.assert_series_equal(result, expected) + else: + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_full_multiIndex(self, future_stack): + # GH 8844 + full_multiindex = MultiIndex.from_tuples( + [("B", "x"), ("B", "z"), ("A", "y"), ("C", "x"), ("C", "u")], + names=["Upper", "Lower"], + ) + df = DataFrame(np.arange(6).reshape(2, 3), columns=full_multiindex[[0, 1, 3]]) + dropna = False if not future_stack else lib.no_default + result = df.stack(dropna=dropna, future_stack=future_stack) + expected = DataFrame( + [[0, 2], [1, np.nan], [3, 5], [4, np.nan]], + index=MultiIndex( + levels=[[0, 1], ["u", "x", "y", "z"]], + codes=[[0, 0, 1, 1], [1, 3, 1, 3]], + names=[None, "Lower"], + ), + columns=Index(["B", "C"], name="Upper"), + ) + expected["B"] = expected["B"].astype(df.dtypes.iloc[0]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("ordered", [False, True]) + def test_stack_preserve_categorical_dtype(self, ordered, future_stack): + # GH13854 + cidx = pd.CategoricalIndex(list("yxz"), categories=list("xyz"), ordered=ordered) + df = DataFrame([[10, 11, 12]], columns=cidx) + result = df.stack(future_stack=future_stack) + + # `MultiIndex.from_product` preserves categorical dtype - + # it's tested elsewhere. + midx = MultiIndex.from_product([df.index, cidx]) + expected = Series([10, 11, 12], index=midx) + + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize("ordered", [False, True]) + @pytest.mark.parametrize( + "labels,data", + [ + (list("xyz"), [10, 11, 12, 13, 14, 15]), + (list("zyx"), [14, 15, 12, 13, 10, 11]), + ], + ) + def test_stack_multi_preserve_categorical_dtype( + self, ordered, labels, data, future_stack + ): + # GH-36991 + cidx = pd.CategoricalIndex(labels, categories=sorted(labels), ordered=ordered) + cidx2 = pd.CategoricalIndex(["u", "v"], ordered=ordered) + midx = MultiIndex.from_product([cidx, cidx2]) + df = DataFrame([sorted(data)], columns=midx) + result = df.stack([0, 1], future_stack=future_stack) + + labels = labels if future_stack else sorted(labels) + s_cidx = pd.CategoricalIndex(labels, ordered=ordered) + expected_data = sorted(data) if future_stack else data + expected = Series( + expected_data, index=MultiIndex.from_product([[0], s_cidx, cidx2]) + ) + + tm.assert_series_equal(result, expected) + + def test_stack_preserve_categorical_dtype_values(self, future_stack): + # GH-23077 + cat = pd.Categorical(["a", "a", "b", "c"]) + df = DataFrame({"A": cat, "B": cat}) + result = df.stack(future_stack=future_stack) + index = MultiIndex.from_product([[0, 1, 2, 3], ["A", "B"]]) + expected = Series( + pd.Categorical(["a", "a", "a", "a", "b", "b", "c", "c"]), index=index + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") + @pytest.mark.parametrize( + "index, columns", + [ + ([0, 0, 1, 1], MultiIndex.from_product([[1, 2], ["a", "b"]])), + ([0, 0, 2, 3], MultiIndex.from_product([[1, 2], ["a", "b"]])), + ([0, 1, 2, 3], MultiIndex.from_product([[1, 2], ["a", "b"]])), + ], + ) + def test_stack_multi_columns_non_unique_index(self, index, columns, future_stack): + # GH-28301 + + df = DataFrame(index=index, columns=columns).fillna(1) + stacked = df.stack(future_stack=future_stack) + new_index = MultiIndex.from_tuples(stacked.index.to_numpy()) + expected = DataFrame( + stacked.to_numpy(), index=new_index, columns=stacked.columns + ) + tm.assert_frame_equal(stacked, expected) + stacked_codes = np.asarray(stacked.index.codes) + expected_codes = np.asarray(new_index.codes) + tm.assert_numpy_array_equal(stacked_codes, expected_codes) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize( + "vals1, vals2, dtype1, dtype2, expected_dtype", + [ + ([1, 2], [3.0, 4.0], "Int64", "Float64", "Float64"), + ([1, 2], ["foo", "bar"], "Int64", "string", "object"), + ], + ) + def test_stack_multi_columns_mixed_extension_types( + self, vals1, vals2, dtype1, dtype2, expected_dtype, future_stack + ): + # GH45740 + df = DataFrame( + { + ("A", 1): Series(vals1, dtype=dtype1), + ("A", 2): Series(vals2, dtype=dtype2), + } + ) + result = df.stack(future_stack=future_stack) + expected = ( + df.astype(object).stack(future_stack=future_stack).astype(expected_dtype) + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("level", [0, 1]) + def test_unstack_mixed_extension_types(self, level): + index = MultiIndex.from_tuples([("A", 0), ("A", 1), ("B", 1)], names=["a", "b"]) + df = DataFrame( + { + "A": pd.array([0, 1, None], dtype="Int64"), + "B": pd.Categorical(["a", "a", "b"]), + }, + index=index, + ) + + result = df.unstack(level=level) + expected = df.astype(object).unstack(level=level) + if level == 0: + expected[("A", "B")] = expected[("A", "B")].fillna(pd.NA) + else: + expected[("A", 0)] = expected[("A", 0)].fillna(pd.NA) + + expected_dtypes = Series( + [df.A.dtype] * 2 + [df.B.dtype] * 2, index=result.columns + ) + tm.assert_series_equal(result.dtypes, expected_dtypes) + tm.assert_frame_equal(result.astype(object), expected) + + @pytest.mark.parametrize("level", [0, "baz"]) + def test_unstack_swaplevel_sortlevel(self, level): + # GH 20994 + mi = MultiIndex.from_product([[0], ["d", "c"]], names=["bar", "baz"]) + df = DataFrame([[0, 2], [1, 3]], index=mi, columns=["B", "A"]) + df.columns.name = "foo" + + expected = DataFrame( + [[3, 1, 2, 0]], + columns=MultiIndex.from_tuples( + [("c", "A"), ("c", "B"), ("d", "A"), ("d", "B")], names=["baz", "foo"] + ), + ) + expected.index.name = "bar" + + result = df.unstack().swaplevel(axis=1).sort_index(axis=1, level=level) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["float64", "Float64"]) +def test_unstack_sort_false(frame_or_series, dtype): + # GH 15105 + index = MultiIndex.from_tuples( + [("two", "z", "b"), ("two", "y", "a"), ("one", "z", "b"), ("one", "y", "a")] + ) + obj = frame_or_series(np.arange(1.0, 5.0), index=index, dtype=dtype) + result = obj.unstack(level=-1, sort=False) + + if frame_or_series is DataFrame: + expected_columns = MultiIndex.from_tuples([(0, "b"), (0, "a")]) + else: + expected_columns = ["b", "a"] + expected = DataFrame( + [[1.0, np.nan], [np.nan, 2.0], [3.0, np.nan], [np.nan, 4.0]], + columns=expected_columns, + index=MultiIndex.from_tuples( + [("two", "z"), ("two", "y"), ("one", "z"), ("one", "y")] + ), + dtype=dtype, + ) + tm.assert_frame_equal(result, expected) + + result = obj.unstack(level=[1, 2], sort=False) + + if frame_or_series is DataFrame: + expected_columns = MultiIndex.from_tuples([(0, "z", "b"), (0, "y", "a")]) + else: + expected_columns = MultiIndex.from_tuples([("z", "b"), ("y", "a")]) + expected = DataFrame( + [[1.0, 2.0], [3.0, 4.0]], + index=["two", "one"], + columns=expected_columns, + dtype=dtype, + ) + tm.assert_frame_equal(result, expected) + + +def test_unstack_fill_frame_object(): + # GH12815 Test unstacking with object. + data = Series(["a", "b", "c", "a"], dtype="object") + data.index = MultiIndex.from_tuples( + [("x", "a"), ("x", "b"), ("y", "b"), ("z", "a")] + ) + + # By default missing values will be NaN + result = data.unstack() + expected = DataFrame( + {"a": ["a", np.nan, "a"], "b": ["b", "c", np.nan]}, + index=list("xyz"), + dtype=object, + ) + tm.assert_frame_equal(result, expected) + + # Fill with any value replaces missing values as expected + result = data.unstack(fill_value="d") + expected = DataFrame( + {"a": ["a", "d", "a"], "b": ["b", "c", "d"]}, index=list("xyz"), dtype=object + ) + tm.assert_frame_equal(result, expected) + + +def test_unstack_timezone_aware_values(): + # GH 18338 + df = DataFrame( + { + "timestamp": [pd.Timestamp("2017-08-27 01:00:00.709949+0000", tz="UTC")], + "a": ["a"], + "b": ["b"], + "c": ["c"], + }, + columns=["timestamp", "a", "b", "c"], + ) + result = df.set_index(["a", "b"]).unstack() + expected = DataFrame( + [[pd.Timestamp("2017-08-27 01:00:00.709949+0000", tz="UTC"), "c"]], + index=Index(["a"], name="a"), + columns=MultiIndex( + levels=[["timestamp", "c"], ["b"]], + codes=[[0, 1], [0, 0]], + names=[None, "b"], + ), + ) + tm.assert_frame_equal(result, expected) + + +def test_stack_timezone_aware_values(future_stack): + # GH 19420 + ts = date_range(freq="D", start="20180101", end="20180103", tz="America/New_York") + df = DataFrame({"A": ts}, index=["a", "b", "c"]) + result = df.stack(future_stack=future_stack) + expected = Series( + ts, + index=MultiIndex(levels=[["a", "b", "c"], ["A"]], codes=[[0, 1, 2], [0, 0, 0]]), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore:The previous implementation of stack is deprecated") +@pytest.mark.parametrize("dropna", [True, False, lib.no_default]) +def test_stack_empty_frame(dropna, future_stack): + # GH 36113 + levels = [np.array([], dtype=np.int64), np.array([], dtype=np.int64)] + expected = Series(dtype=np.float64, index=MultiIndex(levels=levels, codes=[[], []])) + if future_stack and dropna is not lib.no_default: + with pytest.raises(ValueError, match="dropna must be unspecified"): + DataFrame(dtype=np.float64).stack(dropna=dropna, future_stack=future_stack) + else: + result = DataFrame(dtype=np.float64).stack( + dropna=dropna, future_stack=future_stack + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore:The previous implementation of stack is deprecated") +@pytest.mark.parametrize("dropna", [True, False, lib.no_default]) +@pytest.mark.parametrize("fill_value", [None, 0]) +def test_stack_unstack_empty_frame(dropna, fill_value, future_stack): + # GH 36113 + if future_stack and dropna is not lib.no_default: + with pytest.raises(ValueError, match="dropna must be unspecified"): + DataFrame(dtype=np.int64).stack( + dropna=dropna, future_stack=future_stack + ).unstack(fill_value=fill_value) + else: + result = ( + DataFrame(dtype=np.int64) + .stack(dropna=dropna, future_stack=future_stack) + .unstack(fill_value=fill_value) + ) + expected = DataFrame(dtype=np.int64) + tm.assert_frame_equal(result, expected) + + +def test_unstack_single_index_series(): + # GH 36113 + msg = r"index must be a MultiIndex to unstack.*" + with pytest.raises(ValueError, match=msg): + Series(dtype=np.int64).unstack() + + +def test_unstacking_multi_index_df(): + # see gh-30740 + df = DataFrame( + { + "name": ["Alice", "Bob"], + "score": [9.5, 8], + "employed": [False, True], + "kids": [0, 0], + "gender": ["female", "male"], + } + ) + df = df.set_index(["name", "employed", "kids", "gender"]) + df = df.unstack(["gender"], fill_value=0) + expected = df.unstack("employed", fill_value=0).unstack("kids", fill_value=0) + result = df.unstack(["employed", "kids"], fill_value=0) + expected = DataFrame( + [[9.5, 0.0, 0.0, 0.0], [0.0, 0.0, 0.0, 8.0]], + index=Index(["Alice", "Bob"], name="name"), + columns=MultiIndex.from_tuples( + [ + ("score", "female", False, 0), + ("score", "female", True, 0), + ("score", "male", False, 0), + ("score", "male", True, 0), + ], + names=[None, "gender", "employed", "kids"], + ), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore:The previous implementation of stack is deprecated") +def test_stack_positional_level_duplicate_column_names(future_stack): + # https://github.com/pandas-dev/pandas/issues/36353 + columns = MultiIndex.from_product([("x", "y"), ("y", "z")], names=["a", "a"]) + df = DataFrame([[1, 1, 1, 1]], columns=columns) + result = df.stack(0, future_stack=future_stack) + + new_columns = Index(["y", "z"], name="a") + new_index = MultiIndex.from_tuples([(0, "x"), (0, "y")], names=[None, "a"]) + expected = DataFrame([[1, 1], [1, 1]], index=new_index, columns=new_columns) + + tm.assert_frame_equal(result, expected) + + +def test_unstack_non_slice_like_blocks(using_array_manager): + # Case where the mgr_locs of a DataFrame's underlying blocks are not slice-like + + mi = MultiIndex.from_product([range(5), ["A", "B", "C"]]) + df = DataFrame( + { + 0: np.random.default_rng(2).standard_normal(15), + 1: np.random.default_rng(2).standard_normal(15).astype(np.int64), + 2: np.random.default_rng(2).standard_normal(15), + 3: np.random.default_rng(2).standard_normal(15), + }, + index=mi, + ) + if not using_array_manager: + assert any(not x.mgr_locs.is_slice_like for x in df._mgr.blocks) + + res = df.unstack() + + expected = pd.concat([df[n].unstack() for n in range(4)], keys=range(4), axis=1) + tm.assert_frame_equal(res, expected) + + +@pytest.mark.filterwarnings("ignore:The previous implementation of stack is deprecated") +def test_stack_sort_false(future_stack): + # GH 15105 + data = [[1, 2, 3.0, 4.0], [2, 3, 4.0, 5.0], [3, 4, np.nan, np.nan]] + df = DataFrame( + data, + columns=MultiIndex( + levels=[["B", "A"], ["x", "y"]], codes=[[0, 0, 1, 1], [0, 1, 0, 1]] + ), + ) + kwargs = {} if future_stack else {"sort": False} + result = df.stack(level=0, future_stack=future_stack, **kwargs) + if future_stack: + expected = DataFrame( + { + "x": [1.0, 3.0, 2.0, 4.0, 3.0, np.nan], + "y": [2.0, 4.0, 3.0, 5.0, 4.0, np.nan], + }, + index=MultiIndex.from_arrays( + [[0, 0, 1, 1, 2, 2], ["B", "A", "B", "A", "B", "A"]] + ), + ) + else: + expected = DataFrame( + {"x": [1.0, 3.0, 2.0, 4.0, 3.0], "y": [2.0, 4.0, 3.0, 5.0, 4.0]}, + index=MultiIndex.from_arrays([[0, 0, 1, 1, 2], ["B", "A", "B", "A", "B"]]), + ) + tm.assert_frame_equal(result, expected) + + # Codes sorted in this call + df = DataFrame( + data, + columns=MultiIndex.from_arrays([["B", "B", "A", "A"], ["x", "y", "x", "y"]]), + ) + kwargs = {} if future_stack else {"sort": False} + result = df.stack(level=0, future_stack=future_stack, **kwargs) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore:The previous implementation of stack is deprecated") +def test_stack_sort_false_multi_level(future_stack): + # GH 15105 + idx = MultiIndex.from_tuples([("weight", "kg"), ("height", "m")]) + df = DataFrame([[1.0, 2.0], [3.0, 4.0]], index=["cat", "dog"], columns=idx) + kwargs = {} if future_stack else {"sort": False} + result = df.stack([0, 1], future_stack=future_stack, **kwargs) + expected_index = MultiIndex.from_tuples( + [ + ("cat", "weight", "kg"), + ("cat", "height", "m"), + ("dog", "weight", "kg"), + ("dog", "height", "m"), + ] + ) + expected = Series([1.0, 2.0, 3.0, 4.0], index=expected_index) + tm.assert_series_equal(result, expected) + + +class TestStackUnstackMultiLevel: + def test_unstack(self, multiindex_year_month_day_dataframe_random_data): + # just check that it works for now + ymd = multiindex_year_month_day_dataframe_random_data + + unstacked = ymd.unstack() + unstacked.unstack() + + # test that ints work + ymd.astype(int).unstack() + + # test that int32 work + ymd.astype(np.int32).unstack() + + @pytest.mark.parametrize( + "result_rows,result_columns,index_product,expected_row", + [ + ( + [[1, 1, None, None, 30.0, None], [2, 2, None, None, 30.0, None]], + ["ix1", "ix2", "col1", "col2", "col3", "col4"], + 2, + [None, None, 30.0, None], + ), + ( + [[1, 1, None, None, 30.0], [2, 2, None, None, 30.0]], + ["ix1", "ix2", "col1", "col2", "col3"], + 2, + [None, None, 30.0], + ), + ( + [[1, 1, None, None, 30.0], [2, None, None, None, 30.0]], + ["ix1", "ix2", "col1", "col2", "col3"], + None, + [None, None, 30.0], + ), + ], + ) + def test_unstack_partial( + self, result_rows, result_columns, index_product, expected_row + ): + # check for regressions on this issue: + # https://github.com/pandas-dev/pandas/issues/19351 + # make sure DataFrame.unstack() works when its run on a subset of the DataFrame + # and the Index levels contain values that are not present in the subset + result = DataFrame(result_rows, columns=result_columns).set_index( + ["ix1", "ix2"] + ) + result = result.iloc[1:2].unstack("ix2") + expected = DataFrame( + [expected_row], + columns=MultiIndex.from_product( + [result_columns[2:], [index_product]], names=[None, "ix2"] + ), + index=Index([2], name="ix1"), + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_multiple_no_empty_columns(self): + index = MultiIndex.from_tuples( + [(0, "foo", 0), (0, "bar", 0), (1, "baz", 1), (1, "qux", 1)] + ) + + s = Series(np.random.default_rng(2).standard_normal(4), index=index) + + unstacked = s.unstack([1, 2]) + expected = unstacked.dropna(axis=1, how="all") + tm.assert_frame_equal(unstacked, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack(self, multiindex_year_month_day_dataframe_random_data, future_stack): + ymd = multiindex_year_month_day_dataframe_random_data + + # regular roundtrip + unstacked = ymd.unstack() + restacked = unstacked.stack(future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + tm.assert_frame_equal(restacked, ymd) + + unlexsorted = ymd.sort_index(level=2) + + unstacked = unlexsorted.unstack(2) + restacked = unstacked.stack(future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + tm.assert_frame_equal(restacked.sort_index(level=0), ymd) + + unlexsorted = unlexsorted[::-1] + unstacked = unlexsorted.unstack(1) + restacked = unstacked.stack(future_stack=future_stack).swaplevel(1, 2) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + tm.assert_frame_equal(restacked.sort_index(level=0), ymd) + + unlexsorted = unlexsorted.swaplevel(0, 1) + unstacked = unlexsorted.unstack(0).swaplevel(0, 1, axis=1) + restacked = unstacked.stack(0, future_stack=future_stack).swaplevel(1, 2) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + tm.assert_frame_equal(restacked.sort_index(level=0), ymd) + + # columns unsorted + unstacked = ymd.unstack() + restacked = unstacked.stack(future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + tm.assert_frame_equal(restacked, ymd) + + # more than 2 levels in the columns + unstacked = ymd.unstack(1).unstack(1) + + result = unstacked.stack(1, future_stack=future_stack) + expected = ymd.unstack() + tm.assert_frame_equal(result, expected) + + result = unstacked.stack(2, future_stack=future_stack) + expected = ymd.unstack(1) + tm.assert_frame_equal(result, expected) + + result = unstacked.stack(0, future_stack=future_stack) + expected = ymd.stack(future_stack=future_stack).unstack(1).unstack(1) + tm.assert_frame_equal(result, expected) + + # not all levels present in each echelon + unstacked = ymd.unstack(2).loc[:, ::3] + stacked = unstacked.stack(future_stack=future_stack).stack( + future_stack=future_stack + ) + ymd_stacked = ymd.stack(future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + stacked = stacked.dropna(how="all") + ymd_stacked = ymd_stacked.dropna(how="all") + tm.assert_series_equal(stacked, ymd_stacked.reindex(stacked.index)) + + # stack with negative number + result = ymd.unstack(0).stack(-2, future_stack=future_stack) + expected = ymd.unstack(0).stack(0, future_stack=future_stack) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize( + "idx, columns, exp_idx", + [ + [ + list("abab"), + ["1st", "2nd", "1st"], + MultiIndex( + levels=[["a", "b"], ["1st", "2nd"]], + codes=[np.tile(np.arange(2).repeat(3), 2), np.tile([0, 1, 0], 4)], + ), + ], + [ + MultiIndex.from_tuples((("a", 2), ("b", 1), ("a", 1), ("b", 2))), + ["1st", "2nd", "1st"], + MultiIndex( + levels=[["a", "b"], [1, 2], ["1st", "2nd"]], + codes=[ + np.tile(np.arange(2).repeat(3), 2), + np.repeat([1, 0, 1], [3, 6, 3]), + np.tile([0, 1, 0], 4), + ], + ), + ], + ], + ) + def test_stack_duplicate_index(self, idx, columns, exp_idx, future_stack): + # GH10417 + df = DataFrame( + np.arange(12).reshape(4, 3), + index=idx, + columns=columns, + ) + if future_stack: + msg = "Columns with duplicate values are not supported in stack" + with pytest.raises(ValueError, match=msg): + df.stack(future_stack=future_stack) + else: + result = df.stack(future_stack=future_stack) + expected = Series(np.arange(12), index=exp_idx) + tm.assert_series_equal(result, expected) + assert result.index.is_unique is False + li, ri = result.index, expected.index + tm.assert_index_equal(li, ri) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_unstack_odd_failure(self, future_stack): + mi = MultiIndex.from_arrays( + [ + ["Fri"] * 4 + ["Sat"] * 2 + ["Sun"] * 2 + ["Thu"] * 3, + ["Dinner"] * 2 + ["Lunch"] * 2 + ["Dinner"] * 5 + ["Lunch"] * 2, + ["No", "Yes"] * 4 + ["No", "No", "Yes"], + ], + names=["day", "time", "smoker"], + ) + df = DataFrame( + { + "sum": np.arange(11, dtype="float64"), + "len": np.arange(11, dtype="float64"), + }, + index=mi, + ) + # it works, #2100 + result = df.unstack(2) + + recons = result.stack(future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + recons = recons.dropna(how="all") + tm.assert_frame_equal(recons, df) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_mixed_dtype(self, multiindex_dataframe_random_data, future_stack): + frame = multiindex_dataframe_random_data + + df = frame.T + df["foo", "four"] = "foo" + df = df.sort_index(level=1, axis=1) + + stacked = df.stack(future_stack=future_stack) + result = df["foo"].stack(future_stack=future_stack).sort_index() + tm.assert_series_equal(stacked["foo"], result, check_names=False) + assert result.name is None + assert stacked["bar"].dtype == np.float64 + + def test_unstack_bug(self, future_stack): + df = DataFrame( + { + "state": ["naive", "naive", "naive", "active", "active", "active"], + "exp": ["a", "b", "b", "b", "a", "a"], + "barcode": [1, 2, 3, 4, 1, 3], + "v": ["hi", "hi", "bye", "bye", "bye", "peace"], + "extra": np.arange(6.0), + } + ) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["state", "exp", "barcode", "v"]).apply(len) + + unstacked = result.unstack() + restacked = unstacked.stack(future_stack=future_stack) + tm.assert_series_equal(restacked, result.reindex(restacked.index).astype(float)) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_unstack_preserve_names( + self, multiindex_dataframe_random_data, future_stack + ): + frame = multiindex_dataframe_random_data + + unstacked = frame.unstack() + assert unstacked.index.name == "first" + assert unstacked.columns.names == ["exp", "second"] + + restacked = unstacked.stack(future_stack=future_stack) + assert restacked.index.names == frame.index.names + + @pytest.mark.parametrize("method", ["stack", "unstack"]) + def test_stack_unstack_wrong_level_name( + self, method, multiindex_dataframe_random_data, future_stack + ): + # GH 18303 - wrong level name should raise + frame = multiindex_dataframe_random_data + + # A DataFrame with flat axes: + df = frame.loc["foo"] + + kwargs = {"future_stack": future_stack} if method == "stack" else {} + with pytest.raises(KeyError, match="does not match index name"): + getattr(df, method)("mistake", **kwargs) + + if method == "unstack": + # Same on a Series: + s = df.iloc[:, 0] + with pytest.raises(KeyError, match="does not match index name"): + getattr(s, method)("mistake", **kwargs) + + def test_unstack_level_name(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + + result = frame.unstack("second") + expected = frame.unstack(level=1) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_level_name(self, multiindex_dataframe_random_data, future_stack): + frame = multiindex_dataframe_random_data + + unstacked = frame.unstack("second") + result = unstacked.stack("exp", future_stack=future_stack) + expected = frame.unstack().stack(0, future_stack=future_stack) + tm.assert_frame_equal(result, expected) + + result = frame.stack("exp", future_stack=future_stack) + expected = frame.stack(future_stack=future_stack) + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_unstack_multiple( + self, multiindex_year_month_day_dataframe_random_data, future_stack + ): + ymd = multiindex_year_month_day_dataframe_random_data + + unstacked = ymd.unstack(["year", "month"]) + expected = ymd.unstack("year").unstack("month") + tm.assert_frame_equal(unstacked, expected) + assert unstacked.columns.names == expected.columns.names + + # series + s = ymd["A"] + s_unstacked = s.unstack(["year", "month"]) + tm.assert_frame_equal(s_unstacked, expected["A"]) + + restacked = unstacked.stack(["year", "month"], future_stack=future_stack) + if future_stack: + # NA values in unstacked persist to restacked in version 3 + restacked = restacked.dropna(how="all") + restacked = restacked.swaplevel(0, 1).swaplevel(1, 2) + restacked = restacked.sort_index(level=0) + + tm.assert_frame_equal(restacked, ymd) + assert restacked.index.names == ymd.index.names + + # GH #451 + unstacked = ymd.unstack([1, 2]) + expected = ymd.unstack(1).unstack(1).dropna(axis=1, how="all") + tm.assert_frame_equal(unstacked, expected) + + unstacked = ymd.unstack([2, 1]) + expected = ymd.unstack(2).unstack(1).dropna(axis=1, how="all") + tm.assert_frame_equal(unstacked, expected.loc[:, unstacked.columns]) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_names_and_numbers( + self, multiindex_year_month_day_dataframe_random_data, future_stack + ): + ymd = multiindex_year_month_day_dataframe_random_data + + unstacked = ymd.unstack(["year", "month"]) + + # Can't use mixture of names and numbers to stack + with pytest.raises(ValueError, match="level should contain"): + unstacked.stack([0, "month"], future_stack=future_stack) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_multiple_out_of_bounds( + self, multiindex_year_month_day_dataframe_random_data, future_stack + ): + # nlevels == 3 + ymd = multiindex_year_month_day_dataframe_random_data + + unstacked = ymd.unstack(["year", "month"]) + + with pytest.raises(IndexError, match="Too many levels"): + unstacked.stack([2, 3], future_stack=future_stack) + with pytest.raises(IndexError, match="not a valid level number"): + unstacked.stack([-4, -3], future_stack=future_stack) + + def test_unstack_period_series(self): + # GH4342 + idx1 = pd.PeriodIndex( + ["2013-01", "2013-01", "2013-02", "2013-02", "2013-03", "2013-03"], + freq="M", + name="period", + ) + idx2 = Index(["A", "B"] * 3, name="str") + value = [1, 2, 3, 4, 5, 6] + + idx = MultiIndex.from_arrays([idx1, idx2]) + s = Series(value, index=idx) + + result1 = s.unstack() + result2 = s.unstack(level=1) + result3 = s.unstack(level=0) + + e_idx = pd.PeriodIndex( + ["2013-01", "2013-02", "2013-03"], freq="M", name="period" + ) + expected = DataFrame( + {"A": [1, 3, 5], "B": [2, 4, 6]}, index=e_idx, columns=["A", "B"] + ) + expected.columns.name = "str" + + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, expected) + tm.assert_frame_equal(result3, expected.T) + + idx1 = pd.PeriodIndex( + ["2013-01", "2013-01", "2013-02", "2013-02", "2013-03", "2013-03"], + freq="M", + name="period1", + ) + + idx2 = pd.PeriodIndex( + ["2013-12", "2013-11", "2013-10", "2013-09", "2013-08", "2013-07"], + freq="M", + name="period2", + ) + idx = MultiIndex.from_arrays([idx1, idx2]) + s = Series(value, index=idx) + + result1 = s.unstack() + result2 = s.unstack(level=1) + result3 = s.unstack(level=0) + + e_idx = pd.PeriodIndex( + ["2013-01", "2013-02", "2013-03"], freq="M", name="period1" + ) + e_cols = pd.PeriodIndex( + ["2013-07", "2013-08", "2013-09", "2013-10", "2013-11", "2013-12"], + freq="M", + name="period2", + ) + expected = DataFrame( + [ + [np.nan, np.nan, np.nan, np.nan, 2, 1], + [np.nan, np.nan, 4, 3, np.nan, np.nan], + [6, 5, np.nan, np.nan, np.nan, np.nan], + ], + index=e_idx, + columns=e_cols, + ) + + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, expected) + tm.assert_frame_equal(result3, expected.T) + + def test_unstack_period_frame(self): + # GH4342 + idx1 = pd.PeriodIndex( + ["2014-01", "2014-02", "2014-02", "2014-02", "2014-01", "2014-01"], + freq="M", + name="period1", + ) + idx2 = pd.PeriodIndex( + ["2013-12", "2013-12", "2014-02", "2013-10", "2013-10", "2014-02"], + freq="M", + name="period2", + ) + value = {"A": [1, 2, 3, 4, 5, 6], "B": [6, 5, 4, 3, 2, 1]} + idx = MultiIndex.from_arrays([idx1, idx2]) + df = DataFrame(value, index=idx) + + result1 = df.unstack() + result2 = df.unstack(level=1) + result3 = df.unstack(level=0) + + e_1 = pd.PeriodIndex(["2014-01", "2014-02"], freq="M", name="period1") + e_2 = pd.PeriodIndex( + ["2013-10", "2013-12", "2014-02", "2013-10", "2013-12", "2014-02"], + freq="M", + name="period2", + ) + e_cols = MultiIndex.from_arrays(["A A A B B B".split(), e_2]) + expected = DataFrame( + [[5, 1, 6, 2, 6, 1], [4, 2, 3, 3, 5, 4]], index=e_1, columns=e_cols + ) + + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, expected) + + e_1 = pd.PeriodIndex( + ["2014-01", "2014-02", "2014-01", "2014-02"], freq="M", name="period1" + ) + e_2 = pd.PeriodIndex( + ["2013-10", "2013-12", "2014-02"], freq="M", name="period2" + ) + e_cols = MultiIndex.from_arrays(["A A B B".split(), e_1]) + expected = DataFrame( + [[5, 4, 2, 3], [1, 2, 6, 5], [6, 3, 1, 4]], index=e_2, columns=e_cols + ) + + tm.assert_frame_equal(result3, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_multiple_bug(self, future_stack, using_infer_string): + # bug when some uniques are not present in the data GH#3170 + id_col = ([1] * 3) + ([2] * 3) + name = (["a"] * 3) + (["b"] * 3) + date = pd.to_datetime(["2013-01-03", "2013-01-04", "2013-01-05"] * 2) + var1 = np.random.default_rng(2).integers(0, 100, 6) + df = DataFrame({"ID": id_col, "NAME": name, "DATE": date, "VAR1": var1}) + + multi = df.set_index(["DATE", "ID"]) + multi.columns.name = "Params" + unst = multi.unstack("ID") + msg = re.escape("agg function failed [how->mean,dtype->") + if using_infer_string: + msg = "dtype 'str' does not support operation 'mean'" + with pytest.raises(TypeError, match=msg): + unst.resample("W-THU").mean() + down = unst.resample("W-THU").mean(numeric_only=True) + rs = down.stack("ID", future_stack=future_stack) + xp = ( + unst.loc[:, ["VAR1"]] + .resample("W-THU") + .mean() + .stack("ID", future_stack=future_stack) + ) + xp.columns.name = "Params" + tm.assert_frame_equal(rs, xp) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_dropna(self, future_stack): + # GH#3997 + df = DataFrame({"A": ["a1", "a2"], "B": ["b1", "b2"], "C": [1, 1]}) + df = df.set_index(["A", "B"]) + + dropna = False if not future_stack else lib.no_default + stacked = df.unstack().stack(dropna=dropna, future_stack=future_stack) + assert len(stacked) > len(stacked.dropna()) + + if future_stack: + with pytest.raises(ValueError, match="dropna must be unspecified"): + df.unstack().stack(dropna=True, future_stack=future_stack) + else: + stacked = df.unstack().stack(dropna=True, future_stack=future_stack) + tm.assert_frame_equal(stacked, stacked.dropna()) + + def test_unstack_multiple_hierarchical(self, future_stack): + df = DataFrame( + index=[ + [0, 0, 0, 0, 1, 1, 1, 1], + [0, 0, 1, 1, 0, 0, 1, 1], + [0, 1, 0, 1, 0, 1, 0, 1], + ], + columns=[[0, 0, 1, 1], [0, 1, 0, 1]], + ) + + df.index.names = ["a", "b", "c"] + df.columns.names = ["d", "e"] + + # it works! + df.unstack(["b", "c"]) + + def test_unstack_sparse_keyspace(self): + # memory problems with naive impl GH#2278 + # Generate Long File & Test Pivot + NUM_ROWS = 1000 + + df = DataFrame( + { + "A": np.random.default_rng(2).integers(100, size=NUM_ROWS), + "B": np.random.default_rng(3).integers(300, size=NUM_ROWS), + "C": np.random.default_rng(4).integers(-7, 7, size=NUM_ROWS), + "D": np.random.default_rng(5).integers(-19, 19, size=NUM_ROWS), + "E": np.random.default_rng(6).integers(3000, size=NUM_ROWS), + "F": np.random.default_rng(7).standard_normal(NUM_ROWS), + } + ) + + idf = df.set_index(["A", "B", "C", "D", "E"]) + + # it works! is sufficient + idf.unstack("E") + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_unstack_unobserved_keys(self, future_stack): + # related to GH#2278 refactoring + levels = [[0, 1], [0, 1, 2, 3]] + codes = [[0, 0, 1, 1], [0, 2, 0, 2]] + + index = MultiIndex(levels, codes) + + df = DataFrame(np.random.default_rng(2).standard_normal((4, 2)), index=index) + + result = df.unstack() + assert len(result.columns) == 4 + + recons = result.stack(future_stack=future_stack) + tm.assert_frame_equal(recons, df) + + @pytest.mark.slow + def test_unstack_number_of_levels_larger_than_int32(self, monkeypatch): + # GH#20601 + # GH 26314: Change ValueError to PerformanceWarning + + class MockUnstacker(reshape_lib._Unstacker): + def __init__(self, *args, **kwargs) -> None: + # __init__ will raise the warning + super().__init__(*args, **kwargs) + raise Exception("Don't compute final result.") + + with monkeypatch.context() as m: + m.setattr(reshape_lib, "_Unstacker", MockUnstacker) + df = DataFrame( + np.zeros((2**16, 2)), + index=[np.arange(2**16), np.arange(2**16)], + ) + msg = "The following operation may generate" + with tm.assert_produces_warning(PerformanceWarning, match=msg): + with pytest.raises(Exception, match="Don't compute final result."): + df.unstack() + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + @pytest.mark.parametrize( + "levels", + itertools.chain.from_iterable( + itertools.product(itertools.permutations([0, 1, 2], width), repeat=2) + for width in [2, 3] + ), + ) + @pytest.mark.parametrize("stack_lev", range(2)) + @pytest.mark.parametrize("sort", [True, False]) + def test_stack_order_with_unsorted_levels( + self, levels, stack_lev, sort, future_stack + ): + # GH#16323 + # deep check for 1-row case + columns = MultiIndex(levels=levels, codes=[[0, 0, 1, 1], [0, 1, 0, 1]]) + df = DataFrame(columns=columns, data=[range(4)]) + kwargs = {} if future_stack else {"sort": sort} + df_stacked = df.stack(stack_lev, future_stack=future_stack, **kwargs) + for row in df.index: + for col in df.columns: + expected = df.loc[row, col] + result_row = row, col[stack_lev] + result_col = col[1 - stack_lev] + result = df_stacked.loc[result_row, result_col] + assert result == expected + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_order_with_unsorted_levels_multi_row(self, future_stack): + # GH#16323 + + # check multi-row case + mi = MultiIndex( + levels=[["A", "C", "B"], ["B", "A", "C"]], + codes=[np.repeat(range(3), 3), np.tile(range(3), 3)], + ) + df = DataFrame( + columns=mi, index=range(5), data=np.arange(5 * len(mi)).reshape(5, -1) + ) + assert all( + df.loc[row, col] + == df.stack(0, future_stack=future_stack).loc[(row, col[0]), col[1]] + for row in df.index + for col in df.columns + ) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_order_with_unsorted_levels_multi_row_2(self, future_stack): + # GH#53636 + levels = ((0, 1), (1, 0)) + stack_lev = 1 + columns = MultiIndex(levels=levels, codes=[[0, 0, 1, 1], [0, 1, 0, 1]]) + df = DataFrame(columns=columns, data=[range(4)], index=[1, 0, 2, 3]) + kwargs = {} if future_stack else {"sort": True} + result = df.stack(stack_lev, future_stack=future_stack, **kwargs) + expected_index = MultiIndex( + levels=[[0, 1, 2, 3], [0, 1]], + codes=[[1, 1, 0, 0, 2, 2, 3, 3], [1, 0, 1, 0, 1, 0, 1, 0]], + ) + expected = DataFrame( + { + 0: [0, 1, 0, 1, 0, 1, 0, 1], + 1: [2, 3, 2, 3, 2, 3, 2, 3], + }, + index=expected_index, + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_unstack_unordered_multiindex(self, future_stack): + # GH# 18265 + values = np.arange(5) + data = np.vstack( + [ + [f"b{x}" for x in values], # b0, b1, .. + [f"a{x}" for x in values], # a0, a1, .. + ] + ) + df = DataFrame(data.T, columns=["b", "a"]) + df.columns.name = "first" + second_level_dict = {"x": df} + multi_level_df = pd.concat(second_level_dict, axis=1) + multi_level_df.columns.names = ["second", "first"] + df = multi_level_df.reindex(sorted(multi_level_df.columns), axis=1) + result = df.stack(["first", "second"], future_stack=future_stack).unstack( + ["first", "second"] + ) + expected = DataFrame( + [["a0", "b0"], ["a1", "b1"], ["a2", "b2"], ["a3", "b3"], ["a4", "b4"]], + index=[0, 1, 2, 3, 4], + columns=MultiIndex.from_tuples( + [("a", "x"), ("b", "x")], names=["first", "second"] + ), + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_preserve_types( + self, multiindex_year_month_day_dataframe_random_data, using_infer_string + ): + # GH#403 + ymd = multiindex_year_month_day_dataframe_random_data + ymd["E"] = "foo" + ymd["F"] = 2 + + unstacked = ymd.unstack("month") + assert unstacked["A", 1].dtype == np.float64 + assert ( + unstacked["E", 1].dtype == np.object_ + if not using_infer_string + else "string" + ) + assert unstacked["F", 1].dtype == np.float64 + + def test_unstack_group_index_overflow(self, future_stack): + codes = np.tile(np.arange(500), 2) + level = np.arange(500) + + index = MultiIndex( + levels=[level] * 8 + [[0, 1]], + codes=[codes] * 8 + [np.arange(2).repeat(500)], + ) + + s = Series(np.arange(1000), index=index) + result = s.unstack() + assert result.shape == (500, 2) + + # test roundtrip + stacked = result.stack(future_stack=future_stack) + tm.assert_series_equal(s, stacked.reindex(s.index)) + + # put it at beginning + index = MultiIndex( + levels=[[0, 1]] + [level] * 8, + codes=[np.arange(2).repeat(500)] + [codes] * 8, + ) + + s = Series(np.arange(1000), index=index) + result = s.unstack(0) + assert result.shape == (500, 2) + + # put it in middle + index = MultiIndex( + levels=[level] * 4 + [[0, 1]] + [level] * 4, + codes=([codes] * 4 + [np.arange(2).repeat(500)] + [codes] * 4), + ) + + s = Series(np.arange(1000), index=index) + result = s.unstack(4) + assert result.shape == (500, 2) + + def test_unstack_with_missing_int_cast_to_float(self, using_array_manager): + # https://github.com/pandas-dev/pandas/issues/37115 + df = DataFrame( + { + "a": ["A", "A", "B"], + "b": ["ca", "cb", "cb"], + "v": [10] * 3, + } + ).set_index(["a", "b"]) + + # add another int column to get 2 blocks + df["is_"] = 1 + if not using_array_manager: + assert len(df._mgr.blocks) == 2 + + result = df.unstack("b") + result[("is_", "ca")] = result[("is_", "ca")].fillna(0) + + expected = DataFrame( + [[10.0, 10.0, 1.0, 1.0], [np.nan, 10.0, 0.0, 1.0]], + index=Index(["A", "B"], name="a"), + columns=MultiIndex.from_tuples( + [("v", "ca"), ("v", "cb"), ("is_", "ca"), ("is_", "cb")], + names=[None, "b"], + ), + ) + if using_array_manager: + # INFO(ArrayManager) with ArrayManager preserve dtype where possible + expected[("v", "cb")] = expected[("v", "cb")].astype("int64") + expected[("is_", "cb")] = expected[("is_", "cb")].astype("int64") + tm.assert_frame_equal(result, expected) + + def test_unstack_with_level_has_nan(self): + # GH 37510 + df1 = DataFrame( + { + "L1": [1, 2, 3, 4], + "L2": [3, 4, 1, 2], + "L3": [1, 1, 1, 1], + "x": [1, 2, 3, 4], + } + ) + df1 = df1.set_index(["L1", "L2", "L3"]) + new_levels = ["n1", "n2", "n3", None] + df1.index = df1.index.set_levels(levels=new_levels, level="L1") + df1.index = df1.index.set_levels(levels=new_levels, level="L2") + + result = df1.unstack("L3")[("x", 1)].sort_index().index + expected = MultiIndex( + levels=[["n1", "n2", "n3", None], ["n1", "n2", "n3", None]], + codes=[[0, 1, 2, 3], [2, 3, 0, 1]], + names=["L1", "L2"], + ) + + tm.assert_index_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_nan_in_multiindex_columns(self, future_stack): + # GH#39481 + df = DataFrame( + np.zeros([1, 5]), + columns=MultiIndex.from_tuples( + [ + (0, None, None), + (0, 2, 0), + (0, 2, 1), + (0, 3, 0), + (0, 3, 1), + ], + ), + ) + result = df.stack(2, future_stack=future_stack) + if future_stack: + index = MultiIndex(levels=[[0], [0.0, 1.0]], codes=[[0, 0, 0], [-1, 0, 1]]) + columns = MultiIndex(levels=[[0], [2, 3]], codes=[[0, 0, 0], [-1, 0, 1]]) + else: + index = Index([(0, None), (0, 0), (0, 1)]) + columns = Index([(0, None), (0, 2), (0, 3)]) + expected = DataFrame( + [[0.0, np.nan, np.nan], [np.nan, 0.0, 0.0], [np.nan, 0.0, 0.0]], + index=index, + columns=columns, + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_multi_level_stack_categorical(self, future_stack): + # GH 15239 + midx = MultiIndex.from_arrays( + [ + ["A"] * 2 + ["B"] * 2, + pd.Categorical(list("abab")), + pd.Categorical(list("ccdd")), + ] + ) + df = DataFrame(np.arange(8).reshape(2, 4), columns=midx) + result = df.stack([1, 2], future_stack=future_stack) + if future_stack: + expected = DataFrame( + [ + [0, np.nan], + [1, np.nan], + [np.nan, 2], + [np.nan, 3], + [4, np.nan], + [5, np.nan], + [np.nan, 6], + [np.nan, 7], + ], + columns=["A", "B"], + index=MultiIndex.from_arrays( + [ + [0] * 4 + [1] * 4, + pd.Categorical(list("abababab")), + pd.Categorical(list("ccddccdd")), + ] + ), + ) + else: + expected = DataFrame( + [ + [0, np.nan], + [np.nan, 2], + [1, np.nan], + [np.nan, 3], + [4, np.nan], + [np.nan, 6], + [5, np.nan], + [np.nan, 7], + ], + columns=["A", "B"], + index=MultiIndex.from_arrays( + [ + [0] * 4 + [1] * 4, + pd.Categorical(list("aabbaabb")), + pd.Categorical(list("cdcdcdcd")), + ] + ), + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_nan_level(self, future_stack): + # GH 9406 + df_nan = DataFrame( + np.arange(4).reshape(2, 2), + columns=MultiIndex.from_tuples( + [("A", np.nan), ("B", "b")], names=["Upper", "Lower"] + ), + index=Index([0, 1], name="Num"), + dtype=np.float64, + ) + result = df_nan.stack(future_stack=future_stack) + if future_stack: + index = MultiIndex( + levels=[[0, 1], [np.nan, "b"]], + codes=[[0, 0, 1, 1], [0, 1, 0, 1]], + names=["Num", "Lower"], + ) + else: + index = MultiIndex.from_tuples( + [(0, np.nan), (0, "b"), (1, np.nan), (1, "b")], names=["Num", "Lower"] + ) + expected = DataFrame( + [[0.0, np.nan], [np.nan, 1], [2.0, np.nan], [np.nan, 3.0]], + columns=Index(["A", "B"], name="Upper"), + index=index, + ) + tm.assert_frame_equal(result, expected) + + def test_unstack_categorical_columns(self): + # GH 14018 + idx = MultiIndex.from_product([["A"], [0, 1]]) + df = DataFrame({"cat": pd.Categorical(["a", "b"])}, index=idx) + result = df.unstack() + expected = DataFrame( + { + 0: pd.Categorical(["a"], categories=["a", "b"]), + 1: pd.Categorical(["b"], categories=["a", "b"]), + }, + index=["A"], + ) + expected.columns = MultiIndex.from_tuples([("cat", 0), ("cat", 1)]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_unsorted(self, future_stack): + # GH 16925 + PAE = ["ITA", "FRA"] + VAR = ["A1", "A2"] + TYP = ["CRT", "DBT", "NET"] + MI = MultiIndex.from_product([PAE, VAR, TYP], names=["PAE", "VAR", "TYP"]) + + V = list(range(len(MI))) + DF = DataFrame(data=V, index=MI, columns=["VALUE"]) + + DF = DF.unstack(["VAR", "TYP"]) + DF.columns = DF.columns.droplevel(0) + DF.loc[:, ("A0", "NET")] = 9999 + + result = DF.stack(["VAR", "TYP"], future_stack=future_stack).sort_index() + expected = ( + DF.sort_index(axis=1) + .stack(["VAR", "TYP"], future_stack=future_stack) + .sort_index() + ) + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings( + "ignore:The previous implementation of stack is deprecated" + ) + def test_stack_nullable_dtype(self, future_stack): + # GH#43561 + columns = MultiIndex.from_product( + [["54511", "54515"], ["r", "t_mean"]], names=["station", "element"] + ) + index = Index([1, 2, 3], name="time") + + arr = np.array([[50, 226, 10, 215], [10, 215, 9, 220], [305, 232, 111, 220]]) + df = DataFrame(arr, columns=columns, index=index, dtype=pd.Int64Dtype()) + + result = df.stack("station", future_stack=future_stack) + + expected = ( + df.astype(np.int64) + .stack("station", future_stack=future_stack) + .astype(pd.Int64Dtype()) + ) + tm.assert_frame_equal(result, expected) + + # non-homogeneous case + df[df.columns[0]] = df[df.columns[0]].astype(pd.Float64Dtype()) + result = df.stack("station", future_stack=future_stack) + + expected = DataFrame( + { + "r": pd.array( + [50.0, 10.0, 10.0, 9.0, 305.0, 111.0], dtype=pd.Float64Dtype() + ), + "t_mean": pd.array( + [226, 215, 215, 220, 232, 220], dtype=pd.Int64Dtype() + ), + }, + index=MultiIndex.from_product([index, columns.levels[0]]), + ) + expected.columns.name = "element" + tm.assert_frame_equal(result, expected) + + def test_unstack_mixed_level_names(self): + # GH#48763 + arrays = [["a", "a"], [1, 2], ["red", "blue"]] + idx = MultiIndex.from_arrays(arrays, names=("x", 0, "y")) + df = DataFrame({"m": [1, 2]}, index=idx) + result = df.unstack("x") + expected = DataFrame( + [[1], [2]], + columns=MultiIndex.from_tuples([("m", "a")], names=[None, "x"]), + index=MultiIndex.from_tuples([(1, "red"), (2, "blue")], names=[0, "y"]), + ) + tm.assert_frame_equal(result, expected) + + +def test_stack_tuple_columns(future_stack): + # GH#54948 - test stack when the input has a non-MultiIndex with tuples + df = DataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], columns=[("a", 1), ("a", 2), ("b", 1)] + ) + result = df.stack(future_stack=future_stack) + expected = Series( + [1, 2, 3, 4, 5, 6, 7, 8, 9], + index=MultiIndex( + levels=[[0, 1, 2], [("a", 1), ("a", 2), ("b", 1)]], + codes=[[0, 0, 0, 1, 1, 1, 2, 2, 2], [0, 1, 2, 0, 1, 2, 0, 1, 2]], + ), + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "dtype, na_value", + [ + ("float64", np.nan), + ("Float64", np.nan), + ("Float64", pd.NA), + ("Int64", pd.NA), + ], +) +@pytest.mark.parametrize("test_multiindex", [True, False]) +def test_stack_preserves_na(dtype, na_value, test_multiindex): + # GH#56573 + if test_multiindex: + index = MultiIndex.from_arrays(2 * [Index([na_value], dtype=dtype)]) + else: + index = Index([na_value], dtype=dtype) + df = DataFrame({"a": [1]}, index=index) + result = df.stack(future_stack=True) + + if test_multiindex: + expected_index = MultiIndex.from_arrays( + [ + Index([na_value], dtype=dtype), + Index([na_value], dtype=dtype), + Index(["a"]), + ] + ) + else: + expected_index = MultiIndex.from_arrays( + [ + Index([na_value], dtype=dtype), + Index(["a"]), + ] + ) + expected = Series(1, index=expected_index) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_subclass.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_subclass.py new file mode 100644 index 0000000000000000000000000000000000000000..855b58229cbdb5819e83e3abe39a938bbb8658eb --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_subclass.py @@ -0,0 +1,825 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm + +pytestmark = pytest.mark.filterwarnings( + "ignore:Passing a BlockManager|Passing a SingleBlockManager:DeprecationWarning" +) + + +@pytest.fixture() +def gpd_style_subclass_df(): + class SubclassedDataFrame(DataFrame): + @property + def _constructor(self): + return SubclassedDataFrame + + return SubclassedDataFrame({"a": [1, 2, 3]}) + + +class TestDataFrameSubclassing: + def test_no_warning_on_mgr(self): + # GH#57032 + df = tm.SubclassedDataFrame( + {"X": [1, 2, 3], "Y": [1, 2, 3]}, index=["a", "b", "c"] + ) + with tm.assert_produces_warning(None): + # df.isna() goes through _constructor_from_mgr, which we want to + # *not* pass a Manager do __init__ + df.isna() + df["X"].isna() + + def test_frame_subclassing_and_slicing(self): + # Subclass frame and ensure it returns the right class on slicing it + # In reference to PR 9632 + + class CustomSeries(Series): + @property + def _constructor(self): + return CustomSeries + + def custom_series_function(self): + return "OK" + + class CustomDataFrame(DataFrame): + """ + Subclasses pandas DF, fills DF with simulation results, adds some + custom plotting functions. + """ + + def __init__(self, *args, **kw) -> None: + super().__init__(*args, **kw) + + @property + def _constructor(self): + return CustomDataFrame + + _constructor_sliced = CustomSeries + + def custom_frame_function(self): + return "OK" + + data = {"col1": range(10), "col2": range(10)} + cdf = CustomDataFrame(data) + + # Did we get back our own DF class? + assert isinstance(cdf, CustomDataFrame) + + # Do we get back our own Series class after selecting a column? + cdf_series = cdf.col1 + assert isinstance(cdf_series, CustomSeries) + assert cdf_series.custom_series_function() == "OK" + + # Do we get back our own DF class after slicing row-wise? + cdf_rows = cdf[1:5] + assert isinstance(cdf_rows, CustomDataFrame) + assert cdf_rows.custom_frame_function() == "OK" + + # Make sure sliced part of multi-index frame is custom class + mcol = MultiIndex.from_tuples([("A", "A"), ("A", "B")]) + cdf_multi = CustomDataFrame([[0, 1], [2, 3]], columns=mcol) + assert isinstance(cdf_multi["A"], CustomDataFrame) + + mcol = MultiIndex.from_tuples([("A", ""), ("B", "")]) + cdf_multi2 = CustomDataFrame([[0, 1], [2, 3]], columns=mcol) + assert isinstance(cdf_multi2["A"], CustomSeries) + + def test_dataframe_metadata(self): + df = tm.SubclassedDataFrame( + {"X": [1, 2, 3], "Y": [1, 2, 3]}, index=["a", "b", "c"] + ) + df.testattr = "XXX" + + assert df.testattr == "XXX" + assert df[["X"]].testattr == "XXX" + assert df.loc[["a", "b"], :].testattr == "XXX" + assert df.iloc[[0, 1], :].testattr == "XXX" + + # see gh-9776 + assert df.iloc[0:1, :].testattr == "XXX" + + # see gh-10553 + unpickled = tm.round_trip_pickle(df) + tm.assert_frame_equal(df, unpickled) + assert df._metadata == unpickled._metadata + assert df.testattr == unpickled.testattr + + def test_indexing_sliced(self): + # GH 11559 + df = tm.SubclassedDataFrame( + {"X": [1, 2, 3], "Y": [4, 5, 6], "Z": [7, 8, 9]}, index=["a", "b", "c"] + ) + res = df.loc[:, "X"] + exp = tm.SubclassedSeries([1, 2, 3], index=list("abc"), name="X") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + res = df.iloc[:, 1] + exp = tm.SubclassedSeries([4, 5, 6], index=list("abc"), name="Y") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + res = df.loc[:, "Z"] + exp = tm.SubclassedSeries([7, 8, 9], index=list("abc"), name="Z") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + res = df.loc["a", :] + exp = tm.SubclassedSeries([1, 4, 7], index=list("XYZ"), name="a") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + res = df.iloc[1, :] + exp = tm.SubclassedSeries([2, 5, 8], index=list("XYZ"), name="b") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + res = df.loc["c", :] + exp = tm.SubclassedSeries([3, 6, 9], index=list("XYZ"), name="c") + tm.assert_series_equal(res, exp) + assert isinstance(res, tm.SubclassedSeries) + + def test_subclass_attr_err_propagation(self): + # GH 11808 + class A(DataFrame): + @property + def nonexistence(self): + return self.i_dont_exist + + with pytest.raises(AttributeError, match=".*i_dont_exist.*"): + A().nonexistence + + def test_subclass_align(self): + # GH 12983 + df1 = tm.SubclassedDataFrame( + {"a": [1, 3, 5], "b": [1, 3, 5]}, index=list("ACE") + ) + df2 = tm.SubclassedDataFrame( + {"c": [1, 2, 4], "d": [1, 2, 4]}, index=list("ABD") + ) + + res1, res2 = df1.align(df2, axis=0) + exp1 = tm.SubclassedDataFrame( + {"a": [1, np.nan, 3, np.nan, 5], "b": [1, np.nan, 3, np.nan, 5]}, + index=list("ABCDE"), + ) + exp2 = tm.SubclassedDataFrame( + {"c": [1, 2, np.nan, 4, np.nan], "d": [1, 2, np.nan, 4, np.nan]}, + index=list("ABCDE"), + ) + assert isinstance(res1, tm.SubclassedDataFrame) + tm.assert_frame_equal(res1, exp1) + assert isinstance(res2, tm.SubclassedDataFrame) + tm.assert_frame_equal(res2, exp2) + + res1, res2 = df1.a.align(df2.c) + assert isinstance(res1, tm.SubclassedSeries) + tm.assert_series_equal(res1, exp1.a) + assert isinstance(res2, tm.SubclassedSeries) + tm.assert_series_equal(res2, exp2.c) + + def test_subclass_align_combinations(self): + # GH 12983 + df = tm.SubclassedDataFrame({"a": [1, 3, 5], "b": [1, 3, 5]}, index=list("ACE")) + s = tm.SubclassedSeries([1, 2, 4], index=list("ABD"), name="x") + + # frame + series + res1, res2 = df.align(s, axis=0) + exp1 = tm.SubclassedDataFrame( + {"a": [1, np.nan, 3, np.nan, 5], "b": [1, np.nan, 3, np.nan, 5]}, + index=list("ABCDE"), + ) + # name is lost when + exp2 = tm.SubclassedSeries( + [1, 2, np.nan, 4, np.nan], index=list("ABCDE"), name="x" + ) + + assert isinstance(res1, tm.SubclassedDataFrame) + tm.assert_frame_equal(res1, exp1) + assert isinstance(res2, tm.SubclassedSeries) + tm.assert_series_equal(res2, exp2) + + # series + frame + res1, res2 = s.align(df) + assert isinstance(res1, tm.SubclassedSeries) + tm.assert_series_equal(res1, exp2) + assert isinstance(res2, tm.SubclassedDataFrame) + tm.assert_frame_equal(res2, exp1) + + def test_subclass_iterrows(self): + # GH 13977 + df = tm.SubclassedDataFrame({"a": [1]}) + for i, row in df.iterrows(): + assert isinstance(row, tm.SubclassedSeries) + tm.assert_series_equal(row, df.loc[i]) + + def test_subclass_stack(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], + index=["a", "b", "c"], + columns=["X", "Y", "Z"], + ) + + res = df.stack(future_stack=True) + exp = tm.SubclassedSeries( + [1, 2, 3, 4, 5, 6, 7, 8, 9], index=[list("aaabbbccc"), list("XYZXYZXYZ")] + ) + + tm.assert_series_equal(res, exp) + + def test_subclass_stack_multi(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [[10, 11, 12, 13], [20, 21, 22, 23], [30, 31, 32, 33], [40, 41, 42, 43]], + index=MultiIndex.from_tuples( + list(zip(list("AABB"), list("cdcd"))), names=["aaa", "ccc"] + ), + columns=MultiIndex.from_tuples( + list(zip(list("WWXX"), list("yzyz"))), names=["www", "yyy"] + ), + ) + + exp = tm.SubclassedDataFrame( + [ + [10, 12], + [11, 13], + [20, 22], + [21, 23], + [30, 32], + [31, 33], + [40, 42], + [41, 43], + ], + index=MultiIndex.from_tuples( + list(zip(list("AAAABBBB"), list("ccddccdd"), list("yzyzyzyz"))), + names=["aaa", "ccc", "yyy"], + ), + columns=Index(["W", "X"], name="www"), + ) + + res = df.stack(future_stack=True) + tm.assert_frame_equal(res, exp) + + res = df.stack("yyy", future_stack=True) + tm.assert_frame_equal(res, exp) + + exp = tm.SubclassedDataFrame( + [ + [10, 11], + [12, 13], + [20, 21], + [22, 23], + [30, 31], + [32, 33], + [40, 41], + [42, 43], + ], + index=MultiIndex.from_tuples( + list(zip(list("AAAABBBB"), list("ccddccdd"), list("WXWXWXWX"))), + names=["aaa", "ccc", "www"], + ), + columns=Index(["y", "z"], name="yyy"), + ) + + res = df.stack("www", future_stack=True) + tm.assert_frame_equal(res, exp) + + def test_subclass_stack_multi_mixed(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [ + [10, 11, 12.0, 13.0], + [20, 21, 22.0, 23.0], + [30, 31, 32.0, 33.0], + [40, 41, 42.0, 43.0], + ], + index=MultiIndex.from_tuples( + list(zip(list("AABB"), list("cdcd"))), names=["aaa", "ccc"] + ), + columns=MultiIndex.from_tuples( + list(zip(list("WWXX"), list("yzyz"))), names=["www", "yyy"] + ), + ) + + exp = tm.SubclassedDataFrame( + [ + [10, 12.0], + [11, 13.0], + [20, 22.0], + [21, 23.0], + [30, 32.0], + [31, 33.0], + [40, 42.0], + [41, 43.0], + ], + index=MultiIndex.from_tuples( + list(zip(list("AAAABBBB"), list("ccddccdd"), list("yzyzyzyz"))), + names=["aaa", "ccc", "yyy"], + ), + columns=Index(["W", "X"], name="www"), + ) + + res = df.stack(future_stack=True) + tm.assert_frame_equal(res, exp) + + res = df.stack("yyy", future_stack=True) + tm.assert_frame_equal(res, exp) + + exp = tm.SubclassedDataFrame( + [ + [10.0, 11.0], + [12.0, 13.0], + [20.0, 21.0], + [22.0, 23.0], + [30.0, 31.0], + [32.0, 33.0], + [40.0, 41.0], + [42.0, 43.0], + ], + index=MultiIndex.from_tuples( + list(zip(list("AAAABBBB"), list("ccddccdd"), list("WXWXWXWX"))), + names=["aaa", "ccc", "www"], + ), + columns=Index(["y", "z"], name="yyy"), + ) + + res = df.stack("www", future_stack=True) + tm.assert_frame_equal(res, exp) + + def test_subclass_unstack(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], + index=["a", "b", "c"], + columns=["X", "Y", "Z"], + ) + + res = df.unstack() + exp = tm.SubclassedSeries( + [1, 4, 7, 2, 5, 8, 3, 6, 9], index=[list("XXXYYYZZZ"), list("abcabcabc")] + ) + + tm.assert_series_equal(res, exp) + + def test_subclass_unstack_multi(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [[10, 11, 12, 13], [20, 21, 22, 23], [30, 31, 32, 33], [40, 41, 42, 43]], + index=MultiIndex.from_tuples( + list(zip(list("AABB"), list("cdcd"))), names=["aaa", "ccc"] + ), + columns=MultiIndex.from_tuples( + list(zip(list("WWXX"), list("yzyz"))), names=["www", "yyy"] + ), + ) + + exp = tm.SubclassedDataFrame( + [[10, 20, 11, 21, 12, 22, 13, 23], [30, 40, 31, 41, 32, 42, 33, 43]], + index=Index(["A", "B"], name="aaa"), + columns=MultiIndex.from_tuples( + list(zip(list("WWWWXXXX"), list("yyzzyyzz"), list("cdcdcdcd"))), + names=["www", "yyy", "ccc"], + ), + ) + + res = df.unstack() + tm.assert_frame_equal(res, exp) + + res = df.unstack("ccc") + tm.assert_frame_equal(res, exp) + + exp = tm.SubclassedDataFrame( + [[10, 30, 11, 31, 12, 32, 13, 33], [20, 40, 21, 41, 22, 42, 23, 43]], + index=Index(["c", "d"], name="ccc"), + columns=MultiIndex.from_tuples( + list(zip(list("WWWWXXXX"), list("yyzzyyzz"), list("ABABABAB"))), + names=["www", "yyy", "aaa"], + ), + ) + + res = df.unstack("aaa") + tm.assert_frame_equal(res, exp) + + def test_subclass_unstack_multi_mixed(self): + # GH 15564 + df = tm.SubclassedDataFrame( + [ + [10, 11, 12.0, 13.0], + [20, 21, 22.0, 23.0], + [30, 31, 32.0, 33.0], + [40, 41, 42.0, 43.0], + ], + index=MultiIndex.from_tuples( + list(zip(list("AABB"), list("cdcd"))), names=["aaa", "ccc"] + ), + columns=MultiIndex.from_tuples( + list(zip(list("WWXX"), list("yzyz"))), names=["www", "yyy"] + ), + ) + + exp = tm.SubclassedDataFrame( + [ + [10, 20, 11, 21, 12.0, 22.0, 13.0, 23.0], + [30, 40, 31, 41, 32.0, 42.0, 33.0, 43.0], + ], + index=Index(["A", "B"], name="aaa"), + columns=MultiIndex.from_tuples( + list(zip(list("WWWWXXXX"), list("yyzzyyzz"), list("cdcdcdcd"))), + names=["www", "yyy", "ccc"], + ), + ) + + res = df.unstack() + tm.assert_frame_equal(res, exp) + + res = df.unstack("ccc") + tm.assert_frame_equal(res, exp) + + exp = tm.SubclassedDataFrame( + [ + [10, 30, 11, 31, 12.0, 32.0, 13.0, 33.0], + [20, 40, 21, 41, 22.0, 42.0, 23.0, 43.0], + ], + index=Index(["c", "d"], name="ccc"), + columns=MultiIndex.from_tuples( + list(zip(list("WWWWXXXX"), list("yyzzyyzz"), list("ABABABAB"))), + names=["www", "yyy", "aaa"], + ), + ) + + res = df.unstack("aaa") + tm.assert_frame_equal(res, exp) + + def test_subclass_pivot(self): + # GH 15564 + df = tm.SubclassedDataFrame( + { + "index": ["A", "B", "C", "C", "B", "A"], + "columns": ["One", "One", "One", "Two", "Two", "Two"], + "values": [1.0, 2.0, 3.0, 3.0, 2.0, 1.0], + } + ) + + pivoted = df.pivot(index="index", columns="columns", values="values") + + expected = tm.SubclassedDataFrame( + { + "One": {"A": 1.0, "B": 2.0, "C": 3.0}, + "Two": {"A": 1.0, "B": 2.0, "C": 3.0}, + } + ) + + expected.index.name, expected.columns.name = "index", "columns" + + tm.assert_frame_equal(pivoted, expected) + + def test_subclassed_melt(self): + # GH 15564 + cheese = tm.SubclassedDataFrame( + { + "first": ["John", "Mary"], + "last": ["Doe", "Bo"], + "height": [5.5, 6.0], + "weight": [130, 150], + } + ) + + melted = pd.melt(cheese, id_vars=["first", "last"]) + + expected = tm.SubclassedDataFrame( + [ + ["John", "Doe", "height", 5.5], + ["Mary", "Bo", "height", 6.0], + ["John", "Doe", "weight", 130], + ["Mary", "Bo", "weight", 150], + ], + columns=["first", "last", "variable", "value"], + ) + + tm.assert_frame_equal(melted, expected) + + def test_subclassed_wide_to_long(self): + # GH 9762 + + x = np.random.default_rng(2).standard_normal(3) + df = tm.SubclassedDataFrame( + { + "A1970": {0: "a", 1: "b", 2: "c"}, + "A1980": {0: "d", 1: "e", 2: "f"}, + "B1970": {0: 2.5, 1: 1.2, 2: 0.7}, + "B1980": {0: 3.2, 1: 1.3, 2: 0.1}, + "X": dict(zip(range(3), x)), + } + ) + + df["id"] = df.index + exp_data = { + "X": x.tolist() + x.tolist(), + "A": ["a", "b", "c", "d", "e", "f"], + "B": [2.5, 1.2, 0.7, 3.2, 1.3, 0.1], + "year": [1970, 1970, 1970, 1980, 1980, 1980], + "id": [0, 1, 2, 0, 1, 2], + } + expected = tm.SubclassedDataFrame(exp_data) + expected = expected.set_index(["id", "year"])[["X", "A", "B"]] + long_frame = pd.wide_to_long(df, ["A", "B"], i="id", j="year") + + tm.assert_frame_equal(long_frame, expected) + + def test_subclassed_apply(self): + # GH 19822 + + def check_row_subclass(row): + assert isinstance(row, tm.SubclassedSeries) + + def stretch(row): + if row["variable"] == "height": + row["value"] += 0.5 + return row + + df = tm.SubclassedDataFrame( + [ + ["John", "Doe", "height", 5.5], + ["Mary", "Bo", "height", 6.0], + ["John", "Doe", "weight", 130], + ["Mary", "Bo", "weight", 150], + ], + columns=["first", "last", "variable", "value"], + ) + + df.apply(lambda x: check_row_subclass(x)) + df.apply(lambda x: check_row_subclass(x), axis=1) + + expected = tm.SubclassedDataFrame( + [ + ["John", "Doe", "height", 6.0], + ["Mary", "Bo", "height", 6.5], + ["John", "Doe", "weight", 130], + ["Mary", "Bo", "weight", 150], + ], + columns=["first", "last", "variable", "value"], + ) + + result = df.apply(lambda x: stretch(x), axis=1) + assert isinstance(result, tm.SubclassedDataFrame) + tm.assert_frame_equal(result, expected) + + expected = tm.SubclassedDataFrame([[1, 2, 3], [1, 2, 3], [1, 2, 3], [1, 2, 3]]) + + result = df.apply(lambda x: tm.SubclassedSeries([1, 2, 3]), axis=1) + assert isinstance(result, tm.SubclassedDataFrame) + tm.assert_frame_equal(result, expected) + + result = df.apply(lambda x: [1, 2, 3], axis=1, result_type="expand") + assert isinstance(result, tm.SubclassedDataFrame) + tm.assert_frame_equal(result, expected) + + expected = tm.SubclassedSeries([[1, 2, 3], [1, 2, 3], [1, 2, 3], [1, 2, 3]]) + + result = df.apply(lambda x: [1, 2, 3], axis=1) + assert not isinstance(result, tm.SubclassedDataFrame) + tm.assert_series_equal(result, expected) + + def test_subclassed_reductions(self, all_reductions): + # GH 25596 + + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = getattr(df, all_reductions)() + assert isinstance(result, tm.SubclassedSeries) + + def test_subclassed_count(self): + df = tm.SubclassedDataFrame( + { + "Person": ["John", "Myla", "Lewis", "John", "Myla"], + "Age": [24.0, np.nan, 21.0, 33, 26], + "Single": [False, True, True, True, False], + } + ) + result = df.count() + assert isinstance(result, tm.SubclassedSeries) + + df = tm.SubclassedDataFrame({"A": [1, 0, 3], "B": [0, 5, 6], "C": [7, 8, 0]}) + result = df.count() + assert isinstance(result, tm.SubclassedSeries) + + df = tm.SubclassedDataFrame( + [[10, 11, 12, 13], [20, 21, 22, 23], [30, 31, 32, 33], [40, 41, 42, 43]], + index=MultiIndex.from_tuples( + list(zip(list("AABB"), list("cdcd"))), names=["aaa", "ccc"] + ), + columns=MultiIndex.from_tuples( + list(zip(list("WWXX"), list("yzyz"))), names=["www", "yyy"] + ), + ) + result = df.count() + assert isinstance(result, tm.SubclassedSeries) + + df = tm.SubclassedDataFrame() + result = df.count() + assert isinstance(result, tm.SubclassedSeries) + + def test_isin(self): + df = tm.SubclassedDataFrame( + {"num_legs": [2, 4], "num_wings": [2, 0]}, index=["falcon", "dog"] + ) + result = df.isin([0, 2]) + assert isinstance(result, tm.SubclassedDataFrame) + + def test_duplicated(self): + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = df.duplicated() + assert isinstance(result, tm.SubclassedSeries) + + df = tm.SubclassedDataFrame() + result = df.duplicated() + assert isinstance(result, tm.SubclassedSeries) + + @pytest.mark.parametrize("idx_method", ["idxmax", "idxmin"]) + def test_idx(self, idx_method): + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = getattr(df, idx_method)() + assert isinstance(result, tm.SubclassedSeries) + + def test_dot(self): + df = tm.SubclassedDataFrame([[0, 1, -2, -1], [1, 1, 1, 1]]) + s = tm.SubclassedSeries([1, 1, 2, 1]) + result = df.dot(s) + assert isinstance(result, tm.SubclassedSeries) + + df = tm.SubclassedDataFrame([[0, 1, -2, -1], [1, 1, 1, 1]]) + s = tm.SubclassedDataFrame([1, 1, 2, 1]) + result = df.dot(s) + assert isinstance(result, tm.SubclassedDataFrame) + + def test_memory_usage(self): + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = df.memory_usage() + assert isinstance(result, tm.SubclassedSeries) + + result = df.memory_usage(index=False) + assert isinstance(result, tm.SubclassedSeries) + + def test_corrwith(self): + pytest.importorskip("scipy") + index = ["a", "b", "c", "d", "e"] + columns = ["one", "two", "three", "four"] + df1 = tm.SubclassedDataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + index=index, + columns=columns, + ) + df2 = tm.SubclassedDataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=index[:4], + columns=columns, + ) + correls = df1.corrwith(df2, axis=1, drop=True, method="kendall") + + assert isinstance(correls, (tm.SubclassedSeries)) + + def test_asof(self): + N = 3 + rng = pd.date_range("1/1/1990", periods=N, freq="53s") + df = tm.SubclassedDataFrame( + { + "A": [np.nan, np.nan, np.nan], + "B": [np.nan, np.nan, np.nan], + "C": [np.nan, np.nan, np.nan], + }, + index=rng, + ) + + result = df.asof(rng[-2:]) + assert isinstance(result, tm.SubclassedDataFrame) + + result = df.asof(rng[-2]) + assert isinstance(result, tm.SubclassedSeries) + + result = df.asof("1989-12-31") + assert isinstance(result, tm.SubclassedSeries) + + def test_idxmin_preserves_subclass(self): + # GH 28330 + + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = df.idxmin() + assert isinstance(result, tm.SubclassedSeries) + + def test_idxmax_preserves_subclass(self): + # GH 28330 + + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = df.idxmax() + assert isinstance(result, tm.SubclassedSeries) + + def test_convert_dtypes_preserves_subclass(self, gpd_style_subclass_df): + # GH 43668 + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + result = df.convert_dtypes() + assert isinstance(result, tm.SubclassedDataFrame) + + result = gpd_style_subclass_df.convert_dtypes() + assert isinstance(result, type(gpd_style_subclass_df)) + + def test_astype_preserves_subclass(self): + # GH#40810 + df = tm.SubclassedDataFrame({"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}) + + result = df.astype({"A": np.int64, "B": np.int32, "C": np.float64}) + assert isinstance(result, tm.SubclassedDataFrame) + + def test_equals_subclass(self): + # https://github.com/pandas-dev/pandas/pull/34402 + # allow subclass in both directions + df1 = DataFrame({"a": [1, 2, 3]}) + df2 = tm.SubclassedDataFrame({"a": [1, 2, 3]}) + assert df1.equals(df2) + assert df2.equals(df1) + + def test_replace_list_method(self): + # https://github.com/pandas-dev/pandas/pull/46018 + df = tm.SubclassedDataFrame({"A": [0, 1, 2]}) + msg = "The 'method' keyword in SubclassedDataFrame.replace is deprecated" + with tm.assert_produces_warning( + FutureWarning, match=msg, raise_on_extra_warnings=False + ): + result = df.replace([1, 2], method="ffill") + expected = tm.SubclassedDataFrame({"A": [0, 0, 0]}) + assert isinstance(result, tm.SubclassedDataFrame) + tm.assert_frame_equal(result, expected) + + +class MySubclassWithMetadata(DataFrame): + _metadata = ["my_metadata"] + + def __init__(self, *args, **kwargs) -> None: + super().__init__(*args, **kwargs) + + my_metadata = kwargs.pop("my_metadata", None) + if args and isinstance(args[0], MySubclassWithMetadata): + my_metadata = args[0].my_metadata # type: ignore[has-type] + self.my_metadata = my_metadata + + @property + def _constructor(self): + return MySubclassWithMetadata + + +def test_constructor_with_metadata(): + # https://github.com/pandas-dev/pandas/pull/54922 + # https://github.com/pandas-dev/pandas/issues/55120 + df = MySubclassWithMetadata( + np.random.default_rng(2).random((5, 3)), columns=["A", "B", "C"] + ) + subset = df[["A", "B"]] + assert isinstance(subset, MySubclassWithMetadata) + + +class SimpleDataFrameSubClass(DataFrame): + """A subclass of DataFrame that does not define a constructor.""" + + +class SimpleSeriesSubClass(Series): + """A subclass of Series that does not define a constructor.""" + + +class TestSubclassWithoutConstructor: + def test_copy_df(self): + expected = DataFrame({"a": [1, 2, 3]}) + result = SimpleDataFrameSubClass(expected).copy() + + assert ( + type(result) is DataFrame + ) # assert_frame_equal only checks isinstance(lhs, type(rhs)) + tm.assert_frame_equal(result, expected) + + def test_copy_series(self): + expected = Series([1, 2, 3]) + result = SimpleSeriesSubClass(expected).copy() + + tm.assert_series_equal(result, expected) + + def test_series_to_frame(self): + orig = Series([1, 2, 3]) + expected = orig.to_frame() + result = SimpleSeriesSubClass(orig).to_frame() + + assert ( + type(result) is DataFrame + ) # assert_frame_equal only checks isinstance(lhs, type(rhs)) + tm.assert_frame_equal(result, expected) + + def test_groupby(self): + df = SimpleDataFrameSubClass(DataFrame({"a": [1, 2, 3]})) + + for _, v in df.groupby("a"): + assert type(v) is DataFrame diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_ufunc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_ufunc.py new file mode 100644 index 0000000000000000000000000000000000000000..88c62da2b0a735b103f7a6b03634aa185fc46d2c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_ufunc.py @@ -0,0 +1,311 @@ +from functools import partial +import re + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.types import is_extension_array_dtype + +dtypes = [ + "int64", + "Int64", + {"A": "int64", "B": "Int64"}, +] + + +@pytest.mark.parametrize("dtype", dtypes) +def test_unary_unary(dtype): + # unary input, unary output + values = np.array([[-1, -1], [1, 1]], dtype="int64") + df = pd.DataFrame(values, columns=["A", "B"], index=["a", "b"]).astype(dtype=dtype) + result = np.positive(df) + expected = pd.DataFrame( + np.positive(values), index=df.index, columns=df.columns + ).astype(dtype) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", dtypes) +def test_unary_binary(request, dtype): + # unary input, binary output + if is_extension_array_dtype(dtype) or isinstance(dtype, dict): + request.applymarker( + pytest.mark.xfail( + reason="Extension / mixed with multiple outputs not implemented." + ) + ) + + values = np.array([[-1, -1], [1, 1]], dtype="int64") + df = pd.DataFrame(values, columns=["A", "B"], index=["a", "b"]).astype(dtype=dtype) + result_pandas = np.modf(df) + assert isinstance(result_pandas, tuple) + assert len(result_pandas) == 2 + expected_numpy = np.modf(values) + + for result, b in zip(result_pandas, expected_numpy): + expected = pd.DataFrame(b, index=df.index, columns=df.columns) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", dtypes) +def test_binary_input_dispatch_binop(dtype): + # binop ufuncs are dispatched to our dunder methods. + values = np.array([[-1, -1], [1, 1]], dtype="int64") + df = pd.DataFrame(values, columns=["A", "B"], index=["a", "b"]).astype(dtype=dtype) + result = np.add(df, df) + expected = pd.DataFrame( + np.add(values, values), index=df.index, columns=df.columns + ).astype(dtype) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "func,arg,expected", + [ + (np.add, 1, [2, 3, 4, 5]), + ( + partial(np.add, where=[[False, True], [True, False]]), + np.array([[1, 1], [1, 1]]), + [0, 3, 4, 0], + ), + (np.power, np.array([[1, 1], [2, 2]]), [1, 2, 9, 16]), + (np.subtract, 2, [-1, 0, 1, 2]), + ( + partial(np.negative, where=np.array([[False, True], [True, False]])), + None, + [0, -2, -3, 0], + ), + ], +) +def test_ufunc_passes_args(func, arg, expected): + # GH#40662 + arr = np.array([[1, 2], [3, 4]]) + df = pd.DataFrame(arr) + result_inplace = np.zeros_like(arr) + # 1-argument ufunc + if arg is None: + result = func(df, out=result_inplace) + else: + result = func(df, arg, out=result_inplace) + + expected = np.array(expected).reshape(2, 2) + tm.assert_numpy_array_equal(result_inplace, expected) + + expected = pd.DataFrame(expected) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype_a", dtypes) +@pytest.mark.parametrize("dtype_b", dtypes) +def test_binary_input_aligns_columns(request, dtype_a, dtype_b): + if ( + is_extension_array_dtype(dtype_a) + or isinstance(dtype_a, dict) + or is_extension_array_dtype(dtype_b) + or isinstance(dtype_b, dict) + ): + request.applymarker( + pytest.mark.xfail( + reason="Extension / mixed with multiple inputs not implemented." + ) + ) + + df1 = pd.DataFrame({"A": [1, 2], "B": [3, 4]}).astype(dtype_a) + + if isinstance(dtype_a, dict) and isinstance(dtype_b, dict): + dtype_b = dtype_b.copy() + dtype_b["C"] = dtype_b.pop("B") + df2 = pd.DataFrame({"A": [1, 2], "C": [3, 4]}).astype(dtype_b) + # As of 2.0, align first before applying the ufunc + result = np.heaviside(df1, df2) + expected = np.heaviside( + np.array([[1, 3, np.nan], [2, 4, np.nan]]), + np.array([[1, np.nan, 3], [2, np.nan, 4]]), + ) + expected = pd.DataFrame(expected, index=[0, 1], columns=["A", "B", "C"]) + tm.assert_frame_equal(result, expected) + + result = np.heaviside(df1, df2.values) + expected = pd.DataFrame([[1.0, 1.0], [1.0, 1.0]], columns=["A", "B"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", dtypes) +def test_binary_input_aligns_index(request, dtype): + if is_extension_array_dtype(dtype) or isinstance(dtype, dict): + request.applymarker( + pytest.mark.xfail( + reason="Extension / mixed with multiple inputs not implemented." + ) + ) + df1 = pd.DataFrame({"A": [1, 2], "B": [3, 4]}, index=["a", "b"]).astype(dtype) + df2 = pd.DataFrame({"A": [1, 2], "B": [3, 4]}, index=["a", "c"]).astype(dtype) + result = np.heaviside(df1, df2) + expected = np.heaviside( + np.array([[1, 3], [3, 4], [np.nan, np.nan]]), + np.array([[1, 3], [np.nan, np.nan], [3, 4]]), + ) + # TODO(FloatArray): this will be Float64Dtype. + expected = pd.DataFrame(expected, index=["a", "b", "c"], columns=["A", "B"]) + tm.assert_frame_equal(result, expected) + + result = np.heaviside(df1, df2.values) + expected = pd.DataFrame( + [[1.0, 1.0], [1.0, 1.0]], columns=["A", "B"], index=["a", "b"] + ) + tm.assert_frame_equal(result, expected) + + +def test_binary_frame_series_raises(): + # We don't currently implement + df = pd.DataFrame({"A": [1, 2]}) + with pytest.raises(NotImplementedError, match="logaddexp"): + np.logaddexp(df, df["A"]) + + with pytest.raises(NotImplementedError, match="logaddexp"): + np.logaddexp(df["A"], df) + + +def test_unary_accumulate_axis(): + # https://github.com/pandas-dev/pandas/issues/39259 + df = pd.DataFrame({"a": [1, 3, 2, 4]}) + result = np.maximum.accumulate(df) + expected = pd.DataFrame({"a": [1, 3, 3, 4]}) + tm.assert_frame_equal(result, expected) + + df = pd.DataFrame({"a": [1, 3, 2, 4], "b": [0.1, 4.0, 3.0, 2.0]}) + result = np.maximum.accumulate(df) + # in theory could preserve int dtype for default axis=0 + expected = pd.DataFrame({"a": [1.0, 3.0, 3.0, 4.0], "b": [0.1, 4.0, 4.0, 4.0]}) + tm.assert_frame_equal(result, expected) + + result = np.maximum.accumulate(df, axis=0) + tm.assert_frame_equal(result, expected) + + result = np.maximum.accumulate(df, axis=1) + expected = pd.DataFrame({"a": [1.0, 3.0, 2.0, 4.0], "b": [1.0, 4.0, 3.0, 4.0]}) + tm.assert_frame_equal(result, expected) + + +def test_frame_outer_disallowed(): + df = pd.DataFrame({"A": [1, 2]}) + with pytest.raises(NotImplementedError, match=""): + # deprecation enforced in 2.0 + np.subtract.outer(df, df) + + +def test_alignment_deprecation_enforced(): + # Enforced in 2.0 + # https://github.com/pandas-dev/pandas/issues/39184 + df1 = pd.DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df2 = pd.DataFrame({"b": [1, 2, 3], "c": [4, 5, 6]}) + s1 = pd.Series([1, 2], index=["a", "b"]) + s2 = pd.Series([1, 2], index=["b", "c"]) + + # binary dataframe / dataframe + expected = pd.DataFrame({"a": [2, 4, 6], "b": [8, 10, 12]}) + + with tm.assert_produces_warning(None): + # aligned -> no warning! + result = np.add(df1, df1) + tm.assert_frame_equal(result, expected) + + result = np.add(df1, df2.values) + tm.assert_frame_equal(result, expected) + + result = np.add(df1, df2) + expected = pd.DataFrame({"a": [np.nan] * 3, "b": [5, 7, 9], "c": [np.nan] * 3}) + tm.assert_frame_equal(result, expected) + + result = np.add(df1.values, df2) + expected = pd.DataFrame({"b": [2, 4, 6], "c": [8, 10, 12]}) + tm.assert_frame_equal(result, expected) + + # binary dataframe / series + expected = pd.DataFrame({"a": [2, 3, 4], "b": [6, 7, 8]}) + + with tm.assert_produces_warning(None): + # aligned -> no warning! + result = np.add(df1, s1) + tm.assert_frame_equal(result, expected) + + result = np.add(df1, s2.values) + tm.assert_frame_equal(result, expected) + + expected = pd.DataFrame( + {"a": [np.nan] * 3, "b": [5.0, 6.0, 7.0], "c": [np.nan] * 3} + ) + result = np.add(df1, s2) + tm.assert_frame_equal(result, expected) + + msg = "Cannot apply ufunc to mixed DataFrame and Series inputs." + with pytest.raises(NotImplementedError, match=msg): + np.add(s2, df1) + + +def test_alignment_deprecation_many_inputs_enforced(): + # Enforced in 2.0 + # https://github.com/pandas-dev/pandas/issues/39184 + # test that the deprecation also works with > 2 inputs -> using a numba + # written ufunc for this because numpy itself doesn't have such ufuncs + numba = pytest.importorskip("numba") + + @numba.vectorize([numba.float64(numba.float64, numba.float64, numba.float64)]) + def my_ufunc(x, y, z): + return x + y + z + + df1 = pd.DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df2 = pd.DataFrame({"b": [1, 2, 3], "c": [4, 5, 6]}) + df3 = pd.DataFrame({"a": [1, 2, 3], "c": [4, 5, 6]}) + + result = my_ufunc(df1, df2, df3) + expected = pd.DataFrame(np.full((3, 3), np.nan), columns=["a", "b", "c"]) + tm.assert_frame_equal(result, expected) + + # all aligned -> no warning + with tm.assert_produces_warning(None): + result = my_ufunc(df1, df1, df1) + expected = pd.DataFrame([[3.0, 12.0], [6.0, 15.0], [9.0, 18.0]], columns=["a", "b"]) + tm.assert_frame_equal(result, expected) + + # mixed frame / arrays + msg = ( + r"operands could not be broadcast together with shapes \(3,3\) \(3,3\) \(3,2\)" + ) + with pytest.raises(ValueError, match=msg): + my_ufunc(df1, df2, df3.values) + + # single frame -> no warning + with tm.assert_produces_warning(None): + result = my_ufunc(df1, df2.values, df3.values) + tm.assert_frame_equal(result, expected) + + # takes indices of first frame + msg = ( + r"operands could not be broadcast together with shapes \(3,2\) \(3,3\) \(3,3\)" + ) + with pytest.raises(ValueError, match=msg): + my_ufunc(df1.values, df2, df3) + + +def test_array_ufuncs_for_many_arguments(): + # GH39853 + def add3(x, y, z): + return x + y + z + + ufunc = np.frompyfunc(add3, 3, 1) + df = pd.DataFrame([[1, 2], [3, 4]]) + + result = ufunc(df, df, 1) + expected = pd.DataFrame([[3, 5], [7, 9]], dtype=object) + tm.assert_frame_equal(result, expected) + + ser = pd.Series([1, 2]) + msg = ( + "Cannot apply ufunc " + "to mixed DataFrame and Series inputs." + ) + with pytest.raises(NotImplementedError, match=re.escape(msg)): + ufunc(df, df, ser) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_unary.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_unary.py new file mode 100644 index 0000000000000000000000000000000000000000..a48b5c51f9ca73495cfab4d9ace73b0cded221b4 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_unary.py @@ -0,0 +1,195 @@ +from decimal import Decimal + +import numpy as np +import pytest + +from pandas.compat.numpy import np_version_gte1p25 + +import pandas as pd +import pandas._testing as tm + + +class TestDataFrameUnaryOperators: + # __pos__, __neg__, __invert__ + + @pytest.mark.parametrize( + "df,expected", + [ + (pd.DataFrame({"a": [-1, 1]}), pd.DataFrame({"a": [1, -1]})), + (pd.DataFrame({"a": [False, True]}), pd.DataFrame({"a": [True, False]})), + ( + pd.DataFrame({"a": pd.Series(pd.to_timedelta([-1, 1]))}), + pd.DataFrame({"a": pd.Series(pd.to_timedelta([1, -1]))}), + ), + ], + ) + def test_neg_numeric(self, df, expected): + tm.assert_frame_equal(-df, expected) + tm.assert_series_equal(-df["a"], expected["a"]) + + @pytest.mark.parametrize( + "df, expected", + [ + (np.array([1, 2], dtype=object), np.array([-1, -2], dtype=object)), + ([Decimal("1.0"), Decimal("2.0")], [Decimal("-1.0"), Decimal("-2.0")]), + ], + ) + def test_neg_object(self, df, expected): + # GH#21380 + df = pd.DataFrame({"a": df}) + expected = pd.DataFrame({"a": expected}) + tm.assert_frame_equal(-df, expected) + tm.assert_series_equal(-df["a"], expected["a"]) + + @pytest.mark.parametrize( + "df", + [ + pd.DataFrame({"a": ["a", "b"]}), + pd.DataFrame({"a": pd.to_datetime(["2017-01-22", "1970-01-01"])}), + ], + ) + def test_neg_raises(self, df, using_infer_string): + msg = ( + "bad operand type for unary -: 'str'|" + r"bad operand type for unary -: 'DatetimeArray'|" + "unary '-' not supported for dtype" + ) + with pytest.raises(TypeError, match=msg): + (-df) + with pytest.raises(TypeError, match=msg): + (-df["a"]) + + def test_invert(self, float_frame): + df = float_frame + + tm.assert_frame_equal(-(df < 0), ~(df < 0)) + + def test_invert_mixed(self): + shape = (10, 5) + df = pd.concat( + [ + pd.DataFrame(np.zeros(shape, dtype="bool")), + pd.DataFrame(np.zeros(shape, dtype=int)), + ], + axis=1, + ignore_index=True, + ) + result = ~df + expected = pd.concat( + [ + pd.DataFrame(np.ones(shape, dtype="bool")), + pd.DataFrame(-np.ones(shape, dtype=int)), + ], + axis=1, + ignore_index=True, + ) + tm.assert_frame_equal(result, expected) + + def test_invert_empty_not_input(self): + # GH#51032 + df = pd.DataFrame() + result = ~df + tm.assert_frame_equal(df, result) + assert df is not result + + @pytest.mark.parametrize( + "df", + [ + pd.DataFrame({"a": [-1, 1]}), + pd.DataFrame({"a": [False, True]}), + pd.DataFrame({"a": pd.Series(pd.to_timedelta([-1, 1]))}), + ], + ) + def test_pos_numeric(self, df): + # GH#16073 + tm.assert_frame_equal(+df, df) + tm.assert_series_equal(+df["a"], df["a"]) + + @pytest.mark.parametrize( + "df", + [ + pd.DataFrame({"a": np.array([-1, 2], dtype=object)}), + pd.DataFrame({"a": [Decimal("-1.0"), Decimal("2.0")]}), + ], + ) + def test_pos_object(self, df): + # GH#21380 + tm.assert_frame_equal(+df, df) + tm.assert_series_equal(+df["a"], df["a"]) + + @pytest.mark.parametrize( + "df", + [ + pytest.param( + pd.DataFrame({"a": ["a", "b"]}), + # filterwarnings removable once min numpy version is 1.25 + marks=[ + pytest.mark.filterwarnings("ignore:Applying:DeprecationWarning") + ], + ), + ], + ) + def test_pos_object_raises(self, df): + # GH#21380 + if np_version_gte1p25: + with pytest.raises( + TypeError, match=r"^bad operand type for unary \+: \'str\'$" + ): + tm.assert_frame_equal(+df, df) + else: + tm.assert_series_equal(+df["a"], df["a"]) + + @pytest.mark.parametrize( + "df", [pd.DataFrame({"a": pd.to_datetime(["2017-01-22", "1970-01-01"])})] + ) + def test_pos_raises(self, df): + msg = r"bad operand type for unary \+: 'DatetimeArray'" + with pytest.raises(TypeError, match=msg): + (+df) + with pytest.raises(TypeError, match=msg): + (+df["a"]) + + def test_unary_nullable(self): + df = pd.DataFrame( + { + "a": pd.array([1, -2, 3, pd.NA], dtype="Int64"), + "b": pd.array([4.0, -5.0, 6.0, pd.NA], dtype="Float32"), + "c": pd.array([True, False, False, pd.NA], dtype="boolean"), + # include numpy bool to make sure bool-vs-boolean behavior + # is consistent in non-NA locations + "d": np.array([True, False, False, True]), + } + ) + + result = +df + res_ufunc = np.positive(df) + expected = df + # TODO: assert that we have copies? + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(res_ufunc, expected) + + result = -df + res_ufunc = np.negative(df) + expected = pd.DataFrame( + { + "a": pd.array([-1, 2, -3, pd.NA], dtype="Int64"), + "b": pd.array([-4.0, 5.0, -6.0, pd.NA], dtype="Float32"), + "c": pd.array([False, True, True, pd.NA], dtype="boolean"), + "d": np.array([False, True, True, False]), + } + ) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(res_ufunc, expected) + + result = abs(df) + res_ufunc = np.abs(df) + expected = pd.DataFrame( + { + "a": pd.array([1, 2, 3, pd.NA], dtype="Int64"), + "b": pd.array([4.0, 5.0, 6.0, pd.NA], dtype="Float32"), + "c": pd.array([True, False, False, pd.NA], dtype="boolean"), + "d": np.array([True, False, False, True]), + } + ) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(res_ufunc, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_validate.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_validate.py new file mode 100644 index 0000000000000000000000000000000000000000..e99e0a686384883d570feef949597d08da7e8ff9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/frame/test_validate.py @@ -0,0 +1,41 @@ +import pytest + +from pandas.core.frame import DataFrame + + +@pytest.fixture +def dataframe(): + return DataFrame({"a": [1, 2], "b": [3, 4]}) + + +class TestDataFrameValidate: + """Tests for error handling related to data types of method arguments.""" + + @pytest.mark.parametrize( + "func", + [ + "query", + "eval", + "set_index", + "reset_index", + "dropna", + "drop_duplicates", + "sort_values", + ], + ) + @pytest.mark.parametrize("inplace", [1, "True", [1, 2, 3], 5.0]) + def test_validate_bool_args(self, dataframe, func, inplace): + msg = 'For argument "inplace" expected type bool' + kwargs = {"inplace": inplace} + + if func == "query": + kwargs["expr"] = "a > b" + elif func == "eval": + kwargs["expr"] = "a + b" + elif func == "set_index": + kwargs["keys"] = ["a"] + elif func == "sort_values": + kwargs["by"] = ["a"] + + with pytest.raises(ValueError, match=msg): + getattr(dataframe, func)(**kwargs) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..446d9da4377712b073d76dac7672dcf1de00cf04 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/__init__.py @@ -0,0 +1,25 @@ +def get_groupby_method_args(name, obj): + """ + Get required arguments for a groupby method. + + When parametrizing a test over groupby methods (e.g. "sum", "mean", "fillna"), + it is often the case that arguments are required for certain methods. + + Parameters + ---------- + name: str + Name of the method. + obj: Series or DataFrame + pandas object that is being grouped. + + Returns + ------- + A tuple of required arguments for the method. + """ + if name in ("nth", "fillna", "take"): + return (0,) + if name == "quantile": + return (0.5,) + if name == "corrwith": + return (obj,) + return () diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_aggregate.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_aggregate.py new file mode 100644 index 0000000000000000000000000000000000000000..f02a828fe8d1735f7014dc3437a492bb1f682506 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_aggregate.py @@ -0,0 +1,1672 @@ +""" +test .agg behavior / note that .apply is tested generally in test_groupby.py +""" +import datetime +import functools +from functools import partial +import re + +import numpy as np +import pytest + +from pandas.errors import SpecificationError + +from pandas.core.dtypes.common import is_integer_dtype + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + concat, + to_datetime, +) +import pandas._testing as tm +from pandas.core.groupby.grouper import Grouping + + +def test_groupby_agg_no_extra_calls(): + # GH#31760 + df = DataFrame({"key": ["a", "b", "c", "c"], "value": [1, 2, 3, 4]}) + gb = df.groupby("key")["value"] + + def dummy_func(x): + assert len(x) != 0 + return x.sum() + + gb.agg(dummy_func) + + +def test_agg_regression1(tsframe): + grouped = tsframe.groupby([lambda x: x.year, lambda x: x.month]) + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + +def test_agg_must_agg(df): + grouped = df.groupby("A")["C"] + + msg = "Must produce aggregated value" + with pytest.raises(Exception, match=msg): + grouped.agg(lambda x: x.describe()) + with pytest.raises(Exception, match=msg): + grouped.agg(lambda x: x.index[:2]) + + +def test_agg_ser_multi_key(df): + f = lambda x: x.sum() + results = df.C.groupby([df.A, df.B]).aggregate(f) + expected = df.groupby(["A", "B"]).sum()["C"] + tm.assert_series_equal(results, expected) + + +def test_groupby_aggregation_mixed_dtype(): + # GH 6212 + expected = DataFrame( + { + "v1": [5, 5, 7, np.nan, 3, 3, 4, 1], + "v2": [55, 55, 77, np.nan, 33, 33, 44, 11], + }, + index=MultiIndex.from_tuples( + [ + (1, 95), + (1, 99), + (2, 95), + (2, 99), + ("big", "damp"), + ("blue", "dry"), + ("red", "red"), + ("red", "wet"), + ], + names=["by1", "by2"], + ), + ) + + df = DataFrame( + { + "v1": [1, 3, 5, 7, 8, 3, 5, np.nan, 4, 5, 7, 9], + "v2": [11, 33, 55, 77, 88, 33, 55, np.nan, 44, 55, 77, 99], + "by1": ["red", "blue", 1, 2, np.nan, "big", 1, 2, "red", 1, np.nan, 12], + "by2": [ + "wet", + "dry", + 99, + 95, + np.nan, + "damp", + 95, + 99, + "red", + 99, + np.nan, + np.nan, + ], + } + ) + + g = df.groupby(["by1", "by2"]) + result = g[["v1", "v2"]].mean() + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregation_multi_level_column(): + # GH 29772 + lst = [ + [True, True, True, False], + [True, False, np.nan, False], + [True, True, np.nan, False], + [True, True, np.nan, False], + ] + df = DataFrame( + data=lst, + columns=MultiIndex.from_tuples([("A", 0), ("A", 1), ("B", 0), ("B", 1)]), + ) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=1, axis=1) + result = gb.sum(numeric_only=False) + expected = DataFrame({0: [2.0, True, True, True], 1: [1, 0, 1, 1]}) + + tm.assert_frame_equal(result, expected) + + +def test_agg_apply_corner(ts, tsframe): + # nothing to group, all NA + grouped = ts.groupby(ts * np.nan, group_keys=False) + assert ts.dtype == np.float64 + + # groupby float64 values results in a float64 Index + exp = Series([], dtype=np.float64, index=Index([], dtype=np.float64)) + tm.assert_series_equal(grouped.sum(), exp) + tm.assert_series_equal(grouped.agg("sum"), exp) + tm.assert_series_equal(grouped.apply("sum"), exp, check_index_type=False) + + # DataFrame + grouped = tsframe.groupby(tsframe["A"] * np.nan, group_keys=False) + exp_df = DataFrame( + columns=tsframe.columns, + dtype=float, + index=Index([], name="A", dtype=np.float64), + ) + tm.assert_frame_equal(grouped.sum(), exp_df) + tm.assert_frame_equal(grouped.agg("sum"), exp_df) + + msg = "The behavior of DataFrame.sum with axis=None is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False): + res = grouped.apply(np.sum) + tm.assert_frame_equal(res, exp_df) + + +def test_agg_grouping_is_list_tuple(ts): + df = DataFrame( + np.random.default_rng(2).standard_normal((30, 4)), + columns=Index(list("ABCD"), dtype=object), + index=pd.date_range("2000-01-01", periods=30, freq="B"), + ) + + grouped = df.groupby(lambda x: x.year) + grouper = grouped._grouper.groupings[0].grouping_vector + grouped._grouper.groupings[0] = Grouping(ts.index, list(grouper)) + + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + grouped._grouper.groupings[0] = Grouping(ts.index, tuple(grouper)) + + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + +def test_agg_python_multiindex(multiindex_dataframe_random_data): + grouped = multiindex_dataframe_random_data.groupby(["A", "B"]) + + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "groupbyfunc", [lambda x: x.weekday(), [lambda x: x.month, lambda x: x.weekday()]] +) +def test_aggregate_str_func(tsframe, groupbyfunc): + grouped = tsframe.groupby(groupbyfunc) + + # single series + result = grouped["A"].agg("std") + expected = grouped["A"].std() + tm.assert_series_equal(result, expected) + + # group frame by function name + result = grouped.aggregate("var") + expected = grouped.var() + tm.assert_frame_equal(result, expected) + + # group frame by function dict + result = grouped.agg({"A": "var", "B": "std", "C": "mean", "D": "sem"}) + expected = DataFrame( + { + "A": grouped["A"].var(), + "B": grouped["B"].std(), + "C": grouped["C"].mean(), + "D": grouped["D"].sem(), + } + ) + tm.assert_frame_equal(result, expected) + + +def test_std_masked_dtype(any_numeric_ea_dtype): + # GH#35516 + df = DataFrame( + { + "a": [2, 1, 1, 1, 2, 2, 1], + "b": Series([pd.NA, 1, 2, 1, 1, 1, 2], dtype="Float64"), + } + ) + result = df.groupby("a").std() + expected = DataFrame( + {"b": [0.57735, 0]}, index=Index([1, 2], name="a"), dtype="Float64" + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_str_with_kwarg_axis_1_raises(df, reduction_func): + gb = df.groupby(level=0) + warn_msg = f"DataFrameGroupBy.{reduction_func} with axis=1 is deprecated" + if reduction_func in ("idxmax", "idxmin"): + error = TypeError + msg = "'[<>]' not supported between instances of 'float' and 'str'" + warn = FutureWarning + else: + error = ValueError + msg = f"Operation {reduction_func} does not support axis=1" + warn = None + with pytest.raises(error, match=msg): + with tm.assert_produces_warning(warn, match=warn_msg): + gb.agg(reduction_func, axis=1) + + +@pytest.mark.parametrize( + "func, expected, dtype, result_dtype_dict", + [ + ("sum", [5, 7, 9], "int64", {}), + ("std", [4.5**0.5] * 3, int, {"i": float, "j": float, "k": float}), + ("var", [4.5] * 3, int, {"i": float, "j": float, "k": float}), + ("sum", [5, 7, 9], "Int64", {"j": "int64"}), + ("std", [4.5**0.5] * 3, "Int64", {"i": float, "j": float, "k": float}), + ("var", [4.5] * 3, "Int64", {"i": "float64", "j": "float64", "k": "float64"}), + ], +) +def test_multiindex_groupby_mixed_cols_axis1(func, expected, dtype, result_dtype_dict): + # GH#43209 + df = DataFrame( + [[1, 2, 3, 4, 5, 6]] * 3, + columns=MultiIndex.from_product([["a", "b"], ["i", "j", "k"]]), + ).astype({("a", "j"): dtype, ("b", "j"): dtype}) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=1, axis=1) + result = gb.agg(func) + expected = DataFrame([expected] * 3, columns=["i", "j", "k"]).astype( + result_dtype_dict + ) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "func, expected_data, result_dtype_dict", + [ + ("sum", [[2, 4], [10, 12], [18, 20]], {10: "int64", 20: "int64"}), + # std should ideally return Int64 / Float64 #43330 + ("std", [[2**0.5] * 2] * 3, "float64"), + ("var", [[2] * 2] * 3, {10: "float64", 20: "float64"}), + ], +) +def test_groupby_mixed_cols_axis1(func, expected_data, result_dtype_dict): + # GH#43209 + df = DataFrame( + np.arange(12).reshape(3, 4), + index=Index([0, 1, 0], name="y"), + columns=Index([10, 20, 10, 20], name="x"), + dtype="int64", + ).astype({10: "Int64"}) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby("x", axis=1) + result = gb.agg(func) + expected = DataFrame( + data=expected_data, + index=Index([0, 1, 0], name="y"), + columns=Index([10, 20], name="x"), + ).astype(result_dtype_dict) + tm.assert_frame_equal(result, expected) + + +def test_aggregate_item_by_item(df): + grouped = df.groupby("A") + + aggfun_0 = lambda ser: ser.size + result = grouped.agg(aggfun_0) + foosum = (df.A == "foo").sum() + barsum = (df.A == "bar").sum() + K = len(result.columns) + + # GH5782 + exp = Series(np.array([foosum] * K), index=list("BCD"), name="foo") + tm.assert_series_equal(result.xs("foo"), exp) + + exp = Series(np.array([barsum] * K), index=list("BCD"), name="bar") + tm.assert_almost_equal(result.xs("bar"), exp) + + def aggfun_1(ser): + return ser.size + + result = DataFrame().groupby(df.A).agg(aggfun_1) + assert isinstance(result, DataFrame) + assert len(result) == 0 + + +def test_wrap_agg_out(three_group): + grouped = three_group.groupby(["A", "B"]) + + def func(ser): + if ser.dtype in (object, "string"): + raise TypeError("Test error message") + return ser.sum() + + with pytest.raises(TypeError, match="Test error message"): + grouped.aggregate(func) + result = grouped[["D", "E", "F"]].aggregate(func) + exp_grouped = three_group.loc[:, ["A", "B", "D", "E", "F"]] + expected = exp_grouped.groupby(["A", "B"]).aggregate(func) + tm.assert_frame_equal(result, expected) + + +def test_agg_multiple_functions_maintain_order(df): + # GH #610 + funcs = [("mean", np.mean), ("max", np.max), ("min", np.min)] + msg = "is currently using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A")["C"].agg(funcs) + exp_cols = Index(["mean", "max", "min"]) + + tm.assert_index_equal(result.columns, exp_cols) + + +def test_series_index_name(df): + grouped = df.loc[:, ["C"]].groupby(df["A"]) + result = grouped.agg(lambda x: x.mean()) + assert result.index.name == "A" + + +def test_agg_multiple_functions_same_name(): + # GH 30880 + df = DataFrame( + np.random.default_rng(2).standard_normal((1000, 3)), + index=pd.date_range("1/1/2012", freq="s", periods=1000), + columns=["A", "B", "C"], + ) + result = df.resample("3min").agg( + {"A": [partial(np.quantile, q=0.9999), partial(np.quantile, q=0.1111)]} + ) + expected_index = pd.date_range("1/1/2012", freq="3min", periods=6) + expected_columns = MultiIndex.from_tuples([("A", "quantile"), ("A", "quantile")]) + expected_values = np.array( + [df.resample("3min").A.quantile(q=q).values for q in [0.9999, 0.1111]] + ).T + expected = DataFrame( + expected_values, columns=expected_columns, index=expected_index + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_multiple_functions_same_name_with_ohlc_present(): + # GH 30880 + # ohlc expands dimensions, so different test to the above is required. + df = DataFrame( + np.random.default_rng(2).standard_normal((1000, 3)), + index=pd.date_range("1/1/2012", freq="s", periods=1000, name="dti"), + columns=Index(["A", "B", "C"], name="alpha"), + ) + result = df.resample("3min").agg( + {"A": ["ohlc", partial(np.quantile, q=0.9999), partial(np.quantile, q=0.1111)]} + ) + expected_index = pd.date_range("1/1/2012", freq="3min", periods=6, name="dti") + expected_columns = MultiIndex.from_tuples( + [ + ("A", "ohlc", "open"), + ("A", "ohlc", "high"), + ("A", "ohlc", "low"), + ("A", "ohlc", "close"), + ("A", "quantile", "A"), + ("A", "quantile", "A"), + ], + names=["alpha", None, None], + ) + non_ohlc_expected_values = np.array( + [df.resample("3min").A.quantile(q=q).values for q in [0.9999, 0.1111]] + ).T + expected_values = np.hstack( + [df.resample("3min").A.ohlc(), non_ohlc_expected_values] + ) + expected = DataFrame( + expected_values, columns=expected_columns, index=expected_index + ) + tm.assert_frame_equal(result, expected) + + +def test_multiple_functions_tuples_and_non_tuples(df): + # #1359 + # Columns B and C would cause partial failure + df = df.drop(columns=["B", "C"]) + + funcs = [("foo", "mean"), "std"] + ex_funcs = [("foo", "mean"), ("std", "std")] + + result = df.groupby("A")["D"].agg(funcs) + expected = df.groupby("A")["D"].agg(ex_funcs) + tm.assert_frame_equal(result, expected) + + result = df.groupby("A").agg(funcs) + expected = df.groupby("A").agg(ex_funcs) + tm.assert_frame_equal(result, expected) + + +def test_more_flexible_frame_multi_function(df): + grouped = df.groupby("A") + + exmean = grouped.agg({"C": "mean", "D": "mean"}) + exstd = grouped.agg({"C": "std", "D": "std"}) + + expected = concat([exmean, exstd], keys=["mean", "std"], axis=1) + expected = expected.swaplevel(0, 1, axis=1).sort_index(level=0, axis=1) + + d = {"C": ["mean", "std"], "D": ["mean", "std"]} + result = grouped.aggregate(d) + + tm.assert_frame_equal(result, expected) + + # be careful + result = grouped.aggregate({"C": "mean", "D": ["mean", "std"]}) + expected = grouped.aggregate({"C": "mean", "D": ["mean", "std"]}) + tm.assert_frame_equal(result, expected) + + def numpymean(x): + return np.mean(x) + + def numpystd(x): + return np.std(x, ddof=1) + + # this uses column selection & renaming + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + d = {"C": "mean", "D": {"foo": "mean", "bar": "std"}} + grouped.aggregate(d) + + # But without renaming, these functions are OK + d = {"C": ["mean"], "D": [numpymean, numpystd]} + grouped.aggregate(d) + + +def test_multi_function_flexible_mix(df): + # GH #1268 + grouped = df.groupby("A") + + # Expected + d = {"C": {"foo": "mean", "bar": "std"}, "D": {"sum": "sum"}} + # this uses column selection & renaming + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + grouped.aggregate(d) + + # Test 1 + d = {"C": {"foo": "mean", "bar": "std"}, "D": "sum"} + # this uses column selection & renaming + with pytest.raises(SpecificationError, match=msg): + grouped.aggregate(d) + + # Test 2 + d = {"C": {"foo": "mean", "bar": "std"}, "D": "sum"} + # this uses column selection & renaming + with pytest.raises(SpecificationError, match=msg): + grouped.aggregate(d) + + +def test_groupby_agg_coercing_bools(): + # issue 14873 + dat = DataFrame({"a": [1, 1, 2, 2], "b": [0, 1, 2, 3], "c": [None, None, 1, 1]}) + gp = dat.groupby("a") + + index = Index([1, 2], name="a") + + result = gp["b"].aggregate(lambda x: (x != 0).all()) + expected = Series([False, True], index=index, name="b") + tm.assert_series_equal(result, expected) + + result = gp["c"].aggregate(lambda x: x.isnull().all()) + expected = Series([True, False], index=index, name="c") + tm.assert_series_equal(result, expected) + + +def test_groupby_agg_dict_with_getitem(): + # issue 25471 + dat = DataFrame({"A": ["A", "A", "B", "B", "B"], "B": [1, 2, 1, 1, 2]}) + result = dat.groupby("A")[["B"]].agg({"B": "sum"}) + + expected = DataFrame({"B": [3, 4]}, index=["A", "B"]).rename_axis("A", axis=0) + + tm.assert_frame_equal(result, expected) + + +def test_groupby_agg_dict_dup_columns(): + # GH#55006 + df = DataFrame( + [[1, 2, 3, 4], [1, 3, 4, 5], [2, 4, 5, 6]], + columns=["a", "b", "c", "c"], + ) + gb = df.groupby("a") + result = gb.agg({"b": "sum"}) + expected = DataFrame({"b": [5, 4]}, index=Index([1, 2], name="a")) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "op", + [ + lambda x: x.sum(), + lambda x: x.cumsum(), + lambda x: x.transform("sum"), + lambda x: x.transform("cumsum"), + lambda x: x.agg("sum"), + lambda x: x.agg("cumsum"), + ], +) +def test_bool_agg_dtype(op): + # GH 7001 + # Bool sum aggregations result in int + df = DataFrame({"a": [1, 1], "b": [False, True]}) + s = df.set_index("a")["b"] + + result = op(df.groupby("a"))["b"].dtype + assert is_integer_dtype(result) + + result = op(s.groupby("a")).dtype + assert is_integer_dtype(result) + + +@pytest.mark.parametrize( + "keys, agg_index", + [ + (["a"], Index([1], name="a")), + (["a", "b"], MultiIndex([[1], [2]], [[0], [0]], names=["a", "b"])), + ], +) +@pytest.mark.parametrize( + "input_dtype", ["bool", "int32", "int64", "float32", "float64"] +) +@pytest.mark.parametrize( + "result_dtype", ["bool", "int32", "int64", "float32", "float64"] +) +@pytest.mark.parametrize("method", ["apply", "aggregate", "transform"]) +def test_callable_result_dtype_frame( + keys, agg_index, input_dtype, result_dtype, method +): + # GH 21240 + df = DataFrame({"a": [1], "b": [2], "c": [True]}) + df["c"] = df["c"].astype(input_dtype) + op = getattr(df.groupby(keys)[["c"]], method) + result = op(lambda x: x.astype(result_dtype).iloc[0]) + expected_index = pd.RangeIndex(0, 1) if method == "transform" else agg_index + expected = DataFrame({"c": [df["c"].iloc[0]]}, index=expected_index).astype( + result_dtype + ) + if method == "apply": + expected.columns.names = [0] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "keys, agg_index", + [ + (["a"], Index([1], name="a")), + (["a", "b"], MultiIndex([[1], [2]], [[0], [0]], names=["a", "b"])), + ], +) +@pytest.mark.parametrize("input", [True, 1, 1.0]) +@pytest.mark.parametrize("dtype", [bool, int, float]) +@pytest.mark.parametrize("method", ["apply", "aggregate", "transform"]) +def test_callable_result_dtype_series(keys, agg_index, input, dtype, method): + # GH 21240 + df = DataFrame({"a": [1], "b": [2], "c": [input]}) + op = getattr(df.groupby(keys)["c"], method) + result = op(lambda x: x.astype(dtype).iloc[0]) + expected_index = pd.RangeIndex(0, 1) if method == "transform" else agg_index + expected = Series([df["c"].iloc[0]], index=expected_index, name="c").astype(dtype) + tm.assert_series_equal(result, expected) + + +def test_order_aggregate_multiple_funcs(): + # GH 25692 + df = DataFrame({"A": [1, 1, 2, 2], "B": [1, 2, 3, 4]}) + + res = df.groupby("A").agg(["sum", "max", "mean", "ohlc", "min"]) + result = res.columns.levels[1] + + expected = Index(["sum", "max", "mean", "ohlc", "min"]) + + tm.assert_index_equal(result, expected) + + +def test_ohlc_ea_dtypes(any_numeric_ea_dtype): + # GH#37493 + df = DataFrame( + {"a": [1, 1, 2, 3, 4, 4], "b": [22, 11, pd.NA, 10, 20, pd.NA]}, + dtype=any_numeric_ea_dtype, + ) + gb = df.groupby("a") + result = gb.ohlc() + expected = DataFrame( + [[22, 22, 11, 11], [pd.NA] * 4, [10] * 4, [20] * 4], + columns=MultiIndex.from_product([["b"], ["open", "high", "low", "close"]]), + index=Index([1, 2, 3, 4], dtype=any_numeric_ea_dtype, name="a"), + dtype=any_numeric_ea_dtype, + ) + tm.assert_frame_equal(result, expected) + + gb2 = df.groupby("a", as_index=False) + result2 = gb2.ohlc() + expected2 = expected.reset_index() + tm.assert_frame_equal(result2, expected2) + + +@pytest.mark.parametrize("dtype", [np.int64, np.uint64]) +@pytest.mark.parametrize("how", ["first", "last", "min", "max", "mean", "median"]) +def test_uint64_type_handling(dtype, how): + # GH 26310 + df = DataFrame({"x": 6903052872240755750, "y": [1, 2]}) + expected = df.groupby("y").agg({"x": how}) + df.x = df.x.astype(dtype) + result = df.groupby("y").agg({"x": how}) + if how not in ("mean", "median"): + # mean and median always result in floats + result.x = result.x.astype(np.int64) + tm.assert_frame_equal(result, expected, check_exact=True) + + +def test_func_duplicates_raises(): + # GH28426 + msg = "Function names" + df = DataFrame({"A": [0, 0, 1, 1], "B": [1, 2, 3, 4]}) + with pytest.raises(SpecificationError, match=msg): + df.groupby("A").agg(["min", "min"]) + + +@pytest.mark.parametrize( + "index", + [ + pd.CategoricalIndex(list("abc")), + pd.interval_range(0, 3), + pd.period_range("2020", periods=3, freq="D"), + MultiIndex.from_tuples([("a", 0), ("a", 1), ("b", 0)]), + ], +) +def test_agg_index_has_complex_internals(index): + # GH 31223 + df = DataFrame({"group": [1, 1, 2], "value": [0, 1, 0]}, index=index) + result = df.groupby("group").agg({"value": Series.nunique}) + expected = DataFrame({"group": [1, 2], "value": [2, 1]}).set_index("group") + tm.assert_frame_equal(result, expected) + + +def test_agg_split_block(): + # https://github.com/pandas-dev/pandas/issues/31522 + df = DataFrame( + { + "key1": ["a", "a", "b", "b", "a"], + "key2": ["one", "two", "one", "two", "one"], + "key3": ["three", "three", "three", "six", "six"], + } + ) + result = df.groupby("key1").min() + expected = DataFrame( + {"key2": ["one", "one"], "key3": ["six", "six"]}, + index=Index(["a", "b"], name="key1"), + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_split_object_part_datetime(): + # https://github.com/pandas-dev/pandas/pull/31616 + df = DataFrame( + { + "A": pd.date_range("2000", periods=4), + "B": ["a", "b", "c", "d"], + "C": [1, 2, 3, 4], + "D": ["b", "c", "d", "e"], + "E": pd.date_range("2000", periods=4), + "F": [1, 2, 3, 4], + } + ).astype(object) + result = df.groupby([0, 0, 0, 0]).min() + expected = DataFrame( + { + "A": [pd.Timestamp("2000")], + "B": ["a"], + "C": [1], + "D": ["b"], + "E": [pd.Timestamp("2000")], + "F": [1], + }, + index=np.array([0]), + dtype=object, + ) + tm.assert_frame_equal(result, expected) + + +class TestNamedAggregationSeries: + def test_series_named_agg(self): + df = Series([1, 2, 3, 4]) + gr = df.groupby([0, 0, 1, 1]) + result = gr.agg(a="sum", b="min") + expected = DataFrame( + {"a": [3, 7], "b": [1, 3]}, columns=["a", "b"], index=np.array([0, 1]) + ) + tm.assert_frame_equal(result, expected) + + result = gr.agg(b="min", a="sum") + expected = expected[["b", "a"]] + tm.assert_frame_equal(result, expected) + + def test_no_args_raises(self): + gr = Series([1, 2]).groupby([0, 1]) + with pytest.raises(TypeError, match="Must provide"): + gr.agg() + + # but we do allow this + result = gr.agg([]) + expected = DataFrame(columns=[]) + tm.assert_frame_equal(result, expected) + + def test_series_named_agg_duplicates_no_raises(self): + # GH28426 + gr = Series([1, 2, 3]).groupby([0, 0, 1]) + grouped = gr.agg(a="sum", b="sum") + expected = DataFrame({"a": [3, 3], "b": [3, 3]}, index=np.array([0, 1])) + tm.assert_frame_equal(expected, grouped) + + def test_mangled(self): + gr = Series([1, 2, 3]).groupby([0, 0, 1]) + result = gr.agg(a=lambda x: 0, b=lambda x: 1) + expected = DataFrame({"a": [0, 0], "b": [1, 1]}, index=np.array([0, 1])) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "inp", + [ + pd.NamedAgg(column="anything", aggfunc="min"), + ("anything", "min"), + ["anything", "min"], + ], + ) + def test_named_agg_nametuple(self, inp): + # GH34422 + s = Series([1, 1, 2, 2, 3, 3, 4, 5]) + msg = f"func is expected but received {type(inp).__name__}" + with pytest.raises(TypeError, match=msg): + s.groupby(s.values).agg(a=inp) + + +class TestNamedAggregationDataFrame: + def test_agg_relabel(self): + df = DataFrame( + {"group": ["a", "a", "b", "b"], "A": [0, 1, 2, 3], "B": [5, 6, 7, 8]} + ) + result = df.groupby("group").agg(a_max=("A", "max"), b_max=("B", "max")) + expected = DataFrame( + {"a_max": [1, 3], "b_max": [6, 8]}, + index=Index(["a", "b"], name="group"), + columns=["a_max", "b_max"], + ) + tm.assert_frame_equal(result, expected) + + # order invariance + p98 = functools.partial(np.percentile, q=98) + result = df.groupby("group").agg( + b_min=("B", "min"), + a_min=("A", "min"), + a_mean=("A", "mean"), + a_max=("A", "max"), + b_max=("B", "max"), + a_98=("A", p98), + ) + expected = DataFrame( + { + "b_min": [5, 7], + "a_min": [0, 2], + "a_mean": [0.5, 2.5], + "a_max": [1, 3], + "b_max": [6, 8], + "a_98": [0.98, 2.98], + }, + index=Index(["a", "b"], name="group"), + columns=["b_min", "a_min", "a_mean", "a_max", "b_max", "a_98"], + ) + tm.assert_frame_equal(result, expected) + + def test_agg_relabel_non_identifier(self): + df = DataFrame( + {"group": ["a", "a", "b", "b"], "A": [0, 1, 2, 3], "B": [5, 6, 7, 8]} + ) + + result = df.groupby("group").agg(**{"my col": ("A", "max")}) + expected = DataFrame({"my col": [1, 3]}, index=Index(["a", "b"], name="group")) + tm.assert_frame_equal(result, expected) + + def test_duplicate_no_raises(self): + # GH 28426, if use same input function on same column, + # no error should raise + df = DataFrame({"A": [0, 0, 1, 1], "B": [1, 2, 3, 4]}) + + grouped = df.groupby("A").agg(a=("B", "min"), b=("B", "min")) + expected = DataFrame({"a": [1, 3], "b": [1, 3]}, index=Index([0, 1], name="A")) + tm.assert_frame_equal(grouped, expected) + + quant50 = functools.partial(np.percentile, q=50) + quant70 = functools.partial(np.percentile, q=70) + quant50.__name__ = "quant50" + quant70.__name__ = "quant70" + + test = DataFrame({"col1": ["a", "a", "b", "b", "b"], "col2": [1, 2, 3, 4, 5]}) + + grouped = test.groupby("col1").agg( + quantile_50=("col2", quant50), quantile_70=("col2", quant70) + ) + expected = DataFrame( + {"quantile_50": [1.5, 4.0], "quantile_70": [1.7, 4.4]}, + index=Index(["a", "b"], name="col1"), + ) + tm.assert_frame_equal(grouped, expected) + + def test_agg_relabel_with_level(self): + df = DataFrame( + {"A": [0, 0, 1, 1], "B": [1, 2, 3, 4]}, + index=MultiIndex.from_product([["A", "B"], ["a", "b"]]), + ) + result = df.groupby(level=0).agg( + aa=("A", "max"), bb=("A", "min"), cc=("B", "mean") + ) + expected = DataFrame( + {"aa": [0, 1], "bb": [0, 1], "cc": [1.5, 3.5]}, index=["A", "B"] + ) + tm.assert_frame_equal(result, expected) + + def test_agg_relabel_other_raises(self): + df = DataFrame({"A": [0, 0, 1], "B": [1, 2, 3]}) + grouped = df.groupby("A") + match = "Must provide" + with pytest.raises(TypeError, match=match): + grouped.agg(foo=1) + + with pytest.raises(TypeError, match=match): + grouped.agg() + + with pytest.raises(TypeError, match=match): + grouped.agg(a=("B", "max"), b=(1, 2, 3)) + + def test_missing_raises(self): + df = DataFrame({"A": [0, 1], "B": [1, 2]}) + match = re.escape("Column(s) ['C'] do not exist") + with pytest.raises(KeyError, match=match): + df.groupby("A").agg(c=("C", "sum")) + + def test_agg_namedtuple(self): + df = DataFrame({"A": [0, 1], "B": [1, 2]}) + result = df.groupby("A").agg( + b=pd.NamedAgg("B", "sum"), c=pd.NamedAgg(column="B", aggfunc="count") + ) + expected = df.groupby("A").agg(b=("B", "sum"), c=("B", "count")) + tm.assert_frame_equal(result, expected) + + def test_mangled(self): + df = DataFrame({"A": [0, 1], "B": [1, 2], "C": [3, 4]}) + result = df.groupby("A").agg(b=("B", lambda x: 0), c=("C", lambda x: 1)) + expected = DataFrame({"b": [0, 0], "c": [1, 1]}, index=Index([0, 1], name="A")) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "agg_col1, agg_col2, agg_col3, agg_result1, agg_result2, agg_result3", + [ + ( + (("y", "A"), "max"), + (("y", "A"), np.mean), + (("y", "B"), "mean"), + [1, 3], + [0.5, 2.5], + [5.5, 7.5], + ), + ( + (("y", "A"), lambda x: max(x)), + (("y", "A"), lambda x: 1), + (("y", "B"), np.mean), + [1, 3], + [1, 1], + [5.5, 7.5], + ), + ( + pd.NamedAgg(("y", "A"), "max"), + pd.NamedAgg(("y", "B"), np.mean), + pd.NamedAgg(("y", "A"), lambda x: 1), + [1, 3], + [5.5, 7.5], + [1, 1], + ), + ], +) +def test_agg_relabel_multiindex_column( + agg_col1, agg_col2, agg_col3, agg_result1, agg_result2, agg_result3 +): + # GH 29422, add tests for multiindex column cases + df = DataFrame( + {"group": ["a", "a", "b", "b"], "A": [0, 1, 2, 3], "B": [5, 6, 7, 8]} + ) + df.columns = MultiIndex.from_tuples([("x", "group"), ("y", "A"), ("y", "B")]) + idx = Index(["a", "b"], name=("x", "group")) + + result = df.groupby(("x", "group")).agg(a_max=(("y", "A"), "max")) + expected = DataFrame({"a_max": [1, 3]}, index=idx) + tm.assert_frame_equal(result, expected) + + msg = "is currently using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(("x", "group")).agg( + col_1=agg_col1, col_2=agg_col2, col_3=agg_col3 + ) + expected = DataFrame( + {"col_1": agg_result1, "col_2": agg_result2, "col_3": agg_result3}, index=idx + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_relabel_multiindex_raises_not_exist(): + # GH 29422, add test for raises scenario when aggregate column does not exist + df = DataFrame( + {"group": ["a", "a", "b", "b"], "A": [0, 1, 2, 3], "B": [5, 6, 7, 8]} + ) + df.columns = MultiIndex.from_tuples([("x", "group"), ("y", "A"), ("y", "B")]) + + with pytest.raises(KeyError, match="do not exist"): + df.groupby(("x", "group")).agg(a=(("Y", "a"), "max")) + + +def test_agg_relabel_multiindex_duplicates(): + # GH29422, add test for raises scenario when getting duplicates + # GH28426, after this change, duplicates should also work if the relabelling is + # different + df = DataFrame( + {"group": ["a", "a", "b", "b"], "A": [0, 1, 2, 3], "B": [5, 6, 7, 8]} + ) + df.columns = MultiIndex.from_tuples([("x", "group"), ("y", "A"), ("y", "B")]) + + result = df.groupby(("x", "group")).agg( + a=(("y", "A"), "min"), b=(("y", "A"), "min") + ) + idx = Index(["a", "b"], name=("x", "group")) + expected = DataFrame({"a": [0, 2], "b": [0, 2]}, index=idx) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("kwargs", [{"c": ["min"]}, {"b": [], "c": ["min"]}]) +def test_groupby_aggregate_empty_key(kwargs): + # GH: 32580 + df = DataFrame({"a": [1, 1, 2], "b": [1, 2, 3], "c": [1, 2, 4]}) + result = df.groupby("a").agg(kwargs) + expected = DataFrame( + [1, 4], + index=Index([1, 2], dtype="int64", name="a"), + columns=MultiIndex.from_tuples([["c", "min"]]), + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregate_empty_key_empty_return(): + # GH: 32580 Check if everything works, when return is empty + df = DataFrame({"a": [1, 1, 2], "b": [1, 2, 3], "c": [1, 2, 4]}) + result = df.groupby("a").agg({"b": []}) + expected = DataFrame(columns=MultiIndex(levels=[["b"], []], codes=[[], []])) + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregate_empty_with_multiindex_frame(): + # GH 39178 + df = DataFrame(columns=["a", "b", "c"]) + result = df.groupby(["a", "b"], group_keys=False).agg(d=("c", list)) + expected = DataFrame( + columns=["d"], index=MultiIndex([[], []], [[], []], names=["a", "b"]) + ) + tm.assert_frame_equal(result, expected) + + +def test_grouby_agg_loses_results_with_as_index_false_relabel(): + # GH 32240: When the aggregate function relabels column names and + # as_index=False is specified, the results are dropped. + + df = DataFrame( + {"key": ["x", "y", "z", "x", "y", "z"], "val": [1.0, 0.8, 2.0, 3.0, 3.6, 0.75]} + ) + + grouped = df.groupby("key", as_index=False) + result = grouped.agg(min_val=pd.NamedAgg(column="val", aggfunc="min")) + expected = DataFrame({"key": ["x", "y", "z"], "min_val": [1.0, 0.8, 0.75]}) + tm.assert_frame_equal(result, expected) + + +def test_grouby_agg_loses_results_with_as_index_false_relabel_multiindex(): + # GH 32240: When the aggregate function relabels column names and + # as_index=False is specified, the results are dropped. Check if + # multiindex is returned in the right order + + df = DataFrame( + { + "key": ["x", "y", "x", "y", "x", "x"], + "key1": ["a", "b", "c", "b", "a", "c"], + "val": [1.0, 0.8, 2.0, 3.0, 3.6, 0.75], + } + ) + + grouped = df.groupby(["key", "key1"], as_index=False) + result = grouped.agg(min_val=pd.NamedAgg(column="val", aggfunc="min")) + expected = DataFrame( + {"key": ["x", "x", "y"], "key1": ["a", "c", "b"], "min_val": [1.0, 0.75, 0.8]} + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "func", [lambda s: s.mean(), lambda s: np.mean(s), lambda s: np.nanmean(s)] +) +def test_multiindex_custom_func(func): + # GH 31777 + data = [[1, 4, 2], [5, 7, 1]] + df = DataFrame( + data, + columns=MultiIndex.from_arrays( + [[1, 1, 2], [3, 4, 3]], names=["Sisko", "Janeway"] + ), + ) + result = df.groupby(np.array([0, 1])).agg(func) + expected_dict = { + (1, 3): {0: 1.0, 1: 5.0}, + (1, 4): {0: 4.0, 1: 7.0}, + (2, 3): {0: 2.0, 1: 1.0}, + } + expected = DataFrame(expected_dict, index=np.array([0, 1]), columns=df.columns) + tm.assert_frame_equal(result, expected) + + +def myfunc(s): + return np.percentile(s, q=0.90) + + +@pytest.mark.parametrize("func", [lambda s: np.percentile(s, q=0.90), myfunc]) +def test_lambda_named_agg(func): + # see gh-28467 + animals = DataFrame( + { + "kind": ["cat", "dog", "cat", "dog"], + "height": [9.1, 6.0, 9.5, 34.0], + "weight": [7.9, 7.5, 9.9, 198.0], + } + ) + + result = animals.groupby("kind").agg( + mean_height=("height", "mean"), perc90=("height", func) + ) + expected = DataFrame( + [[9.3, 9.1036], [20.0, 6.252]], + columns=["mean_height", "perc90"], + index=Index(["cat", "dog"], name="kind"), + ) + + tm.assert_frame_equal(result, expected) + + +def test_aggregate_mixed_types(): + # GH 16916 + df = DataFrame( + data=np.array([0] * 9).reshape(3, 3), columns=list("XYZ"), index=list("abc") + ) + df["grouping"] = ["group 1", "group 1", 2] + result = df.groupby("grouping").aggregate(lambda x: x.tolist()) + expected_data = [[[0], [0], [0]], [[0, 0], [0, 0], [0, 0]]] + expected = DataFrame( + expected_data, + index=Index([2, "group 1"], dtype="object", name="grouping"), + columns=Index(["X", "Y", "Z"]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.xfail(reason="Not implemented;see GH 31256") +def test_aggregate_udf_na_extension_type(): + # https://github.com/pandas-dev/pandas/pull/31359 + # This is currently failing to cast back to Int64Dtype. + # The presence of the NA causes two problems + # 1. NA is not an instance of Int64Dtype.type (numpy.int64) + # 2. The presence of an NA forces object type, so the non-NA values is + # a Python int rather than a NumPy int64. Python ints aren't + # instances of numpy.int64. + def aggfunc(x): + if all(x > 2): + return 1 + else: + return pd.NA + + df = DataFrame({"A": pd.array([1, 2, 3])}) + result = df.groupby([1, 1, 2]).agg(aggfunc) + expected = DataFrame({"A": pd.array([1, pd.NA], dtype="Int64")}, index=[1, 2]) + tm.assert_frame_equal(result, expected) + + +class TestLambdaMangling: + def test_basic(self): + df = DataFrame({"A": [0, 0, 1, 1], "B": [1, 2, 3, 4]}) + result = df.groupby("A").agg({"B": [lambda x: 0, lambda x: 1]}) + + expected = DataFrame( + {("B", ""): [0, 0], ("B", ""): [1, 1]}, + index=Index([0, 1], name="A"), + ) + tm.assert_frame_equal(result, expected) + + def test_mangle_series_groupby(self): + gr = Series([1, 2, 3, 4]).groupby([0, 0, 1, 1]) + result = gr.agg([lambda x: 0, lambda x: 1]) + exp_data = {"": [0, 0], "": [1, 1]} + expected = DataFrame(exp_data, index=np.array([0, 1])) + tm.assert_frame_equal(result, expected) + + @pytest.mark.xfail(reason="GH-26611. kwargs for multi-agg.") + def test_with_kwargs(self): + f1 = lambda x, y, b=1: x.sum() + y + b + f2 = lambda x, y, b=2: x.sum() + y * b + result = Series([1, 2]).groupby([0, 0]).agg([f1, f2], 0) + expected = DataFrame({"": [4], "": [6]}) + tm.assert_frame_equal(result, expected) + + result = Series([1, 2]).groupby([0, 0]).agg([f1, f2], 0, b=10) + expected = DataFrame({"": [13], "": [30]}) + tm.assert_frame_equal(result, expected) + + def test_agg_with_one_lambda(self): + # GH 25719, write tests for DataFrameGroupby.agg with only one lambda + df = DataFrame( + { + "kind": ["cat", "dog", "cat", "dog"], + "height": [9.1, 6.0, 9.5, 34.0], + "weight": [7.9, 7.5, 9.9, 198.0], + } + ) + + columns = ["height_sqr_min", "height_max", "weight_max"] + expected = DataFrame( + { + "height_sqr_min": [82.81, 36.00], + "height_max": [9.5, 34.0], + "weight_max": [9.9, 198.0], + }, + index=Index(["cat", "dog"], name="kind"), + columns=columns, + ) + + # check pd.NameAgg case + result1 = df.groupby(by="kind").agg( + height_sqr_min=pd.NamedAgg( + column="height", aggfunc=lambda x: np.min(x**2) + ), + height_max=pd.NamedAgg(column="height", aggfunc="max"), + weight_max=pd.NamedAgg(column="weight", aggfunc="max"), + ) + tm.assert_frame_equal(result1, expected) + + # check agg(key=(col, aggfunc)) case + result2 = df.groupby(by="kind").agg( + height_sqr_min=("height", lambda x: np.min(x**2)), + height_max=("height", "max"), + weight_max=("weight", "max"), + ) + tm.assert_frame_equal(result2, expected) + + def test_agg_multiple_lambda(self): + # GH25719, test for DataFrameGroupby.agg with multiple lambdas + # with mixed aggfunc + df = DataFrame( + { + "kind": ["cat", "dog", "cat", "dog"], + "height": [9.1, 6.0, 9.5, 34.0], + "weight": [7.9, 7.5, 9.9, 198.0], + } + ) + columns = [ + "height_sqr_min", + "height_max", + "weight_max", + "height_max_2", + "weight_min", + ] + expected = DataFrame( + { + "height_sqr_min": [82.81, 36.00], + "height_max": [9.5, 34.0], + "weight_max": [9.9, 198.0], + "height_max_2": [9.5, 34.0], + "weight_min": [7.9, 7.5], + }, + index=Index(["cat", "dog"], name="kind"), + columns=columns, + ) + + # check agg(key=(col, aggfunc)) case + result1 = df.groupby(by="kind").agg( + height_sqr_min=("height", lambda x: np.min(x**2)), + height_max=("height", "max"), + weight_max=("weight", "max"), + height_max_2=("height", lambda x: np.max(x)), + weight_min=("weight", lambda x: np.min(x)), + ) + tm.assert_frame_equal(result1, expected) + + # check pd.NamedAgg case + result2 = df.groupby(by="kind").agg( + height_sqr_min=pd.NamedAgg( + column="height", aggfunc=lambda x: np.min(x**2) + ), + height_max=pd.NamedAgg(column="height", aggfunc="max"), + weight_max=pd.NamedAgg(column="weight", aggfunc="max"), + height_max_2=pd.NamedAgg(column="height", aggfunc=lambda x: np.max(x)), + weight_min=pd.NamedAgg(column="weight", aggfunc=lambda x: np.min(x)), + ) + tm.assert_frame_equal(result2, expected) + + +def test_groupby_get_by_index(): + # GH 33439 + df = DataFrame({"A": ["S", "W", "W"], "B": [1.0, 1.0, 2.0]}) + res = df.groupby("A").agg({"B": lambda x: x.get(x.index[-1])}) + expected = DataFrame({"A": ["S", "W"], "B": [1.0, 2.0]}).set_index("A") + tm.assert_frame_equal(res, expected) + + +@pytest.mark.parametrize( + "grp_col_dict, exp_data", + [ + ({"nr": "min", "cat_ord": "min"}, {"nr": [1, 5], "cat_ord": ["a", "c"]}), + ({"cat_ord": "min"}, {"cat_ord": ["a", "c"]}), + ({"nr": "min"}, {"nr": [1, 5]}), + ], +) +def test_groupby_single_agg_cat_cols(grp_col_dict, exp_data): + # test single aggregations on ordered categorical cols GHGH27800 + + # create the result dataframe + input_df = DataFrame( + { + "nr": [1, 2, 3, 4, 5, 6, 7, 8], + "cat_ord": list("aabbccdd"), + "cat": list("aaaabbbb"), + } + ) + + input_df = input_df.astype({"cat": "category", "cat_ord": "category"}) + input_df["cat_ord"] = input_df["cat_ord"].cat.as_ordered() + result_df = input_df.groupby("cat", observed=False).agg(grp_col_dict) + + # create expected dataframe + cat_index = pd.CategoricalIndex( + ["a", "b"], categories=["a", "b"], ordered=False, name="cat", dtype="category" + ) + + expected_df = DataFrame(data=exp_data, index=cat_index) + + if "cat_ord" in expected_df: + # ordered categorical columns should be preserved + dtype = input_df["cat_ord"].dtype + expected_df["cat_ord"] = expected_df["cat_ord"].astype(dtype) + + tm.assert_frame_equal(result_df, expected_df) + + +@pytest.mark.parametrize( + "grp_col_dict, exp_data", + [ + ({"nr": ["min", "max"], "cat_ord": "min"}, [(1, 4, "a"), (5, 8, "c")]), + ({"nr": "min", "cat_ord": ["min", "max"]}, [(1, "a", "b"), (5, "c", "d")]), + ({"cat_ord": ["min", "max"]}, [("a", "b"), ("c", "d")]), + ], +) +def test_groupby_combined_aggs_cat_cols(grp_col_dict, exp_data): + # test combined aggregations on ordered categorical cols GH27800 + + # create the result dataframe + input_df = DataFrame( + { + "nr": [1, 2, 3, 4, 5, 6, 7, 8], + "cat_ord": list("aabbccdd"), + "cat": list("aaaabbbb"), + } + ) + + input_df = input_df.astype({"cat": "category", "cat_ord": "category"}) + input_df["cat_ord"] = input_df["cat_ord"].cat.as_ordered() + result_df = input_df.groupby("cat", observed=False).agg(grp_col_dict) + + # create expected dataframe + cat_index = pd.CategoricalIndex( + ["a", "b"], categories=["a", "b"], ordered=False, name="cat", dtype="category" + ) + + # unpack the grp_col_dict to create the multi-index tuple + # this tuple will be used to create the expected dataframe index + multi_index_list = [] + for k, v in grp_col_dict.items(): + if isinstance(v, list): + multi_index_list.extend([k, value] for value in v) + else: + multi_index_list.append([k, v]) + multi_index = MultiIndex.from_tuples(tuple(multi_index_list)) + + expected_df = DataFrame(data=exp_data, columns=multi_index, index=cat_index) + for col in expected_df.columns: + if isinstance(col, tuple) and "cat_ord" in col: + # ordered categorical should be preserved + expected_df[col] = expected_df[col].astype(input_df["cat_ord"].dtype) + + tm.assert_frame_equal(result_df, expected_df) + + +def test_nonagg_agg(): + # GH 35490 - Single/Multiple agg of non-agg function give same results + # TODO: agg should raise for functions that don't aggregate + df = DataFrame({"a": [1, 1, 2, 2], "b": [1, 2, 2, 1]}) + g = df.groupby("a") + + result = g.agg(["cumsum"]) + result.columns = result.columns.droplevel(-1) + expected = g.agg("cumsum") + + tm.assert_frame_equal(result, expected) + + +def test_aggregate_datetime_objects(): + # https://github.com/pandas-dev/pandas/issues/36003 + # ensure we don't raise an error but keep object dtype for out-of-bounds + # datetimes + df = DataFrame( + { + "A": ["X", "Y"], + "B": [ + datetime.datetime(2005, 1, 1, 10, 30, 23, 540000), + datetime.datetime(3005, 1, 1, 10, 30, 23, 540000), + ], + } + ) + result = df.groupby("A").B.max() + expected = df.set_index("A")["B"] + tm.assert_series_equal(result, expected) + + +def test_groupby_index_object_dtype(): + # GH 40014 + df = DataFrame({"c0": ["x", "x", "x"], "c1": ["x", "x", "y"], "p": [0, 1, 2]}) + df.index = df.index.astype("O") + grouped = df.groupby(["c0", "c1"]) + res = grouped.p.agg(lambda x: all(x > 0)) + # Check that providing a user-defined function in agg() + # produces the correct index shape when using an object-typed index. + expected_index = MultiIndex.from_tuples( + [("x", "x"), ("x", "y")], names=("c0", "c1") + ) + expected = Series([False, True], index=expected_index, name="p") + tm.assert_series_equal(res, expected) + + +def test_timeseries_groupby_agg(): + # GH#43290 + + def func(ser): + if ser.isna().all(): + return None + return np.sum(ser) + + df = DataFrame([1.0], index=[pd.Timestamp("2018-01-16 00:00:00+00:00")]) + res = df.groupby(lambda x: 1).agg(func) + + expected = DataFrame([[1.0]], index=[1]) + tm.assert_frame_equal(res, expected) + + +def test_groupby_agg_precision(any_real_numeric_dtype): + if any_real_numeric_dtype in tm.ALL_INT_NUMPY_DTYPES: + max_value = np.iinfo(any_real_numeric_dtype).max + if any_real_numeric_dtype in tm.FLOAT_NUMPY_DTYPES: + max_value = np.finfo(any_real_numeric_dtype).max + if any_real_numeric_dtype in tm.FLOAT_EA_DTYPES: + max_value = np.finfo(any_real_numeric_dtype.lower()).max + if any_real_numeric_dtype in tm.ALL_INT_EA_DTYPES: + max_value = np.iinfo(any_real_numeric_dtype.lower()).max + + df = DataFrame( + { + "key1": ["a"], + "key2": ["b"], + "key3": pd.array([max_value], dtype=any_real_numeric_dtype), + } + ) + arrays = [["a"], ["b"]] + index = MultiIndex.from_arrays(arrays, names=("key1", "key2")) + + expected = DataFrame( + {"key3": pd.array([max_value], dtype=any_real_numeric_dtype)}, index=index + ) + result = df.groupby(["key1", "key2"]).agg(lambda x: x) + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregate_directory(reduction_func): + # GH#32793 + if reduction_func in ["corrwith", "nth"]: + return None + + obj = DataFrame([[0, 1], [0, np.nan]]) + + result_reduced_series = obj.groupby(0).agg(reduction_func) + result_reduced_frame = obj.groupby(0).agg({1: reduction_func}) + + if reduction_func in ["size", "ngroup"]: + # names are different: None / 1 + tm.assert_series_equal( + result_reduced_series, result_reduced_frame[1], check_names=False + ) + else: + tm.assert_frame_equal(result_reduced_series, result_reduced_frame) + tm.assert_series_equal( + result_reduced_series.dtypes, result_reduced_frame.dtypes + ) + + +def test_group_mean_timedelta_nat(): + # GH43132 + data = Series(["1 day", "3 days", "NaT"], dtype="timedelta64[ns]") + expected = Series(["2 days"], dtype="timedelta64[ns]", index=np.array([0])) + + result = data.groupby([0, 0, 0]).mean() + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "input_data, expected_output", + [ + ( # no timezone + ["2021-01-01T00:00", "NaT", "2021-01-01T02:00"], + ["2021-01-01T01:00"], + ), + ( # timezone + ["2021-01-01T00:00-0100", "NaT", "2021-01-01T02:00-0100"], + ["2021-01-01T01:00-0100"], + ), + ], +) +def test_group_mean_datetime64_nat(input_data, expected_output): + # GH43132 + data = to_datetime(Series(input_data)) + expected = to_datetime(Series(expected_output, index=np.array([0]))) + + result = data.groupby([0, 0, 0]).mean() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "func, output", [("mean", [8 + 18j, 10 + 22j]), ("sum", [40 + 90j, 50 + 110j])] +) +def test_groupby_complex(func, output): + # GH#43701 + data = Series(np.arange(20).reshape(10, 2).dot([1, 2j])) + result = data.groupby(data.index % 2).agg(func) + expected = Series(output) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", ["min", "max", "var"]) +def test_groupby_complex_raises(func): + # GH#43701 + data = Series(np.arange(20).reshape(10, 2).dot([1, 2j])) + msg = "No matching signature found" + with pytest.raises(TypeError, match=msg): + data.groupby(data.index % 2).agg(func) + + +@pytest.mark.parametrize( + "func", [["min"], ["mean", "max"], {"b": "sum"}, {"b": "prod", "c": "median"}] +) +def test_multi_axis_1_raises(func): + # GH#46995 + df = DataFrame({"a": [1, 1, 2], "b": [3, 4, 5], "c": [6, 7, 8]}) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby("a", axis=1) + with pytest.raises(NotImplementedError, match="axis other than 0 is not supported"): + gb.agg(func) + + +@pytest.mark.parametrize( + "test, constant", + [ + ([[20, "A"], [20, "B"], [10, "C"]], {0: [10, 20], 1: ["C", ["A", "B"]]}), + ([[20, "A"], [20, "B"], [30, "C"]], {0: [20, 30], 1: [["A", "B"], "C"]}), + ([["a", 1], ["a", 1], ["b", 2], ["b", 3]], {0: ["a", "b"], 1: [1, [2, 3]]}), + pytest.param( + [["a", 1], ["a", 2], ["b", 3], ["b", 3]], + {0: ["a", "b"], 1: [[1, 2], 3]}, + marks=pytest.mark.xfail, + ), + ], +) +def test_agg_of_mode_list(test, constant): + # GH#25581 + df1 = DataFrame(test) + result = df1.groupby(0).agg(Series.mode) + # Mode usually only returns 1 value, but can return a list in the case of a tie. + + expected = DataFrame(constant) + expected = expected.set_index(0) + + tm.assert_frame_equal(result, expected) + + +def test_dataframe_groupy_agg_list_like_func_with_args(): + # GH#50624 + df = DataFrame({"x": [1, 2, 3], "y": ["a", "b", "c"]}) + gb = df.groupby("y") + + def foo1(x, a=1, c=0): + return x.sum() + a + c + + def foo2(x, b=2, c=0): + return x.sum() + b + c + + msg = r"foo1\(\) got an unexpected keyword argument 'b'" + with pytest.raises(TypeError, match=msg): + gb.agg([foo1, foo2], 3, b=3, c=4) + + result = gb.agg([foo1, foo2], 3, c=4) + expected = DataFrame( + [[8, 8], [9, 9], [10, 10]], + index=Index(["a", "b", "c"], name="y"), + columns=MultiIndex.from_tuples([("x", "foo1"), ("x", "foo2")]), + ) + tm.assert_frame_equal(result, expected) + + +def test_series_groupy_agg_list_like_func_with_args(): + # GH#50624 + s = Series([1, 2, 3]) + sgb = s.groupby(s) + + def foo1(x, a=1, c=0): + return x.sum() + a + c + + def foo2(x, b=2, c=0): + return x.sum() + b + c + + msg = r"foo1\(\) got an unexpected keyword argument 'b'" + with pytest.raises(TypeError, match=msg): + sgb.agg([foo1, foo2], 3, b=3, c=4) + + result = sgb.agg([foo1, foo2], 3, c=4) + expected = DataFrame( + [[8, 8], [9, 9], [10, 10]], index=Index([1, 2, 3]), columns=["foo1", "foo2"] + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_groupings_selection(): + # GH#51186 - a selected grouping should be in the output of agg + df = DataFrame({"a": [1, 1, 2], "b": [3, 3, 4], "c": [5, 6, 7]}) + gb = df.groupby(["a", "b"]) + selected_gb = gb[["b", "c"]] + result = selected_gb.agg(lambda x: x.sum()) + index = MultiIndex( + levels=[[1, 2], [3, 4]], codes=[[0, 1], [0, 1]], names=["a", "b"] + ) + expected = DataFrame({"b": [6, 4], "c": [11, 7]}, index=index) + tm.assert_frame_equal(result, expected) + + +def test_agg_multiple_with_as_index_false_subset_to_a_single_column(): + # GH#50724 + df = DataFrame({"a": [1, 1, 2], "b": [3, 4, 5]}) + gb = df.groupby("a", as_index=False)["b"] + result = gb.agg(["sum", "mean"]) + expected = DataFrame({"a": [1, 2], "sum": [7, 5], "mean": [3.5, 5.0]}) + tm.assert_frame_equal(result, expected) + + +def test_agg_with_as_index_false_with_list(): + # GH#52849 + df = DataFrame({"a1": [0, 0, 1], "a2": [2, 3, 3], "b": [4, 5, 6]}) + gb = df.groupby(by=["a1", "a2"], as_index=False) + result = gb.agg(["sum"]) + + expected = DataFrame( + data=[[0, 2, 4], [0, 3, 5], [1, 3, 6]], + columns=MultiIndex.from_tuples([("a1", ""), ("a2", ""), ("b", "sum")]), + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_agg_extension_timedelta_cumsum_with_named_aggregation(): + # GH#41720 + expected = DataFrame( + { + "td": { + 0: pd.Timedelta("0 days 01:00:00"), + 1: pd.Timedelta("0 days 01:15:00"), + 2: pd.Timedelta("0 days 01:15:00"), + } + } + ) + df = DataFrame( + { + "td": Series( + ["0 days 01:00:00", "0 days 00:15:00", "0 days 01:15:00"], + dtype="timedelta64[ns]", + ), + "grps": ["a", "a", "b"], + } + ) + gb = df.groupby("grps") + result = gb.agg(td=("td", "cumsum")) + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregation_empty_group(): + # https://github.com/pandas-dev/pandas/issues/18869 + def func(x): + if len(x) == 0: + raise ValueError("length must not be 0") + return len(x) + + df = DataFrame( + {"A": pd.Categorical(["a", "a"], categories=["a", "b", "c"]), "B": [1, 1]} + ) + msg = "length must not be 0" + with pytest.raises(ValueError, match=msg): + df.groupby("A", observed=False).agg(func) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_cython.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_cython.py new file mode 100644 index 0000000000000000000000000000000000000000..0d04af3801dbed076473e2563c1510cf15151311 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_cython.py @@ -0,0 +1,437 @@ +""" +test cython .agg behavior +""" + +import numpy as np +import pytest + +from pandas.core.dtypes.common import ( + is_float_dtype, + is_integer_dtype, +) + +import pandas as pd +from pandas import ( + DataFrame, + Index, + NaT, + Series, + Timedelta, + Timestamp, + bdate_range, +) +import pandas._testing as tm +import pandas.core.common as com + + +@pytest.mark.parametrize( + "op_name", + [ + "count", + "sum", + "std", + "var", + "sem", + "mean", + pytest.param( + "median", + # ignore mean of empty slice + # and all-NaN + marks=[pytest.mark.filterwarnings("ignore::RuntimeWarning")], + ), + "prod", + "min", + "max", + ], +) +def test_cythonized_aggers(op_name): + data = { + "A": [0, 0, 0, 0, 1, 1, 1, 1, 1, 1.0, np.nan, np.nan], + "B": ["A", "B"] * 6, + "C": np.random.default_rng(2).standard_normal(12), + } + df = DataFrame(data) + df.loc[2:10:2, "C"] = np.nan + + op = lambda x: getattr(x, op_name)() + + # single column + grouped = df.drop(["B"], axis=1).groupby("A") + exp = {cat: op(group["C"]) for cat, group in grouped} + exp = DataFrame({"C": exp}) + exp.index.name = "A" + result = op(grouped) + tm.assert_frame_equal(result, exp) + + # multiple columns + grouped = df.groupby(["A", "B"]) + expd = {} + for (cat1, cat2), group in grouped: + expd.setdefault(cat1, {})[cat2] = op(group["C"]) + exp = DataFrame(expd).T.stack(future_stack=True) + exp.index.names = ["A", "B"] + exp.name = "C" + + result = op(grouped)["C"] + if op_name in ["sum", "prod"]: + tm.assert_series_equal(result, exp) + + +def test_cython_agg_boolean(): + frame = DataFrame( + { + "a": np.random.default_rng(2).integers(0, 5, 50), + "b": np.random.default_rng(2).integers(0, 2, 50).astype("bool"), + } + ) + result = frame.groupby("a")["b"].mean() + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + expected = frame.groupby("a")["b"].agg(np.mean) + + tm.assert_series_equal(result, expected) + + +def test_cython_agg_nothing_to_agg(): + frame = DataFrame( + {"a": np.random.default_rng(2).integers(0, 5, 50), "b": ["foo", "bar"] * 25} + ) + + msg = "Cannot use numeric_only=True with SeriesGroupBy.mean and non-numeric dtypes" + with pytest.raises(TypeError, match=msg): + frame.groupby("a")["b"].mean(numeric_only=True) + + frame = DataFrame( + {"a": np.random.default_rng(2).integers(0, 5, 50), "b": ["foo", "bar"] * 25} + ) + + result = frame[["b"]].groupby(frame["a"]).mean(numeric_only=True) + expected = DataFrame( + [], + index=frame["a"].sort_values().drop_duplicates(), + columns=Index([], dtype="str"), + ) + tm.assert_frame_equal(result, expected) + + +def test_cython_agg_nothing_to_agg_with_dates(): + frame = DataFrame( + { + "a": np.random.default_rng(2).integers(0, 5, 50), + "b": ["foo", "bar"] * 25, + "dates": pd.date_range("now", periods=50, freq="min"), + } + ) + msg = "Cannot use numeric_only=True with SeriesGroupBy.mean and non-numeric dtypes" + with pytest.raises(TypeError, match=msg): + frame.groupby("b").dates.mean(numeric_only=True) + + +def test_cython_agg_frame_columns(): + # #2113 + df = DataFrame({"x": [1, 2, 3], "y": [3, 4, 5]}) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(level=0, axis="columns").mean() + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(level=0, axis="columns").mean() + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(level=0, axis="columns").mean() + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(level=0, axis="columns").mean() + + +def test_cython_agg_return_dict(): + # GH 16741 + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + + ts = df.groupby("A")["B"].agg(lambda x: x.value_counts().to_dict()) + expected = Series( + [{"two": 1, "one": 1, "three": 1}, {"two": 2, "one": 2, "three": 1}], + index=Index(["bar", "foo"], name="A"), + name="B", + ) + tm.assert_series_equal(ts, expected) + + +def test_cython_fail_agg(): + dr = bdate_range("1/1/2000", periods=50) + ts = Series(["A", "B", "C", "D", "E"] * 10, dtype=object, index=dr) + + grouped = ts.groupby(lambda x: x.month) + summed = grouped.sum() + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + expected = grouped.agg(np.sum).astype(object) + tm.assert_series_equal(summed, expected) + + +@pytest.mark.parametrize( + "op, targop", + [ + ("mean", np.mean), + ("median", np.median), + ("var", np.var), + ("sum", np.sum), + ("prod", np.prod), + ("min", np.min), + ("max", np.max), + ("first", lambda x: x.iloc[0]), + ("last", lambda x: x.iloc[-1]), + ], +) +def test__cython_agg_general(op, targop): + df = DataFrame(np.random.default_rng(2).standard_normal(1000)) + labels = np.random.default_rng(2).integers(0, 50, size=1000).astype(float) + + result = df.groupby(labels)._cython_agg_general(op, alt=None, numeric_only=True) + warn = FutureWarning if targop in com._cython_table else None + msg = f"using DataFrameGroupBy.{op}" + with tm.assert_produces_warning(warn, match=msg): + # GH#53425 + expected = df.groupby(labels).agg(targop) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "op, targop", + [ + ("mean", np.mean), + ("median", lambda x: np.median(x) if len(x) > 0 else np.nan), + ("var", lambda x: np.var(x, ddof=1)), + ("min", np.min), + ("max", np.max), + ], +) +def test_cython_agg_empty_buckets(op, targop, observed): + df = DataFrame([11, 12, 13]) + grps = range(0, 55, 5) + + # calling _cython_agg_general directly, instead of via the user API + # which sets different values for min_count, so do that here. + g = df.groupby(pd.cut(df[0], grps), observed=observed) + result = g._cython_agg_general(op, alt=None, numeric_only=True) + + g = df.groupby(pd.cut(df[0], grps), observed=observed) + expected = g.agg(lambda x: targop(x)) + tm.assert_frame_equal(result, expected) + + +def test_cython_agg_empty_buckets_nanops(observed): + # GH-18869 can't call nanops on empty groups, so hardcode expected + # for these + df = DataFrame([11, 12, 13], columns=["a"]) + grps = np.arange(0, 25, 5, dtype=int) + # add / sum + result = df.groupby(pd.cut(df["a"], grps), observed=observed)._cython_agg_general( + "sum", alt=None, numeric_only=True + ) + intervals = pd.interval_range(0, 20, freq=5) + expected = DataFrame( + {"a": [0, 0, 36, 0]}, + index=pd.CategoricalIndex(intervals, name="a", ordered=True), + ) + if observed: + expected = expected[expected.a != 0] + + tm.assert_frame_equal(result, expected) + + # prod + result = df.groupby(pd.cut(df["a"], grps), observed=observed)._cython_agg_general( + "prod", alt=None, numeric_only=True + ) + expected = DataFrame( + {"a": [1, 1, 1716, 1]}, + index=pd.CategoricalIndex(intervals, name="a", ordered=True), + ) + if observed: + expected = expected[expected.a != 1] + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("op", ["first", "last", "max", "min"]) +@pytest.mark.parametrize( + "data", [Timestamp("2016-10-14 21:00:44.557"), Timedelta("17088 days 21:00:44.557")] +) +def test_cython_with_timestamp_and_nat(op, data): + # https://github.com/pandas-dev/pandas/issues/19526 + df = DataFrame({"a": [0, 1], "b": [data, NaT]}) + index = Index([0, 1], name="a") + + # We will group by a and test the cython aggregations + expected = DataFrame({"b": [data, NaT]}, index=index) + + result = df.groupby("a").aggregate(op) + tm.assert_frame_equal(expected, result) + + +@pytest.mark.parametrize( + "agg", + [ + "min", + "max", + "count", + "sum", + "prod", + "var", + "mean", + "median", + "ohlc", + "cumprod", + "cumsum", + "shift", + "any", + "all", + "quantile", + "first", + "last", + "rank", + "cummin", + "cummax", + ], +) +def test_read_only_buffer_source_agg(agg): + # https://github.com/pandas-dev/pandas/issues/36014 + df = DataFrame( + { + "sepal_length": [5.1, 4.9, 4.7, 4.6, 5.0], + "species": ["setosa", "setosa", "setosa", "setosa", "setosa"], + } + ) + df._mgr.arrays[0].flags.writeable = False + + result = df.groupby(["species"]).agg({"sepal_length": agg}) + expected = df.copy().groupby(["species"]).agg({"sepal_length": agg}) + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "op_name", + [ + "count", + "sum", + "std", + "var", + "sem", + "mean", + "median", + "prod", + "min", + "max", + ], +) +def test_cython_agg_nullable_int(op_name): + # ensure that the cython-based aggregations don't fail for nullable dtype + # (eg https://github.com/pandas-dev/pandas/issues/37415) + df = DataFrame( + { + "A": ["A", "B"] * 5, + "B": pd.array([1, 2, 3, 4, 5, 6, 7, 8, 9, pd.NA], dtype="Int64"), + } + ) + result = getattr(df.groupby("A")["B"], op_name)() + df2 = df.assign(B=df["B"].astype("float64")) + expected = getattr(df2.groupby("A")["B"], op_name)() + if op_name in ("mean", "median"): + convert_integer = False + else: + convert_integer = True + expected = expected.convert_dtypes(convert_integer=convert_integer) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["Int64", "Float64", "boolean"]) +def test_count_masked_returns_masked_dtype(dtype): + df = DataFrame( + { + "A": [1, 1], + "B": pd.array([1, pd.NA], dtype=dtype), + "C": pd.array([1, 1], dtype=dtype), + } + ) + result = df.groupby("A").count() + expected = DataFrame( + [[1, 2]], index=Index([1], name="A"), columns=["B", "C"], dtype="Int64" + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("with_na", [True, False]) +@pytest.mark.parametrize( + "op_name, action", + [ + # ("count", "always_int"), + ("sum", "large_int"), + # ("std", "always_float"), + ("var", "always_float"), + # ("sem", "always_float"), + ("mean", "always_float"), + ("median", "always_float"), + ("prod", "large_int"), + ("min", "preserve"), + ("max", "preserve"), + ("first", "preserve"), + ("last", "preserve"), + ], +) +@pytest.mark.parametrize( + "data", + [ + pd.array([1, 2, 3, 4], dtype="Int64"), + pd.array([1, 2, 3, 4], dtype="Int8"), + pd.array([0.1, 0.2, 0.3, 0.4], dtype="Float32"), + pd.array([0.1, 0.2, 0.3, 0.4], dtype="Float64"), + pd.array([True, True, False, False], dtype="boolean"), + ], +) +def test_cython_agg_EA_known_dtypes(data, op_name, action, with_na): + if with_na: + data[3] = pd.NA + + df = DataFrame({"key": ["a", "a", "b", "b"], "col": data}) + grouped = df.groupby("key") + + if action == "always_int": + # always Int64 + expected_dtype = pd.Int64Dtype() + elif action == "large_int": + # for any int/bool use Int64, for float preserve dtype + if is_float_dtype(data.dtype): + expected_dtype = data.dtype + elif is_integer_dtype(data.dtype): + # match the numpy dtype we'd get with the non-nullable analogue + expected_dtype = data.dtype + else: + expected_dtype = pd.Int64Dtype() + elif action == "always_float": + # for any int/bool use Float64, for float preserve dtype + if is_float_dtype(data.dtype): + expected_dtype = data.dtype + else: + expected_dtype = pd.Float64Dtype() + elif action == "preserve": + expected_dtype = data.dtype + + result = getattr(grouped, op_name)() + assert result["col"].dtype == expected_dtype + + result = grouped.aggregate(op_name) + assert result["col"].dtype == expected_dtype + + result = getattr(grouped["col"], op_name)() + assert result.dtype == expected_dtype + + result = grouped["col"].aggregate(op_name) + assert result.dtype == expected_dtype diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_numba.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_numba.py new file mode 100644 index 0000000000000000000000000000000000000000..fcd34f793c584869482350d7f02b4be354b20fee --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_numba.py @@ -0,0 +1,402 @@ +import numpy as np +import pytest + +from pandas.compat import is_platform_arm +from pandas.errors import NumbaUtilError + +from pandas import ( + DataFrame, + Index, + NamedAgg, + Series, + option_context, +) +import pandas._testing as tm +from pandas.util.version import Version + +pytestmark = [pytest.mark.single_cpu] + +numba = pytest.importorskip("numba") +pytestmark.append( + pytest.mark.skipif( + Version(numba.__version__) == Version("0.61") and is_platform_arm(), + reason=f"Segfaults on ARM platforms with numba {numba.__version__}", + ) +) + + +def test_correct_function_signature(): + pytest.importorskip("numba") + + def incorrect_function(x): + return sum(x) * 2.7 + + data = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + with pytest.raises(NumbaUtilError, match="The first 2"): + data.groupby("key").agg(incorrect_function, engine="numba") + + with pytest.raises(NumbaUtilError, match="The first 2"): + data.groupby("key")["data"].agg(incorrect_function, engine="numba") + + +def test_check_nopython_kwargs(): + pytest.importorskip("numba") + + def incorrect_function(values, index): + return sum(values) * 2.7 + + data = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + with pytest.raises(NumbaUtilError, match="numba does not support"): + data.groupby("key").agg(incorrect_function, engine="numba", a=1) + + with pytest.raises(NumbaUtilError, match="numba does not support"): + data.groupby("key")["data"].agg(incorrect_function, engine="numba", a=1) + + +@pytest.mark.filterwarnings("ignore") +# Filter warnings when parallel=True and the function can't be parallelized by Numba +@pytest.mark.parametrize("jit", [True, False]) +@pytest.mark.parametrize("pandas_obj", ["Series", "DataFrame"]) +@pytest.mark.parametrize("as_index", [True, False]) +def test_numba_vs_cython(jit, pandas_obj, nogil, parallel, nopython, as_index): + pytest.importorskip("numba") + + def func_numba(values, index): + return np.mean(values) * 2.7 + + if jit: + # Test accepted jitted functions + import numba + + func_numba = numba.jit(func_numba) + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + grouped = data.groupby(0, as_index=as_index) + if pandas_obj == "Series": + grouped = grouped[1] + + result = grouped.agg(func_numba, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.agg(lambda x: np.mean(x) * 2.7, engine="cython") + + tm.assert_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore") +# Filter warnings when parallel=True and the function can't be parallelized by Numba +@pytest.mark.parametrize("jit", [True, False]) +@pytest.mark.parametrize("pandas_obj", ["Series", "DataFrame"]) +def test_cache(jit, pandas_obj, nogil, parallel, nopython): + # Test that the functions are cached correctly if we switch functions + pytest.importorskip("numba") + + def func_1(values, index): + return np.mean(values) - 3.4 + + def func_2(values, index): + return np.mean(values) * 2.7 + + if jit: + import numba + + func_1 = numba.jit(func_1) + func_2 = numba.jit(func_2) + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + grouped = data.groupby(0) + if pandas_obj == "Series": + grouped = grouped[1] + + result = grouped.agg(func_1, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.agg(lambda x: np.mean(x) - 3.4, engine="cython") + tm.assert_equal(result, expected) + + # Add func_2 to the cache + result = grouped.agg(func_2, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.agg(lambda x: np.mean(x) * 2.7, engine="cython") + tm.assert_equal(result, expected) + + # Retest func_1 which should use the cache + result = grouped.agg(func_1, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.agg(lambda x: np.mean(x) - 3.4, engine="cython") + tm.assert_equal(result, expected) + + +def test_use_global_config(): + pytest.importorskip("numba") + + def func_1(values, index): + return np.mean(values) - 3.4 + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + grouped = data.groupby(0) + expected = grouped.agg(func_1, engine="numba") + with option_context("compute.use_numba", True): + result = grouped.agg(func_1, engine=None) + tm.assert_frame_equal(expected, result) + + +@pytest.mark.parametrize( + "agg_kwargs", + [ + {"func": ["min", "max"]}, + {"func": "min"}, + {"func": {1: ["min", "max"], 2: "sum"}}, + {"bmin": NamedAgg(column=1, aggfunc="min")}, + ], +) +def test_multifunc_numba_vs_cython_frame(agg_kwargs): + pytest.importorskip("numba") + data = DataFrame( + { + 0: ["a", "a", "b", "b", "a"], + 1: [1.0, 2.0, 3.0, 4.0, 5.0], + 2: [1, 2, 3, 4, 5], + }, + columns=[0, 1, 2], + ) + grouped = data.groupby(0) + result = grouped.agg(**agg_kwargs, engine="numba") + expected = grouped.agg(**agg_kwargs, engine="cython") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "agg_kwargs,expected_func", + [ + ({"func": lambda values, index: values.sum()}, "sum"), + # FIXME + pytest.param( + { + "func": [ + lambda values, index: values.sum(), + lambda values, index: values.min(), + ] + }, + ["sum", "min"], + marks=pytest.mark.xfail( + reason="This doesn't work yet! Fails in nopython pipeline!" + ), + ), + ], +) +def test_multifunc_numba_udf_frame(agg_kwargs, expected_func): + pytest.importorskip("numba") + data = DataFrame( + { + 0: ["a", "a", "b", "b", "a"], + 1: [1.0, 2.0, 3.0, 4.0, 5.0], + 2: [1, 2, 3, 4, 5], + }, + columns=[0, 1, 2], + ) + grouped = data.groupby(0) + result = grouped.agg(**agg_kwargs, engine="numba") + expected = grouped.agg(expected_func, engine="cython") + # check_dtype can be removed if GH 44952 is addressed + # Currently, UDFs still always return float64 while reductions can preserve dtype + tm.assert_frame_equal(result, expected, check_dtype=False) + + +@pytest.mark.parametrize( + "agg_kwargs", + [{"func": ["min", "max"]}, {"func": "min"}, {"min_val": "min", "max_val": "max"}], +) +def test_multifunc_numba_vs_cython_series(agg_kwargs): + pytest.importorskip("numba") + labels = ["a", "a", "b", "b", "a"] + data = Series([1.0, 2.0, 3.0, 4.0, 5.0]) + grouped = data.groupby(labels) + agg_kwargs["engine"] = "numba" + result = grouped.agg(**agg_kwargs) + agg_kwargs["engine"] = "cython" + expected = grouped.agg(**agg_kwargs) + if isinstance(expected, DataFrame): + tm.assert_frame_equal(result, expected) + else: + tm.assert_series_equal(result, expected) + + +@pytest.mark.single_cpu +@pytest.mark.parametrize( + "data,agg_kwargs", + [ + (Series([1.0, 2.0, 3.0, 4.0, 5.0]), {"func": ["min", "max"]}), + (Series([1.0, 2.0, 3.0, 4.0, 5.0]), {"func": "min"}), + ( + DataFrame( + {1: [1.0, 2.0, 3.0, 4.0, 5.0], 2: [1, 2, 3, 4, 5]}, columns=[1, 2] + ), + {"func": ["min", "max"]}, + ), + ( + DataFrame( + {1: [1.0, 2.0, 3.0, 4.0, 5.0], 2: [1, 2, 3, 4, 5]}, columns=[1, 2] + ), + {"func": "min"}, + ), + ( + DataFrame( + {1: [1.0, 2.0, 3.0, 4.0, 5.0], 2: [1, 2, 3, 4, 5]}, columns=[1, 2] + ), + {"func": {1: ["min", "max"], 2: "sum"}}, + ), + ( + DataFrame( + {1: [1.0, 2.0, 3.0, 4.0, 5.0], 2: [1, 2, 3, 4, 5]}, columns=[1, 2] + ), + {"min_col": NamedAgg(column=1, aggfunc="min")}, + ), + ], +) +def test_multifunc_numba_kwarg_propagation(data, agg_kwargs): + pytest.importorskip("numba") + labels = ["a", "a", "b", "b", "a"] + grouped = data.groupby(labels) + result = grouped.agg(**agg_kwargs, engine="numba", engine_kwargs={"parallel": True}) + expected = grouped.agg(**agg_kwargs, engine="numba") + if isinstance(expected, DataFrame): + tm.assert_frame_equal(result, expected) + else: + tm.assert_series_equal(result, expected) + + +def test_args_not_cached(): + # GH 41647 + pytest.importorskip("numba") + + def sum_last(values, index, n): + return values[-n:].sum() + + df = DataFrame({"id": [0, 0, 1, 1], "x": [1, 1, 1, 1]}) + grouped_x = df.groupby("id")["x"] + result = grouped_x.agg(sum_last, 1, engine="numba") + expected = Series([1.0] * 2, name="x", index=Index([0, 1], name="id")) + tm.assert_series_equal(result, expected) + + result = grouped_x.agg(sum_last, 2, engine="numba") + expected = Series([2.0] * 2, name="x", index=Index([0, 1], name="id")) + tm.assert_series_equal(result, expected) + + +def test_index_data_correctly_passed(): + # GH 43133 + pytest.importorskip("numba") + + def f(values, index): + return np.mean(index) + + df = DataFrame({"group": ["A", "A", "B"], "v": [4, 5, 6]}, index=[-1, -2, -3]) + result = df.groupby("group").aggregate(f, engine="numba") + expected = DataFrame( + [-1.5, -3.0], columns=["v"], index=Index(["A", "B"], name="group") + ) + tm.assert_frame_equal(result, expected) + + +def test_engine_kwargs_not_cached(): + # If the user passes a different set of engine_kwargs don't return the same + # jitted function + pytest.importorskip("numba") + nogil = True + parallel = False + nopython = True + + def func_kwargs(values, index): + return nogil + parallel + nopython + + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + df = DataFrame({"value": [0, 0, 0]}) + result = df.groupby(level=0).aggregate( + func_kwargs, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame({"value": [2.0, 2.0, 2.0]}) + tm.assert_frame_equal(result, expected) + + nogil = False + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + result = df.groupby(level=0).aggregate( + func_kwargs, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame({"value": [1.0, 1.0, 1.0]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore") +def test_multiindex_one_key(nogil, parallel, nopython): + pytest.importorskip("numba") + + def numba_func(values, index): + return 1 + + df = DataFrame([{"A": 1, "B": 2, "C": 3}]).set_index(["A", "B"]) + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + result = df.groupby("A").agg( + numba_func, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame([1.0], index=Index([1], name="A"), columns=["C"]) + tm.assert_frame_equal(result, expected) + + +def test_multiindex_multi_key_not_supported(nogil, parallel, nopython): + pytest.importorskip("numba") + + def numba_func(values, index): + return 1 + + df = DataFrame([{"A": 1, "B": 2, "C": 3}]).set_index(["A", "B"]) + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + with pytest.raises(NotImplementedError, match="more than 1 grouping labels"): + df.groupby(["A", "B"]).agg( + numba_func, engine="numba", engine_kwargs=engine_kwargs + ) + + +def test_multilabel_numba_vs_cython(numba_supported_reductions): + pytest.importorskip("numba") + reduction, kwargs = numba_supported_reductions + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + gb = df.groupby(["A", "B"]) + res_agg = gb.agg(reduction, engine="numba", **kwargs) + expected_agg = gb.agg(reduction, engine="cython", **kwargs) + tm.assert_frame_equal(res_agg, expected_agg) + # Test that calling the aggregation directly also works + direct_res = getattr(gb, reduction)(engine="numba", **kwargs) + direct_expected = getattr(gb, reduction)(engine="cython", **kwargs) + tm.assert_frame_equal(direct_res, direct_expected) + + +def test_multilabel_udf_numba_vs_cython(): + pytest.importorskip("numba") + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + gb = df.groupby(["A", "B"]) + result = gb.agg(lambda values, index: values.min(), engine="numba") + expected = gb.agg(lambda x: x.min(), engine="cython") + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_other.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_other.py new file mode 100644 index 0000000000000000000000000000000000000000..213704f31aca526bc54f9319c941b8657c1e947e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/aggregate/test_other.py @@ -0,0 +1,676 @@ +""" +test all other .agg behavior +""" + +import datetime as dt +from functools import partial + +import numpy as np +import pytest + +from pandas.errors import SpecificationError + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + PeriodIndex, + Series, + date_range, + period_range, +) +import pandas._testing as tm + +from pandas.io.formats.printing import pprint_thing + + +def test_agg_partial_failure_raises(): + # GH#43741 + + df = DataFrame( + { + "data1": np.random.default_rng(2).standard_normal(5), + "data2": np.random.default_rng(2).standard_normal(5), + "key1": ["a", "a", "b", "b", "a"], + "key2": ["one", "two", "one", "two", "one"], + } + ) + grouped = df.groupby("key1") + + def peak_to_peak(arr): + return arr.max() - arr.min() + + with pytest.raises(TypeError, match="unsupported operand type"): + grouped.agg([peak_to_peak]) + + with pytest.raises(TypeError, match="unsupported operand type"): + grouped.agg(peak_to_peak) + + +def test_agg_datetimes_mixed(): + data = [[1, "2012-01-01", 1.0], [2, "2012-01-02", 2.0], [3, None, 3.0]] + + df1 = DataFrame( + { + "key": [x[0] for x in data], + "date": [x[1] for x in data], + "value": [x[2] for x in data], + } + ) + + data = [ + [ + row[0], + (dt.datetime.strptime(row[1], "%Y-%m-%d").date() if row[1] else None), + row[2], + ] + for row in data + ] + + df2 = DataFrame( + { + "key": [x[0] for x in data], + "date": [x[1] for x in data], + "value": [x[2] for x in data], + } + ) + + df1["weights"] = df1["value"] / df1["value"].sum() + gb1 = df1.groupby("date").aggregate("sum") + + df2["weights"] = df1["value"] / df1["value"].sum() + gb2 = df2.groupby("date").aggregate("sum") + + assert len(gb1) == len(gb2) + + +def test_agg_period_index(): + prng = period_range("2012-1-1", freq="M", periods=3) + df = DataFrame(np.random.default_rng(2).standard_normal((3, 2)), index=prng) + rs = df.groupby(level=0).sum() + assert isinstance(rs.index, PeriodIndex) + + # GH 3579 + index = period_range(start="1999-01", periods=5, freq="M") + s1 = Series(np.random.default_rng(2).random(len(index)), index=index) + s2 = Series(np.random.default_rng(2).random(len(index)), index=index) + df = DataFrame.from_dict({"s1": s1, "s2": s2}) + grouped = df.groupby(df.index.month) + list(grouped) + + +def test_agg_dict_parameter_cast_result_dtypes(): + # GH 12821 + + df = DataFrame( + { + "class": ["A", "A", "B", "B", "C", "C", "D", "D"], + "time": date_range("1/1/2011", periods=8, freq="h"), + } + ) + df.loc[[0, 1, 2, 5], "time"] = None + + # test for `first` function + exp = df.loc[[0, 3, 4, 6]].set_index("class") + grouped = df.groupby("class") + tm.assert_frame_equal(grouped.first(), exp) + tm.assert_frame_equal(grouped.agg("first"), exp) + tm.assert_frame_equal(grouped.agg({"time": "first"}), exp) + tm.assert_series_equal(grouped.time.first(), exp["time"]) + tm.assert_series_equal(grouped.time.agg("first"), exp["time"]) + + # test for `last` function + exp = df.loc[[0, 3, 4, 7]].set_index("class") + grouped = df.groupby("class") + tm.assert_frame_equal(grouped.last(), exp) + tm.assert_frame_equal(grouped.agg("last"), exp) + tm.assert_frame_equal(grouped.agg({"time": "last"}), exp) + tm.assert_series_equal(grouped.time.last(), exp["time"]) + tm.assert_series_equal(grouped.time.agg("last"), exp["time"]) + + # count + exp = Series([2, 2, 2, 2], index=Index(list("ABCD"), name="class"), name="time") + tm.assert_series_equal(grouped.time.agg(len), exp) + tm.assert_series_equal(grouped.time.size(), exp) + + exp = Series([0, 1, 1, 2], index=Index(list("ABCD"), name="class"), name="time") + tm.assert_series_equal(grouped.time.count(), exp) + + +def test_agg_cast_results_dtypes(): + # similar to GH12821 + # xref #11444 + u = [dt.datetime(2015, x + 1, 1) for x in range(12)] + v = list("aaabbbbbbccd") + df = DataFrame({"X": v, "Y": u}) + + result = df.groupby("X")["Y"].agg(len) + expected = df.groupby("X")["Y"].count() + tm.assert_series_equal(result, expected) + + +def test_aggregate_float64_no_int64(): + # see gh-11199 + df = DataFrame({"a": [1, 2, 3, 4, 5], "b": [1, 2, 2, 4, 5], "c": [1, 2, 3, 4, 5]}) + + expected = DataFrame({"a": [1, 2.5, 4, 5]}, index=[1, 2, 4, 5]) + expected.index.name = "b" + + result = df.groupby("b")[["a"]].mean() + tm.assert_frame_equal(result, expected) + + expected = DataFrame({"a": [1, 2.5, 4, 5], "c": [1, 2.5, 4, 5]}, index=[1, 2, 4, 5]) + expected.index.name = "b" + + result = df.groupby("b")[["a", "c"]].mean() + tm.assert_frame_equal(result, expected) + + +def test_aggregate_api_consistency(): + # GH 9052 + # make sure that the aggregates via dict + # are consistent + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": np.random.default_rng(2).standard_normal(8) + 1.0, + "D": np.arange(8), + } + ) + + grouped = df.groupby(["A", "B"]) + c_mean = grouped["C"].mean() + c_sum = grouped["C"].sum() + d_mean = grouped["D"].mean() + d_sum = grouped["D"].sum() + + result = grouped["D"].agg(["sum", "mean"]) + expected = pd.concat([d_sum, d_mean], axis=1) + expected.columns = ["sum", "mean"] + tm.assert_frame_equal(result, expected, check_like=True) + + result = grouped.agg(["sum", "mean"]) + expected = pd.concat([c_sum, c_mean, d_sum, d_mean], axis=1) + expected.columns = MultiIndex.from_product([["C", "D"], ["sum", "mean"]]) + tm.assert_frame_equal(result, expected, check_like=True) + + result = grouped[["D", "C"]].agg(["sum", "mean"]) + expected = pd.concat([d_sum, d_mean, c_sum, c_mean], axis=1) + expected.columns = MultiIndex.from_product([["D", "C"], ["sum", "mean"]]) + tm.assert_frame_equal(result, expected, check_like=True) + + result = grouped.agg({"C": "mean", "D": "sum"}) + expected = pd.concat([d_sum, c_mean], axis=1) + tm.assert_frame_equal(result, expected, check_like=True) + + result = grouped.agg({"C": ["mean", "sum"], "D": ["mean", "sum"]}) + expected = pd.concat([c_mean, c_sum, d_mean, d_sum], axis=1) + expected.columns = MultiIndex.from_product([["C", "D"], ["mean", "sum"]]) + + msg = r"Column\(s\) \['r', 'r2'\] do not exist" + with pytest.raises(KeyError, match=msg): + grouped[["D", "C"]].agg({"r": "sum", "r2": "mean"}) + + +def test_agg_dict_renaming_deprecation(): + # 15931 + df = DataFrame({"A": [1, 1, 1, 2, 2], "B": range(5), "C": range(5)}) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + df.groupby("A").agg( + {"B": {"foo": ["sum", "max"]}, "C": {"bar": ["count", "min"]}} + ) + + msg = r"Column\(s\) \['ma'\] do not exist" + with pytest.raises(KeyError, match=msg): + df.groupby("A")[["B", "C"]].agg({"ma": "max"}) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + df.groupby("A").B.agg({"foo": "count"}) + + +def test_agg_compat(): + # GH 12334 + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": np.random.default_rng(2).standard_normal(8) + 1.0, + "D": np.arange(8), + } + ) + + g = df.groupby(["A", "B"]) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + g["D"].agg({"C": ["sum", "std"]}) + + with pytest.raises(SpecificationError, match=msg): + g["D"].agg({"C": "sum", "D": "std"}) + + +def test_agg_nested_dicts(): + # API change for disallowing these types of nested dicts + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": np.random.default_rng(2).standard_normal(8) + 1.0, + "D": np.arange(8), + } + ) + + g = df.groupby(["A", "B"]) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + g.aggregate({"r1": {"C": ["mean", "sum"]}, "r2": {"D": ["mean", "sum"]}}) + + with pytest.raises(SpecificationError, match=msg): + g.agg({"C": {"ra": ["mean", "std"]}, "D": {"rb": ["mean", "std"]}}) + + # same name as the original column + # GH9052 + with pytest.raises(SpecificationError, match=msg): + g["D"].agg({"result1": np.sum, "result2": np.mean}) + + with pytest.raises(SpecificationError, match=msg): + g["D"].agg({"D": np.sum, "result2": np.mean}) + + +def test_agg_item_by_item_raise_typeerror(): + df = DataFrame(np.random.default_rng(2).integers(10, size=(20, 10))) + + def raiseException(df): + pprint_thing("----------------------------------------") + pprint_thing(df.to_string()) + raise TypeError("test") + + with pytest.raises(TypeError, match="test"): + df.groupby(0).agg(raiseException) + + +def test_series_agg_multikey(): + ts = Series( + np.arange(10, dtype=np.float64), index=date_range("2020-01-01", periods=10) + ) + grouped = ts.groupby([lambda x: x.year, lambda x: x.month]) + + result = grouped.agg("sum") + expected = grouped.sum() + tm.assert_series_equal(result, expected) + + +def test_series_agg_multi_pure_python(): + data = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + def bad(x): + if isinstance(x.values, np.ndarray): + assert len(x.values.base) > 0 + return "foo" + + result = data.groupby(["A", "B"]).agg(bad) + expected = data.groupby(["A", "B"]).agg(lambda x: "foo") + tm.assert_frame_equal(result, expected) + + +def test_agg_consistency(): + # agg with ([]) and () not consistent + # GH 6715 + def P1(a): + return np.percentile(a.dropna(), q=1) + + df = DataFrame( + { + "col1": [1, 2, 3, 4], + "col2": [10, 25, 26, 31], + "date": [ + dt.date(2013, 2, 10), + dt.date(2013, 2, 10), + dt.date(2013, 2, 11), + dt.date(2013, 2, 11), + ], + } + ) + + g = df.groupby("date") + + expected = g.agg([P1]) + expected.columns = expected.columns.levels[0] + + result = g.agg(P1) + tm.assert_frame_equal(result, expected) + + +def test_agg_callables(): + # GH 7929 + df = DataFrame({"foo": [1, 2], "bar": [3, 4]}).astype(np.int64) + + class fn_class: + def __call__(self, x): + return sum(x) + + equiv_callables = [ + sum, + np.sum, + lambda x: sum(x), + lambda x: x.sum(), + partial(sum), + fn_class(), + ] + + expected = df.groupby("foo").agg("sum") + for ecall in equiv_callables: + warn = FutureWarning if ecall is sum or ecall is np.sum else None + msg = "using DataFrameGroupBy.sum" + with tm.assert_produces_warning(warn, match=msg): + result = df.groupby("foo").agg(ecall) + tm.assert_frame_equal(result, expected) + + +def test_agg_over_numpy_arrays(): + # GH 3788 + df = DataFrame( + [ + [1, np.array([10, 20, 30])], + [1, np.array([40, 50, 60])], + [2, np.array([20, 30, 40])], + ], + columns=["category", "arraydata"], + ) + gb = df.groupby("category") + + expected_data = [[np.array([50, 70, 90])], [np.array([20, 30, 40])]] + expected_index = Index([1, 2], name="category") + expected_column = ["arraydata"] + expected = DataFrame(expected_data, index=expected_index, columns=expected_column) + + alt = gb.sum(numeric_only=False) + tm.assert_frame_equal(alt, expected) + + result = gb.agg("sum", numeric_only=False) + tm.assert_frame_equal(result, expected) + + # FIXME: the original version of this test called `gb.agg(sum)` + # and that raises TypeError if `numeric_only=False` is passed + + +@pytest.mark.parametrize("as_period", [True, False]) +def test_agg_tzaware_non_datetime_result(as_period): + # discussed in GH#29589, fixed in GH#29641, operating on tzaware values + # with function that is not dtype-preserving + dti = date_range("2012-01-01", periods=4, tz="UTC") + if as_period: + dti = dti.tz_localize(None).to_period("D") + + df = DataFrame({"a": [0, 0, 1, 1], "b": dti}) + gb = df.groupby("a") + + # Case that _does_ preserve the dtype + result = gb["b"].agg(lambda x: x.iloc[0]) + expected = Series(dti[::2], name="b") + expected.index.name = "a" + tm.assert_series_equal(result, expected) + + # Cases that do _not_ preserve the dtype + result = gb["b"].agg(lambda x: x.iloc[0].year) + expected = Series([2012, 2012], name="b") + expected.index.name = "a" + tm.assert_series_equal(result, expected) + + result = gb["b"].agg(lambda x: x.iloc[-1] - x.iloc[0]) + expected = Series([pd.Timedelta(days=1), pd.Timedelta(days=1)], name="b") + expected.index.name = "a" + if as_period: + expected = Series([pd.offsets.Day(1), pd.offsets.Day(1)], name="b") + expected.index.name = "a" + tm.assert_series_equal(result, expected) + + +def test_agg_timezone_round_trip(): + # GH 15426 + ts = pd.Timestamp("2016-01-01 12:00:00", tz="US/Pacific") + df = DataFrame({"a": 1, "b": [ts + dt.timedelta(minutes=nn) for nn in range(10)]}) + + result1 = df.groupby("a")["b"].agg("min").iloc[0] + result2 = df.groupby("a")["b"].agg(lambda x: np.min(x)).iloc[0] + result3 = df.groupby("a")["b"].min().iloc[0] + + assert result1 == ts + assert result2 == ts + assert result3 == ts + + dates = [ + pd.Timestamp(f"2016-01-0{i:d} 12:00:00", tz="US/Pacific") for i in range(1, 5) + ] + df = DataFrame({"A": ["a", "b"] * 2, "B": dates}) + grouped = df.groupby("A") + + ts = df["B"].iloc[0] + assert ts == grouped.nth(0)["B"].iloc[0] + assert ts == grouped.head(1)["B"].iloc[0] + assert ts == grouped.first()["B"].iloc[0] + + # GH#27110 applying iloc should return a DataFrame + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + assert ts == grouped.apply(lambda x: x.iloc[0]).iloc[0, 1] + + ts = df["B"].iloc[2] + assert ts == grouped.last()["B"].iloc[0] + + # GH#27110 applying iloc should return a DataFrame + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + assert ts == grouped.apply(lambda x: x.iloc[-1]).iloc[0, 1] + + +def test_sum_uint64_overflow(): + # see gh-14758 + # Convert to uint64 and don't overflow + df = DataFrame([[1, 2], [3, 4], [5, 6]], dtype=object) + df = df + 9223372036854775807 + + index = Index( + [9223372036854775808, 9223372036854775810, 9223372036854775812], dtype=np.uint64 + ) + expected = DataFrame( + {1: [9223372036854775809, 9223372036854775811, 9223372036854775813]}, + index=index, + dtype=object, + ) + + expected.index.name = 0 + result = df.groupby(0).sum(numeric_only=False) + tm.assert_frame_equal(result, expected) + + # out column is non-numeric, so with numeric_only=True it is dropped + result2 = df.groupby(0).sum(numeric_only=True) + expected2 = expected[[]] + tm.assert_frame_equal(result2, expected2) + + +@pytest.mark.parametrize( + "structure, expected", + [ + (tuple, DataFrame({"C": {(1, 1): (1, 1, 1), (3, 4): (3, 4, 4)}})), + (list, DataFrame({"C": {(1, 1): [1, 1, 1], (3, 4): [3, 4, 4]}})), + ( + lambda x: tuple(x), + DataFrame({"C": {(1, 1): (1, 1, 1), (3, 4): (3, 4, 4)}}), + ), + ( + lambda x: list(x), + DataFrame({"C": {(1, 1): [1, 1, 1], (3, 4): [3, 4, 4]}}), + ), + ], +) +def test_agg_structs_dataframe(structure, expected): + df = DataFrame( + {"A": [1, 1, 1, 3, 3, 3], "B": [1, 1, 1, 4, 4, 4], "C": [1, 1, 1, 3, 4, 4]} + ) + + result = df.groupby(["A", "B"]).aggregate(structure) + expected.index.names = ["A", "B"] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "structure, expected", + [ + (tuple, Series([(1, 1, 1), (3, 4, 4)], index=[1, 3], name="C")), + (list, Series([[1, 1, 1], [3, 4, 4]], index=[1, 3], name="C")), + (lambda x: tuple(x), Series([(1, 1, 1), (3, 4, 4)], index=[1, 3], name="C")), + (lambda x: list(x), Series([[1, 1, 1], [3, 4, 4]], index=[1, 3], name="C")), + ], +) +def test_agg_structs_series(structure, expected): + # Issue #18079 + df = DataFrame( + {"A": [1, 1, 1, 3, 3, 3], "B": [1, 1, 1, 4, 4, 4], "C": [1, 1, 1, 3, 4, 4]} + ) + + result = df.groupby("A")["C"].aggregate(structure) + expected.index.name = "A" + tm.assert_series_equal(result, expected) + + +def test_agg_category_nansum(observed): + categories = ["a", "b", "c"] + df = DataFrame( + {"A": pd.Categorical(["a", "a", "b"], categories=categories), "B": [1, 2, 3]} + ) + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A", observed=observed).B.agg(np.nansum) + expected = Series( + [3, 3, 0], + index=pd.CategoricalIndex(["a", "b", "c"], categories=categories, name="A"), + name="B", + ) + if observed: + expected = expected[expected != 0] + tm.assert_series_equal(result, expected) + + +def test_agg_list_like_func(): + # GH 18473 + df = DataFrame({"A": [str(x) for x in range(3)], "B": [str(x) for x in range(3)]}) + grouped = df.groupby("A", as_index=False, sort=False) + result = grouped.agg({"B": lambda x: list(x)}) + expected = DataFrame( + {"A": [str(x) for x in range(3)], "B": [[str(x)] for x in range(3)]} + ) + tm.assert_frame_equal(result, expected) + + +def test_agg_lambda_with_timezone(): + # GH 23683 + df = DataFrame( + { + "tag": [1, 1], + "date": [ + pd.Timestamp("2018-01-01", tz="UTC"), + pd.Timestamp("2018-01-02", tz="UTC"), + ], + } + ) + result = df.groupby("tag").agg({"date": lambda e: e.head(1)}) + expected = DataFrame( + [pd.Timestamp("2018-01-01", tz="UTC")], + index=Index([1], name="tag"), + columns=["date"], + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "err_cls", + [ + NotImplementedError, + RuntimeError, + KeyError, + IndexError, + OSError, + ValueError, + ArithmeticError, + AttributeError, + ], +) +def test_groupby_agg_err_catching(err_cls): + # make sure we suppress anything other than TypeError or AssertionError + # in _python_agg_general + + # Use a non-standard EA to make sure we don't go down ndarray paths + from pandas.tests.extension.decimal.array import ( + DecimalArray, + make_data, + to_decimal, + ) + + data = make_data()[:5] + df = DataFrame( + {"id1": [0, 0, 0, 1, 1], "id2": [0, 1, 0, 1, 1], "decimals": DecimalArray(data)} + ) + + expected = Series(to_decimal([data[0], data[3]])) + + def weird_func(x): + # weird function that raise something other than TypeError or IndexError + # in _python_agg_general + if len(x) == 0: + raise err_cls + return x.iloc[0] + + result = df["decimals"].groupby(df["id1"]).agg(weird_func) + tm.assert_series_equal(result, expected, check_names=False) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..dce3f072ed903ace4cb014f63d60ffde84c9bf4c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/conftest.py @@ -0,0 +1,208 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + Series, + date_range, +) +from pandas.core.groupby.base import ( + reduction_kernels, + transformation_kernels, +) + + +@pytest.fixture(params=[True, False]) +def sort(request): + return request.param + + +@pytest.fixture(params=[True, False]) +def as_index(request): + return request.param + + +@pytest.fixture(params=[True, False]) +def dropna(request): + return request.param + + +@pytest.fixture(params=[True, False]) +def observed(request): + return request.param + + +@pytest.fixture +def df(): + return DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + + +@pytest.fixture +def ts(): + return Series( + np.random.default_rng(2).standard_normal(30), + index=date_range("2000-01-01", periods=30, freq="B"), + ) + + +@pytest.fixture +def tsframe(): + return DataFrame( + np.random.default_rng(2).standard_normal((30, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=30, freq="B"), + ) + + +@pytest.fixture +def three_group(): + return DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + +@pytest.fixture() +def slice_test_df(): + data = [ + [0, "a", "a0_at_0"], + [1, "b", "b0_at_1"], + [2, "a", "a1_at_2"], + [3, "b", "b1_at_3"], + [4, "c", "c0_at_4"], + [5, "a", "a2_at_5"], + [6, "a", "a3_at_6"], + [7, "a", "a4_at_7"], + ] + df = DataFrame(data, columns=["Index", "Group", "Value"]) + return df.set_index("Index") + + +@pytest.fixture() +def slice_test_grouped(slice_test_df): + return slice_test_df.groupby("Group", as_index=False) + + +@pytest.fixture(params=sorted(reduction_kernels)) +def reduction_func(request): + """ + yields the string names of all groupby reduction functions, one at a time. + """ + return request.param + + +@pytest.fixture(params=sorted(transformation_kernels)) +def transformation_func(request): + """yields the string names of all groupby transformation functions.""" + return request.param + + +@pytest.fixture(params=sorted(reduction_kernels) + sorted(transformation_kernels)) +def groupby_func(request): + """yields both aggregation and transformation functions.""" + return request.param + + +@pytest.fixture(params=[True, False]) +def parallel(request): + """parallel keyword argument for numba.jit""" + return request.param + + +# Can parameterize nogil & nopython over True | False, but limiting per +# https://github.com/pandas-dev/pandas/pull/41971#issuecomment-860607472 + + +@pytest.fixture(params=[False]) +def nogil(request): + """nogil keyword argument for numba.jit""" + return request.param + + +@pytest.fixture(params=[True]) +def nopython(request): + """nopython keyword argument for numba.jit""" + return request.param + + +@pytest.fixture( + params=[ + ("mean", {}), + ("var", {"ddof": 1}), + ("var", {"ddof": 0}), + ("std", {"ddof": 1}), + ("std", {"ddof": 0}), + ("sum", {}), + ("min", {}), + ("max", {}), + ("sum", {"min_count": 2}), + ("min", {"min_count": 2}), + ("max", {"min_count": 2}), + ], + ids=[ + "mean", + "var_1", + "var_0", + "std_1", + "std_0", + "sum", + "min", + "max", + "sum-min_count", + "min-min_count", + "max-min_count", + ], +) +def numba_supported_reductions(request): + """reductions supported with engine='numba'""" + return request.param diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_corrwith.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_corrwith.py new file mode 100644 index 0000000000000000000000000000000000000000..53e8bdc4534dc66dc1b68e603b2af431d0c0b209 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_corrwith.py @@ -0,0 +1,24 @@ +import numpy as np + +from pandas import ( + DataFrame, + Index, + Series, +) +import pandas._testing as tm + + +def test_corrwith_with_1_axis(): + # GH 47723 + df = DataFrame({"a": [1, 1, 2], "b": [3, 7, 4]}) + gb = df.groupby("a") + + msg = "DataFrameGroupBy.corrwith with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.corrwith(df, axis=1) + index = Index( + data=[(1, 0), (1, 1), (1, 2), (2, 2), (2, 0), (2, 1)], + name=("a", None), + ) + expected = Series([np.nan] * 6, index=index) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_describe.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_describe.py new file mode 100644 index 0000000000000000000000000000000000000000..c0889ab415e744ca57af2797d2b0211431a63196 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_describe.py @@ -0,0 +1,301 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm + + +def test_apply_describe_bug(multiindex_dataframe_random_data): + grouped = multiindex_dataframe_random_data.groupby(level="first") + grouped.describe() # it works! + + +def test_series_describe_multikey(): + ts = Series( + np.arange(10, dtype=np.float64), index=date_range("2020-01-01", periods=10) + ) + grouped = ts.groupby([lambda x: x.year, lambda x: x.month]) + result = grouped.describe() + tm.assert_series_equal(result["mean"], grouped.mean(), check_names=False) + tm.assert_series_equal(result["std"], grouped.std(), check_names=False) + tm.assert_series_equal(result["min"], grouped.min(), check_names=False) + + +def test_series_describe_single(): + ts = Series( + np.arange(10, dtype=np.float64), index=date_range("2020-01-01", periods=10) + ) + grouped = ts.groupby(lambda x: x.month) + result = grouped.apply(lambda x: x.describe()) + expected = grouped.describe().stack(future_stack=True) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("keys", ["key1", ["key1", "key2"]]) +def test_series_describe_as_index(as_index, keys): + # GH#49256 + df = DataFrame( + { + "key1": ["one", "two", "two", "three", "two"], + "key2": ["one", "two", "two", "three", "two"], + "foo2": [1, 2, 4, 4, 6], + } + ) + gb = df.groupby(keys, as_index=as_index)["foo2"] + result = gb.describe() + expected = DataFrame( + { + "key1": ["one", "three", "two"], + "count": [1.0, 1.0, 3.0], + "mean": [1.0, 4.0, 4.0], + "std": [np.nan, np.nan, 2.0], + "min": [1.0, 4.0, 2.0], + "25%": [1.0, 4.0, 3.0], + "50%": [1.0, 4.0, 4.0], + "75%": [1.0, 4.0, 5.0], + "max": [1.0, 4.0, 6.0], + } + ) + if len(keys) == 2: + expected.insert(1, "key2", expected["key1"]) + if as_index: + expected = expected.set_index(keys) + tm.assert_frame_equal(result, expected) + + +def test_frame_describe_multikey(tsframe, using_infer_string): + grouped = tsframe.groupby([lambda x: x.year, lambda x: x.month]) + result = grouped.describe() + desc_groups = [] + for col in tsframe: + group = grouped[col].describe() + # GH 17464 - Remove duplicate MultiIndex levels + group_col = MultiIndex( + levels=[Index([col], dtype=tsframe.columns.dtype), group.columns], + codes=[[0] * len(group.columns), range(len(group.columns))], + ) + group = DataFrame(group.values, columns=group_col, index=group.index) + desc_groups.append(group) + expected = pd.concat(desc_groups, axis=1) + tm.assert_frame_equal(result, expected) + + # remainder of the tests fails with string dtype but is testing deprecated behaviour + if using_infer_string: + return + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + groupedT = tsframe.groupby({"A": 0, "B": 0, "C": 1, "D": 1}, axis=1) + result = groupedT.describe() + expected = tsframe.describe().T + # reverting the change from https://github.com/pandas-dev/pandas/pull/35441/ + expected.index = MultiIndex( + levels=[[0, 1], expected.index], + codes=[[0, 0, 1, 1], range(len(expected.index))], + ) + tm.assert_frame_equal(result, expected) + + +def test_frame_describe_tupleindex(): + # GH 14848 - regression from 0.19.0 to 0.19.1 + df1 = DataFrame( + { + "x": [1, 2, 3, 4, 5] * 3, + "y": [10, 20, 30, 40, 50] * 3, + "z": [100, 200, 300, 400, 500] * 3, + } + ) + df1["k"] = [(0, 0, 1), (0, 1, 0), (1, 0, 0)] * 5 + df2 = df1.rename(columns={"k": "key"}) + msg = "Names should be list-like for a MultiIndex" + with pytest.raises(ValueError, match=msg): + df1.groupby("k").describe() + with pytest.raises(ValueError, match=msg): + df2.groupby("key").describe() + + +def test_frame_describe_unstacked_format(): + # GH 4792 + prices = { + Timestamp("2011-01-06 10:59:05", tz=None): 24990, + Timestamp("2011-01-06 12:43:33", tz=None): 25499, + Timestamp("2011-01-06 12:54:09", tz=None): 25499, + } + volumes = { + Timestamp("2011-01-06 10:59:05", tz=None): 1500000000, + Timestamp("2011-01-06 12:43:33", tz=None): 5000000000, + Timestamp("2011-01-06 12:54:09", tz=None): 100000000, + } + df = DataFrame({"PRICE": prices, "VOLUME": volumes}) + result = df.groupby("PRICE").VOLUME.describe() + data = [ + df[df.PRICE == 24990].VOLUME.describe().values.tolist(), + df[df.PRICE == 25499].VOLUME.describe().values.tolist(), + ] + expected = DataFrame( + data, + index=Index([24990, 25499], name="PRICE"), + columns=["count", "mean", "std", "min", "25%", "50%", "75%", "max"], + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings( + "ignore:" + "indexing past lexsort depth may impact performance:" + "pandas.errors.PerformanceWarning" +) +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize("keys", [["a1"], ["a1", "a2"]]) +def test_describe_with_duplicate_output_column_names(as_index, keys): + # GH 35314 + df = DataFrame( + { + "a1": [99, 99, 99, 88, 88, 88], + "a2": [99, 99, 99, 88, 88, 88], + "b": [1, 2, 3, 4, 5, 6], + "c": [10, 20, 30, 40, 50, 60], + }, + columns=["a1", "a2", "b", "b"], + copy=False, + ) + if keys == ["a1"]: + df = df.drop(columns="a2") + + expected = ( + DataFrame.from_records( + [ + ("b", "count", 3.0, 3.0), + ("b", "mean", 5.0, 2.0), + ("b", "std", 1.0, 1.0), + ("b", "min", 4.0, 1.0), + ("b", "25%", 4.5, 1.5), + ("b", "50%", 5.0, 2.0), + ("b", "75%", 5.5, 2.5), + ("b", "max", 6.0, 3.0), + ("b", "count", 3.0, 3.0), + ("b", "mean", 5.0, 2.0), + ("b", "std", 1.0, 1.0), + ("b", "min", 4.0, 1.0), + ("b", "25%", 4.5, 1.5), + ("b", "50%", 5.0, 2.0), + ("b", "75%", 5.5, 2.5), + ("b", "max", 6.0, 3.0), + ], + ) + .set_index([0, 1]) + .T + ) + expected.columns.names = [None, None] + if len(keys) == 2: + expected.index = MultiIndex( + levels=[[88, 99], [88, 99]], codes=[[0, 1], [0, 1]], names=["a1", "a2"] + ) + else: + expected.index = Index([88, 99], name="a1") + + if not as_index: + expected = expected.reset_index() + + result = df.groupby(keys, as_index=as_index).describe() + + tm.assert_frame_equal(result, expected) + + +def test_describe_duplicate_columns(): + # GH#50806 + df = DataFrame([[0, 1, 2, 3]]) + df.columns = [0, 1, 2, 0] + gb = df.groupby(df[1]) + result = gb.describe(percentiles=[]) + + columns = ["count", "mean", "std", "min", "50%", "max"] + frames = [ + DataFrame([[1.0, val, np.nan, val, val, val]], index=[1], columns=columns) + for val in (0.0, 2.0, 3.0) + ] + expected = pd.concat(frames, axis=1) + expected.columns = MultiIndex( + levels=[[0, 2], columns], + codes=[6 * [0] + 6 * [1] + 6 * [0], 3 * list(range(6))], + ) + expected.index.names = [1] + tm.assert_frame_equal(result, expected) + + +class TestGroupByNonCythonPaths: + # GH#5610 non-cython calls should not include the grouper + # Tests for code not expected to go through cython paths. + + @pytest.fixture + def df(self): + df = DataFrame( + [[1, 2, "foo"], [1, np.nan, "bar"], [3, np.nan, "baz"]], + columns=["A", "B", "C"], + ) + return df + + @pytest.fixture + def gb(self, df): + gb = df.groupby("A") + return gb + + @pytest.fixture + def gni(self, df): + gni = df.groupby("A", as_index=False) + return gni + + def test_describe(self, df, gb, gni): + # describe + expected_index = Index([1, 3], name="A") + expected_col = MultiIndex( + levels=[["B"], ["count", "mean", "std", "min", "25%", "50%", "75%", "max"]], + codes=[[0] * 8, list(range(8))], + ) + expected = DataFrame( + [ + [1.0, 2.0, np.nan, 2.0, 2.0, 2.0, 2.0, 2.0], + [0.0, np.nan, np.nan, np.nan, np.nan, np.nan, np.nan, np.nan], + ], + index=expected_index, + columns=expected_col, + ) + result = gb.describe() + tm.assert_frame_equal(result, expected) + + expected = expected.reset_index() + result = gni.describe() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", [int, float, object]) +@pytest.mark.parametrize( + "kwargs", + [ + {"percentiles": [0.10, 0.20, 0.30], "include": "all", "exclude": None}, + {"percentiles": [0.10, 0.20, 0.30], "include": None, "exclude": ["int"]}, + {"percentiles": [0.10, 0.20, 0.30], "include": ["int"], "exclude": None}, + ], +) +def test_groupby_empty_dataset(dtype, kwargs): + # GH#41575 + df = DataFrame([[1, 2, 3]], columns=["A", "B", "C"], dtype=dtype) + df["B"] = df["B"].astype(int) + df["C"] = df["C"].astype(float) + + result = df.iloc[:0].groupby("A").describe(**kwargs) + expected = df.groupby("A").describe(**kwargs).reset_index(drop=True).iloc[:0] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:0].groupby("A").B.describe(**kwargs) + expected = df.groupby("A").B.describe(**kwargs).reset_index(drop=True).iloc[:0] + expected.index = Index([], dtype=df.columns.dtype) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_groupby_shift_diff.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_groupby_shift_diff.py new file mode 100644 index 0000000000000000000000000000000000000000..94e672d4892feb513f75d9a3d3376e261e2c0f36 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_groupby_shift_diff.py @@ -0,0 +1,255 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + NaT, + Series, + Timedelta, + Timestamp, + date_range, +) +import pandas._testing as tm + + +def test_group_shift_with_null_key(): + # This test is designed to replicate the segfault in issue #13813. + n_rows = 1200 + + # Generate a moderately large dataframe with occasional missing + # values in column `B`, and then group by [`A`, `B`]. This should + # force `-1` in `labels` array of `g._grouper.group_info` exactly + # at those places, where the group-by key is partially missing. + df = DataFrame( + [(i % 12, i % 3 if i % 3 else np.nan, i) for i in range(n_rows)], + dtype=float, + columns=["A", "B", "Z"], + index=None, + ) + g = df.groupby(["A", "B"]) + + expected = DataFrame( + [(i + 12 if i % 3 and i < n_rows - 12 else np.nan) for i in range(n_rows)], + dtype=float, + columns=["Z"], + index=None, + ) + result = g.shift(-1) + + tm.assert_frame_equal(result, expected) + + +def test_group_shift_with_fill_value(): + # GH #24128 + n_rows = 24 + df = DataFrame( + [(i % 12, i % 3, i) for i in range(n_rows)], + dtype=float, + columns=["A", "B", "Z"], + index=None, + ) + g = df.groupby(["A", "B"]) + + expected = DataFrame( + [(i + 12 if i < n_rows - 12 else 0) for i in range(n_rows)], + dtype=float, + columns=["Z"], + index=None, + ) + result = g.shift(-1, fill_value=0) + + tm.assert_frame_equal(result, expected) + + +def test_group_shift_lose_timezone(): + # GH 30134 + now_dt = Timestamp.utcnow().as_unit("ns") + df = DataFrame({"a": [1, 1], "date": now_dt}) + result = df.groupby("a").shift(0).iloc[0] + expected = Series({"date": now_dt}, name=result.name) + tm.assert_series_equal(result, expected) + + +def test_group_diff_real_series(any_real_numpy_dtype): + df = DataFrame( + {"a": [1, 2, 3, 3, 2], "b": [1, 2, 3, 4, 5]}, + dtype=any_real_numpy_dtype, + ) + result = df.groupby("a")["b"].diff() + exp_dtype = "float" + if any_real_numpy_dtype in ["int8", "int16", "float32"]: + exp_dtype = "float32" + expected = Series([np.nan, np.nan, np.nan, 1.0, 3.0], dtype=exp_dtype, name="b") + tm.assert_series_equal(result, expected) + + +def test_group_diff_real_frame(any_real_numpy_dtype): + df = DataFrame( + { + "a": [1, 2, 3, 3, 2], + "b": [1, 2, 3, 4, 5], + "c": [1, 2, 3, 4, 6], + }, + dtype=any_real_numpy_dtype, + ) + result = df.groupby("a").diff() + exp_dtype = "float" + if any_real_numpy_dtype in ["int8", "int16", "float32"]: + exp_dtype = "float32" + expected = DataFrame( + { + "b": [np.nan, np.nan, np.nan, 1.0, 3.0], + "c": [np.nan, np.nan, np.nan, 1.0, 4.0], + }, + dtype=exp_dtype, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "data", + [ + [ + Timestamp("2013-01-01"), + Timestamp("2013-01-02"), + Timestamp("2013-01-03"), + ], + [Timedelta("5 days"), Timedelta("6 days"), Timedelta("7 days")], + ], +) +def test_group_diff_datetimelike(data, unit): + df = DataFrame({"a": [1, 2, 2], "b": data}) + df["b"] = df["b"].dt.as_unit(unit) + result = df.groupby("a")["b"].diff() + expected = Series([NaT, NaT, Timedelta("1 days")], name="b").dt.as_unit(unit) + tm.assert_series_equal(result, expected) + + +def test_group_diff_bool(): + df = DataFrame({"a": [1, 2, 3, 3, 2], "b": [True, True, False, False, True]}) + result = df.groupby("a")["b"].diff() + expected = Series([np.nan, np.nan, np.nan, False, False], name="b") + tm.assert_series_equal(result, expected) + + +def test_group_diff_object_raises(object_dtype): + df = DataFrame( + {"a": ["foo", "bar", "bar"], "b": ["baz", "foo", "foo"]}, dtype=object_dtype + ) + with pytest.raises(TypeError, match=r"unsupported operand type\(s\) for -"): + df.groupby("a")["b"].diff() + + +def test_empty_shift_with_fill(): + # GH 41264, single-index check + df = DataFrame(columns=["a", "b", "c"]) + shifted = df.groupby(["a"]).shift(1) + shifted_with_fill = df.groupby(["a"]).shift(1, fill_value=0) + tm.assert_frame_equal(shifted, shifted_with_fill) + tm.assert_index_equal(shifted.index, shifted_with_fill.index) + + +def test_multindex_empty_shift_with_fill(): + # GH 41264, multi-index check + df = DataFrame(columns=["a", "b", "c"]) + shifted = df.groupby(["a", "b"]).shift(1) + shifted_with_fill = df.groupby(["a", "b"]).shift(1, fill_value=0) + tm.assert_frame_equal(shifted, shifted_with_fill) + tm.assert_index_equal(shifted.index, shifted_with_fill.index) + + +def test_shift_periods_freq(): + # GH 54093 + data = {"a": [1, 2, 3, 4, 5, 6], "b": [0, 0, 0, 1, 1, 1]} + df = DataFrame(data, index=date_range(start="20100101", periods=6)) + result = df.groupby(df.index).shift(periods=-2, freq="D") + expected = DataFrame(data, index=date_range(start="2009-12-30", periods=6)) + tm.assert_frame_equal(result, expected) + + +def test_shift_deprecate_freq_and_fill_value(): + # GH 53832 + data = {"a": [1, 2, 3, 4, 5, 6], "b": [0, 0, 0, 1, 1, 1]} + df = DataFrame(data, index=date_range(start="20100101", periods=6)) + msg = ( + "Passing a 'freq' together with a 'fill_value' silently ignores the fill_value" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(df.index).shift(periods=-2, freq="D", fill_value="1") + + +def test_shift_disallow_suffix_if_periods_is_int(): + # GH#44424 + data = {"a": [1, 2, 3, 4, 5, 6], "b": [0, 0, 0, 1, 1, 1]} + df = DataFrame(data) + msg = "Cannot specify `suffix` if `periods` is an int." + with pytest.raises(ValueError, match=msg): + df.groupby("b").shift(1, suffix="fails") + + +def test_group_shift_with_multiple_periods(): + # GH#44424 + df = DataFrame({"a": [1, 2, 3, 3, 2], "b": [True, True, False, False, True]}) + + shifted_df = df.groupby("b")[["a"]].shift([0, 1]) + expected_df = DataFrame( + {"a_0": [1, 2, 3, 3, 2], "a_1": [np.nan, 1.0, np.nan, 3.0, 2.0]} + ) + tm.assert_frame_equal(shifted_df, expected_df) + + # series + shifted_series = df.groupby("b")["a"].shift([0, 1]) + tm.assert_frame_equal(shifted_series, expected_df) + + +def test_group_shift_with_multiple_periods_and_freq(): + # GH#44424 + df = DataFrame( + {"a": [1, 2, 3, 4, 5], "b": [True, True, False, False, True]}, + index=date_range("1/1/2000", periods=5, freq="h"), + ) + shifted_df = df.groupby("b")[["a"]].shift( + [0, 1], + freq="h", + ) + expected_df = DataFrame( + { + "a_0": [1.0, 2.0, 3.0, 4.0, 5.0, np.nan], + "a_1": [ + np.nan, + 1.0, + 2.0, + 3.0, + 4.0, + 5.0, + ], + }, + index=date_range("1/1/2000", periods=6, freq="h"), + ) + tm.assert_frame_equal(shifted_df, expected_df) + + +def test_group_shift_with_multiple_periods_and_fill_value(): + # GH#44424 + df = DataFrame( + {"a": [1, 2, 3, 4, 5], "b": [True, True, False, False, True]}, + ) + shifted_df = df.groupby("b")[["a"]].shift([0, 1], fill_value=-1) + expected_df = DataFrame( + {"a_0": [1, 2, 3, 4, 5], "a_1": [-1, 1, -1, 3, 2]}, + ) + tm.assert_frame_equal(shifted_df, expected_df) + + +def test_group_shift_with_multiple_periods_and_both_fill_and_freq_deprecated(): + # GH#44424 + df = DataFrame( + {"a": [1, 2, 3, 4, 5], "b": [True, True, False, False, True]}, + index=date_range("1/1/2000", periods=5, freq="h"), + ) + msg = ( + "Passing a 'freq' together with a 'fill_value' silently ignores the " + "fill_value" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("b")[["a"]].shift([1, 2], fill_value=1, freq="h") diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_is_monotonic.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_is_monotonic.py new file mode 100644 index 0000000000000000000000000000000000000000..3428fc90f6e51a0bde0aba9c8ea08ebf414e5556 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_is_monotonic.py @@ -0,0 +1,78 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + Series, +) +import pandas._testing as tm + + +@pytest.mark.parametrize( + "in_vals, out_vals", + [ + # Basics: strictly increasing (T), strictly decreasing (F), + # abs val increasing (F), non-strictly increasing (T) + ([1, 2, 5, 3, 2, 0, 4, 5, -6, 1, 1], [True, False, False, True]), + # Test with inf vals + ( + [1, 2.1, np.inf, 3, 2, np.inf, -np.inf, 5, 11, 1, -np.inf], + [True, False, True, False], + ), + # Test with nan vals; should always be False + ( + [1, 2, np.nan, 3, 2, np.nan, np.nan, 5, -np.inf, 1, np.nan], + [False, False, False, False], + ), + ], +) +def test_is_monotonic_increasing(in_vals, out_vals): + # GH 17015 + source_dict = { + "A": ["1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11"], + "B": ["a", "a", "a", "b", "b", "b", "c", "c", "c", "d", "d"], + "C": in_vals, + } + df = DataFrame(source_dict) + result = df.groupby("B").C.is_monotonic_increasing + index = Index(list("abcd"), name="B") + expected = Series(index=index, data=out_vals, name="C") + tm.assert_series_equal(result, expected) + + # Also check result equal to manually taking x.is_monotonic_increasing. + expected = df.groupby(["B"]).C.apply(lambda x: x.is_monotonic_increasing) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "in_vals, out_vals", + [ + # Basics: strictly decreasing (T), strictly increasing (F), + # abs val decreasing (F), non-strictly increasing (T) + ([10, 9, 7, 3, 4, 5, -3, 2, 0, 1, 1], [True, False, False, True]), + # Test with inf vals + ( + [np.inf, 1, -np.inf, np.inf, 2, -3, -np.inf, 5, -3, -np.inf, -np.inf], + [True, True, False, True], + ), + # Test with nan vals; should always be False + ( + [1, 2, np.nan, 3, 2, np.nan, np.nan, 5, -np.inf, 1, np.nan], + [False, False, False, False], + ), + ], +) +def test_is_monotonic_decreasing(in_vals, out_vals): + # GH 17015 + source_dict = { + "A": ["1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11"], + "B": ["a", "a", "a", "b", "b", "b", "c", "c", "c", "d", "d"], + "C": in_vals, + } + + df = DataFrame(source_dict) + result = df.groupby("B").C.is_monotonic_decreasing + index = Index(list("abcd"), name="B") + expected = Series(index=index, data=out_vals, name="C") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nlargest_nsmallest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nlargest_nsmallest.py new file mode 100644 index 0000000000000000000000000000000000000000..bf983f04a3f3f17566299bafe756e95e2727f6ad --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nlargest_nsmallest.py @@ -0,0 +1,115 @@ +import numpy as np +import pytest + +from pandas import ( + MultiIndex, + Series, + date_range, +) +import pandas._testing as tm + + +def test_nlargest(): + a = Series([1, 3, 5, 7, 2, 9, 0, 4, 6, 10]) + b = Series(list("a" * 5 + "b" * 5)) + gb = a.groupby(b) + r = gb.nlargest(3) + e = Series( + [7, 5, 3, 10, 9, 6], + index=MultiIndex.from_arrays([list("aaabbb"), [3, 2, 1, 9, 5, 8]]), + ) + tm.assert_series_equal(r, e) + + a = Series([1, 1, 3, 2, 0, 3, 3, 2, 1, 0]) + gb = a.groupby(b) + e = Series( + [3, 2, 1, 3, 3, 2], + index=MultiIndex.from_arrays([list("aaabbb"), [2, 3, 1, 6, 5, 7]]), + ) + tm.assert_series_equal(gb.nlargest(3, keep="last"), e) + + +def test_nlargest_mi_grouper(): + # see gh-21411 + npr = np.random.default_rng(2) + + dts = date_range("20180101", periods=10) + iterables = [dts, ["one", "two"]] + + idx = MultiIndex.from_product(iterables, names=["first", "second"]) + s = Series(npr.standard_normal(20), index=idx) + + result = s.groupby("first").nlargest(1) + + exp_idx = MultiIndex.from_tuples( + [ + (dts[0], dts[0], "one"), + (dts[1], dts[1], "one"), + (dts[2], dts[2], "one"), + (dts[3], dts[3], "two"), + (dts[4], dts[4], "one"), + (dts[5], dts[5], "one"), + (dts[6], dts[6], "one"), + (dts[7], dts[7], "one"), + (dts[8], dts[8], "one"), + (dts[9], dts[9], "one"), + ], + names=["first", "first", "second"], + ) + + exp_values = [ + 0.18905338179353307, + -0.41306354339189344, + 1.799707382720902, + 0.7738065867276614, + 0.28121066979764925, + 0.9775674511260357, + -0.3288239040579627, + 0.45495807124085547, + 0.5452887139646817, + 0.12682784711186987, + ] + + expected = Series(exp_values, index=exp_idx) + tm.assert_series_equal(result, expected, check_exact=False, rtol=1e-3) + + +def test_nsmallest(): + a = Series([1, 3, 5, 7, 2, 9, 0, 4, 6, 10]) + b = Series(list("a" * 5 + "b" * 5)) + gb = a.groupby(b) + r = gb.nsmallest(3) + e = Series( + [1, 2, 3, 0, 4, 6], + index=MultiIndex.from_arrays([list("aaabbb"), [0, 4, 1, 6, 7, 8]]), + ) + tm.assert_series_equal(r, e) + + a = Series([1, 1, 3, 2, 0, 3, 3, 2, 1, 0]) + gb = a.groupby(b) + e = Series( + [0, 1, 1, 0, 1, 2], + index=MultiIndex.from_arrays([list("aaabbb"), [4, 1, 0, 9, 8, 7]]), + ) + tm.assert_series_equal(gb.nsmallest(3, keep="last"), e) + + +@pytest.mark.parametrize( + "data, groups", + [([0, 1, 2, 3], [0, 0, 1, 1]), ([0], [0])], +) +@pytest.mark.parametrize("dtype", [None, *tm.ALL_INT_NUMPY_DTYPES]) +@pytest.mark.parametrize("method", ["nlargest", "nsmallest"]) +def test_nlargest_and_smallest_noop(data, groups, dtype, method): + # GH 15272, GH 16345, GH 29129 + # Test nlargest/smallest when it results in a noop, + # i.e. input is sorted and group size <= n + if dtype is not None: + data = np.array(data, dtype=dtype) + if method == "nlargest": + data = list(reversed(data)) + ser = Series(data, name="a") + result = getattr(ser.groupby(groups), method)(n=2) + expidx = np.array(groups, dtype=int) if isinstance(groups, list) else groups + expected = Series(data, index=MultiIndex.from_arrays([expidx, ser.index]), name="a") + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nth.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nth.py new file mode 100644 index 0000000000000000000000000000000000000000..2722993ee5cdff62c59d159e4a2b5a370afa868e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_nth.py @@ -0,0 +1,922 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + Timestamp, + isna, +) +import pandas._testing as tm + + +def test_first_last_nth(df): + # tests for first / last / nth + grouped = df.groupby("A") + first = grouped.first() + expected = df.loc[[1, 0], ["B", "C", "D"]] + expected.index = Index(["bar", "foo"], name="A") + expected = expected.sort_index() + tm.assert_frame_equal(first, expected) + + nth = grouped.nth(0) + expected = df.loc[[0, 1]] + tm.assert_frame_equal(nth, expected) + + last = grouped.last() + expected = df.loc[[5, 7], ["B", "C", "D"]] + expected.index = Index(["bar", "foo"], name="A") + tm.assert_frame_equal(last, expected) + + nth = grouped.nth(-1) + expected = df.iloc[[5, 7]] + tm.assert_frame_equal(nth, expected) + + nth = grouped.nth(1) + expected = df.iloc[[2, 3]] + tm.assert_frame_equal(nth, expected) + + # it works! + grouped["B"].first() + grouped["B"].last() + grouped["B"].nth(0) + + df = df.copy() + df.loc[df["A"] == "foo", "B"] = np.nan + grouped = df.groupby("A") + assert isna(grouped["B"].first()["foo"]) + assert isna(grouped["B"].last()["foo"]) + assert isna(grouped["B"].nth(0).iloc[0]) + + # v0.14.0 whatsnew + df = DataFrame([[1, np.nan], [1, 4], [5, 6]], columns=["A", "B"]) + g = df.groupby("A") + result = g.first() + expected = df.iloc[[1, 2]].set_index("A") + tm.assert_frame_equal(result, expected) + + expected = df.iloc[[1, 2]] + result = g.nth(0, dropna="any") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("method", ["first", "last"]) +def test_first_last_with_na_object(method, nulls_fixture): + # https://github.com/pandas-dev/pandas/issues/32123 + groups = DataFrame({"a": [1, 1, 2, 2], "b": [1, 2, 3, nulls_fixture]}).groupby("a") + result = getattr(groups, method)() + + if method == "first": + values = [1, 3] + else: + values = [2, 3] + + values = np.array(values, dtype=result["b"].dtype) + idx = Index([1, 2], name="a") + expected = DataFrame({"b": values}, index=idx) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("index", [0, -1]) +def test_nth_with_na_object(index, nulls_fixture): + # https://github.com/pandas-dev/pandas/issues/32123 + df = DataFrame({"a": [1, 1, 2, 2], "b": [1, 2, 3, nulls_fixture]}) + groups = df.groupby("a") + result = groups.nth(index) + expected = df.iloc[[0, 2]] if index == 0 else df.iloc[[1, 3]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("method", ["first", "last"]) +def test_first_last_with_None(method): + # https://github.com/pandas-dev/pandas/issues/32800 + # None should be preserved as object dtype + df = DataFrame.from_dict({"id": ["a"], "value": [None]}) + groups = df.groupby("id", as_index=False) + result = getattr(groups, method)() + + tm.assert_frame_equal(result, df) + + +@pytest.mark.parametrize("method", ["first", "last"]) +@pytest.mark.parametrize( + "df, expected", + [ + ( + DataFrame({"id": "a", "value": [None, "foo", np.nan]}), + DataFrame({"value": ["foo"]}, index=Index(["a"], name="id")), + ), + ( + DataFrame({"id": "a", "value": [np.nan]}, dtype=object), + DataFrame({"value": [None]}, index=Index(["a"], name="id")), + ), + ], +) +def test_first_last_with_None_expanded(method, df, expected): + # GH 32800, 38286 + result = getattr(df.groupby("id"), method)() + tm.assert_frame_equal(result, expected) + + +def test_first_last_nth_dtypes(): + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.array(np.random.default_rng(2).standard_normal(8), dtype="float32"), + } + ) + df["E"] = True + df["F"] = 1 + + # tests for first / last / nth + grouped = df.groupby("A") + first = grouped.first() + expected = df.loc[[1, 0], ["B", "C", "D", "E", "F"]] + expected.index = Index(["bar", "foo"], name="A") + expected = expected.sort_index() + tm.assert_frame_equal(first, expected) + + last = grouped.last() + expected = df.loc[[5, 7], ["B", "C", "D", "E", "F"]] + expected.index = Index(["bar", "foo"], name="A") + expected = expected.sort_index() + tm.assert_frame_equal(last, expected) + + nth = grouped.nth(1) + expected = df.iloc[[2, 3]] + tm.assert_frame_equal(nth, expected) + + +def test_first_last_nth_dtypes2(): + # GH 2763, first/last shifting dtypes + idx = list(range(10)) + idx.append(9) + ser = Series(data=range(11), index=idx, name="IntCol") + assert ser.dtype == "int64" + f = ser.groupby(level=0).first() + assert f.dtype == "int64" + + +def test_first_last_nth_nan_dtype(): + # GH 33591 + df = DataFrame({"data": ["A"], "nans": Series([None], dtype=object)}) + grouped = df.groupby("data") + + expected = df.set_index("data").nans + tm.assert_series_equal(grouped.nans.first(), expected) + tm.assert_series_equal(grouped.nans.last(), expected) + + expected = df.nans + tm.assert_series_equal(grouped.nans.nth(-1), expected) + tm.assert_series_equal(grouped.nans.nth(0), expected) + + +def test_first_strings_timestamps(): + # GH 11244 + test = DataFrame( + { + Timestamp("2012-01-01 00:00:00"): ["a", "b"], + Timestamp("2012-01-02 00:00:00"): ["c", "d"], + "name": ["e", "e"], + "aaaa": ["f", "g"], + } + ) + result = test.groupby("name").first() + expected = DataFrame( + [["a", "c", "f"]], + columns=Index([Timestamp("2012-01-01"), Timestamp("2012-01-02"), "aaaa"]), + index=Index(["e"], name="name"), + ) + tm.assert_frame_equal(result, expected) + + +def test_nth(): + df = DataFrame([[1, np.nan], [1, 4], [5, 6]], columns=["A", "B"]) + gb = df.groupby("A") + + tm.assert_frame_equal(gb.nth(0), df.iloc[[0, 2]]) + tm.assert_frame_equal(gb.nth(1), df.iloc[[1]]) + tm.assert_frame_equal(gb.nth(2), df.loc[[]]) + tm.assert_frame_equal(gb.nth(-1), df.iloc[[1, 2]]) + tm.assert_frame_equal(gb.nth(-2), df.iloc[[0]]) + tm.assert_frame_equal(gb.nth(-3), df.loc[[]]) + tm.assert_series_equal(gb.B.nth(0), df.B.iloc[[0, 2]]) + tm.assert_series_equal(gb.B.nth(1), df.B.iloc[[1]]) + tm.assert_frame_equal(gb[["B"]].nth(0), df[["B"]].iloc[[0, 2]]) + + tm.assert_frame_equal(gb.nth(0, dropna="any"), df.iloc[[1, 2]]) + tm.assert_frame_equal(gb.nth(-1, dropna="any"), df.iloc[[1, 2]]) + + tm.assert_frame_equal(gb.nth(7, dropna="any"), df.iloc[:0]) + tm.assert_frame_equal(gb.nth(2, dropna="any"), df.iloc[:0]) + + +def test_nth2(): + # out of bounds, regression from 0.13.1 + # GH 6621 + df = DataFrame( + { + "color": {0: "green", 1: "green", 2: "red", 3: "red", 4: "red"}, + "food": {0: "ham", 1: "eggs", 2: "eggs", 3: "ham", 4: "pork"}, + "two": { + 0: 1.5456590000000001, + 1: -0.070345000000000005, + 2: -2.4004539999999999, + 3: 0.46206000000000003, + 4: 0.52350799999999997, + }, + "one": { + 0: 0.56573799999999996, + 1: -0.9742360000000001, + 2: 1.033801, + 3: -0.78543499999999999, + 4: 0.70422799999999997, + }, + } + ).set_index(["color", "food"]) + + result = df.groupby(level=0, as_index=False).nth(2) + expected = df.iloc[[-1]] + tm.assert_frame_equal(result, expected) + + result = df.groupby(level=0, as_index=False).nth(3) + expected = df.loc[[]] + tm.assert_frame_equal(result, expected) + + +def test_nth3(): + # GH 7559 + # from the vbench + df = DataFrame(np.random.default_rng(2).integers(1, 10, (100, 2)), dtype="int64") + ser = df[1] + gb = df[0] + expected = ser.groupby(gb).first() + expected2 = ser.groupby(gb).apply(lambda x: x.iloc[0]) + tm.assert_series_equal(expected2, expected, check_names=False) + assert expected.name == 1 + assert expected2.name == 1 + + # validate first + v = ser[gb == 1].iloc[0] + assert expected.iloc[0] == v + assert expected2.iloc[0] == v + + with pytest.raises(ValueError, match="For a DataFrame"): + ser.groupby(gb, sort=False).nth(0, dropna=True) + + +def test_nth4(): + # doc example + df = DataFrame([[1, np.nan], [1, 4], [5, 6]], columns=["A", "B"]) + gb = df.groupby("A") + result = gb.B.nth(0, dropna="all") + expected = df.B.iloc[[1, 2]] + tm.assert_series_equal(result, expected) + + +def test_nth5(): + # test multiple nth values + df = DataFrame([[1, np.nan], [1, 3], [1, 4], [5, 6], [5, 7]], columns=["A", "B"]) + gb = df.groupby("A") + + tm.assert_frame_equal(gb.nth(0), df.iloc[[0, 3]]) + tm.assert_frame_equal(gb.nth([0]), df.iloc[[0, 3]]) + tm.assert_frame_equal(gb.nth([0, 1]), df.iloc[[0, 1, 3, 4]]) + tm.assert_frame_equal(gb.nth([0, -1]), df.iloc[[0, 2, 3, 4]]) + tm.assert_frame_equal(gb.nth([0, 1, 2]), df.iloc[[0, 1, 2, 3, 4]]) + tm.assert_frame_equal(gb.nth([0, 1, -1]), df.iloc[[0, 1, 2, 3, 4]]) + tm.assert_frame_equal(gb.nth([2]), df.iloc[[2]]) + tm.assert_frame_equal(gb.nth([3, 4]), df.loc[[]]) + + +def test_nth_bdays(unit): + business_dates = pd.date_range( + start="4/1/2014", end="6/30/2014", freq="B", unit=unit + ) + df = DataFrame(1, index=business_dates, columns=["a", "b"]) + # get the first, fourth and last two business days for each month + key = [df.index.year, df.index.month] + result = df.groupby(key, as_index=False).nth([0, 3, -2, -1]) + expected_dates = pd.to_datetime( + [ + "2014/4/1", + "2014/4/4", + "2014/4/29", + "2014/4/30", + "2014/5/1", + "2014/5/6", + "2014/5/29", + "2014/5/30", + "2014/6/2", + "2014/6/5", + "2014/6/27", + "2014/6/30", + ] + ).as_unit(unit) + expected = DataFrame(1, columns=["a", "b"], index=expected_dates) + tm.assert_frame_equal(result, expected) + + +def test_nth_multi_grouper(three_group): + # PR 9090, related to issue 8979 + # test nth on multiple groupers + grouped = three_group.groupby(["A", "B"]) + result = grouped.nth(0) + expected = three_group.iloc[[0, 3, 4, 7]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "data, expected_first, expected_last", + [ + ( + { + "id": ["A"], + "time": Timestamp("2012-02-01 14:00:00", tz="US/Central"), + "foo": [1], + }, + { + "id": ["A"], + "time": Timestamp("2012-02-01 14:00:00", tz="US/Central"), + "foo": [1], + }, + { + "id": ["A"], + "time": Timestamp("2012-02-01 14:00:00", tz="US/Central"), + "foo": [1], + }, + ), + ( + { + "id": ["A", "B", "A"], + "time": [ + Timestamp("2012-01-01 13:00:00", tz="America/New_York"), + Timestamp("2012-02-01 14:00:00", tz="US/Central"), + Timestamp("2012-03-01 12:00:00", tz="Europe/London"), + ], + "foo": [1, 2, 3], + }, + { + "id": ["A", "B"], + "time": [ + Timestamp("2012-01-01 13:00:00", tz="America/New_York"), + Timestamp("2012-02-01 14:00:00", tz="US/Central"), + ], + "foo": [1, 2], + }, + { + "id": ["A", "B"], + "time": [ + Timestamp("2012-03-01 12:00:00", tz="Europe/London"), + Timestamp("2012-02-01 14:00:00", tz="US/Central"), + ], + "foo": [3, 2], + }, + ), + ], +) +def test_first_last_tz(data, expected_first, expected_last): + # GH15884 + # Test that the timezone is retained when calling first + # or last on groupby with as_index=False + + df = DataFrame(data) + + result = df.groupby("id", as_index=False).first() + expected = DataFrame(expected_first) + cols = ["id", "time", "foo"] + tm.assert_frame_equal(result[cols], expected[cols]) + + result = df.groupby("id", as_index=False)["time"].first() + tm.assert_frame_equal(result, expected[["id", "time"]]) + + result = df.groupby("id", as_index=False).last() + expected = DataFrame(expected_last) + cols = ["id", "time", "foo"] + tm.assert_frame_equal(result[cols], expected[cols]) + + result = df.groupby("id", as_index=False)["time"].last() + tm.assert_frame_equal(result, expected[["id", "time"]]) + + +@pytest.mark.parametrize( + "method, ts, alpha", + [ + ["first", Timestamp("2013-01-01", tz="US/Eastern"), "a"], + ["last", Timestamp("2013-01-02", tz="US/Eastern"), "b"], + ], +) +def test_first_last_tz_multi_column(method, ts, alpha, unit): + # GH 21603 + category_string = Series(list("abc")).astype("category") + dti = pd.date_range("20130101", periods=3, tz="US/Eastern", unit=unit) + df = DataFrame( + { + "group": [1, 1, 2], + "category_string": category_string, + "datetimetz": dti, + } + ) + result = getattr(df.groupby("group"), method)() + expected = DataFrame( + { + "category_string": pd.Categorical( + [alpha, "c"], dtype=category_string.dtype + ), + "datetimetz": [ts, Timestamp("2013-01-03", tz="US/Eastern")], + }, + index=Index([1, 2], name="group"), + ) + expected["datetimetz"] = expected["datetimetz"].dt.as_unit(unit) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "values", + [ + pd.array([True, False], dtype="boolean"), + pd.array([1, 2], dtype="Int64"), + pd.to_datetime(["2020-01-01", "2020-02-01"]), + pd.to_timedelta([1, 2], unit="D"), + ], +) +@pytest.mark.parametrize("function", ["first", "last", "min", "max"]) +def test_first_last_extension_array_keeps_dtype(values, function): + # https://github.com/pandas-dev/pandas/issues/33071 + # https://github.com/pandas-dev/pandas/issues/32194 + df = DataFrame({"a": [1, 2], "b": values}) + grouped = df.groupby("a") + idx = Index([1, 2], name="a") + expected_series = Series(values, name="b", index=idx) + expected_frame = DataFrame({"b": values}, index=idx) + + result_series = getattr(grouped["b"], function)() + tm.assert_series_equal(result_series, expected_series) + + result_frame = grouped.agg({"b": function}) + tm.assert_frame_equal(result_frame, expected_frame) + + +def test_nth_multi_index_as_expected(): + # PR 9090, related to issue 8979 + # test nth on MultiIndex + three_group = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + } + ) + grouped = three_group.groupby(["A", "B"]) + result = grouped.nth(0) + expected = three_group.iloc[[0, 3, 4, 7]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "op, n, expected_rows", + [ + ("head", -1, [0]), + ("head", 0, []), + ("head", 1, [0, 2]), + ("head", 7, [0, 1, 2]), + ("tail", -1, [1]), + ("tail", 0, []), + ("tail", 1, [1, 2]), + ("tail", 7, [0, 1, 2]), + ], +) +@pytest.mark.parametrize("columns", [None, [], ["A"], ["B"], ["A", "B"]]) +@pytest.mark.parametrize("as_index", [True, False]) +def test_groupby_head_tail(op, n, expected_rows, columns, as_index): + df = DataFrame([[1, 2], [1, 4], [5, 6]], columns=["A", "B"]) + g = df.groupby("A", as_index=as_index) + expected = df.iloc[expected_rows] + if columns is not None: + g = g[columns] + expected = expected[columns] + result = getattr(g, op)(n) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "op, n, expected_cols", + [ + ("head", -1, [0]), + ("head", 0, []), + ("head", 1, [0, 2]), + ("head", 7, [0, 1, 2]), + ("tail", -1, [1]), + ("tail", 0, []), + ("tail", 1, [1, 2]), + ("tail", 7, [0, 1, 2]), + ], +) +def test_groupby_head_tail_axis_1(op, n, expected_cols): + # GH 9772 + df = DataFrame( + [[1, 2, 3], [1, 4, 5], [2, 6, 7], [3, 8, 9]], columns=["A", "B", "C"] + ) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + g = df.groupby([0, 0, 1], axis=1) + expected = df.iloc[:, expected_cols] + result = getattr(g, op)(n) + tm.assert_frame_equal(result, expected) + + +def test_group_selection_cache(): + # GH 12839 nth, head, and tail should return same result consistently + df = DataFrame([[1, 2], [1, 4], [5, 6]], columns=["A", "B"]) + expected = df.iloc[[0, 2]] + + g = df.groupby("A") + result1 = g.head(n=2) + result2 = g.nth(0) + tm.assert_frame_equal(result1, df) + tm.assert_frame_equal(result2, expected) + + g = df.groupby("A") + result1 = g.tail(n=2) + result2 = g.nth(0) + tm.assert_frame_equal(result1, df) + tm.assert_frame_equal(result2, expected) + + g = df.groupby("A") + result1 = g.nth(0) + result2 = g.head(n=2) + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, df) + + g = df.groupby("A") + result1 = g.nth(0) + result2 = g.tail(n=2) + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, df) + + +def test_nth_empty(): + # GH 16064 + df = DataFrame(index=[0], columns=["a", "b", "c"]) + result = df.groupby("a").nth(10) + expected = df.iloc[:0] + tm.assert_frame_equal(result, expected) + + result = df.groupby(["a", "b"]).nth(10) + expected = df.iloc[:0] + tm.assert_frame_equal(result, expected) + + +def test_nth_column_order(): + # GH 20760 + # Check that nth preserves column order + df = DataFrame( + [[1, "b", 100], [1, "a", 50], [1, "a", np.nan], [2, "c", 200], [2, "d", 150]], + columns=["A", "C", "B"], + ) + result = df.groupby("A").nth(0) + expected = df.iloc[[0, 3]] + tm.assert_frame_equal(result, expected) + + result = df.groupby("A").nth(-1, dropna="any") + expected = df.iloc[[1, 4]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dropna", [None, "any", "all"]) +def test_nth_nan_in_grouper(dropna): + # GH 26011 + df = DataFrame( + { + "a": [np.nan, "a", np.nan, "b", np.nan], + "b": [0, 2, 4, 6, 8], + "c": [1, 3, 5, 7, 9], + } + ) + result = df.groupby("a").nth(0, dropna=dropna) + expected = df.iloc[[1, 3]] + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dropna", [None, "any", "all"]) +def test_nth_nan_in_grouper_series(dropna): + # GH 26454 + df = DataFrame( + { + "a": [np.nan, "a", np.nan, "b", np.nan], + "b": [0, 2, 4, 6, 8], + } + ) + result = df.groupby("a")["b"].nth(0, dropna=dropna) + expected = df["b"].iloc[[1, 3]] + + tm.assert_series_equal(result, expected) + + +def test_first_categorical_and_datetime_data_nat(): + # GH 20520 + df = DataFrame( + { + "group": ["first", "first", "second", "third", "third"], + "time": 5 * [np.datetime64("NaT")], + "categories": Series(["a", "b", "c", "a", "b"], dtype="category"), + } + ) + result = df.groupby("group").first() + expected = DataFrame( + { + "time": 3 * [np.datetime64("NaT")], + "categories": Series(["a", "c", "a"]).astype( + pd.CategoricalDtype(["a", "b", "c"]) + ), + } + ) + expected.index = Index(["first", "second", "third"], name="group") + tm.assert_frame_equal(result, expected) + + +def test_first_multi_key_groupby_categorical(): + # GH 22512 + df = DataFrame( + { + "A": [1, 1, 1, 2, 2], + "B": [100, 100, 200, 100, 100], + "C": ["apple", "orange", "mango", "mango", "orange"], + "D": ["jupiter", "mercury", "mars", "venus", "venus"], + } + ) + df = df.astype({"D": "category"}) + result = df.groupby(by=["A", "B"]).first() + expected = DataFrame( + { + "C": ["apple", "mango", "mango"], + "D": Series(["jupiter", "mars", "venus"]).astype( + pd.CategoricalDtype(["jupiter", "mars", "mercury", "venus"]) + ), + } + ) + expected.index = MultiIndex.from_tuples( + [(1, 100), (1, 200), (2, 100)], names=["A", "B"] + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("method", ["first", "last", "nth"]) +def test_groupby_last_first_nth_with_none(method, nulls_fixture): + # GH29645 + expected = Series(["y"], dtype=object) + data = Series( + [nulls_fixture, nulls_fixture, nulls_fixture, "y", nulls_fixture], + index=[0, 0, 0, 0, 0], + dtype=object, + ).groupby(level=0) + + if method == "nth": + result = getattr(data, method)(3) + else: + result = getattr(data, method)() + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "arg, expected_rows", + [ + [slice(None, 3, 2), [0, 1, 4, 5]], + [slice(None, -2), [0, 2, 5]], + [[slice(None, 2), slice(-2, None)], [0, 1, 2, 3, 4, 6, 7]], + [[0, 1, slice(-2, None)], [0, 1, 2, 3, 4, 6, 7]], + ], +) +def test_slice(slice_test_df, slice_test_grouped, arg, expected_rows): + # Test slices GH #42947 + + result = slice_test_grouped.nth[arg] + equivalent = slice_test_grouped.nth(arg) + expected = slice_test_df.iloc[expected_rows] + + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(equivalent, expected) + + +def test_nth_indexed(slice_test_df, slice_test_grouped): + # Test index notation GH #44688 + + result = slice_test_grouped.nth[0, 1, -2:] + equivalent = slice_test_grouped.nth([0, 1, slice(-2, None)]) + expected = slice_test_df.iloc[[0, 1, 2, 3, 4, 6, 7]] + + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(equivalent, expected) + + +def test_invalid_argument(slice_test_grouped): + # Test for error on invalid argument + + with pytest.raises(TypeError, match="Invalid index"): + slice_test_grouped.nth(3.14) + + +def test_negative_step(slice_test_grouped): + # Test for error on negative slice step + + with pytest.raises(ValueError, match="Invalid step"): + slice_test_grouped.nth(slice(None, None, -1)) + + +def test_np_ints(slice_test_df, slice_test_grouped): + # Test np ints work + + result = slice_test_grouped.nth(np.array([0, 1])) + expected = slice_test_df.iloc[[0, 1, 2, 3, 4]] + tm.assert_frame_equal(result, expected) + + +def test_groupby_nth_with_column_axis(): + # GH43926 + df = DataFrame( + [ + [4, 5, 6], + [8, 8, 7], + ], + index=["z", "y"], + columns=["C", "B", "A"], + ) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(df.iloc[1], axis=1) + result = gb.nth(0) + expected = df.iloc[:, [0, 2]] + tm.assert_frame_equal(result, expected) + + +def test_groupby_nth_interval(): + # GH#24205 + idx_result = MultiIndex( + [ + pd.CategoricalIndex([pd.Interval(0, 1), pd.Interval(1, 2)]), + pd.CategoricalIndex([pd.Interval(0, 10), pd.Interval(10, 20)]), + ], + [[0, 0, 0, 1, 1], [0, 1, 1, 0, -1]], + ) + df_result = DataFrame({"col": range(len(idx_result))}, index=idx_result) + result = df_result.groupby(level=[0, 1], observed=False).nth(0) + val_expected = [0, 1, 3] + idx_expected = MultiIndex( + [ + pd.CategoricalIndex([pd.Interval(0, 1), pd.Interval(1, 2)]), + pd.CategoricalIndex([pd.Interval(0, 10), pd.Interval(10, 20)]), + ], + [[0, 0, 1], [0, 1, 0]], + ) + expected = DataFrame(val_expected, index=idx_expected, columns=["col"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "start, stop, expected_values, expected_columns", + [ + (None, None, [0, 1, 2, 3, 4], list("ABCDE")), + (None, 1, [0, 3], list("AD")), + (None, 9, [0, 1, 2, 3, 4], list("ABCDE")), + (None, -1, [0, 1, 3], list("ABD")), + (1, None, [1, 2, 4], list("BCE")), + (1, -1, [1], list("B")), + (-1, None, [2, 4], list("CE")), + (-1, 2, [4], list("E")), + ], +) +@pytest.mark.parametrize("method", ["call", "index"]) +def test_nth_slices_with_column_axis( + start, stop, expected_values, expected_columns, method +): + df = DataFrame([range(5)], columns=[list("ABCDE")]) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby([5, 5, 5, 6, 6], axis=1) + result = { + "call": lambda start, stop: gb.nth(slice(start, stop)), + "index": lambda start, stop: gb.nth[start:stop], + }[method](start, stop) + expected = DataFrame([expected_values], columns=[expected_columns]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings( + "ignore:invalid value encountered in remainder:RuntimeWarning" +) +def test_head_tail_dropna_true(): + # GH#45089 + df = DataFrame( + [["a", "z"], ["b", np.nan], ["c", np.nan], ["c", np.nan]], columns=["X", "Y"] + ) + expected = DataFrame([["a", "z"]], columns=["X", "Y"]) + + result = df.groupby(["X", "Y"]).head(n=1) + tm.assert_frame_equal(result, expected) + + result = df.groupby(["X", "Y"]).tail(n=1) + tm.assert_frame_equal(result, expected) + + result = df.groupby(["X", "Y"]).nth(n=0) + tm.assert_frame_equal(result, expected) + + +def test_head_tail_dropna_false(): + # GH#45089 + df = DataFrame([["a", "z"], ["b", np.nan], ["c", np.nan]], columns=["X", "Y"]) + expected = DataFrame([["a", "z"], ["b", np.nan], ["c", np.nan]], columns=["X", "Y"]) + + result = df.groupby(["X", "Y"], dropna=False).head(n=1) + tm.assert_frame_equal(result, expected) + + result = df.groupby(["X", "Y"], dropna=False).tail(n=1) + tm.assert_frame_equal(result, expected) + + result = df.groupby(["X", "Y"], dropna=False).nth(n=0) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("selection", ("b", ["b"], ["b", "c"])) +@pytest.mark.parametrize("dropna", ["any", "all", None]) +def test_nth_after_selection(selection, dropna): + # GH#11038, GH#53518 + df = DataFrame( + { + "a": [1, 1, 2], + "b": [np.nan, 3, 4], + "c": [5, 6, 7], + } + ) + gb = df.groupby("a")[selection] + result = gb.nth(0, dropna=dropna) + if dropna == "any" or (dropna == "all" and selection != ["b", "c"]): + locs = [1, 2] + else: + locs = [0, 2] + expected = df.loc[locs, selection] + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "data", + [ + ( + Timestamp("2011-01-15 12:50:28.502376"), + Timestamp("2011-01-20 12:50:28.593448"), + ), + (24650000000000001, 24650000000000002), + ], +) +def test_groupby_nth_int_like_precision(data): + # GH#6620, GH#9311 + df = DataFrame({"a": [1, 1], "b": data}) + + grouped = df.groupby("a") + result = grouped.nth(0) + expected = DataFrame({"a": 1, "b": [data[0]]}) + + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_quantile.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_quantile.py new file mode 100644 index 0000000000000000000000000000000000000000..3943590b069ad9a8e32bfd36ee849bb036c7865f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_quantile.py @@ -0,0 +1,496 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, +) +import pandas._testing as tm + + +@pytest.mark.parametrize( + "interpolation", ["linear", "lower", "higher", "nearest", "midpoint"] +) +@pytest.mark.parametrize( + "a_vals,b_vals", + [ + # Ints + ([1, 2, 3, 4, 5], [5, 4, 3, 2, 1]), + ([1, 2, 3, 4], [4, 3, 2, 1]), + ([1, 2, 3, 4, 5], [4, 3, 2, 1]), + # Floats + ([1.0, 2.0, 3.0, 4.0, 5.0], [5.0, 4.0, 3.0, 2.0, 1.0]), + # Missing data + ([1.0, np.nan, 3.0, np.nan, 5.0], [5.0, np.nan, 3.0, np.nan, 1.0]), + ([np.nan, 4.0, np.nan, 2.0, np.nan], [np.nan, 4.0, np.nan, 2.0, np.nan]), + # Timestamps + ( + pd.date_range("1/1/18", freq="D", periods=5), + pd.date_range("1/1/18", freq="D", periods=5)[::-1], + ), + ( + pd.date_range("1/1/18", freq="D", periods=5).as_unit("s"), + pd.date_range("1/1/18", freq="D", periods=5)[::-1].as_unit("s"), + ), + # All NA + ([np.nan] * 5, [np.nan] * 5), + ], +) +@pytest.mark.parametrize("q", [0, 0.25, 0.5, 0.75, 1]) +def test_quantile(interpolation, a_vals, b_vals, q, request): + if ( + interpolation == "nearest" + and q == 0.5 + and isinstance(b_vals, list) + and b_vals == [4, 3, 2, 1] + ): + request.applymarker( + pytest.mark.xfail( + reason="Unclear numpy expectation for nearest " + "result with equidistant data" + ) + ) + all_vals = pd.concat([pd.Series(a_vals), pd.Series(b_vals)]) + + a_expected = pd.Series(a_vals).quantile(q, interpolation=interpolation) + b_expected = pd.Series(b_vals).quantile(q, interpolation=interpolation) + + df = DataFrame({"key": ["a"] * len(a_vals) + ["b"] * len(b_vals), "val": all_vals}) + + expected = DataFrame( + [a_expected, b_expected], columns=["val"], index=Index(["a", "b"], name="key") + ) + if all_vals.dtype.kind == "M" and expected.dtypes.values[0].kind == "M": + # TODO(non-nano): this should be unnecessary once array_to_datetime + # correctly infers non-nano from Timestamp.unit + expected = expected.astype(all_vals.dtype) + result = df.groupby("key").quantile(q, interpolation=interpolation) + + tm.assert_frame_equal(result, expected) + + +def test_quantile_array(): + # https://github.com/pandas-dev/pandas/issues/27526 + df = DataFrame({"A": [0, 1, 2, 3, 4]}) + key = np.array([0, 0, 1, 1, 1], dtype=np.int64) + result = df.groupby(key).quantile([0.25]) + + index = pd.MultiIndex.from_product([[0, 1], [0.25]]) + expected = DataFrame({"A": [0.25, 2.50]}, index=index) + tm.assert_frame_equal(result, expected) + + df = DataFrame({"A": [0, 1, 2, 3], "B": [4, 5, 6, 7]}) + index = pd.MultiIndex.from_product([[0, 1], [0.25, 0.75]]) + + key = np.array([0, 0, 1, 1], dtype=np.int64) + result = df.groupby(key).quantile([0.25, 0.75]) + expected = DataFrame( + {"A": [0.25, 0.75, 2.25, 2.75], "B": [4.25, 4.75, 6.25, 6.75]}, index=index + ) + tm.assert_frame_equal(result, expected) + + +def test_quantile_array2(): + # https://github.com/pandas-dev/pandas/pull/28085#issuecomment-524066959 + arr = np.random.default_rng(2).integers(0, 5, size=(10, 3), dtype=np.int64) + df = DataFrame(arr, columns=list("ABC")) + result = df.groupby("A").quantile([0.3, 0.7]) + expected = DataFrame( + { + "B": [2.0, 2.0, 2.3, 2.7, 0.3, 0.7, 3.2, 4.0, 0.3, 0.7], + "C": [1.0, 1.0, 1.9, 3.0999999999999996, 0.3, 0.7, 2.6, 3.0, 1.2, 2.8], + }, + index=pd.MultiIndex.from_product( + [[0, 1, 2, 3, 4], [0.3, 0.7]], names=["A", None] + ), + ) + tm.assert_frame_equal(result, expected) + + +def test_quantile_array_no_sort(): + df = DataFrame({"A": [0, 1, 2], "B": [3, 4, 5]}) + key = np.array([1, 0, 1], dtype=np.int64) + result = df.groupby(key, sort=False).quantile([0.25, 0.5, 0.75]) + expected = DataFrame( + {"A": [0.5, 1.0, 1.5, 1.0, 1.0, 1.0], "B": [3.5, 4.0, 4.5, 4.0, 4.0, 4.0]}, + index=pd.MultiIndex.from_product([[1, 0], [0.25, 0.5, 0.75]]), + ) + tm.assert_frame_equal(result, expected) + + result = df.groupby(key, sort=False).quantile([0.75, 0.25]) + expected = DataFrame( + {"A": [1.5, 0.5, 1.0, 1.0], "B": [4.5, 3.5, 4.0, 4.0]}, + index=pd.MultiIndex.from_product([[1, 0], [0.75, 0.25]]), + ) + tm.assert_frame_equal(result, expected) + + +def test_quantile_array_multiple_levels(): + df = DataFrame( + {"A": [0, 1, 2], "B": [3, 4, 5], "c": ["a", "a", "a"], "d": ["a", "a", "b"]} + ) + result = df.groupby(["c", "d"]).quantile([0.25, 0.75]) + index = pd.MultiIndex.from_tuples( + [("a", "a", 0.25), ("a", "a", 0.75), ("a", "b", 0.25), ("a", "b", 0.75)], + names=["c", "d", None], + ) + expected = DataFrame( + {"A": [0.25, 0.75, 2.0, 2.0], "B": [3.25, 3.75, 5.0, 5.0]}, index=index + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("frame_size", [(2, 3), (100, 10)]) +@pytest.mark.parametrize("groupby", [[0], [0, 1]]) +@pytest.mark.parametrize("q", [[0.5, 0.6]]) +def test_groupby_quantile_with_arraylike_q_and_int_columns(frame_size, groupby, q): + # GH30289 + nrow, ncol = frame_size + df = DataFrame(np.array([ncol * [_ % 4] for _ in range(nrow)]), columns=range(ncol)) + + idx_levels = [np.arange(min(nrow, 4))] * len(groupby) + [q] + idx_codes = [[x for x in range(min(nrow, 4)) for _ in q]] * len(groupby) + [ + list(range(len(q))) * min(nrow, 4) + ] + expected_index = pd.MultiIndex( + levels=idx_levels, codes=idx_codes, names=groupby + [None] + ) + expected_values = [ + [float(x)] * (ncol - len(groupby)) for x in range(min(nrow, 4)) for _ in q + ] + expected_columns = [x for x in range(ncol) if x not in groupby] + expected = DataFrame( + expected_values, index=expected_index, columns=expected_columns + ) + result = df.groupby(groupby).quantile(q) + + tm.assert_frame_equal(result, expected) + + +def test_quantile_raises(): + df = DataFrame([["foo", "a"], ["foo", "b"], ["foo", "c"]], columns=["key", "val"]) + + msg = "dtype '(object|str)' does not support operation 'quantile'" + with pytest.raises(TypeError, match=msg): + df.groupby("key").quantile() + + +def test_quantile_out_of_bounds_q_raises(): + # https://github.com/pandas-dev/pandas/issues/27470 + df = DataFrame({"a": [0, 0, 0, 1, 1, 1], "b": range(6)}) + g = df.groupby([0, 0, 0, 1, 1, 1]) + with pytest.raises(ValueError, match="Got '50.0' instead"): + g.quantile(50) + + with pytest.raises(ValueError, match="Got '-1.0' instead"): + g.quantile(-1) + + +def test_quantile_missing_group_values_no_segfaults(): + # GH 28662 + data = np.array([1.0, np.nan, 1.0]) + df = DataFrame({"key": data, "val": range(3)}) + + # Random segfaults; would have been guaranteed in loop + grp = df.groupby("key") + for _ in range(100): + grp.quantile() + + +@pytest.mark.parametrize( + "key, val, expected_key, expected_val", + [ + ([1.0, np.nan, 3.0, np.nan], range(4), [1.0, 3.0], [0.0, 2.0]), + ([1.0, np.nan, 2.0, 2.0], range(4), [1.0, 2.0], [0.0, 2.5]), + (["a", "b", "b", np.nan], range(4), ["a", "b"], [0, 1.5]), + ([0], [42], [0], [42.0]), + ([], [], np.array([], dtype="float64"), np.array([], dtype="float64")), + ], +) +def test_quantile_missing_group_values_correct_results( + key, val, expected_key, expected_val +): + # GH 28662, GH 33200, GH 33569 + df = DataFrame({"key": key, "val": val}) + + expected = DataFrame( + expected_val, index=Index(expected_key, name="key"), columns=["val"] + ) + + grp = df.groupby("key") + + result = grp.quantile(0.5) + tm.assert_frame_equal(result, expected) + + result = grp.quantile() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "values", + [ + pd.array([1, 0, None] * 2, dtype="Int64"), + pd.array([True, False, None] * 2, dtype="boolean"), + ], +) +@pytest.mark.parametrize("q", [0.5, [0.0, 0.5, 1.0]]) +def test_groupby_quantile_nullable_array(values, q): + # https://github.com/pandas-dev/pandas/issues/33136 + df = DataFrame({"a": ["x"] * 3 + ["y"] * 3, "b": values}) + result = df.groupby("a")["b"].quantile(q) + + if isinstance(q, list): + idx = pd.MultiIndex.from_product((["x", "y"], q), names=["a", None]) + true_quantiles = [0.0, 0.5, 1.0] + else: + idx = Index(["x", "y"], name="a") + true_quantiles = [0.5] + + expected = pd.Series(true_quantiles * 2, index=idx, name="b", dtype="Float64") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("q", [0.5, [0.0, 0.5, 1.0]]) +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_groupby_quantile_raises_on_invalid_dtype(q, numeric_only): + df = DataFrame({"a": [1], "b": [2.0], "c": ["x"]}) + if numeric_only: + result = df.groupby("a").quantile(q, numeric_only=numeric_only) + expected = df.groupby("a")[["b"]].quantile(q) + tm.assert_frame_equal(result, expected) + else: + msg = "dtype '.*' does not support operation 'quantile'" + with pytest.raises(TypeError, match=msg): + df.groupby("a").quantile(q, numeric_only=numeric_only) + + +def test_groupby_quantile_NA_float(any_float_dtype): + # GH#42849 + df = DataFrame({"x": [1, 1], "y": [0.2, np.nan]}, dtype=any_float_dtype) + result = df.groupby("x")["y"].quantile(0.5) + exp_index = Index([1.0], dtype=any_float_dtype, name="x") + + if any_float_dtype in ["Float32", "Float64"]: + expected_dtype = any_float_dtype + else: + expected_dtype = None + + expected = pd.Series([0.2], dtype=expected_dtype, index=exp_index, name="y") + tm.assert_series_equal(result, expected) + + result = df.groupby("x")["y"].quantile([0.5, 0.75]) + expected = pd.Series( + [0.2] * 2, + index=pd.MultiIndex.from_product((exp_index, [0.5, 0.75]), names=["x", None]), + name="y", + dtype=expected_dtype, + ) + tm.assert_series_equal(result, expected) + + +def test_groupby_quantile_NA_int(any_int_ea_dtype): + # GH#42849 + df = DataFrame({"x": [1, 1], "y": [2, 5]}, dtype=any_int_ea_dtype) + result = df.groupby("x")["y"].quantile(0.5) + expected = pd.Series( + [3.5], + dtype="Float64", + index=Index([1], name="x", dtype=any_int_ea_dtype), + name="y", + ) + tm.assert_series_equal(expected, result) + + result = df.groupby("x").quantile(0.5) + expected = DataFrame( + {"y": 3.5}, dtype="Float64", index=Index([1], name="x", dtype=any_int_ea_dtype) + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "interpolation, val1, val2", [("lower", 2, 2), ("higher", 2, 3), ("nearest", 2, 2)] +) +def test_groupby_quantile_all_na_group_masked( + interpolation, val1, val2, any_numeric_ea_dtype +): + # GH#37493 + df = DataFrame( + {"a": [1, 1, 1, 2], "b": [1, 2, 3, pd.NA]}, dtype=any_numeric_ea_dtype + ) + result = df.groupby("a").quantile(q=[0.5, 0.7], interpolation=interpolation) + expected = DataFrame( + {"b": [val1, val2, pd.NA, pd.NA]}, + dtype=any_numeric_ea_dtype, + index=pd.MultiIndex.from_arrays( + [pd.Series([1, 1, 2, 2], dtype=any_numeric_ea_dtype), [0.5, 0.7, 0.5, 0.7]], + names=["a", None], + ), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("interpolation", ["midpoint", "linear"]) +def test_groupby_quantile_all_na_group_masked_interp( + interpolation, any_numeric_ea_dtype +): + # GH#37493 + df = DataFrame( + {"a": [1, 1, 1, 2], "b": [1, 2, 3, pd.NA]}, dtype=any_numeric_ea_dtype + ) + result = df.groupby("a").quantile(q=[0.5, 0.75], interpolation=interpolation) + + if any_numeric_ea_dtype == "Float32": + expected_dtype = any_numeric_ea_dtype + else: + expected_dtype = "Float64" + + expected = DataFrame( + {"b": [2.0, 2.5, pd.NA, pd.NA]}, + dtype=expected_dtype, + index=pd.MultiIndex.from_arrays( + [ + pd.Series([1, 1, 2, 2], dtype=any_numeric_ea_dtype), + [0.5, 0.75, 0.5, 0.75], + ], + names=["a", None], + ), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["Float64", "Float32"]) +def test_groupby_quantile_allNA_column(dtype): + # GH#42849 + df = DataFrame({"x": [1, 1], "y": [pd.NA] * 2}, dtype=dtype) + result = df.groupby("x")["y"].quantile(0.5) + expected = pd.Series( + [np.nan], dtype=dtype, index=Index([1.0], dtype=dtype), name="y" + ) + expected.index.name = "x" + tm.assert_series_equal(expected, result) + + +def test_groupby_timedelta_quantile(): + # GH: 29485 + df = DataFrame( + {"value": pd.to_timedelta(np.arange(4), unit="s"), "group": [1, 1, 2, 2]} + ) + result = df.groupby("group").quantile(0.99) + expected = DataFrame( + { + "value": [ + pd.Timedelta("0 days 00:00:00.990000"), + pd.Timedelta("0 days 00:00:02.990000"), + ] + }, + index=Index([1, 2], name="group"), + ) + tm.assert_frame_equal(result, expected) + + +def test_columns_groupby_quantile(): + # GH 33795 + df = DataFrame( + np.arange(12).reshape(3, -1), + index=list("XYZ"), + columns=pd.Series(list("ABAB"), name="col"), + ) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby("col", axis=1) + result = gb.quantile(q=[0.8, 0.2]) + expected = DataFrame( + [ + [1.6, 0.4, 2.6, 1.4], + [5.6, 4.4, 6.6, 5.4], + [9.6, 8.4, 10.6, 9.4], + ], + index=list("XYZ"), + columns=pd.MultiIndex.from_tuples( + [("A", 0.8), ("A", 0.2), ("B", 0.8), ("B", 0.2)], names=["col", None] + ), + ) + + tm.assert_frame_equal(result, expected) + + +def test_timestamp_groupby_quantile(unit): + # GH 33168 + dti = pd.date_range( + start="2020-04-19 00:00:00", freq="1min", periods=100, tz="UTC", unit=unit + ).floor("1h") + df = DataFrame( + { + "timestamp": dti, + "category": list(range(1, 101)), + "value": list(range(101, 201)), + } + ) + + result = df.groupby("timestamp").quantile([0.2, 0.8]) + + mi = pd.MultiIndex.from_product([dti[::99], [0.2, 0.8]], names=("timestamp", None)) + expected = DataFrame( + [ + {"category": 12.8, "value": 112.8}, + {"category": 48.2, "value": 148.2}, + {"category": 68.8, "value": 168.8}, + {"category": 92.2, "value": 192.2}, + ], + index=mi, + ) + + tm.assert_frame_equal(result, expected) + + +def test_groupby_quantile_dt64tz_period(): + # GH#51373 + dti = pd.date_range("2016-01-01", periods=1000) + df = pd.Series(dti).to_frame().copy() + df[1] = dti.tz_localize("US/Pacific") + df[2] = dti.to_period("D") + df[3] = dti - dti[0] + df.iloc[-1] = pd.NaT + + by = np.tile(np.arange(5), 200) + gb = df.groupby(by) + + result = gb.quantile(0.5) + + # Check that we match the group-by-group result + exp = {i: df.iloc[i::5].quantile(0.5) for i in range(5)} + expected = DataFrame(exp).T.infer_objects() + expected.index = expected.index.astype(int) + + tm.assert_frame_equal(result, expected) + + +def test_groupby_quantile_nonmulti_levels_order(): + # Non-regression test for GH #53009 + ind = pd.MultiIndex.from_tuples( + [ + (0, "a", "B"), + (0, "a", "A"), + (0, "b", "B"), + (0, "b", "A"), + (1, "a", "B"), + (1, "a", "A"), + (1, "b", "B"), + (1, "b", "A"), + ], + names=["sample", "cat0", "cat1"], + ) + ser = pd.Series(range(8), index=ind) + result = ser.groupby(level="cat1", sort=False).quantile([0.2, 0.8]) + + qind = pd.MultiIndex.from_tuples( + [("B", 0.2), ("B", 0.8), ("A", 0.2), ("A", 0.8)], names=["cat1", None] + ) + expected = pd.Series([1.2, 4.8, 2.2, 5.8], index=qind) + + tm.assert_series_equal(result, expected) + + # We need to check that index levels are not sorted + expected_levels = pd.core.indexes.frozen.FrozenList([["B", "A"], [0.2, 0.8]]) + tm.assert_equal(result.index.levels, expected_levels) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_rank.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_rank.py new file mode 100644 index 0000000000000000000000000000000000000000..a3b7da3fa836c955d8d0e4e17754d7834e5c05f1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_rank.py @@ -0,0 +1,721 @@ +from datetime import datetime + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + NaT, + Series, + concat, +) +import pandas._testing as tm + + +def test_rank_unordered_categorical_typeerror(): + # GH#51034 should be TypeError, not NotImplementedError + cat = pd.Categorical([], ordered=False) + ser = Series(cat) + df = ser.to_frame() + + msg = "Cannot perform rank with non-ordered Categorical" + + gb = ser.groupby(cat, observed=False) + with pytest.raises(TypeError, match=msg): + gb.rank() + + gb2 = df.groupby(cat, observed=False) + with pytest.raises(TypeError, match=msg): + gb2.rank() + + +def test_rank_apply(): + lev1 = np.array(["a" * 10] * 100, dtype=object) + lev2 = np.array(["b" * 10] * 130, dtype=object) + lab1 = np.random.default_rng(2).integers(0, 100, size=500, dtype=int) + lab2 = np.random.default_rng(2).integers(0, 130, size=500, dtype=int) + + df = DataFrame( + { + "value": np.random.default_rng(2).standard_normal(500), + "key1": lev1.take(lab1), + "key2": lev2.take(lab2), + } + ) + + result = df.groupby(["key1", "key2"]).value.rank() + + expected = [piece.value.rank() for key, piece in df.groupby(["key1", "key2"])] + expected = concat(expected, axis=0) + expected = expected.reindex(result.index) + tm.assert_series_equal(result, expected) + + result = df.groupby(["key1", "key2"]).value.rank(pct=True) + + expected = [ + piece.value.rank(pct=True) for key, piece in df.groupby(["key1", "key2"]) + ] + expected = concat(expected, axis=0) + expected = expected.reindex(result.index) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("grps", [["qux"], ["qux", "quux"]]) +@pytest.mark.parametrize( + "vals", + [ + np.array([2, 2, 8, 2, 6], dtype=dtype) + for dtype in ["i8", "i4", "i2", "i1", "u8", "u4", "u2", "u1", "f8", "f4", "f2"] + ] + + [ + [ + pd.Timestamp("2018-01-02"), + pd.Timestamp("2018-01-02"), + pd.Timestamp("2018-01-08"), + pd.Timestamp("2018-01-02"), + pd.Timestamp("2018-01-06"), + ], + [ + pd.Timestamp("2018-01-02", tz="US/Pacific"), + pd.Timestamp("2018-01-02", tz="US/Pacific"), + pd.Timestamp("2018-01-08", tz="US/Pacific"), + pd.Timestamp("2018-01-02", tz="US/Pacific"), + pd.Timestamp("2018-01-06", tz="US/Pacific"), + ], + [ + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + pd.Timestamp("2018-01-08") - pd.Timestamp(0), + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + pd.Timestamp("2018-01-06") - pd.Timestamp(0), + ], + [ + pd.Timestamp("2018-01-02").to_period("D"), + pd.Timestamp("2018-01-02").to_period("D"), + pd.Timestamp("2018-01-08").to_period("D"), + pd.Timestamp("2018-01-02").to_period("D"), + pd.Timestamp("2018-01-06").to_period("D"), + ], + ], + ids=lambda x: type(x[0]), +) +@pytest.mark.parametrize( + "ties_method,ascending,pct,exp", + [ + ("average", True, False, [2.0, 2.0, 5.0, 2.0, 4.0]), + ("average", True, True, [0.4, 0.4, 1.0, 0.4, 0.8]), + ("average", False, False, [4.0, 4.0, 1.0, 4.0, 2.0]), + ("average", False, True, [0.8, 0.8, 0.2, 0.8, 0.4]), + ("min", True, False, [1.0, 1.0, 5.0, 1.0, 4.0]), + ("min", True, True, [0.2, 0.2, 1.0, 0.2, 0.8]), + ("min", False, False, [3.0, 3.0, 1.0, 3.0, 2.0]), + ("min", False, True, [0.6, 0.6, 0.2, 0.6, 0.4]), + ("max", True, False, [3.0, 3.0, 5.0, 3.0, 4.0]), + ("max", True, True, [0.6, 0.6, 1.0, 0.6, 0.8]), + ("max", False, False, [5.0, 5.0, 1.0, 5.0, 2.0]), + ("max", False, True, [1.0, 1.0, 0.2, 1.0, 0.4]), + ("first", True, False, [1.0, 2.0, 5.0, 3.0, 4.0]), + ("first", True, True, [0.2, 0.4, 1.0, 0.6, 0.8]), + ("first", False, False, [3.0, 4.0, 1.0, 5.0, 2.0]), + ("first", False, True, [0.6, 0.8, 0.2, 1.0, 0.4]), + ("dense", True, False, [1.0, 1.0, 3.0, 1.0, 2.0]), + ("dense", True, True, [1.0 / 3.0, 1.0 / 3.0, 3.0 / 3.0, 1.0 / 3.0, 2.0 / 3.0]), + ("dense", False, False, [3.0, 3.0, 1.0, 3.0, 2.0]), + ("dense", False, True, [3.0 / 3.0, 3.0 / 3.0, 1.0 / 3.0, 3.0 / 3.0, 2.0 / 3.0]), + ], +) +def test_rank_args(grps, vals, ties_method, ascending, pct, exp): + key = np.repeat(grps, len(vals)) + + orig_vals = vals + vals = list(vals) * len(grps) + if isinstance(orig_vals, np.ndarray): + vals = np.array(vals, dtype=orig_vals.dtype) + + df = DataFrame({"key": key, "val": vals}) + result = df.groupby("key").rank(method=ties_method, ascending=ascending, pct=pct) + + exp_df = DataFrame(exp * len(grps), columns=["val"]) + tm.assert_frame_equal(result, exp_df) + + +@pytest.mark.parametrize("grps", [["qux"], ["qux", "quux"]]) +@pytest.mark.parametrize( + "vals", [[-np.inf, -np.inf, np.nan, 1.0, np.nan, np.inf, np.inf]] +) +@pytest.mark.parametrize( + "ties_method,ascending,na_option,exp", + [ + ("average", True, "keep", [1.5, 1.5, np.nan, 3, np.nan, 4.5, 4.5]), + ("average", True, "top", [3.5, 3.5, 1.5, 5.0, 1.5, 6.5, 6.5]), + ("average", True, "bottom", [1.5, 1.5, 6.5, 3.0, 6.5, 4.5, 4.5]), + ("average", False, "keep", [4.5, 4.5, np.nan, 3, np.nan, 1.5, 1.5]), + ("average", False, "top", [6.5, 6.5, 1.5, 5.0, 1.5, 3.5, 3.5]), + ("average", False, "bottom", [4.5, 4.5, 6.5, 3.0, 6.5, 1.5, 1.5]), + ("min", True, "keep", [1.0, 1.0, np.nan, 3.0, np.nan, 4.0, 4.0]), + ("min", True, "top", [3.0, 3.0, 1.0, 5.0, 1.0, 6.0, 6.0]), + ("min", True, "bottom", [1.0, 1.0, 6.0, 3.0, 6.0, 4.0, 4.0]), + ("min", False, "keep", [4.0, 4.0, np.nan, 3.0, np.nan, 1.0, 1.0]), + ("min", False, "top", [6.0, 6.0, 1.0, 5.0, 1.0, 3.0, 3.0]), + ("min", False, "bottom", [4.0, 4.0, 6.0, 3.0, 6.0, 1.0, 1.0]), + ("max", True, "keep", [2.0, 2.0, np.nan, 3.0, np.nan, 5.0, 5.0]), + ("max", True, "top", [4.0, 4.0, 2.0, 5.0, 2.0, 7.0, 7.0]), + ("max", True, "bottom", [2.0, 2.0, 7.0, 3.0, 7.0, 5.0, 5.0]), + ("max", False, "keep", [5.0, 5.0, np.nan, 3.0, np.nan, 2.0, 2.0]), + ("max", False, "top", [7.0, 7.0, 2.0, 5.0, 2.0, 4.0, 4.0]), + ("max", False, "bottom", [5.0, 5.0, 7.0, 3.0, 7.0, 2.0, 2.0]), + ("first", True, "keep", [1.0, 2.0, np.nan, 3.0, np.nan, 4.0, 5.0]), + ("first", True, "top", [3.0, 4.0, 1.0, 5.0, 2.0, 6.0, 7.0]), + ("first", True, "bottom", [1.0, 2.0, 6.0, 3.0, 7.0, 4.0, 5.0]), + ("first", False, "keep", [4.0, 5.0, np.nan, 3.0, np.nan, 1.0, 2.0]), + ("first", False, "top", [6.0, 7.0, 1.0, 5.0, 2.0, 3.0, 4.0]), + ("first", False, "bottom", [4.0, 5.0, 6.0, 3.0, 7.0, 1.0, 2.0]), + ("dense", True, "keep", [1.0, 1.0, np.nan, 2.0, np.nan, 3.0, 3.0]), + ("dense", True, "top", [2.0, 2.0, 1.0, 3.0, 1.0, 4.0, 4.0]), + ("dense", True, "bottom", [1.0, 1.0, 4.0, 2.0, 4.0, 3.0, 3.0]), + ("dense", False, "keep", [3.0, 3.0, np.nan, 2.0, np.nan, 1.0, 1.0]), + ("dense", False, "top", [4.0, 4.0, 1.0, 3.0, 1.0, 2.0, 2.0]), + ("dense", False, "bottom", [3.0, 3.0, 4.0, 2.0, 4.0, 1.0, 1.0]), + ], +) +def test_infs_n_nans(grps, vals, ties_method, ascending, na_option, exp): + # GH 20561 + key = np.repeat(grps, len(vals)) + vals = vals * len(grps) + df = DataFrame({"key": key, "val": vals}) + result = df.groupby("key").rank( + method=ties_method, ascending=ascending, na_option=na_option + ) + exp_df = DataFrame(exp * len(grps), columns=["val"]) + tm.assert_frame_equal(result, exp_df) + + +@pytest.mark.parametrize("grps", [["qux"], ["qux", "quux"]]) +@pytest.mark.parametrize( + "vals", + [ + np.array([2, 2, np.nan, 8, 2, 6, np.nan, np.nan], dtype=dtype) + for dtype in ["f8", "f4", "f2"] + ] + + [ + [ + pd.Timestamp("2018-01-02"), + pd.Timestamp("2018-01-02"), + np.nan, + pd.Timestamp("2018-01-08"), + pd.Timestamp("2018-01-02"), + pd.Timestamp("2018-01-06"), + np.nan, + np.nan, + ], + [ + pd.Timestamp("2018-01-02", tz="US/Pacific"), + pd.Timestamp("2018-01-02", tz="US/Pacific"), + np.nan, + pd.Timestamp("2018-01-08", tz="US/Pacific"), + pd.Timestamp("2018-01-02", tz="US/Pacific"), + pd.Timestamp("2018-01-06", tz="US/Pacific"), + np.nan, + np.nan, + ], + [ + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + np.nan, + pd.Timestamp("2018-01-08") - pd.Timestamp(0), + pd.Timestamp("2018-01-02") - pd.Timestamp(0), + pd.Timestamp("2018-01-06") - pd.Timestamp(0), + np.nan, + np.nan, + ], + [ + pd.Timestamp("2018-01-02").to_period("D"), + pd.Timestamp("2018-01-02").to_period("D"), + np.nan, + pd.Timestamp("2018-01-08").to_period("D"), + pd.Timestamp("2018-01-02").to_period("D"), + pd.Timestamp("2018-01-06").to_period("D"), + np.nan, + np.nan, + ], + ], + ids=lambda x: type(x[0]), +) +@pytest.mark.parametrize( + "ties_method,ascending,na_option,pct,exp", + [ + ( + "average", + True, + "keep", + False, + [2.0, 2.0, np.nan, 5.0, 2.0, 4.0, np.nan, np.nan], + ), + ( + "average", + True, + "keep", + True, + [0.4, 0.4, np.nan, 1.0, 0.4, 0.8, np.nan, np.nan], + ), + ( + "average", + False, + "keep", + False, + [4.0, 4.0, np.nan, 1.0, 4.0, 2.0, np.nan, np.nan], + ), + ( + "average", + False, + "keep", + True, + [0.8, 0.8, np.nan, 0.2, 0.8, 0.4, np.nan, np.nan], + ), + ("min", True, "keep", False, [1.0, 1.0, np.nan, 5.0, 1.0, 4.0, np.nan, np.nan]), + ("min", True, "keep", True, [0.2, 0.2, np.nan, 1.0, 0.2, 0.8, np.nan, np.nan]), + ( + "min", + False, + "keep", + False, + [3.0, 3.0, np.nan, 1.0, 3.0, 2.0, np.nan, np.nan], + ), + ("min", False, "keep", True, [0.6, 0.6, np.nan, 0.2, 0.6, 0.4, np.nan, np.nan]), + ("max", True, "keep", False, [3.0, 3.0, np.nan, 5.0, 3.0, 4.0, np.nan, np.nan]), + ("max", True, "keep", True, [0.6, 0.6, np.nan, 1.0, 0.6, 0.8, np.nan, np.nan]), + ( + "max", + False, + "keep", + False, + [5.0, 5.0, np.nan, 1.0, 5.0, 2.0, np.nan, np.nan], + ), + ("max", False, "keep", True, [1.0, 1.0, np.nan, 0.2, 1.0, 0.4, np.nan, np.nan]), + ( + "first", + True, + "keep", + False, + [1.0, 2.0, np.nan, 5.0, 3.0, 4.0, np.nan, np.nan], + ), + ( + "first", + True, + "keep", + True, + [0.2, 0.4, np.nan, 1.0, 0.6, 0.8, np.nan, np.nan], + ), + ( + "first", + False, + "keep", + False, + [3.0, 4.0, np.nan, 1.0, 5.0, 2.0, np.nan, np.nan], + ), + ( + "first", + False, + "keep", + True, + [0.6, 0.8, np.nan, 0.2, 1.0, 0.4, np.nan, np.nan], + ), + ( + "dense", + True, + "keep", + False, + [1.0, 1.0, np.nan, 3.0, 1.0, 2.0, np.nan, np.nan], + ), + ( + "dense", + True, + "keep", + True, + [ + 1.0 / 3.0, + 1.0 / 3.0, + np.nan, + 3.0 / 3.0, + 1.0 / 3.0, + 2.0 / 3.0, + np.nan, + np.nan, + ], + ), + ( + "dense", + False, + "keep", + False, + [3.0, 3.0, np.nan, 1.0, 3.0, 2.0, np.nan, np.nan], + ), + ( + "dense", + False, + "keep", + True, + [ + 3.0 / 3.0, + 3.0 / 3.0, + np.nan, + 1.0 / 3.0, + 3.0 / 3.0, + 2.0 / 3.0, + np.nan, + np.nan, + ], + ), + ("average", True, "bottom", False, [2.0, 2.0, 7.0, 5.0, 2.0, 4.0, 7.0, 7.0]), + ( + "average", + True, + "bottom", + True, + [0.25, 0.25, 0.875, 0.625, 0.25, 0.5, 0.875, 0.875], + ), + ("average", False, "bottom", False, [4.0, 4.0, 7.0, 1.0, 4.0, 2.0, 7.0, 7.0]), + ( + "average", + False, + "bottom", + True, + [0.5, 0.5, 0.875, 0.125, 0.5, 0.25, 0.875, 0.875], + ), + ("min", True, "bottom", False, [1.0, 1.0, 6.0, 5.0, 1.0, 4.0, 6.0, 6.0]), + ( + "min", + True, + "bottom", + True, + [0.125, 0.125, 0.75, 0.625, 0.125, 0.5, 0.75, 0.75], + ), + ("min", False, "bottom", False, [3.0, 3.0, 6.0, 1.0, 3.0, 2.0, 6.0, 6.0]), + ( + "min", + False, + "bottom", + True, + [0.375, 0.375, 0.75, 0.125, 0.375, 0.25, 0.75, 0.75], + ), + ("max", True, "bottom", False, [3.0, 3.0, 8.0, 5.0, 3.0, 4.0, 8.0, 8.0]), + ("max", True, "bottom", True, [0.375, 0.375, 1.0, 0.625, 0.375, 0.5, 1.0, 1.0]), + ("max", False, "bottom", False, [5.0, 5.0, 8.0, 1.0, 5.0, 2.0, 8.0, 8.0]), + ( + "max", + False, + "bottom", + True, + [0.625, 0.625, 1.0, 0.125, 0.625, 0.25, 1.0, 1.0], + ), + ("first", True, "bottom", False, [1.0, 2.0, 6.0, 5.0, 3.0, 4.0, 7.0, 8.0]), + ( + "first", + True, + "bottom", + True, + [0.125, 0.25, 0.75, 0.625, 0.375, 0.5, 0.875, 1.0], + ), + ("first", False, "bottom", False, [3.0, 4.0, 6.0, 1.0, 5.0, 2.0, 7.0, 8.0]), + ( + "first", + False, + "bottom", + True, + [0.375, 0.5, 0.75, 0.125, 0.625, 0.25, 0.875, 1.0], + ), + ("dense", True, "bottom", False, [1.0, 1.0, 4.0, 3.0, 1.0, 2.0, 4.0, 4.0]), + ("dense", True, "bottom", True, [0.25, 0.25, 1.0, 0.75, 0.25, 0.5, 1.0, 1.0]), + ("dense", False, "bottom", False, [3.0, 3.0, 4.0, 1.0, 3.0, 2.0, 4.0, 4.0]), + ("dense", False, "bottom", True, [0.75, 0.75, 1.0, 0.25, 0.75, 0.5, 1.0, 1.0]), + ], +) +def test_rank_args_missing(grps, vals, ties_method, ascending, na_option, pct, exp): + key = np.repeat(grps, len(vals)) + + orig_vals = vals + vals = list(vals) * len(grps) + if isinstance(orig_vals, np.ndarray): + vals = np.array(vals, dtype=orig_vals.dtype) + + df = DataFrame({"key": key, "val": vals}) + result = df.groupby("key").rank( + method=ties_method, ascending=ascending, na_option=na_option, pct=pct + ) + + exp_df = DataFrame(exp * len(grps), columns=["val"]) + tm.assert_frame_equal(result, exp_df) + + +@pytest.mark.parametrize( + "pct,exp", [(False, [3.0, 3.0, 3.0, 3.0, 3.0]), (True, [0.6, 0.6, 0.6, 0.6, 0.6])] +) +def test_rank_resets_each_group(pct, exp): + df = DataFrame( + {"key": ["a", "a", "a", "a", "a", "b", "b", "b", "b", "b"], "val": [1] * 10} + ) + result = df.groupby("key").rank(pct=pct) + exp_df = DataFrame(exp * 2, columns=["val"]) + tm.assert_frame_equal(result, exp_df) + + +@pytest.mark.parametrize( + "dtype", ["int64", "int32", "uint64", "uint32", "float64", "float32"] +) +@pytest.mark.parametrize("upper", [True, False]) +def test_rank_avg_even_vals(dtype, upper): + if upper: + # use IntegerDtype/FloatingDtype + dtype = dtype[0].upper() + dtype[1:] + dtype = dtype.replace("Ui", "UI") + df = DataFrame({"key": ["a"] * 4, "val": [1] * 4}) + df["val"] = df["val"].astype(dtype) + assert df["val"].dtype == dtype + + result = df.groupby("key").rank() + exp_df = DataFrame([2.5, 2.5, 2.5, 2.5], columns=["val"]) + if upper: + exp_df = exp_df.astype("Float64") + tm.assert_frame_equal(result, exp_df) + + +@pytest.mark.parametrize("ties_method", ["average", "min", "max", "first", "dense"]) +@pytest.mark.parametrize("ascending", [True, False]) +@pytest.mark.parametrize("na_option", ["keep", "top", "bottom"]) +@pytest.mark.parametrize("pct", [True, False]) +@pytest.mark.parametrize( + "vals", [["bar", "bar", "foo", "bar", "baz"], ["bar", np.nan, "foo", np.nan, "baz"]] +) +def test_rank_object_dtype(ties_method, ascending, na_option, pct, vals): + df = DataFrame({"key": ["foo"] * 5, "val": vals}) + mask = df["val"].isna() + + gb = df.groupby("key") + res = gb.rank(method=ties_method, ascending=ascending, na_option=na_option, pct=pct) + + # construct our expected by using numeric values with the same ordering + if mask.any(): + df2 = DataFrame({"key": ["foo"] * 5, "val": [0, np.nan, 2, np.nan, 1]}) + else: + df2 = DataFrame({"key": ["foo"] * 5, "val": [0, 0, 2, 0, 1]}) + + gb2 = df2.groupby("key") + alt = gb2.rank( + method=ties_method, ascending=ascending, na_option=na_option, pct=pct + ) + + tm.assert_frame_equal(res, alt) + + +@pytest.mark.parametrize("na_option", [True, "bad", 1]) +@pytest.mark.parametrize("ties_method", ["average", "min", "max", "first", "dense"]) +@pytest.mark.parametrize("ascending", [True, False]) +@pytest.mark.parametrize("pct", [True, False]) +@pytest.mark.parametrize( + "vals", + [ + ["bar", "bar", "foo", "bar", "baz"], + ["bar", np.nan, "foo", np.nan, "baz"], + [1, np.nan, 2, np.nan, 3], + ], +) +def test_rank_naoption_raises(ties_method, ascending, na_option, pct, vals): + df = DataFrame({"key": ["foo"] * 5, "val": vals}) + msg = "na_option must be one of 'keep', 'top', or 'bottom'" + + with pytest.raises(ValueError, match=msg): + df.groupby("key").rank( + method=ties_method, ascending=ascending, na_option=na_option, pct=pct + ) + + +def test_rank_empty_group(): + # see gh-22519 + column = "A" + df = DataFrame({"A": [0, 1, 0], "B": [1.0, np.nan, 2.0]}) + + result = df.groupby(column).B.rank(pct=True) + expected = Series([0.5, np.nan, 1.0], name="B") + tm.assert_series_equal(result, expected) + + result = df.groupby(column).rank(pct=True) + expected = DataFrame({"B": [0.5, np.nan, 1.0]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "input_key,input_value,output_value", + [ + ([1, 2], [1, 1], [1.0, 1.0]), + ([1, 1, 2, 2], [1, 2, 1, 2], [0.5, 1.0, 0.5, 1.0]), + ([1, 1, 2, 2], [1, 2, 1, np.nan], [0.5, 1.0, 1.0, np.nan]), + ([1, 1, 2], [1, 2, np.nan], [0.5, 1.0, np.nan]), + ], +) +def test_rank_zero_div(input_key, input_value, output_value): + # GH 23666 + df = DataFrame({"A": input_key, "B": input_value}) + + result = df.groupby("A").rank(method="dense", pct=True) + expected = DataFrame({"B": output_value}) + tm.assert_frame_equal(result, expected) + + +def test_rank_min_int(): + # GH-32859 + df = DataFrame( + { + "grp": [1, 1, 2], + "int_col": [ + np.iinfo(np.int64).min, + np.iinfo(np.int64).max, + np.iinfo(np.int64).min, + ], + "datetimelike": [NaT, datetime(2001, 1, 1), NaT], + } + ) + + result = df.groupby("grp").rank() + expected = DataFrame( + {"int_col": [1.0, 2.0, 1.0], "datetimelike": [np.nan, 1.0, np.nan]} + ) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("use_nan", [True, False]) +def test_rank_pct_equal_values_on_group_transition(use_nan): + # GH#40518 + fill_value = np.nan if use_nan else 3 + df = DataFrame( + [ + [-1, 1], + [-1, 2], + [1, fill_value], + [-1, fill_value], + ], + columns=["group", "val"], + ) + result = df.groupby(["group"])["val"].rank( + method="dense", + pct=True, + ) + if use_nan: + expected = Series([0.5, 1, np.nan, np.nan], name="val") + else: + expected = Series([1 / 3, 2 / 3, 1, 1], name="val") + + tm.assert_series_equal(result, expected) + + +def test_rank_multiindex(): + # GH27721 + df = concat( + { + "a": DataFrame({"col1": [3, 4], "col2": [1, 2]}), + "b": DataFrame({"col3": [5, 6], "col4": [7, 8]}), + }, + axis=1, + ) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=0, axis=1) + msg = "DataFrameGroupBy.rank with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.rank(axis=1) + + expected = concat( + [ + df["a"].rank(axis=1), + df["b"].rank(axis=1), + ], + axis=1, + keys=["a", "b"], + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_axis0_rank_axis1(): + # GH#41320 + df = DataFrame( + {0: [1, 3, 5, 7], 1: [2, 4, 6, 8], 2: [1.5, 3.5, 5.5, 7.5]}, + index=["a", "a", "b", "b"], + ) + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=0, axis=0) + + msg = "DataFrameGroupBy.rank with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = gb.rank(axis=1) + + # This should match what we get when "manually" operating group-by-group + expected = concat([df.loc["a"].rank(axis=1), df.loc["b"].rank(axis=1)], axis=0) + tm.assert_frame_equal(res, expected) + + # check that we haven't accidentally written a case that coincidentally + # matches rank(axis=0) + msg = "The 'axis' keyword in DataFrameGroupBy.rank" + with tm.assert_produces_warning(FutureWarning, match=msg): + alt = gb.rank(axis=0) + assert not alt.equals(expected) + + +def test_groupby_axis0_cummax_axis1(): + # case where groupby axis is 0 and axis keyword in transform is 1 + + # df has mixed dtype -> multiple blocks + df = DataFrame( + {0: [1, 3, 5, 7], 1: [2, 4, 6, 8], 2: [1.5, 3.5, 5.5, 7.5]}, + index=["a", "a", "b", "b"], + ) + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=0, axis=0) + + msg = "DataFrameGroupBy.cummax with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + cmax = gb.cummax(axis=1) + expected = df[[0, 1]].astype(np.float64) + expected[2] = expected[1] + tm.assert_frame_equal(cmax, expected) + + +def test_non_unique_index(): + # GH 16577 + df = DataFrame( + {"A": [1.0, 2.0, 3.0, np.nan], "value": 1.0}, + index=[pd.Timestamp("20170101", tz="US/Eastern")] * 4, + ) + result = df.groupby([df.index, "A"]).value.rank(ascending=True, pct=True) + expected = Series( + [1.0, 1.0, 1.0, np.nan], + index=[pd.Timestamp("20170101", tz="US/Eastern")] * 4, + name="value", + ) + tm.assert_series_equal(result, expected) + + +def test_rank_categorical(): + cat = pd.Categorical(["a", "a", "b", np.nan, "c", "b"], ordered=True) + cat2 = pd.Categorical([1, 2, 3, np.nan, 4, 5], ordered=True) + + df = DataFrame({"col1": [0, 1, 0, 1, 0, 1], "col2": cat, "col3": cat2}) + + gb = df.groupby("col1") + + res = gb.rank() + + expected = df.astype(object).groupby("col1").rank() + tm.assert_frame_equal(res, expected) + + +@pytest.mark.parametrize("na_option", ["top", "bottom"]) +def test_groupby_op_with_nullables(na_option): + # GH 54206 + df = DataFrame({"x": [None]}, dtype="Float64") + result = df.groupby("x", dropna=False)["x"].rank(method="min", na_option=na_option) + expected = Series([1.0], dtype="Float64", name=result.name) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_sample.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_sample.py new file mode 100644 index 0000000000000000000000000000000000000000..4dd474741740d4abdea1ebabf2b36c3b68d690ad --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_sample.py @@ -0,0 +1,154 @@ +import pytest + +from pandas import ( + DataFrame, + Index, + Series, +) +import pandas._testing as tm + + +@pytest.mark.parametrize("n, frac", [(2, None), (None, 0.2)]) +def test_groupby_sample_balanced_groups_shape(n, frac): + values = [1] * 10 + [2] * 10 + df = DataFrame({"a": values, "b": values}) + + result = df.groupby("a").sample(n=n, frac=frac) + values = [1] * 2 + [2] * 2 + expected = DataFrame({"a": values, "b": values}, index=result.index) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(n=n, frac=frac) + expected = Series(values, name="b", index=result.index) + tm.assert_series_equal(result, expected) + + +def test_groupby_sample_unbalanced_groups_shape(): + values = [1] * 10 + [2] * 20 + df = DataFrame({"a": values, "b": values}) + + result = df.groupby("a").sample(n=5) + values = [1] * 5 + [2] * 5 + expected = DataFrame({"a": values, "b": values}, index=result.index) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(n=5) + expected = Series(values, name="b", index=result.index) + tm.assert_series_equal(result, expected) + + +def test_groupby_sample_index_value_spans_groups(): + values = [1] * 3 + [2] * 3 + df = DataFrame({"a": values, "b": values}, index=[1, 2, 2, 2, 2, 2]) + + result = df.groupby("a").sample(n=2) + values = [1] * 2 + [2] * 2 + expected = DataFrame({"a": values, "b": values}, index=result.index) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(n=2) + expected = Series(values, name="b", index=result.index) + tm.assert_series_equal(result, expected) + + +def test_groupby_sample_n_and_frac_raises(): + df = DataFrame({"a": [1, 2], "b": [1, 2]}) + msg = "Please enter a value for `frac` OR `n`, not both" + + with pytest.raises(ValueError, match=msg): + df.groupby("a").sample(n=1, frac=1.0) + + with pytest.raises(ValueError, match=msg): + df.groupby("a")["b"].sample(n=1, frac=1.0) + + +def test_groupby_sample_frac_gt_one_without_replacement_raises(): + df = DataFrame({"a": [1, 2], "b": [1, 2]}) + msg = "Replace has to be set to `True` when upsampling the population `frac` > 1." + + with pytest.raises(ValueError, match=msg): + df.groupby("a").sample(frac=1.5, replace=False) + + with pytest.raises(ValueError, match=msg): + df.groupby("a")["b"].sample(frac=1.5, replace=False) + + +@pytest.mark.parametrize("n", [-1, 1.5]) +def test_groupby_sample_invalid_n_raises(n): + df = DataFrame({"a": [1, 2], "b": [1, 2]}) + + if n < 0: + msg = "A negative number of rows requested. Please provide `n` >= 0." + else: + msg = "Only integers accepted as `n` values" + + with pytest.raises(ValueError, match=msg): + df.groupby("a").sample(n=n) + + with pytest.raises(ValueError, match=msg): + df.groupby("a")["b"].sample(n=n) + + +def test_groupby_sample_oversample(): + values = [1] * 10 + [2] * 10 + df = DataFrame({"a": values, "b": values}) + + result = df.groupby("a").sample(frac=2.0, replace=True) + values = [1] * 20 + [2] * 20 + expected = DataFrame({"a": values, "b": values}, index=result.index) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(frac=2.0, replace=True) + expected = Series(values, name="b", index=result.index) + tm.assert_series_equal(result, expected) + + +def test_groupby_sample_without_n_or_frac(): + values = [1] * 10 + [2] * 10 + df = DataFrame({"a": values, "b": values}) + + result = df.groupby("a").sample(n=None, frac=None) + expected = DataFrame({"a": [1, 2], "b": [1, 2]}, index=result.index) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(n=None, frac=None) + expected = Series([1, 2], name="b", index=result.index) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "index, expected_index", + [(["w", "x", "y", "z"], ["w", "w", "y", "y"]), ([3, 4, 5, 6], [3, 3, 5, 5])], +) +def test_groupby_sample_with_weights(index, expected_index): + # GH 39927 - tests for integer index needed + values = [1] * 2 + [2] * 2 + df = DataFrame({"a": values, "b": values}, index=Index(index)) + + result = df.groupby("a").sample(n=2, replace=True, weights=[1, 0, 1, 0]) + expected = DataFrame({"a": values, "b": values}, index=Index(expected_index)) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a")["b"].sample(n=2, replace=True, weights=[1, 0, 1, 0]) + expected = Series(values, name="b", index=Index(expected_index)) + tm.assert_series_equal(result, expected) + + +def test_groupby_sample_with_selections(): + # GH 39928 + values = [1] * 10 + [2] * 10 + df = DataFrame({"a": values, "b": values, "c": values}) + + result = df.groupby("a")[["b", "c"]].sample(n=None, frac=None) + expected = DataFrame({"b": [1, 2], "c": [1, 2]}, index=result.index) + tm.assert_frame_equal(result, expected) + + +def test_groupby_sample_with_empty_inputs(): + # GH48459 + df = DataFrame({"a": [], "b": []}) + groupby_df = df.groupby("a") + + result = groupby_df.sample() + expected = df + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_size.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_size.py new file mode 100644 index 0000000000000000000000000000000000000000..4e92fb22f840a15c071cc556421a682785820411 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_size.py @@ -0,0 +1,122 @@ +import numpy as np +import pytest + +from pandas.core.dtypes.common import is_integer_dtype + +from pandas import ( + DataFrame, + Index, + PeriodIndex, + Series, +) +import pandas._testing as tm + + +@pytest.mark.parametrize("by", ["A", "B", ["A", "B"]]) +def test_size(df, by): + grouped = df.groupby(by=by) + result = grouped.size() + for key, group in grouped: + assert result[key] == len(group) + + +@pytest.mark.parametrize( + "by", + [ + [0, 0, 0, 0], + [0, 1, 1, 1], + [1, 0, 1, 1], + [0, None, None, None], + pytest.param([None, None, None, None], marks=pytest.mark.xfail), + ], +) +def test_size_axis_1(df, axis_1, by, sort, dropna): + # GH#45715 + counts = {key: sum(value == key for value in by) for key in dict.fromkeys(by)} + if dropna: + counts = {key: value for key, value in counts.items() if key is not None} + expected = Series(counts, dtype="int64") + if sort: + expected = expected.sort_index() + if is_integer_dtype(expected.index.dtype) and not any(x is None for x in by): + expected.index = expected.index.astype(int) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = df.groupby(by=by, axis=axis_1, sort=sort, dropna=dropna) + result = grouped.size() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("by", ["A", "B", ["A", "B"]]) +@pytest.mark.parametrize("sort", [True, False]) +def test_size_sort(sort, by): + df = DataFrame(np.random.default_rng(2).choice(20, (1000, 3)), columns=list("ABC")) + left = df.groupby(by=by, sort=sort).size() + right = df.groupby(by=by, sort=sort)["C"].apply(lambda a: a.shape[0]) + tm.assert_series_equal(left, right, check_names=False) + + +def test_size_series_dataframe(): + # https://github.com/pandas-dev/pandas/issues/11699 + df = DataFrame(columns=["A", "B"]) + out = Series(dtype="int64", index=Index([], name="A")) + tm.assert_series_equal(df.groupby("A").size(), out) + + +def test_size_groupby_all_null(): + # https://github.com/pandas-dev/pandas/issues/23050 + # Assert no 'Value Error : Length of passed values is 2, index implies 0' + df = DataFrame({"A": [None, None]}) # all-null groups + result = df.groupby("A").size() + expected = Series(dtype="int64", index=Index([], name="A")) + tm.assert_series_equal(result, expected) + + +def test_size_period_index(): + # https://github.com/pandas-dev/pandas/issues/34010 + ser = Series([1], index=PeriodIndex(["2000"], name="A", freq="D")) + grp = ser.groupby(level="A") + result = grp.size() + tm.assert_series_equal(result, ser) + + +@pytest.mark.parametrize("as_index", [True, False]) +def test_size_on_categorical(as_index): + df = DataFrame([[1, 1], [2, 2]], columns=["A", "B"]) + df["A"] = df["A"].astype("category") + result = df.groupby(["A", "B"], as_index=as_index, observed=False).size() + + expected = DataFrame( + [[1, 1, 1], [1, 2, 0], [2, 1, 0], [2, 2, 1]], columns=["A", "B", "size"] + ) + expected["A"] = expected["A"].astype("category") + if as_index: + expected = expected.set_index(["A", "B"])["size"].rename(None) + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["Int64", "Float64", "boolean"]) +def test_size_series_masked_type_returns_Int64(dtype): + # GH 54132 + ser = Series([1, 1, 1], index=["a", "a", "b"], dtype=dtype) + result = ser.groupby(level=0).size() + expected = Series([2, 1], dtype="Int64", index=["a", "b"]) + tm.assert_series_equal(result, expected) + + +def test_size_strings(any_string_dtype, using_infer_string): + # GH#55627 + dtype = any_string_dtype + df = DataFrame({"a": ["a", "a", "b"], "b": "a"}, dtype=dtype) + result = df.groupby("a")["b"].size() + exp_dtype = "Int64" if dtype == "string[pyarrow]" else "int64" + exp_index_dtype = "str" if using_infer_string and dtype == "object" else dtype + expected = Series( + [2, 1], + index=Index(["a", "b"], name="a", dtype=exp_index_dtype), + name="b", + dtype=exp_dtype, + ) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_skew.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_skew.py new file mode 100644 index 0000000000000000000000000000000000000000..563da89b6ab24a898f042f0e21377ccc2709b072 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_skew.py @@ -0,0 +1,27 @@ +import numpy as np + +import pandas as pd +import pandas._testing as tm + + +def test_groupby_skew_equivalence(): + # Test that that groupby skew method (which uses libgroupby.group_skew) + # matches the results of operating group-by-group (which uses nanops.nanskew) + nrows = 1000 + ngroups = 3 + ncols = 2 + nan_frac = 0.05 + + arr = np.random.default_rng(2).standard_normal((nrows, ncols)) + arr[np.random.default_rng(2).random(nrows) < nan_frac] = np.nan + + df = pd.DataFrame(arr) + grps = np.random.default_rng(2).integers(0, ngroups, size=nrows) + gb = df.groupby(grps) + + result = gb.skew() + + grpwise = [grp.skew().to_frame(i).T for i, grp in gb] + expected = pd.concat(grpwise, axis=0) + expected.index = expected.index.astype(result.index.dtype) # 32bit builds + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_value_counts.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_value_counts.py new file mode 100644 index 0000000000000000000000000000000000000000..476ce1fe1b8ccbbf8eaf5e759d12bd84cc5e89f5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/methods/test_value_counts.py @@ -0,0 +1,1256 @@ +""" +these are systematically testing all of the args to value_counts +with different size combinations. This is to ensure stability of the sorting +and proper parameter handling +""" + + +import numpy as np +import pytest + +from pandas import ( + Categorical, + CategoricalIndex, + DataFrame, + Grouper, + Index, + MultiIndex, + Series, + date_range, + to_datetime, +) +import pandas._testing as tm +from pandas.util.version import Version + + +def tests_value_counts_index_names_category_column(): + # GH44324 Missing name of index category column + df = DataFrame( + { + "gender": ["female"], + "country": ["US"], + } + ) + df["gender"] = df["gender"].astype("category") + result = df.groupby("country")["gender"].value_counts() + + # Construct expected, very specific multiindex + df_mi_expected = DataFrame([["US", "female"]], columns=["country", "gender"]) + df_mi_expected["gender"] = df_mi_expected["gender"].astype("category") + mi_expected = MultiIndex.from_frame(df_mi_expected) + expected = Series([1], index=mi_expected, name="count") + + tm.assert_series_equal(result, expected) + + +def seed_df(seed_nans, n, m): + days = date_range("2015-08-24", periods=10) + + frame = DataFrame( + { + "1st": np.random.default_rng(2).choice(list("abcd"), n), + "2nd": np.random.default_rng(2).choice(days, n), + "3rd": np.random.default_rng(2).integers(1, m + 1, n), + } + ) + + if seed_nans: + # Explicitly cast to float to avoid implicit cast when setting nan + frame["3rd"] = frame["3rd"].astype("float") + frame.loc[1::11, "1st"] = np.nan + frame.loc[3::17, "2nd"] = np.nan + frame.loc[7::19, "3rd"] = np.nan + frame.loc[8::19, "3rd"] = np.nan + frame.loc[9::19, "3rd"] = np.nan + + return frame + + +@pytest.mark.slow +@pytest.mark.parametrize("seed_nans", [True, False]) +@pytest.mark.parametrize("num_rows", [10, 50]) +@pytest.mark.parametrize("max_int", [5, 20]) +@pytest.mark.parametrize("keys", ["1st", "2nd", ["1st", "2nd"]], ids=repr) +@pytest.mark.parametrize("bins", [None, [0, 5]], ids=repr) +@pytest.mark.parametrize("isort", [True, False]) +@pytest.mark.parametrize("normalize, name", [(True, "proportion"), (False, "count")]) +@pytest.mark.parametrize("sort", [True, False]) +@pytest.mark.parametrize("ascending", [True, False]) +@pytest.mark.parametrize("dropna", [True, False]) +def test_series_groupby_value_counts( + seed_nans, + num_rows, + max_int, + keys, + bins, + isort, + normalize, + name, + sort, + ascending, + dropna, +): + df = seed_df(seed_nans, num_rows, max_int) + + def rebuild_index(df): + arr = list(map(df.index.get_level_values, range(df.index.nlevels))) + df.index = MultiIndex.from_arrays(arr, names=df.index.names) + return df + + kwargs = { + "normalize": normalize, + "sort": sort, + "ascending": ascending, + "dropna": dropna, + "bins": bins, + } + + gr = df.groupby(keys, sort=isort) + left = gr["3rd"].value_counts(**kwargs) + + gr = df.groupby(keys, sort=isort) + right = gr["3rd"].apply(Series.value_counts, **kwargs) + right.index.names = right.index.names[:-1] + ["3rd"] + # https://github.com/pandas-dev/pandas/issues/49909 + right = right.rename(name) + + # have to sort on index because of unstable sort on values + left, right = map(rebuild_index, (left, right)) # xref GH9212 + tm.assert_series_equal(left.sort_index(), right.sort_index()) + + +@pytest.mark.parametrize("utc", [True, False]) +def test_series_groupby_value_counts_with_grouper(utc): + # GH28479 + df = DataFrame( + { + "Timestamp": [ + 1565083561, + 1565083561 + 86400, + 1565083561 + 86500, + 1565083561 + 86400 * 2, + 1565083561 + 86400 * 3, + 1565083561 + 86500 * 3, + 1565083561 + 86400 * 4, + ], + "Food": ["apple", "apple", "banana", "banana", "orange", "orange", "pear"], + } + ).drop([3]) + + df["Datetime"] = to_datetime(df["Timestamp"], utc=utc, unit="s") + dfg = df.groupby(Grouper(freq="1D", key="Datetime")) + + # have to sort on index because of unstable sort on values xref GH9212 + result = dfg["Food"].value_counts().sort_index() + expected = dfg["Food"].apply(Series.value_counts).sort_index() + expected.index.names = result.index.names + # https://github.com/pandas-dev/pandas/issues/49909 + expected = expected.rename("count") + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("columns", [["A", "B"], ["A", "B", "C"]]) +def test_series_groupby_value_counts_empty(columns): + # GH39172 + df = DataFrame(columns=columns) + dfg = df.groupby(columns[:-1]) + + result = dfg[columns[-1]].value_counts() + expected = Series([], dtype=result.dtype, name="count") + expected.index = MultiIndex.from_arrays([[]] * len(columns), names=columns) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("columns", [["A", "B"], ["A", "B", "C"]]) +def test_series_groupby_value_counts_one_row(columns): + # GH42618 + df = DataFrame(data=[range(len(columns))], columns=columns) + dfg = df.groupby(columns[:-1]) + + result = dfg[columns[-1]].value_counts() + expected = df.value_counts() + + tm.assert_series_equal(result, expected) + + +def test_series_groupby_value_counts_on_categorical(): + # GH38672 + + s = Series(Categorical(["a"], categories=["a", "b"])) + result = s.groupby([0]).value_counts() + + expected = Series( + data=[1, 0], + index=MultiIndex.from_arrays( + [ + np.array([0, 0]), + CategoricalIndex( + ["a", "b"], categories=["a", "b"], ordered=False, dtype="category" + ), + ] + ), + name="count", + ) + + # Expected: + # 0 a 1 + # b 0 + # dtype: int64 + + tm.assert_series_equal(result, expected) + + +def test_series_groupby_value_counts_no_sort(): + # GH#50482 + df = DataFrame( + { + "gender": ["male", "male", "female", "male", "female", "male"], + "education": ["low", "medium", "high", "low", "high", "low"], + "country": ["US", "FR", "US", "FR", "FR", "FR"], + } + ) + gb = df.groupby(["country", "gender"], sort=False)["education"] + result = gb.value_counts(sort=False) + index = MultiIndex( + levels=[["US", "FR"], ["male", "female"], ["low", "medium", "high"]], + codes=[[0, 1, 0, 1, 1], [0, 0, 1, 0, 1], [0, 1, 2, 0, 2]], + names=["country", "gender", "education"], + ) + expected = Series([1, 1, 1, 2, 1], index=index, name="count") + tm.assert_series_equal(result, expected) + + +@pytest.fixture +def education_df(): + return DataFrame( + { + "gender": ["male", "male", "female", "male", "female", "male"], + "education": ["low", "medium", "high", "low", "high", "low"], + "country": ["US", "FR", "US", "FR", "FR", "FR"], + } + ) + + +def test_axis(education_df): + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gp = education_df.groupby("country", axis=1) + with pytest.raises(NotImplementedError, match="axis"): + gp.value_counts() + + +def test_bad_subset(education_df): + gp = education_df.groupby("country") + with pytest.raises(ValueError, match="subset"): + gp.value_counts(subset=["country"]) + + +def test_basic(education_df, request): + # gh43564 + if Version(np.__version__) >= Version("1.25"): + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + result = education_df.groupby("country")[["gender", "education"]].value_counts( + normalize=True + ) + expected = Series( + data=[0.5, 0.25, 0.25, 0.5, 0.5], + index=MultiIndex.from_tuples( + [ + ("FR", "male", "low"), + ("FR", "female", "high"), + ("FR", "male", "medium"), + ("US", "female", "high"), + ("US", "male", "low"), + ], + names=["country", "gender", "education"], + ), + name="proportion", + ) + tm.assert_series_equal(result, expected) + + +def _frame_value_counts(df, keys, normalize, sort, ascending): + return df[keys].value_counts(normalize=normalize, sort=sort, ascending=ascending) + + +@pytest.mark.parametrize("groupby", ["column", "array", "function"]) +@pytest.mark.parametrize("normalize, name", [(True, "proportion"), (False, "count")]) +@pytest.mark.parametrize( + "sort, ascending", + [ + (False, None), + (True, True), + (True, False), + ], +) +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize("frame", [True, False]) +def test_against_frame_and_seriesgroupby( + education_df, + groupby, + normalize, + name, + sort, + ascending, + as_index, + frame, + request, + using_infer_string, +): + # test all parameters: + # - Use column, array or function as by= parameter + # - Whether or not to normalize + # - Whether or not to sort and how + # - Whether or not to use the groupby as an index + # - 3-way compare against: + # - apply with :meth:`~DataFrame.value_counts` + # - `~SeriesGroupBy.value_counts` + if Version(np.__version__) >= Version("1.25") and frame and sort and normalize: + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + by = { + "column": "country", + "array": education_df["country"].values, + "function": lambda x: education_df["country"][x] == "US", + }[groupby] + + gp = education_df.groupby(by=by, as_index=as_index) + result = gp[["gender", "education"]].value_counts( + normalize=normalize, sort=sort, ascending=ascending + ) + if frame: + # compare against apply with DataFrame value_counts + warn = FutureWarning if groupby == "column" else None + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(warn, match=msg): + expected = gp.apply( + _frame_value_counts, ["gender", "education"], normalize, sort, ascending + ) + + if as_index: + tm.assert_series_equal(result, expected) + else: + name = "proportion" if normalize else "count" + expected = expected.reset_index().rename({0: name}, axis=1) + if groupby == "column": + expected = expected.rename({"level_0": "country"}, axis=1) + expected["country"] = np.where(expected["country"], "US", "FR") + elif groupby == "function": + expected["level_0"] = expected["level_0"] == 1 + else: + expected["level_0"] = np.where(expected["level_0"], "US", "FR") + tm.assert_frame_equal(result, expected) + else: + # compare against SeriesGroupBy value_counts + education_df["both"] = education_df["gender"] + "-" + education_df["education"] + expected = gp["both"].value_counts( + normalize=normalize, sort=sort, ascending=ascending + ) + expected.name = name + if as_index: + index_frame = expected.index.to_frame(index=False) + index_frame["gender"] = index_frame["both"].str.split("-").str.get(0) + index_frame["education"] = index_frame["both"].str.split("-").str.get(1) + del index_frame["both"] + index_frame2 = index_frame.rename({0: None}, axis=1) + expected.index = MultiIndex.from_frame(index_frame2) + + if index_frame2.columns.isna()[0]: + # with using_infer_string, the columns in index_frame as string + # dtype, which makes the rename({0: None}) above use np.nan + # instead of None, so we need to set None more explicitly. + expected.index.names = [None] + expected.index.names[1:] + tm.assert_series_equal(result, expected) + else: + expected.insert(1, "gender", expected["both"].str.split("-").str.get(0)) + expected.insert(2, "education", expected["both"].str.split("-").str.get(1)) + if using_infer_string: + expected = expected.astype({"gender": "str", "education": "str"}) + del expected["both"] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("normalize", [True, False]) +@pytest.mark.parametrize( + "sort, ascending, expected_rows, expected_count, expected_group_size", + [ + (False, None, [0, 1, 2, 3, 4], [1, 1, 1, 2, 1], [1, 3, 1, 3, 1]), + (True, False, [3, 0, 1, 2, 4], [2, 1, 1, 1, 1], [3, 1, 3, 1, 1]), + (True, True, [0, 1, 2, 4, 3], [1, 1, 1, 1, 2], [1, 3, 1, 1, 3]), + ], +) +def test_compound( + education_df, + normalize, + sort, + ascending, + expected_rows, + expected_count, + expected_group_size, + any_string_dtype, + using_infer_string, +): + dtype = any_string_dtype + education_df = education_df.astype(dtype) + education_df.columns = education_df.columns.astype(dtype) + # Multiple groupby keys and as_index=False + gp = education_df.groupby(["country", "gender"], as_index=False, sort=False) + result = gp["education"].value_counts( + normalize=normalize, sort=sort, ascending=ascending + ) + expected = DataFrame() + for column in ["country", "gender", "education"]: + expected[column] = [education_df[column][row] for row in expected_rows] + expected = expected.astype(dtype) + expected.columns = expected.columns.astype(dtype) + if normalize: + expected["proportion"] = expected_count + expected["proportion"] /= expected_group_size + if dtype == "string[pyarrow]": + # TODO(nullable) also string[python] should return nullable dtypes + expected["proportion"] = expected["proportion"].convert_dtypes() + else: + expected["count"] = expected_count + if dtype == "string[pyarrow]": + expected["count"] = expected["count"].convert_dtypes() + if using_infer_string and dtype == object: + expected = expected.astype( + {"country": "str", "gender": "str", "education": "str"} + ) + + tm.assert_frame_equal(result, expected) + + +@pytest.fixture +def animals_df(): + return DataFrame( + {"key": [1, 1, 1, 1], "num_legs": [2, 4, 4, 6], "num_wings": [2, 0, 0, 0]}, + index=["falcon", "dog", "cat", "ant"], + ) + + +@pytest.mark.parametrize( + "sort, ascending, normalize, name, expected_data, expected_index", + [ + (False, None, False, "count", [1, 2, 1], [(1, 1, 1), (2, 4, 6), (2, 0, 0)]), + (True, True, False, "count", [1, 1, 2], [(1, 1, 1), (2, 6, 4), (2, 0, 0)]), + (True, False, False, "count", [2, 1, 1], [(1, 1, 1), (4, 2, 6), (0, 2, 0)]), + ( + True, + False, + True, + "proportion", + [0.5, 0.25, 0.25], + [(1, 1, 1), (4, 2, 6), (0, 2, 0)], + ), + ], +) +def test_data_frame_value_counts( + animals_df, sort, ascending, normalize, name, expected_data, expected_index +): + # 3-way compare with :meth:`~DataFrame.value_counts` + # Tests from frame/methods/test_value_counts.py + result_frame = animals_df.value_counts( + sort=sort, ascending=ascending, normalize=normalize + ) + expected = Series( + data=expected_data, + index=MultiIndex.from_arrays( + expected_index, names=["key", "num_legs", "num_wings"] + ), + name=name, + ) + tm.assert_series_equal(result_frame, expected) + + result_frame_groupby = animals_df.groupby("key").value_counts( + sort=sort, ascending=ascending, normalize=normalize + ) + + tm.assert_series_equal(result_frame_groupby, expected) + + +@pytest.fixture +def nulls_df(): + n = np.nan + return DataFrame( + { + "A": [1, 1, n, 4, n, 6, 6, 6, 6], + "B": [1, 1, 3, n, n, 6, 6, 6, 6], + "C": [1, 2, 3, 4, 5, 6, n, 8, n], + "D": [1, 2, 3, 4, 5, 6, 7, n, n], + } + ) + + +@pytest.mark.parametrize( + "group_dropna, count_dropna, expected_rows, expected_values", + [ + ( + False, + False, + [0, 1, 3, 5, 7, 6, 8, 2, 4], + [0.5, 0.5, 1.0, 0.25, 0.25, 0.25, 0.25, 1.0, 1.0], + ), + (False, True, [0, 1, 3, 5, 2, 4], [0.5, 0.5, 1.0, 1.0, 1.0, 1.0]), + (True, False, [0, 1, 5, 7, 6, 8], [0.5, 0.5, 0.25, 0.25, 0.25, 0.25]), + (True, True, [0, 1, 5], [0.5, 0.5, 1.0]), + ], +) +def test_dropna_combinations( + nulls_df, group_dropna, count_dropna, expected_rows, expected_values, request +): + if Version(np.__version__) >= Version("1.25") and not group_dropna: + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + gp = nulls_df.groupby(["A", "B"], dropna=group_dropna) + result = gp.value_counts(normalize=True, sort=True, dropna=count_dropna) + columns = DataFrame() + for column in nulls_df.columns: + columns[column] = [nulls_df[column][row] for row in expected_rows] + index = MultiIndex.from_frame(columns) + expected = Series(data=expected_values, index=index, name="proportion") + tm.assert_series_equal(result, expected) + + +@pytest.fixture +def names_with_nulls_df(nulls_fixture): + return DataFrame( + { + "key": [1, 1, 1, 1], + "first_name": ["John", "Anne", "John", "Beth"], + "middle_name": ["Smith", nulls_fixture, nulls_fixture, "Louise"], + }, + ) + + +@pytest.mark.parametrize( + "dropna, expected_data, expected_index", + [ + ( + True, + [1, 1], + MultiIndex.from_arrays( + [(1, 1), ("Beth", "John"), ("Louise", "Smith")], + names=["key", "first_name", "middle_name"], + ), + ), + ( + False, + [1, 1, 1, 1], + MultiIndex( + levels=[ + Index([1]), + Index(["Anne", "Beth", "John"]), + Index(["Louise", "Smith", np.nan]), + ], + codes=[[0, 0, 0, 0], [0, 1, 2, 2], [2, 0, 1, 2]], + names=["key", "first_name", "middle_name"], + ), + ), + ], +) +@pytest.mark.parametrize("normalize, name", [(False, "count"), (True, "proportion")]) +def test_data_frame_value_counts_dropna( + names_with_nulls_df, dropna, normalize, name, expected_data, expected_index +): + # GH 41334 + # 3-way compare with :meth:`~DataFrame.value_counts` + # Tests with nulls from frame/methods/test_value_counts.py + result_frame = names_with_nulls_df.value_counts(dropna=dropna, normalize=normalize) + expected = Series( + data=expected_data, + index=expected_index, + name=name, + ) + if normalize: + expected /= float(len(expected_data)) + + tm.assert_series_equal(result_frame, expected) + + result_frame_groupby = names_with_nulls_df.groupby("key").value_counts( + dropna=dropna, normalize=normalize + ) + + tm.assert_series_equal(result_frame_groupby, expected) + + +@pytest.mark.parametrize("as_index", [False, True]) +@pytest.mark.parametrize("observed", [False, True]) +@pytest.mark.parametrize( + "normalize, name, expected_data", + [ + ( + False, + "count", + np.array([2, 1, 1, 0, 0, 0, 1, 1, 0, 0, 0, 0], dtype=np.int64), + ), + ( + True, + "proportion", + np.array([0.5, 0.25, 0.25, 0.0, 0.0, 0.0, 0.5, 0.5, 0.0, 0.0, 0.0, 0.0]), + ), + ], +) +def test_categorical_single_grouper_with_only_observed_categories( + education_df, as_index, observed, normalize, name, expected_data, request +): + # Test single categorical grouper with only observed grouping categories + # when non-groupers are also categorical + if Version(np.__version__) >= Version("1.25"): + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + + gp = education_df.astype("category").groupby( + "country", as_index=as_index, observed=observed + ) + result = gp.value_counts(normalize=normalize) + + expected_index = MultiIndex.from_tuples( + [ + ("FR", "male", "low"), + ("FR", "female", "high"), + ("FR", "male", "medium"), + ("FR", "female", "low"), + ("FR", "female", "medium"), + ("FR", "male", "high"), + ("US", "female", "high"), + ("US", "male", "low"), + ("US", "female", "low"), + ("US", "female", "medium"), + ("US", "male", "high"), + ("US", "male", "medium"), + ], + names=["country", "gender", "education"], + ) + + expected_series = Series( + data=expected_data, + index=expected_index, + name=name, + ) + for i in range(3): + expected_series.index = expected_series.index.set_levels( + CategoricalIndex(expected_series.index.levels[i]), level=i + ) + + if as_index: + tm.assert_series_equal(result, expected_series) + else: + expected = expected_series.reset_index( + name="proportion" if normalize else "count" + ) + tm.assert_frame_equal(result, expected) + + +def assert_categorical_single_grouper( + education_df, as_index, observed, expected_index, normalize, name, expected_data +): + # Test single categorical grouper when non-groupers are also categorical + education_df = education_df.copy().astype("category") + + # Add non-observed grouping categories + education_df["country"] = education_df["country"].cat.add_categories(["ASIA"]) + + gp = education_df.groupby("country", as_index=as_index, observed=observed) + result = gp.value_counts(normalize=normalize) + + expected_series = Series( + data=expected_data, + index=MultiIndex.from_tuples( + expected_index, + names=["country", "gender", "education"], + ), + name=name, + ) + for i in range(3): + index_level = CategoricalIndex(expected_series.index.levels[i]) + if i == 0: + index_level = index_level.set_categories( + education_df["country"].cat.categories + ) + expected_series.index = expected_series.index.set_levels(index_level, level=i) + + if as_index: + tm.assert_series_equal(result, expected_series) + else: + expected = expected_series.reset_index(name=name) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize( + "normalize, name, expected_data", + [ + ( + False, + "count", + np.array([2, 1, 1, 0, 0, 0, 1, 1, 0, 0, 0, 0], dtype=np.int64), + ), + ( + True, + "proportion", + np.array([0.5, 0.25, 0.25, 0.0, 0.0, 0.0, 0.5, 0.5, 0.0, 0.0, 0.0, 0.0]), + ), + ], +) +def test_categorical_single_grouper_observed_true( + education_df, as_index, normalize, name, expected_data, request +): + # GH#46357 + + if Version(np.__version__) >= Version("1.25"): + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + + expected_index = [ + ("FR", "male", "low"), + ("FR", "female", "high"), + ("FR", "male", "medium"), + ("FR", "female", "low"), + ("FR", "female", "medium"), + ("FR", "male", "high"), + ("US", "female", "high"), + ("US", "male", "low"), + ("US", "female", "low"), + ("US", "female", "medium"), + ("US", "male", "high"), + ("US", "male", "medium"), + ] + + assert_categorical_single_grouper( + education_df=education_df, + as_index=as_index, + observed=True, + expected_index=expected_index, + normalize=normalize, + name=name, + expected_data=expected_data, + ) + + +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize( + "normalize, name, expected_data", + [ + ( + False, + "count", + np.array( + [2, 1, 1, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], dtype=np.int64 + ), + ), + ( + True, + "proportion", + np.array( + [ + 0.5, + 0.25, + 0.25, + 0.0, + 0.0, + 0.0, + 0.5, + 0.5, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + 0.0, + ] + ), + ), + ], +) +def test_categorical_single_grouper_observed_false( + education_df, as_index, normalize, name, expected_data, request +): + # GH#46357 + + if Version(np.__version__) >= Version("1.25"): + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + + expected_index = [ + ("FR", "male", "low"), + ("FR", "female", "high"), + ("FR", "male", "medium"), + ("FR", "female", "low"), + ("FR", "female", "medium"), + ("FR", "male", "high"), + ("US", "female", "high"), + ("US", "male", "low"), + ("US", "female", "low"), + ("US", "female", "medium"), + ("US", "male", "high"), + ("US", "male", "medium"), + ("ASIA", "female", "high"), + ("ASIA", "female", "low"), + ("ASIA", "female", "medium"), + ("ASIA", "male", "high"), + ("ASIA", "male", "low"), + ("ASIA", "male", "medium"), + ] + + assert_categorical_single_grouper( + education_df=education_df, + as_index=as_index, + observed=False, + expected_index=expected_index, + normalize=normalize, + name=name, + expected_data=expected_data, + ) + + +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize( + "observed, expected_index", + [ + ( + False, + [ + ("FR", "high", "female"), + ("FR", "high", "male"), + ("FR", "low", "male"), + ("FR", "low", "female"), + ("FR", "medium", "male"), + ("FR", "medium", "female"), + ("US", "high", "female"), + ("US", "high", "male"), + ("US", "low", "male"), + ("US", "low", "female"), + ("US", "medium", "female"), + ("US", "medium", "male"), + ], + ), + ( + True, + [ + ("FR", "high", "female"), + ("FR", "low", "male"), + ("FR", "medium", "male"), + ("US", "high", "female"), + ("US", "low", "male"), + ], + ), + ], +) +@pytest.mark.parametrize( + "normalize, name, expected_data", + [ + ( + False, + "count", + np.array([1, 0, 2, 0, 1, 0, 1, 0, 1, 0, 0, 0], dtype=np.int64), + ), + ( + True, + "proportion", + # NaN values corresponds to non-observed groups + np.array([1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0, 0.0]), + ), + ], +) +def test_categorical_multiple_groupers( + education_df, as_index, observed, expected_index, normalize, name, expected_data +): + # GH#46357 + + # Test multiple categorical groupers when non-groupers are non-categorical + education_df = education_df.copy() + education_df["country"] = education_df["country"].astype("category") + education_df["education"] = education_df["education"].astype("category") + + gp = education_df.groupby( + ["country", "education"], as_index=as_index, observed=observed + ) + result = gp.value_counts(normalize=normalize) + + expected_series = Series( + data=expected_data[expected_data > 0.0] if observed else expected_data, + index=MultiIndex.from_tuples( + expected_index, + names=["country", "education", "gender"], + ), + name=name, + ) + for i in range(2): + expected_series.index = expected_series.index.set_levels( + CategoricalIndex(expected_series.index.levels[i]), level=i + ) + + if as_index: + tm.assert_series_equal(result, expected_series) + else: + expected = expected_series.reset_index( + name="proportion" if normalize else "count" + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("as_index", [False, True]) +@pytest.mark.parametrize("observed", [False, True]) +@pytest.mark.parametrize( + "normalize, name, expected_data", + [ + ( + False, + "count", + np.array([2, 1, 1, 0, 0, 0, 1, 1, 0, 0, 0, 0], dtype=np.int64), + ), + ( + True, + "proportion", + # NaN values corresponds to non-observed groups + np.array([0.5, 0.25, 0.25, 0.0, 0.0, 0.0, 0.5, 0.5, 0.0, 0.0, 0.0, 0.0]), + ), + ], +) +def test_categorical_non_groupers( + education_df, as_index, observed, normalize, name, expected_data, request +): + # GH#46357 Test non-observed categories are included in the result, + # regardless of `observed` + + if Version(np.__version__) >= Version("1.25"): + request.applymarker( + pytest.mark.xfail( + reason=( + "pandas default unstable sorting of duplicates" + "issue with numpy>=1.25 with AVX instructions" + ), + strict=False, + ) + ) + + education_df = education_df.copy() + education_df["gender"] = education_df["gender"].astype("category") + education_df["education"] = education_df["education"].astype("category") + + gp = education_df.groupby("country", as_index=as_index, observed=observed) + result = gp.value_counts(normalize=normalize) + + expected_index = [ + ("FR", "male", "low"), + ("FR", "female", "high"), + ("FR", "male", "medium"), + ("FR", "female", "low"), + ("FR", "female", "medium"), + ("FR", "male", "high"), + ("US", "female", "high"), + ("US", "male", "low"), + ("US", "female", "low"), + ("US", "female", "medium"), + ("US", "male", "high"), + ("US", "male", "medium"), + ] + expected_series = Series( + data=expected_data, + index=MultiIndex.from_tuples( + expected_index, + names=["country", "gender", "education"], + ), + name=name, + ) + for i in range(1, 3): + expected_series.index = expected_series.index.set_levels( + CategoricalIndex(expected_series.index.levels[i]), level=i + ) + + if as_index: + tm.assert_series_equal(result, expected_series) + else: + expected = expected_series.reset_index( + name="proportion" if normalize else "count" + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "normalize, expected_label, expected_values", + [ + (False, "count", [1, 1, 1]), + (True, "proportion", [0.5, 0.5, 1.0]), + ], +) +def test_mixed_groupings(normalize, expected_label, expected_values): + # Test multiple groupings + df = DataFrame({"A": [1, 2, 1], "B": [1, 2, 3]}) + gp = df.groupby([[4, 5, 4], "A", lambda i: 7 if i == 1 else 8], as_index=False) + result = gp.value_counts(sort=True, normalize=normalize) + expected = DataFrame( + { + "level_0": np.array([4, 4, 5], dtype=int), + "A": [1, 1, 2], + "level_2": [8, 8, 7], + "B": [1, 3, 2], + expected_label: expected_values, + } + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "test, columns, expected_names", + [ + ("repeat", list("abbde"), ["a", None, "d", "b", "b", "e"]), + ("level", list("abcd") + ["level_1"], ["a", None, "d", "b", "c", "level_1"]), + ], +) +@pytest.mark.parametrize("as_index", [False, True]) +def test_column_label_duplicates(test, columns, expected_names, as_index): + # GH 44992 + # Test for duplicate input column labels and generated duplicate labels + df = DataFrame([[1, 3, 5, 7, 9], [2, 4, 6, 8, 10]], columns=columns) + expected_data = [(1, 0, 7, 3, 5, 9), (2, 1, 8, 4, 6, 10)] + keys = ["a", np.array([0, 1], dtype=np.int64), "d"] + result = df.groupby(keys, as_index=as_index).value_counts() + if as_index: + expected = Series( + data=(1, 1), + index=MultiIndex.from_tuples( + expected_data, + names=expected_names, + ), + name="count", + ) + tm.assert_series_equal(result, expected) + else: + expected_data = [list(row) + [1] for row in expected_data] + expected_columns = list(expected_names) + expected_columns[1] = "level_1" + expected_columns.append("count") + expected = DataFrame(expected_data, columns=expected_columns) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "normalize, expected_label", + [ + (False, "count"), + (True, "proportion"), + ], +) +def test_result_label_duplicates(normalize, expected_label): + # Test for result column label duplicating an input column label + gb = DataFrame([[1, 2, 3]], columns=["a", "b", expected_label]).groupby( + "a", as_index=False + ) + msg = f"Column label '{expected_label}' is duplicate of result column" + with pytest.raises(ValueError, match=msg): + gb.value_counts(normalize=normalize) + + +def test_ambiguous_grouping(): + # Test that groupby is not confused by groupings length equal to row count + df = DataFrame({"a": [1, 1]}) + gb = df.groupby(np.array([1, 1], dtype=np.int64)) + result = gb.value_counts() + expected = Series( + [2], index=MultiIndex.from_tuples([[1, 1]], names=[None, "a"]), name="count" + ) + tm.assert_series_equal(result, expected) + + +def test_subset_overlaps_gb_key_raises(): + # GH 46383 + df = DataFrame({"c1": ["a", "b", "c"], "c2": ["x", "y", "y"]}, index=[0, 1, 1]) + msg = "Keys {'c1'} in subset cannot be in the groupby column keys." + with pytest.raises(ValueError, match=msg): + df.groupby("c1").value_counts(subset=["c1"]) + + +def test_subset_doesnt_exist_in_frame(): + # GH 46383 + df = DataFrame({"c1": ["a", "b", "c"], "c2": ["x", "y", "y"]}, index=[0, 1, 1]) + msg = "Keys {'c3'} in subset do not exist in the DataFrame." + with pytest.raises(ValueError, match=msg): + df.groupby("c1").value_counts(subset=["c3"]) + + +def test_subset(): + # GH 46383 + df = DataFrame({"c1": ["a", "b", "c"], "c2": ["x", "y", "y"]}, index=[0, 1, 1]) + result = df.groupby(level=0).value_counts(subset=["c2"]) + expected = Series( + [1, 2], + index=MultiIndex.from_arrays([[0, 1], ["x", "y"]], names=[None, "c2"]), + name="count", + ) + tm.assert_series_equal(result, expected) + + +def test_subset_duplicate_columns(): + # GH 46383 + df = DataFrame( + [["a", "x", "x"], ["b", "y", "y"], ["b", "y", "y"]], + index=[0, 1, 1], + columns=["c1", "c2", "c2"], + ) + result = df.groupby(level=0).value_counts(subset=["c2"]) + expected = Series( + [1, 2], + index=MultiIndex.from_arrays( + [[0, 1], ["x", "y"], ["x", "y"]], names=[None, "c2", "c2"] + ), + name="count", + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("utc", [True, False]) +def test_value_counts_time_grouper(utc, unit): + # GH#50486 + df = DataFrame( + { + "Timestamp": [ + 1565083561, + 1565083561 + 86400, + 1565083561 + 86500, + 1565083561 + 86400 * 2, + 1565083561 + 86400 * 3, + 1565083561 + 86500 * 3, + 1565083561 + 86400 * 4, + ], + "Food": ["apple", "apple", "banana", "banana", "orange", "orange", "pear"], + } + ).drop([3]) + + df["Datetime"] = to_datetime(df["Timestamp"], utc=utc, unit="s").dt.as_unit(unit) + gb = df.groupby(Grouper(freq="1D", key="Datetime")) + result = gb.value_counts() + dates = to_datetime( + ["2019-08-06", "2019-08-07", "2019-08-09", "2019-08-10"], utc=utc + ).as_unit(unit) + timestamps = df["Timestamp"].unique() + index = MultiIndex( + levels=[dates, timestamps, ["apple", "banana", "orange", "pear"]], + codes=[[0, 1, 1, 2, 2, 3], range(6), [0, 0, 1, 2, 2, 3]], + names=["Datetime", "Timestamp", "Food"], + ) + expected = Series(1, index=index, name="count") + tm.assert_series_equal(result, expected) + + +def test_value_counts_integer_columns(): + # GH#55627 + df = DataFrame({1: ["a", "a", "a"], 2: ["a", "a", "d"], 3: ["a", "b", "c"]}) + gp = df.groupby([1, 2], as_index=False, sort=False) + result = gp[3].value_counts() + expected = DataFrame( + {1: ["a", "a", "a"], 2: ["a", "a", "d"], 3: ["a", "b", "c"], "count": 1} + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("vc_sort", [True, False]) +@pytest.mark.parametrize("normalize", [True, False]) +def test_value_counts_sort(sort, vc_sort, normalize): + # GH#55951 + df = DataFrame({"a": [2, 1, 1, 1], 0: [3, 4, 3, 3]}) + gb = df.groupby("a", sort=sort) + result = gb.value_counts(sort=vc_sort, normalize=normalize) + + if normalize: + values = [2 / 3, 1 / 3, 1.0] + else: + values = [2, 1, 1] + index = MultiIndex( + levels=[[1, 2], [3, 4]], codes=[[0, 0, 1], [0, 1, 0]], names=["a", 0] + ) + expected = Series(values, index=index, name="proportion" if normalize else "count") + if sort and vc_sort: + taker = [0, 1, 2] + elif sort and not vc_sort: + taker = [0, 1, 2] + elif not sort and vc_sort: + taker = [0, 2, 1] + else: + taker = [2, 1, 0] + expected = expected.take(taker) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("vc_sort", [True, False]) +@pytest.mark.parametrize("normalize", [True, False]) +def test_value_counts_sort_categorical(sort, vc_sort, normalize): + # GH#55951 + df = DataFrame({"a": [2, 1, 1, 1], 0: [3, 4, 3, 3]}, dtype="category") + gb = df.groupby("a", sort=sort, observed=True) + result = gb.value_counts(sort=vc_sort, normalize=normalize) + + if normalize: + values = [2 / 3, 1 / 3, 1.0, 0.0] + else: + values = [2, 1, 1, 0] + name = "proportion" if normalize else "count" + expected = DataFrame( + { + "a": Categorical([1, 1, 2, 2]), + 0: Categorical([3, 4, 3, 4]), + name: values, + } + ).set_index(["a", 0])[name] + if sort and vc_sort: + taker = [0, 1, 2, 3] + elif sort and not vc_sort: + taker = [0, 1, 2, 3] + elif not sort and vc_sort: + taker = [0, 2, 1, 3] + else: + taker = [2, 3, 0, 1] + expected = expected.take(taker) + + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_all_methods.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_all_methods.py new file mode 100644 index 0000000000000000000000000000000000000000..ad35bec70f668f1df9808d1aebec2b1405424bc1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_all_methods.py @@ -0,0 +1,83 @@ +""" +Tests that apply to all groupby operation methods. + +The only tests that should appear here are those that use the `groupby_func` fixture. +Even if it does use that fixture, prefer a more specific test file if it available +such as: + + - test_categorical + - test_groupby_dropna + - test_groupby_subclass + - test_raises +""" + +import pytest + +import pandas as pd +from pandas import DataFrame +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +def test_multiindex_group_all_columns_when_empty(groupby_func): + # GH 32464 + df = DataFrame({"a": [], "b": [], "c": []}).set_index(["a", "b", "c"]) + gb = df.groupby(["a", "b", "c"], group_keys=False) + method = getattr(gb, groupby_func) + args = get_groupby_method_args(groupby_func, df) + + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = method(*args).index + expected = df.index + tm.assert_index_equal(result, expected) + + +def test_duplicate_columns(request, groupby_func, as_index): + # GH#50806 + if groupby_func == "corrwith": + msg = "GH#50845 - corrwith fails when there are duplicate columns" + request.applymarker(pytest.mark.xfail(reason=msg)) + df = DataFrame([[1, 3, 6], [1, 4, 7], [2, 5, 8]], columns=list("abb")) + args = get_groupby_method_args(groupby_func, df) + gb = df.groupby("a", as_index=as_index) + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = getattr(gb, groupby_func)(*args) + + expected_df = df.set_axis(["a", "b", "c"], axis=1) + expected_args = get_groupby_method_args(groupby_func, expected_df) + expected_gb = expected_df.groupby("a", as_index=as_index) + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + expected = getattr(expected_gb, groupby_func)(*expected_args) + if groupby_func not in ("size", "ngroup", "cumcount"): + expected = expected.rename(columns={"c": "b"}) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "idx", + [ + pd.Index(["a", "a"], name="foo"), + pd.MultiIndex.from_tuples((("a", "a"), ("a", "a")), names=["foo", "bar"]), + ], +) +def test_dup_labels_output_shape(groupby_func, idx): + if groupby_func in {"size", "ngroup", "cumcount"}: + pytest.skip(f"Not applicable for {groupby_func}") + + df = DataFrame([[1, 1]], columns=idx) + grp_by = df.groupby([0]) + + args = get_groupby_method_args(groupby_func, df) + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = getattr(grp_by, groupby_func)(*args) + + assert result.shape == (1, 2) + tm.assert_index_equal(result.columns, idx) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_api.py new file mode 100644 index 0000000000000000000000000000000000000000..5c5982954de2f889d3f23d30273cb1a10089315f --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_api.py @@ -0,0 +1,265 @@ +""" +Tests of the groupby API, including internal consistency and with other pandas objects. + +Tests in this file should only check the existence, names, and arguments of groupby +methods. It should not test the results of any groupby operation. +""" + +import inspect + +import pytest + +from pandas import ( + DataFrame, + Series, +) +from pandas.core.groupby.base import ( + groupby_other_methods, + reduction_kernels, + transformation_kernels, +) +from pandas.core.groupby.generic import ( + DataFrameGroupBy, + SeriesGroupBy, +) + + +def test_tab_completion(multiindex_dataframe_random_data): + grp = multiindex_dataframe_random_data.groupby(level="second") + results = {v for v in dir(grp) if not v.startswith("_")} + expected = { + "A", + "B", + "C", + "agg", + "aggregate", + "apply", + "boxplot", + "filter", + "first", + "get_group", + "groups", + "hist", + "indices", + "last", + "max", + "mean", + "median", + "min", + "ngroups", + "nth", + "ohlc", + "plot", + "prod", + "size", + "std", + "sum", + "transform", + "var", + "sem", + "count", + "nunique", + "head", + "describe", + "cummax", + "quantile", + "rank", + "cumprod", + "tail", + "resample", + "cummin", + "fillna", + "cumsum", + "cumcount", + "ngroup", + "all", + "shift", + "skew", + "take", + "pct_change", + "any", + "corr", + "corrwith", + "cov", + "dtypes", + "ndim", + "diff", + "idxmax", + "idxmin", + "ffill", + "bfill", + "rolling", + "expanding", + "pipe", + "sample", + "ewm", + "value_counts", + } + assert results == expected + + +def test_all_methods_categorized(multiindex_dataframe_random_data): + grp = multiindex_dataframe_random_data.groupby( + multiindex_dataframe_random_data.iloc[:, 0] + ) + names = {_ for _ in dir(grp) if not _.startswith("_")} - set( + multiindex_dataframe_random_data.columns + ) + new_names = set(names) + new_names -= reduction_kernels + new_names -= transformation_kernels + new_names -= groupby_other_methods + + assert not reduction_kernels & transformation_kernels + assert not reduction_kernels & groupby_other_methods + assert not transformation_kernels & groupby_other_methods + + # new public method? + if new_names: + msg = f""" +There are uncategorized methods defined on the Grouper class: +{new_names}. + +Was a new method recently added? + +Every public method On Grouper must appear in exactly one the +following three lists defined in pandas.core.groupby.base: +- `reduction_kernels` +- `transformation_kernels` +- `groupby_other_methods` +see the comments in pandas/core/groupby/base.py for guidance on +how to fix this test. + """ + raise AssertionError(msg) + + # removed a public method? + all_categorized = reduction_kernels | transformation_kernels | groupby_other_methods + if names != all_categorized: + msg = f""" +Some methods which are supposed to be on the Grouper class +are missing: +{all_categorized - names}. + +They're still defined in one of the lists that live in pandas/core/groupby/base.py. +If you removed a method, you should update them +""" + raise AssertionError(msg) + + +def test_frame_consistency(groupby_func): + # GH#48028 + if groupby_func in ("first", "last"): + msg = "first and last are entirely different between frame and groupby" + pytest.skip(reason=msg) + + if groupby_func in ("cumcount", "ngroup"): + assert not hasattr(DataFrame, groupby_func) + return + + frame_method = getattr(DataFrame, groupby_func) + gb_method = getattr(DataFrameGroupBy, groupby_func) + result = set(inspect.signature(gb_method).parameters) + if groupby_func == "size": + # "size" is a method on GroupBy but property on DataFrame: + expected = {"self"} + else: + expected = set(inspect.signature(frame_method).parameters) + + # Exclude certain arguments from result and expected depending on the operation + # Some of these may be purposeful inconsistencies between the APIs + exclude_expected, exclude_result = set(), set() + if groupby_func in ("any", "all"): + exclude_expected = {"kwargs", "bool_only", "axis"} + elif groupby_func in ("count",): + exclude_expected = {"numeric_only", "axis"} + elif groupby_func in ("nunique",): + exclude_expected = {"axis"} + elif groupby_func in ("max", "min"): + exclude_expected = {"axis", "kwargs", "skipna"} + exclude_result = {"min_count", "engine", "engine_kwargs"} + elif groupby_func in ("mean", "std", "sum", "var"): + exclude_expected = {"axis", "kwargs", "skipna"} + exclude_result = {"engine", "engine_kwargs"} + elif groupby_func in ("median", "prod", "sem"): + exclude_expected = {"axis", "kwargs", "skipna"} + elif groupby_func in ("backfill", "bfill", "ffill", "pad"): + exclude_expected = {"downcast", "inplace", "axis", "limit_area"} + elif groupby_func in ("cummax", "cummin"): + exclude_expected = {"skipna", "args"} + exclude_result = {"numeric_only"} + elif groupby_func in ("cumprod", "cumsum"): + exclude_expected = {"skipna"} + elif groupby_func in ("pct_change",): + exclude_expected = {"kwargs"} + exclude_result = {"axis"} + elif groupby_func in ("rank",): + exclude_expected = {"numeric_only"} + elif groupby_func in ("quantile",): + exclude_expected = {"method", "axis"} + + # Ensure excluded arguments are actually in the signatures + assert result & exclude_result == exclude_result + assert expected & exclude_expected == exclude_expected + + result -= exclude_result + expected -= exclude_expected + assert result == expected + + +def test_series_consistency(request, groupby_func): + # GH#48028 + if groupby_func in ("first", "last"): + pytest.skip("first and last are entirely different between Series and groupby") + + if groupby_func in ("cumcount", "corrwith", "ngroup"): + assert not hasattr(Series, groupby_func) + return + + series_method = getattr(Series, groupby_func) + gb_method = getattr(SeriesGroupBy, groupby_func) + result = set(inspect.signature(gb_method).parameters) + if groupby_func == "size": + # "size" is a method on GroupBy but property on Series + expected = {"self"} + else: + expected = set(inspect.signature(series_method).parameters) + + # Exclude certain arguments from result and expected depending on the operation + # Some of these may be purposeful inconsistencies between the APIs + exclude_expected, exclude_result = set(), set() + if groupby_func in ("any", "all"): + exclude_expected = {"kwargs", "bool_only", "axis"} + elif groupby_func in ("diff",): + exclude_result = {"axis"} + elif groupby_func in ("max", "min"): + exclude_expected = {"axis", "kwargs", "skipna"} + exclude_result = {"min_count", "engine", "engine_kwargs"} + elif groupby_func in ("mean", "std", "sum", "var"): + exclude_expected = {"axis", "kwargs", "skipna"} + exclude_result = {"engine", "engine_kwargs"} + elif groupby_func in ("median", "prod", "sem"): + exclude_expected = {"axis", "kwargs", "skipna"} + elif groupby_func in ("backfill", "bfill", "ffill", "pad"): + exclude_expected = {"downcast", "inplace", "axis", "limit_area"} + elif groupby_func in ("cummax", "cummin"): + exclude_expected = {"skipna", "args"} + exclude_result = {"numeric_only"} + elif groupby_func in ("cumprod", "cumsum"): + exclude_expected = {"skipna"} + elif groupby_func in ("pct_change",): + exclude_expected = {"kwargs"} + exclude_result = {"axis"} + elif groupby_func in ("rank",): + exclude_expected = {"numeric_only"} + elif groupby_func in ("idxmin", "idxmax"): + exclude_expected = {"args", "kwargs"} + elif groupby_func in ("quantile",): + exclude_result = {"numeric_only"} + + # Ensure excluded arguments are actually in the signatures + assert result & exclude_result == exclude_result + assert expected & exclude_expected == exclude_expected + + result -= exclude_result + expected -= exclude_expected + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply.py new file mode 100644 index 0000000000000000000000000000000000000000..8ee38a688a1a0e54976b6dcbdbba4a2c2696b535 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply.py @@ -0,0 +1,1605 @@ +from datetime import ( + date, + datetime, +) + +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + bdate_range, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +def test_apply_func_that_appends_group_to_list_without_copy(): + # GH: 17718 + + df = DataFrame(1, index=list(range(10)) * 10, columns=[0]).reset_index() + groups = [] + + def store(group): + groups.append(group) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("index").apply(store) + expected_value = DataFrame( + {"index": [0] * 10, 0: [1] * 10}, index=pd.RangeIndex(0, 100, 10) + ) + + tm.assert_frame_equal(groups[0], expected_value) + + +def test_apply_index_date(using_infer_string): + # GH 5788 + ts = [ + "2011-05-16 00:00", + "2011-05-16 01:00", + "2011-05-16 02:00", + "2011-05-16 03:00", + "2011-05-17 02:00", + "2011-05-17 03:00", + "2011-05-17 04:00", + "2011-05-17 05:00", + "2011-05-18 02:00", + "2011-05-18 03:00", + "2011-05-18 04:00", + "2011-05-18 05:00", + ] + df = DataFrame( + { + "value": [ + 1.40893, + 1.40760, + 1.40750, + 1.40649, + 1.40893, + 1.40760, + 1.40750, + 1.40649, + 1.40893, + 1.40760, + 1.40750, + 1.40649, + ], + }, + index=Index(pd.to_datetime(ts), name="date_time"), + ) + expected = df.groupby(df.index.date).idxmax() + result = df.groupby(df.index.date).apply(lambda x: x.idxmax()) + tm.assert_frame_equal(result, expected) + + +def test_apply_index_date_object(): + # GH 5789 + # don't auto coerce dates + ts = [ + "2011-05-16 00:00", + "2011-05-16 01:00", + "2011-05-16 02:00", + "2011-05-16 03:00", + "2011-05-17 02:00", + "2011-05-17 03:00", + "2011-05-17 04:00", + "2011-05-17 05:00", + "2011-05-18 02:00", + "2011-05-18 03:00", + "2011-05-18 04:00", + "2011-05-18 05:00", + ] + df = DataFrame([row.split() for row in ts], columns=["date", "time"]) + df["value"] = [ + 1.40893, + 1.40760, + 1.40750, + 1.40649, + 1.40893, + 1.40760, + 1.40750, + 1.40649, + 1.40893, + 1.40760, + 1.40750, + 1.40649, + ] + exp_idx = Index(["2011-05-16", "2011-05-17", "2011-05-18"], name="date") + expected = Series(["00:00", "02:00", "02:00"], index=exp_idx) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("date", group_keys=False).apply( + lambda x: x["time"][x["value"].idxmax()] + ) + tm.assert_series_equal(result, expected) + + +def test_apply_trivial(using_infer_string): + # GH 20066 + # trivial apply: ignore input and return a constant dataframe. + df = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + dtype = "str" if using_infer_string else "object" + expected = pd.concat([df.iloc[1:], df.iloc[1:]], axis=1, keys=["float64", dtype]) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby([str(x) for x in df.dtypes], axis=1) + result = gb.apply(lambda x: df.iloc[1:]) + + tm.assert_frame_equal(result, expected) + + +def test_apply_trivial_fail(using_infer_string): + # GH 20066 + df = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + dtype = "str" if using_infer_string else "object" + expected = pd.concat([df, df], axis=1, keys=["float64", dtype]) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby([str(x) for x in df.dtypes], axis=1, group_keys=True) + result = gb.apply(lambda x: df) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "df, group_names", + [ + (DataFrame({"a": [1, 1, 1, 2, 3], "b": ["a", "a", "a", "b", "c"]}), [1, 2, 3]), + (DataFrame({"a": [0, 0, 1, 1], "b": [0, 1, 0, 1]}), [0, 1]), + (DataFrame({"a": [1]}), [1]), + (DataFrame({"a": [1, 1, 1, 2, 2, 1, 1, 2], "b": range(8)}), [1, 2]), + (DataFrame({"a": [1, 2, 3, 1, 2, 3], "two": [4, 5, 6, 7, 8, 9]}), [1, 2, 3]), + ( + DataFrame( + { + "a": list("aaabbbcccc"), + "B": [3, 4, 3, 6, 5, 2, 1, 9, 5, 4], + "C": [4, 0, 2, 2, 2, 7, 8, 6, 2, 8], + } + ), + ["a", "b", "c"], + ), + (DataFrame([[1, 2, 3], [2, 2, 3]], columns=["a", "b", "c"]), [1, 2]), + ], + ids=[ + "GH2936", + "GH7739 & GH10519", + "GH10519", + "GH2656", + "GH12155", + "GH20084", + "GH21417", + ], +) +def test_group_apply_once_per_group(df, group_names): + # GH2936, GH7739, GH10519, GH2656, GH12155, GH20084, GH21417 + + # This test should ensure that a function is only evaluated + # once per group. Previously the function has been evaluated twice + # on the first group to check if the Cython index slider is safe to use + # This test ensures that the side effect (append to list) is only triggered + # once per group + + names = [] + # cannot parameterize over the functions since they need external + # `names` to detect side effects + + def f_copy(group): + # this takes the fast apply path + names.append(group.name) + return group.copy() + + def f_nocopy(group): + # this takes the slow apply path + names.append(group.name) + return group + + def f_scalar(group): + # GH7739, GH2656 + names.append(group.name) + return 0 + + def f_none(group): + # GH10519, GH12155, GH21417 + names.append(group.name) + + def f_constant_df(group): + # GH2936, GH20084 + names.append(group.name) + return DataFrame({"a": [1], "b": [1]}) + + for func in [f_copy, f_nocopy, f_scalar, f_none, f_constant_df]: + del names[:] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("a", group_keys=False).apply(func) + assert names == group_names + + +def test_group_apply_once_per_group2(capsys): + # GH: 31111 + # groupby-apply need to execute len(set(group_by_columns)) times + + expected = 2 # Number of times `apply` should call a function for the current test + + df = DataFrame( + { + "group_by_column": [0, 0, 0, 0, 1, 1, 1, 1], + "test_column": ["0", "2", "4", "6", "8", "10", "12", "14"], + }, + index=["0", "2", "4", "6", "8", "10", "12", "14"], + ) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("group_by_column", group_keys=False).apply( + lambda df: print("function_called") + ) + + result = capsys.readouterr().out.count("function_called") + # If `groupby` behaves unexpectedly, this test will break + assert result == expected + + +def test_apply_fast_slow_identical(): + # GH 31613 + + df = DataFrame({"A": [0, 0, 1], "b": range(3)}) + + # For simple index structures we check for fast/slow apply using + # an identity check on in/output + def slow(group): + return group + + def fast(group): + return group.copy() + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + fast_df = df.groupby("A", group_keys=False).apply(fast) + with tm.assert_produces_warning(FutureWarning, match=msg): + slow_df = df.groupby("A", group_keys=False).apply(slow) + + tm.assert_frame_equal(fast_df, slow_df) + + +@pytest.mark.parametrize( + "func", + [ + lambda x: x, + lambda x: x[:], + lambda x: x.copy(deep=False), + lambda x: x.copy(deep=True), + ], +) +def test_groupby_apply_identity_maybecopy_index_identical(func): + # GH 14927 + # Whether the function returns a copy of the input data or not should not + # have an impact on the index structure of the result since this is not + # transparent to the user + + df = DataFrame({"g": [1, 2, 2, 2], "a": [1, 2, 3, 4], "b": [5, 6, 7, 8]}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("g", group_keys=False).apply(func) + tm.assert_frame_equal(result, df) + + +def test_apply_with_mixed_dtype(): + # GH3480, apply with mixed dtype on axis=1 breaks in 0.11 + df = DataFrame( + { + "foo1": np.random.default_rng(2).standard_normal(6), + "foo2": ["one", "two", "two", "three", "one", "two"], + } + ) + result = df.apply(lambda x: x, axis=1).dtypes + expected = df.dtypes + tm.assert_series_equal(result, expected) + + # GH 3610 incorrect dtype conversion with as_index=False + df = DataFrame({"c1": [1, 2, 6, 6, 8]}) + df["c2"] = df.c1 / 2.0 + result1 = df.groupby("c2").mean().reset_index().c2 + result2 = df.groupby("c2", as_index=False).mean().c2 + tm.assert_series_equal(result1, result2) + + +def test_groupby_as_index_apply(): + # GH #4648 and #3417 + df = DataFrame( + { + "item_id": ["b", "b", "a", "c", "a", "b"], + "user_id": [1, 2, 1, 1, 3, 1], + "time": range(6), + } + ) + + g_as = df.groupby("user_id", as_index=True) + g_not_as = df.groupby("user_id", as_index=False) + + res_as = g_as.head(2).index + res_not_as = g_not_as.head(2).index + exp = Index([0, 1, 2, 4]) + tm.assert_index_equal(res_as, exp) + tm.assert_index_equal(res_not_as, exp) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + res_as_apply = g_as.apply(lambda x: x.head(2)).index + with tm.assert_produces_warning(FutureWarning, match=msg): + res_not_as_apply = g_not_as.apply(lambda x: x.head(2)).index + + # apply doesn't maintain the original ordering + # changed in GH5610 as the as_index=False returns a MI here + exp_not_as_apply = MultiIndex.from_tuples([(0, 0), (0, 2), (1, 1), (2, 4)]) + tp = [(1, 0), (1, 2), (2, 1), (3, 4)] + exp_as_apply = MultiIndex.from_tuples(tp, names=["user_id", None]) + + tm.assert_index_equal(res_as_apply, exp_as_apply) + tm.assert_index_equal(res_not_as_apply, exp_not_as_apply) + + ind = Index(list("abcde")) + df = DataFrame([[1, 2], [2, 3], [1, 4], [1, 5], [2, 6]], index=ind) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = df.groupby(0, as_index=False, group_keys=False).apply(lambda x: x).index + tm.assert_index_equal(res, ind) + + +def test_apply_concat_preserve_names(three_group): + grouped = three_group.groupby(["A", "B"]) + + def desc(group): + result = group.describe() + result.index.name = "stat" + return result + + def desc2(group): + result = group.describe() + result.index.name = "stat" + result = result[: len(group)] + # weirdo + return result + + def desc3(group): + result = group.describe() + + # names are different + result.index.name = f"stat_{len(group):d}" + + result = result[: len(group)] + # weirdo + return result + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(desc) + assert result.index.names == ("A", "B", "stat") + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result2 = grouped.apply(desc2) + assert result2.index.names == ("A", "B", "stat") + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result3 = grouped.apply(desc3) + assert result3.index.names == ("A", "B", None) + + +def test_apply_series_to_frame(): + def f(piece): + with np.errstate(invalid="ignore"): + logged = np.log(piece) + return DataFrame( + {"value": piece, "demeaned": piece - piece.mean(), "logged": logged} + ) + + dr = bdate_range("1/1/2000", periods=100) + ts = Series(np.random.default_rng(2).standard_normal(100), index=dr) + + grouped = ts.groupby(lambda x: x.month, group_keys=False) + result = grouped.apply(f) + + assert isinstance(result, DataFrame) + assert not hasattr(result, "name") # GH49907 + tm.assert_index_equal(result.index, ts.index) + + +def test_apply_series_yield_constant(df): + result = df.groupby(["A", "B"])["C"].apply(len) + assert result.index.names[:2] == ("A", "B") + + +def test_apply_frame_yield_constant(df): + # GH13568 + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["A", "B"]).apply(len) + assert isinstance(result, Series) + assert result.name is None + + result = df.groupby(["A", "B"])[["C", "D"]].apply(len) + assert isinstance(result, Series) + assert result.name is None + + +def test_apply_frame_to_series(df): + grouped = df.groupby(["A", "B"]) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(len) + expected = grouped.count()["C"] + tm.assert_index_equal(result.index, expected.index) + tm.assert_numpy_array_equal(result.values, expected.values) + + +def test_apply_frame_not_as_index_column_name(df): + # GH 35964 - path within _wrap_applied_output not hit by a test + grouped = df.groupby(["A", "B"], as_index=False) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(len) + expected = grouped.count().rename(columns={"C": np.nan}).drop(columns="D") + # TODO(GH#34306): Use assert_frame_equal when column name is not np.nan + tm.assert_index_equal(result.index, expected.index) + tm.assert_numpy_array_equal(result.values, expected.values) + + +def test_apply_frame_concat_series(): + def trans(group): + return group.groupby("B")["C"].sum().sort_values().iloc[:2] + + def trans2(group): + grouped = group.groupby(df.reindex(group.index)["B"]) + return grouped.sum().sort_values().iloc[:2] + + df = DataFrame( + { + "A": np.random.default_rng(2).integers(0, 5, 1000), + "B": np.random.default_rng(2).integers(0, 5, 1000), + "C": np.random.default_rng(2).standard_normal(1000), + } + ) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(trans) + exp = df.groupby("A")["C"].apply(trans2) + tm.assert_series_equal(result, exp, check_names=False) + assert result.name == "C" + + +def test_apply_transform(ts): + grouped = ts.groupby(lambda x: x.month, group_keys=False) + result = grouped.apply(lambda x: x * 2) + expected = grouped.transform(lambda x: x * 2) + tm.assert_series_equal(result, expected) + + +def test_apply_multikey_corner(tsframe): + grouped = tsframe.groupby([lambda x: x.year, lambda x: x.month]) + + def f(group): + return group.sort_values("A")[-5:] + + result = grouped.apply(f) + for key, group in grouped: + tm.assert_frame_equal(result.loc[key], f(group)) + + +@pytest.mark.parametrize("group_keys", [True, False]) +def test_apply_chunk_view(group_keys): + # Low level tinkering could be unsafe, make sure not + df = DataFrame({"key": [1, 1, 1, 2, 2, 2, 3, 3, 3], "value": range(9)}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("key", group_keys=group_keys).apply(lambda x: x.iloc[:2]) + expected = df.take([0, 1, 3, 4, 6, 7]) + if group_keys: + expected.index = MultiIndex.from_arrays( + [[1, 1, 2, 2, 3, 3], expected.index], names=["key", None] + ) + + tm.assert_frame_equal(result, expected) + + +def test_apply_no_name_column_conflict(): + df = DataFrame( + { + "name": [1, 1, 1, 1, 1, 1, 2, 2, 2, 2], + "name2": [0, 0, 0, 1, 1, 1, 0, 0, 1, 1], + "value": range(9, -1, -1), + } + ) + + # it works! #2605 + grouped = df.groupby(["name", "name2"]) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped.apply(lambda x: x.sort_values("value", inplace=True)) + + +def test_apply_typecast_fail(): + df = DataFrame( + { + "d": [1.0, 1.0, 1.0, 2.0, 2.0, 2.0], + "c": np.tile(["a", "b", "c"], 2), + "v": np.arange(1.0, 7.0), + } + ) + + def f(group): + v = group["v"] + group["v2"] = (v - v.min()) / (v.max() - v.min()) + return group + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("d", group_keys=False).apply(f) + + expected = df.copy() + expected["v2"] = np.tile([0.0, 0.5, 1], 2) + + tm.assert_frame_equal(result, expected) + + +def test_apply_multiindex_fail(): + index = MultiIndex.from_arrays([[0, 0, 0, 1, 1, 1], [1, 2, 3, 1, 2, 3]]) + df = DataFrame( + { + "d": [1.0, 1.0, 1.0, 2.0, 2.0, 2.0], + "c": np.tile(["a", "b", "c"], 2), + "v": np.arange(1.0, 7.0), + }, + index=index, + ) + + def f(group): + v = group["v"] + group["v2"] = (v - v.min()) / (v.max() - v.min()) + return group + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("d", group_keys=False).apply(f) + + expected = df.copy() + expected["v2"] = np.tile([0.0, 0.5, 1], 2) + + tm.assert_frame_equal(result, expected) + + +def test_apply_corner(tsframe): + result = tsframe.groupby(lambda x: x.year, group_keys=False).apply(lambda x: x * 2) + expected = tsframe * 2 + tm.assert_frame_equal(result, expected) + + +def test_apply_without_copy(): + # GH 5545 + # returning a non-copy in an applied function fails + + data = DataFrame( + { + "id_field": [100, 100, 200, 300], + "category": ["a", "b", "c", "c"], + "value": [1, 2, 3, 4], + } + ) + + def filt1(x): + if x.shape[0] == 1: + return x.copy() + else: + return x[x.category == "c"] + + def filt2(x): + if x.shape[0] == 1: + return x + else: + return x[x.category == "c"] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = data.groupby("id_field").apply(filt1) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = data.groupby("id_field").apply(filt2) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("test_series", [True, False]) +def test_apply_with_duplicated_non_sorted_axis(test_series): + # GH 30667 + df = DataFrame( + [["x", "p"], ["x", "p"], ["x", "o"]], columns=["X", "Y"], index=[1, 2, 2] + ) + if test_series: + ser = df.set_index("Y")["X"] + result = ser.groupby(level=0, group_keys=False).apply(lambda x: x) + + # not expecting the order to remain the same for duplicated axis + result = result.sort_index() + expected = ser.sort_index() + tm.assert_series_equal(result, expected) + else: + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("Y", group_keys=False).apply(lambda x: x) + + # not expecting the order to remain the same for duplicated axis + result = result.sort_values("Y") + expected = df.sort_values("Y") + tm.assert_frame_equal(result, expected) + + +def test_apply_reindex_values(): + # GH: 26209 + # reindexing from a single column of a groupby object with duplicate indices caused + # a ValueError (cannot reindex from duplicate axis) in 0.24.2, the problem was + # solved in #30679 + values = [1, 2, 3, 4] + indices = [1, 1, 2, 2] + df = DataFrame({"group": ["Group1", "Group2"] * 2, "value": values}, index=indices) + expected = Series(values, index=indices, name="value") + + def reindex_helper(x): + return x.reindex(np.arange(x.index.min(), x.index.max() + 1)) + + # the following group by raised a ValueError + result = df.groupby("group", group_keys=False).value.apply(reindex_helper) + tm.assert_series_equal(expected, result) + + +def test_apply_corner_cases(): + # #535, can't use sliding iterator + + N = 1000 + labels = np.random.default_rng(2).integers(0, 100, size=N) + df = DataFrame( + { + "key": labels, + "value1": np.random.default_rng(2).standard_normal(N), + "value2": ["foo", "bar", "baz", "qux"] * (N // 4), + } + ) + + grouped = df.groupby("key", group_keys=False) + + def f(g): + g["value3"] = g["value1"] * 2 + return g + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(f) + assert "value3" in result + + +def test_apply_numeric_coercion_when_datetime(): + # In the past, group-by/apply operations have been over-eager + # in converting dtypes to numeric, in the presence of datetime + # columns. Various GH issues were filed, the reproductions + # for which are here. + + # GH 15670 + df = DataFrame( + {"Number": [1, 2], "Date": ["2017-03-02"] * 2, "Str": ["foo", "inf"]} + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby(["Number"]).apply(lambda x: x.iloc[0]) + df.Date = pd.to_datetime(df.Date) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["Number"]).apply(lambda x: x.iloc[0]) + tm.assert_series_equal(result["Str"], expected["Str"]) + + # GH 15421 + df = DataFrame( + {"A": [10, 20, 30], "B": ["foo", "3", "4"], "T": [pd.Timestamp("12:31:22")] * 3} + ) + + def get_B(g): + return g.iloc[0][["B"]] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(get_B)["B"] + expected = df.B + expected.index = df.A + tm.assert_series_equal(result, expected) + + # GH 14423 + def predictions(tool): + out = Series(index=["p1", "p2", "useTime"], dtype=object) + if "step1" in list(tool.State): + out["p1"] = str(tool[tool.State == "step1"].Machine.values[0]) + if "step2" in list(tool.State): + out["p2"] = str(tool[tool.State == "step2"].Machine.values[0]) + out["useTime"] = str(tool[tool.State == "step2"].oTime.values[0]) + return out + + df1 = DataFrame( + { + "Key": ["B", "B", "A", "A"], + "State": ["step1", "step2", "step1", "step2"], + "oTime": ["", "2016-09-19 05:24:33", "", "2016-09-19 23:59:04"], + "Machine": ["23", "36L", "36R", "36R"], + } + ) + df2 = df1.copy() + df2.oTime = pd.to_datetime(df2.oTime) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df1.groupby("Key").apply(predictions).p1 + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df2.groupby("Key").apply(predictions).p1 + tm.assert_series_equal(expected, result) + + +def test_apply_aggregating_timedelta_and_datetime(): + # Regression test for GH 15562 + # The following groupby caused ValueErrors and IndexErrors pre 0.20.0 + + df = DataFrame( + { + "clientid": ["A", "B", "C"], + "datetime": [np.datetime64("2017-02-01 00:00:00")] * 3, + } + ) + df["time_delta_zero"] = df.datetime - df.datetime + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("clientid").apply( + lambda ddf: Series( + {"clientid_age": ddf.time_delta_zero.min(), "date": ddf.datetime.min()} + ) + ) + expected = DataFrame( + { + "clientid": ["A", "B", "C"], + "clientid_age": [np.timedelta64(0, "D")] * 3, + "date": [np.datetime64("2017-02-01 00:00:00")] * 3, + } + ).set_index("clientid") + + tm.assert_frame_equal(result, expected) + + +def test_apply_groupby_datetimeindex(): + # GH 26182 + # groupby apply failed on dataframe with DatetimeIndex + + data = [["A", 10], ["B", 20], ["B", 30], ["C", 40], ["C", 50]] + df = DataFrame( + data, columns=["Name", "Value"], index=pd.date_range("2020-09-01", "2020-09-05") + ) + + result = df.groupby("Name").sum() + + expected = DataFrame({"Name": ["A", "B", "C"], "Value": [10, 50, 90]}) + expected.set_index("Name", inplace=True) + + tm.assert_frame_equal(result, expected) + + +def test_time_field_bug(): + # Test a fix for the following error related to GH issue 11324 When + # non-key fields in a group-by dataframe contained time-based fields + # that were not returned by the apply function, an exception would be + # raised. + + df = DataFrame({"a": 1, "b": [datetime.now() for nn in range(10)]}) + + def func_with_no_date(batch): + return Series({"c": 2}) + + def func_with_date(batch): + return Series({"b": datetime(2015, 1, 1), "c": 2}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + dfg_no_conversion = df.groupby(by=["a"]).apply(func_with_no_date) + dfg_no_conversion_expected = DataFrame({"c": 2}, index=[1]) + dfg_no_conversion_expected.index.name = "a" + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + dfg_conversion = df.groupby(by=["a"]).apply(func_with_date) + dfg_conversion_expected = DataFrame( + {"b": pd.Timestamp(2015, 1, 1).as_unit("ns"), "c": 2}, index=[1] + ) + dfg_conversion_expected.index.name = "a" + + tm.assert_frame_equal(dfg_no_conversion, dfg_no_conversion_expected) + tm.assert_frame_equal(dfg_conversion, dfg_conversion_expected) + + +def test_gb_apply_list_of_unequal_len_arrays(): + # GH1738 + df = DataFrame( + { + "group1": ["a", "a", "a", "b", "b", "b", "a", "a", "a", "b", "b", "b"], + "group2": ["c", "c", "d", "d", "d", "e", "c", "c", "d", "d", "d", "e"], + "weight": [1.1, 2, 3, 4, 5, 6, 2, 4, 6, 8, 1, 2], + "value": [7.1, 8, 9, 10, 11, 12, 8, 7, 6, 5, 4, 3], + } + ) + df = df.set_index(["group1", "group2"]) + df_grouped = df.groupby(level=["group1", "group2"], sort=True) + + def noddy(value, weight): + out = np.array(value * weight).repeat(3) + return out + + # the kernel function returns arrays of unequal length + # pandas sniffs the first one, sees it's an array and not + # a list, and assumed the rest are of equal length + # and so tries a vstack + + # don't die + df_grouped.apply(lambda x: noddy(x.value, x.weight)) + + +def test_groupby_apply_all_none(): + # Tests to make sure no errors if apply function returns all None + # values. Issue 9684. + test_df = DataFrame({"groups": [0, 0, 1, 1], "random_vars": [8, 7, 4, 5]}) + + def test_func(x): + pass + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = test_df.groupby("groups").apply(test_func) + expected = DataFrame() + tm.assert_frame_equal(result, expected) + + +def test_groupby_apply_none_first(): + # GH 12824. Tests if apply returns None first. + test_df1 = DataFrame({"groups": [1, 1, 1, 2], "vars": [0, 1, 2, 3]}) + test_df2 = DataFrame({"groups": [1, 2, 2, 2], "vars": [0, 1, 2, 3]}) + + def test_func(x): + if x.shape[0] < 2: + return None + return x.iloc[[0, -1]] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result1 = test_df1.groupby("groups").apply(test_func) + with tm.assert_produces_warning(FutureWarning, match=msg): + result2 = test_df2.groupby("groups").apply(test_func) + index1 = MultiIndex.from_arrays([[1, 1], [0, 2]], names=["groups", None]) + index2 = MultiIndex.from_arrays([[2, 2], [1, 3]], names=["groups", None]) + expected1 = DataFrame({"groups": [1, 1], "vars": [0, 2]}, index=index1) + expected2 = DataFrame({"groups": [2, 2], "vars": [1, 3]}, index=index2) + tm.assert_frame_equal(result1, expected1) + tm.assert_frame_equal(result2, expected2) + + +def test_groupby_apply_return_empty_chunk(): + # GH 22221: apply filter which returns some empty groups + df = DataFrame({"value": [0, 1], "group": ["filled", "empty"]}) + groups = df.groupby("group") + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = groups.apply(lambda group: group[group.value != 1]["value"]) + expected = Series( + [0], + name="value", + index=MultiIndex.from_product( + [["empty", "filled"], [0]], names=["group", None] + ).drop("empty"), + ) + tm.assert_series_equal(result, expected) + + +def test_apply_with_mixed_types(): + # gh-20949 + df = DataFrame({"A": "a a b".split(), "B": [1, 2, 3], "C": [4, 6, 5]}) + g = df.groupby("A", group_keys=False) + + result = g.transform(lambda x: x / x.sum()) + expected = DataFrame({"B": [1 / 3.0, 2 / 3.0, 1], "C": [0.4, 0.6, 1.0]}) + tm.assert_frame_equal(result, expected) + + result = g.apply(lambda x: x / x.sum()) + tm.assert_frame_equal(result, expected) + + +def test_func_returns_object(): + # GH 28652 + df = DataFrame({"a": [1, 2]}, index=Index([1, 2])) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("a").apply(lambda g: g.index) + expected = Series([Index([1]), Index([2])], index=Index([1, 2], name="a")) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "group_column_dtlike", + [datetime.today(), datetime.today().date(), datetime.today().time()], +) +def test_apply_datetime_issue(group_column_dtlike): + # GH-28247 + # groupby-apply throws an error if one of the columns in the DataFrame + # is a datetime object and the column labels are different from + # standard int values in range(len(num_columns)) + + df = DataFrame({"a": ["foo"], "b": [group_column_dtlike]}) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("a").apply(lambda x: Series(["spam"], index=[42])) + + expected = DataFrame(["spam"], Index(["foo"], dtype="str", name="a"), columns=[42]) + tm.assert_frame_equal(result, expected) + + +def test_apply_series_return_dataframe_groups(): + # GH 10078 + tdf = DataFrame( + { + "day": { + 0: pd.Timestamp("2015-02-24 00:00:00"), + 1: pd.Timestamp("2015-02-24 00:00:00"), + 2: pd.Timestamp("2015-02-24 00:00:00"), + 3: pd.Timestamp("2015-02-24 00:00:00"), + 4: pd.Timestamp("2015-02-24 00:00:00"), + }, + "userAgent": { + 0: "some UA string", + 1: "some UA string", + 2: "some UA string", + 3: "another UA string", + 4: "some UA string", + }, + "userId": { + 0: "17661101", + 1: "17661101", + 2: "17661101", + 3: "17661101", + 4: "17661101", + }, + } + ) + + def most_common_values(df): + return Series({c: s.value_counts().index[0] for c, s in df.items()}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = tdf.groupby("day").apply(most_common_values)["userId"] + expected = Series( + ["17661101"], index=pd.DatetimeIndex(["2015-02-24"], name="day"), name="userId" + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("category", [False, True]) +def test_apply_multi_level_name(category): + # https://github.com/pandas-dev/pandas/issues/31068 + b = [1, 2] * 5 + if category: + b = pd.Categorical(b, categories=[1, 2, 3]) + expected_index = pd.CategoricalIndex([1, 2, 3], categories=[1, 2, 3], name="B") + expected_values = [20, 25, 0] + else: + expected_index = Index([1, 2], name="B") + expected_values = [20, 25] + expected = DataFrame( + {"C": expected_values, "D": expected_values}, index=expected_index + ) + + df = DataFrame( + {"A": np.arange(10), "B": b, "C": list(range(10)), "D": list(range(10))} + ).set_index(["A", "B"]) + result = df.groupby("B", observed=False).apply(lambda x: x.sum()) + tm.assert_frame_equal(result, expected) + assert df.index.names == ["A", "B"] + + +def test_groupby_apply_datetime_result_dtypes(using_infer_string): + # GH 14849 + data = DataFrame.from_records( + [ + (pd.Timestamp(2016, 1, 1), "red", "dark", 1, "8"), + (pd.Timestamp(2015, 1, 1), "green", "stormy", 2, "9"), + (pd.Timestamp(2014, 1, 1), "blue", "bright", 3, "10"), + (pd.Timestamp(2013, 1, 1), "blue", "calm", 4, "potato"), + ], + columns=["observation", "color", "mood", "intensity", "score"], + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = data.groupby("color").apply(lambda g: g.iloc[0]).dtypes + dtype = pd.StringDtype(na_value=np.nan) if using_infer_string else object + expected = Series( + [np.dtype("datetime64[ns]"), dtype, dtype, np.int64, dtype], + index=["observation", "color", "mood", "intensity", "score"], + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "index", + [ + pd.CategoricalIndex(list("abc")), + pd.interval_range(0, 3), + pd.period_range("2020", periods=3, freq="D"), + MultiIndex.from_tuples([("a", 0), ("a", 1), ("b", 0)]), + ], +) +def test_apply_index_has_complex_internals(index): + # GH 31248 + df = DataFrame({"group": [1, 1, 2], "value": [0, 1, 0]}, index=index) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("group", group_keys=False).apply(lambda x: x) + tm.assert_frame_equal(result, df) + + +@pytest.mark.parametrize( + "function, expected_values", + [ + (lambda x: x.index.to_list(), [[0, 1], [2, 3]]), + (lambda x: set(x.index.to_list()), [{0, 1}, {2, 3}]), + (lambda x: tuple(x.index.to_list()), [(0, 1), (2, 3)]), + ( + lambda x: dict(enumerate(x.index.to_list())), + [{0: 0, 1: 1}, {0: 2, 1: 3}], + ), + ( + lambda x: [{n: i} for (n, i) in enumerate(x.index.to_list())], + [[{0: 0}, {1: 1}], [{0: 2}, {1: 3}]], + ), + ], +) +def test_apply_function_returns_non_pandas_non_scalar(function, expected_values): + # GH 31441 + df = DataFrame(["A", "A", "B", "B"], columns=["groups"]) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("groups").apply(function) + expected = Series(expected_values, index=Index(["A", "B"], name="groups")) + tm.assert_series_equal(result, expected) + + +def test_apply_function_returns_numpy_array(): + # GH 31605 + def fct(group): + return group["B"].values.flatten() + + df = DataFrame({"A": ["a", "a", "b", "none"], "B": [1, 2, 3, np.nan]}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(fct) + expected = Series( + [[1.0, 2.0], [3.0], [np.nan]], index=Index(["a", "b", "none"], name="A") + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("function", [lambda gr: gr.index, lambda gr: gr.index + 1 - 1]) +def test_apply_function_index_return(function): + # GH: 22541 + df = DataFrame([1, 2, 2, 2, 1, 2, 3, 1, 3, 1], columns=["id"]) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("id").apply(function) + expected = Series( + [Index([0, 4, 7, 9]), Index([1, 2, 3, 5]), Index([6, 8])], + index=Index([1, 2, 3], name="id"), + ) + tm.assert_series_equal(result, expected) + + +def test_apply_function_with_indexing_return_column(): + # GH#7002, GH#41480, GH#49256 + df = DataFrame( + { + "foo1": ["one", "two", "two", "three", "one", "two"], + "foo2": [1, 2, 4, 4, 5, 6], + } + ) + result = df.groupby("foo1", as_index=False).apply(lambda x: x.mean()) + expected = DataFrame( + { + "foo1": ["one", "three", "two"], + "foo2": [3.0, 4.0, 4.0], + } + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "udf", + [(lambda x: x.copy()), (lambda x: x.copy().rename(lambda y: y + 1))], +) +@pytest.mark.parametrize("group_keys", [True, False]) +def test_apply_result_type(group_keys, udf): + # https://github.com/pandas-dev/pandas/issues/34809 + # We'd like to control whether the group keys end up in the index + # regardless of whether the UDF happens to be a transform. + df = DataFrame({"A": ["a", "b"], "B": [1, 2]}) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df_result = df.groupby("A", group_keys=group_keys).apply(udf) + series_result = df.B.groupby(df.A, group_keys=group_keys).apply(udf) + + if group_keys: + assert df_result.index.nlevels == 2 + assert series_result.index.nlevels == 2 + else: + assert df_result.index.nlevels == 1 + assert series_result.index.nlevels == 1 + + +def test_result_order_group_keys_false(): + # GH 34998 + # apply result order should not depend on whether index is the same or just equal + df = DataFrame({"A": [2, 1, 2], "B": [1, 2, 3]}) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A", group_keys=False).apply(lambda x: x) + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby("A", group_keys=False).apply(lambda x: x.copy()) + tm.assert_frame_equal(result, expected) + + +def test_apply_with_timezones_aware(): + # GH: 27212 + dates = ["2001-01-01"] * 2 + ["2001-01-02"] * 2 + ["2001-01-03"] * 2 + index_no_tz = pd.DatetimeIndex(dates) + index_tz = pd.DatetimeIndex(dates, tz="UTC") + df1 = DataFrame({"x": list(range(2)) * 3, "y": range(6), "t": index_no_tz}) + df2 = DataFrame({"x": list(range(2)) * 3, "y": range(6), "t": index_tz}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result1 = df1.groupby("x", group_keys=False).apply( + lambda df: df[["x", "y"]].copy() + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + result2 = df2.groupby("x", group_keys=False).apply( + lambda df: df[["x", "y"]].copy() + ) + + tm.assert_frame_equal(result1, result2) + + +def test_apply_is_unchanged_when_other_methods_are_called_first(reduction_func): + # GH #34656 + # GH #34271 + df = DataFrame( + { + "a": [99, 99, 99, 88, 88, 88], + "b": [1, 2, 3, 4, 5, 6], + "c": [10, 20, 30, 40, 50, 60], + } + ) + + expected = DataFrame( + {"b": [15, 6], "c": [150, 60]}, + index=Index([88, 99], name="a"), + ) + + # Check output when no other methods are called before .apply() + grp = df.groupby(by="a") + msg = "The behavior of DataFrame.sum with axis=None is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False): + result = grp.apply(sum, include_groups=False) + tm.assert_frame_equal(result, expected) + + # Check output when another method is called before .apply() + grp = df.groupby(by="a") + args = get_groupby_method_args(reduction_func, df) + _ = getattr(grp, reduction_func)(*args) + with tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False): + result = grp.apply(sum, include_groups=False) + tm.assert_frame_equal(result, expected) + + +def test_apply_with_date_in_multiindex_does_not_convert_to_timestamp(): + # GH 29617 + + df = DataFrame( + { + "A": ["a", "a", "a", "b"], + "B": [ + date(2020, 1, 10), + date(2020, 1, 10), + date(2020, 2, 10), + date(2020, 2, 10), + ], + "C": [1, 2, 3, 4], + }, + index=Index([100, 101, 102, 103], name="idx"), + ) + + grp = df.groupby(["A", "B"]) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grp.apply(lambda x: x.head(1)) + + expected = df.iloc[[0, 2, 3]] + expected = expected.reset_index() + expected.index = MultiIndex.from_frame(expected[["A", "B", "idx"]]) + expected = expected.drop(columns="idx") + + tm.assert_frame_equal(result, expected) + for val in result.index.levels[1]: + assert type(val) is date + + +def test_apply_by_cols_equals_apply_by_rows_transposed(): + # GH 16646 + # Operating on the columns, or transposing and operating on the rows + # should give the same result. There was previously a bug where the + # by_rows operation would work fine, but by_cols would throw a ValueError + + df = DataFrame( + np.random.default_rng(2).random([6, 4]), + columns=MultiIndex.from_product([["A", "B"], [1, 2]]), + ) + + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.T.groupby(axis=0, level=0) + by_rows = gb.apply(lambda x: x.droplevel(axis=0, level=0)) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb2 = df.groupby(axis=1, level=0) + by_cols = gb2.apply(lambda x: x.droplevel(axis=1, level=0)) + + tm.assert_frame_equal(by_cols, by_rows.T) + tm.assert_frame_equal(by_cols, df) + + +@pytest.mark.parametrize("dropna", [True, False]) +def test_apply_dropna_with_indexed_same(dropna): + # GH 38227 + # GH#43205 + df = DataFrame( + { + "col": [1, 2, 3, 4, 5], + "group": ["a", np.nan, np.nan, "b", "b"], + }, + index=list("xxyxz"), + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("group", dropna=dropna, group_keys=False).apply(lambda x: x) + expected = df.dropna() if dropna else df.iloc[[0, 3, 1, 2, 4]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "as_index, expected", + [ + pytest.param( + False, + DataFrame( + [[1, 1, 1], [2, 2, 1]], columns=Index(["a", "b", None], dtype=object) + ), + marks=pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)"), + ), + [ + True, + Series( + [1, 1], index=MultiIndex.from_tuples([(1, 1), (2, 2)], names=["a", "b"]) + ), + ], + ], +) +def test_apply_as_index_constant_lambda(as_index, expected): + # GH 13217 + df = DataFrame({"a": [1, 1, 2, 2], "b": [1, 1, 2, 2], "c": [1, 1, 1, 1]}) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["a", "b"], as_index=as_index).apply(lambda x: 1) + tm.assert_equal(result, expected) + + +def test_sort_index_groups(): + # GH 20420 + df = DataFrame( + {"A": [1, 2, 3, 4, 5], "B": [6, 7, 8, 9, 0], "C": [1, 1, 1, 2, 2]}, + index=range(5), + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("C").apply(lambda x: x.A.sort_index()) + expected = Series( + range(1, 6), + index=MultiIndex.from_tuples( + [(1, 0), (1, 1), (1, 2), (2, 3), (2, 4)], names=["C", None] + ), + name="A", + ) + tm.assert_series_equal(result, expected) + + +def test_positional_slice_groups_datetimelike(): + # GH 21651 + expected = DataFrame( + { + "date": pd.date_range("2010-01-01", freq="12h", periods=5), + "vals": range(5), + "let": list("abcde"), + } + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = expected.groupby( + [expected.let, expected.date.dt.date], group_keys=False + ).apply(lambda x: x.iloc[0:]) + tm.assert_frame_equal(result, expected) + + +def test_groupby_apply_shape_cache_safety(): + # GH#42702 this fails if we cache_readonly Block.shape + df = DataFrame({"A": ["a", "a", "b"], "B": [1, 2, 3], "C": [4, 6, 5]}) + gb = df.groupby("A") + result = gb[["B", "C"]].apply(lambda x: x.astype(float).max() - x.min()) + + expected = DataFrame( + {"B": [1.0, 0.0], "C": [2.0, 0.0]}, index=Index(["a", "b"], name="A") + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_apply_to_series_name(): + # GH52444 + df = DataFrame.from_dict( + { + "a": ["a", "b", "a", "b"], + "b1": ["aa", "ac", "ac", "ad"], + "b2": ["aa", "aa", "aa", "ac"], + } + ) + grp = df.groupby("a")[["b1", "b2"]] + result = grp.apply(lambda x: x.unstack().value_counts()) + + expected_idx = MultiIndex.from_arrays( + arrays=[["a", "a", "b", "b", "b"], ["aa", "ac", "ac", "ad", "aa"]], + names=["a", None], + ) + expected = Series([3, 1, 2, 1, 1], index=expected_idx, name="count") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dropna", [True, False]) +def test_apply_na(dropna): + # GH#28984 + df = DataFrame( + {"grp": [1, 1, 2, 2], "y": [1, 0, 2, 5], "z": [1, 2, np.nan, np.nan]} + ) + dfgrp = df.groupby("grp", dropna=dropna) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = dfgrp.apply(lambda grp_df: grp_df.nlargest(1, "z")) + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = dfgrp.apply(lambda x: x.sort_values("z", ascending=False).head(1)) + tm.assert_frame_equal(result, expected) + + +def test_apply_empty_string_nan_coerce_bug(): + # GH#24903 + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = ( + DataFrame( + { + "a": [1, 1, 2, 2], + "b": ["", "", "", ""], + "c": pd.to_datetime([1, 2, 3, 4], unit="s"), + } + ) + .groupby(["a", "b"]) + .apply(lambda df: df.iloc[-1]) + ) + expected = DataFrame( + [[1, "", pd.to_datetime(2, unit="s")], [2, "", pd.to_datetime(4, unit="s")]], + columns=["a", "b", "c"], + index=MultiIndex.from_tuples([(1, ""), (2, "")], names=["a", "b"]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("index_values", [[1, 2, 3], [1.0, 2.0, 3.0]]) +def test_apply_index_key_error_bug(index_values): + # GH 44310 + result = DataFrame( + { + "a": ["aa", "a2", "a3"], + "b": [1, 2, 3], + }, + index=Index(index_values), + ) + expected = DataFrame( + { + "b_mean": [2.0, 3.0, 1.0], + }, + index=Index(["a2", "a3", "aa"], name="a"), + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = result.groupby("a").apply( + lambda df: Series([df["b"].mean()], index=["b_mean"]) + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "arg,idx", + [ + [ + [ + 1, + 2, + 3, + ], + [ + 0.1, + 0.3, + 0.2, + ], + ], + [ + [ + 1, + 2, + 3, + ], + [ + 0.1, + 0.2, + 0.3, + ], + ], + [ + [ + 1, + 4, + 3, + ], + [ + 0.1, + 0.4, + 0.2, + ], + ], + ], +) +def test_apply_nonmonotonic_float_index(arg, idx): + # GH 34455 + expected = DataFrame({"col": arg}, index=idx) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = expected.groupby("col", group_keys=False).apply(lambda x: x) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("args, kwargs", [([True], {}), ([], {"numeric_only": True})]) +def test_apply_str_with_args(df, args, kwargs): + # GH#46479 + gb = df.groupby("A") + result = gb.apply("sum", *args, **kwargs) + expected = gb.sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("name", ["some_name", None]) +def test_result_name_when_one_group(name): + # GH 46369 + ser = Series([1, 2], name=name) + result = ser.groupby(["a", "a"], group_keys=False).apply(lambda x: x) + expected = Series([1, 2], name=name) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "method, op", + [ + ("apply", lambda gb: gb.values[-1]), + ("apply", lambda gb: gb["b"].iloc[0]), + ("agg", "skew"), + ("agg", "prod"), + ("agg", "sum"), + ], +) +def test_empty_df(method, op): + # GH 47985 + empty_df = DataFrame({"a": [], "b": []}) + gb = empty_df.groupby("a", group_keys=True) + group = getattr(gb, "b") + + result = getattr(group, method)(op) + expected = Series( + [], name="b", dtype="float64", index=Index([], dtype="float64", name="a") + ) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("include_groups", [True, False]) +def test_include_groups(include_groups): + # GH#7155 + df = DataFrame({"a": [1, 1, 2], "b": [3, 4, 5]}) + gb = df.groupby("a") + warn = FutureWarning if include_groups else None + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(warn, match=msg): + result = gb.apply(lambda x: x.sum(), include_groups=include_groups) + expected = DataFrame({"a": [2, 2], "b": [7, 5]}, index=Index([1, 2], name="a")) + if not include_groups: + expected = expected[["b"]] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("f", [max, min, sum]) +@pytest.mark.parametrize("keys", ["jim", ["jim", "joe"]]) # Single key # Multi-key +def test_builtins_apply(keys, f): + # see gh-8155 + rs = np.random.default_rng(2) + df = DataFrame(rs.integers(1, 7, (10, 2)), columns=["jim", "joe"]) + df["jolie"] = rs.standard_normal(10) + + gb = df.groupby(keys) + + fname = f.__name__ + + warn = None if f is not sum else FutureWarning + msg = "The behavior of DataFrame.sum with axis=None is deprecated" + with tm.assert_produces_warning( + warn, match=msg, check_stacklevel=False, raise_on_extra_warnings=False + ): + # Also warns on deprecation GH#53425 + result = gb.apply(f) + ngroups = len(df.drop_duplicates(subset=keys)) + + assert_msg = f"invalid frame shape: {result.shape} (expected ({ngroups}, 3))" + assert result.shape == (ngroups, 3), assert_msg + + npfunc = lambda x: getattr(np, fname)(x, axis=0) # numpy's equivalent function + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = gb.apply(npfunc) + tm.assert_frame_equal(result, expected) + + with tm.assert_produces_warning(FutureWarning, match=msg): + expected2 = gb.apply(lambda x: npfunc(x)) + tm.assert_frame_equal(result, expected2) + + if f != sum: + expected = gb.agg(fname).reset_index() + expected.set_index(keys, inplace=True, drop=False) + tm.assert_frame_equal(result, expected, check_dtype=False) + + tm.assert_series_equal(getattr(result, fname)(axis=0), getattr(df, fname)(axis=0)) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply_mutate.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply_mutate.py new file mode 100644 index 0000000000000000000000000000000000000000..130a29abf9443d5da56df80e3f3fba9169cf7100 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_apply_mutate.py @@ -0,0 +1,163 @@ +import numpy as np + +import pandas as pd +import pandas._testing as tm + + +def test_group_by_copy(): + # GH#44803 + df = pd.DataFrame( + { + "name": ["Alice", "Bob", "Carl"], + "age": [20, 21, 20], + } + ).set_index("name") + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + grp_by_same_value = df.groupby(["age"], group_keys=False).apply( + lambda group: group + ) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + grp_by_copy = df.groupby(["age"], group_keys=False).apply( + lambda group: group.copy() + ) + tm.assert_frame_equal(grp_by_same_value, grp_by_copy) + + +def test_mutate_groups(): + # GH3380 + + df = pd.DataFrame( + { + "cat1": ["a"] * 8 + ["b"] * 6, + "cat2": ["c"] * 2 + + ["d"] * 2 + + ["e"] * 2 + + ["f"] * 2 + + ["c"] * 2 + + ["d"] * 2 + + ["e"] * 2, + "cat3": [f"g{x}" for x in range(1, 15)], + "val": np.random.default_rng(2).integers(100, size=14), + } + ) + + def f_copy(x): + x = x.copy() + x["rank"] = x.val.rank(method="min") + return x.groupby("cat2")["rank"].min() + + def f_no_copy(x): + x["rank"] = x.val.rank(method="min") + return x.groupby("cat2")["rank"].min() + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + grpby_copy = df.groupby("cat1").apply(f_copy) + with tm.assert_produces_warning(FutureWarning, match=msg): + grpby_no_copy = df.groupby("cat1").apply(f_no_copy) + tm.assert_series_equal(grpby_copy, grpby_no_copy) + + +def test_no_mutate_but_looks_like(): + # GH 8467 + # first show's mutation indicator + # second does not, but should yield the same results + df = pd.DataFrame({"key": [1, 1, 1, 2, 2, 2, 3, 3, 3], "value": range(9)}) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result1 = df.groupby("key", group_keys=True).apply(lambda x: x[:].key) + with tm.assert_produces_warning(FutureWarning, match=msg): + result2 = df.groupby("key", group_keys=True).apply(lambda x: x.key) + tm.assert_series_equal(result1, result2) + + +def test_apply_function_with_indexing(warn_copy_on_write): + # GH: 33058 + df = pd.DataFrame( + {"col1": ["A", "A", "A", "B", "B", "B"], "col2": [1, 2, 3, 4, 5, 6]} + ) + + def fn(x): + x.loc[x.index[-1], "col2"] = 0 + return x.col2 + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning( + FutureWarning, match=msg, raise_on_extra_warnings=not warn_copy_on_write + ): + result = df.groupby(["col1"], as_index=False).apply(fn) + expected = pd.Series( + [1, 2, 0, 4, 5, 0], + index=pd.MultiIndex.from_tuples( + [(0, 0), (0, 1), (0, 2), (1, 3), (1, 4), (1, 5)] + ), + name="col2", + ) + tm.assert_series_equal(result, expected) + + +def test_apply_mutate_columns_multiindex(): + # GH 12652 + df = pd.DataFrame( + { + ("C", "julian"): [1, 2, 3], + ("B", "geoffrey"): [1, 2, 3], + ("A", "julian"): [1, 2, 3], + ("B", "julian"): [1, 2, 3], + ("A", "geoffrey"): [1, 2, 3], + ("C", "geoffrey"): [1, 2, 3], + }, + columns=pd.MultiIndex.from_tuples( + [ + ("A", "julian"), + ("A", "geoffrey"), + ("B", "julian"), + ("B", "geoffrey"), + ("C", "julian"), + ("C", "geoffrey"), + ] + ), + ) + + def add_column(grouped): + name = grouped.columns[0][1] + grouped["sum", name] = grouped.sum(axis=1) + return grouped + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(level=1, axis=1) + result = gb.apply(add_column) + expected = pd.DataFrame( + [ + [1, 1, 1, 3, 1, 1, 1, 3], + [2, 2, 2, 6, 2, 2, 2, 6], + [ + 3, + 3, + 3, + 9, + 3, + 3, + 3, + 9, + ], + ], + columns=pd.MultiIndex.from_tuples( + [ + ("geoffrey", "A", "geoffrey"), + ("geoffrey", "B", "geoffrey"), + ("geoffrey", "C", "geoffrey"), + ("geoffrey", "sum", "geoffrey"), + ("julian", "A", "julian"), + ("julian", "B", "julian"), + ("julian", "C", "julian"), + ("julian", "sum", "julian"), + ] + ), + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_bin_groupby.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_bin_groupby.py new file mode 100644 index 0000000000000000000000000000000000000000..49b2e621b7adc97947ec9d6c376a9d0f10e672fb --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_bin_groupby.py @@ -0,0 +1,65 @@ +import numpy as np +import pytest + +from pandas._libs import lib +import pandas.util._test_decorators as td + +import pandas as pd +import pandas._testing as tm + + +def assert_block_lengths(x): + assert len(x) == len(x._mgr.blocks[0].mgr_locs) + return 0 + + +def cumsum_max(x): + x.cumsum().max() + return 0 + + +@pytest.mark.parametrize( + "func", + [ + cumsum_max, + pytest.param(assert_block_lengths, marks=td.skip_array_manager_invalid_test), + ], +) +def test_mgr_locs_updated(func): + # https://github.com/pandas-dev/pandas/issues/31802 + # Some operations may require creating new blocks, which requires + # valid mgr_locs + df = pd.DataFrame({"A": ["a", "a", "a"], "B": ["a", "b", "b"], "C": [1, 1, 1]}) + result = df.groupby(["A", "B"]).agg(func) + expected = pd.DataFrame( + {"C": [0, 0]}, + index=pd.MultiIndex.from_product([["a"], ["a", "b"]], names=["A", "B"]), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "binner,closed,expected", + [ + ( + np.array([0, 3, 6, 9], dtype=np.int64), + "left", + np.array([2, 5, 6], dtype=np.int64), + ), + ( + np.array([0, 3, 6, 9], dtype=np.int64), + "right", + np.array([3, 6, 6], dtype=np.int64), + ), + (np.array([0, 3, 6], dtype=np.int64), "left", np.array([2, 5], dtype=np.int64)), + ( + np.array([0, 3, 6], dtype=np.int64), + "right", + np.array([3, 6], dtype=np.int64), + ), + ], +) +def test_generate_bins(binner, closed, expected): + values = np.array([1, 2, 3, 4, 5, 6], dtype=np.int64) + result = lib.generate_bins_dt64(values, binner, closed=closed) + tm.assert_numpy_array_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..cba02ae869889a3af40e05690766e91a83b51c44 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_categorical.py @@ -0,0 +1,2176 @@ +from datetime import datetime + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + Categorical, + CategoricalIndex, + DataFrame, + Index, + MultiIndex, + Series, + qcut, +) +import pandas._testing as tm +from pandas.api.typing import SeriesGroupBy +from pandas.tests.groupby import get_groupby_method_args + + +def cartesian_product_for_groupers(result, args, names, fill_value=np.nan): + """Reindex to a cartesian production for the groupers, + preserving the nature (Categorical) of each grouper + """ + + def f(a): + if isinstance(a, (CategoricalIndex, Categorical)): + categories = a.categories + a = Categorical.from_codes( + np.arange(len(categories)), categories=categories, ordered=a.ordered + ) + return a + + index = MultiIndex.from_product(map(f, args), names=names) + return result.reindex(index, fill_value=fill_value).sort_index() + + +_results_for_groupbys_with_missing_categories = { + # This maps the builtin groupby functions to their expected outputs for + # missing categories when they are called on a categorical grouper with + # observed=False. Some functions are expected to return NaN, some zero. + # These expected values can be used across several tests (i.e. they are + # the same for SeriesGroupBy and DataFrameGroupBy) but they should only be + # hardcoded in one place. + "all": np.nan, + "any": np.nan, + "count": 0, + "corrwith": np.nan, + "first": np.nan, + "idxmax": np.nan, + "idxmin": np.nan, + "last": np.nan, + "max": np.nan, + "mean": np.nan, + "median": np.nan, + "min": np.nan, + "nth": np.nan, + "nunique": 0, + "prod": np.nan, + "quantile": np.nan, + "sem": np.nan, + "size": 0, + "skew": np.nan, + "std": np.nan, + "sum": 0, + "var": np.nan, +} + + +@pytest.mark.filterwarnings("ignore:invalid value encountered in cast:RuntimeWarning") +def test_apply_use_categorical_name(df): + cats = qcut(df.C, 4) + + def get_stats(group): + return { + "min": group.min(), + "max": group.max(), + "count": group.count(), + "mean": group.mean(), + } + + result = df.groupby(cats, observed=False).D.apply(get_stats) + assert result.index.names[0] == "C" + + +def test_basic(using_infer_string): # TODO: split this test + cats = Categorical( + ["a", "a", "a", "b", "b", "b", "c", "c", "c"], + categories=["a", "b", "c", "d"], + ordered=True, + ) + data = DataFrame({"a": [1, 1, 1, 2, 2, 2, 3, 4, 5], "b": cats}) + + exp_index = CategoricalIndex(list("abcd"), name="b", ordered=True) + expected = DataFrame({"a": [1, 2, 4, np.nan]}, index=exp_index) + result = data.groupby("b", observed=False).mean() + tm.assert_frame_equal(result, expected) + + cat1 = Categorical(["a", "a", "b", "b"], categories=["a", "b", "z"], ordered=True) + cat2 = Categorical(["c", "d", "c", "d"], categories=["c", "d", "y"], ordered=True) + df = DataFrame({"A": cat1, "B": cat2, "values": [1, 2, 3, 4]}) + + # single grouper + gb = df.groupby("A", observed=False) + exp_idx = CategoricalIndex(["a", "b", "z"], name="A", ordered=True) + expected = DataFrame({"values": Series([3, 7, 0], index=exp_idx)}) + result = gb.sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + # GH 8623 + x = DataFrame( + [[1, "John P. Doe"], [2, "Jane Dove"], [1, "John P. Doe"]], + columns=["person_id", "person_name"], + ) + x["person_name"] = Categorical(x.person_name) + + g = x.groupby(["person_id"], observed=False) + result = g.transform(lambda x: x) + tm.assert_frame_equal(result, x[["person_name"]]) + + result = x.drop_duplicates("person_name") + expected = x.iloc[[0, 1]] + tm.assert_frame_equal(result, expected) + + def f(x): + return x.drop_duplicates("person_name").iloc[0] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = g.apply(f) + expected = x.iloc[[0, 1]].copy() + expected.index = Index([1, 2], name="person_id") + dtype = "str" if using_infer_string else object + expected["person_name"] = expected["person_name"].astype(dtype) + tm.assert_frame_equal(result, expected) + + # GH 9921 + # Monotonic + df = DataFrame({"a": [5, 15, 25]}) + c = pd.cut(df.a, bins=[0, 10, 20, 30, 40]) + + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = df.a.groupby(c, observed=False).transform(sum) + tm.assert_series_equal(result, df["a"]) + + tm.assert_series_equal( + df.a.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df["a"] + ) + msg = "using DataFrameGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = df.groupby(c, observed=False).transform(sum) + expected = df[["a"]] + tm.assert_frame_equal(result, expected) + + gbc = df.groupby(c, observed=False) + result = gbc.transform(lambda xs: np.max(xs, axis=0)) + tm.assert_frame_equal(result, df[["a"]]) + + result2 = gbc.transform(lambda xs: np.max(xs, axis=0)) + msg = "using DataFrameGroupBy.max" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result3 = gbc.transform(max) + result4 = gbc.transform(np.maximum.reduce) + result5 = gbc.transform(lambda xs: np.maximum.reduce(xs)) + tm.assert_frame_equal(result2, df[["a"]], check_dtype=False) + tm.assert_frame_equal(result3, df[["a"]], check_dtype=False) + tm.assert_frame_equal(result4, df[["a"]]) + tm.assert_frame_equal(result5, df[["a"]]) + + # Filter + tm.assert_series_equal(df.a.groupby(c, observed=False).filter(np.all), df["a"]) + tm.assert_frame_equal(df.groupby(c, observed=False).filter(np.all), df) + + # Non-monotonic + df = DataFrame({"a": [5, 15, 25, -5]}) + c = pd.cut(df.a, bins=[-10, 0, 10, 20, 30, 40]) + + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = df.a.groupby(c, observed=False).transform(sum) + tm.assert_series_equal(result, df["a"]) + + tm.assert_series_equal( + df.a.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df["a"] + ) + msg = "using DataFrameGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = df.groupby(c, observed=False).transform(sum) + expected = df[["a"]] + tm.assert_frame_equal(result, expected) + + tm.assert_frame_equal( + df.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df[["a"]] + ) + + # GH 9603 + df = DataFrame({"a": [1, 0, 0, 0]}) + c = pd.cut(df.a, [0, 1, 2, 3, 4], labels=Categorical(list("abcd"))) + result = df.groupby(c, observed=False).apply(len) + + exp_index = CategoricalIndex(c.values.categories, ordered=c.values.ordered) + expected = Series([1, 0, 0, 0], index=exp_index) + expected.index.name = "a" + tm.assert_series_equal(result, expected) + + # more basic + levels = ["foo", "bar", "baz", "qux"] + codes = np.random.default_rng(2).integers(0, 4, size=100) + + cats = Categorical.from_codes(codes, levels, ordered=True) + + data = DataFrame(np.random.default_rng(2).standard_normal((100, 4))) + + result = data.groupby(cats, observed=False).mean() + + expected = data.groupby(np.asarray(cats), observed=False).mean() + exp_idx = CategoricalIndex(levels, categories=cats.categories, ordered=True) + expected = expected.reindex(exp_idx) + + tm.assert_frame_equal(result, expected) + + grouped = data.groupby(cats, observed=False) + desc_result = grouped.describe() + + idx = cats.codes.argsort() + ord_labels = np.asarray(cats).take(idx) + ord_data = data.take(idx) + + exp_cats = Categorical( + ord_labels, ordered=True, categories=["foo", "bar", "baz", "qux"] + ) + expected = ord_data.groupby(exp_cats, sort=False, observed=False).describe() + tm.assert_frame_equal(desc_result, expected) + + # GH 10460 + expc = Categorical.from_codes(np.arange(4).repeat(8), levels, ordered=True) + exp = CategoricalIndex(expc) + tm.assert_index_equal( + (desc_result.stack(future_stack=True).index.get_level_values(0)), exp + ) + exp = Index(["count", "mean", "std", "min", "25%", "50%", "75%", "max"] * 4) + tm.assert_index_equal( + (desc_result.stack(future_stack=True).index.get_level_values(1)), exp + ) + + +def test_level_get_group(observed): + # GH15155 + df = DataFrame( + data=np.arange(2, 22, 2), + index=MultiIndex( + levels=[CategoricalIndex(["a", "b"]), range(10)], + codes=[[0] * 5 + [1] * 5, range(10)], + names=["Index1", "Index2"], + ), + ) + g = df.groupby(level=["Index1"], observed=observed) + + # expected should equal test.loc[["a"]] + # GH15166 + expected = DataFrame( + data=np.arange(2, 12, 2), + index=MultiIndex( + levels=[CategoricalIndex(["a", "b"]), range(5)], + codes=[[0] * 5, range(5)], + names=["Index1", "Index2"], + ), + ) + msg = "you will need to pass a length-1 tuple" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#25971 - warn when not passing a length-1 tuple + result = g.get_group("a") + + tm.assert_frame_equal(result, expected) + + +def test_sorting_with_different_categoricals(): + # GH 24271 + df = DataFrame( + { + "group": ["A"] * 6 + ["B"] * 6, + "dose": ["high", "med", "low"] * 4, + "outcomes": np.arange(12.0), + } + ) + + df.dose = Categorical(df.dose, categories=["low", "med", "high"], ordered=True) + + result = df.groupby("group")["dose"].value_counts() + result = result.sort_index(level=0, sort_remaining=True) + index = ["low", "med", "high", "low", "med", "high"] + index = Categorical(index, categories=["low", "med", "high"], ordered=True) + index = [["A", "A", "A", "B", "B", "B"], CategoricalIndex(index)] + index = MultiIndex.from_arrays(index, names=["group", "dose"]) + expected = Series([2] * 6, index=index, name="count") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("ordered", [True, False]) +def test_apply(ordered): + # GH 10138 + + dense = Categorical(list("abc"), ordered=ordered) + + # 'b' is in the categories but not in the list + missing = Categorical(list("aaa"), categories=["a", "b"], ordered=ordered) + values = np.arange(len(dense)) + df = DataFrame({"missing": missing, "dense": dense, "values": values}) + grouped = df.groupby(["missing", "dense"], observed=True) + + # missing category 'b' should still exist in the output index + idx = MultiIndex.from_arrays([missing, dense], names=["missing", "dense"]) + expected = DataFrame([0, 1, 2.0], index=idx, columns=["values"]) + + result = grouped.apply(lambda x: np.mean(x, axis=0)) + tm.assert_frame_equal(result, expected) + + result = grouped.mean() + tm.assert_frame_equal(result, expected) + + msg = "using DataFrameGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = grouped.agg(np.mean) + tm.assert_frame_equal(result, expected) + + # but for transform we should still get back the original index + idx = MultiIndex.from_arrays([missing, dense], names=["missing", "dense"]) + expected = Series(1, index=idx) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(lambda x: 1) + tm.assert_series_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore:invalid value encountered in cast:RuntimeWarning") +def test_observed(request, using_infer_string, observed): + # multiple groupers, don't re-expand the output space + # of the grouper + # gh-14942 (implement) + # gh-10132 (back-compat) + # gh-8138 (back-compat) + # gh-8869 + + if using_infer_string and not observed: + # TODO(infer_string) this fails with filling the string column with 0 + request.applymarker(pytest.mark.xfail(reason="TODO(infer_string)")) + + cat1 = Categorical(["a", "a", "b", "b"], categories=["a", "b", "z"], ordered=True) + cat2 = Categorical(["c", "d", "c", "d"], categories=["c", "d", "y"], ordered=True) + df = DataFrame({"A": cat1, "B": cat2, "values": [1, 2, 3, 4]}) + df["C"] = ["foo", "bar"] * 2 + + # multiple groupers with a non-cat + gb = df.groupby(["A", "B", "C"], observed=observed) + exp_index = MultiIndex.from_arrays( + [cat1, cat2, ["foo", "bar"] * 2], names=["A", "B", "C"] + ) + expected = DataFrame({"values": Series([1, 2, 3, 4], index=exp_index)}).sort_index() + result = gb.sum() + if not observed: + expected = cartesian_product_for_groupers( + expected, [cat1, cat2, ["foo", "bar"]], list("ABC"), fill_value=0 + ) + + tm.assert_frame_equal(result, expected) + + gb = df.groupby(["A", "B"], observed=observed) + exp_index = MultiIndex.from_arrays([cat1, cat2], names=["A", "B"]) + expected = DataFrame( + {"values": [1, 2, 3, 4], "C": ["foo", "bar", "foo", "bar"]}, index=exp_index + ) + result = gb.sum() + if not observed: + expected = cartesian_product_for_groupers( + expected, [cat1, cat2], list("AB"), fill_value=0 + ) + + tm.assert_frame_equal(result, expected) + + # https://github.com/pandas-dev/pandas/issues/8138 + d = { + "cat": Categorical( + ["a", "b", "a", "b"], categories=["a", "b", "c"], ordered=True + ), + "ints": [1, 1, 2, 2], + "val": [10, 20, 30, 40], + } + df = DataFrame(d) + + # Grouping on a single column + groups_single_key = df.groupby("cat", observed=observed) + result = groups_single_key.mean() + + exp_index = CategoricalIndex( + list("ab"), name="cat", categories=list("abc"), ordered=True + ) + expected = DataFrame({"ints": [1.5, 1.5], "val": [20.0, 30]}, index=exp_index) + if not observed: + index = CategoricalIndex( + list("abc"), name="cat", categories=list("abc"), ordered=True + ) + expected = expected.reindex(index) + + tm.assert_frame_equal(result, expected) + + # Grouping on two columns + groups_double_key = df.groupby(["cat", "ints"], observed=observed) + result = groups_double_key.agg("mean") + expected = DataFrame( + { + "val": [10.0, 30.0, 20.0, 40.0], + "cat": Categorical( + ["a", "a", "b", "b"], categories=["a", "b", "c"], ordered=True + ), + "ints": [1, 2, 1, 2], + } + ).set_index(["cat", "ints"]) + if not observed: + expected = cartesian_product_for_groupers( + expected, [df.cat.values, [1, 2]], ["cat", "ints"] + ) + + tm.assert_frame_equal(result, expected) + + # GH 10132 + for key in [("a", 1), ("b", 2), ("b", 1), ("a", 2)]: + c, i = key + result = groups_double_key.get_group(key) + expected = df[(df.cat == c) & (df.ints == i)] + tm.assert_frame_equal(result, expected) + + # gh-8869 + # with as_index + d = { + "foo": [10, 8, 4, 8, 4, 1, 1], + "bar": [10, 20, 30, 40, 50, 60, 70], + "baz": ["d", "c", "e", "a", "a", "d", "c"], + } + df = DataFrame(d) + cat = pd.cut(df["foo"], np.linspace(0, 10, 3)) + df["range"] = cat + groups = df.groupby(["range", "baz"], as_index=False, observed=observed) + result = groups.agg("mean") + + groups2 = df.groupby(["range", "baz"], as_index=True, observed=observed) + expected = groups2.agg("mean").reset_index() + tm.assert_frame_equal(result, expected) + + +def test_observed_codes_remap(observed): + d = {"C1": [3, 3, 4, 5], "C2": [1, 2, 3, 4], "C3": [10, 100, 200, 34]} + df = DataFrame(d) + values = pd.cut(df["C1"], [1, 2, 3, 6]) + values.name = "cat" + groups_double_key = df.groupby([values, "C2"], observed=observed) + + idx = MultiIndex.from_arrays([values, [1, 2, 3, 4]], names=["cat", "C2"]) + expected = DataFrame( + {"C1": [3.0, 3.0, 4.0, 5.0], "C3": [10.0, 100.0, 200.0, 34.0]}, index=idx + ) + if not observed: + expected = cartesian_product_for_groupers( + expected, [values.values, [1, 2, 3, 4]], ["cat", "C2"] + ) + + result = groups_double_key.agg("mean") + tm.assert_frame_equal(result, expected) + + +def test_observed_perf(): + # we create a cartesian product, so this is + # non-performant if we don't use observed values + # gh-14942 + df = DataFrame( + { + "cat": np.random.default_rng(2).integers(0, 255, size=30000), + "int_id": np.random.default_rng(2).integers(0, 255, size=30000), + "other_id": np.random.default_rng(2).integers(0, 10000, size=30000), + "foo": 0, + } + ) + df["cat"] = df.cat.astype(str).astype("category") + + grouped = df.groupby(["cat", "int_id", "other_id"], observed=True) + result = grouped.count() + assert result.index.levels[0].nunique() == df.cat.nunique() + assert result.index.levels[1].nunique() == df.int_id.nunique() + assert result.index.levels[2].nunique() == df.other_id.nunique() + + +def test_observed_groups(observed): + # gh-20583 + # test that we have the appropriate groups + + cat = Categorical(["a", "c", "a"], categories=["a", "b", "c"]) + df = DataFrame({"cat": cat, "vals": [1, 2, 3]}) + g = df.groupby("cat", observed=observed) + + result = g.groups + if observed: + expected = {"a": Index([0, 2], dtype="int64"), "c": Index([1], dtype="int64")} + else: + expected = { + "a": Index([0, 2], dtype="int64"), + "b": Index([], dtype="int64"), + "c": Index([1], dtype="int64"), + } + + tm.assert_dict_equal(result, expected) + + +@pytest.mark.parametrize( + "keys, expected_values, expected_index_levels", + [ + ("a", [15, 9, 0], CategoricalIndex([1, 2, 3], name="a")), + ( + ["a", "b"], + [7, 8, 0, 0, 0, 9, 0, 0, 0], + [CategoricalIndex([1, 2, 3], name="a"), Index([4, 5, 6])], + ), + ( + ["a", "a2"], + [15, 0, 0, 0, 9, 0, 0, 0, 0], + [ + CategoricalIndex([1, 2, 3], name="a"), + CategoricalIndex([1, 2, 3], name="a"), + ], + ), + ], +) +@pytest.mark.parametrize("test_series", [True, False]) +def test_unobserved_in_index(keys, expected_values, expected_index_levels, test_series): + # GH#49354 - ensure unobserved cats occur when grouping by index levels + df = DataFrame( + { + "a": Categorical([1, 1, 2], categories=[1, 2, 3]), + "a2": Categorical([1, 1, 2], categories=[1, 2, 3]), + "b": [4, 5, 6], + "c": [7, 8, 9], + } + ).set_index(["a", "a2"]) + if "b" not in keys: + # Only keep b when it is used for grouping for consistent columns in the result + df = df.drop(columns="b") + + gb = df.groupby(keys, observed=False) + if test_series: + gb = gb["c"] + result = gb.sum() + + if len(keys) == 1: + index = expected_index_levels + else: + codes = [[0, 0, 0, 1, 1, 1, 2, 2, 2], 3 * [0, 1, 2]] + index = MultiIndex( + expected_index_levels, + codes=codes, + names=keys, + ) + expected = DataFrame({"c": expected_values}, index=index) + if test_series: + expected = expected["c"] + tm.assert_equal(result, expected) + + +def test_observed_groups_with_nan(observed): + # GH 24740 + df = DataFrame( + { + "cat": Categorical(["a", np.nan, "a"], categories=["a", "b", "d"]), + "vals": [1, 2, 3], + } + ) + g = df.groupby("cat", observed=observed) + result = g.groups + if observed: + expected = {"a": Index([0, 2], dtype="int64")} + else: + expected = { + "a": Index([0, 2], dtype="int64"), + "b": Index([], dtype="int64"), + "d": Index([], dtype="int64"), + } + tm.assert_dict_equal(result, expected) + + +def test_observed_nth(): + # GH 26385 + cat = Categorical(["a", np.nan, np.nan], categories=["a", "b", "c"]) + ser = Series([1, 2, 3]) + df = DataFrame({"cat": cat, "ser": ser}) + + result = df.groupby("cat", observed=False)["ser"].nth(0) + expected = df["ser"].iloc[[0]] + tm.assert_series_equal(result, expected) + + +def test_dataframe_categorical_with_nan(observed): + # GH 21151 + s1 = Categorical([np.nan, "a", np.nan, "a"], categories=["a", "b", "c"]) + s2 = Series([1, 2, 3, 4]) + df = DataFrame({"s1": s1, "s2": s2}) + result = df.groupby("s1", observed=observed).first().reset_index() + if observed: + expected = DataFrame( + {"s1": Categorical(["a"], categories=["a", "b", "c"]), "s2": [2]} + ) + else: + expected = DataFrame( + { + "s1": Categorical(["a", "b", "c"], categories=["a", "b", "c"]), + "s2": [2, np.nan, np.nan], + } + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("ordered", [True, False]) +@pytest.mark.parametrize("observed", [True, False]) +@pytest.mark.parametrize("sort", [True, False]) +def test_dataframe_categorical_ordered_observed_sort(ordered, observed, sort): + # GH 25871: Fix groupby sorting on ordered Categoricals + # GH 25167: Groupby with observed=True doesn't sort + + # Build a dataframe with cat having one unobserved category ('missing'), + # and a Series with identical values + label = Categorical( + ["d", "a", "b", "a", "d", "b"], + categories=["a", "b", "missing", "d"], + ordered=ordered, + ) + val = Series(["d", "a", "b", "a", "d", "b"]) + df = DataFrame({"label": label, "val": val}) + + # aggregate on the Categorical + result = df.groupby("label", observed=observed, sort=sort)["val"].aggregate("first") + + # If ordering works, we expect index labels equal to aggregation results, + # except for 'observed=False': label 'missing' has aggregation None + label = Series(result.index.array, dtype="object") + aggr = Series(result.array) + if not observed: + aggr[aggr.isna()] = "missing" + if not all(label == aggr): + msg = ( + "Labels and aggregation results not consistently sorted\n" + f"for (ordered={ordered}, observed={observed}, sort={sort})\n" + f"Result:\n{result}" + ) + assert False, msg + + +def test_datetime(): + # GH9049: ensure backward compatibility + levels = pd.date_range("2014-01-01", periods=4) + codes = np.random.default_rng(2).integers(0, 4, size=100) + + cats = Categorical.from_codes(codes, levels, ordered=True) + + data = DataFrame(np.random.default_rng(2).standard_normal((100, 4))) + result = data.groupby(cats, observed=False).mean() + + expected = data.groupby(np.asarray(cats), observed=False).mean() + expected = expected.reindex(levels) + expected.index = CategoricalIndex( + expected.index, categories=expected.index, ordered=True + ) + + tm.assert_frame_equal(result, expected) + + grouped = data.groupby(cats, observed=False) + desc_result = grouped.describe() + + idx = cats.codes.argsort() + ord_labels = cats.take(idx) + ord_data = data.take(idx) + expected = ord_data.groupby(ord_labels, observed=False).describe() + tm.assert_frame_equal(desc_result, expected) + tm.assert_index_equal(desc_result.index, expected.index) + tm.assert_index_equal( + desc_result.index.get_level_values(0), expected.index.get_level_values(0) + ) + + # GH 10460 + expc = Categorical.from_codes(np.arange(4).repeat(8), levels, ordered=True) + exp = CategoricalIndex(expc) + tm.assert_index_equal( + (desc_result.stack(future_stack=True).index.get_level_values(0)), exp + ) + exp = Index(["count", "mean", "std", "min", "25%", "50%", "75%", "max"] * 4) + tm.assert_index_equal( + (desc_result.stack(future_stack=True).index.get_level_values(1)), exp + ) + + +def test_categorical_index(): + s = np.random.default_rng(2) + levels = ["foo", "bar", "baz", "qux"] + codes = s.integers(0, 4, size=20) + cats = Categorical.from_codes(codes, levels, ordered=True) + df = DataFrame(np.repeat(np.arange(20), 4).reshape(-1, 4), columns=list("abcd")) + df["cats"] = cats + + # with a cat index + result = df.set_index("cats").groupby(level=0, observed=False).sum() + expected = df[list("abcd")].groupby(cats.codes, observed=False).sum() + expected.index = CategoricalIndex( + Categorical.from_codes([0, 1, 2, 3], levels, ordered=True), name="cats" + ) + tm.assert_frame_equal(result, expected) + + # with a cat column, should produce a cat index + result = df.groupby("cats", observed=False).sum() + expected = df[list("abcd")].groupby(cats.codes, observed=False).sum() + expected.index = CategoricalIndex( + Categorical.from_codes([0, 1, 2, 3], levels, ordered=True), name="cats" + ) + tm.assert_frame_equal(result, expected) + + +def test_describe_categorical_columns(): + # GH 11558 + cats = CategoricalIndex( + ["qux", "foo", "baz", "bar"], + categories=["foo", "bar", "baz", "qux"], + ordered=True, + ) + df = DataFrame(np.random.default_rng(2).standard_normal((20, 4)), columns=cats) + result = df.groupby([1, 2, 3, 4] * 5).describe() + + tm.assert_index_equal(result.stack(future_stack=True).columns, cats) + tm.assert_categorical_equal( + result.stack(future_stack=True).columns.values, cats.values + ) + + +def test_unstack_categorical(): + # GH11558 (example is taken from the original issue) + df = DataFrame( + {"a": range(10), "medium": ["A", "B"] * 5, "artist": list("XYXXY") * 2} + ) + df["medium"] = df["medium"].astype("category") + + gcat = df.groupby(["artist", "medium"], observed=False)["a"].count().unstack() + result = gcat.describe() + + exp_columns = CategoricalIndex(["A", "B"], ordered=False, name="medium") + tm.assert_index_equal(result.columns, exp_columns) + tm.assert_categorical_equal(result.columns.values, exp_columns.values) + + result = gcat["A"] + gcat["B"] + expected = Series([6, 4], index=Index(["X", "Y"], name="artist")) + tm.assert_series_equal(result, expected) + + +def test_bins_unequal_len(): + # GH3011 + series = Series([np.nan, np.nan, 1, 1, 2, 2, 3, 3, 4, 4]) + bins = pd.cut(series.dropna().values, 4) + + # len(bins) != len(series) here + with pytest.raises(ValueError, match="Grouper and axis must be same length"): + series.groupby(bins).mean() + + +@pytest.mark.parametrize( + ["series", "data"], + [ + # Group a series with length and index equal to those of the grouper. + (Series(range(4)), {"A": [0, 3], "B": [1, 2]}), + # Group a series with length equal to that of the grouper and index unequal to + # that of the grouper. + (Series(range(4)).rename(lambda idx: idx + 1), {"A": [2], "B": [0, 1]}), + # GH44179: Group a series with length unequal to that of the grouper. + (Series(range(7)), {"A": [0, 3], "B": [1, 2]}), + ], +) +def test_categorical_series(series, data): + # Group the given series by a series with categorical data type such that group A + # takes indices 0 and 3 and group B indices 1 and 2, obtaining the values mapped in + # the given data. + groupby = series.groupby(Series(list("ABBA"), dtype="category"), observed=False) + result = groupby.aggregate(list) + expected = Series(data, index=CategoricalIndex(data.keys())) + tm.assert_series_equal(result, expected) + + +def test_as_index(): + # GH13204 + df = DataFrame( + { + "cat": Categorical([1, 2, 2], [1, 2, 3]), + "A": [10, 11, 11], + "B": [101, 102, 103], + } + ) + result = df.groupby(["cat", "A"], as_index=False, observed=True).sum() + expected = DataFrame( + { + "cat": Categorical([1, 2], categories=df.cat.cat.categories), + "A": [10, 11], + "B": [101, 205], + }, + columns=["cat", "A", "B"], + ) + tm.assert_frame_equal(result, expected) + + # function grouper + f = lambda r: df.loc[r, "A"] + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["cat", f], as_index=False, observed=True).sum() + expected = DataFrame( + { + "cat": Categorical([1, 2], categories=df.cat.cat.categories), + "A": [10, 22], + "B": [101, 205], + }, + columns=["cat", "A", "B"], + ) + tm.assert_frame_equal(result, expected) + + # another not in-axis grouper (conflicting names in index) + s = Series(["a", "b", "b"], name="cat") + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(["cat", s], as_index=False, observed=True).sum() + tm.assert_frame_equal(result, expected) + + # is original index dropped? + group_columns = ["cat", "A"] + expected = DataFrame( + { + "cat": Categorical([1, 2], categories=df.cat.cat.categories), + "A": [10, 11], + "B": [101, 205], + }, + columns=["cat", "A", "B"], + ) + + for name in [None, "X", "B"]: + df.index = Index(list("abc"), name=name) + result = df.groupby(group_columns, as_index=False, observed=True).sum() + + tm.assert_frame_equal(result, expected) + + +def test_preserve_categories(): + # GH-13179 + categories = list("abc") + + # ordered=True + df = DataFrame({"A": Categorical(list("ba"), categories=categories, ordered=True)}) + sort_index = CategoricalIndex(categories, categories, ordered=True, name="A") + nosort_index = CategoricalIndex(list("bac"), categories, ordered=True, name="A") + tm.assert_index_equal( + df.groupby("A", sort=True, observed=False).first().index, sort_index + ) + # GH#42482 - don't sort result when sort=False, even when ordered=True + tm.assert_index_equal( + df.groupby("A", sort=False, observed=False).first().index, nosort_index + ) + + # ordered=False + df = DataFrame({"A": Categorical(list("ba"), categories=categories, ordered=False)}) + sort_index = CategoricalIndex(categories, categories, ordered=False, name="A") + # GH#48749 - don't change order of categories + # GH#42482 - don't sort result when sort=False, even when ordered=True + nosort_index = CategoricalIndex(list("bac"), list("abc"), ordered=False, name="A") + tm.assert_index_equal( + df.groupby("A", sort=True, observed=False).first().index, sort_index + ) + tm.assert_index_equal( + df.groupby("A", sort=False, observed=False).first().index, nosort_index + ) + + +def test_preserve_categorical_dtype(): + # GH13743, GH13854 + df = DataFrame( + { + "A": [1, 2, 1, 1, 2], + "B": [10, 16, 22, 28, 34], + "C1": Categorical(list("abaab"), categories=list("bac"), ordered=False), + "C2": Categorical(list("abaab"), categories=list("bac"), ordered=True), + } + ) + # single grouper + exp_full = DataFrame( + { + "A": [2.0, 1.0, np.nan], + "B": [25.0, 20.0, np.nan], + "C1": Categorical(list("bac"), categories=list("bac"), ordered=False), + "C2": Categorical(list("bac"), categories=list("bac"), ordered=True), + } + ) + for col in ["C1", "C2"]: + result1 = df.groupby(by=col, as_index=False, observed=False).mean( + numeric_only=True + ) + result2 = ( + df.groupby(by=col, as_index=True, observed=False) + .mean(numeric_only=True) + .reset_index() + ) + expected = exp_full.reindex(columns=result1.columns) + tm.assert_frame_equal(result1, expected) + tm.assert_frame_equal(result2, expected) + + +@pytest.mark.parametrize( + "func, values", + [ + ("first", ["second", "first"]), + ("last", ["fourth", "third"]), + ("min", ["fourth", "first"]), + ("max", ["second", "third"]), + ], +) +def test_preserve_on_ordered_ops(func, values): + # gh-18502 + # preserve the categoricals on ops + c = Categorical(["first", "second", "third", "fourth"], ordered=True) + df = DataFrame({"payload": [-1, -2, -1, -2], "col": c}) + g = df.groupby("payload") + result = getattr(g, func)() + expected = DataFrame( + {"payload": [-2, -1], "col": Series(values, dtype=c.dtype)} + ).set_index("payload") + tm.assert_frame_equal(result, expected) + + # we should also preserve categorical for SeriesGroupBy + sgb = df.groupby("payload")["col"] + result = getattr(sgb, func)() + expected = expected["col"] + tm.assert_series_equal(result, expected) + + +def test_categorical_no_compress(): + data = Series(np.random.default_rng(2).standard_normal(9)) + + codes = np.array([0, 0, 0, 1, 1, 1, 2, 2, 2]) + cats = Categorical.from_codes(codes, [0, 1, 2], ordered=True) + + result = data.groupby(cats, observed=False).mean() + exp = data.groupby(codes, observed=False).mean() + + exp.index = CategoricalIndex( + exp.index, categories=cats.categories, ordered=cats.ordered + ) + tm.assert_series_equal(result, exp) + + codes = np.array([0, 0, 0, 1, 1, 1, 3, 3, 3]) + cats = Categorical.from_codes(codes, [0, 1, 2, 3], ordered=True) + + result = data.groupby(cats, observed=False).mean() + exp = data.groupby(codes, observed=False).mean().reindex(cats.categories) + exp.index = CategoricalIndex( + exp.index, categories=cats.categories, ordered=cats.ordered + ) + tm.assert_series_equal(result, exp) + + cats = Categorical( + ["a", "a", "a", "b", "b", "b", "c", "c", "c"], + categories=["a", "b", "c", "d"], + ordered=True, + ) + data = DataFrame({"a": [1, 1, 1, 2, 2, 2, 3, 4, 5], "b": cats}) + + result = data.groupby("b", observed=False).mean() + result = result["a"].values + exp = np.array([1, 2, 4, np.nan]) + tm.assert_numpy_array_equal(result, exp) + + +def test_groupby_empty_with_category(): + # GH-9614 + # test fix for when group by on None resulted in + # coercion of dtype categorical -> float + df = DataFrame({"A": [None] * 3, "B": Categorical(["train", "train", "test"])}) + result = df.groupby("A").first()["B"] + expected = Series( + Categorical([], categories=["test", "train"]), + index=Series([], dtype="object", name="A"), + name="B", + ) + tm.assert_series_equal(result, expected) + + +def test_sort(): + # https://stackoverflow.com/questions/23814368/sorting-pandas- + # categorical-labels-after-groupby + # This should result in a properly sorted Series so that the plot + # has a sorted x axis + # self.cat.groupby(['value_group'])['value_group'].count().plot(kind='bar') + + df = DataFrame({"value": np.random.default_rng(2).integers(0, 10000, 100)}) + labels = [f"{i} - {i+499}" for i in range(0, 10000, 500)] + cat_labels = Categorical(labels, labels) + + df = df.sort_values(by=["value"], ascending=True) + df["value_group"] = pd.cut( + df.value, range(0, 10500, 500), right=False, labels=cat_labels + ) + + res = df.groupby(["value_group"], observed=False)["value_group"].count() + exp = res[sorted(res.index, key=lambda x: float(x.split()[0]))] + exp.index = CategoricalIndex(exp.index, name=exp.index.name) + tm.assert_series_equal(res, exp) + + +@pytest.mark.parametrize("ordered", [True, False]) +def test_sort2(sort, ordered): + # dataframe groupby sort was being ignored # GH 8868 + # GH#48749 - don't change order of categories + # GH#42482 - don't sort result when sort=False, even when ordered=True + df = DataFrame( + [ + ["(7.5, 10]", 10, 10], + ["(7.5, 10]", 8, 20], + ["(2.5, 5]", 5, 30], + ["(5, 7.5]", 6, 40], + ["(2.5, 5]", 4, 50], + ["(0, 2.5]", 1, 60], + ["(5, 7.5]", 7, 70], + ], + columns=["range", "foo", "bar"], + ) + df["range"] = Categorical(df["range"], ordered=ordered) + result = df.groupby("range", sort=sort, observed=False).first() + + if sort: + data_values = [[1, 60], [5, 30], [6, 40], [10, 10]] + index_values = ["(0, 2.5]", "(2.5, 5]", "(5, 7.5]", "(7.5, 10]"] + else: + data_values = [[10, 10], [5, 30], [6, 40], [1, 60]] + index_values = ["(7.5, 10]", "(2.5, 5]", "(5, 7.5]", "(0, 2.5]"] + expected = DataFrame( + data_values, + columns=["foo", "bar"], + index=CategoricalIndex(index_values, name="range", ordered=ordered), + ) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("ordered", [True, False]) +def test_sort_datetimelike(sort, ordered): + # GH10505 + # GH#42482 - don't sort result when sort=False, even when ordered=True + + # use same data as test_groupby_sort_categorical, which category is + # corresponding to datetime.month + df = DataFrame( + { + "dt": [ + datetime(2011, 7, 1), + datetime(2011, 7, 1), + datetime(2011, 2, 1), + datetime(2011, 5, 1), + datetime(2011, 2, 1), + datetime(2011, 1, 1), + datetime(2011, 5, 1), + ], + "foo": [10, 8, 5, 6, 4, 1, 7], + "bar": [10, 20, 30, 40, 50, 60, 70], + }, + columns=["dt", "foo", "bar"], + ) + + # ordered=True + df["dt"] = Categorical(df["dt"], ordered=ordered) + if sort: + data_values = [[1, 60], [5, 30], [6, 40], [10, 10]] + index_values = [ + datetime(2011, 1, 1), + datetime(2011, 2, 1), + datetime(2011, 5, 1), + datetime(2011, 7, 1), + ] + else: + data_values = [[10, 10], [5, 30], [6, 40], [1, 60]] + index_values = [ + datetime(2011, 7, 1), + datetime(2011, 2, 1), + datetime(2011, 5, 1), + datetime(2011, 1, 1), + ] + expected = DataFrame( + data_values, + columns=["foo", "bar"], + index=CategoricalIndex(index_values, name="dt", ordered=ordered), + ) + result = df.groupby("dt", sort=sort, observed=False).first() + tm.assert_frame_equal(result, expected) + + +def test_empty_sum(): + # https://github.com/pandas-dev/pandas/issues/18678 + df = DataFrame( + {"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"]), "B": [1, 2, 1]} + ) + expected_idx = CategoricalIndex(["a", "b", "c"], name="A") + + # 0 by default + result = df.groupby("A", observed=False).B.sum() + expected = Series([3, 1, 0], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + # min_count=0 + result = df.groupby("A", observed=False).B.sum(min_count=0) + expected = Series([3, 1, 0], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + # min_count=1 + result = df.groupby("A", observed=False).B.sum(min_count=1) + expected = Series([3, 1, np.nan], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + # min_count>1 + result = df.groupby("A", observed=False).B.sum(min_count=2) + expected = Series([3, np.nan, np.nan], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + +def test_empty_prod(): + # https://github.com/pandas-dev/pandas/issues/18678 + df = DataFrame( + {"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"]), "B": [1, 2, 1]} + ) + + expected_idx = CategoricalIndex(["a", "b", "c"], name="A") + + # 1 by default + result = df.groupby("A", observed=False).B.prod() + expected = Series([2, 1, 1], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + # min_count=0 + result = df.groupby("A", observed=False).B.prod(min_count=0) + expected = Series([2, 1, 1], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + # min_count=1 + result = df.groupby("A", observed=False).B.prod(min_count=1) + expected = Series([2, 1, np.nan], expected_idx, name="B") + tm.assert_series_equal(result, expected) + + +def test_groupby_multiindex_categorical_datetime(): + # https://github.com/pandas-dev/pandas/issues/21390 + + df = DataFrame( + { + "key1": Categorical(list("abcbabcba")), + "key2": Categorical( + list(pd.date_range("2018-06-01 00", freq="1min", periods=3)) * 3 + ), + "values": np.arange(9), + } + ) + result = df.groupby(["key1", "key2"], observed=False).mean() + + idx = MultiIndex.from_product( + [ + Categorical(["a", "b", "c"]), + Categorical(pd.date_range("2018-06-01 00", freq="1min", periods=3)), + ], + names=["key1", "key2"], + ) + expected = DataFrame({"values": [0, 4, 8, 3, 4, 5, 6, np.nan, 2]}, index=idx) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "as_index, expected", + [ + ( + True, + Series( + index=MultiIndex.from_arrays( + [Series([1, 1, 2], dtype="category"), [1, 2, 2]], names=["a", "b"] + ), + data=[1, 2, 3], + name="x", + ), + ), + ( + False, + DataFrame( + { + "a": Series([1, 1, 2], dtype="category"), + "b": [1, 2, 2], + "x": [1, 2, 3], + } + ), + ), + ], +) +def test_groupby_agg_observed_true_single_column(as_index, expected): + # GH-23970 + df = DataFrame( + {"a": Series([1, 1, 2], dtype="category"), "b": [1, 2, 2], "x": [1, 2, 3]} + ) + + result = df.groupby(["a", "b"], as_index=as_index, observed=True)["x"].sum() + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("fill_value", [None, np.nan, pd.NaT]) +def test_shift(fill_value): + ct = Categorical( + ["a", "b", "c", "d"], categories=["a", "b", "c", "d"], ordered=False + ) + expected = Categorical( + [None, "a", "b", "c"], categories=["a", "b", "c", "d"], ordered=False + ) + res = ct.shift(1, fill_value=fill_value) + tm.assert_equal(res, expected) + + +@pytest.fixture +def df_cat(df): + """ + DataFrame with multiple categorical columns and a column of integers. + Shortened so as not to contain all possible combinations of categories. + Useful for testing `observed` kwarg functionality on GroupBy objects. + + Parameters + ---------- + df: DataFrame + Non-categorical, longer DataFrame from another fixture, used to derive + this one + + Returns + ------- + df_cat: DataFrame + """ + df_cat = df.copy()[:4] # leave out some groups + df_cat["A"] = df_cat["A"].astype("category") + df_cat["B"] = df_cat["B"].astype("category") + df_cat["C"] = Series([1, 2, 3, 4]) + df_cat = df_cat.drop(["D"], axis=1) + return df_cat + + +@pytest.mark.parametrize("operation", ["agg", "apply"]) +def test_seriesgroupby_observed_true(df_cat, operation): + # GH#24880 + # GH#49223 - order of results was wrong when grouping by index levels + lev_a = Index(["bar", "bar", "foo", "foo"], dtype=df_cat["A"].dtype, name="A") + lev_b = Index(["one", "three", "one", "two"], dtype=df_cat["B"].dtype, name="B") + index = MultiIndex.from_arrays([lev_a, lev_b]) + expected = Series(data=[2, 4, 1, 3], index=index, name="C").sort_index() + + grouped = df_cat.groupby(["A", "B"], observed=True)["C"] + msg = "using np.sum" if operation == "apply" else "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = getattr(grouped, operation)(sum) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("operation", ["agg", "apply"]) +@pytest.mark.parametrize("observed", [False, None]) +def test_seriesgroupby_observed_false_or_none(df_cat, observed, operation): + # GH 24880 + # GH#49223 - order of results was wrong when grouping by index levels + index, _ = MultiIndex.from_product( + [ + CategoricalIndex(["bar", "foo"], ordered=False), + CategoricalIndex(["one", "three", "two"], ordered=False), + ], + names=["A", "B"], + ).sortlevel() + + expected = Series(data=[2, 4, np.nan, 1, np.nan, 3], index=index, name="C") + if operation == "agg": + msg = "The 'downcast' keyword in fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = expected.fillna(0, downcast="infer") + grouped = df_cat.groupby(["A", "B"], observed=observed)["C"] + msg = "using SeriesGroupBy.sum" if operation == "agg" else "using np.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = getattr(grouped, operation)(sum) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "observed, index, data", + [ + ( + True, + MultiIndex.from_arrays( + [ + Index(["bar"] * 4 + ["foo"] * 4, dtype="category", name="A"), + Index( + ["one", "one", "three", "three", "one", "one", "two", "two"], + dtype="category", + name="B", + ), + Index(["min", "max"] * 4), + ] + ), + [2, 2, 4, 4, 1, 1, 3, 3], + ), + ( + False, + MultiIndex.from_product( + [ + CategoricalIndex(["bar", "foo"], ordered=False), + CategoricalIndex(["one", "three", "two"], ordered=False), + Index(["min", "max"]), + ], + names=["A", "B", None], + ), + [2, 2, 4, 4, np.nan, np.nan, 1, 1, np.nan, np.nan, 3, 3], + ), + ( + None, + MultiIndex.from_product( + [ + CategoricalIndex(["bar", "foo"], ordered=False), + CategoricalIndex(["one", "three", "two"], ordered=False), + Index(["min", "max"]), + ], + names=["A", "B", None], + ), + [2, 2, 4, 4, np.nan, np.nan, 1, 1, np.nan, np.nan, 3, 3], + ), + ], +) +def test_seriesgroupby_observed_apply_dict(df_cat, observed, index, data): + # GH 24880 + expected = Series(data=data, index=index, name="C") + result = df_cat.groupby(["A", "B"], observed=observed)["C"].apply( + lambda x: {"min": x.min(), "max": x.max()} + ) + tm.assert_series_equal(result, expected) + + +def test_groupby_categorical_series_dataframe_consistent(df_cat): + # GH 20416 + expected = df_cat.groupby(["A", "B"], observed=False)["C"].mean() + result = df_cat.groupby(["A", "B"], observed=False).mean()["C"] + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("code", [([1, 0, 0]), ([0, 0, 0])]) +def test_groupby_categorical_axis_1(code): + # GH 13420 + df = DataFrame({"a": [1, 2, 3, 4], "b": [-1, -2, -3, -4], "c": [5, 6, 7, 8]}) + cat = Categorical.from_codes(code, categories=list("abc")) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(cat, axis=1, observed=False) + result = gb.mean() + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb2 = df.T.groupby(cat, axis=0, observed=False) + expected = gb2.mean().T + tm.assert_frame_equal(result, expected) + + +def test_groupby_cat_preserves_structure(observed, ordered): + # GH 28787 + df = DataFrame( + {"Name": Categorical(["Bob", "Greg"], ordered=ordered), "Item": [1, 2]}, + columns=["Name", "Item"], + ) + expected = df.copy() + + result = ( + df.groupby("Name", observed=observed) + .agg(DataFrame.sum, skipna=True) + .reset_index() + ) + + tm.assert_frame_equal(result, expected) + + +def test_get_nonexistent_category(): + # Accessing a Category that is not in the dataframe + df = DataFrame({"var": ["a", "a", "b", "b"], "val": range(4)}) + with pytest.raises(KeyError, match="'vau'"): + df.groupby("var").apply( + lambda rows: DataFrame( + {"var": [rows.iloc[-1]["var"]], "val": [rows.iloc[-1]["vau"]]} + ) + ) + + +def test_series_groupby_on_2_categoricals_unobserved(reduction_func, observed): + # GH 17605 + if reduction_func == "ngroup": + pytest.skip("ngroup is not truly a reduction") + + df = DataFrame( + { + "cat_1": Categorical(list("AABB"), categories=list("ABCD")), + "cat_2": Categorical(list("AB") * 2, categories=list("ABCD")), + "value": [0.1] * 4, + } + ) + args = get_groupby_method_args(reduction_func, df) + + expected_length = 4 if observed else 16 + + series_groupby = df.groupby(["cat_1", "cat_2"], observed=observed)["value"] + + if reduction_func == "corrwith": + # TODO: implemented SeriesGroupBy.corrwith. See GH 32293 + assert not hasattr(series_groupby, reduction_func) + return + + agg = getattr(series_groupby, reduction_func) + + if not observed and reduction_func in ["idxmin", "idxmax"]: + # idxmin and idxmax are designed to fail on empty inputs + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + agg(*args) + return + + result = agg(*args) + + assert len(result) == expected_length + + +def test_series_groupby_on_2_categoricals_unobserved_zeroes_or_nans( + reduction_func, request +): + # GH 17605 + # Tests whether the unobserved categories in the result contain 0 or NaN + + if reduction_func == "ngroup": + pytest.skip("ngroup is not truly a reduction") + + if reduction_func == "corrwith": # GH 32293 + mark = pytest.mark.xfail( + reason="TODO: implemented SeriesGroupBy.corrwith. See GH 32293" + ) + request.applymarker(mark) + + df = DataFrame( + { + "cat_1": Categorical(list("AABB"), categories=list("ABC")), + "cat_2": Categorical(list("AB") * 2, categories=list("ABC")), + "value": [0.1] * 4, + } + ) + unobserved = [tuple("AC"), tuple("BC"), tuple("CA"), tuple("CB"), tuple("CC")] + args = get_groupby_method_args(reduction_func, df) + + series_groupby = df.groupby(["cat_1", "cat_2"], observed=False)["value"] + agg = getattr(series_groupby, reduction_func) + + if reduction_func in ["idxmin", "idxmax"]: + # idxmin and idxmax are designed to fail on empty inputs + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + agg(*args) + return + + result = agg(*args) + + zero_or_nan = _results_for_groupbys_with_missing_categories[reduction_func] + + for idx in unobserved: + val = result.loc[idx] + assert (pd.isna(zero_or_nan) and pd.isna(val)) or (val == zero_or_nan) + + # If we expect unobserved values to be zero, we also expect the dtype to be int. + # Except for .sum(). If the observed categories sum to dtype=float (i.e. their + # sums have decimals), then the zeros for the missing categories should also be + # floats. + if zero_or_nan == 0 and reduction_func != "sum": + assert np.issubdtype(result.dtype, np.integer) + + +def test_dataframe_groupby_on_2_categoricals_when_observed_is_true(reduction_func): + # GH 23865 + # GH 27075 + # Ensure that df.groupby, when 'by' is two Categorical variables, + # does not return the categories that are not in df when observed=True + if reduction_func == "ngroup": + pytest.skip("ngroup does not return the Categories on the index") + + df = DataFrame( + { + "cat_1": Categorical(list("AABB"), categories=list("ABC")), + "cat_2": Categorical(list("1111"), categories=list("12")), + "value": [0.1, 0.1, 0.1, 0.1], + } + ) + unobserved_cats = [("A", "2"), ("B", "2"), ("C", "1"), ("C", "2")] + + df_grp = df.groupby(["cat_1", "cat_2"], observed=True) + + args = get_groupby_method_args(reduction_func, df) + res = getattr(df_grp, reduction_func)(*args) + + for cat in unobserved_cats: + assert cat not in res.index + + +@pytest.mark.parametrize("observed", [False, None]) +def test_dataframe_groupby_on_2_categoricals_when_observed_is_false( + reduction_func, observed +): + # GH 23865 + # GH 27075 + # Ensure that df.groupby, when 'by' is two Categorical variables, + # returns the categories that are not in df when observed=False/None + + if reduction_func == "ngroup": + pytest.skip("ngroup does not return the Categories on the index") + + df = DataFrame( + { + "cat_1": Categorical(list("AABB"), categories=list("ABC")), + "cat_2": Categorical(list("1111"), categories=list("12")), + "value": [0.1, 0.1, 0.1, 0.1], + } + ) + unobserved_cats = [("A", "2"), ("B", "2"), ("C", "1"), ("C", "2")] + + df_grp = df.groupby(["cat_1", "cat_2"], observed=observed) + + args = get_groupby_method_args(reduction_func, df) + + if not observed and reduction_func in ["idxmin", "idxmax"]: + # idxmin and idxmax are designed to fail on empty inputs + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + getattr(df_grp, reduction_func)(*args) + return + + res = getattr(df_grp, reduction_func)(*args) + + expected = _results_for_groupbys_with_missing_categories[reduction_func] + + if expected is np.nan: + assert res.loc[unobserved_cats].isnull().all().all() + else: + assert (res.loc[unobserved_cats] == expected).all().all() + + +@pytest.mark.filterwarnings("ignore:invalid value encountered in cast:RuntimeWarning") +def test_series_groupby_categorical_aggregation_getitem(): + # GH 8870 + d = {"foo": [10, 8, 4, 1], "bar": [10, 20, 30, 40], "baz": ["d", "c", "d", "c"]} + df = DataFrame(d) + cat = pd.cut(df["foo"], np.linspace(0, 20, 5)) + df["range"] = cat + groups = df.groupby(["range", "baz"], as_index=True, sort=True, observed=False) + result = groups["foo"].agg("mean") + expected = groups.agg("mean")["foo"] + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "func, expected_values", + [(Series.nunique, [1, 1, 2]), (Series.count, [1, 2, 2])], +) +def test_groupby_agg_categorical_columns(func, expected_values): + # 31256 + df = DataFrame( + { + "id": [0, 1, 2, 3, 4], + "groups": [0, 1, 1, 2, 2], + "value": Categorical([0, 0, 0, 0, 1]), + } + ).set_index("id") + result = df.groupby("groups").agg(func) + + expected = DataFrame( + {"value": expected_values}, index=Index([0, 1, 2], name="groups") + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_agg_non_numeric(): + df = DataFrame({"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"])}) + expected = DataFrame({"A": [2, 1]}, index=np.array([1, 2])) + + result = df.groupby([1, 2, 1]).agg(Series.nunique) + tm.assert_frame_equal(result, expected) + + result = df.groupby([1, 2, 1]).nunique() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", ["first", "last"]) +def test_groupby_first_returned_categorical_instead_of_dataframe(func): + # GH 28641: groupby drops index, when grouping over categorical column with + # first/last. Renamed Categorical instead of DataFrame previously. + df = DataFrame({"A": [1997], "B": Series(["b"], dtype="category").cat.as_ordered()}) + df_grouped = df.groupby("A")["B"] + result = getattr(df_grouped, func)() + + # ordered categorical dtype should be preserved + expected = Series( + ["b"], index=Index([1997], name="A"), name="B", dtype=df["B"].dtype + ) + tm.assert_series_equal(result, expected) + + +def test_read_only_category_no_sort(): + # GH33410 + cats = np.array([1, 2]) + cats.flags.writeable = False + df = DataFrame( + {"a": [1, 3, 5, 7], "b": Categorical([1, 1, 2, 2], categories=Index(cats))} + ) + expected = DataFrame(data={"a": [2.0, 6.0]}, index=CategoricalIndex(cats, name="b")) + result = df.groupby("b", sort=False, observed=False).mean() + tm.assert_frame_equal(result, expected) + + +def test_sorted_missing_category_values(): + # GH 28597 + df = DataFrame( + { + "foo": [ + "small", + "large", + "large", + "large", + "medium", + "large", + "large", + "medium", + ], + "bar": ["C", "A", "A", "C", "A", "C", "A", "C"], + } + ) + df["foo"] = ( + df["foo"] + .astype("category") + .cat.set_categories(["tiny", "small", "medium", "large"], ordered=True) + ) + + expected = DataFrame( + { + "tiny": {"A": 0, "C": 0}, + "small": {"A": 0, "C": 1}, + "medium": {"A": 1, "C": 1}, + "large": {"A": 3, "C": 2}, + } + ) + expected = expected.rename_axis("bar", axis="index") + expected.columns = CategoricalIndex( + ["tiny", "small", "medium", "large"], + categories=["tiny", "small", "medium", "large"], + ordered=True, + name="foo", + dtype="category", + ) + + result = df.groupby(["bar", "foo"], observed=False).size().unstack() + + tm.assert_frame_equal(result, expected) + + +def test_agg_cython_category_not_implemented_fallback(): + # https://github.com/pandas-dev/pandas/issues/31450 + df = DataFrame({"col_num": [1, 1, 2, 3]}) + df["col_cat"] = df["col_num"].astype("category") + + result = df.groupby("col_num").col_cat.first() + + # ordered categorical dtype should definitely be preserved; + # this is unordered, so is less-clear case (if anything, it should raise) + expected = Series( + [1, 2, 3], + index=Index([1, 2, 3], name="col_num"), + name="col_cat", + dtype=df["col_cat"].dtype, + ) + tm.assert_series_equal(result, expected) + + result = df.groupby("col_num").agg({"col_cat": "first"}) + expected = expected.to_frame() + tm.assert_frame_equal(result, expected) + + +def test_aggregate_categorical_with_isnan(): + # GH 29837 + df = DataFrame( + { + "A": [1, 1, 1, 1], + "B": [1, 2, 1, 2], + "numerical_col": [0.1, 0.2, np.nan, 0.3], + "object_col": ["foo", "bar", "foo", "fee"], + "categorical_col": ["foo", "bar", "foo", "fee"], + } + ) + + df = df.astype({"categorical_col": "category"}) + + result = df.groupby(["A", "B"]).agg(lambda df: df.isna().sum()) + index = MultiIndex.from_arrays([[1, 1], [1, 2]], names=("A", "B")) + expected = DataFrame( + data={ + "numerical_col": [1, 0], + "object_col": [0, 0], + "categorical_col": [0, 0], + }, + index=index, + ) + tm.assert_frame_equal(result, expected) + + +def test_categorical_transform(): + # GH 29037 + df = DataFrame( + { + "package_id": [1, 1, 1, 2, 2, 3], + "status": [ + "Waiting", + "OnTheWay", + "Delivered", + "Waiting", + "OnTheWay", + "Waiting", + ], + } + ) + + delivery_status_type = pd.CategoricalDtype( + categories=["Waiting", "OnTheWay", "Delivered"], ordered=True + ) + df["status"] = df["status"].astype(delivery_status_type) + msg = "using SeriesGroupBy.max" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + df["last_status"] = df.groupby("package_id")["status"].transform(max) + result = df.copy() + + expected = DataFrame( + { + "package_id": [1, 1, 1, 2, 2, 3], + "status": [ + "Waiting", + "OnTheWay", + "Delivered", + "Waiting", + "OnTheWay", + "Waiting", + ], + "last_status": [ + "Delivered", + "Delivered", + "Delivered", + "OnTheWay", + "OnTheWay", + "Waiting", + ], + } + ) + + expected["status"] = expected["status"].astype(delivery_status_type) + + # .transform(max) should preserve ordered categoricals + expected["last_status"] = expected["last_status"].astype(delivery_status_type) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", ["first", "last"]) +def test_series_groupby_first_on_categorical_col_grouped_on_2_categoricals( + func: str, observed: bool +): + # GH 34951 + cat = Categorical([0, 0, 1, 1]) + val = [0, 1, 1, 0] + df = DataFrame({"a": cat, "b": cat, "c": val}) + + cat2 = Categorical([0, 1]) + idx = MultiIndex.from_product([cat2, cat2], names=["a", "b"]) + expected_dict = { + "first": Series([0, np.nan, np.nan, 1], idx, name="c"), + "last": Series([1, np.nan, np.nan, 0], idx, name="c"), + } + + expected = expected_dict[func] + if observed: + expected = expected.dropna().astype(np.int64) + + srs_grp = df.groupby(["a", "b"], observed=observed)["c"] + result = getattr(srs_grp, func)() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", ["first", "last"]) +def test_df_groupby_first_on_categorical_col_grouped_on_2_categoricals( + func: str, observed: bool +): + # GH 34951 + cat = Categorical([0, 0, 1, 1]) + val = [0, 1, 1, 0] + df = DataFrame({"a": cat, "b": cat, "c": val}) + + cat2 = Categorical([0, 1]) + idx = MultiIndex.from_product([cat2, cat2], names=["a", "b"]) + expected_dict = { + "first": Series([0, np.nan, np.nan, 1], idx, name="c"), + "last": Series([1, np.nan, np.nan, 0], idx, name="c"), + } + + expected = expected_dict[func].to_frame() + if observed: + expected = expected.dropna().astype(np.int64) + + df_grp = df.groupby(["a", "b"], observed=observed) + result = getattr(df_grp, func)() + tm.assert_frame_equal(result, expected) + + +def test_groupby_categorical_indices_unused_categories(): + # GH#38642 + df = DataFrame( + { + "key": Categorical(["b", "b", "a"], categories=["a", "b", "c"]), + "col": range(3), + } + ) + grouped = df.groupby("key", sort=False, observed=False) + result = grouped.indices + expected = { + "b": np.array([0, 1], dtype="intp"), + "a": np.array([2], dtype="intp"), + "c": np.array([], dtype="intp"), + } + assert result.keys() == expected.keys() + for key in result.keys(): + tm.assert_numpy_array_equal(result[key], expected[key]) + + +@pytest.mark.parametrize("func", ["first", "last"]) +def test_groupby_last_first_preserve_categoricaldtype(func): + # GH#33090 + df = DataFrame({"a": [1, 2, 3]}) + df["b"] = df["a"].astype("category") + result = getattr(df.groupby("a")["b"], func)() + expected = Series( + Categorical([1, 2, 3]), name="b", index=Index([1, 2, 3], name="a") + ) + tm.assert_series_equal(expected, result) + + +def test_groupby_categorical_observed_nunique(): + # GH#45128 + df = DataFrame({"a": [1, 2], "b": [1, 2], "c": [10, 11]}) + df = df.astype(dtype={"a": "category", "b": "category"}) + result = df.groupby(["a", "b"], observed=True).nunique()["c"] + expected = Series( + [1, 1], + index=MultiIndex.from_arrays( + [CategoricalIndex([1, 2], name="a"), CategoricalIndex([1, 2], name="b")] + ), + name="c", + ) + tm.assert_series_equal(result, expected) + + +def test_groupby_categorical_aggregate_functions(): + # GH#37275 + dtype = pd.CategoricalDtype(categories=["small", "big"], ordered=True) + df = DataFrame( + [[1, "small"], [1, "big"], [2, "small"]], columns=["grp", "description"] + ).astype({"description": dtype}) + + result = df.groupby("grp")["description"].max() + expected = Series( + ["big", "small"], + index=Index([1, 2], name="grp"), + name="description", + dtype=pd.CategoricalDtype(categories=["small", "big"], ordered=True), + ) + + tm.assert_series_equal(result, expected) + + +def test_groupby_categorical_dropna(observed, dropna): + # GH#48645 - dropna should have no impact on the result when there are no NA values + cat = Categorical([1, 2], categories=[1, 2, 3]) + df = DataFrame({"x": Categorical([1, 2], categories=[1, 2, 3]), "y": [3, 4]}) + gb = df.groupby("x", observed=observed, dropna=dropna) + result = gb.sum() + + if observed: + expected = DataFrame({"y": [3, 4]}, index=cat) + else: + index = CategoricalIndex([1, 2, 3], [1, 2, 3]) + expected = DataFrame({"y": [3, 4, 0]}, index=index) + expected.index.name = "x" + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["range", "single", "multi"]) +@pytest.mark.parametrize("ordered", [True, False]) +def test_category_order_reducer( + request, as_index, sort, observed, reduction_func, index_kind, ordered +): + # GH#48749 + if reduction_func == "corrwith" and not as_index: + msg = "GH#49950 - corrwith with as_index=False may not have grouping column" + request.applymarker(pytest.mark.xfail(reason=msg)) + elif index_kind != "range" and not as_index: + pytest.skip(reason="Result doesn't have categories, nothing to test") + df = DataFrame( + { + "a": Categorical([2, 1, 2, 3], categories=[1, 4, 3, 2], ordered=ordered), + "b": range(4), + } + ) + if index_kind == "range": + keys = ["a"] + elif index_kind == "single": + keys = ["a"] + df = df.set_index(keys) + elif index_kind == "multi": + keys = ["a", "a2"] + df["a2"] = df["a"] + df = df.set_index(keys) + args = get_groupby_method_args(reduction_func, df) + gb = df.groupby(keys, as_index=as_index, sort=sort, observed=observed) + + if not observed and reduction_func in ["idxmin", "idxmax"]: + # idxmin and idxmax are designed to fail on empty inputs + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + getattr(gb, reduction_func)(*args) + return + + op_result = getattr(gb, reduction_func)(*args) + if as_index: + result = op_result.index.get_level_values("a").categories + else: + result = op_result["a"].cat.categories + expected = Index([1, 4, 3, 2]) + tm.assert_index_equal(result, expected) + + if index_kind == "multi": + result = op_result.index.get_level_values("a2").categories + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["single", "multi"]) +@pytest.mark.parametrize("ordered", [True, False]) +def test_category_order_transformer( + as_index, sort, observed, transformation_func, index_kind, ordered +): + # GH#48749 + df = DataFrame( + { + "a": Categorical([2, 1, 2, 3], categories=[1, 4, 3, 2], ordered=ordered), + "b": range(4), + } + ) + if index_kind == "single": + keys = ["a"] + df = df.set_index(keys) + elif index_kind == "multi": + keys = ["a", "a2"] + df["a2"] = df["a"] + df = df.set_index(keys) + args = get_groupby_method_args(transformation_func, df) + gb = df.groupby(keys, as_index=as_index, sort=sort, observed=observed) + warn = FutureWarning if transformation_func == "fillna" else None + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + op_result = getattr(gb, transformation_func)(*args) + result = op_result.index.get_level_values("a").categories + expected = Index([1, 4, 3, 2]) + tm.assert_index_equal(result, expected) + + if index_kind == "multi": + result = op_result.index.get_level_values("a2").categories + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["range", "single", "multi"]) +@pytest.mark.parametrize("method", ["head", "tail"]) +@pytest.mark.parametrize("ordered", [True, False]) +def test_category_order_head_tail( + as_index, sort, observed, method, index_kind, ordered +): + # GH#48749 + df = DataFrame( + { + "a": Categorical([2, 1, 2, 3], categories=[1, 4, 3, 2], ordered=ordered), + "b": range(4), + } + ) + if index_kind == "range": + keys = ["a"] + elif index_kind == "single": + keys = ["a"] + df = df.set_index(keys) + elif index_kind == "multi": + keys = ["a", "a2"] + df["a2"] = df["a"] + df = df.set_index(keys) + gb = df.groupby(keys, as_index=as_index, sort=sort, observed=observed) + op_result = getattr(gb, method)() + if index_kind == "range": + result = op_result["a"].cat.categories + else: + result = op_result.index.get_level_values("a").categories + expected = Index([1, 4, 3, 2]) + tm.assert_index_equal(result, expected) + + if index_kind == "multi": + result = op_result.index.get_level_values("a2").categories + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["range", "single", "multi"]) +@pytest.mark.parametrize("method", ["apply", "agg", "transform"]) +@pytest.mark.parametrize("ordered", [True, False]) +def test_category_order_apply(as_index, sort, observed, method, index_kind, ordered): + # GH#48749 + if (method == "transform" and index_kind == "range") or ( + not as_index and index_kind != "range" + ): + pytest.skip("No categories in result, nothing to test") + df = DataFrame( + { + "a": Categorical([2, 1, 2, 3], categories=[1, 4, 3, 2], ordered=ordered), + "b": range(4), + } + ) + if index_kind == "range": + keys = ["a"] + elif index_kind == "single": + keys = ["a"] + df = df.set_index(keys) + elif index_kind == "multi": + keys = ["a", "a2"] + df["a2"] = df["a"] + df = df.set_index(keys) + gb = df.groupby(keys, as_index=as_index, sort=sort, observed=observed) + warn = FutureWarning if method == "apply" and index_kind == "range" else None + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(warn, match=msg): + op_result = getattr(gb, method)(lambda x: x.sum(numeric_only=True)) + if (method == "transform" or not as_index) and index_kind == "range": + result = op_result["a"].cat.categories + else: + result = op_result.index.get_level_values("a").categories + expected = Index([1, 4, 3, 2]) + tm.assert_index_equal(result, expected) + + if index_kind == "multi": + result = op_result.index.get_level_values("a2").categories + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["range", "single", "multi"]) +def test_many_categories(as_index, sort, index_kind, ordered): + # GH#48749 - Test when the grouper has many categories + if index_kind != "range" and not as_index: + pytest.skip(reason="Result doesn't have categories, nothing to test") + categories = np.arange(9999, -1, -1) + grouper = Categorical([2, 1, 2, 3], categories=categories, ordered=ordered) + df = DataFrame({"a": grouper, "b": range(4)}) + if index_kind == "range": + keys = ["a"] + elif index_kind == "single": + keys = ["a"] + df = df.set_index(keys) + elif index_kind == "multi": + keys = ["a", "a2"] + df["a2"] = df["a"] + df = df.set_index(keys) + gb = df.groupby(keys, as_index=as_index, sort=sort, observed=True) + result = gb.sum() + + # Test is setup so that data and index are the same values + data = [3, 2, 1] if sort else [2, 1, 3] + + index = CategoricalIndex( + data, categories=grouper.categories, ordered=ordered, name="a" + ) + if as_index: + expected = DataFrame({"b": data}) + if index_kind == "multi": + expected.index = MultiIndex.from_frame(DataFrame({"a": index, "a2": index})) + else: + expected.index = index + elif index_kind == "multi": + expected = DataFrame({"a": Series(index), "a2": Series(index), "b": data}) + else: + expected = DataFrame({"a": Series(index), "b": data}) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("cat_columns", ["a", "b", ["a", "b"]]) +@pytest.mark.parametrize("keys", ["a", "b", ["a", "b"]]) +def test_groupby_default_depr(cat_columns, keys): + # GH#43999 + df = DataFrame({"a": [1, 1, 2, 3], "b": [4, 5, 6, 7]}) + df[cat_columns] = df[cat_columns].astype("category") + msg = "The default of observed=False is deprecated" + klass = FutureWarning if set(cat_columns) & set(keys) else None + with tm.assert_produces_warning(klass, match=msg): + df.groupby(keys) + + +@pytest.mark.parametrize("test_series", [True, False]) +@pytest.mark.parametrize("keys", [["a1"], ["a1", "a2"]]) +def test_agg_list(request, as_index, observed, reduction_func, test_series, keys): + # GH#52760 + if test_series and reduction_func == "corrwith": + assert not hasattr(SeriesGroupBy, "corrwith") + pytest.skip("corrwith not implemented for SeriesGroupBy") + elif reduction_func == "corrwith": + msg = "GH#32293: attempts to call SeriesGroupBy.corrwith" + request.applymarker(pytest.mark.xfail(reason=msg)) + elif ( + reduction_func == "nunique" + and not test_series + and len(keys) != 1 + and not observed + and not as_index + ): + msg = "GH#52848 - raises a ValueError" + request.applymarker(pytest.mark.xfail(reason=msg)) + + df = DataFrame({"a1": [0, 0, 1], "a2": [2, 3, 3], "b": [4, 5, 6]}) + df = df.astype({"a1": "category", "a2": "category"}) + if "a2" not in keys: + df = df.drop(columns="a2") + gb = df.groupby(by=keys, as_index=as_index, observed=observed) + if test_series: + gb = gb["b"] + args = get_groupby_method_args(reduction_func, df) + + if not observed and reduction_func in ["idxmin", "idxmax"] and keys == ["a1", "a2"]: + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + gb.agg([reduction_func], *args) + return + + result = gb.agg([reduction_func], *args) + expected = getattr(gb, reduction_func)(*args) + + if as_index and (test_series or reduction_func == "size"): + expected = expected.to_frame(reduction_func) + if not test_series: + expected.columns = MultiIndex.from_tuples( + [(ind, "") for ind in expected.columns[:-1]] + [("b", reduction_func)] + ) + elif not as_index: + expected.columns = keys + [reduction_func] + + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_counting.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_counting.py new file mode 100644 index 0000000000000000000000000000000000000000..16d7fe61b90ad3eece2d16345407d21fbece6962 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_counting.py @@ -0,0 +1,394 @@ +from itertools import product +from string import ascii_lowercase + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, + Period, + Series, + Timedelta, + Timestamp, + date_range, +) +import pandas._testing as tm + + +class TestCounting: + def test_cumcount(self): + df = DataFrame([["a"], ["a"], ["a"], ["b"], ["a"]], columns=["A"]) + g = df.groupby("A") + sg = g.A + + expected = Series([0, 1, 2, 0, 3]) + + tm.assert_series_equal(expected, g.cumcount()) + tm.assert_series_equal(expected, sg.cumcount()) + + def test_cumcount_empty(self): + ge = DataFrame().groupby(level=0) + se = Series(dtype=object).groupby(level=0) + + # edge case, as this is usually considered float + e = Series(dtype="int64") + + tm.assert_series_equal(e, ge.cumcount()) + tm.assert_series_equal(e, se.cumcount()) + + def test_cumcount_dupe_index(self): + df = DataFrame( + [["a"], ["a"], ["a"], ["b"], ["a"]], columns=["A"], index=[0] * 5 + ) + g = df.groupby("A") + sg = g.A + + expected = Series([0, 1, 2, 0, 3], index=[0] * 5) + + tm.assert_series_equal(expected, g.cumcount()) + tm.assert_series_equal(expected, sg.cumcount()) + + def test_cumcount_mi(self): + mi = MultiIndex.from_tuples([[0, 1], [1, 2], [2, 2], [2, 2], [1, 0]]) + df = DataFrame([["a"], ["a"], ["a"], ["b"], ["a"]], columns=["A"], index=mi) + g = df.groupby("A") + sg = g.A + + expected = Series([0, 1, 2, 0, 3], index=mi) + + tm.assert_series_equal(expected, g.cumcount()) + tm.assert_series_equal(expected, sg.cumcount()) + + def test_cumcount_groupby_not_col(self): + df = DataFrame( + [["a"], ["a"], ["a"], ["b"], ["a"]], columns=["A"], index=[0] * 5 + ) + g = df.groupby([0, 0, 0, 1, 0]) + sg = g.A + + expected = Series([0, 1, 2, 0, 3], index=[0] * 5) + + tm.assert_series_equal(expected, g.cumcount()) + tm.assert_series_equal(expected, sg.cumcount()) + + def test_ngroup(self): + df = DataFrame({"A": list("aaaba")}) + g = df.groupby("A") + sg = g.A + + expected = Series([0, 0, 0, 1, 0]) + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_distinct(self): + df = DataFrame({"A": list("abcde")}) + g = df.groupby("A") + sg = g.A + + expected = Series(range(5), dtype="int64") + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_one_group(self): + df = DataFrame({"A": [0] * 5}) + g = df.groupby("A") + sg = g.A + + expected = Series([0] * 5) + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_empty(self): + ge = DataFrame().groupby(level=0) + se = Series(dtype=object).groupby(level=0) + + # edge case, as this is usually considered float + e = Series(dtype="int64") + + tm.assert_series_equal(e, ge.ngroup()) + tm.assert_series_equal(e, se.ngroup()) + + def test_ngroup_series_matches_frame(self): + df = DataFrame({"A": list("aaaba")}) + s = Series(list("aaaba")) + + tm.assert_series_equal(df.groupby(s).ngroup(), s.groupby(s).ngroup()) + + def test_ngroup_dupe_index(self): + df = DataFrame({"A": list("aaaba")}, index=[0] * 5) + g = df.groupby("A") + sg = g.A + + expected = Series([0, 0, 0, 1, 0], index=[0] * 5) + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_mi(self): + mi = MultiIndex.from_tuples([[0, 1], [1, 2], [2, 2], [2, 2], [1, 0]]) + df = DataFrame({"A": list("aaaba")}, index=mi) + g = df.groupby("A") + sg = g.A + expected = Series([0, 0, 0, 1, 0], index=mi) + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_groupby_not_col(self): + df = DataFrame({"A": list("aaaba")}, index=[0] * 5) + g = df.groupby([0, 0, 0, 1, 0]) + sg = g.A + + expected = Series([0, 0, 0, 1, 0], index=[0] * 5) + + tm.assert_series_equal(expected, g.ngroup()) + tm.assert_series_equal(expected, sg.ngroup()) + + def test_ngroup_descending(self): + df = DataFrame(["a", "a", "b", "a", "b"], columns=["A"]) + g = df.groupby(["A"]) + + ascending = Series([0, 0, 1, 0, 1]) + descending = Series([1, 1, 0, 1, 0]) + + tm.assert_series_equal(descending, (g.ngroups - 1) - ascending) + tm.assert_series_equal(ascending, g.ngroup(ascending=True)) + tm.assert_series_equal(descending, g.ngroup(ascending=False)) + + def test_ngroup_matches_cumcount(self): + # verify one manually-worked out case works + df = DataFrame( + [["a", "x"], ["a", "y"], ["b", "x"], ["a", "x"], ["b", "y"]], + columns=["A", "X"], + ) + g = df.groupby(["A", "X"]) + g_ngroup = g.ngroup() + g_cumcount = g.cumcount() + expected_ngroup = Series([0, 1, 2, 0, 3]) + expected_cumcount = Series([0, 0, 0, 1, 0]) + + tm.assert_series_equal(g_ngroup, expected_ngroup) + tm.assert_series_equal(g_cumcount, expected_cumcount) + + def test_ngroup_cumcount_pair(self): + # brute force comparison for all small series + for p in product(range(3), repeat=4): + df = DataFrame({"a": p}) + g = df.groupby(["a"]) + + order = sorted(set(p)) + ngroupd = [order.index(val) for val in p] + cumcounted = [p[:i].count(val) for i, val in enumerate(p)] + + tm.assert_series_equal(g.ngroup(), Series(ngroupd)) + tm.assert_series_equal(g.cumcount(), Series(cumcounted)) + + def test_ngroup_respects_groupby_order(self, sort): + df = DataFrame({"a": np.random.default_rng(2).choice(list("abcdef"), 100)}) + g = df.groupby("a", sort=sort) + df["group_id"] = -1 + df["group_index"] = -1 + + for i, (_, group) in enumerate(g): + df.loc[group.index, "group_id"] = i + for j, ind in enumerate(group.index): + df.loc[ind, "group_index"] = j + + tm.assert_series_equal(Series(df["group_id"].values), g.ngroup()) + tm.assert_series_equal(Series(df["group_index"].values), g.cumcount()) + + @pytest.mark.parametrize( + "datetimelike", + [ + [Timestamp(f"2016-05-{i:02d} 20:09:25+00:00") for i in range(1, 4)], + [Timestamp(f"2016-05-{i:02d} 20:09:25") for i in range(1, 4)], + [Timestamp(f"2016-05-{i:02d} 20:09:25", tz="UTC") for i in range(1, 4)], + [Timedelta(x, unit="h") for x in range(1, 4)], + [Period(freq="2W", year=2017, month=x) for x in range(1, 4)], + ], + ) + def test_count_with_datetimelike(self, datetimelike): + # test for #13393, where DataframeGroupBy.count() fails + # when counting a datetimelike column. + + df = DataFrame({"x": ["a", "a", "b"], "y": datetimelike}) + res = df.groupby("x").count() + expected = DataFrame({"y": [2, 1]}, index=["a", "b"]) + expected.index.name = "x" + tm.assert_frame_equal(expected, res) + + def test_count_with_only_nans_in_first_group(self): + # GH21956 + df = DataFrame({"A": [np.nan, np.nan], "B": ["a", "b"], "C": [1, 2]}) + result = df.groupby(["A", "B"]).C.count() + mi = MultiIndex(levels=[[], ["a", "b"]], codes=[[], []], names=["A", "B"]) + expected = Series([], index=mi, dtype=np.int64, name="C") + tm.assert_series_equal(result, expected, check_index_type=False) + + def test_count_groupby_column_with_nan_in_groupby_column(self): + # https://github.com/pandas-dev/pandas/issues/32841 + df = DataFrame({"A": [1, 1, 1, 1, 1], "B": [5, 4, np.nan, 3, 0]}) + res = df.groupby(["B"]).count() + expected = DataFrame( + index=Index([0.0, 3.0, 4.0, 5.0], name="B"), data={"A": [1, 1, 1, 1]} + ) + tm.assert_frame_equal(expected, res) + + def test_groupby_count_dateparseerror(self): + dr = date_range(start="1/1/2012", freq="5min", periods=10) + + # BAD Example, datetimes first + ser = Series(np.arange(10), index=[dr, np.arange(10)]) + grouped = ser.groupby(lambda x: x[1] % 2 == 0) + result = grouped.count() + + ser = Series(np.arange(10), index=[np.arange(10), dr]) + grouped = ser.groupby(lambda x: x[0] % 2 == 0) + expected = grouped.count() + + tm.assert_series_equal(result, expected) + + +def test_groupby_timedelta_cython_count(): + df = DataFrame( + {"g": list("ab" * 2), "delta": np.arange(4).astype("timedelta64[ns]")} + ) + expected = Series([2, 2], index=Index(["a", "b"], name="g"), name="delta") + result = df.groupby("g").delta.count() + tm.assert_series_equal(expected, result) + + +def test_count(): + n = 1 << 15 + dr = date_range("2015-08-30", periods=n // 10, freq="min") + + df = DataFrame( + { + "1st": np.random.default_rng(2).choice(list(ascii_lowercase), n), + "2nd": np.random.default_rng(2).integers(0, 5, n), + "3rd": np.random.default_rng(2).standard_normal(n).round(3), + "4th": np.random.default_rng(2).integers(-10, 10, n), + "5th": np.random.default_rng(2).choice(dr, n), + "6th": np.random.default_rng(2).standard_normal(n).round(3), + "7th": np.random.default_rng(2).standard_normal(n).round(3), + "8th": np.random.default_rng(2).choice(dr, n) + - np.random.default_rng(2).choice(dr, 1), + "9th": np.random.default_rng(2).choice(list(ascii_lowercase), n), + } + ) + + for col in df.columns.drop(["1st", "2nd", "4th"]): + df.loc[np.random.default_rng(2).choice(n, n // 10), col] = np.nan + + df["9th"] = df["9th"].astype("category") + + for key in ["1st", "2nd", ["1st", "2nd"]]: + left = df.groupby(key).count() + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + right = df.groupby(key).apply(DataFrame.count).drop(key, axis=1) + tm.assert_frame_equal(left, right) + + +def test_count_non_nulls(): + # GH#5610 + # count counts non-nulls + df = DataFrame( + [[1, 2, "foo"], [1, np.nan, "bar"], [3, np.nan, np.nan]], + columns=["A", "B", "C"], + ) + + count_as = df.groupby("A").count() + count_not_as = df.groupby("A", as_index=False).count() + + expected = DataFrame([[1, 2], [0, 0]], columns=["B", "C"], index=[1, 3]) + expected.index.name = "A" + tm.assert_frame_equal(count_not_as, expected.reset_index()) + tm.assert_frame_equal(count_as, expected) + + count_B = df.groupby("A")["B"].count() + tm.assert_series_equal(count_B, expected["B"]) + + +def test_count_object(): + df = DataFrame({"a": ["a"] * 3 + ["b"] * 3, "c": [2] * 3 + [3] * 3}) + result = df.groupby("c").a.count() + expected = Series([3, 3], index=Index([2, 3], name="c"), name="a") + tm.assert_series_equal(result, expected) + + df = DataFrame({"a": ["a", np.nan, np.nan] + ["b"] * 3, "c": [2] * 3 + [3] * 3}) + result = df.groupby("c").a.count() + expected = Series([1, 3], index=Index([2, 3], name="c"), name="a") + tm.assert_series_equal(result, expected) + + +def test_count_cross_type(): + # GH8169 + # Set float64 dtype to avoid upcast when setting nan below + vals = np.hstack( + ( + np.random.default_rng(2).integers(0, 5, (100, 2)), + np.random.default_rng(2).integers(0, 2, (100, 2)), + ) + ).astype("float64") + + df = DataFrame(vals, columns=["a", "b", "c", "d"]) + df[df == 2] = np.nan + expected = df.groupby(["c", "d"]).count() + + for t in ["float32", "object"]: + df["a"] = df["a"].astype(t) + df["b"] = df["b"].astype(t) + result = df.groupby(["c", "d"]).count() + tm.assert_frame_equal(result, expected) + + +def test_lower_int_prec_count(): + df = DataFrame( + { + "a": np.array([0, 1, 2, 100], np.int8), + "b": np.array([1, 2, 3, 6], np.uint32), + "c": np.array([4, 5, 6, 8], np.int16), + "grp": list("ab" * 2), + } + ) + result = df.groupby("grp").count() + expected = DataFrame( + {"a": [2, 2], "b": [2, 2], "c": [2, 2]}, index=Index(list("ab"), name="grp") + ) + tm.assert_frame_equal(result, expected) + + +def test_count_uses_size_on_exception(): + class RaisingObjectException(Exception): + pass + + class RaisingObject: + def __init__(self, msg="I will raise inside Cython") -> None: + super().__init__() + self.msg = msg + + def __eq__(self, other): + # gets called in Cython to check that raising calls the method + raise RaisingObjectException(self.msg) + + df = DataFrame({"a": [RaisingObject() for _ in range(4)], "grp": list("ab" * 2)}) + result = df.groupby("grp").count() + expected = DataFrame({"a": [2, 2]}, index=Index(list("ab"), name="grp")) + tm.assert_frame_equal(result, expected) + + +def test_count_arrow_string_array(any_string_dtype): + # GH#54751 + pytest.importorskip("pyarrow") + df = DataFrame( + {"a": [1, 2, 3], "b": Series(["a", "b", "a"], dtype=any_string_dtype)} + ) + result = df.groupby("a").count() + expected = DataFrame({"b": 1}, index=Index([1, 2, 3], name="a")) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_cumulative.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_cumulative.py new file mode 100644 index 0000000000000000000000000000000000000000..1bdbef6d50c4c23db86060493dcd4f6df4bc4728 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_cumulative.py @@ -0,0 +1,319 @@ +import numpy as np +import pytest + +from pandas.errors import UnsupportedFunctionCall +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +@pytest.fixture( + params=[np.int32, np.int64, np.float32, np.float64, "Int64", "Float64"], + ids=["np.int32", "np.int64", "np.float32", "np.float64", "Int64", "Float64"], +) +def dtypes_for_minmax(request): + """ + Fixture of dtypes with min and max values used for testing + cummin and cummax + """ + dtype = request.param + + np_type = dtype + if dtype == "Int64": + np_type = np.int64 + elif dtype == "Float64": + np_type = np.float64 + + min_val = ( + np.iinfo(np_type).min + if np.dtype(np_type).kind == "i" + else np.finfo(np_type).min + ) + max_val = ( + np.iinfo(np_type).max + if np.dtype(np_type).kind == "i" + else np.finfo(np_type).max + ) + + return (dtype, min_val, max_val) + + +def test_groupby_cumprod(): + # GH 4095 + df = DataFrame({"key": ["b"] * 10, "value": 2}) + + actual = df.groupby("key")["value"].cumprod() + expected = df.groupby("key", group_keys=False)["value"].apply(lambda x: x.cumprod()) + expected.name = "value" + tm.assert_series_equal(actual, expected) + + df = DataFrame({"key": ["b"] * 100, "value": 2}) + df["value"] = df["value"].astype(float) + actual = df.groupby("key")["value"].cumprod() + expected = df.groupby("key", group_keys=False)["value"].apply(lambda x: x.cumprod()) + expected.name = "value" + tm.assert_series_equal(actual, expected) + + +@pytest.mark.skip_ubsan +def test_groupby_cumprod_overflow(): + # GH#37493 if we overflow we return garbage consistent with numpy + df = DataFrame({"key": ["b"] * 4, "value": 100_000}) + actual = df.groupby("key")["value"].cumprod() + expected = Series( + [100_000, 10_000_000_000, 1_000_000_000_000_000, 7766279631452241920], + name="value", + ) + tm.assert_series_equal(actual, expected) + + numpy_result = df.groupby("key", group_keys=False)["value"].apply( + lambda x: x.cumprod() + ) + numpy_result.name = "value" + tm.assert_series_equal(actual, numpy_result) + + +def test_groupby_cumprod_nan_influences_other_columns(): + # GH#48064 + df = DataFrame( + { + "a": 1, + "b": [1, np.nan, 2], + "c": [1, 2, 3.0], + } + ) + result = df.groupby("a").cumprod(numeric_only=True, skipna=False) + expected = DataFrame({"b": [1, np.nan, np.nan], "c": [1, 2, 6.0]}) + tm.assert_frame_equal(result, expected) + + +def test_cummin(dtypes_for_minmax): + dtype = dtypes_for_minmax[0] + min_val = dtypes_for_minmax[1] + + # GH 15048 + base_df = DataFrame({"A": [1, 1, 1, 1, 2, 2, 2, 2], "B": [3, 4, 3, 2, 2, 3, 2, 1]}) + expected_mins = [3, 3, 3, 2, 2, 2, 2, 1] + + df = base_df.astype(dtype) + + expected = DataFrame({"B": expected_mins}).astype(dtype) + result = df.groupby("A").cummin() + tm.assert_frame_equal(result, expected) + result = df.groupby("A", group_keys=False).B.apply(lambda x: x.cummin()).to_frame() + tm.assert_frame_equal(result, expected) + + # Test w/ min value for dtype + df.loc[[2, 6], "B"] = min_val + df.loc[[1, 5], "B"] = min_val + 1 + expected.loc[[2, 3, 6, 7], "B"] = min_val + expected.loc[[1, 5], "B"] = min_val + 1 # should not be rounded to min_val + result = df.groupby("A").cummin() + tm.assert_frame_equal(result, expected, check_exact=True) + expected = ( + df.groupby("A", group_keys=False).B.apply(lambda x: x.cummin()).to_frame() + ) + tm.assert_frame_equal(result, expected, check_exact=True) + + # Test nan in some values + # Explicit cast to float to avoid implicit cast when setting nan + base_df = base_df.astype({"B": "float"}) + base_df.loc[[0, 2, 4, 6], "B"] = np.nan + expected = DataFrame({"B": [np.nan, 4, np.nan, 2, np.nan, 3, np.nan, 1]}) + result = base_df.groupby("A").cummin() + tm.assert_frame_equal(result, expected) + expected = ( + base_df.groupby("A", group_keys=False).B.apply(lambda x: x.cummin()).to_frame() + ) + tm.assert_frame_equal(result, expected) + + # GH 15561 + df = DataFrame({"a": [1], "b": pd.to_datetime(["2001"])}) + expected = Series(pd.to_datetime("2001"), index=[0], name="b") + + result = df.groupby("a")["b"].cummin() + tm.assert_series_equal(expected, result) + + # GH 15635 + df = DataFrame({"a": [1, 2, 1], "b": [1, 2, 2]}) + result = df.groupby("a").b.cummin() + expected = Series([1, 2, 1], name="b") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["cummin", "cummax"]) +@pytest.mark.parametrize("dtype", ["UInt64", "Int64", "Float64", "float", "boolean"]) +def test_cummin_max_all_nan_column(method, dtype): + base_df = DataFrame({"A": [1, 1, 1, 1, 2, 2, 2, 2], "B": [np.nan] * 8}) + base_df["B"] = base_df["B"].astype(dtype) + grouped = base_df.groupby("A") + + expected = DataFrame({"B": [np.nan] * 8}, dtype=dtype) + result = getattr(grouped, method)() + tm.assert_frame_equal(expected, result) + + result = getattr(grouped["B"], method)().to_frame() + tm.assert_frame_equal(expected, result) + + +def test_cummax(dtypes_for_minmax): + dtype = dtypes_for_minmax[0] + max_val = dtypes_for_minmax[2] + + # GH 15048 + base_df = DataFrame({"A": [1, 1, 1, 1, 2, 2, 2, 2], "B": [3, 4, 3, 2, 2, 3, 2, 1]}) + expected_maxs = [3, 4, 4, 4, 2, 3, 3, 3] + + df = base_df.astype(dtype) + + expected = DataFrame({"B": expected_maxs}).astype(dtype) + result = df.groupby("A").cummax() + tm.assert_frame_equal(result, expected) + result = df.groupby("A", group_keys=False).B.apply(lambda x: x.cummax()).to_frame() + tm.assert_frame_equal(result, expected) + + # Test w/ max value for dtype + df.loc[[2, 6], "B"] = max_val + expected.loc[[2, 3, 6, 7], "B"] = max_val + result = df.groupby("A").cummax() + tm.assert_frame_equal(result, expected) + expected = ( + df.groupby("A", group_keys=False).B.apply(lambda x: x.cummax()).to_frame() + ) + tm.assert_frame_equal(result, expected) + + # Test nan in some values + # Explicit cast to float to avoid implicit cast when setting nan + base_df = base_df.astype({"B": "float"}) + base_df.loc[[0, 2, 4, 6], "B"] = np.nan + expected = DataFrame({"B": [np.nan, 4, np.nan, 4, np.nan, 3, np.nan, 3]}) + result = base_df.groupby("A").cummax() + tm.assert_frame_equal(result, expected) + expected = ( + base_df.groupby("A", group_keys=False).B.apply(lambda x: x.cummax()).to_frame() + ) + tm.assert_frame_equal(result, expected) + + # GH 15561 + df = DataFrame({"a": [1], "b": pd.to_datetime(["2001"])}) + expected = Series(pd.to_datetime("2001"), index=[0], name="b") + + result = df.groupby("a")["b"].cummax() + tm.assert_series_equal(expected, result) + + # GH 15635 + df = DataFrame({"a": [1, 2, 1], "b": [2, 1, 1]}) + result = df.groupby("a").b.cummax() + expected = Series([2, 1, 2], name="b") + tm.assert_series_equal(result, expected) + + +def test_cummax_i8_at_implementation_bound(): + # the minimum value used to be treated as NPY_NAT+1 instead of NPY_NAT + # for int64 dtype GH#46382 + ser = Series([pd.NaT._value + n for n in range(5)]) + df = DataFrame({"A": 1, "B": ser, "C": ser._values.view("M8[ns]")}) + gb = df.groupby("A") + + res = gb.cummax() + exp = df[["B", "C"]] + tm.assert_frame_equal(res, exp) + + +@pytest.mark.parametrize("method", ["cummin", "cummax"]) +@pytest.mark.parametrize("dtype", ["float", "Int64", "Float64"]) +@pytest.mark.parametrize( + "groups,expected_data", + [ + ([1, 1, 1], [1, None, None]), + ([1, 2, 3], [1, None, 2]), + ([1, 3, 3], [1, None, None]), + ], +) +def test_cummin_max_skipna(method, dtype, groups, expected_data): + # GH-34047 + df = DataFrame({"a": Series([1, None, 2], dtype=dtype)}) + orig = df.copy() + gb = df.groupby(groups)["a"] + + result = getattr(gb, method)(skipna=False) + expected = Series(expected_data, dtype=dtype, name="a") + + # check we didn't accidentally alter df + tm.assert_frame_equal(df, orig) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("method", ["cummin", "cummax"]) +def test_cummin_max_skipna_multiple_cols(method): + # Ensure missing value in "a" doesn't cause "b" to be nan-filled + df = DataFrame({"a": [np.nan, 2.0, 2.0], "b": [2.0, 2.0, 2.0]}) + gb = df.groupby([1, 1, 1])[["a", "b"]] + + result = getattr(gb, method)(skipna=False) + expected = DataFrame({"a": [np.nan, np.nan, np.nan], "b": [2.0, 2.0, 2.0]}) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", ["cumprod", "cumsum"]) +def test_numpy_compat(func): + # see gh-12811 + df = DataFrame({"A": [1, 2, 1], "B": [1, 2, 3]}) + g = df.groupby("A") + + msg = "numpy operations are not valid with groupby" + + with pytest.raises(UnsupportedFunctionCall, match=msg): + getattr(g, func)(1, 2, 3) + with pytest.raises(UnsupportedFunctionCall, match=msg): + getattr(g, func)(foo=1) + + +@td.skip_if_32bit +@pytest.mark.parametrize("method", ["cummin", "cummax"]) +@pytest.mark.parametrize( + "dtype,val", [("UInt64", np.iinfo("uint64").max), ("Int64", 2**53 + 1)] +) +def test_nullable_int_not_cast_as_float(method, dtype, val): + data = [val, pd.NA] + df = DataFrame({"grp": [1, 1], "b": data}, dtype=dtype) + grouped = df.groupby("grp") + + result = grouped.transform(method) + expected = DataFrame({"b": data}, dtype=dtype) + + tm.assert_frame_equal(result, expected) + + +def test_cython_api2(): + # this takes the fast apply path + + # cumsum (GH5614) + df = DataFrame([[1, 2, np.nan], [1, np.nan, 9], [3, 4, 9]], columns=["A", "B", "C"]) + expected = DataFrame([[2, np.nan], [np.nan, 9], [4, 9]], columns=["B", "C"]) + result = df.groupby("A").cumsum() + tm.assert_frame_equal(result, expected) + + # GH 5755 - cumsum is a transformer and should ignore as_index + result = df.groupby("A", as_index=False).cumsum() + tm.assert_frame_equal(result, expected) + + # GH 13994 + msg = "DataFrameGroupBy.cumsum with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").cumsum(axis=1) + expected = df.cumsum(axis=1) + tm.assert_frame_equal(result, expected) + + msg = "DataFrameGroupBy.cumprod with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").cumprod(axis=1) + expected = df.cumprod(axis=1) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_filters.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_filters.py new file mode 100644 index 0000000000000000000000000000000000000000..309c4b7b57e84f68e13ed974790c87c16244aae7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_filters.py @@ -0,0 +1,636 @@ +from string import ascii_lowercase + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Series, + Timestamp, +) +import pandas._testing as tm + + +def test_filter_series(): + s = Series([1, 3, 20, 5, 22, 24, 7]) + expected_odd = Series([1, 3, 5, 7], index=[0, 1, 3, 6]) + expected_even = Series([20, 22, 24], index=[2, 4, 5]) + grouper = s.apply(lambda x: x % 2) + grouped = s.groupby(grouper) + tm.assert_series_equal(grouped.filter(lambda x: x.mean() < 10), expected_odd) + tm.assert_series_equal(grouped.filter(lambda x: x.mean() > 10), expected_even) + # Test dropna=False. + tm.assert_series_equal( + grouped.filter(lambda x: x.mean() < 10, dropna=False), + expected_odd.reindex(s.index), + ) + tm.assert_series_equal( + grouped.filter(lambda x: x.mean() > 10, dropna=False), + expected_even.reindex(s.index), + ) + + +def test_filter_single_column_df(): + df = DataFrame([1, 3, 20, 5, 22, 24, 7]) + expected_odd = DataFrame([1, 3, 5, 7], index=[0, 1, 3, 6]) + expected_even = DataFrame([20, 22, 24], index=[2, 4, 5]) + grouper = df[0].apply(lambda x: x % 2) + grouped = df.groupby(grouper) + tm.assert_frame_equal(grouped.filter(lambda x: x.mean() < 10), expected_odd) + tm.assert_frame_equal(grouped.filter(lambda x: x.mean() > 10), expected_even) + # Test dropna=False. + tm.assert_frame_equal( + grouped.filter(lambda x: x.mean() < 10, dropna=False), + expected_odd.reindex(df.index), + ) + tm.assert_frame_equal( + grouped.filter(lambda x: x.mean() > 10, dropna=False), + expected_even.reindex(df.index), + ) + + +def test_filter_multi_column_df(): + df = DataFrame({"A": [1, 12, 12, 1], "B": [1, 1, 1, 1]}) + grouper = df["A"].apply(lambda x: x % 2) + grouped = df.groupby(grouper) + expected = DataFrame({"A": [12, 12], "B": [1, 1]}, index=[1, 2]) + tm.assert_frame_equal( + grouped.filter(lambda x: x["A"].sum() - x["B"].sum() > 10), expected + ) + + +def test_filter_mixed_df(): + df = DataFrame({"A": [1, 12, 12, 1], "B": "a b c d".split()}) + grouper = df["A"].apply(lambda x: x % 2) + grouped = df.groupby(grouper) + expected = DataFrame({"A": [12, 12], "B": ["b", "c"]}, index=[1, 2]) + tm.assert_frame_equal(grouped.filter(lambda x: x["A"].sum() > 10), expected) + + +def test_filter_out_all_groups(): + s = Series([1, 3, 20, 5, 22, 24, 7]) + grouper = s.apply(lambda x: x % 2) + grouped = s.groupby(grouper) + tm.assert_series_equal(grouped.filter(lambda x: x.mean() > 1000), s[[]]) + df = DataFrame({"A": [1, 12, 12, 1], "B": "a b c d".split()}) + grouper = df["A"].apply(lambda x: x % 2) + grouped = df.groupby(grouper) + tm.assert_frame_equal(grouped.filter(lambda x: x["A"].sum() > 1000), df.loc[[]]) + + +def test_filter_out_no_groups(): + s = Series([1, 3, 20, 5, 22, 24, 7]) + grouper = s.apply(lambda x: x % 2) + grouped = s.groupby(grouper) + filtered = grouped.filter(lambda x: x.mean() > 0) + tm.assert_series_equal(filtered, s) + df = DataFrame({"A": [1, 12, 12, 1], "B": "a b c d".split()}) + grouper = df["A"].apply(lambda x: x % 2) + grouped = df.groupby(grouper) + filtered = grouped.filter(lambda x: x["A"].mean() > 0) + tm.assert_frame_equal(filtered, df) + + +def test_filter_out_all_groups_in_df(): + # GH12768 + df = DataFrame({"a": [1, 1, 2], "b": [1, 2, 0]}) + res = df.groupby("a") + res = res.filter(lambda x: x["b"].sum() > 5, dropna=False) + expected = DataFrame({"a": [np.nan] * 3, "b": [np.nan] * 3}) + tm.assert_frame_equal(expected, res) + + df = DataFrame({"a": [1, 1, 2], "b": [1, 2, 0]}) + res = df.groupby("a") + res = res.filter(lambda x: x["b"].sum() > 5, dropna=True) + expected = DataFrame({"a": [], "b": []}, dtype="int64") + tm.assert_frame_equal(expected, res) + + +def test_filter_condition_raises(): + def raise_if_sum_is_zero(x): + if x.sum() == 0: + raise ValueError + return x.sum() > 0 + + s = Series([-1, 0, 1, 2]) + grouper = s.apply(lambda x: x % 2) + grouped = s.groupby(grouper) + msg = "the filter must return a boolean result" + with pytest.raises(TypeError, match=msg): + grouped.filter(raise_if_sum_is_zero) + + +def test_filter_with_axis_in_groupby(): + # issue 11041 + index = pd.MultiIndex.from_product([range(10), [0, 1]]) + data = DataFrame(np.arange(100).reshape(-1, 20), columns=index, dtype="int64") + + msg = "DataFrame.groupby with axis=1" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = data.groupby(level=0, axis=1) + result = gb.filter(lambda x: x.iloc[0, 0] > 10) + expected = data.iloc[:, 12:20] + tm.assert_frame_equal(result, expected) + + +def test_filter_bad_shapes(): + df = DataFrame({"A": np.arange(8), "B": list("aabbbbcc"), "C": np.arange(8)}) + s = df["B"] + g_df = df.groupby("B") + g_s = s.groupby(s) + + f = lambda x: x + msg = "filter function returned a DataFrame, but expected a scalar bool" + with pytest.raises(TypeError, match=msg): + g_df.filter(f) + msg = "the filter must return a boolean result" + with pytest.raises(TypeError, match=msg): + g_s.filter(f) + + f = lambda x: x == 1 + msg = "filter function returned a DataFrame, but expected a scalar bool" + with pytest.raises(TypeError, match=msg): + g_df.filter(f) + msg = "the filter must return a boolean result" + with pytest.raises(TypeError, match=msg): + g_s.filter(f) + + f = lambda x: np.outer(x, x) + msg = "can't multiply sequence by non-int of type 'str'" + with pytest.raises(TypeError, match=msg): + g_df.filter(f) + msg = "the filter must return a boolean result" + with pytest.raises(TypeError, match=msg): + g_s.filter(f) + + +def test_filter_nan_is_false(): + df = DataFrame({"A": np.arange(8), "B": list("aabbbbcc"), "C": np.arange(8)}) + s = df["B"] + g_df = df.groupby(df["B"]) + g_s = s.groupby(s) + + f = lambda x: np.nan + tm.assert_frame_equal(g_df.filter(f), df.loc[[]]) + tm.assert_series_equal(g_s.filter(f), s[[]]) + + +def test_filter_pdna_is_false(): + # in particular, dont raise in filter trying to call bool(pd.NA) + df = DataFrame({"A": np.arange(8), "B": list("aabbbbcc"), "C": np.arange(8)}) + ser = df["B"] + g_df = df.groupby(df["B"]) + g_s = ser.groupby(ser) + + func = lambda x: pd.NA + res = g_df.filter(func) + tm.assert_frame_equal(res, df.loc[[]]) + res = g_s.filter(func) + tm.assert_series_equal(res, ser[[]]) + + +def test_filter_against_workaround_ints(): + # Series of ints + s = Series(np.random.default_rng(2).integers(0, 100, 100)) + grouper = s.apply(lambda x: np.round(x, -1)) + grouped = s.groupby(grouper) + f = lambda x: x.mean() > 10 + + old_way = s[grouped.transform(f).astype("bool")] + new_way = grouped.filter(f) + tm.assert_series_equal(new_way.sort_values(), old_way.sort_values()) + + +def test_filter_against_workaround_floats(): + # Series of floats + s = 100 * Series(np.random.default_rng(2).random(100)) + grouper = s.apply(lambda x: np.round(x, -1)) + grouped = s.groupby(grouper) + f = lambda x: x.mean() > 10 + old_way = s[grouped.transform(f).astype("bool")] + new_way = grouped.filter(f) + tm.assert_series_equal(new_way.sort_values(), old_way.sort_values()) + + +def test_filter_against_workaround_dataframe(): + # Set up DataFrame of ints, floats, strings. + letters = np.array(list(ascii_lowercase)) + N = 100 + random_letters = letters.take( + np.random.default_rng(2).integers(0, 26, N, dtype=int) + ) + df = DataFrame( + { + "ints": Series(np.random.default_rng(2).integers(0, 100, N)), + "floats": N / 10 * Series(np.random.default_rng(2).random(N)), + "letters": Series(random_letters), + } + ) + + # Group by ints; filter on floats. + grouped = df.groupby("ints") + old_way = df[grouped.floats.transform(lambda x: x.mean() > N / 20).astype("bool")] + new_way = grouped.filter(lambda x: x["floats"].mean() > N / 20) + tm.assert_frame_equal(new_way, old_way) + + # Group by floats (rounded); filter on strings. + grouper = df.floats.apply(lambda x: np.round(x, -1)) + grouped = df.groupby(grouper) + old_way = df[grouped.letters.transform(lambda x: len(x) < N / 10).astype("bool")] + new_way = grouped.filter(lambda x: len(x.letters) < N / 10) + tm.assert_frame_equal(new_way, old_way) + + # Group by strings; filter on ints. + grouped = df.groupby("letters") + old_way = df[grouped.ints.transform(lambda x: x.mean() > N / 20).astype("bool")] + new_way = grouped.filter(lambda x: x["ints"].mean() > N / 20) + tm.assert_frame_equal(new_way, old_way) + + +def test_filter_using_len(): + # BUG GH4447 + df = DataFrame({"A": np.arange(8), "B": list("aabbbbcc"), "C": np.arange(8)}) + grouped = df.groupby("B") + actual = grouped.filter(lambda x: len(x) > 2) + expected = DataFrame( + {"A": np.arange(2, 6), "B": list("bbbb"), "C": np.arange(2, 6)}, + index=np.arange(2, 6, dtype=np.int64), + ) + tm.assert_frame_equal(actual, expected) + + actual = grouped.filter(lambda x: len(x) > 4) + expected = df.loc[[]] + tm.assert_frame_equal(actual, expected) + + # Series have always worked properly, but we'll test anyway. + s = df["B"] + grouped = s.groupby(s) + actual = grouped.filter(lambda x: len(x) > 2) + expected = Series(4 * ["b"], index=np.arange(2, 6, dtype=np.int64), name="B") + tm.assert_series_equal(actual, expected) + + actual = grouped.filter(lambda x: len(x) > 4) + expected = s[[]] + tm.assert_series_equal(actual, expected) + + +def test_filter_maintains_ordering(): + # Simple case: index is sequential. #4621 + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]} + ) + s = df["pid"] + grouped = df.groupby("tag") + actual = grouped.filter(lambda x: len(x) > 1) + expected = df.iloc[[1, 2, 4, 7]] + tm.assert_frame_equal(actual, expected) + + grouped = s.groupby(df["tag"]) + actual = grouped.filter(lambda x: len(x) > 1) + expected = s.iloc[[1, 2, 4, 7]] + tm.assert_series_equal(actual, expected) + + # Now index is sequentially decreasing. + df.index = np.arange(len(df) - 1, -1, -1) + s = df["pid"] + grouped = df.groupby("tag") + actual = grouped.filter(lambda x: len(x) > 1) + expected = df.iloc[[1, 2, 4, 7]] + tm.assert_frame_equal(actual, expected) + + grouped = s.groupby(df["tag"]) + actual = grouped.filter(lambda x: len(x) > 1) + expected = s.iloc[[1, 2, 4, 7]] + tm.assert_series_equal(actual, expected) + + # Index is shuffled. + SHUFFLED = [4, 6, 7, 2, 1, 0, 5, 3] + df.index = df.index[SHUFFLED] + s = df["pid"] + grouped = df.groupby("tag") + actual = grouped.filter(lambda x: len(x) > 1) + expected = df.iloc[[1, 2, 4, 7]] + tm.assert_frame_equal(actual, expected) + + grouped = s.groupby(df["tag"]) + actual = grouped.filter(lambda x: len(x) > 1) + expected = s.iloc[[1, 2, 4, 7]] + tm.assert_series_equal(actual, expected) + + +def test_filter_multiple_timestamp(): + # GH 10114 + df = DataFrame( + { + "A": np.arange(5, dtype="int64"), + "B": ["foo", "bar", "foo", "bar", "bar"], + "C": Timestamp("20130101"), + } + ) + + grouped = df.groupby(["B", "C"]) + + result = grouped["A"].filter(lambda x: True) + tm.assert_series_equal(df["A"], result) + + result = grouped["A"].transform(len) + expected = Series([2, 3, 2, 3, 3], name="A") + tm.assert_series_equal(result, expected) + + result = grouped.filter(lambda x: True) + tm.assert_frame_equal(df, result) + + result = grouped.transform("sum") + expected = DataFrame({"A": [2, 8, 2, 8, 8]}) + tm.assert_frame_equal(result, expected) + + result = grouped.transform(len) + expected = DataFrame({"A": [2, 3, 2, 3, 3]}) + tm.assert_frame_equal(result, expected) + + +def test_filter_and_transform_with_non_unique_int_index(): + # GH4620 + index = [1, 1, 1, 2, 1, 1, 0, 1] + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]}, + index=index, + ) + grouped_df = df.groupby("tag") + ser = df["pid"] + grouped_ser = ser.groupby(df["tag"]) + expected_indexes = [1, 2, 4, 7] + + # Filter DataFrame + actual = grouped_df.filter(lambda x: len(x) > 1) + expected = df.iloc[expected_indexes] + tm.assert_frame_equal(actual, expected) + + actual = grouped_df.filter(lambda x: len(x) > 1, dropna=False) + # Cast to avoid upcast when setting nan below + expected = df.copy().astype("float64") + expected.iloc[[0, 3, 5, 6]] = np.nan + tm.assert_frame_equal(actual, expected) + + # Filter Series + actual = grouped_ser.filter(lambda x: len(x) > 1) + expected = ser.take(expected_indexes) + tm.assert_series_equal(actual, expected) + + actual = grouped_ser.filter(lambda x: len(x) > 1, dropna=False) + expected = Series([np.nan, 1, 1, np.nan, 2, np.nan, np.nan, 3], index, name="pid") + # ^ made manually because this can get confusing! + tm.assert_series_equal(actual, expected) + + # Transform Series + actual = grouped_ser.transform(len) + expected = Series([1, 2, 2, 1, 2, 1, 1, 2], index, name="pid") + tm.assert_series_equal(actual, expected) + + # Transform (a column from) DataFrameGroupBy + actual = grouped_df.pid.transform(len) + tm.assert_series_equal(actual, expected) + + +def test_filter_and_transform_with_multiple_non_unique_int_index(): + # GH4620 + index = [1, 1, 1, 2, 0, 0, 0, 1] + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]}, + index=index, + ) + grouped_df = df.groupby("tag") + ser = df["pid"] + grouped_ser = ser.groupby(df["tag"]) + expected_indexes = [1, 2, 4, 7] + + # Filter DataFrame + actual = grouped_df.filter(lambda x: len(x) > 1) + expected = df.iloc[expected_indexes] + tm.assert_frame_equal(actual, expected) + + actual = grouped_df.filter(lambda x: len(x) > 1, dropna=False) + # Cast to avoid upcast when setting nan below + expected = df.copy().astype("float64") + expected.iloc[[0, 3, 5, 6]] = np.nan + tm.assert_frame_equal(actual, expected) + + # Filter Series + actual = grouped_ser.filter(lambda x: len(x) > 1) + expected = ser.take(expected_indexes) + tm.assert_series_equal(actual, expected) + + actual = grouped_ser.filter(lambda x: len(x) > 1, dropna=False) + expected = Series([np.nan, 1, 1, np.nan, 2, np.nan, np.nan, 3], index, name="pid") + # ^ made manually because this can get confusing! + tm.assert_series_equal(actual, expected) + + # Transform Series + actual = grouped_ser.transform(len) + expected = Series([1, 2, 2, 1, 2, 1, 1, 2], index, name="pid") + tm.assert_series_equal(actual, expected) + + # Transform (a column from) DataFrameGroupBy + actual = grouped_df.pid.transform(len) + tm.assert_series_equal(actual, expected) + + +def test_filter_and_transform_with_non_unique_float_index(): + # GH4620 + index = np.array([1, 1, 1, 2, 1, 1, 0, 1], dtype=float) + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]}, + index=index, + ) + grouped_df = df.groupby("tag") + ser = df["pid"] + grouped_ser = ser.groupby(df["tag"]) + expected_indexes = [1, 2, 4, 7] + + # Filter DataFrame + actual = grouped_df.filter(lambda x: len(x) > 1) + expected = df.iloc[expected_indexes] + tm.assert_frame_equal(actual, expected) + + actual = grouped_df.filter(lambda x: len(x) > 1, dropna=False) + # Cast to avoid upcast when setting nan below + expected = df.copy().astype("float64") + expected.iloc[[0, 3, 5, 6]] = np.nan + tm.assert_frame_equal(actual, expected) + + # Filter Series + actual = grouped_ser.filter(lambda x: len(x) > 1) + expected = ser.take(expected_indexes) + tm.assert_series_equal(actual, expected) + + actual = grouped_ser.filter(lambda x: len(x) > 1, dropna=False) + expected = Series([np.nan, 1, 1, np.nan, 2, np.nan, np.nan, 3], index, name="pid") + # ^ made manually because this can get confusing! + tm.assert_series_equal(actual, expected) + + # Transform Series + actual = grouped_ser.transform(len) + expected = Series([1, 2, 2, 1, 2, 1, 1, 2], index, name="pid") + tm.assert_series_equal(actual, expected) + + # Transform (a column from) DataFrameGroupBy + actual = grouped_df.pid.transform(len) + tm.assert_series_equal(actual, expected) + + +def test_filter_and_transform_with_non_unique_timestamp_index(): + # GH4620 + t0 = Timestamp("2013-09-30 00:05:00") + t1 = Timestamp("2013-10-30 00:05:00") + t2 = Timestamp("2013-11-30 00:05:00") + index = [t1, t1, t1, t2, t1, t1, t0, t1] + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]}, + index=index, + ) + grouped_df = df.groupby("tag") + ser = df["pid"] + grouped_ser = ser.groupby(df["tag"]) + expected_indexes = [1, 2, 4, 7] + + # Filter DataFrame + actual = grouped_df.filter(lambda x: len(x) > 1) + expected = df.iloc[expected_indexes] + tm.assert_frame_equal(actual, expected) + + actual = grouped_df.filter(lambda x: len(x) > 1, dropna=False) + # Cast to avoid upcast when setting nan below + expected = df.copy().astype("float64") + expected.iloc[[0, 3, 5, 6]] = np.nan + tm.assert_frame_equal(actual, expected) + + # Filter Series + actual = grouped_ser.filter(lambda x: len(x) > 1) + expected = ser.take(expected_indexes) + tm.assert_series_equal(actual, expected) + + actual = grouped_ser.filter(lambda x: len(x) > 1, dropna=False) + expected = Series([np.nan, 1, 1, np.nan, 2, np.nan, np.nan, 3], index, name="pid") + # ^ made manually because this can get confusing! + tm.assert_series_equal(actual, expected) + + # Transform Series + actual = grouped_ser.transform(len) + expected = Series([1, 2, 2, 1, 2, 1, 1, 2], index, name="pid") + tm.assert_series_equal(actual, expected) + + # Transform (a column from) DataFrameGroupBy + actual = grouped_df.pid.transform(len) + tm.assert_series_equal(actual, expected) + + +def test_filter_and_transform_with_non_unique_string_index(): + # GH4620 + index = list("bbbcbbab") + df = DataFrame( + {"pid": [1, 1, 1, 2, 2, 3, 3, 3], "tag": [23, 45, 62, 24, 45, 34, 25, 62]}, + index=index, + ) + grouped_df = df.groupby("tag") + ser = df["pid"] + grouped_ser = ser.groupby(df["tag"]) + expected_indexes = [1, 2, 4, 7] + + # Filter DataFrame + actual = grouped_df.filter(lambda x: len(x) > 1) + expected = df.iloc[expected_indexes] + tm.assert_frame_equal(actual, expected) + + actual = grouped_df.filter(lambda x: len(x) > 1, dropna=False) + # Cast to avoid upcast when setting nan below + expected = df.copy().astype("float64") + expected.iloc[[0, 3, 5, 6]] = np.nan + tm.assert_frame_equal(actual, expected) + + # Filter Series + actual = grouped_ser.filter(lambda x: len(x) > 1) + expected = ser.take(expected_indexes) + tm.assert_series_equal(actual, expected) + + actual = grouped_ser.filter(lambda x: len(x) > 1, dropna=False) + expected = Series([np.nan, 1, 1, np.nan, 2, np.nan, np.nan, 3], index, name="pid") + # ^ made manually because this can get confusing! + tm.assert_series_equal(actual, expected) + + # Transform Series + actual = grouped_ser.transform(len) + expected = Series([1, 2, 2, 1, 2, 1, 1, 2], index, name="pid") + tm.assert_series_equal(actual, expected) + + # Transform (a column from) DataFrameGroupBy + actual = grouped_df.pid.transform(len) + tm.assert_series_equal(actual, expected) + + +def test_filter_has_access_to_grouped_cols(): + df = DataFrame([[1, 2], [1, 3], [5, 6]], columns=["A", "B"]) + g = df.groupby("A") + # previously didn't have access to col A #???? + filt = g.filter(lambda x: x["A"].sum() == 2) + tm.assert_frame_equal(filt, df.iloc[[0, 1]]) + + +def test_filter_enforces_scalarness(): + df = DataFrame( + [ + ["best", "a", "x"], + ["worst", "b", "y"], + ["best", "c", "x"], + ["best", "d", "y"], + ["worst", "d", "y"], + ["worst", "d", "y"], + ["best", "d", "z"], + ], + columns=["a", "b", "c"], + ) + with pytest.raises(TypeError, match="filter function returned a.*"): + df.groupby("c").filter(lambda g: g["a"] == "best") + + +def test_filter_non_bool_raises(): + df = DataFrame( + [ + ["best", "a", 1], + ["worst", "b", 1], + ["best", "c", 1], + ["best", "d", 1], + ["worst", "d", 1], + ["worst", "d", 1], + ["best", "d", 1], + ], + columns=["a", "b", "c"], + ) + with pytest.raises(TypeError, match="filter function returned a.*"): + df.groupby("a").filter(lambda g: g.c.mean()) + + +def test_filter_dropna_with_empty_groups(): + # GH 10780 + data = Series(np.random.default_rng(2).random(9), index=np.repeat([1, 2, 3], 3)) + grouped = data.groupby(level=0) + result_false = grouped.filter(lambda x: x.mean() > 1, dropna=False) + expected_false = Series([np.nan] * 9, index=np.repeat([1, 2, 3], 3)) + tm.assert_series_equal(result_false, expected_false) + + result_true = grouped.filter(lambda x: x.mean() > 1, dropna=True) + expected_true = Series(index=pd.Index([], dtype=int), dtype=np.float64) + tm.assert_series_equal(result_true, expected_true) + + +def test_filter_consistent_result_before_after_agg_func(): + # GH 17091 + df = DataFrame({"data": range(6), "key": list("ABCABC")}) + grouper = df.groupby("key") + result = grouper.filter(lambda x: True) + expected = DataFrame({"data": range(6), "key": list("ABCABC")}) + tm.assert_frame_equal(result, expected) + + grouper.sum() + result = grouper.filter(lambda x: True) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby.py new file mode 100644 index 0000000000000000000000000000000000000000..7ebecdafdc8aede3f2851b9d82f3de6669034719 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby.py @@ -0,0 +1,3363 @@ +from datetime import datetime +import decimal +from decimal import Decimal +import re + +import numpy as np +import pytest + +from pandas.errors import ( + PerformanceWarning, + SpecificationError, +) +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + Grouper, + Index, + Interval, + MultiIndex, + RangeIndex, + Series, + Timedelta, + Timestamp, + date_range, + to_datetime, +) +import pandas._testing as tm +from pandas.core.arrays import BooleanArray +import pandas.core.common as com + +pytestmark = pytest.mark.filterwarnings("ignore:Mean of empty slice:RuntimeWarning") + + +def test_repr(): + # GH18203 + result = repr(Grouper(key="A", level="B")) + expected = "Grouper(key='A', level='B', axis=0, sort=False, dropna=True)" + assert result == expected + + +def test_groupby_std_datetimelike(warn_copy_on_write): + # GH#48481 + tdi = pd.timedelta_range("1 Day", periods=10000) + ser = Series(tdi) + ser[::5] *= 2 # get different std for different groups + + df = ser.to_frame("A").copy() + + df["B"] = ser + Timestamp(0) + df["C"] = ser + Timestamp(0, tz="UTC") + df.iloc[-1] = pd.NaT # last group includes NaTs + + gb = df.groupby(list(range(5)) * 2000) + + result = gb.std() + + # Note: this does not _exactly_ match what we would get if we did + # [gb.get_group(i).std() for i in gb.groups] + # but it _does_ match the floating point error we get doing the + # same operation on int64 data xref GH#51332 + td1 = Timedelta("2887 days 11:21:02.326710176") + td4 = Timedelta("2886 days 00:42:34.664668096") + exp_ser = Series([td1 * 2, td1, td1, td1, td4], index=np.arange(5)) + expected = DataFrame({"A": exp_ser, "B": exp_ser, "C": exp_ser}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["int64", "int32", "float64", "float32"]) +def test_basic_aggregations(dtype): + data = Series(np.arange(9) // 3, index=np.arange(9), dtype=dtype) + + index = np.arange(9) + np.random.default_rng(2).shuffle(index) + data = data.reindex(index) + + grouped = data.groupby(lambda x: x // 3, group_keys=False) + + for k, v in grouped: + assert len(v) == 3 + + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + agged = grouped.aggregate(np.mean) + assert agged[1] == 1 + + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = grouped.agg(np.mean) + tm.assert_series_equal(agged, expected) # shorthand + tm.assert_series_equal(agged, grouped.mean()) + result = grouped.sum() + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = grouped.agg(np.sum) + tm.assert_series_equal(result, expected) + + expected = grouped.apply(lambda x: x * x.sum()) + transformed = grouped.transform(lambda x: x * x.sum()) + assert transformed[7] == 12 + tm.assert_series_equal(transformed, expected) + + value_grouped = data.groupby(data) + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = value_grouped.aggregate(np.mean) + tm.assert_series_equal(result, agged, check_index_type=False) + + # complex agg + msg = "using SeriesGroupBy.[mean|std]" + with tm.assert_produces_warning(FutureWarning, match=msg): + agged = grouped.aggregate([np.mean, np.std]) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + grouped.aggregate({"one": np.mean, "two": np.std}) + + group_constants = {0: 10, 1: 20, 2: 30} + msg = ( + "Pinning the groupby key to each group in SeriesGroupBy.agg is deprecated, " + "and cases that relied on it will raise in a future version" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#41090 + agged = grouped.agg(lambda x: group_constants[x.name] + x.mean()) + assert agged[1] == 21 + + # corner cases + msg = "Must produce aggregated value" + # exception raised is type Exception + with pytest.raises(Exception, match=msg): + grouped.aggregate(lambda x: x * 2) + + +def test_groupby_nonobject_dtype(multiindex_dataframe_random_data): + key = multiindex_dataframe_random_data.index.codes[0] + grouped = multiindex_dataframe_random_data.groupby(key) + result = grouped.sum() + + expected = multiindex_dataframe_random_data.groupby(key.astype("O")).sum() + assert result.index.dtype == np.int8 + assert expected.index.dtype == np.int64 + tm.assert_frame_equal(result, expected, check_index_type=False) + + +def test_groupby_nonobject_dtype_mixed(): + # GH 3911, mixed frame non-conversion + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.array(np.random.default_rng(2).standard_normal(8), dtype="float32"), + } + ) + df["value"] = range(len(df)) + + def max_value(group): + return group.loc[group["value"].idxmax()] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + applied = df.groupby("A").apply(max_value) + result = applied.dtypes + expected = df.dtypes + tm.assert_series_equal(result, expected) + + +def test_inconsistent_return_type(): + # GH5592 + # inconsistent return type + df = DataFrame( + { + "A": ["Tiger", "Tiger", "Tiger", "Lamb", "Lamb", "Pony", "Pony"], + "B": Series(np.arange(7), dtype="int64"), + "C": date_range("20130101", periods=7), + } + ) + + def f_0(grp): + return grp.iloc[0] + + expected = df.groupby("A").first()[["B"]] + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(f_0)[["B"]] + tm.assert_frame_equal(result, expected) + + def f_1(grp): + if grp.name == "Tiger": + return None + return grp.iloc[0] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(f_1)[["B"]] + e = expected.copy() + e.loc["Tiger"] = np.nan + tm.assert_frame_equal(result, e) + + def f_2(grp): + if grp.name == "Pony": + return None + return grp.iloc[0] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(f_2)[["B"]] + e = expected.copy() + e.loc["Pony"] = np.nan + tm.assert_frame_equal(result, e) + + # 5592 revisited, with datetimes + def f_3(grp): + if grp.name == "Pony": + return None + return grp.iloc[0] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(f_3)[["C"]] + e = df.groupby("A").first()[["C"]] + e.loc["Pony"] = pd.NaT + tm.assert_frame_equal(result, e) + + # scalar outputs + def f_4(grp): + if grp.name == "Pony": + return None + return grp.iloc[0].loc["C"] + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("A").apply(f_4) + e = df.groupby("A").first()["C"].copy() + e.loc["Pony"] = np.nan + e.name = None + tm.assert_series_equal(result, e) + + +def test_pass_args_kwargs(ts, tsframe): + def f(x, q=None, axis=0): + return np.percentile(x, q, axis=axis) + + g = lambda x: np.percentile(x, 80, axis=0) + + # Series + ts_grouped = ts.groupby(lambda x: x.month) + agg_result = ts_grouped.agg(np.percentile, 80, axis=0) + apply_result = ts_grouped.apply(np.percentile, 80, axis=0) + trans_result = ts_grouped.transform(np.percentile, 80, axis=0) + + agg_expected = ts_grouped.quantile(0.8) + trans_expected = ts_grouped.transform(g) + + tm.assert_series_equal(apply_result, agg_expected) + tm.assert_series_equal(agg_result, agg_expected) + tm.assert_series_equal(trans_result, trans_expected) + + agg_result = ts_grouped.agg(f, q=80) + apply_result = ts_grouped.apply(f, q=80) + trans_result = ts_grouped.transform(f, q=80) + tm.assert_series_equal(agg_result, agg_expected) + tm.assert_series_equal(apply_result, agg_expected) + tm.assert_series_equal(trans_result, trans_expected) + + # DataFrame + for as_index in [True, False]: + df_grouped = tsframe.groupby(lambda x: x.month, as_index=as_index) + warn = None if as_index else FutureWarning + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(warn, match=msg): + agg_result = df_grouped.agg(np.percentile, 80, axis=0) + with tm.assert_produces_warning(warn, match=msg): + apply_result = df_grouped.apply(DataFrame.quantile, 0.8) + with tm.assert_produces_warning(warn, match=msg): + expected = df_grouped.quantile(0.8) + tm.assert_frame_equal(apply_result, expected, check_names=False) + tm.assert_frame_equal(agg_result, expected) + + apply_result = df_grouped.apply(DataFrame.quantile, [0.4, 0.8]) + with tm.assert_produces_warning(warn, match=msg): + expected_seq = df_grouped.quantile([0.4, 0.8]) + tm.assert_frame_equal(apply_result, expected_seq, check_names=False) + + with tm.assert_produces_warning(warn, match=msg): + agg_result = df_grouped.agg(f, q=80) + with tm.assert_produces_warning(warn, match=msg): + apply_result = df_grouped.apply(DataFrame.quantile, q=0.8) + tm.assert_frame_equal(agg_result, expected) + tm.assert_frame_equal(apply_result, expected, check_names=False) + + +@pytest.mark.parametrize("as_index", [True, False]) +def test_pass_args_kwargs_duplicate_columns(tsframe, as_index): + # go through _aggregate_frame with self.axis == 0 and duplicate columns + tsframe.columns = ["A", "B", "A", "C"] + gb = tsframe.groupby(lambda x: x.month, as_index=as_index) + + warn = None if as_index else FutureWarning + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(warn, match=msg): + res = gb.agg(np.percentile, 80, axis=0) + + ex_data = { + 1: tsframe[tsframe.index.month == 1].quantile(0.8), + 2: tsframe[tsframe.index.month == 2].quantile(0.8), + } + expected = DataFrame(ex_data).T + if not as_index: + # TODO: try to get this more consistent? + expected.index = Index(range(2)) + + tm.assert_frame_equal(res, expected) + + +def test_len(): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + grouped = df.groupby([lambda x: x.year, lambda x: x.month, lambda x: x.day]) + assert len(grouped) == len(df) + + grouped = df.groupby([lambda x: x.year, lambda x: x.month]) + expected = len({(x.year, x.month) for x in df.index}) + assert len(grouped) == expected + + +def test_len_nan_group(): + # issue 11016 + df = DataFrame({"a": [np.nan] * 3, "b": [1, 2, 3]}) + assert len(df.groupby("a")) == 0 + assert len(df.groupby("b")) == 3 + assert len(df.groupby(["a", "b"])) == 3 + + +def test_basic_regression(): + # regression + result = Series([1.0 * x for x in list(range(1, 10)) * 10]) + + data = np.random.default_rng(2).random(1100) * 10.0 + groupings = Series(data) + + grouped = result.groupby(groupings) + grouped.mean() + + +@pytest.mark.parametrize( + "dtype", ["float64", "float32", "int64", "int32", "int16", "int8"] +) +def test_with_na_groups(dtype): + index = Index(np.arange(10)) + values = Series(np.ones(10), index, dtype=dtype) + labels = Series( + [np.nan, "foo", "bar", "bar", np.nan, np.nan, "bar", "bar", np.nan, "foo"], + index=index, + ) + + # this SHOULD be an int + grouped = values.groupby(labels) + agged = grouped.agg(len) + expected = Series([4, 2], index=["bar", "foo"]) + + tm.assert_series_equal(agged, expected, check_dtype=False) + + # assert issubclass(agged.dtype.type, np.integer) + + # explicitly return a float from my function + def f(x): + return float(len(x)) + + agged = grouped.agg(f) + expected = Series([4.0, 2.0], index=["bar", "foo"]) + + tm.assert_series_equal(agged, expected) + + +def test_indices_concatenation_order(): + # GH 2808 + + def f1(x): + y = x[(x.b % 2) == 1] ** 2 + if y.empty: + multiindex = MultiIndex(levels=[[]] * 2, codes=[[]] * 2, names=["b", "c"]) + res = DataFrame(columns=["a"], index=multiindex) + return res + else: + y = y.set_index(["b", "c"]) + return y + + def f2(x): + y = x[(x.b % 2) == 1] ** 2 + if y.empty: + return DataFrame() + else: + y = y.set_index(["b", "c"]) + return y + + def f3(x): + y = x[(x.b % 2) == 1] ** 2 + if y.empty: + multiindex = MultiIndex( + levels=[[]] * 2, codes=[[]] * 2, names=["foo", "bar"] + ) + res = DataFrame(columns=["a", "b"], index=multiindex) + return res + else: + return y + + df = DataFrame({"a": [1, 2, 2, 2], "b": range(4), "c": range(5, 9)}) + + df2 = DataFrame({"a": [3, 2, 2, 2], "b": range(4), "c": range(5, 9)}) + + depr_msg = "The behavior of array concatenation with empty entries is deprecated" + + # correct result + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result1 = df.groupby("a").apply(f1) + with tm.assert_produces_warning(FutureWarning, match=msg): + result2 = df2.groupby("a").apply(f1) + tm.assert_frame_equal(result1, result2) + + # should fail (not the same number of levels) + msg = "Cannot concat indices that do not have the same number of levels" + with pytest.raises(AssertionError, match=msg): + df.groupby("a").apply(f2) + with pytest.raises(AssertionError, match=msg): + df2.groupby("a").apply(f2) + + # should fail (incorrect shape) + with pytest.raises(AssertionError, match=msg): + df.groupby("a").apply(f3) + with pytest.raises(AssertionError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + df2.groupby("a").apply(f3) + + +def test_attr_wrapper(ts): + grouped = ts.groupby(lambda x: x.weekday()) + + result = grouped.std() + expected = grouped.agg(lambda x: np.std(x, ddof=1)) + tm.assert_series_equal(result, expected) + + # this is pretty cool + result = grouped.describe() + expected = {name: gp.describe() for name, gp in grouped} + expected = DataFrame(expected).T + tm.assert_frame_equal(result, expected) + + # get attribute + result = grouped.dtype + expected = grouped.agg(lambda x: x.dtype) + tm.assert_series_equal(result, expected) + + # make sure raises error + msg = "'SeriesGroupBy' object has no attribute 'foo'" + with pytest.raises(AttributeError, match=msg): + getattr(grouped, "foo") + + +def test_frame_groupby(tsframe): + grouped = tsframe.groupby(lambda x: x.weekday()) + + # aggregate + aggregated = grouped.aggregate("mean") + assert len(aggregated) == 5 + assert len(aggregated.columns) == 4 + + # by string + tscopy = tsframe.copy() + tscopy["weekday"] = [x.weekday() for x in tscopy.index] + stragged = tscopy.groupby("weekday").aggregate("mean") + tm.assert_frame_equal(stragged, aggregated, check_names=False) + + # transform + grouped = tsframe.head(30).groupby(lambda x: x.weekday()) + transformed = grouped.transform(lambda x: x - x.mean()) + assert len(transformed) == 30 + assert len(transformed.columns) == 4 + + # transform propagate + transformed = grouped.transform(lambda x: x.mean()) + for name, group in grouped: + mean = group.mean() + for idx in group.index: + tm.assert_series_equal(transformed.xs(idx), mean, check_names=False) + + # iterate + for weekday, group in grouped: + assert group.index[0].weekday() == weekday + + # groups / group_indices + groups = grouped.groups + indices = grouped.indices + + for k, v in groups.items(): + samething = tsframe.index.take(indices[k]) + assert (samething == v).all() + + +def test_frame_groupby_columns(tsframe): + mapping = {"A": 0, "B": 0, "C": 1, "D": 1} + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = tsframe.groupby(mapping, axis=1) + + # aggregate + aggregated = grouped.aggregate("mean") + assert len(aggregated) == len(tsframe) + assert len(aggregated.columns) == 2 + + # transform + tf = lambda x: x - x.mean() + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + groupedT = tsframe.T.groupby(mapping, axis=0) + tm.assert_frame_equal(groupedT.transform(tf).T, grouped.transform(tf)) + + # iterate + for k, v in grouped: + assert len(v.columns) == 2 + + +def test_frame_set_name_single(df): + grouped = df.groupby("A") + + result = grouped.mean(numeric_only=True) + assert result.index.name == "A" + + result = df.groupby("A", as_index=False).mean(numeric_only=True) + assert result.index.name != "A" + + result = grouped[["C", "D"]].agg("mean") + assert result.index.name == "A" + + result = grouped.agg({"C": "mean", "D": "std"}) + assert result.index.name == "A" + + result = grouped["C"].mean() + assert result.index.name == "A" + result = grouped["C"].agg("mean") + assert result.index.name == "A" + result = grouped["C"].agg(["mean", "std"]) + assert result.index.name == "A" + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + grouped["C"].agg({"foo": "mean", "bar": "std"}) + + +def test_multi_func(df): + col1 = df["A"] + col2 = df["B"] + + grouped = df.groupby([col1.get, col2.get]) + agged = grouped.mean(numeric_only=True) + expected = df.groupby(["A", "B"]).mean() + + # TODO groupby get drops names + tm.assert_frame_equal( + agged.loc[:, ["C", "D"]], expected.loc[:, ["C", "D"]], check_names=False + ) + + # some "groups" with no data + df = DataFrame( + { + "v1": np.random.default_rng(2).standard_normal(6), + "v2": np.random.default_rng(2).standard_normal(6), + "k1": np.array(["b", "b", "b", "a", "a", "a"]), + "k2": np.array(["1", "1", "1", "2", "2", "2"]), + }, + index=["one", "two", "three", "four", "five", "six"], + ) + # only verify that it works for now + grouped = df.groupby(["k1", "k2"]) + grouped.agg("sum") + + +def test_multi_key_multiple_functions(df): + grouped = df.groupby(["A", "B"])["C"] + + agged = grouped.agg(["mean", "std"]) + expected = DataFrame({"mean": grouped.agg("mean"), "std": grouped.agg("std")}) + tm.assert_frame_equal(agged, expected) + + +def test_frame_multi_key_function_list(): + data = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + grouped = data.groupby(["A", "B"]) + funcs = ["mean", "std"] + agged = grouped.agg(funcs) + expected = pd.concat( + [grouped["D"].agg(funcs), grouped["E"].agg(funcs), grouped["F"].agg(funcs)], + keys=["D", "E", "F"], + axis=1, + ) + assert isinstance(agged.index, MultiIndex) + assert isinstance(expected.index, MultiIndex) + tm.assert_frame_equal(agged, expected) + + +def test_frame_multi_key_function_list_partial_failure(using_infer_string): + data = DataFrame( + { + "A": [ + "foo", + "foo", + "foo", + "foo", + "bar", + "bar", + "bar", + "bar", + "foo", + "foo", + "foo", + ], + "B": [ + "one", + "one", + "one", + "two", + "one", + "one", + "one", + "two", + "two", + "two", + "one", + ], + "C": [ + "dull", + "dull", + "shiny", + "dull", + "dull", + "shiny", + "shiny", + "dull", + "shiny", + "shiny", + "shiny", + ], + "D": np.random.default_rng(2).standard_normal(11), + "E": np.random.default_rng(2).standard_normal(11), + "F": np.random.default_rng(2).standard_normal(11), + } + ) + + grouped = data.groupby(["A", "B"]) + funcs = ["mean", "std"] + msg = re.escape("agg function failed [how->mean,dtype->") + if using_infer_string: + msg = "dtype 'str' does not support operation 'mean'" + with pytest.raises(TypeError, match=msg): + grouped.agg(funcs) + + +@pytest.mark.parametrize("op", [lambda x: x.sum(), lambda x: x.mean()]) +def test_groupby_multiple_columns(df, op): + data = df + grouped = data.groupby(["A", "B"]) + + result1 = op(grouped) + + keys = [] + values = [] + for n1, gp1 in data.groupby("A"): + for n2, gp2 in gp1.groupby("B"): + keys.append((n1, n2)) + values.append(op(gp2.loc[:, ["C", "D"]])) + + mi = MultiIndex.from_tuples(keys, names=["A", "B"]) + expected = pd.concat(values, axis=1).T + expected.index = mi + + # a little bit crude + for col in ["C", "D"]: + result_col = op(grouped[col]) + pivoted = result1[col] + exp = expected[col] + tm.assert_series_equal(result_col, exp) + tm.assert_series_equal(pivoted, exp) + + # test single series works the same + result = data["C"].groupby([data["A"], data["B"]]).mean() + expected = data.groupby(["A", "B"]).mean()["C"] + + tm.assert_series_equal(result, expected) + + +def test_as_index_select_column(): + # GH 5764 + df = DataFrame([[1, 2], [1, 4], [5, 6]], columns=["A", "B"]) + result = df.groupby("A", as_index=False)["B"].get_group(1) + expected = Series([2, 4], name="B") + tm.assert_series_equal(result, expected) + + result = df.groupby("A", as_index=False, group_keys=True)["B"].apply( + lambda x: x.cumsum() + ) + expected = Series( + [2, 6, 6], name="B", index=MultiIndex.from_tuples([(0, 0), (0, 1), (1, 2)]) + ) + tm.assert_series_equal(result, expected) + + +def test_obj_arg_get_group_deprecated(): + depr_msg = "obj is deprecated" + + df = DataFrame({"a": [1, 1, 2], "b": [3, 4, 5]}) + expected = df.iloc[df.groupby("b").indices.get(4)] + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + result = df.groupby("b").get_group(4, obj=df) + tm.assert_frame_equal(result, expected) + + +def test_groupby_as_index_select_column_sum_empty_df(): + # GH 35246 + df = DataFrame(columns=Index(["A", "B", "C"], name="alpha")) + left = df.groupby(by="A", as_index=False)["B"].sum(numeric_only=False) + + expected = DataFrame(columns=df.columns[:2], index=range(0)) + # GH#50744 - Columns after selection shouldn't retain names + expected.columns.names = [None] + tm.assert_frame_equal(left, expected) + + +def test_groupby_as_index_agg(df): + grouped = df.groupby("A", as_index=False) + + # single-key + + result = grouped[["C", "D"]].agg("mean") + expected = grouped.mean(numeric_only=True) + tm.assert_frame_equal(result, expected) + + result2 = grouped.agg({"C": "mean", "D": "sum"}) + expected2 = grouped.mean(numeric_only=True) + expected2["D"] = grouped.sum()["D"] + tm.assert_frame_equal(result2, expected2) + + grouped = df.groupby("A", as_index=True) + + msg = r"nested renamer is not supported" + with pytest.raises(SpecificationError, match=msg): + grouped["C"].agg({"Q": "sum"}) + + # multi-key + + grouped = df.groupby(["A", "B"], as_index=False) + + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + result2 = grouped.agg({"C": "mean", "D": "sum"}) + expected2 = grouped.mean() + expected2["D"] = grouped.sum()["D"] + tm.assert_frame_equal(result2, expected2) + + expected3 = grouped["C"].sum() + expected3 = DataFrame(expected3).rename(columns={"C": "Q"}) + msg = "Passing a dictionary to SeriesGroupBy.agg is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result3 = grouped["C"].agg({"Q": "sum"}) + tm.assert_frame_equal(result3, expected3) + + # GH7115 & GH8112 & GH8582 + df = DataFrame( + np.random.default_rng(2).integers(0, 100, (50, 3)), + columns=["jim", "joe", "jolie"], + ) + ts = Series(np.random.default_rng(2).integers(5, 10, 50), name="jim") + + gr = df.groupby(ts) + gr.nth(0) # invokes set_selection_from_grouper internally + + msg = "The behavior of DataFrame.sum with axis=None is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False): + res = gr.apply(sum) + with tm.assert_produces_warning(FutureWarning, match=msg, check_stacklevel=False): + alt = df.groupby(ts).apply(sum) + tm.assert_frame_equal(res, alt) + + for attr in ["mean", "max", "count", "idxmax", "cumsum", "all"]: + gr = df.groupby(ts, as_index=False) + left = getattr(gr, attr)() + + gr = df.groupby(ts.values, as_index=True) + right = getattr(gr, attr)().reset_index(drop=True) + + tm.assert_frame_equal(left, right) + + +def test_ops_not_as_index(reduction_func): + # GH 10355, 21090 + # Using as_index=False should not modify grouped column + + if reduction_func in ("corrwith", "nth", "ngroup"): + pytest.skip(f"GH 5755: Test not applicable for {reduction_func}") + + df = DataFrame( + np.random.default_rng(2).integers(0, 5, size=(100, 2)), columns=["a", "b"] + ) + expected = getattr(df.groupby("a"), reduction_func)() + if reduction_func == "size": + expected = expected.rename("size") + expected = expected.reset_index() + + if reduction_func != "size": + # 32 bit compat -> groupby preserves dtype whereas reset_index casts to int64 + expected["a"] = expected["a"].astype(df["a"].dtype) + + g = df.groupby("a", as_index=False) + + result = getattr(g, reduction_func)() + tm.assert_frame_equal(result, expected) + + result = g.agg(reduction_func) + tm.assert_frame_equal(result, expected) + + result = getattr(g["b"], reduction_func)() + tm.assert_frame_equal(result, expected) + + result = g["b"].agg(reduction_func) + tm.assert_frame_equal(result, expected) + + +def test_as_index_series_return_frame(df): + grouped = df.groupby("A", as_index=False) + grouped2 = df.groupby(["A", "B"], as_index=False) + + result = grouped["C"].agg("sum") + expected = grouped.agg("sum").loc[:, ["A", "C"]] + assert isinstance(result, DataFrame) + tm.assert_frame_equal(result, expected) + + result2 = grouped2["C"].agg("sum") + expected2 = grouped2.agg("sum").loc[:, ["A", "B", "C"]] + assert isinstance(result2, DataFrame) + tm.assert_frame_equal(result2, expected2) + + result = grouped["C"].sum() + expected = grouped.sum().loc[:, ["A", "C"]] + assert isinstance(result, DataFrame) + tm.assert_frame_equal(result, expected) + + result2 = grouped2["C"].sum() + expected2 = grouped2.sum().loc[:, ["A", "B", "C"]] + assert isinstance(result2, DataFrame) + tm.assert_frame_equal(result2, expected2) + + +def test_as_index_series_column_slice_raises(df): + # GH15072 + grouped = df.groupby("A", as_index=False) + msg = r"Column\(s\) C already selected" + + with pytest.raises(IndexError, match=msg): + grouped["C"].__getitem__("D") + + +def test_groupby_as_index_cython(df): + data = df + + # single-key + grouped = data.groupby("A", as_index=False) + result = grouped.mean(numeric_only=True) + expected = data.groupby(["A"]).mean(numeric_only=True) + expected.insert(0, "A", expected.index) + expected.index = RangeIndex(len(expected)) + tm.assert_frame_equal(result, expected) + + # multi-key + grouped = data.groupby(["A", "B"], as_index=False) + result = grouped.mean() + expected = data.groupby(["A", "B"]).mean() + + arrays = list(zip(*expected.index.values)) + expected.insert(0, "A", arrays[0]) + expected.insert(1, "B", arrays[1]) + expected.index = RangeIndex(len(expected)) + tm.assert_frame_equal(result, expected) + + +def test_groupby_as_index_series_scalar(df): + grouped = df.groupby(["A", "B"], as_index=False) + + # GH #421 + + result = grouped["C"].agg(len) + expected = grouped.agg(len).loc[:, ["A", "B", "C"]] + tm.assert_frame_equal(result, expected) + + +def test_groupby_as_index_corner(df, ts): + msg = "as_index=False only valid with DataFrame" + with pytest.raises(TypeError, match=msg): + ts.groupby(lambda x: x.weekday(), as_index=False) + + msg = "as_index=False only valid for axis=0" + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with pytest.raises(ValueError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + df.groupby(lambda x: x.lower(), as_index=False, axis=1) + + +def test_groupby_multiple_key(): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + grouped = df.groupby([lambda x: x.year, lambda x: x.month, lambda x: x.day]) + agged = grouped.sum() + tm.assert_almost_equal(df.values, agged.values) + + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + grouped = df.T.groupby( + [lambda x: x.year, lambda x: x.month, lambda x: x.day], axis=1 + ) + + agged = grouped.agg(lambda x: x.sum()) + tm.assert_index_equal(agged.index, df.columns) + tm.assert_almost_equal(df.T.values, agged.values) + + agged = grouped.agg(lambda x: x.sum()) + tm.assert_almost_equal(df.T.values, agged.values) + + +def test_groupby_multi_corner(df): + # test that having an all-NA column doesn't mess you up + df = df.copy() + df["bad"] = np.nan + agged = df.groupby(["A", "B"]).mean() + + expected = df.groupby(["A", "B"]).mean() + expected["bad"] = np.nan + + tm.assert_frame_equal(agged, expected) + + +def test_raises_on_nuisance(df, using_infer_string): + grouped = df.groupby("A") + msg = re.escape("agg function failed [how->mean,dtype->") + if using_infer_string: + msg = "dtype 'str' does not support operation 'mean'" + with pytest.raises(TypeError, match=msg): + grouped.agg("mean") + with pytest.raises(TypeError, match=msg): + grouped.mean() + + df = df.loc[:, ["A", "C", "D"]] + df["E"] = datetime.now() + grouped = df.groupby("A") + msg = "datetime64 type does not support sum operations" + with pytest.raises(TypeError, match=msg): + grouped.agg("sum") + with pytest.raises(TypeError, match=msg): + grouped.sum() + + # won't work with axis = 1 + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + grouped = df.groupby({"A": 0, "C": 0, "D": 1, "E": 1}, axis=1) + msg = "does not support reduction 'sum'|Cannot perform reduction 'sum'" + with pytest.raises(TypeError, match=msg): + grouped.agg(lambda x: x.sum(0, numeric_only=False)) + + +@pytest.mark.parametrize( + "agg_function", + ["max", "min"], +) +def test_keep_nuisance_agg(df, agg_function): + # GH 38815 + grouped = df.groupby("A") + result = getattr(grouped, agg_function)() + expected = result.copy() + expected.loc["bar", "B"] = getattr(df.loc[df["A"] == "bar", "B"], agg_function)() + expected.loc["foo", "B"] = getattr(df.loc[df["A"] == "foo", "B"], agg_function)() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "agg_function", + ["sum", "mean", "prod", "std", "var", "sem", "median"], +) +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_omit_nuisance_agg(df, agg_function, numeric_only, using_infer_string): + # GH 38774, GH 38815 + grouped = df.groupby("A") + + no_drop_nuisance = ("var", "std", "sem", "mean", "prod", "median") + if agg_function in no_drop_nuisance and not numeric_only: + # Added numeric_only as part of GH#46560; these do not drop nuisance + # columns when numeric_only is False + if using_infer_string: + msg = f"dtype 'str' does not support operation '{agg_function}'" + klass = TypeError + elif agg_function in ("std", "sem"): + klass = ValueError + msg = "could not convert string to float: 'one'" + else: + klass = TypeError + msg = re.escape(f"agg function failed [how->{agg_function},dtype->") + with pytest.raises(klass, match=msg): + getattr(grouped, agg_function)(numeric_only=numeric_only) + else: + result = getattr(grouped, agg_function)(numeric_only=numeric_only) + if not numeric_only and agg_function == "sum": + # sum is successful on column B + columns = ["A", "B", "C", "D"] + else: + columns = ["A", "C", "D"] + expected = getattr(df.loc[:, columns].groupby("A"), agg_function)( + numeric_only=numeric_only + ) + tm.assert_frame_equal(result, expected) + + +def test_raise_on_nuisance_python_single(df, using_infer_string): + # GH 38815 + grouped = df.groupby("A") + + err = ValueError + msg = "could not convert" + if using_infer_string: + err = TypeError + msg = "dtype 'str' does not support operation 'skew'" + with pytest.raises(err, match=msg): + grouped.skew() + + +def test_raise_on_nuisance_python_multiple(three_group, using_infer_string): + grouped = three_group.groupby(["A", "B"]) + msg = re.escape("agg function failed [how->mean,dtype->") + if using_infer_string: + msg = "dtype 'str' does not support operation 'mean'" + with pytest.raises(TypeError, match=msg): + grouped.agg("mean") + with pytest.raises(TypeError, match=msg): + grouped.mean() + + +def test_empty_groups_corner(multiindex_dataframe_random_data): + # handle empty groups + df = DataFrame( + { + "k1": np.array(["b", "b", "b", "a", "a", "a"]), + "k2": np.array(["1", "1", "1", "2", "2", "2"]), + "k3": ["foo", "bar"] * 3, + "v1": np.random.default_rng(2).standard_normal(6), + "v2": np.random.default_rng(2).standard_normal(6), + } + ) + + grouped = df.groupby(["k1", "k2"]) + result = grouped[["v1", "v2"]].agg("mean") + expected = grouped.mean(numeric_only=True) + tm.assert_frame_equal(result, expected) + + grouped = multiindex_dataframe_random_data[3:5].groupby(level=0) + agged = grouped.apply(lambda x: x.mean()) + agged_A = grouped["A"].apply("mean") + tm.assert_series_equal(agged["A"], agged_A) + assert agged.index.name == "first" + + +def test_nonsense_func(): + df = DataFrame([0]) + msg = r"unsupported operand type\(s\) for \+: 'int' and 'str'" + with pytest.raises(TypeError, match=msg): + df.groupby(lambda x: x + "foo") + + +def test_wrap_aggregated_output_multindex( + multiindex_dataframe_random_data, using_infer_string +): + df = multiindex_dataframe_random_data.T + df["baz", "two"] = "peekaboo" + + keys = [np.array([0, 0, 1]), np.array([0, 0, 1])] + msg = re.escape("agg function failed [how->mean,dtype->") + if using_infer_string: + msg = "dtype 'str' does not support operation 'mean'" + with pytest.raises(TypeError, match=msg): + df.groupby(keys).agg("mean") + agged = df.drop(columns=("baz", "two")).groupby(keys).agg("mean") + assert isinstance(agged.columns, MultiIndex) + + def aggfun(ser): + if ser.name == ("foo", "one"): + raise TypeError("Test error message") + return ser.sum() + + with pytest.raises(TypeError, match="Test error message"): + df.groupby(keys).aggregate(aggfun) + + +def test_groupby_level_apply(multiindex_dataframe_random_data): + result = multiindex_dataframe_random_data.groupby(level=0).count() + assert result.index.name == "first" + result = multiindex_dataframe_random_data.groupby(level=1).count() + assert result.index.name == "second" + + result = multiindex_dataframe_random_data["A"].groupby(level=0).count() + assert result.index.name == "first" + + +def test_groupby_level_mapper(multiindex_dataframe_random_data): + deleveled = multiindex_dataframe_random_data.reset_index() + + mapper0 = {"foo": 0, "bar": 0, "baz": 1, "qux": 1} + mapper1 = {"one": 0, "two": 0, "three": 1} + + result0 = multiindex_dataframe_random_data.groupby(mapper0, level=0).sum() + result1 = multiindex_dataframe_random_data.groupby(mapper1, level=1).sum() + + mapped_level0 = np.array( + [mapper0.get(x) for x in deleveled["first"]], dtype=np.int64 + ) + mapped_level1 = np.array( + [mapper1.get(x) for x in deleveled["second"]], dtype=np.int64 + ) + expected0 = multiindex_dataframe_random_data.groupby(mapped_level0).sum() + expected1 = multiindex_dataframe_random_data.groupby(mapped_level1).sum() + expected0.index.name, expected1.index.name = "first", "second" + + tm.assert_frame_equal(result0, expected0) + tm.assert_frame_equal(result1, expected1) + + +def test_groupby_level_nonmulti(): + # GH 1313, GH 13901 + s = Series([1, 2, 3, 10, 4, 5, 20, 6], Index([1, 2, 3, 1, 4, 5, 2, 6], name="foo")) + expected = Series([11, 22, 3, 4, 5, 6], Index(range(1, 7), name="foo")) + + result = s.groupby(level=0).sum() + tm.assert_series_equal(result, expected) + result = s.groupby(level=[0]).sum() + tm.assert_series_equal(result, expected) + result = s.groupby(level=-1).sum() + tm.assert_series_equal(result, expected) + result = s.groupby(level=[-1]).sum() + tm.assert_series_equal(result, expected) + + msg = "level > 0 or level < -1 only valid with MultiIndex" + with pytest.raises(ValueError, match=msg): + s.groupby(level=1) + with pytest.raises(ValueError, match=msg): + s.groupby(level=-2) + msg = "No group keys passed!" + with pytest.raises(ValueError, match=msg): + s.groupby(level=[]) + msg = "multiple levels only valid with MultiIndex" + with pytest.raises(ValueError, match=msg): + s.groupby(level=[0, 0]) + with pytest.raises(ValueError, match=msg): + s.groupby(level=[0, 1]) + msg = "level > 0 or level < -1 only valid with MultiIndex" + with pytest.raises(ValueError, match=msg): + s.groupby(level=[1]) + + +def test_groupby_complex(): + # GH 12902 + a = Series(data=np.arange(4) * (1 + 2j), index=[0, 0, 1, 1]) + expected = Series((1 + 2j, 5 + 10j)) + + result = a.groupby(level=0).sum() + tm.assert_series_equal(result, expected) + + +def test_groupby_complex_mean(): + # GH 26475 + df = DataFrame( + [ + {"a": 2, "b": 1 + 2j}, + {"a": 1, "b": 1 + 1j}, + {"a": 1, "b": 1 + 2j}, + ] + ) + result = df.groupby("b").mean() + expected = DataFrame( + [[1.0], [1.5]], + index=Index([(1 + 1j), (1 + 2j)], name="b"), + columns=Index(["a"]), + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_complex_numbers(): + # GH 17927 + df = DataFrame( + [ + {"a": 1, "b": 1 + 1j}, + {"a": 1, "b": 1 + 2j}, + {"a": 4, "b": 1}, + ] + ) + expected = DataFrame( + np.array([1, 1, 1], dtype=np.int64), + index=Index([(1 + 1j), (1 + 2j), (1 + 0j)], name="b"), + columns=Index(["a"]), + ) + result = df.groupby("b", sort=False).count() + tm.assert_frame_equal(result, expected) + + # Sorted by the magnitude of the complex numbers + expected.index = Index([(1 + 0j), (1 + 1j), (1 + 2j)], name="b") + result = df.groupby("b", sort=True).count() + tm.assert_frame_equal(result, expected) + + +def test_groupby_series_indexed_differently(): + s1 = Series( + [5.0, -9.0, 4.0, 100.0, -5.0, 55.0, 6.7], + index=Index(["a", "b", "c", "d", "e", "f", "g"]), + ) + s2 = Series( + [1.0, 1.0, 4.0, 5.0, 5.0, 7.0], index=Index(["a", "b", "d", "f", "g", "h"]) + ) + + grouped = s1.groupby(s2) + agged = grouped.mean() + exp = s1.groupby(s2.reindex(s1.index).get).mean() + tm.assert_series_equal(agged, exp) + + +def test_groupby_with_hier_columns(): + tuples = list( + zip( + *[ + ["bar", "bar", "baz", "baz", "foo", "foo", "qux", "qux"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ] + ) + ) + index = MultiIndex.from_tuples(tuples) + columns = MultiIndex.from_tuples( + [("A", "cat"), ("B", "dog"), ("B", "cat"), ("A", "dog")] + ) + df = DataFrame( + np.random.default_rng(2).standard_normal((8, 4)), index=index, columns=columns + ) + + result = df.groupby(level=0).mean() + tm.assert_index_equal(result.columns, columns) + + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + gb = df.groupby(level=0, axis=1) + result = gb.mean() + tm.assert_index_equal(result.index, df.index) + + result = df.groupby(level=0).agg("mean") + tm.assert_index_equal(result.columns, columns) + + result = df.groupby(level=0).apply(lambda x: x.mean()) + tm.assert_index_equal(result.columns, columns) + + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + gb = df.groupby(level=0, axis=1) + result = gb.agg(lambda x: x.mean(1)) + tm.assert_index_equal(result.columns, Index(["A", "B"])) + tm.assert_index_equal(result.index, df.index) + + # add a nuisance column + sorted_columns, _ = columns.sortlevel(0) + df["A", "foo"] = "bar" + result = df.groupby(level=0).mean(numeric_only=True) + tm.assert_index_equal(result.columns, df.columns[:-1]) + + +def test_grouping_ndarray(df): + grouped = df.groupby(df["A"].values) + grouped2 = df.groupby(df["A"].rename(None)) + + result = grouped.sum() + expected = grouped2.sum() + tm.assert_frame_equal(result, expected) + + +def test_groupby_wrong_multi_labels(): + index = Index([0, 1, 2, 3, 4], name="index") + data = DataFrame( + { + "foo": ["foo1", "foo1", "foo2", "foo1", "foo3"], + "bar": ["bar1", "bar2", "bar2", "bar1", "bar1"], + "baz": ["baz1", "baz1", "baz1", "baz2", "baz2"], + "spam": ["spam2", "spam3", "spam2", "spam1", "spam1"], + "data": [20, 30, 40, 50, 60], + }, + index=index, + ) + + grouped = data.groupby(["foo", "bar", "baz", "spam"]) + + result = grouped.agg("mean") + expected = grouped.mean() + tm.assert_frame_equal(result, expected) + + +def test_groupby_series_with_name(df): + result = df.groupby(df["A"]).mean(numeric_only=True) + result2 = df.groupby(df["A"], as_index=False).mean(numeric_only=True) + assert result.index.name == "A" + assert "A" in result2 + + result = df.groupby([df["A"], df["B"]]).mean() + result2 = df.groupby([df["A"], df["B"]], as_index=False).mean() + assert result.index.names == ("A", "B") + assert "A" in result2 + assert "B" in result2 + + +def test_seriesgroupby_name_attr(df): + # GH 6265 + result = df.groupby("A")["C"] + assert result.count().name == "C" + assert result.mean().name == "C" + + testFunc = lambda x: np.sum(x) * 2 + assert result.agg(testFunc).name == "C" + + +def test_consistency_name(): + # GH 12363 + + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "two", "two", "two", "one", "two"], + "C": np.random.default_rng(2).standard_normal(8) + 1.0, + "D": np.arange(8), + } + ) + + expected = df.groupby(["A"]).B.count() + result = df.B.groupby(df.A).count() + tm.assert_series_equal(result, expected) + + +def test_groupby_name_propagation(df): + # GH 6124 + def summarize(df, name=None): + return Series({"count": 1, "mean": 2, "omissions": 3}, name=name) + + def summarize_random_name(df): + # Provide a different name for each Series. In this case, groupby + # should not attempt to propagate the Series name since they are + # inconsistent. + return Series({"count": 1, "mean": 2, "omissions": 3}, name=df.iloc[0]["A"]) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + metrics = df.groupby("A").apply(summarize) + assert metrics.columns.name is None + with tm.assert_produces_warning(FutureWarning, match=msg): + metrics = df.groupby("A").apply(summarize, "metrics") + assert metrics.columns.name == "metrics" + with tm.assert_produces_warning(FutureWarning, match=msg): + metrics = df.groupby("A").apply(summarize_random_name) + assert metrics.columns.name is None + + +def test_groupby_nonstring_columns(): + df = DataFrame([np.arange(10) for x in range(10)]) + grouped = df.groupby(0) + result = grouped.mean() + expected = df.groupby(df[0]).mean() + tm.assert_frame_equal(result, expected) + + +def test_groupby_mixed_type_columns(): + # GH 13432, unorderable types in py3 + df = DataFrame([[0, 1, 2]], columns=["A", "B", 0]) + expected = DataFrame([[1, 2]], columns=["B", 0], index=Index([0], name="A")) + + result = df.groupby("A").first() + tm.assert_frame_equal(result, expected) + + result = df.groupby("A").sum() + tm.assert_frame_equal(result, expected) + + +def test_cython_grouper_series_bug_noncontig(): + arr = np.empty((100, 100)) + arr.fill(np.nan) + obj = Series(arr[:, 0]) + inds = np.tile(range(10), 10) + + result = obj.groupby(inds).agg(Series.median) + assert result.isna().all() + + +def test_series_grouper_noncontig_index(): + index = Index(["a" * 10] * 100) + + values = Series(np.random.default_rng(2).standard_normal(50), index=index[::2]) + labels = np.random.default_rng(2).integers(0, 5, 50) + + # it works! + grouped = values.groupby(labels) + + # accessing the index elements causes segfault + f = lambda x: len(set(map(id, x.index))) + grouped.agg(f) + + +def test_convert_objects_leave_decimal_alone(): + s = Series(range(5)) + labels = np.array(["a", "b", "c", "d", "e"], dtype="O") + + def convert_fast(x): + return Decimal(str(x.mean())) + + def convert_force_pure(x): + # base will be length 0 + assert len(x.values.base) > 0 + return Decimal(str(x.mean())) + + grouped = s.groupby(labels) + + result = grouped.agg(convert_fast) + assert result.dtype == np.object_ + assert isinstance(result.iloc[0], Decimal) + + result = grouped.agg(convert_force_pure) + assert result.dtype == np.object_ + assert isinstance(result.iloc[0], Decimal) + + +def test_groupby_dtype_inference_empty(): + # GH 6733 + df = DataFrame({"x": [], "range": np.arange(0, dtype="int64")}) + assert df["x"].dtype == np.float64 + + result = df.groupby("x").first() + exp_index = Index([], name="x", dtype=np.float64) + expected = DataFrame({"range": Series([], index=exp_index, dtype="int64")}) + tm.assert_frame_equal(result, expected, by_blocks=True) + + +def test_groupby_unit64_float_conversion(): + # GH: 30859 groupby converts unit64 to floats sometimes + df = DataFrame({"first": [1], "second": [1], "value": [16148277970000000000]}) + result = df.groupby(["first", "second"])["value"].max() + expected = Series( + [16148277970000000000], + MultiIndex.from_product([[1], [1]], names=["first", "second"]), + name="value", + ) + tm.assert_series_equal(result, expected) + + +def test_groupby_list_infer_array_like(df): + result = df.groupby(list(df["A"])).mean(numeric_only=True) + expected = df.groupby(df["A"]).mean(numeric_only=True) + tm.assert_frame_equal(result, expected, check_names=False) + + with pytest.raises(KeyError, match=r"^'foo'$"): + df.groupby(list(df["A"][:-1])) + + # pathological case of ambiguity + df = DataFrame( + { + "foo": [0, 1], + "bar": [3, 4], + "val": np.random.default_rng(2).standard_normal(2), + } + ) + + result = df.groupby(["foo", "bar"]).mean() + expected = df.groupby([df["foo"], df["bar"]]).mean()[["val"]] + + +def test_groupby_keys_same_size_as_index(): + # GH 11185 + freq = "s" + index = date_range( + start=Timestamp("2015-09-29T11:34:44-0700"), periods=2, freq=freq + ) + df = DataFrame([["A", 10], ["B", 15]], columns=["metric", "values"], index=index) + result = df.groupby([Grouper(level=0, freq=freq), "metric"]).mean() + expected = df.set_index([df.index, "metric"]).astype(float) + + tm.assert_frame_equal(result, expected) + + +def test_groupby_one_row(): + # GH 11741 + msg = r"^'Z'$" + df1 = DataFrame( + np.random.default_rng(2).standard_normal((1, 4)), columns=list("ABCD") + ) + with pytest.raises(KeyError, match=msg): + df1.groupby("Z") + df2 = DataFrame( + np.random.default_rng(2).standard_normal((2, 4)), columns=list("ABCD") + ) + with pytest.raises(KeyError, match=msg): + df2.groupby("Z") + + +def test_groupby_nat_exclude(): + # GH 6992 + df = DataFrame( + { + "values": np.random.default_rng(2).standard_normal(8), + "dt": [ + np.nan, + Timestamp("2013-01-01"), + np.nan, + Timestamp("2013-02-01"), + np.nan, + Timestamp("2013-02-01"), + np.nan, + Timestamp("2013-01-01"), + ], + "str": [np.nan, "a", np.nan, "a", np.nan, "a", np.nan, "b"], + } + ) + grouped = df.groupby("dt") + + expected = [Index([1, 7]), Index([3, 5])] + keys = sorted(grouped.groups.keys()) + assert len(keys) == 2 + for k, e in zip(keys, expected): + # grouped.groups keys are np.datetime64 with system tz + # not to be affected by tz, only compare values + tm.assert_index_equal(grouped.groups[k], e) + + # confirm obj is not filtered + tm.assert_frame_equal(grouped._grouper.groupings[0].obj, df) + assert grouped.ngroups == 2 + + expected = { + Timestamp("2013-01-01 00:00:00"): np.array([1, 7], dtype=np.intp), + Timestamp("2013-02-01 00:00:00"): np.array([3, 5], dtype=np.intp), + } + + for k in grouped.indices: + tm.assert_numpy_array_equal(grouped.indices[k], expected[k]) + + tm.assert_frame_equal(grouped.get_group(Timestamp("2013-01-01")), df.iloc[[1, 7]]) + tm.assert_frame_equal(grouped.get_group(Timestamp("2013-02-01")), df.iloc[[3, 5]]) + + with pytest.raises(KeyError, match=r"^NaT$"): + grouped.get_group(pd.NaT) + + nan_df = DataFrame( + {"nan": [np.nan, np.nan, np.nan], "nat": [pd.NaT, pd.NaT, pd.NaT]} + ) + assert nan_df["nan"].dtype == "float64" + assert nan_df["nat"].dtype == "datetime64[ns]" + + for key in ["nan", "nat"]: + grouped = nan_df.groupby(key) + assert grouped.groups == {} + assert grouped.ngroups == 0 + assert grouped.indices == {} + with pytest.raises(KeyError, match=r"^nan$"): + grouped.get_group(np.nan) + with pytest.raises(KeyError, match=r"^NaT$"): + grouped.get_group(pd.NaT) + + +def test_groupby_two_group_keys_all_nan(): + # GH #36842: Grouping over two group keys shouldn't raise an error + df = DataFrame({"a": [np.nan, np.nan], "b": [np.nan, np.nan], "c": [1, 2]}) + result = df.groupby(["a", "b"]).indices + assert result == {} + + +def test_groupby_2d_malformed(): + d = DataFrame(index=range(2)) + d["group"] = ["g1", "g2"] + d["zeros"] = [0, 0] + d["ones"] = [1, 1] + d["label"] = ["l1", "l2"] + tmp = d.groupby(["group"]).mean(numeric_only=True) + res_values = np.array([[0.0, 1.0], [0.0, 1.0]]) + tm.assert_index_equal(tmp.columns, Index(["zeros", "ones"])) + tm.assert_numpy_array_equal(tmp.values, res_values) + + +def test_int32_overflow(): + B = np.concatenate((np.arange(10000), np.arange(10000), np.arange(5000))) + A = np.arange(25000) + df = DataFrame( + { + "A": A, + "B": B, + "C": A, + "D": B, + "E": np.random.default_rng(2).standard_normal(25000), + } + ) + + left = df.groupby(["A", "B", "C", "D"]).sum() + right = df.groupby(["D", "C", "B", "A"]).sum() + assert len(left) == len(right) + + +def test_groupby_sort_multi(): + df = DataFrame( + { + "a": ["foo", "bar", "baz"], + "b": [3, 2, 1], + "c": [0, 1, 2], + "d": np.random.default_rng(2).standard_normal(3), + } + ) + + tups = [tuple(row) for row in df[["a", "b", "c"]].values] + tups = com.asarray_tuplesafe(tups) + result = df.groupby(["a", "b", "c"], sort=True).sum() + tm.assert_numpy_array_equal(result.index.values, tups[[1, 2, 0]]) + + tups = [tuple(row) for row in df[["c", "a", "b"]].values] + tups = com.asarray_tuplesafe(tups) + result = df.groupby(["c", "a", "b"], sort=True).sum() + tm.assert_numpy_array_equal(result.index.values, tups) + + tups = [tuple(x) for x in df[["b", "c", "a"]].values] + tups = com.asarray_tuplesafe(tups) + result = df.groupby(["b", "c", "a"], sort=True).sum() + tm.assert_numpy_array_equal(result.index.values, tups[[2, 1, 0]]) + + df = DataFrame( + { + "a": [0, 1, 2, 0, 1, 2], + "b": [0, 0, 0, 1, 1, 1], + "d": np.random.default_rng(2).standard_normal(6), + } + ) + grouped = df.groupby(["a", "b"])["d"] + result = grouped.sum() + + def _check_groupby(df, result, keys, field, f=lambda x: x.sum()): + tups = [tuple(row) for row in df[keys].values] + tups = com.asarray_tuplesafe(tups) + expected = f(df.groupby(tups)[field]) + for k, v in expected.items(): + assert result[k] == v + + _check_groupby(df, result, ["a", "b"], "d") + + +def test_dont_clobber_name_column(): + df = DataFrame( + {"key": ["a", "a", "a", "b", "b", "b"], "name": ["foo", "bar", "baz"] * 2} + ) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("key", group_keys=False).apply(lambda x: x) + tm.assert_frame_equal(result, df) + + +def test_skip_group_keys(): + tsf = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + + grouped = tsf.groupby(lambda x: x.month, group_keys=False) + result = grouped.apply(lambda x: x.sort_values(by="A")[:3]) + + pieces = [group.sort_values(by="A")[:3] for key, group in grouped] + + expected = pd.concat(pieces) + tm.assert_frame_equal(result, expected) + + grouped = tsf["A"].groupby(lambda x: x.month, group_keys=False) + result = grouped.apply(lambda x: x.sort_values()[:3]) + + pieces = [group.sort_values()[:3] for key, group in grouped] + + expected = pd.concat(pieces) + tm.assert_series_equal(result, expected) + + +def test_no_nonsense_name(float_frame): + # GH #995 + s = float_frame["C"].copy() + s.name = None + + result = s.groupby(float_frame["A"]).agg("sum") + assert result.name is None + + +def test_multifunc_sum_bug(): + # GH #1065 + x = DataFrame(np.arange(9).reshape(3, 3)) + x["test"] = 0 + x["fl"] = [1.3, 1.5, 1.6] + + grouped = x.groupby("test") + result = grouped.agg({"fl": "sum", 2: "size"}) + assert result["fl"].dtype == np.float64 + + +def test_handle_dict_return_value(df): + def f(group): + return {"max": group.max(), "min": group.min()} + + def g(group): + return Series({"max": group.max(), "min": group.min()}) + + result = df.groupby("A")["C"].apply(f) + expected = df.groupby("A")["C"].apply(g) + + assert isinstance(result, Series) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("grouper", ["A", ["A", "B"]]) +def test_set_group_name(df, grouper): + def f(group): + assert group.name is not None + return group + + def freduce(group): + assert group.name is not None + return group.sum() + + def freducex(x): + return freduce(x) + + grouped = df.groupby(grouper, group_keys=False) + + # make sure all these work + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped.apply(f) + grouped.aggregate(freduce) + grouped.aggregate({"C": freduce, "D": freduce}) + grouped.transform(f) + + grouped["C"].apply(f) + grouped["C"].aggregate(freduce) + grouped["C"].aggregate([freduce, freducex]) + grouped["C"].transform(f) + + +def test_group_name_available_in_inference_pass(): + # gh-15062 + df = DataFrame({"a": [0, 0, 1, 1, 2, 2], "b": np.arange(6)}) + + names = [] + + def f(group): + names.append(group.name) + return group.copy() + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby("a", sort=False, group_keys=False).apply(f) + + expected_names = [0, 1, 2] + assert names == expected_names + + +def test_no_dummy_key_names(df): + # see gh-1291 + result = df.groupby(df["A"].values).sum() + assert result.index.name is None + + result2 = df.groupby([df["A"].values, df["B"].values]).sum() + assert result2.index.names == (None, None) + + +def test_groupby_sort_multiindex_series(): + # series multiindex groupby sort argument was not being passed through + # _compress_group_index + # GH 9444 + index = MultiIndex( + levels=[[1, 2], [1, 2]], + codes=[[0, 0, 0, 0, 1, 1], [1, 1, 0, 0, 0, 0]], + names=["a", "b"], + ) + mseries = Series([0, 1, 2, 3, 4, 5], index=index) + index = MultiIndex( + levels=[[1, 2], [1, 2]], codes=[[0, 0, 1], [1, 0, 0]], names=["a", "b"] + ) + mseries_result = Series([0, 2, 4], index=index) + + result = mseries.groupby(level=["a", "b"], sort=False).first() + tm.assert_series_equal(result, mseries_result) + result = mseries.groupby(level=["a", "b"], sort=True).first() + tm.assert_series_equal(result, mseries_result.sort_index()) + + +def test_groupby_reindex_inside_function(): + periods = 1000 + ind = date_range(start="2012/1/1", freq="5min", periods=periods) + df = DataFrame({"high": np.arange(periods), "low": np.arange(periods)}, index=ind) + + def agg_before(func, fix=False): + """ + Run an aggregate func on the subset of data. + """ + + def _func(data): + d = data.loc[data.index.map(lambda x: x.hour < 11)].dropna() + if fix: + data[data.index[0]] + if len(d) == 0: + return None + return func(d) + + return _func + + grouped = df.groupby(lambda x: datetime(x.year, x.month, x.day)) + closure_bad = grouped.agg({"high": agg_before(np.max)}) + closure_good = grouped.agg({"high": agg_before(np.max, True)}) + + tm.assert_frame_equal(closure_bad, closure_good) + + +def test_groupby_multiindex_missing_pair(): + # GH9049 + df = DataFrame( + { + "group1": ["a", "a", "a", "b"], + "group2": ["c", "c", "d", "c"], + "value": [1, 1, 1, 5], + } + ) + df = df.set_index(["group1", "group2"]) + df_grouped = df.groupby(level=["group1", "group2"], sort=True) + + res = df_grouped.agg("sum") + idx = MultiIndex.from_tuples( + [("a", "c"), ("a", "d"), ("b", "c")], names=["group1", "group2"] + ) + exp = DataFrame([[2], [1], [5]], index=idx, columns=["value"]) + + tm.assert_frame_equal(res, exp) + + +def test_groupby_multiindex_not_lexsorted(): + # GH 11640 + + # define the lexsorted version + lexsorted_mi = MultiIndex.from_tuples( + [("a", ""), ("b1", "c1"), ("b2", "c2")], names=["b", "c"] + ) + lexsorted_df = DataFrame([[1, 3, 4]], columns=lexsorted_mi) + assert lexsorted_df.columns._is_lexsorted() + + # define the non-lexsorted version + not_lexsorted_df = DataFrame( + columns=["a", "b", "c", "d"], data=[[1, "b1", "c1", 3], [1, "b2", "c2", 4]] + ) + not_lexsorted_df = not_lexsorted_df.pivot_table( + index="a", columns=["b", "c"], values="d" + ) + not_lexsorted_df = not_lexsorted_df.reset_index() + assert not not_lexsorted_df.columns._is_lexsorted() + + expected = lexsorted_df.groupby("a").mean() + with tm.assert_produces_warning(PerformanceWarning): + result = not_lexsorted_df.groupby("a").mean() + tm.assert_frame_equal(expected, result) + + # a transforming function should work regardless of sort + # GH 14776 + df = DataFrame( + {"x": ["a", "a", "b", "a"], "y": [1, 1, 2, 2], "z": [1, 2, 3, 4]} + ).set_index(["x", "y"]) + assert not df.index._is_lexsorted() + + for level in [0, 1, [0, 1]]: + for sort in [False, True]: + result = df.groupby(level=level, sort=sort, group_keys=False).apply( + DataFrame.drop_duplicates + ) + expected = df + tm.assert_frame_equal(expected, result) + + result = ( + df.sort_index() + .groupby(level=level, sort=sort, group_keys=False) + .apply(DataFrame.drop_duplicates) + ) + expected = df.sort_index() + tm.assert_frame_equal(expected, result) + + +def test_index_label_overlaps_location(): + # checking we don't have any label/location confusion in the + # wake of GH5375 + df = DataFrame(list("ABCDE"), index=[2, 0, 2, 1, 1]) + g = df.groupby(list("ababb")) + actual = g.filter(lambda x: len(x) > 2) + expected = df.iloc[[1, 3, 4]] + tm.assert_frame_equal(actual, expected) + + ser = df[0] + g = ser.groupby(list("ababb")) + actual = g.filter(lambda x: len(x) > 2) + expected = ser.take([1, 3, 4]) + tm.assert_series_equal(actual, expected) + + # and again, with a generic Index of floats + df.index = df.index.astype(float) + g = df.groupby(list("ababb")) + actual = g.filter(lambda x: len(x) > 2) + expected = df.iloc[[1, 3, 4]] + tm.assert_frame_equal(actual, expected) + + ser = df[0] + g = ser.groupby(list("ababb")) + actual = g.filter(lambda x: len(x) > 2) + expected = ser.take([1, 3, 4]) + tm.assert_series_equal(actual, expected) + + +def test_transform_doesnt_clobber_ints(): + # GH 7972 + n = 6 + x = np.arange(n) + df = DataFrame({"a": x // 2, "b": 2.0 * x, "c": 3.0 * x}) + df2 = DataFrame({"a": x // 2 * 1.0, "b": 2.0 * x, "c": 3.0 * x}) + + gb = df.groupby("a") + result = gb.transform("mean") + + gb2 = df2.groupby("a") + expected = gb2.transform("mean") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "sort_column", + ["ints", "floats", "strings", ["ints", "floats"], ["ints", "strings"]], +) +@pytest.mark.parametrize( + "group_column", ["int_groups", "string_groups", ["int_groups", "string_groups"]] +) +def test_groupby_preserves_sort(sort_column, group_column): + # Test to ensure that groupby always preserves sort order of original + # object. Issue #8588 and #9651 + + df = DataFrame( + { + "int_groups": [3, 1, 0, 1, 0, 3, 3, 3], + "string_groups": ["z", "a", "z", "a", "a", "g", "g", "g"], + "ints": [8, 7, 4, 5, 2, 9, 1, 1], + "floats": [2.3, 5.3, 6.2, -2.4, 2.2, 1.1, 1.1, 5], + "strings": ["z", "d", "a", "e", "word", "word2", "42", "47"], + } + ) + + # Try sorting on different types and with different group types + + df = df.sort_values(by=sort_column) + g = df.groupby(group_column) + + def test_sort(x): + tm.assert_frame_equal(x, x.sort_values(by=sort_column)) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + g.apply(test_sort) + + +def test_pivot_table_values_key_error(): + # This test is designed to replicate the error in issue #14938 + df = DataFrame( + { + "eventDate": date_range(datetime.today(), periods=20, freq="ME").tolist(), + "thename": range(20), + } + ) + + df["year"] = df.set_index("eventDate").index.year + df["month"] = df.set_index("eventDate").index.month + + with pytest.raises(KeyError, match="'badname'"): + df.reset_index().pivot_table( + index="year", columns="month", values="badname", aggfunc="count" + ) + + +@pytest.mark.parametrize("columns", ["C", ["C"]]) +@pytest.mark.parametrize("keys", [["A"], ["A", "B"]]) +@pytest.mark.parametrize( + "values", + [ + [True], + [0], + [0.0], + ["a"], + Categorical([0]), + [to_datetime(0)], + date_range(0, 1, 1, tz="US/Eastern"), + pd.period_range("2016-01-01", periods=3, freq="D"), + pd.array([0], dtype="Int64"), + pd.array([0], dtype="Float64"), + pd.array([False], dtype="boolean"), + ], + ids=[ + "bool", + "int", + "float", + "str", + "cat", + "dt64", + "dt64tz", + "period", + "Int64", + "Float64", + "boolean", + ], +) +@pytest.mark.parametrize("method", ["attr", "agg", "apply"]) +@pytest.mark.parametrize( + "op", ["idxmax", "idxmin", "min", "max", "sum", "prod", "skew"] +) +def test_empty_groupby( + columns, keys, values, method, op, using_array_manager, dropna, using_infer_string +): + # GH8093 & GH26411 + override_dtype = None + + if isinstance(values, BooleanArray) and op in ["sum", "prod"]: + # We expect to get Int64 back for these + override_dtype = "Int64" + + if isinstance(values[0], bool) and op in ("prod", "sum"): + # sum/product of bools is an integer + override_dtype = "int64" + + df = DataFrame({"A": values, "B": values, "C": values}, columns=list("ABC")) + + if hasattr(values, "dtype"): + # check that we did the construction right + assert (df.dtypes == values.dtype).all() + + df = df.iloc[:0] + + gb = df.groupby(keys, group_keys=False, dropna=dropna, observed=False)[columns] + + def get_result(**kwargs): + if method == "attr": + return getattr(gb, op)(**kwargs) + else: + return getattr(gb, method)(op, **kwargs) + + def get_categorical_invalid_expected(): + # Categorical is special without 'observed=True', we get an NaN entry + # corresponding to the unobserved group. If we passed observed=True + # to groupby, expected would just be 'df.set_index(keys)[columns]' + # as below + lev = Categorical([0], dtype=values.dtype) + if len(keys) != 1: + idx = MultiIndex.from_product([lev, lev], names=keys) + else: + # all columns are dropped, but we end up with one row + # Categorical is special without 'observed=True' + idx = Index(lev, name=keys[0]) + + if using_infer_string: + columns = Index([], dtype="str") + else: + columns = [] + expected = DataFrame([], columns=columns, index=idx) + return expected + + is_per = isinstance(df.dtypes.iloc[0], pd.PeriodDtype) + is_dt64 = df.dtypes.iloc[0].kind == "M" + is_cat = isinstance(values, Categorical) + is_str = isinstance(df.dtypes.iloc[0], pd.StringDtype) + + if ( + isinstance(values, Categorical) + and not values.ordered + and op in ["min", "max", "idxmin", "idxmax"] + ): + if op in ["min", "max"]: + msg = f"Cannot perform {op} with non-ordered Categorical" + klass = TypeError + else: + msg = f"Can't get {op} of an empty group due to unobserved categories" + klass = ValueError + with pytest.raises(klass, match=msg): + get_result() + + if op in ["min", "max", "idxmin", "idxmax"] and isinstance(columns, list): + # i.e. DataframeGroupBy, not SeriesGroupBy + result = get_result(numeric_only=True) + expected = get_categorical_invalid_expected() + tm.assert_equal(result, expected) + return + + if op in ["prod", "sum", "skew"]: + # ops that require more than just ordered-ness + if is_dt64 or is_cat or is_per or (is_str and op != "sum"): + # GH#41291 + # datetime64 -> prod and sum are invalid + if is_dt64: + msg = "datetime64 type does not support" + elif is_per: + msg = "Period type does not support" + elif is_str: + msg = f"dtype 'str' does not support operation '{op}'" + else: + msg = "category type does not support" + if op == "skew": + msg = "|".join([msg, "does not support reduction 'skew'"]) + with pytest.raises(TypeError, match=msg): + get_result() + + if not isinstance(columns, list): + # i.e. SeriesGroupBy + return + elif op == "skew": + # TODO: test the numeric_only=True case + return + else: + # i.e. op in ["prod", "sum"]: + # i.e. DataFrameGroupBy + # ops that require more than just ordered-ness + # GH#41291 + result = get_result(numeric_only=True) + + # with numeric_only=True, these are dropped, and we get + # an empty DataFrame back + expected = df.set_index(keys)[[]] + if is_cat: + expected = get_categorical_invalid_expected() + tm.assert_equal(result, expected) + return + + result = get_result() + expected = df.set_index(keys)[columns] + if op in ["idxmax", "idxmin"]: + expected = expected.astype(df.index.dtype) + if override_dtype is not None: + expected = expected.astype(override_dtype) + if len(keys) == 1: + expected.index.name = keys[0] + tm.assert_equal(result, expected) + + +def test_empty_groupby_apply_nonunique_columns(): + # GH#44417 + df = DataFrame(np.random.default_rng(2).standard_normal((0, 4))) + df[3] = df[3].astype(np.int64) + df.columns = [0, 1, 2, 0] + gb = df.groupby(df[1], group_keys=False) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = gb.apply(lambda x: x) + assert (res.dtypes == df.dtypes).all() + + +def test_tuple_as_grouping(): + # https://github.com/pandas-dev/pandas/issues/18314 + df = DataFrame( + { + ("a", "b"): [1, 1, 1, 1], + "a": [2, 2, 2, 2], + "b": [2, 2, 2, 2], + "c": [1, 1, 1, 1], + } + ) + + with pytest.raises(KeyError, match=r"('a', 'b')"): + df[["a", "b", "c"]].groupby(("a", "b")) + + result = df.groupby(("a", "b"))["c"].sum() + expected = Series([4], name="c", index=Index([1], name=("a", "b"))) + tm.assert_series_equal(result, expected) + + +def test_tuple_correct_keyerror(): + # https://github.com/pandas-dev/pandas/issues/18798 + df = DataFrame(1, index=range(3), columns=MultiIndex.from_product([[1, 2], [3, 4]])) + with pytest.raises(KeyError, match=r"^\(7, 8\)$"): + df.groupby((7, 8)).mean() + + +def test_groupby_agg_ohlc_non_first(): + # GH 21716 + df = DataFrame( + [[1], [1]], + columns=Index(["foo"], name="mycols"), + index=date_range("2018-01-01", periods=2, freq="D", name="dti"), + ) + + expected = DataFrame( + [[1, 1, 1, 1, 1], [1, 1, 1, 1, 1]], + columns=MultiIndex.from_tuples( + ( + ("foo", "sum", "foo"), + ("foo", "ohlc", "open"), + ("foo", "ohlc", "high"), + ("foo", "ohlc", "low"), + ("foo", "ohlc", "close"), + ), + names=["mycols", None, None], + ), + index=date_range("2018-01-01", periods=2, freq="D", name="dti"), + ) + + result = df.groupby(Grouper(freq="D")).agg(["sum", "ohlc"]) + + tm.assert_frame_equal(result, expected) + + +def test_groupby_multiindex_nat(): + # GH 9236 + values = [ + (pd.NaT, "a"), + (datetime(2012, 1, 2), "a"), + (datetime(2012, 1, 2), "b"), + (datetime(2012, 1, 3), "a"), + ] + mi = MultiIndex.from_tuples(values, names=["date", None]) + ser = Series([3, 2, 2.5, 4], index=mi) + + result = ser.groupby(level=1).mean() + expected = Series([3.0, 2.5], index=["a", "b"]) + tm.assert_series_equal(result, expected) + + +def test_groupby_empty_list_raises(): + # GH 5289 + values = zip(range(10), range(10)) + df = DataFrame(values, columns=["apple", "b"]) + msg = "Grouper and axis must be same length" + with pytest.raises(ValueError, match=msg): + df.groupby([[]]) + + +def test_groupby_multiindex_series_keys_len_equal_group_axis(): + # GH 25704 + index_array = [["x", "x"], ["a", "b"], ["k", "k"]] + index_names = ["first", "second", "third"] + ri = MultiIndex.from_arrays(index_array, names=index_names) + s = Series(data=[1, 2], index=ri) + result = s.groupby(["first", "third"]).sum() + + index_array = [["x"], ["k"]] + index_names = ["first", "third"] + ei = MultiIndex.from_arrays(index_array, names=index_names) + expected = Series([3], index=ei) + + tm.assert_series_equal(result, expected) + + +def test_groupby_groups_in_BaseGrouper(): + # GH 26326 + # Test if DataFrame grouped with a pandas.Grouper has correct groups + mi = MultiIndex.from_product([["A", "B"], ["C", "D"]], names=["alpha", "beta"]) + df = DataFrame({"foo": [1, 2, 1, 2], "bar": [1, 2, 3, 4]}, index=mi) + result = df.groupby([Grouper(level="alpha"), "beta"]) + expected = df.groupby(["alpha", "beta"]) + assert result.groups == expected.groups + + result = df.groupby(["beta", Grouper(level="alpha")]) + expected = df.groupby(["beta", "alpha"]) + assert result.groups == expected.groups + + +@pytest.mark.parametrize("group_name", ["x", ["x"]]) +def test_groupby_axis_1(group_name): + # GH 27614 + df = DataFrame( + np.arange(12).reshape(3, 4), index=[0, 1, 0], columns=[10, 20, 10, 20] + ) + df.index.name = "y" + df.columns.name = "x" + + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + gb = df.groupby(group_name, axis=1) + + results = gb.sum() + expected = df.T.groupby(group_name).sum().T + tm.assert_frame_equal(results, expected) + + # test on MI column + iterables = [["bar", "baz", "foo"], ["one", "two"]] + mi = MultiIndex.from_product(iterables=iterables, names=["x", "x1"]) + df = DataFrame(np.arange(18).reshape(3, 6), index=[0, 1, 0], columns=mi) + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + gb = df.groupby(group_name, axis=1) + results = gb.sum() + expected = df.T.groupby(group_name).sum().T + tm.assert_frame_equal(results, expected) + + +@pytest.mark.parametrize( + "op, expected", + [ + ( + "shift", + { + "time": [ + None, + None, + Timestamp("2019-01-01 12:00:00"), + Timestamp("2019-01-01 12:30:00"), + None, + None, + ] + }, + ), + ( + "bfill", + { + "time": [ + Timestamp("2019-01-01 12:00:00"), + Timestamp("2019-01-01 12:30:00"), + Timestamp("2019-01-01 14:00:00"), + Timestamp("2019-01-01 14:30:00"), + Timestamp("2019-01-01 14:00:00"), + Timestamp("2019-01-01 14:30:00"), + ] + }, + ), + ( + "ffill", + { + "time": [ + Timestamp("2019-01-01 12:00:00"), + Timestamp("2019-01-01 12:30:00"), + Timestamp("2019-01-01 12:00:00"), + Timestamp("2019-01-01 12:30:00"), + Timestamp("2019-01-01 14:00:00"), + Timestamp("2019-01-01 14:30:00"), + ] + }, + ), + ], +) +def test_shift_bfill_ffill_tz(tz_naive_fixture, op, expected): + # GH19995, GH27992: Check that timezone does not drop in shift, bfill, and ffill + tz = tz_naive_fixture + data = { + "id": ["A", "B", "A", "B", "A", "B"], + "time": [ + Timestamp("2019-01-01 12:00:00"), + Timestamp("2019-01-01 12:30:00"), + None, + None, + Timestamp("2019-01-01 14:00:00"), + Timestamp("2019-01-01 14:30:00"), + ], + } + df = DataFrame(data).assign(time=lambda x: x.time.dt.tz_localize(tz)) + + grouped = df.groupby("id") + result = getattr(grouped, op)() + expected = DataFrame(expected).assign(time=lambda x: x.time.dt.tz_localize(tz)) + tm.assert_frame_equal(result, expected) + + +def test_groupby_only_none_group(): + # see GH21624 + # this was crashing with "ValueError: Length of passed values is 1, index implies 0" + df = DataFrame({"g": [None], "x": 1}) + actual = df.groupby("g")["x"].transform("sum") + expected = Series([np.nan], name="x") + + tm.assert_series_equal(actual, expected) + + +def test_groupby_duplicate_index(): + # GH#29189 the groupby call here used to raise + ser = Series([2, 5, 6, 8], index=[2.0, 4.0, 4.0, 5.0]) + gb = ser.groupby(level=0) + + result = gb.mean() + expected = Series([2, 5.5, 8], index=[2.0, 4.0, 5.0]) + tm.assert_series_equal(result, expected) + + +def test_group_on_empty_multiindex(transformation_func, request): + # GH 47787 + # With one row, those are transforms so the schema should be the same + df = DataFrame( + data=[[1, Timestamp("today"), 3, 4]], + columns=["col_1", "col_2", "col_3", "col_4"], + ) + df["col_3"] = df["col_3"].astype(int) + df["col_4"] = df["col_4"].astype(int) + df = df.set_index(["col_1", "col_2"]) + if transformation_func == "fillna": + args = ("ffill",) + else: + args = () + warn = FutureWarning if transformation_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = df.iloc[:0].groupby(["col_1"]).transform(transformation_func, *args) + with tm.assert_produces_warning(warn, match=warn_msg): + expected = df.groupby(["col_1"]).transform(transformation_func, *args).iloc[:0] + if transformation_func in ("diff", "shift"): + expected = expected.astype(int) + tm.assert_equal(result, expected) + + warn_msg = "SeriesGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = ( + df["col_3"] + .iloc[:0] + .groupby(["col_1"]) + .transform(transformation_func, *args) + ) + warn_msg = "SeriesGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + expected = ( + df["col_3"] + .groupby(["col_1"]) + .transform(transformation_func, *args) + .iloc[:0] + ) + if transformation_func in ("diff", "shift"): + expected = expected.astype(int) + tm.assert_equal(result, expected) + + +def test_groupby_crash_on_nunique(axis): + # Fix following 30253 + dti = date_range("2016-01-01", periods=2, name="foo") + df = DataFrame({("A", "B"): [1, 2], ("A", "C"): [1, 3], ("D", "B"): [0, 0]}) + df.columns.names = ("bar", "baz") + df.index = dti + + axis_number = df._get_axis_number(axis) + if not axis_number: + df = df.T + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + else: + msg = "DataFrame.groupby with axis=1 is deprecated" + + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(axis=axis_number, level=0) + result = gb.nunique() + + expected = DataFrame({"A": [1, 2], "D": [1, 1]}, index=dti) + expected.columns.name = "bar" + if not axis_number: + expected = expected.T + + tm.assert_frame_equal(result, expected) + + if axis_number == 0: + # same thing, but empty columns + with tm.assert_produces_warning(FutureWarning, match=msg): + gb2 = df[[]].groupby(axis=axis_number, level=0) + exp = expected[[]] + else: + # same thing, but empty rows + with tm.assert_produces_warning(FutureWarning, match=msg): + gb2 = df.loc[[]].groupby(axis=axis_number, level=0) + # default for empty when we can't infer a dtype is float64 + exp = expected.loc[[]].astype(np.float64) + + res = gb2.nunique() + tm.assert_frame_equal(res, exp) + + +def test_groupby_list_level(): + # GH 9790 + expected = DataFrame(np.arange(0, 9).reshape(3, 3), dtype=float) + result = expected.groupby(level=[0]).mean() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "max_seq_items, expected", + [ + (5, "{0: [0], 1: [1], 2: [2], 3: [3], 4: [4]}"), + (4, "{0: [0], 1: [1], 2: [2], 3: [3], ...}"), + (1, "{0: [0], ...}"), + ], +) +def test_groups_repr_truncates(max_seq_items, expected): + # GH 1135 + df = DataFrame(np.random.default_rng(2).standard_normal((5, 1))) + df["a"] = df.index + + with pd.option_context("display.max_seq_items", max_seq_items): + result = df.groupby("a").groups.__repr__() + assert result == expected + + result = df.groupby(np.array(df.a)).groups.__repr__() + assert result == expected + + +def test_group_on_two_row_multiindex_returns_one_tuple_key(): + # GH 18451 + df = DataFrame([{"a": 1, "b": 2, "c": 99}, {"a": 1, "b": 2, "c": 88}]) + df = df.set_index(["a", "b"]) + + grp = df.groupby(["a", "b"]) + result = grp.indices + expected = {(1, 2): np.array([0, 1], dtype=np.int64)} + + assert len(result) == 1 + key = (1, 2) + assert (result[key] == expected[key]).all() + + +@pytest.mark.parametrize( + "klass, attr, value", + [ + (DataFrame, "level", "a"), + (DataFrame, "as_index", False), + (DataFrame, "sort", False), + (DataFrame, "group_keys", False), + (DataFrame, "observed", True), + (DataFrame, "dropna", False), + (Series, "level", "a"), + (Series, "as_index", False), + (Series, "sort", False), + (Series, "group_keys", False), + (Series, "observed", True), + (Series, "dropna", False), + ], +) +def test_subsetting_columns_keeps_attrs(klass, attr, value): + # GH 9959 - When subsetting columns, don't drop attributes + df = DataFrame({"a": [1], "b": [2], "c": [3]}) + if attr != "axis": + df = df.set_index("a") + + expected = df.groupby("a", **{attr: value}) + result = expected[["b"]] if klass is DataFrame else expected["b"] + assert getattr(result, attr) == getattr(expected, attr) + + +def test_subsetting_columns_axis_1(): + # GH 37725 + df = DataFrame({"A": [1], "B": [2], "C": [3]}) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + g = df.groupby([0, 0, 1], axis=1) + match = "Cannot subset columns when using axis=1" + with pytest.raises(ValueError, match=match): + g[["A", "B"]].sum() + + +@pytest.mark.parametrize("func", ["sum", "any", "shift"]) +def test_groupby_column_index_name_lost(func): + # GH: 29764 groupby loses index sometimes + expected = Index(["a"], name="idx") + df = DataFrame([[1]], columns=expected) + df_grouped = df.groupby([1]) + result = getattr(df_grouped, func)().columns + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize( + "infer_string", + [ + False, + pytest.param(True, marks=td.skip_if_no("pyarrow")), + ], +) +def test_groupby_duplicate_columns(infer_string): + # GH: 31735 + if infer_string: + pytest.importorskip("pyarrow") + df = DataFrame( + {"A": ["f", "e", "g", "h"], "B": ["a", "b", "c", "d"], "C": [1, 2, 3, 4]} + ).astype(object) + df.columns = ["A", "B", "B"] + with pd.option_context("future.infer_string", infer_string): + result = df.groupby([0, 0, 0, 0]).min() + expected = DataFrame( + [["e", "a", 1]], index=np.array([0]), columns=["A", "B", "B"], dtype=object + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_series_with_tuple_name(): + # GH 37755 + ser = Series([1, 2, 3, 4], index=[1, 1, 2, 2], name=("a", "a")) + ser.index.name = ("b", "b") + result = ser.groupby(level=0).last() + expected = Series([2, 4], index=[1, 2], name=("a", "a")) + expected.index.name = ("b", "b") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "func, values", [("sum", [97.0, 98.0]), ("mean", [24.25, 24.5])] +) +def test_groupby_numerical_stability_sum_mean(func, values): + # GH#38778 + data = [1e16, 1e16, 97, 98, -5e15, -5e15, -5e15, -5e15] + df = DataFrame({"group": [1, 2] * 4, "a": data, "b": data}) + result = getattr(df.groupby("group"), func)() + expected = DataFrame({"a": values, "b": values}, index=Index([1, 2], name="group")) + tm.assert_frame_equal(result, expected) + + +def test_groupby_numerical_stability_cumsum(): + # GH#38934 + data = [1e16, 1e16, 97, 98, -5e15, -5e15, -5e15, -5e15] + df = DataFrame({"group": [1, 2] * 4, "a": data, "b": data}) + result = df.groupby("group").cumsum() + exp_data = ( + [1e16] * 2 + [1e16 + 96, 1e16 + 98] + [5e15 + 97, 5e15 + 98] + [97.0, 98.0] + ) + expected = DataFrame({"a": exp_data, "b": exp_data}) + tm.assert_frame_equal(result, expected, check_exact=True) + + +def test_groupby_cumsum_skipna_false(): + # GH#46216 don't propagate np.nan above the diagonal + arr = np.random.default_rng(2).standard_normal((5, 5)) + df = DataFrame(arr) + for i in range(5): + df.iloc[i, i] = np.nan + + df["A"] = 1 + gb = df.groupby("A") + + res = gb.cumsum(skipna=False) + + expected = df[[0, 1, 2, 3, 4]].cumsum(skipna=False) + tm.assert_frame_equal(res, expected) + + +def test_groupby_cumsum_timedelta64(): + # GH#46216 don't ignore is_datetimelike in libgroupby.group_cumsum + dti = date_range("2016-01-01", periods=5) + ser = Series(dti) - dti[0] + ser[2] = pd.NaT + + df = DataFrame({"A": 1, "B": ser}) + gb = df.groupby("A") + + res = gb.cumsum(numeric_only=False, skipna=True) + exp = DataFrame({"B": [ser[0], ser[1], pd.NaT, ser[4], ser[4] * 2]}) + tm.assert_frame_equal(res, exp) + + res = gb.cumsum(numeric_only=False, skipna=False) + exp = DataFrame({"B": [ser[0], ser[1], pd.NaT, pd.NaT, pd.NaT]}) + tm.assert_frame_equal(res, exp) + + +def test_groupby_mean_duplicate_index(rand_series_with_duplicate_datetimeindex): + dups = rand_series_with_duplicate_datetimeindex + result = dups.groupby(level=0).mean() + expected = dups.groupby(dups.index).mean() + tm.assert_series_equal(result, expected) + + +def test_groupby_all_nan_groups_drop(): + # GH 15036 + s = Series([1, 2, 3], [np.nan, np.nan, np.nan]) + result = s.groupby(s.index).sum() + expected = Series([], index=Index([], dtype=np.float64), dtype=np.int64) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_groupby_empty_multi_column(as_index, numeric_only): + # GH 15106 & GH 41998 + df = DataFrame(data=[], columns=["A", "B", "C"]) + gb = df.groupby(["A", "B"], as_index=as_index) + result = gb.sum(numeric_only=numeric_only) + if as_index: + index = MultiIndex([[], []], [[], []], names=["A", "B"]) + columns = ["C"] if not numeric_only else Index([], dtype="str") + else: + index = RangeIndex(0) + columns = ["A", "B", "C"] if not numeric_only else ["A", "B"] + expected = DataFrame([], columns=columns, index=index) + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregation_non_numeric_dtype(): + # GH #43108 + df = DataFrame( + [["M", [1]], ["M", [1]], ["W", [10]], ["W", [20]]], columns=["MW", "v"] + ) + + expected = DataFrame( + { + "v": [[1, 1], [10, 20]], + }, + index=Index(["M", "W"], name="MW"), + ) + + gb = df.groupby(by=["MW"]) + result = gb.sum() + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregation_multi_non_numeric_dtype(): + # GH #42395 + df = DataFrame( + { + "x": [1, 0, 1, 1, 0], + "y": [Timedelta(i, "days") for i in range(1, 6)], + "z": [Timedelta(i * 10, "days") for i in range(1, 6)], + } + ) + + expected = DataFrame( + { + "y": [Timedelta(i, "days") for i in range(7, 9)], + "z": [Timedelta(i * 10, "days") for i in range(7, 9)], + }, + index=Index([0, 1], dtype="int64", name="x"), + ) + + gb = df.groupby(by=["x"]) + result = gb.sum() + tm.assert_frame_equal(result, expected) + + +def test_groupby_aggregation_numeric_with_non_numeric_dtype(): + # GH #43108 + df = DataFrame( + { + "x": [1, 0, 1, 1, 0], + "y": [Timedelta(i, "days") for i in range(1, 6)], + "z": list(range(1, 6)), + } + ) + + expected = DataFrame( + {"y": [Timedelta(7, "days"), Timedelta(8, "days")], "z": [7, 8]}, + index=Index([0, 1], dtype="int64", name="x"), + ) + + gb = df.groupby(by=["x"]) + result = gb.sum() + tm.assert_frame_equal(result, expected) + + +def test_groupby_filtered_df_std(): + # GH 16174 + dicts = [ + {"filter_col": False, "groupby_col": True, "bool_col": True, "float_col": 10.5}, + {"filter_col": True, "groupby_col": True, "bool_col": True, "float_col": 20.5}, + {"filter_col": True, "groupby_col": True, "bool_col": True, "float_col": 30.5}, + ] + df = DataFrame(dicts) + + df_filter = df[df["filter_col"] == True] # noqa: E712 + dfgb = df_filter.groupby("groupby_col") + result = dfgb.std() + expected = DataFrame( + [[0.0, 0.0, 7.071068]], + columns=["filter_col", "bool_col", "float_col"], + index=Index([True], name="groupby_col"), + ) + tm.assert_frame_equal(result, expected) + + +def test_datetime_categorical_multikey_groupby_indices(): + # GH 26859 + df = DataFrame( + { + "a": Series(list("abc")), + "b": Series( + to_datetime(["2018-01-01", "2018-02-01", "2018-03-01"]), + dtype="category", + ), + "c": Categorical.from_codes([-1, 0, 1], categories=[0, 1]), + } + ) + result = df.groupby(["a", "b"], observed=False).indices + expected = { + ("a", Timestamp("2018-01-01 00:00:00")): np.array([0]), + ("b", Timestamp("2018-02-01 00:00:00")): np.array([1]), + ("c", Timestamp("2018-03-01 00:00:00")): np.array([2]), + } + assert result == expected + + +def test_rolling_wrong_param_min_period(): + # GH34037 + name_l = ["Alice"] * 5 + ["Bob"] * 5 + val_l = [np.nan, np.nan, 1, 2, 3] + [np.nan, 1, 2, 3, 4] + test_df = DataFrame([name_l, val_l]).T + test_df.columns = ["name", "val"] + + result_error_msg = ( + r"^[a-zA-Z._]*\(\) got an unexpected keyword argument 'min_period'" + ) + with pytest.raises(TypeError, match=result_error_msg): + test_df.groupby("name")["val"].rolling(window=2, min_period=1).sum() + + +def test_by_column_values_with_same_starting_value(any_string_dtype): + # GH29635 + df = DataFrame( + { + "Name": ["Thomas", "Thomas", "Thomas John"], + "Credit": [1200, 1300, 900], + "Mood": Series(["sad", "happy", "happy"], dtype=any_string_dtype), + } + ) + aggregate_details = {"Mood": Series.mode, "Credit": "sum"} + + result = df.groupby(["Name"]).agg(aggregate_details) + expected_result = DataFrame( + { + "Mood": [["happy", "sad"], "happy"], + "Credit": [2500, 900], + "Name": ["Thomas", "Thomas John"], + } + ).set_index("Name") + + tm.assert_frame_equal(result, expected_result) + + +def test_groupby_none_in_first_mi_level(): + # GH#47348 + arr = [[None, 1, 0, 1], [2, 3, 2, 3]] + ser = Series(1, index=MultiIndex.from_arrays(arr, names=["a", "b"])) + result = ser.groupby(level=[0, 1]).sum() + expected = Series( + [1, 2], MultiIndex.from_tuples([(0.0, 2), (1.0, 3)], names=["a", "b"]) + ) + tm.assert_series_equal(result, expected) + + +def test_groupby_none_column_name(using_infer_string): + # GH#47348 + df = DataFrame({None: [1, 1, 2, 2], "b": [1, 1, 2, 3], "c": [4, 5, 6, 7]}) + by = [np.nan] if using_infer_string else [None] + gb = df.groupby(by=by) + result = gb.sum() + expected = DataFrame({"b": [2, 5], "c": [9, 13]}, index=Index([1, 2], name=by[0])) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("selection", [None, "a", ["a"]]) +def test_single_element_list_grouping(selection): + # GH#42795, GH#53500 + df = DataFrame({"a": [1, 2], "b": [np.nan, 5], "c": [np.nan, 2]}, index=["x", "y"]) + grouped = df.groupby(["a"]) if selection is None else df.groupby(["a"])[selection] + result = [key for key, _ in grouped] + + expected = [(1,), (2,)] + assert result == expected + + +def test_groupby_string_dtype(): + # GH 40148 + df = DataFrame({"str_col": ["a", "b", "c", "a"], "num_col": [1, 2, 3, 2]}) + df["str_col"] = df["str_col"].astype("string") + expected = DataFrame( + { + "str_col": [ + "a", + "b", + "c", + ], + "num_col": [1.5, 2.0, 3.0], + } + ) + expected["str_col"] = expected["str_col"].astype("string") + grouped = df.groupby("str_col", as_index=False) + result = grouped.mean() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "level_arg, multiindex", [([0], False), ((0,), False), ([0], True), ((0,), True)] +) +def test_single_element_listlike_level_grouping_deprecation(level_arg, multiindex): + # GH 51583 + df = DataFrame({"a": [1, 2], "b": [3, 4], "c": [5, 6]}, index=["x", "y"]) + if multiindex: + df = df.set_index(["a", "b"]) + depr_msg = ( + "Creating a Groupby object with a length-1 list-like " + "level parameter will yield indexes as tuples in a future version. " + "To keep indexes as scalars, create Groupby objects with " + "a scalar level parameter instead." + ) + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + [key for key, _ in df.groupby(level=level_arg)] + + +@pytest.mark.parametrize("func", ["sum", "cumsum", "cumprod", "prod"]) +def test_groupby_avoid_casting_to_float(func): + # GH#37493 + val = 922337203685477580 + df = DataFrame({"a": 1, "b": [val]}) + result = getattr(df.groupby("a"), func)() - val + expected = DataFrame({"b": [0]}, index=Index([1], name="a")) + if func in ["cumsum", "cumprod"]: + expected = expected.reset_index(drop=True) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func, val", [("sum", 3), ("prod", 2)]) +def test_groupby_sum_support_mask(any_numeric_ea_dtype, func, val): + # GH#37493 + df = DataFrame({"a": 1, "b": [1, 2, pd.NA]}, dtype=any_numeric_ea_dtype) + result = getattr(df.groupby("a"), func)() + expected = DataFrame( + {"b": [val]}, + index=Index([1], name="a", dtype=any_numeric_ea_dtype), + dtype=any_numeric_ea_dtype, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("val, dtype", [(111, "int"), (222, "uint")]) +def test_groupby_overflow(val, dtype): + # GH#37493 + df = DataFrame({"a": 1, "b": [val, val]}, dtype=f"{dtype}8") + result = df.groupby("a").sum() + expected = DataFrame( + {"b": [val * 2]}, + index=Index([1], name="a", dtype=f"{dtype}8"), + dtype=f"{dtype}64", + ) + tm.assert_frame_equal(result, expected) + + result = df.groupby("a").cumsum() + expected = DataFrame({"b": [val, val * 2]}, dtype=f"{dtype}64") + tm.assert_frame_equal(result, expected) + + result = df.groupby("a").prod() + expected = DataFrame( + {"b": [val * val]}, + index=Index([1], name="a", dtype=f"{dtype}8"), + dtype=f"{dtype}64", + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("skipna, val", [(True, 3), (False, pd.NA)]) +def test_groupby_cumsum_mask(any_numeric_ea_dtype, skipna, val): + # GH#37493 + df = DataFrame({"a": 1, "b": [1, pd.NA, 2]}, dtype=any_numeric_ea_dtype) + result = df.groupby("a").cumsum(skipna=skipna) + expected = DataFrame( + {"b": [1, pd.NA, val]}, + dtype=any_numeric_ea_dtype, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "val_in, index, val_out", + [ + ( + [1.0, 2.0, 3.0, 4.0, 5.0], + ["foo", "foo", "bar", "baz", "blah"], + [3.0, 4.0, 5.0, 3.0], + ), + ( + [1.0, 2.0, 3.0, 4.0, 5.0, 6.0], + ["foo", "foo", "bar", "baz", "blah", "blah"], + [3.0, 4.0, 11.0, 3.0], + ), + ], +) +def test_groupby_index_name_in_index_content(val_in, index, val_out): + # GH 48567 + series = Series(data=val_in, name="values", index=Index(index, name="blah")) + result = series.groupby("blah").sum() + expected = Series( + data=val_out, + name="values", + index=Index(["bar", "baz", "blah", "foo"], name="blah"), + ) + tm.assert_series_equal(result, expected) + + result = series.to_frame().groupby("blah").sum() + expected = expected.to_frame() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("n", [1, 10, 32, 100, 1000]) +def test_sum_of_booleans(n): + # GH 50347 + df = DataFrame({"groupby_col": 1, "bool": [True] * n}) + df["bool"] = df["bool"].eq(True) + result = df.groupby("groupby_col").sum() + expected = DataFrame({"bool": [n]}, index=Index([1], name="groupby_col")) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings( + "ignore:invalid value encountered in remainder:RuntimeWarning" +) +@pytest.mark.parametrize("method", ["head", "tail", "nth", "first", "last"]) +def test_groupby_method_drop_na(method): + # GH 21755 + df = DataFrame({"A": ["a", np.nan, "b", np.nan, "c"], "B": range(5)}) + + if method == "nth": + result = getattr(df.groupby("A"), method)(n=0) + else: + result = getattr(df.groupby("A"), method)() + + if method in ["first", "last"]: + expected = DataFrame({"B": [0, 2, 4]}).set_index( + Series(["a", "b", "c"], name="A") + ) + else: + expected = DataFrame({"A": ["a", "b", "c"], "B": [0, 2, 4]}, index=[0, 2, 4]) + tm.assert_frame_equal(result, expected) + + +def test_groupby_reduce_period(): + # GH#51040 + pi = pd.period_range("2016-01-01", periods=100, freq="D") + grps = list(range(10)) * 10 + ser = pi.to_series() + gb = ser.groupby(grps) + + with pytest.raises(TypeError, match="Period type does not support sum operations"): + gb.sum() + with pytest.raises( + TypeError, match="Period type does not support cumsum operations" + ): + gb.cumsum() + with pytest.raises(TypeError, match="Period type does not support prod operations"): + gb.prod() + with pytest.raises( + TypeError, match="Period type does not support cumprod operations" + ): + gb.cumprod() + + res = gb.max() + expected = ser[-10:] + expected.index = Index(range(10), dtype=int) + tm.assert_series_equal(res, expected) + + res = gb.min() + expected = ser[:10] + expected.index = Index(range(10), dtype=int) + tm.assert_series_equal(res, expected) + + +def test_obj_with_exclusions_duplicate_columns(): + # GH#50806 + df = DataFrame([[0, 1, 2, 3]]) + df.columns = [0, 1, 2, 0] + gb = df.groupby(df[1]) + result = gb._obj_with_exclusions + expected = df.take([0, 2, 3], axis=1) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_groupby_numeric_only_std_no_result(numeric_only): + # GH 51080 + dicts_non_numeric = [{"a": "foo", "b": "bar"}, {"a": "car", "b": "dar"}] + df = DataFrame(dicts_non_numeric, dtype=object) + dfgb = df.groupby("a", as_index=False, sort=False) + + if numeric_only: + result = dfgb.std(numeric_only=True) + expected_df = DataFrame(["foo", "car"], columns=["a"]) + tm.assert_frame_equal(result, expected_df) + else: + with pytest.raises( + ValueError, match="could not convert string to float: 'bar'" + ): + dfgb.std(numeric_only=numeric_only) + + +@pytest.mark.filterwarnings("ignore:invalid value encountered in cast:RuntimeWarning") +def test_grouping_with_categorical_interval_columns(): + # GH#34164 + df = DataFrame({"x": [0.1, 0.2, 0.3, -0.4, 0.5], "w": ["a", "b", "a", "c", "a"]}) + qq = pd.qcut(df["x"], q=np.linspace(0, 1, 5)) + result = df.groupby([qq, "w"], observed=False)["x"].agg("mean") + categorical_index_level_1 = Categorical( + [ + Interval(-0.401, 0.1, closed="right"), + Interval(0.1, 0.2, closed="right"), + Interval(0.2, 0.3, closed="right"), + Interval(0.3, 0.5, closed="right"), + ], + ordered=True, + ) + index_level_2 = ["a", "b", "c"] + mi = MultiIndex.from_product( + [categorical_index_level_1, index_level_2], names=["x", "w"] + ) + expected = Series( + np.array( + [ + 0.1, + np.nan, + -0.4, + np.nan, + 0.2, + np.nan, + 0.3, + np.nan, + np.nan, + 0.5, + np.nan, + np.nan, + ] + ), + index=mi, + name="x", + ) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("bug_var", [1, "a"]) +def test_groupby_sum_on_nan_should_return_nan(bug_var): + # GH 24196 + df = DataFrame({"A": [bug_var, bug_var, bug_var, np.nan]}) + if isinstance(bug_var, str): + df = df.astype(object) + dfgb = df.groupby(lambda x: x) + result = dfgb.sum(min_count=1) + + expected_df = DataFrame( + [bug_var, bug_var, bug_var, None], columns=["A"], dtype=df["A"].dtype + ) + tm.assert_frame_equal(result, expected_df) + + +@pytest.mark.parametrize( + "method", + [ + "count", + "corr", + "cummax", + "cummin", + "cumprod", + "describe", + "rank", + "quantile", + "diff", + "shift", + "all", + "any", + "idxmin", + "idxmax", + "ffill", + "bfill", + "pct_change", + ], +) +def test_groupby_selection_with_methods(df, method): + # some methods which require DatetimeIndex + rng = date_range("2014", periods=len(df)) + df.index = rng + + g = df.groupby(["A"])[["C"]] + g_exp = df[["C"]].groupby(df["A"]) + # TODO check groupby with > 1 col ? + + res = getattr(g, method)() + exp = getattr(g_exp, method)() + + # should always be frames! + tm.assert_frame_equal(res, exp) + + +def test_groupby_selection_other_methods(df): + # some methods which require DatetimeIndex + rng = date_range("2014", periods=len(df)) + df.columns.name = "foo" + df.index = rng + + g = df.groupby(["A"])[["C"]] + g_exp = df[["C"]].groupby(df["A"]) + + # methods which aren't just .foo() + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + tm.assert_frame_equal(g.fillna(0), g_exp.fillna(0)) + msg = "DataFrameGroupBy.dtypes is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + tm.assert_frame_equal(g.dtypes, g_exp.dtypes) + tm.assert_frame_equal(g.apply(lambda x: x.sum()), g_exp.apply(lambda x: x.sum())) + + tm.assert_frame_equal(g.resample("D").mean(), g_exp.resample("D").mean()) + tm.assert_frame_equal(g.resample("D").ohlc(), g_exp.resample("D").ohlc()) + + tm.assert_frame_equal( + g.filter(lambda x: len(x) == 3), g_exp.filter(lambda x: len(x) == 3) + ) + + +def test_groupby_with_Time_Grouper(unit): + idx2 = to_datetime( + [ + "2016-08-31 22:08:12.000", + "2016-08-31 22:09:12.200", + "2016-08-31 22:20:12.400", + ] + ).as_unit(unit) + + test_data = DataFrame( + {"quant": [1.0, 1.0, 3.0], "quant2": [1.0, 1.0, 3.0], "time2": idx2} + ) + + time2 = date_range("2016-08-31 22:08:00", periods=13, freq="1min", unit=unit) + expected_output = DataFrame( + { + "time2": time2, + "quant": [1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1], + "quant2": [1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1], + } + ) + + gb = test_data.groupby(Grouper(key="time2", freq="1min")) + result = gb.count().reset_index() + + tm.assert_frame_equal(result, expected_output) + + +def test_groupby_series_with_datetimeindex_month_name(): + # GH 48509 + s = Series([0, 1, 0], index=date_range("2022-01-01", periods=3), name="jan") + result = s.groupby(s).count() + expected = Series([2, 1], name="jan") + expected.index.name = "jan" + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("test_series", [True, False]) +@pytest.mark.parametrize( + "kwarg, value, name, warn", + [ + ("by", "a", 1, None), + ("by", ["a"], 1, FutureWarning), + ("by", ["a"], (1,), None), + ("level", 0, 1, None), + ("level", [0], 1, FutureWarning), + ("level", [0], (1,), None), + ], +) +def test_depr_get_group_len_1_list_likes(test_series, kwarg, value, name, warn): + # GH#25971 + obj = DataFrame({"b": [3, 4, 5]}, index=Index([1, 1, 2], name="a")) + if test_series: + obj = obj["b"] + gb = obj.groupby(**{kwarg: value}) + msg = "you will need to pass a length-1 tuple" + with tm.assert_produces_warning(warn, match=msg): + result = gb.get_group(name) + if test_series: + expected = Series([3, 4], index=Index([1, 1], name="a"), name="b") + else: + expected = DataFrame({"b": [3, 4]}, index=Index([1, 1], name="a")) + tm.assert_equal(result, expected) + + +def test_groupby_ngroup_with_nan(): + # GH#50100 + df = DataFrame({"a": Categorical([np.nan]), "b": [1]}) + result = df.groupby(["a", "b"], dropna=False, observed=False).ngroup() + expected = Series([0]) + tm.assert_series_equal(result, expected) + + +def test_get_group_axis_1(): + # GH#54858 + df = DataFrame( + { + "col1": [0, 3, 2, 3], + "col2": [4, 1, 6, 7], + "col3": [3, 8, 2, 10], + "col4": [1, 13, 6, 15], + "col5": [-4, 5, 6, -7], + } + ) + with tm.assert_produces_warning(FutureWarning, match="deprecated"): + grouped = df.groupby(axis=1, by=[1, 2, 3, 2, 1]) + result = grouped.get_group(1) + expected = DataFrame( + { + "col1": [0, 3, 2, 3], + "col5": [-4, 5, 6, -7], + } + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_ffill_with_duplicated_index(): + # GH#43412 + df = DataFrame({"a": [1, 2, 3, 4, np.nan, np.nan]}, index=[0, 1, 2, 0, 1, 2]) + + result = df.groupby(level=0).ffill() + expected = DataFrame({"a": [1, 2, 3, 4, 2, 3]}, index=[0, 1, 2, 0, 1, 2]) + tm.assert_frame_equal(result, expected, check_dtype=False) + + +@pytest.mark.parametrize("test_series", [True, False]) +def test_decimal_na_sort(test_series): + # GH#54847 + # We catch both TypeError and decimal.InvalidOperation exceptions in safe_sort. + # If this next assert raises, we can just catch TypeError + assert not isinstance(decimal.InvalidOperation, TypeError) + df = DataFrame( + { + "key": [Decimal(1), Decimal(1), None, None], + "value": [Decimal(2), Decimal(3), Decimal(4), Decimal(5)], + } + ) + gb = df.groupby("key", dropna=False) + if test_series: + gb = gb["value"] + result = gb._grouper.result_index + expected = Index([Decimal(1), None], name="key") + tm.assert_index_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_dropna.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_dropna.py new file mode 100644 index 0000000000000000000000000000000000000000..2a9b61aa7ebf5cb27890536a5105a79fb6cae096 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_dropna.py @@ -0,0 +1,696 @@ +import numpy as np +import pytest + +from pandas.compat.pyarrow import pa_version_under10p1 + +from pandas.core.dtypes.missing import na_value_for_dtype + +import pandas as pd +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +@pytest.mark.parametrize( + "dropna, tuples, outputs", + [ + ( + True, + [["A", "B"], ["B", "A"]], + {"c": [13.0, 123.23], "d": [13.0, 123.0], "e": [13.0, 1.0]}, + ), + ( + False, + [["A", "B"], ["A", np.nan], ["B", "A"]], + { + "c": [13.0, 12.3, 123.23], + "d": [13.0, 233.0, 123.0], + "e": [13.0, 12.0, 1.0], + }, + ), + ], +) +def test_groupby_dropna_multi_index_dataframe_nan_in_one_group( + dropna, tuples, outputs, nulls_fixture +): + # GH 3729 this is to test that NA is in one group + df_list = [ + ["A", "B", 12, 12, 12], + ["A", nulls_fixture, 12.3, 233.0, 12], + ["B", "A", 123.23, 123, 1], + ["A", "B", 1, 1, 1.0], + ] + df = pd.DataFrame(df_list, columns=["a", "b", "c", "d", "e"]) + grouped = df.groupby(["a", "b"], dropna=dropna).sum() + + mi = pd.MultiIndex.from_tuples(tuples, names=list("ab")) + + # Since right now, by default MI will drop NA from levels when we create MI + # via `from_*`, so we need to add NA for level manually afterwards. + if not dropna: + mi = mi.set_levels(["A", "B", np.nan], level="b") + expected = pd.DataFrame(outputs, index=mi) + + tm.assert_frame_equal(grouped, expected) + + +@pytest.mark.parametrize( + "dropna, tuples, outputs", + [ + ( + True, + [["A", "B"], ["B", "A"]], + {"c": [12.0, 123.23], "d": [12.0, 123.0], "e": [12.0, 1.0]}, + ), + ( + False, + [["A", "B"], ["A", np.nan], ["B", "A"], [np.nan, "B"]], + { + "c": [12.0, 13.3, 123.23, 1.0], + "d": [12.0, 234.0, 123.0, 1.0], + "e": [12.0, 13.0, 1.0, 1.0], + }, + ), + ], +) +def test_groupby_dropna_multi_index_dataframe_nan_in_two_groups( + dropna, tuples, outputs, nulls_fixture, nulls_fixture2 +): + # GH 3729 this is to test that NA in different groups with different representations + df_list = [ + ["A", "B", 12, 12, 12], + ["A", nulls_fixture, 12.3, 233.0, 12], + ["B", "A", 123.23, 123, 1], + [nulls_fixture2, "B", 1, 1, 1.0], + ["A", nulls_fixture2, 1, 1, 1.0], + ] + df = pd.DataFrame(df_list, columns=["a", "b", "c", "d", "e"]) + grouped = df.groupby(["a", "b"], dropna=dropna).sum() + + mi = pd.MultiIndex.from_tuples(tuples, names=list("ab")) + + # Since right now, by default MI will drop NA from levels when we create MI + # via `from_*`, so we need to add NA for level manually afterwards. + if not dropna: + mi = mi.set_levels([["A", "B", np.nan], ["A", "B", np.nan]]) + expected = pd.DataFrame(outputs, index=mi) + + tm.assert_frame_equal(grouped, expected) + + +@pytest.mark.parametrize( + "dropna, idx, outputs", + [ + (True, ["A", "B"], {"b": [123.23, 13.0], "c": [123.0, 13.0], "d": [1.0, 13.0]}), + ( + False, + ["A", "B", np.nan], + { + "b": [123.23, 13.0, 12.3], + "c": [123.0, 13.0, 233.0], + "d": [1.0, 13.0, 12.0], + }, + ), + ], +) +def test_groupby_dropna_normal_index_dataframe(dropna, idx, outputs): + # GH 3729 + df_list = [ + ["B", 12, 12, 12], + [None, 12.3, 233.0, 12], + ["A", 123.23, 123, 1], + ["B", 1, 1, 1.0], + ] + df = pd.DataFrame(df_list, columns=["a", "b", "c", "d"]) + grouped = df.groupby("a", dropna=dropna).sum() + + expected = pd.DataFrame(outputs, index=pd.Index(idx, name="a")) + + tm.assert_frame_equal(grouped, expected) + + +@pytest.mark.parametrize( + "dropna, idx, expected", + [ + (True, ["a", "a", "b", np.nan], pd.Series([3, 3], index=["a", "b"])), + ( + False, + ["a", "a", "b", np.nan], + pd.Series([3, 3, 3], index=["a", "b", np.nan]), + ), + ], +) +def test_groupby_dropna_series_level(dropna, idx, expected): + ser = pd.Series([1, 2, 3, 3], index=idx) + + result = ser.groupby(level=0, dropna=dropna).sum() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "dropna, expected", + [ + (True, pd.Series([210.0, 350.0], index=["a", "b"], name="Max Speed")), + ( + False, + pd.Series([210.0, 350.0, 20.0], index=["a", "b", np.nan], name="Max Speed"), + ), + ], +) +def test_groupby_dropna_series_by(dropna, expected): + ser = pd.Series( + [390.0, 350.0, 30.0, 20.0], + index=["Falcon", "Falcon", "Parrot", "Parrot"], + name="Max Speed", + ) + + result = ser.groupby(["a", "b", "a", np.nan], dropna=dropna).mean() + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("dropna", (False, True)) +def test_grouper_dropna_propagation(dropna): + # GH 36604 + df = pd.DataFrame({"A": [0, 0, 1, None], "B": [1, 2, 3, None]}) + gb = df.groupby("A", dropna=dropna) + assert gb._grouper.dropna == dropna + + +@pytest.mark.parametrize( + "index", + [ + pd.RangeIndex(0, 4), + list("abcd"), + pd.MultiIndex.from_product([(1, 2), ("R", "B")], names=["num", "col"]), + ], +) +def test_groupby_dataframe_slice_then_transform(dropna, index): + # GH35014 & GH35612 + expected_data = {"B": [2, 2, 1, np.nan if dropna else 1]} + + df = pd.DataFrame({"A": [0, 0, 1, None], "B": [1, 2, 3, None]}, index=index) + gb = df.groupby("A", dropna=dropna) + + result = gb.transform(len) + expected = pd.DataFrame(expected_data, index=index) + tm.assert_frame_equal(result, expected) + + result = gb[["B"]].transform(len) + expected = pd.DataFrame(expected_data, index=index) + tm.assert_frame_equal(result, expected) + + result = gb["B"].transform(len) + expected = pd.Series(expected_data["B"], index=index, name="B") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "dropna, tuples, outputs", + [ + ( + True, + [["A", "B"], ["B", "A"]], + {"c": [13.0, 123.23], "d": [12.0, 123.0], "e": [1.0, 1.0]}, + ), + ( + False, + [["A", "B"], ["A", np.nan], ["B", "A"]], + { + "c": [13.0, 12.3, 123.23], + "d": [12.0, 233.0, 123.0], + "e": [1.0, 12.0, 1.0], + }, + ), + ], +) +def test_groupby_dropna_multi_index_dataframe_agg(dropna, tuples, outputs): + # GH 3729 + df_list = [ + ["A", "B", 12, 12, 12], + ["A", None, 12.3, 233.0, 12], + ["B", "A", 123.23, 123, 1], + ["A", "B", 1, 1, 1.0], + ] + df = pd.DataFrame(df_list, columns=["a", "b", "c", "d", "e"]) + agg_dict = {"c": "sum", "d": "max", "e": "min"} + grouped = df.groupby(["a", "b"], dropna=dropna).agg(agg_dict) + + mi = pd.MultiIndex.from_tuples(tuples, names=list("ab")) + + # Since right now, by default MI will drop NA from levels when we create MI + # via `from_*`, so we need to add NA for level manually afterwards. + if not dropna: + mi = mi.set_levels(["A", "B", np.nan], level="b") + expected = pd.DataFrame(outputs, index=mi) + + tm.assert_frame_equal(grouped, expected) + + +@pytest.mark.arm_slow +@pytest.mark.parametrize( + "datetime1, datetime2", + [ + (pd.Timestamp("2020-01-01"), pd.Timestamp("2020-02-01")), + (pd.Timedelta("-2 days"), pd.Timedelta("-1 days")), + (pd.Period("2020-01-01"), pd.Period("2020-02-01")), + ], +) +@pytest.mark.parametrize("dropna, values", [(True, [12, 3]), (False, [12, 3, 6])]) +def test_groupby_dropna_datetime_like_data( + dropna, values, datetime1, datetime2, unique_nulls_fixture, unique_nulls_fixture2 +): + # 3729 + df = pd.DataFrame( + { + "values": [1, 2, 3, 4, 5, 6], + "dt": [ + datetime1, + unique_nulls_fixture, + datetime2, + unique_nulls_fixture2, + datetime1, + datetime1, + ], + } + ) + + if dropna: + indexes = [datetime1, datetime2] + else: + indexes = [datetime1, datetime2, np.nan] + + grouped = df.groupby("dt", dropna=dropna).agg({"values": "sum"}) + expected = pd.DataFrame({"values": values}, index=pd.Index(indexes, name="dt")) + + tm.assert_frame_equal(grouped, expected) + + +@pytest.mark.parametrize( + "dropna, data, selected_data, levels", + [ + pytest.param( + False, + {"groups": ["a", "a", "b", np.nan], "values": [10, 10, 20, 30]}, + {"values": [0, 1, 0, 0]}, + ["a", "b", np.nan], + id="dropna_false_has_nan", + ), + pytest.param( + True, + {"groups": ["a", "a", "b", np.nan], "values": [10, 10, 20, 30]}, + {"values": [0, 1, 0]}, + None, + id="dropna_true_has_nan", + ), + pytest.param( + # no nan in "groups"; dropna=True|False should be same. + False, + {"groups": ["a", "a", "b", "c"], "values": [10, 10, 20, 30]}, + {"values": [0, 1, 0, 0]}, + None, + id="dropna_false_no_nan", + ), + pytest.param( + # no nan in "groups"; dropna=True|False should be same. + True, + {"groups": ["a", "a", "b", "c"], "values": [10, 10, 20, 30]}, + {"values": [0, 1, 0, 0]}, + None, + id="dropna_true_no_nan", + ), + ], +) +def test_groupby_apply_with_dropna_for_multi_index(dropna, data, selected_data, levels): + # GH 35889 + + df = pd.DataFrame(data) + gb = df.groupby("groups", dropna=dropna) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.apply(lambda grp: pd.DataFrame({"values": range(len(grp))})) + + mi_tuples = tuple(zip(data["groups"], selected_data["values"])) + mi = pd.MultiIndex.from_tuples(mi_tuples, names=["groups", None]) + # Since right now, by default MI will drop NA from levels when we create MI + # via `from_*`, so we need to add NA for level manually afterwards. + if not dropna and levels: + mi = mi.set_levels(levels, level="groups") + + expected = pd.DataFrame(selected_data, index=mi) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("input_index", [None, ["a"], ["a", "b"]]) +@pytest.mark.parametrize("keys", [["a"], ["a", "b"]]) +@pytest.mark.parametrize("series", [True, False]) +def test_groupby_dropna_with_multiindex_input(input_index, keys, series): + # GH#46783 + obj = pd.DataFrame( + { + "a": [1, np.nan], + "b": [1, 1], + "c": [2, 3], + } + ) + + expected = obj.set_index(keys) + if series: + expected = expected["c"] + elif input_index == ["a", "b"] and keys == ["a"]: + # Column b should not be aggregated + expected = expected[["c"]] + + if input_index is not None: + obj = obj.set_index(input_index) + gb = obj.groupby(keys, dropna=False) + if series: + gb = gb["c"] + result = gb.sum() + + tm.assert_equal(result, expected) + + +def test_groupby_nan_included(): + # GH 35646 + data = {"group": ["g1", np.nan, "g1", "g2", np.nan], "B": [0, 1, 2, 3, 4]} + df = pd.DataFrame(data) + grouped = df.groupby("group", dropna=False) + result = grouped.indices + dtype = np.intp + expected = { + "g1": np.array([0, 2], dtype=dtype), + "g2": np.array([3], dtype=dtype), + np.nan: np.array([1, 4], dtype=dtype), + } + for result_values, expected_values in zip(result.values(), expected.values()): + tm.assert_numpy_array_equal(result_values, expected_values) + assert np.isnan(list(result.keys())[2]) + assert list(result.keys())[0:2] == ["g1", "g2"] + + +def test_groupby_drop_nan_with_multi_index(): + # GH 39895 + df = pd.DataFrame([[np.nan, 0, 1]], columns=["a", "b", "c"]) + df = df.set_index(["a", "b"]) + result = df.groupby(["a", "b"], dropna=False).first() + expected = df + tm.assert_frame_equal(result, expected) + + +# sequence_index enumerates all strings made up of x, y, z of length 4 +@pytest.mark.parametrize("sequence_index", range(3**4)) +@pytest.mark.parametrize( + "dtype", + [ + None, + "UInt8", + "Int8", + "UInt16", + "Int16", + "UInt32", + "Int32", + "UInt64", + "Int64", + "Float32", + "Int64", + "Float64", + "category", + "string", + pytest.param( + "string[pyarrow]", + marks=pytest.mark.skipif( + pa_version_under10p1, reason="pyarrow is not installed" + ), + ), + "datetime64[ns]", + "period[d]", + "Sparse[float]", + ], +) +@pytest.mark.parametrize("test_series", [True, False]) +def test_no_sort_keep_na(sequence_index, dtype, test_series, as_index): + # GH#46584, GH#48794 + + # Convert sequence_index into a string sequence, e.g. 5 becomes "xxyz" + # This sequence is used for the grouper. + sequence = "".join( + [{0: "x", 1: "y", 2: "z"}[sequence_index // (3**k) % 3] for k in range(4)] + ) + + # Unique values to use for grouper, depends on dtype + if dtype in ("string", "string[pyarrow]"): + uniques = {"x": "x", "y": "y", "z": pd.NA} + elif dtype in ("datetime64[ns]", "period[d]"): + uniques = {"x": "2016-01-01", "y": "2017-01-01", "z": pd.NA} + else: + uniques = {"x": 1, "y": 2, "z": np.nan} + + df = pd.DataFrame( + { + "key": pd.Series([uniques[label] for label in sequence], dtype=dtype), + "a": [0, 1, 2, 3], + } + ) + gb = df.groupby("key", dropna=False, sort=False, as_index=as_index, observed=False) + if test_series: + gb = gb["a"] + result = gb.sum() + + # Manually compute the groupby sum, use the labels "x", "y", and "z" to avoid + # issues with hashing np.nan + summed = {} + for idx, label in enumerate(sequence): + summed[label] = summed.get(label, 0) + idx + if dtype == "category": + index = pd.CategoricalIndex( + [uniques[e] for e in summed], + df["key"].cat.categories, + name="key", + ) + elif isinstance(dtype, str) and dtype.startswith("Sparse"): + index = pd.Index( + pd.array([uniques[label] for label in summed], dtype=dtype), name="key" + ) + else: + index = pd.Index([uniques[label] for label in summed], dtype=dtype, name="key") + expected = pd.Series(summed.values(), index=index, name="a", dtype=None) + if not test_series: + expected = expected.to_frame() + if not as_index: + expected = expected.reset_index() + if dtype is not None and dtype.startswith("Sparse"): + expected["key"] = expected["key"].astype(dtype) + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("test_series", [True, False]) +@pytest.mark.parametrize("dtype", [object, None]) +def test_null_is_null_for_dtype( + sort, dtype, nulls_fixture, nulls_fixture2, test_series +): + # GH#48506 - groups should always result in using the null for the dtype + df = pd.DataFrame({"a": [1, 2]}) + groups = pd.Series([nulls_fixture, nulls_fixture2], dtype=dtype) + obj = df["a"] if test_series else df + gb = obj.groupby(groups, dropna=False, sort=sort) + result = gb.sum() + index = pd.Index([na_value_for_dtype(groups.dtype)]) + expected = pd.DataFrame({"a": [3]}, index=index) + if test_series: + tm.assert_series_equal(result, expected["a"]) + else: + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("index_kind", ["range", "single", "multi"]) +def test_categorical_reducers(reduction_func, observed, sort, as_index, index_kind): + # Ensure there is at least one null value by appending to the end + values = np.append(np.random.default_rng(2).choice([1, 2, None], size=19), None) + df = pd.DataFrame( + {"x": pd.Categorical(values, categories=[1, 2, 3]), "y": range(20)} + ) + + # Strategy: Compare to dropna=True by filling null values with a new code + df_filled = df.copy() + df_filled["x"] = pd.Categorical(values, categories=[1, 2, 3, 4]).fillna(4) + + if index_kind == "range": + keys = ["x"] + elif index_kind == "single": + keys = ["x"] + df = df.set_index("x") + df_filled = df_filled.set_index("x") + else: + keys = ["x", "x2"] + df["x2"] = df["x"] + df = df.set_index(["x", "x2"]) + df_filled["x2"] = df_filled["x"] + df_filled = df_filled.set_index(["x", "x2"]) + args = get_groupby_method_args(reduction_func, df) + args_filled = get_groupby_method_args(reduction_func, df_filled) + if reduction_func == "corrwith" and index_kind == "range": + # Don't include the grouping columns so we can call reset_index + args = (args[0].drop(columns=keys),) + args_filled = (args_filled[0].drop(columns=keys),) + + gb_keepna = df.groupby( + keys, dropna=False, observed=observed, sort=sort, as_index=as_index + ) + + if not observed and reduction_func in ["idxmin", "idxmax"]: + with pytest.raises( + ValueError, match="empty group due to unobserved categories" + ): + getattr(gb_keepna, reduction_func)(*args) + return + + gb_filled = df_filled.groupby(keys, observed=observed, sort=sort, as_index=True) + expected = getattr(gb_filled, reduction_func)(*args_filled).reset_index() + expected["x"] = expected["x"].cat.remove_categories([4]) + if index_kind == "multi": + expected["x2"] = expected["x2"].cat.remove_categories([4]) + if as_index: + if index_kind == "multi": + expected = expected.set_index(["x", "x2"]) + else: + expected = expected.set_index("x") + elif index_kind != "range" and reduction_func != "size": + # size, unlike other methods, has the desired behavior in GH#49519 + expected = expected.drop(columns="x") + if index_kind == "multi": + expected = expected.drop(columns="x2") + if reduction_func in ("idxmax", "idxmin") and index_kind != "range": + # expected was computed with a RangeIndex; need to translate to index values + values = expected["y"].values.tolist() + if index_kind == "single": + values = [np.nan if e == 4 else e for e in values] + expected["y"] = pd.Categorical(values, categories=[1, 2, 3]) + else: + values = [(np.nan, np.nan) if e == (4, 4) else e for e in values] + expected["y"] = values + if reduction_func == "size": + # size, unlike other methods, has the desired behavior in GH#49519 + expected = expected.rename(columns={0: "size"}) + if as_index: + expected = expected["size"].rename(None) + + if as_index or index_kind == "range" or reduction_func == "size": + warn = None + else: + warn = FutureWarning + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(warn, match=msg): + result = getattr(gb_keepna, reduction_func)(*args) + + # size will return a Series, others are DataFrame + tm.assert_equal(result, expected) + + +def test_categorical_transformers( + request, transformation_func, observed, sort, as_index +): + # GH#36327 + if transformation_func == "fillna": + msg = "GH#49651 fillna may incorrectly reorders results when dropna=False" + request.applymarker(pytest.mark.xfail(reason=msg, strict=False)) + + values = np.append(np.random.default_rng(2).choice([1, 2, None], size=19), None) + df = pd.DataFrame( + {"x": pd.Categorical(values, categories=[1, 2, 3]), "y": range(20)} + ) + args = get_groupby_method_args(transformation_func, df) + + # Compute result for null group + null_group_values = df[df["x"].isnull()]["y"] + if transformation_func == "cumcount": + null_group_data = list(range(len(null_group_values))) + elif transformation_func == "ngroup": + if sort: + if observed: + na_group = df["x"].nunique(dropna=False) - 1 + else: + # TODO: Should this be 3? + na_group = df["x"].nunique(dropna=False) - 1 + else: + na_group = df.iloc[: null_group_values.index[0]]["x"].nunique() + null_group_data = len(null_group_values) * [na_group] + else: + null_group_data = getattr(null_group_values, transformation_func)(*args) + null_group_result = pd.DataFrame({"y": null_group_data}) + + gb_keepna = df.groupby( + "x", dropna=False, observed=observed, sort=sort, as_index=as_index + ) + gb_dropna = df.groupby("x", dropna=True, observed=observed, sort=sort) + + msg = "The default fill_method='ffill' in DataFrameGroupBy.pct_change is deprecated" + if transformation_func == "pct_change": + with tm.assert_produces_warning(FutureWarning, match=msg): + result = getattr(gb_keepna, "pct_change")(*args) + else: + result = getattr(gb_keepna, transformation_func)(*args) + expected = getattr(gb_dropna, transformation_func)(*args) + + for iloc, value in zip( + df[df["x"].isnull()].index.tolist(), null_group_result.values.ravel() + ): + if expected.ndim == 1: + expected.iloc[iloc] = value + else: + expected.iloc[iloc, 0] = value + if transformation_func == "ngroup": + expected[df["x"].notnull() & expected.ge(na_group)] += 1 + if transformation_func not in ("rank", "diff", "pct_change", "shift"): + expected = expected.astype("int64") + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("method", ["head", "tail"]) +def test_categorical_head_tail(method, observed, sort, as_index): + # GH#36327 + values = np.random.default_rng(2).choice([1, 2, None], 30) + df = pd.DataFrame( + {"x": pd.Categorical(values, categories=[1, 2, 3]), "y": range(len(values))} + ) + gb = df.groupby("x", dropna=False, observed=observed, sort=sort, as_index=as_index) + result = getattr(gb, method)() + + if method == "tail": + values = values[::-1] + # Take the top 5 values from each group + mask = ( + ((values == 1) & ((values == 1).cumsum() <= 5)) + | ((values == 2) & ((values == 2).cumsum() <= 5)) + # flake8 doesn't like the vectorized check for None, thinks we should use `is` + | ((values == None) & ((values == None).cumsum() <= 5)) # noqa: E711 + ) + if method == "tail": + mask = mask[::-1] + expected = df[mask] + + tm.assert_frame_equal(result, expected) + + +def test_categorical_agg(): + # GH#36327 + values = np.random.default_rng(2).choice([1, 2, None], 30) + df = pd.DataFrame( + {"x": pd.Categorical(values, categories=[1, 2, 3]), "y": range(len(values))} + ) + gb = df.groupby("x", dropna=False, observed=False) + result = gb.agg(lambda x: x.sum()) + expected = gb.sum() + tm.assert_frame_equal(result, expected) + + +def test_categorical_transform(): + # GH#36327 + values = np.random.default_rng(2).choice([1, 2, None], 30) + df = pd.DataFrame( + {"x": pd.Categorical(values, categories=[1, 2, 3]), "y": range(len(values))} + ) + gb = df.groupby("x", dropna=False, observed=False) + result = gb.transform(lambda x: x.sum()) + expected = gb.transform("sum") + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_subclass.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_subclass.py new file mode 100644 index 0000000000000000000000000000000000000000..b5523592c3c5c33772083de8970b1223ff482ea6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_groupby_subclass.py @@ -0,0 +1,135 @@ +from datetime import datetime + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + Series, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + +pytestmark = pytest.mark.filterwarnings( + "ignore:Passing a BlockManager|Passing a SingleBlockManager:DeprecationWarning" +) + + +@pytest.mark.parametrize( + "obj", + [ + tm.SubclassedDataFrame({"A": np.arange(0, 10)}), + tm.SubclassedSeries(np.arange(0, 10), name="A"), + ], +) +def test_groupby_preserves_subclass(obj, groupby_func): + # GH28330 -- preserve subclass through groupby operations + + if isinstance(obj, Series) and groupby_func in {"corrwith"}: + pytest.skip(f"Not applicable for Series and {groupby_func}") + + grouped = obj.groupby(np.arange(0, 10)) + + # Groups should preserve subclass type + assert isinstance(grouped.get_group(0), type(obj)) + + args = get_groupby_method_args(groupby_func, obj) + + warn = FutureWarning if groupby_func == "fillna" else None + msg = f"{type(grouped).__name__}.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg, raise_on_extra_warnings=False): + result1 = getattr(grouped, groupby_func)(*args) + with tm.assert_produces_warning(warn, match=msg, raise_on_extra_warnings=False): + result2 = grouped.agg(groupby_func, *args) + + # Reduction or transformation kernels should preserve type + slices = {"ngroup", "cumcount", "size"} + if isinstance(obj, DataFrame) and groupby_func in slices: + assert isinstance(result1, tm.SubclassedSeries) + else: + assert isinstance(result1, type(obj)) + + # Confirm .agg() groupby operations return same results + if isinstance(result1, DataFrame): + tm.assert_frame_equal(result1, result2) + else: + tm.assert_series_equal(result1, result2) + + +def test_groupby_preserves_metadata(): + # GH-37343 + custom_df = tm.SubclassedDataFrame({"a": [1, 2, 3], "b": [1, 1, 2], "c": [7, 8, 9]}) + assert "testattr" in custom_df._metadata + custom_df.testattr = "hello" + for _, group_df in custom_df.groupby("c"): + assert group_df.testattr == "hello" + + # GH-45314 + def func(group): + assert isinstance(group, tm.SubclassedDataFrame) + assert hasattr(group, "testattr") + assert group.testattr == "hello" + return group.testattr + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning( + FutureWarning, + match=msg, + raise_on_extra_warnings=False, + check_stacklevel=False, + ): + result = custom_df.groupby("c").apply(func) + expected = tm.SubclassedSeries(["hello"] * 3, index=Index([7, 8, 9], name="c")) + tm.assert_series_equal(result, expected) + + result = custom_df.groupby("c").apply(func, include_groups=False) + tm.assert_series_equal(result, expected) + + # https://github.com/pandas-dev/pandas/pull/56761 + result = custom_df.groupby("c")[["a", "b"]].apply(func) + tm.assert_series_equal(result, expected) + + def func2(group): + assert isinstance(group, tm.SubclassedSeries) + assert hasattr(group, "testattr") + return group.testattr + + custom_series = tm.SubclassedSeries([1, 2, 3]) + custom_series.testattr = "hello" + result = custom_series.groupby(custom_df["c"]).apply(func2) + tm.assert_series_equal(result, expected) + result = custom_series.groupby(custom_df["c"]).agg(func2) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("obj", [DataFrame, tm.SubclassedDataFrame]) +def test_groupby_resample_preserves_subclass(obj): + # GH28330 -- preserve subclass through groupby.resample() + + df = obj( + { + "Buyer": Series("Carl Carl Carl Carl Joe Carl".split(), dtype=object), + "Quantity": [18, 3, 5, 1, 9, 3], + "Date": [ + datetime(2013, 9, 1, 13, 0), + datetime(2013, 9, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 3, 10, 0), + datetime(2013, 12, 2, 12, 0), + datetime(2013, 9, 2, 14, 0), + ], + } + ) + df = df.set_index("Date") + + # Confirm groupby.resample() preserves dataframe type + msg = "DataFrameGroupBy.resample operated on the grouping columns" + with tm.assert_produces_warning( + FutureWarning, + match=msg, + raise_on_extra_warnings=False, + check_stacklevel=False, + ): + result = df.groupby("Buyer").resample("5D").sum() + assert isinstance(result, obj) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_grouping.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_grouping.py new file mode 100644 index 0000000000000000000000000000000000000000..9a0e67dea532bedac3a920f3c9bfa88e9d657f88 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_grouping.py @@ -0,0 +1,1238 @@ +""" +test where we are determining what we are grouping, or getting groups +""" +from datetime import ( + date, + timedelta, +) + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + CategoricalIndex, + DataFrame, + Grouper, + Index, + MultiIndex, + Series, + Timestamp, + date_range, + period_range, +) +import pandas._testing as tm +from pandas.core.groupby.grouper import Grouping + +# selection +# -------------------------------- + + +class TestSelection: + def test_select_bad_cols(self): + df = DataFrame([[1, 2]], columns=["A", "B"]) + g = df.groupby("A") + with pytest.raises(KeyError, match="\"Columns not found: 'C'\""): + g[["C"]] + + with pytest.raises(KeyError, match="^[^A]+$"): + # A should not be referenced as a bad column... + # will have to rethink regex if you change message! + g[["A", "C"]] + + def test_groupby_duplicated_column_errormsg(self): + # GH7511 + df = DataFrame( + columns=["A", "B", "A", "C"], data=[range(4), range(2, 6), range(0, 8, 2)] + ) + + msg = "Grouper for 'A' not 1-dimensional" + with pytest.raises(ValueError, match=msg): + df.groupby("A") + with pytest.raises(ValueError, match=msg): + df.groupby(["A", "B"]) + + grouped = df.groupby("B") + c = grouped.count() + assert c.columns.nlevels == 1 + assert c.columns.size == 3 + + def test_column_select_via_attr(self, df): + result = df.groupby("A").C.sum() + expected = df.groupby("A")["C"].sum() + tm.assert_series_equal(result, expected) + + df["mean"] = 1.5 + result = df.groupby("A").mean(numeric_only=True) + expected = df.groupby("A")[["C", "D", "mean"]].agg("mean") + tm.assert_frame_equal(result, expected) + + def test_getitem_list_of_columns(self): + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + "E": np.random.default_rng(2).standard_normal(8), + } + ) + + result = df.groupby("A")[["C", "D"]].mean() + result2 = df.groupby("A")[df.columns[2:4]].mean() + + expected = df.loc[:, ["A", "C", "D"]].groupby("A").mean() + + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + def test_getitem_numeric_column_names(self): + # GH #13731 + df = DataFrame( + { + 0: list("abcd") * 2, + 2: np.random.default_rng(2).standard_normal(8), + 4: np.random.default_rng(2).standard_normal(8), + 6: np.random.default_rng(2).standard_normal(8), + } + ) + result = df.groupby(0)[df.columns[1:3]].mean() + result2 = df.groupby(0)[[2, 4]].mean() + + expected = df.loc[:, [0, 2, 4]].groupby(0).mean() + + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + # per GH 23566 enforced deprecation raises a ValueError + with pytest.raises(ValueError, match="Cannot subset columns with a tuple"): + df.groupby(0)[2, 4].mean() + + def test_getitem_single_tuple_of_columns_raises(self, df): + # per GH 23566 enforced deprecation raises a ValueError + with pytest.raises(ValueError, match="Cannot subset columns with a tuple"): + df.groupby("A")["C", "D"].mean() + + def test_getitem_single_column(self): + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + "E": np.random.default_rng(2).standard_normal(8), + } + ) + + result = df.groupby("A")["C"].mean() + + as_frame = df.loc[:, ["A", "C"]].groupby("A").mean() + as_series = as_frame.iloc[:, 0] + expected = as_series + + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "func", [lambda x: x.sum(), lambda x: x.agg(lambda y: y.sum())] + ) + def test_getitem_from_grouper(self, func): + # GH 50383 + df = DataFrame({"a": [1, 1, 2], "b": 3, "c": 4, "d": 5}) + gb = df.groupby(["a", "b"])[["a", "c"]] + + idx = MultiIndex.from_tuples([(1, 3), (2, 3)], names=["a", "b"]) + expected = DataFrame({"a": [2, 2], "c": [8, 4]}, index=idx) + result = func(gb) + + tm.assert_frame_equal(result, expected) + + def test_indices_grouped_by_tuple_with_lambda(self): + # GH 36158 + df = DataFrame( + { + "Tuples": ( + (x, y) + for x in [0, 1] + for y in np.random.default_rng(2).integers(3, 5, 5) + ) + } + ) + + gb = df.groupby("Tuples") + gb_lambda = df.groupby(lambda x: df.iloc[x, 0]) + + expected = gb.indices + result = gb_lambda.indices + + tm.assert_dict_equal(result, expected) + + +# grouping +# -------------------------------- + + +class TestGrouping: + @pytest.mark.parametrize( + "index", + [ + Index(list("abcde")), + Index(np.arange(5)), + Index(np.arange(5, dtype=float)), + date_range("2020-01-01", periods=5), + period_range("2020-01-01", periods=5), + ], + ) + def test_grouper_index_types(self, index): + # related GH5375 + # groupby misbehaving when using a Floatlike index + df = DataFrame(np.arange(10).reshape(5, 2), columns=list("AB"), index=index) + + df.groupby(list("abcde"), group_keys=False).apply(lambda x: x) + + df.index = df.index[::-1] + df.groupby(list("abcde"), group_keys=False).apply(lambda x: x) + + def test_grouper_multilevel_freq(self): + # GH 7885 + # with level and freq specified in a Grouper + d0 = date.today() - timedelta(days=14) + dates = date_range(d0, date.today()) + date_index = MultiIndex.from_product([dates, dates], names=["foo", "bar"]) + df = DataFrame(np.random.default_rng(2).integers(0, 100, 225), index=date_index) + + # Check string level + expected = ( + df.reset_index() + .groupby([Grouper(key="foo", freq="W"), Grouper(key="bar", freq="W")]) + .sum() + ) + # reset index changes columns dtype to object + expected.columns = Index([0], dtype="int64") + + result = df.groupby( + [Grouper(level="foo", freq="W"), Grouper(level="bar", freq="W")] + ).sum() + tm.assert_frame_equal(result, expected) + + # Check integer level + result = df.groupby( + [Grouper(level=0, freq="W"), Grouper(level=1, freq="W")] + ).sum() + tm.assert_frame_equal(result, expected) + + def test_grouper_creation_bug(self): + # GH 8795 + df = DataFrame({"A": [0, 0, 1, 1, 2, 2], "B": [1, 2, 3, 4, 5, 6]}) + g = df.groupby("A") + expected = g.sum() + + g = df.groupby(Grouper(key="A")) + result = g.sum() + tm.assert_frame_equal(result, expected) + + msg = "Grouper axis keyword is deprecated and will be removed" + with tm.assert_produces_warning(FutureWarning, match=msg): + gpr = Grouper(key="A", axis=0) + g = df.groupby(gpr) + result = g.sum() + tm.assert_frame_equal(result, expected) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = g.apply(lambda x: x.sum()) + expected["A"] = [0, 2, 4] + expected = expected.loc[:, ["A", "B"]] + tm.assert_frame_equal(result, expected) + + def test_grouper_creation_bug2(self): + # GH14334 + # Grouper(key=...) may be passed in a list + df = DataFrame( + {"A": [0, 0, 0, 1, 1, 1], "B": [1, 1, 2, 2, 3, 3], "C": [1, 2, 3, 4, 5, 6]} + ) + # Group by single column + expected = df.groupby("A").sum() + g = df.groupby([Grouper(key="A")]) + result = g.sum() + tm.assert_frame_equal(result, expected) + + # Group by two columns + # using a combination of strings and Grouper objects + expected = df.groupby(["A", "B"]).sum() + + # Group with two Grouper objects + g = df.groupby([Grouper(key="A"), Grouper(key="B")]) + result = g.sum() + tm.assert_frame_equal(result, expected) + + # Group with a string and a Grouper object + g = df.groupby(["A", Grouper(key="B")]) + result = g.sum() + tm.assert_frame_equal(result, expected) + + # Group with a Grouper object and a string + g = df.groupby([Grouper(key="A"), "B"]) + result = g.sum() + tm.assert_frame_equal(result, expected) + + def test_grouper_creation_bug3(self, unit): + # GH8866 + dti = date_range("20130101", periods=2, unit=unit) + mi = MultiIndex.from_product( + [list("ab"), range(2), dti], + names=["one", "two", "three"], + ) + ser = Series( + np.arange(8, dtype="int64"), + index=mi, + ) + result = ser.groupby(Grouper(level="three", freq="ME")).sum() + exp_dti = pd.DatetimeIndex( + [Timestamp("2013-01-31")], freq="ME", name="three" + ).as_unit(unit) + expected = Series( + [28], + index=exp_dti, + ) + tm.assert_series_equal(result, expected) + + # just specifying a level breaks + result = ser.groupby(Grouper(level="one")).sum() + expected = ser.groupby(level="one").sum() + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("func", [False, True]) + def test_grouper_returning_tuples(self, func): + # GH 22257 , both with dict and with callable + df = DataFrame({"X": ["A", "B", "A", "B"], "Y": [1, 4, 3, 2]}) + mapping = dict(zip(range(4), [("C", 5), ("D", 6)] * 2)) + + if func: + gb = df.groupby(by=lambda idx: mapping[idx], sort=False) + else: + gb = df.groupby(by=mapping, sort=False) + + name, expected = next(iter(gb)) + assert name == ("C", 5) + result = gb.get_group(name) + + tm.assert_frame_equal(result, expected) + + def test_grouper_column_and_index(self): + # GH 14327 + + # Grouping a multi-index frame by a column and an index level should + # be equivalent to resetting the index and grouping by two columns + idx = MultiIndex.from_tuples( + [("a", 1), ("a", 2), ("a", 3), ("b", 1), ("b", 2), ("b", 3)] + ) + idx.names = ["outer", "inner"] + df_multi = DataFrame( + {"A": np.arange(6), "B": ["one", "one", "two", "two", "one", "one"]}, + index=idx, + ) + result = df_multi.groupby(["B", Grouper(level="inner")]).mean(numeric_only=True) + expected = ( + df_multi.reset_index().groupby(["B", "inner"]).mean(numeric_only=True) + ) + tm.assert_frame_equal(result, expected) + + # Test the reverse grouping order + result = df_multi.groupby([Grouper(level="inner"), "B"]).mean(numeric_only=True) + expected = ( + df_multi.reset_index().groupby(["inner", "B"]).mean(numeric_only=True) + ) + tm.assert_frame_equal(result, expected) + + # Grouping a single-index frame by a column and the index should + # be equivalent to resetting the index and grouping by two columns + df_single = df_multi.reset_index("outer") + result = df_single.groupby(["B", Grouper(level="inner")]).mean( + numeric_only=True + ) + expected = ( + df_single.reset_index().groupby(["B", "inner"]).mean(numeric_only=True) + ) + tm.assert_frame_equal(result, expected) + + # Test the reverse grouping order + result = df_single.groupby([Grouper(level="inner"), "B"]).mean( + numeric_only=True + ) + expected = ( + df_single.reset_index().groupby(["inner", "B"]).mean(numeric_only=True) + ) + tm.assert_frame_equal(result, expected) + + def test_groupby_levels_and_columns(self): + # GH9344, GH9049 + idx_names = ["x", "y"] + idx = MultiIndex.from_tuples([(1, 1), (1, 2), (3, 4), (5, 6)], names=idx_names) + df = DataFrame(np.arange(12).reshape(-1, 3), index=idx) + + by_levels = df.groupby(level=idx_names).mean() + # reset_index changes columns dtype to object + by_columns = df.reset_index().groupby(idx_names).mean() + + # without casting, by_columns.columns is object-dtype + by_columns.columns = by_columns.columns.astype(np.int64) + tm.assert_frame_equal(by_levels, by_columns) + + def test_groupby_categorical_index_and_columns(self, observed): + # GH18432, adapted for GH25871 + columns = ["A", "B", "A", "B"] + categories = ["B", "A"] + data = np.array( + [[1, 2, 1, 2], [1, 2, 1, 2], [1, 2, 1, 2], [1, 2, 1, 2], [1, 2, 1, 2]], int + ) + cat_columns = CategoricalIndex(columns, categories=categories, ordered=True) + df = DataFrame(data=data, columns=cat_columns) + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + result = df.groupby(axis=1, level=0, observed=observed).sum() + expected_data = np.array([[4, 2], [4, 2], [4, 2], [4, 2], [4, 2]], int) + expected_columns = CategoricalIndex( + categories, categories=categories, ordered=True + ) + expected = DataFrame(data=expected_data, columns=expected_columns) + tm.assert_frame_equal(result, expected) + + # test transposed version + df = DataFrame(data.T, index=cat_columns) + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(axis=0, level=0, observed=observed).sum() + expected = DataFrame(data=expected_data.T, index=expected_columns) + tm.assert_frame_equal(result, expected) + + def test_grouper_getting_correct_binner(self): + # GH 10063 + # using a non-time-based grouper and a time-based grouper + # and specifying levels + df = DataFrame( + {"A": 1}, + index=MultiIndex.from_product( + [list("ab"), date_range("20130101", periods=80)], names=["one", "two"] + ), + ) + result = df.groupby( + [Grouper(level="one"), Grouper(level="two", freq="ME")] + ).sum() + expected = DataFrame( + {"A": [31, 28, 21, 31, 28, 21]}, + index=MultiIndex.from_product( + [list("ab"), date_range("20130101", freq="ME", periods=3)], + names=["one", "two"], + ), + ) + tm.assert_frame_equal(result, expected) + + def test_grouper_iter(self, df): + gb = df.groupby("A") + msg = "DataFrameGroupBy.grouper is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouper = gb.grouper + result = sorted(grouper) + expected = ["bar", "foo"] + assert result == expected + + def test_empty_groups(self, df): + # see gh-1048 + with pytest.raises(ValueError, match="No group keys passed!"): + df.groupby([]) + + def test_groupby_grouper(self, df): + grouped = df.groupby("A") + msg = "DataFrameGroupBy.grouper is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouper = grouped.grouper + result = df.groupby(grouper).mean(numeric_only=True) + expected = grouped.mean(numeric_only=True) + tm.assert_frame_equal(result, expected) + + def test_groupby_dict_mapping(self): + # GH #679 + s = Series({"T1": 5}) + result = s.groupby({"T1": "T2"}).agg("sum") + expected = s.groupby(["T2"]).agg("sum") + tm.assert_series_equal(result, expected) + + s = Series([1.0, 2.0, 3.0, 4.0], index=list("abcd")) + mapping = {"a": 0, "b": 0, "c": 1, "d": 1} + + result = s.groupby(mapping).mean() + result2 = s.groupby(mapping).agg("mean") + exp_key = np.array([0, 0, 1, 1], dtype=np.int64) + expected = s.groupby(exp_key).mean() + expected2 = s.groupby(exp_key).mean() + tm.assert_series_equal(result, expected) + tm.assert_series_equal(result, result2) + tm.assert_series_equal(result, expected2) + + @pytest.mark.parametrize( + "index", + [ + [0, 1, 2, 3], + ["a", "b", "c", "d"], + [Timestamp(2021, 7, 28 + i) for i in range(4)], + ], + ) + def test_groupby_series_named_with_tuple(self, frame_or_series, index): + # GH 42731 + obj = frame_or_series([1, 2, 3, 4], index=index) + groups = Series([1, 0, 1, 0], index=index, name=("a", "a")) + result = obj.groupby(groups).last() + expected = frame_or_series([4, 3]) + expected.index.name = ("a", "a") + tm.assert_equal(result, expected) + + def test_groupby_grouper_f_sanity_checked(self): + dates = date_range("01-Jan-2013", periods=12, freq="MS") + ts = Series(np.random.default_rng(2).standard_normal(12), index=dates) + + # GH51979 + # simple check that the passed function doesn't operates on the whole index + msg = "'Timestamp' object is not subscriptable" + with pytest.raises(TypeError, match=msg): + ts.groupby(lambda key: key[0:6]) + + result = ts.groupby(lambda x: x).sum() + expected = ts.groupby(ts.index).sum() + expected.index.freq = None + tm.assert_series_equal(result, expected) + + def test_groupby_with_datetime_key(self): + # GH 51158 + df = DataFrame( + { + "id": ["a", "b"] * 3, + "b": date_range("2000-01-01", "2000-01-03", freq="9h"), + } + ) + grouper = Grouper(key="b", freq="D") + gb = df.groupby([grouper, "id"]) + + # test number of groups + expected = { + (Timestamp("2000-01-01"), "a"): [0, 2], + (Timestamp("2000-01-01"), "b"): [1], + (Timestamp("2000-01-02"), "a"): [4], + (Timestamp("2000-01-02"), "b"): [3, 5], + } + tm.assert_dict_equal(gb.groups, expected) + + # test number of group keys + assert len(gb.groups.keys()) == 4 + + def test_grouping_error_on_multidim_input(self, df): + msg = "Grouper for '' not 1-dimensional" + with pytest.raises(ValueError, match=msg): + Grouping(df.index, df[["A", "A"]]) + + def test_multiindex_passthru(self): + # GH 7997 + # regression from 0.14.1 + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) + df.columns = MultiIndex.from_tuples([(0, 1), (1, 1), (2, 1)]) + + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + gb = df.groupby(axis=1, level=[0, 1]) + result = gb.first() + tm.assert_frame_equal(result, df) + + def test_multiindex_negative_level(self, multiindex_dataframe_random_data): + # GH 13901 + result = multiindex_dataframe_random_data.groupby(level=-1).sum() + expected = multiindex_dataframe_random_data.groupby(level="second").sum() + tm.assert_frame_equal(result, expected) + + result = multiindex_dataframe_random_data.groupby(level=-2).sum() + expected = multiindex_dataframe_random_data.groupby(level="first").sum() + tm.assert_frame_equal(result, expected) + + result = multiindex_dataframe_random_data.groupby(level=[-2, -1]).sum() + expected = multiindex_dataframe_random_data.sort_index() + tm.assert_frame_equal(result, expected) + + result = multiindex_dataframe_random_data.groupby(level=[-1, "first"]).sum() + expected = multiindex_dataframe_random_data.groupby( + level=["second", "first"] + ).sum() + tm.assert_frame_equal(result, expected) + + def test_multifunc_select_col_integer_cols(self, df): + df.columns = np.arange(len(df.columns)) + + # it works! + msg = "Passing a dictionary to SeriesGroupBy.agg is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + df.groupby(1, as_index=False)[2].agg({"Q": np.mean}) + + def test_multiindex_columns_empty_level(self): + lst = [["count", "values"], ["to filter", ""]] + midx = MultiIndex.from_tuples(lst) + + df = DataFrame([[1, "A"]], columns=midx) + + grouped = df.groupby("to filter").groups + assert grouped["A"] == [0] + + grouped = df.groupby([("to filter", "")]).groups + assert grouped["A"] == [0] + + df = DataFrame([[1, "A"], [2, "B"]], columns=midx) + + expected = df.groupby("to filter").groups + result = df.groupby([("to filter", "")]).groups + assert result == expected + + df = DataFrame([[1, "A"], [2, "A"]], columns=midx) + + expected = df.groupby("to filter").groups + result = df.groupby([("to filter", "")]).groups + tm.assert_dict_equal(result, expected) + + def test_groupby_multiindex_tuple(self): + # GH 17979 + df = DataFrame( + [[1, 2, 3, 4], [3, 4, 5, 6], [1, 4, 2, 3]], + columns=MultiIndex.from_arrays([["a", "b", "b", "c"], [1, 1, 2, 2]]), + ) + expected = df.groupby([("b", 1)]).groups + result = df.groupby(("b", 1)).groups + tm.assert_dict_equal(expected, result) + + df2 = DataFrame( + df.values, + columns=MultiIndex.from_arrays( + [["a", "b", "b", "c"], ["d", "d", "e", "e"]] + ), + ) + expected = df2.groupby([("b", "d")]).groups + result = df.groupby(("b", 1)).groups + tm.assert_dict_equal(expected, result) + + df3 = DataFrame(df.values, columns=[("a", "d"), ("b", "d"), ("b", "e"), "c"]) + expected = df3.groupby([("b", "d")]).groups + result = df.groupby(("b", 1)).groups + tm.assert_dict_equal(expected, result) + + def test_groupby_multiindex_partial_indexing_equivalence(self): + # GH 17977 + df = DataFrame( + [[1, 2, 3, 4], [3, 4, 5, 6], [1, 4, 2, 3]], + columns=MultiIndex.from_arrays([["a", "b", "b", "c"], [1, 1, 2, 2]]), + ) + + expected_mean = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].mean() + result_mean = df.groupby([("a", 1)])["b"].mean() + tm.assert_frame_equal(expected_mean, result_mean) + + expected_sum = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].sum() + result_sum = df.groupby([("a", 1)])["b"].sum() + tm.assert_frame_equal(expected_sum, result_sum) + + expected_count = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].count() + result_count = df.groupby([("a", 1)])["b"].count() + tm.assert_frame_equal(expected_count, result_count) + + expected_min = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].min() + result_min = df.groupby([("a", 1)])["b"].min() + tm.assert_frame_equal(expected_min, result_min) + + expected_max = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].max() + result_max = df.groupby([("a", 1)])["b"].max() + tm.assert_frame_equal(expected_max, result_max) + + expected_groups = df.groupby([("a", 1)])[[("b", 1), ("b", 2)]].groups + result_groups = df.groupby([("a", 1)])["b"].groups + tm.assert_dict_equal(expected_groups, result_groups) + + @pytest.mark.parametrize("sort", [True, False]) + def test_groupby_level(self, sort, multiindex_dataframe_random_data, df): + # GH 17537 + frame = multiindex_dataframe_random_data + deleveled = frame.reset_index() + + result0 = frame.groupby(level=0, sort=sort).sum() + result1 = frame.groupby(level=1, sort=sort).sum() + + expected0 = frame.groupby(deleveled["first"].values, sort=sort).sum() + expected1 = frame.groupby(deleveled["second"].values, sort=sort).sum() + + expected0.index.name = "first" + expected1.index.name = "second" + + assert result0.index.name == "first" + assert result1.index.name == "second" + + tm.assert_frame_equal(result0, expected0) + tm.assert_frame_equal(result1, expected1) + assert result0.index.name == frame.index.names[0] + assert result1.index.name == frame.index.names[1] + + # groupby level name + result0 = frame.groupby(level="first", sort=sort).sum() + result1 = frame.groupby(level="second", sort=sort).sum() + tm.assert_frame_equal(result0, expected0) + tm.assert_frame_equal(result1, expected1) + + # axis=1 + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result0 = frame.T.groupby(level=0, axis=1, sort=sort).sum() + result1 = frame.T.groupby(level=1, axis=1, sort=sort).sum() + tm.assert_frame_equal(result0, expected0.T) + tm.assert_frame_equal(result1, expected1.T) + + # raise exception for non-MultiIndex + msg = "level > 0 or level < -1 only valid with MultiIndex" + with pytest.raises(ValueError, match=msg): + df.groupby(level=1) + + def test_groupby_level_index_names(self, axis): + # GH4014 this used to raise ValueError since 'exp'>1 (in py2) + df = DataFrame({"exp": ["A"] * 3 + ["B"] * 3, "var1": range(6)}).set_index( + "exp" + ) + if axis in (1, "columns"): + df = df.T + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + else: + depr_msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + df.groupby(level="exp", axis=axis) + msg = f"level name foo is not the name of the {df._get_axis_name(axis)}" + with pytest.raises(ValueError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + df.groupby(level="foo", axis=axis) + + @pytest.mark.parametrize("sort", [True, False]) + def test_groupby_level_with_nas(self, sort): + # GH 17537 + index = MultiIndex( + levels=[[1, 0], [0, 1, 2, 3]], + codes=[[1, 1, 1, 1, 0, 0, 0, 0], [0, 1, 2, 3, 0, 1, 2, 3]], + ) + + # factorizing doesn't confuse things + s = Series(np.arange(8.0), index=index) + result = s.groupby(level=0, sort=sort).sum() + expected = Series([6.0, 22.0], index=[0, 1]) + tm.assert_series_equal(result, expected) + + index = MultiIndex( + levels=[[1, 0], [0, 1, 2, 3]], + codes=[[1, 1, 1, 1, -1, 0, 0, 0], [0, 1, 2, 3, 0, 1, 2, 3]], + ) + + # factorizing doesn't confuse things + s = Series(np.arange(8.0), index=index) + result = s.groupby(level=0, sort=sort).sum() + expected = Series([6.0, 18.0], index=[0.0, 1.0]) + tm.assert_series_equal(result, expected) + + def test_groupby_args(self, multiindex_dataframe_random_data): + # PR8618 and issue 8015 + frame = multiindex_dataframe_random_data + + msg = "You have to supply one of 'by' and 'level'" + with pytest.raises(TypeError, match=msg): + frame.groupby() + + msg = "You have to supply one of 'by' and 'level'" + with pytest.raises(TypeError, match=msg): + frame.groupby(by=None, level=None) + + @pytest.mark.parametrize( + "sort,labels", + [ + [True, [2, 2, 2, 0, 0, 1, 1, 3, 3, 3]], + [False, [0, 0, 0, 1, 1, 2, 2, 3, 3, 3]], + ], + ) + def test_level_preserve_order(self, sort, labels, multiindex_dataframe_random_data): + # GH 17537 + grouped = multiindex_dataframe_random_data.groupby(level=0, sort=sort) + exp_labels = np.array(labels, np.intp) + tm.assert_almost_equal(grouped._grouper.codes[0], exp_labels) + + def test_grouping_labels(self, multiindex_dataframe_random_data): + grouped = multiindex_dataframe_random_data.groupby( + multiindex_dataframe_random_data.index.get_level_values(0) + ) + exp_labels = np.array([2, 2, 2, 0, 0, 1, 1, 3, 3, 3], dtype=np.intp) + tm.assert_almost_equal(grouped._grouper.codes[0], exp_labels) + + def test_list_grouper_with_nat(self): + # GH 14715 + df = DataFrame({"date": date_range("1/1/2011", periods=365, freq="D")}) + df.iloc[-1] = pd.NaT + grouper = Grouper(key="date", freq="YS") + + # Grouper in a list grouping + result = df.groupby([grouper]) + expected = {Timestamp("2011-01-01"): Index(list(range(364)))} + tm.assert_dict_equal(result.groups, expected) + + # Test case without a list + result = df.groupby(grouper) + expected = {Timestamp("2011-01-01"): 365} + tm.assert_dict_equal(result.groups, expected) + + @pytest.mark.parametrize( + "func,expected", + [ + ( + "transform", + Series(name=2, dtype=np.float64), + ), + ( + "agg", + Series( + name=2, dtype=np.float64, index=Index([], dtype=np.float64, name=1) + ), + ), + ( + "apply", + Series( + name=2, dtype=np.float64, index=Index([], dtype=np.float64, name=1) + ), + ), + ], + ) + def test_evaluate_with_empty_groups(self, func, expected): + # 26208 + # test transform'ing empty groups + # (not testing other agg fns, because they return + # different index objects. + df = DataFrame({1: [], 2: []}) + g = df.groupby(1, group_keys=False) + result = getattr(g[2], func)(lambda x: x) + tm.assert_series_equal(result, expected) + + def test_groupby_empty(self): + # https://github.com/pandas-dev/pandas/issues/27190 + s = Series([], name="name", dtype="float64") + gr = s.groupby([]) + + result = gr.mean() + expected = s.set_axis(Index([], dtype=np.intp)) + tm.assert_series_equal(result, expected) + + # check group properties + assert len(gr._grouper.groupings) == 1 + tm.assert_numpy_array_equal( + gr._grouper.group_info[0], np.array([], dtype=np.dtype(np.intp)) + ) + + tm.assert_numpy_array_equal( + gr._grouper.group_info[1], np.array([], dtype=np.dtype(np.intp)) + ) + + assert gr._grouper.group_info[2] == 0 + + # check name + gb = s.groupby(s) + msg = "SeriesGroupBy.grouper is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouper = gb.grouper + result = grouper.names + expected = ["name"] + assert result == expected + + def test_groupby_level_index_value_all_na(self): + # issue 20519 + df = DataFrame( + [["x", np.nan, 10], [None, np.nan, 20]], columns=["A", "B", "C"] + ).set_index(["A", "B"]) + result = df.groupby(level=["A", "B"]).sum() + expected = DataFrame( + data=[], + index=MultiIndex( + levels=[Index(["x"], dtype="str"), Index([], dtype="float64")], + codes=[[], []], + names=["A", "B"], + ), + columns=["C"], + dtype="int64", + ) + tm.assert_frame_equal(result, expected) + + def test_groupby_multiindex_level_empty(self): + # https://github.com/pandas-dev/pandas/issues/31670 + df = DataFrame( + [[123, "a", 1.0], [123, "b", 2.0]], columns=["id", "category", "value"] + ) + df = df.set_index(["id", "category"]) + empty = df[df.value < 0] + result = empty.groupby("id").sum() + expected = DataFrame( + dtype="float64", + columns=["value"], + index=Index([], dtype=np.int64, name="id"), + ) + tm.assert_frame_equal(result, expected) + + +# get_group +# -------------------------------- + + +class TestGetGroup: + def test_get_group(self): + # GH 5267 + # be datelike friendly + df = DataFrame( + { + "DATE": pd.to_datetime( + [ + "10-Oct-2013", + "10-Oct-2013", + "10-Oct-2013", + "11-Oct-2013", + "11-Oct-2013", + "11-Oct-2013", + ] + ), + "label": ["foo", "foo", "bar", "foo", "foo", "bar"], + "VAL": [1, 2, 3, 4, 5, 6], + } + ) + + g = df.groupby("DATE") + key = next(iter(g.groups)) + result1 = g.get_group(key) + result2 = g.get_group(Timestamp(key).to_pydatetime()) + result3 = g.get_group(str(Timestamp(key))) + tm.assert_frame_equal(result1, result2) + tm.assert_frame_equal(result1, result3) + + g = df.groupby(["DATE", "label"]) + + key = next(iter(g.groups)) + result1 = g.get_group(key) + result2 = g.get_group((Timestamp(key[0]).to_pydatetime(), key[1])) + result3 = g.get_group((str(Timestamp(key[0])), key[1])) + tm.assert_frame_equal(result1, result2) + tm.assert_frame_equal(result1, result3) + + # must pass a same-length tuple with multiple keys + msg = "must supply a tuple to get_group with multiple grouping keys" + with pytest.raises(ValueError, match=msg): + g.get_group("foo") + with pytest.raises(ValueError, match=msg): + g.get_group("foo") + msg = "must supply a same-length tuple to get_group with multiple grouping keys" + with pytest.raises(ValueError, match=msg): + g.get_group(("foo", "bar", "baz")) + + def test_get_group_empty_bins(self, observed): + d = DataFrame([3, 1, 7, 6]) + bins = [0, 5, 10, 15] + g = d.groupby(pd.cut(d[0], bins), observed=observed) + + # TODO: should prob allow a str of Interval work as well + # IOW '(0, 5]' + result = g.get_group(pd.Interval(0, 5)) + expected = DataFrame([3, 1], index=[0, 1]) + tm.assert_frame_equal(result, expected) + + msg = r"Interval\(10, 15, closed='right'\)" + with pytest.raises(KeyError, match=msg): + g.get_group(pd.Interval(10, 15)) + + def test_get_group_grouped_by_tuple(self): + # GH 8121 + df = DataFrame([[(1,), (1, 2), (1,), (1, 2)]], index=["ids"]).T + gr = df.groupby("ids") + expected = DataFrame({"ids": [(1,), (1,)]}, index=[0, 2]) + result = gr.get_group((1,)) + tm.assert_frame_equal(result, expected) + + dt = pd.to_datetime(["2010-01-01", "2010-01-02", "2010-01-01", "2010-01-02"]) + df = DataFrame({"ids": [(x,) for x in dt]}) + gr = df.groupby("ids") + result = gr.get_group(("2010-01-01",)) + expected = DataFrame({"ids": [(dt[0],), (dt[0],)]}, index=[0, 2]) + tm.assert_frame_equal(result, expected) + + def test_get_group_grouped_by_tuple_with_lambda(self): + # GH 36158 + df = DataFrame( + { + "Tuples": ( + (x, y) + for x in [0, 1] + for y in np.random.default_rng(2).integers(3, 5, 5) + ) + } + ) + + gb = df.groupby("Tuples") + gb_lambda = df.groupby(lambda x: df.iloc[x, 0]) + + expected = gb.get_group(next(iter(gb.groups.keys()))) + result = gb_lambda.get_group(next(iter(gb_lambda.groups.keys()))) + + tm.assert_frame_equal(result, expected) + + def test_groupby_with_empty(self): + index = pd.DatetimeIndex(()) + data = () + series = Series(data, index, dtype=object) + grouper = Grouper(freq="D") + grouped = series.groupby(grouper) + assert next(iter(grouped), None) is None + + def test_groupby_with_single_column(self): + df = DataFrame({"a": list("abssbab")}) + tm.assert_frame_equal(df.groupby("a").get_group("a"), df.iloc[[0, 5]]) + # GH 13530 + exp = DataFrame( + index=Index(["a", "b", "s"], name="a"), columns=Index([], dtype="str") + ) + tm.assert_frame_equal(df.groupby("a").count(), exp) + tm.assert_frame_equal(df.groupby("a").sum(), exp) + + exp = df.iloc[[3, 4, 5]] + tm.assert_frame_equal(df.groupby("a").nth(1), exp) + + def test_gb_key_len_equal_axis_len(self): + # GH16843 + # test ensures that index and column keys are recognized correctly + # when number of keys equals axis length of groupby + df = DataFrame( + [["foo", "bar", "B", 1], ["foo", "bar", "B", 2], ["foo", "baz", "C", 3]], + columns=["first", "second", "third", "one"], + ) + df = df.set_index(["first", "second"]) + df = df.groupby(["first", "second", "third"]).size() + assert df.loc[("foo", "bar", "B")] == 2 + assert df.loc[("foo", "baz", "C")] == 1 + + +# groups & iteration +# -------------------------------- + + +class TestIteration: + def test_groups(self, df): + grouped = df.groupby(["A"]) + groups = grouped.groups + assert groups is grouped.groups # caching works + + for k, v in grouped.groups.items(): + assert (df.loc[v]["A"] == k).all() + + grouped = df.groupby(["A", "B"]) + groups = grouped.groups + assert groups is grouped.groups # caching works + + for k, v in grouped.groups.items(): + assert (df.loc[v]["A"] == k[0]).all() + assert (df.loc[v]["B"] == k[1]).all() + + def test_grouping_is_iterable(self, tsframe): + # this code path isn't used anywhere else + # not sure it's useful + grouped = tsframe.groupby([lambda x: x.weekday(), lambda x: x.year]) + + # test it works + for g in grouped._grouper.groupings[0]: + pass + + def test_multi_iter(self): + s = Series(np.arange(6)) + k1 = np.array(["a", "a", "a", "b", "b", "b"]) + k2 = np.array(["1", "2", "1", "2", "1", "2"]) + + grouped = s.groupby([k1, k2]) + + iterated = list(grouped) + expected = [ + ("a", "1", s[[0, 2]]), + ("a", "2", s[[1]]), + ("b", "1", s[[4]]), + ("b", "2", s[[3, 5]]), + ] + for i, ((one, two), three) in enumerate(iterated): + e1, e2, e3 = expected[i] + assert e1 == one + assert e2 == two + tm.assert_series_equal(three, e3) + + def test_multi_iter_frame(self, three_group): + k1 = np.array(["b", "b", "b", "a", "a", "a"]) + k2 = np.array(["1", "2", "1", "2", "1", "2"]) + df = DataFrame( + { + "v1": np.random.default_rng(2).standard_normal(6), + "v2": np.random.default_rng(2).standard_normal(6), + "k1": k1, + "k2": k2, + }, + index=["one", "two", "three", "four", "five", "six"], + ) + + grouped = df.groupby(["k1", "k2"]) + + # things get sorted! + iterated = list(grouped) + idx = df.index + expected = [ + ("a", "1", df.loc[idx[[4]]]), + ("a", "2", df.loc[idx[[3, 5]]]), + ("b", "1", df.loc[idx[[0, 2]]]), + ("b", "2", df.loc[idx[[1]]]), + ] + for i, ((one, two), three) in enumerate(iterated): + e1, e2, e3 = expected[i] + assert e1 == one + assert e2 == two + tm.assert_frame_equal(three, e3) + + # don't iterate through groups with no data + df["k1"] = np.array(["b", "b", "b", "a", "a", "a"]) + df["k2"] = np.array(["1", "1", "1", "2", "2", "2"]) + grouped = df.groupby(["k1", "k2"]) + # calling `dict` on a DataFrameGroupBy leads to a TypeError, + # we need to use a dictionary comprehension here + # pylint: disable-next=unnecessary-comprehension + groups = {key: gp for key, gp in grouped} # noqa: C416 + assert len(groups) == 2 + + # axis = 1 + three_levels = three_group.groupby(["A", "B", "C"]).mean() + depr_msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + grouped = three_levels.T.groupby(axis=1, level=(1, 2)) + for key, group in grouped: + pass + + def test_dictify(self, df): + dict(iter(df.groupby("A"))) + dict(iter(df.groupby(["A", "B"]))) + dict(iter(df["C"].groupby(df["A"]))) + dict(iter(df["C"].groupby([df["A"], df["B"]]))) + dict(iter(df.groupby("A")["C"])) + dict(iter(df.groupby(["A", "B"])["C"])) + + def test_groupby_with_small_elem(self): + # GH 8542 + # length=2 + df = DataFrame( + {"event": ["start", "start"], "change": [1234, 5678]}, + index=pd.DatetimeIndex(["2014-09-10", "2013-10-10"]), + ) + grouped = df.groupby([Grouper(freq="ME"), "event"]) + assert len(grouped.groups) == 2 + assert grouped.ngroups == 2 + assert (Timestamp("2014-09-30"), "start") in grouped.groups + assert (Timestamp("2013-10-31"), "start") in grouped.groups + + res = grouped.get_group((Timestamp("2014-09-30"), "start")) + tm.assert_frame_equal(res, df.iloc[[0], :]) + res = grouped.get_group((Timestamp("2013-10-31"), "start")) + tm.assert_frame_equal(res, df.iloc[[1], :]) + + df = DataFrame( + {"event": ["start", "start", "start"], "change": [1234, 5678, 9123]}, + index=pd.DatetimeIndex(["2014-09-10", "2013-10-10", "2014-09-15"]), + ) + grouped = df.groupby([Grouper(freq="ME"), "event"]) + assert len(grouped.groups) == 2 + assert grouped.ngroups == 2 + assert (Timestamp("2014-09-30"), "start") in grouped.groups + assert (Timestamp("2013-10-31"), "start") in grouped.groups + + res = grouped.get_group((Timestamp("2014-09-30"), "start")) + tm.assert_frame_equal(res, df.iloc[[0, 2], :]) + res = grouped.get_group((Timestamp("2013-10-31"), "start")) + tm.assert_frame_equal(res, df.iloc[[1], :]) + + # length=3 + df = DataFrame( + {"event": ["start", "start", "start"], "change": [1234, 5678, 9123]}, + index=pd.DatetimeIndex(["2014-09-10", "2013-10-10", "2014-08-05"]), + ) + grouped = df.groupby([Grouper(freq="ME"), "event"]) + assert len(grouped.groups) == 3 + assert grouped.ngroups == 3 + assert (Timestamp("2014-09-30"), "start") in grouped.groups + assert (Timestamp("2013-10-31"), "start") in grouped.groups + assert (Timestamp("2014-08-31"), "start") in grouped.groups + + res = grouped.get_group((Timestamp("2014-09-30"), "start")) + tm.assert_frame_equal(res, df.iloc[[0], :]) + res = grouped.get_group((Timestamp("2013-10-31"), "start")) + tm.assert_frame_equal(res, df.iloc[[1], :]) + res = grouped.get_group((Timestamp("2014-08-31"), "start")) + tm.assert_frame_equal(res, df.iloc[[2], :]) + + def test_grouping_string_repr(self): + # GH 13394 + mi = MultiIndex.from_arrays([list("AAB"), list("aba")]) + df = DataFrame([[1, 2, 3]], columns=mi) + gr = df.groupby(df[("A", "a")]) + + result = gr._grouper.groupings[0].__repr__() + expected = "Grouping(('A', 'a'))" + assert result == expected + + +def test_grouping_by_key_is_in_axis(): + # GH#50413 - Groupers specified by key are in-axis + df = DataFrame({"a": [1, 1, 2], "b": [1, 1, 2], "c": [3, 4, 5]}).set_index("a") + gb = df.groupby([Grouper(level="a"), Grouper(key="b")], as_index=False) + assert not gb._grouper.groupings[0].in_axis + assert gb._grouper.groupings[1].in_axis + + # Currently only in-axis groupings are including in the result when as_index=False; + # This is likely to change in the future. + msg = "A grouping .* was excluded from the result" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.sum() + expected = DataFrame({"b": [1, 2], "c": [7, 5]}) + tm.assert_frame_equal(result, expected) + + +def test_grouper_groups(): + # GH#51182 check Grouper.groups does not raise AttributeError + df = DataFrame({"a": [1, 2, 3], "b": 1}) + grper = Grouper(key="a") + gb = df.groupby(grper) + + msg = "Use GroupBy.groups instead" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = grper.groups + assert res is gb.groups + + msg = "Use GroupBy.grouper instead" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = grper.grouper + assert res is gb._grouper + + msg = "Grouper.obj is deprecated and will be removed" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = grper.obj + assert res is gb.obj + + msg = "Use Resampler.ax instead" + with tm.assert_produces_warning(FutureWarning, match=msg): + grper.ax + + msg = "Grouper.indexer is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grper.indexer + + +@pytest.mark.parametrize("attr", ["group_index", "result_index", "group_arraylike"]) +def test_depr_grouping_attrs(attr): + # GH#56148 + df = DataFrame({"a": [1, 1, 2], "b": [3, 4, 5]}) + gb = df.groupby("a") + msg = f"{attr} is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + getattr(gb._grouper.groupings[0], attr) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_index_as_string.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_index_as_string.py new file mode 100644 index 0000000000000000000000000000000000000000..4aaf3de9a23b2416603947db312bb49eea343ba8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_index_as_string.py @@ -0,0 +1,85 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +@pytest.fixture(params=[["inner"], ["inner", "outer"]]) +def frame(request): + levels = request.param + df = pd.DataFrame( + { + "outer": ["a", "a", "a", "b", "b", "b"], + "inner": [1, 2, 3, 1, 2, 3], + "A": np.arange(6), + "B": ["one", "one", "two", "two", "one", "one"], + } + ) + if levels: + df = df.set_index(levels) + + return df + + +@pytest.fixture() +def series(): + df = pd.DataFrame( + { + "outer": ["a", "a", "a", "b", "b", "b"], + "inner": [1, 2, 3, 1, 2, 3], + "A": np.arange(6), + "B": ["one", "one", "two", "two", "one", "one"], + } + ) + s = df.set_index(["outer", "inner", "B"])["A"] + + return s + + +@pytest.mark.parametrize( + "key_strs,groupers", + [ + ("inner", pd.Grouper(level="inner")), # Index name + (["inner"], [pd.Grouper(level="inner")]), # List of index name + (["B", "inner"], ["B", pd.Grouper(level="inner")]), # Column and index + (["inner", "B"], [pd.Grouper(level="inner"), "B"]), # Index and column + ], +) +def test_grouper_index_level_as_string(frame, key_strs, groupers): + if "B" not in key_strs or "outer" in frame.columns: + result = frame.groupby(key_strs).mean(numeric_only=True) + expected = frame.groupby(groupers).mean(numeric_only=True) + else: + result = frame.groupby(key_strs).mean() + expected = frame.groupby(groupers).mean() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "levels", + [ + "inner", + "outer", + "B", + ["inner"], + ["outer"], + ["B"], + ["inner", "outer"], + ["outer", "inner"], + ["inner", "outer", "B"], + ["B", "outer", "inner"], + ], +) +def test_grouper_index_level_as_string_series(series, levels): + # Compute expected result + if isinstance(levels, list): + groupers = [pd.Grouper(level=lv) for lv in levels] + else: + groupers = pd.Grouper(level=levels) + + expected = series.groupby(groupers).mean() + + # Compute and check result + result = series.groupby(levels).mean() + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..664c52babac1381f77f2e2ee7266a9d41031f15e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_indexing.py @@ -0,0 +1,333 @@ +# Test GroupBy._positional_selector positional grouped indexing GH#42864 + +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm + + +@pytest.mark.parametrize( + "arg, expected_rows", + [ + [0, [0, 1, 4]], + [2, [5]], + [5, []], + [-1, [3, 4, 7]], + [-2, [1, 6]], + [-6, []], + ], +) +def test_int(slice_test_df, slice_test_grouped, arg, expected_rows): + # Test single integer + result = slice_test_grouped._positional_selector[arg] + expected = slice_test_df.iloc[expected_rows] + + tm.assert_frame_equal(result, expected) + + +def test_slice(slice_test_df, slice_test_grouped): + # Test single slice + result = slice_test_grouped._positional_selector[0:3:2] + expected = slice_test_df.iloc[[0, 1, 4, 5]] + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "arg, expected_rows", + [ + [[0, 2], [0, 1, 4, 5]], + [[0, 2, -1], [0, 1, 3, 4, 5, 7]], + [range(0, 3, 2), [0, 1, 4, 5]], + [{0, 2}, [0, 1, 4, 5]], + ], + ids=[ + "list", + "negative", + "range", + "set", + ], +) +def test_list(slice_test_df, slice_test_grouped, arg, expected_rows): + # Test lists of integers and integer valued iterables + result = slice_test_grouped._positional_selector[arg] + expected = slice_test_df.iloc[expected_rows] + + tm.assert_frame_equal(result, expected) + + +def test_ints(slice_test_df, slice_test_grouped): + # Test tuple of ints + result = slice_test_grouped._positional_selector[0, 2, -1] + expected = slice_test_df.iloc[[0, 1, 3, 4, 5, 7]] + + tm.assert_frame_equal(result, expected) + + +def test_slices(slice_test_df, slice_test_grouped): + # Test tuple of slices + result = slice_test_grouped._positional_selector[:2, -2:] + expected = slice_test_df.iloc[[0, 1, 2, 3, 4, 6, 7]] + + tm.assert_frame_equal(result, expected) + + +def test_mix(slice_test_df, slice_test_grouped): + # Test mixed tuple of ints and slices + result = slice_test_grouped._positional_selector[0, 1, -2:] + expected = slice_test_df.iloc[[0, 1, 2, 3, 4, 6, 7]] + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "arg, expected_rows", + [ + [0, [0, 1, 4]], + [[0, 2, -1], [0, 1, 3, 4, 5, 7]], + [(slice(None, 2), slice(-2, None)), [0, 1, 2, 3, 4, 6, 7]], + ], +) +def test_as_index(slice_test_df, arg, expected_rows): + # Test the default as_index behaviour + result = slice_test_df.groupby("Group", sort=False)._positional_selector[arg] + expected = slice_test_df.iloc[expected_rows] + + tm.assert_frame_equal(result, expected) + + +def test_doc_examples(): + # Test the examples in the documentation + df = pd.DataFrame( + [["a", 1], ["a", 2], ["a", 3], ["b", 4], ["b", 5]], columns=["A", "B"] + ) + + grouped = df.groupby("A", as_index=False) + + result = grouped._positional_selector[1:2] + expected = pd.DataFrame([["a", 2], ["b", 5]], columns=["A", "B"], index=[1, 4]) + + tm.assert_frame_equal(result, expected) + + result = grouped._positional_selector[1, -1] + expected = pd.DataFrame( + [["a", 2], ["a", 3], ["b", 5]], columns=["A", "B"], index=[1, 2, 4] + ) + + tm.assert_frame_equal(result, expected) + + +@pytest.fixture() +def multiindex_data(): + rng = np.random.default_rng(2) + ndates = 100 + nitems = 20 + dates = pd.date_range("20130101", periods=ndates, freq="D") + items = [f"item {i}" for i in range(nitems)] + + data = {} + for date in dates: + nitems_for_date = nitems - rng.integers(0, 12) + levels = [ + (item, rng.integers(0, 10000) / 100, rng.integers(0, 10000) / 100) + for item in items[:nitems_for_date] + ] + levels.sort(key=lambda x: x[1]) + data[date] = levels + + return data + + +def _make_df_from_data(data): + rows = {} + for date in data: + for level in data[date]: + rows[(date, level[0])] = {"A": level[1], "B": level[2]} + + df = pd.DataFrame.from_dict(rows, orient="index") + df.index.names = ("Date", "Item") + return df + + +def test_multiindex(multiindex_data): + # Test the multiindex mentioned as the use-case in the documentation + df = _make_df_from_data(multiindex_data) + result = df.groupby("Date", as_index=False).nth(slice(3, -3)) + + sliced = {date: multiindex_data[date][3:-3] for date in multiindex_data} + expected = _make_df_from_data(sliced) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("arg", [1, 5, 30, 1000, -1, -5, -30, -1000]) +@pytest.mark.parametrize("method", ["head", "tail"]) +@pytest.mark.parametrize("simulated", [True, False]) +def test_against_head_and_tail(arg, method, simulated): + # Test gives the same results as grouped head and tail + n_groups = 100 + n_rows_per_group = 30 + + data = { + "group": [ + f"group {g}" for j in range(n_rows_per_group) for g in range(n_groups) + ], + "value": [ + f"group {g} row {j}" + for j in range(n_rows_per_group) + for g in range(n_groups) + ], + } + df = pd.DataFrame(data) + grouped = df.groupby("group", as_index=False) + size = arg if arg >= 0 else n_rows_per_group + arg + + if method == "head": + result = grouped._positional_selector[:arg] + + if simulated: + indices = [ + j * n_groups + i + for j in range(size) + for i in range(n_groups) + if j * n_groups + i < n_groups * n_rows_per_group + ] + expected = df.iloc[indices] + + else: + expected = grouped.head(arg) + + else: + result = grouped._positional_selector[-arg:] + + if simulated: + indices = [ + (n_rows_per_group + j - size) * n_groups + i + for j in range(size) + for i in range(n_groups) + if (n_rows_per_group + j - size) * n_groups + i >= 0 + ] + expected = df.iloc[indices] + + else: + expected = grouped.tail(arg) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("start", [None, 0, 1, 10, -1, -10]) +@pytest.mark.parametrize("stop", [None, 0, 1, 10, -1, -10]) +@pytest.mark.parametrize("step", [None, 1, 5]) +def test_against_df_iloc(start, stop, step): + # Test that a single group gives the same results as DataFrame.iloc + n_rows = 30 + + data = { + "group": ["group 0"] * n_rows, + "value": list(range(n_rows)), + } + df = pd.DataFrame(data) + grouped = df.groupby("group", as_index=False) + + result = grouped._positional_selector[start:stop:step] + expected = df.iloc[start:stop:step] + + tm.assert_frame_equal(result, expected) + + +def test_series(): + # Test grouped Series + ser = pd.Series([1, 2, 3, 4, 5], index=["a", "a", "a", "b", "b"]) + grouped = ser.groupby(level=0) + result = grouped._positional_selector[1:2] + expected = pd.Series([2, 5], index=["a", "b"]) + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("step", [1, 2, 3, 4, 5]) +def test_step(step): + # Test slice with various step values + data = [["x", f"x{i}"] for i in range(5)] + data += [["y", f"y{i}"] for i in range(4)] + data += [["z", f"z{i}"] for i in range(3)] + df = pd.DataFrame(data, columns=["A", "B"]) + + grouped = df.groupby("A", as_index=False) + + result = grouped._positional_selector[::step] + + data = [["x", f"x{i}"] for i in range(0, 5, step)] + data += [["y", f"y{i}"] for i in range(0, 4, step)] + data += [["z", f"z{i}"] for i in range(0, 3, step)] + + index = [0 + i for i in range(0, 5, step)] + index += [5 + i for i in range(0, 4, step)] + index += [9 + i for i in range(0, 3, step)] + + expected = pd.DataFrame(data, columns=["A", "B"], index=index) + + tm.assert_frame_equal(result, expected) + + +@pytest.fixture() +def column_group_df(): + return pd.DataFrame( + [[0, 1, 2, 3, 4, 5, 6], [0, 0, 1, 0, 1, 0, 2]], + columns=["A", "B", "C", "D", "E", "F", "G"], + ) + + +def test_column_axis(column_group_df): + msg = "DataFrame.groupby with axis=1" + with tm.assert_produces_warning(FutureWarning, match=msg): + g = column_group_df.groupby(column_group_df.iloc[1], axis=1) + result = g._positional_selector[1:-1] + expected = column_group_df.iloc[:, [1, 3]] + + tm.assert_frame_equal(result, expected) + + +def test_columns_on_iter(): + # GitHub issue #44821 + df = pd.DataFrame({k: range(10) for k in "ABC"}) + + # Group-by and select columns + cols = ["A", "B"] + for _, dg in df.groupby(df.A < 4)[cols]: + tm.assert_index_equal(dg.columns, pd.Index(cols)) + assert "C" not in dg.columns + + +@pytest.mark.parametrize("func", [list, pd.Index, pd.Series, np.array]) +def test_groupby_duplicated_columns(func): + # GH#44924 + df = pd.DataFrame( + { + "A": [1, 2], + "B": [3, 3], + "C": ["G", "G"], + } + ) + result = df.groupby("C")[func(["A", "B", "A"])].mean() + expected = pd.DataFrame( + [[1.5, 3.0, 1.5]], columns=["A", "B", "A"], index=pd.Index(["G"], name="C") + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_get_nonexisting_groups(): + # GH#32492 + df = pd.DataFrame( + data={ + "A": ["a1", "a2", None], + "B": ["b1", "b2", "b1"], + "val": [1, 2, 3], + } + ) + grps = df.groupby(by=["A", "B"]) + + msg = "('a2', 'b1')" + with pytest.raises(KeyError, match=msg): + grps.get_group(("a2", "b1")) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_libgroupby.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_libgroupby.py new file mode 100644 index 0000000000000000000000000000000000000000..35b8fa93b8e033b8dd9287bc7de8e1ca18ade439 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_libgroupby.py @@ -0,0 +1,331 @@ +import numpy as np +import pytest + +from pandas._libs import groupby as libgroupby +from pandas._libs.groupby import ( + group_cumprod, + group_cumsum, + group_mean, + group_sum, + group_var, +) + +from pandas.core.dtypes.common import ensure_platform_int + +from pandas import isna +import pandas._testing as tm + + +class GroupVarTestMixin: + def test_group_var_generic_1d(self): + prng = np.random.default_rng(2) + + out = (np.nan * np.ones((5, 1))).astype(self.dtype) + counts = np.zeros(5, dtype="int64") + values = 10 * prng.random((15, 1)).astype(self.dtype) + labels = np.tile(np.arange(5), (3,)).astype("intp") + + expected_out = ( + np.squeeze(values).reshape((5, 3), order="F").std(axis=1, ddof=1) ** 2 + )[:, np.newaxis] + expected_counts = counts + 3 + + self.algo(out, counts, values, labels) + assert np.allclose(out, expected_out, self.rtol) + tm.assert_numpy_array_equal(counts, expected_counts) + + def test_group_var_generic_1d_flat_labels(self): + prng = np.random.default_rng(2) + + out = (np.nan * np.ones((1, 1))).astype(self.dtype) + counts = np.zeros(1, dtype="int64") + values = 10 * prng.random((5, 1)).astype(self.dtype) + labels = np.zeros(5, dtype="intp") + + expected_out = np.array([[values.std(ddof=1) ** 2]]) + expected_counts = counts + 5 + + self.algo(out, counts, values, labels) + + assert np.allclose(out, expected_out, self.rtol) + tm.assert_numpy_array_equal(counts, expected_counts) + + def test_group_var_generic_2d_all_finite(self): + prng = np.random.default_rng(2) + + out = (np.nan * np.ones((5, 2))).astype(self.dtype) + counts = np.zeros(5, dtype="int64") + values = 10 * prng.random((10, 2)).astype(self.dtype) + labels = np.tile(np.arange(5), (2,)).astype("intp") + + expected_out = np.std(values.reshape(2, 5, 2), ddof=1, axis=0) ** 2 + expected_counts = counts + 2 + + self.algo(out, counts, values, labels) + assert np.allclose(out, expected_out, self.rtol) + tm.assert_numpy_array_equal(counts, expected_counts) + + def test_group_var_generic_2d_some_nan(self): + prng = np.random.default_rng(2) + + out = (np.nan * np.ones((5, 2))).astype(self.dtype) + counts = np.zeros(5, dtype="int64") + values = 10 * prng.random((10, 2)).astype(self.dtype) + values[:, 1] = np.nan + labels = np.tile(np.arange(5), (2,)).astype("intp") + + expected_out = np.vstack( + [ + values[:, 0].reshape(5, 2, order="F").std(ddof=1, axis=1) ** 2, + np.nan * np.ones(5), + ] + ).T.astype(self.dtype) + expected_counts = counts + 2 + + self.algo(out, counts, values, labels) + tm.assert_almost_equal(out, expected_out, rtol=0.5e-06) + tm.assert_numpy_array_equal(counts, expected_counts) + + def test_group_var_constant(self): + # Regression test from GH 10448. + + out = np.array([[np.nan]], dtype=self.dtype) + counts = np.array([0], dtype="int64") + values = 0.832845131556193 * np.ones((3, 1), dtype=self.dtype) + labels = np.zeros(3, dtype="intp") + + self.algo(out, counts, values, labels) + + assert counts[0] == 3 + assert out[0, 0] >= 0 + tm.assert_almost_equal(out[0, 0], 0.0) + + +class TestGroupVarFloat64(GroupVarTestMixin): + __test__ = True + + algo = staticmethod(group_var) + dtype = np.float64 + rtol = 1e-5 + + def test_group_var_large_inputs(self): + prng = np.random.default_rng(2) + + out = np.array([[np.nan]], dtype=self.dtype) + counts = np.array([0], dtype="int64") + values = (prng.random(10**6) + 10**12).astype(self.dtype) + values.shape = (10**6, 1) + labels = np.zeros(10**6, dtype="intp") + + self.algo(out, counts, values, labels) + + assert counts[0] == 10**6 + tm.assert_almost_equal(out[0, 0], 1.0 / 12, rtol=0.5e-3) + + +class TestGroupVarFloat32(GroupVarTestMixin): + __test__ = True + + algo = staticmethod(group_var) + dtype = np.float32 + rtol = 1e-2 + + +@pytest.mark.parametrize("dtype", ["float32", "float64"]) +def test_group_ohlc(dtype): + obj = np.array(np.random.default_rng(2).standard_normal(20), dtype=dtype) + + bins = np.array([6, 12, 20]) + out = np.zeros((3, 4), dtype) + counts = np.zeros(len(out), dtype=np.int64) + labels = ensure_platform_int(np.repeat(np.arange(3), np.diff(np.r_[0, bins]))) + + func = libgroupby.group_ohlc + func(out, counts, obj[:, None], labels) + + def _ohlc(group): + if isna(group).all(): + return np.repeat(np.nan, 4) + return [group[0], group.max(), group.min(), group[-1]] + + expected = np.array([_ohlc(obj[:6]), _ohlc(obj[6:12]), _ohlc(obj[12:])]) + + tm.assert_almost_equal(out, expected) + tm.assert_numpy_array_equal(counts, np.array([6, 6, 8], dtype=np.int64)) + + obj[:6] = np.nan + func(out, counts, obj[:, None], labels) + expected[0] = np.nan + tm.assert_almost_equal(out, expected) + + +def _check_cython_group_transform_cumulative(pd_op, np_op, dtype): + """ + Check a group transform that executes a cumulative function. + + Parameters + ---------- + pd_op : callable + The pandas cumulative function. + np_op : callable + The analogous one in NumPy. + dtype : type + The specified dtype of the data. + """ + is_datetimelike = False + + data = np.array([[1], [2], [3], [4]], dtype=dtype) + answer = np.zeros_like(data) + + labels = np.array([0, 0, 0, 0], dtype=np.intp) + ngroups = 1 + pd_op(answer, data, labels, ngroups, is_datetimelike) + + tm.assert_numpy_array_equal(np_op(data), answer[:, 0], check_dtype=False) + + +@pytest.mark.parametrize("np_dtype", ["int64", "uint64", "float32", "float64"]) +def test_cython_group_transform_cumsum(np_dtype): + # see gh-4095 + dtype = np.dtype(np_dtype).type + pd_op, np_op = group_cumsum, np.cumsum + _check_cython_group_transform_cumulative(pd_op, np_op, dtype) + + +def test_cython_group_transform_cumprod(): + # see gh-4095 + dtype = np.float64 + pd_op, np_op = group_cumprod, np.cumprod + _check_cython_group_transform_cumulative(pd_op, np_op, dtype) + + +def test_cython_group_transform_algos(): + # see gh-4095 + is_datetimelike = False + + # with nans + labels = np.array([0, 0, 0, 0, 0], dtype=np.intp) + ngroups = 1 + + data = np.array([[1], [2], [3], [np.nan], [4]], dtype="float64") + actual = np.zeros_like(data) + actual.fill(np.nan) + group_cumprod(actual, data, labels, ngroups, is_datetimelike) + expected = np.array([1, 2, 6, np.nan, 24], dtype="float64") + tm.assert_numpy_array_equal(actual[:, 0], expected) + + actual = np.zeros_like(data) + actual.fill(np.nan) + group_cumsum(actual, data, labels, ngroups, is_datetimelike) + expected = np.array([1, 3, 6, np.nan, 10], dtype="float64") + tm.assert_numpy_array_equal(actual[:, 0], expected) + + # timedelta + is_datetimelike = True + data = np.array([np.timedelta64(1, "ns")] * 5, dtype="m8[ns]")[:, None] + actual = np.zeros_like(data, dtype="int64") + group_cumsum(actual, data.view("int64"), labels, ngroups, is_datetimelike) + expected = np.array( + [ + np.timedelta64(1, "ns"), + np.timedelta64(2, "ns"), + np.timedelta64(3, "ns"), + np.timedelta64(4, "ns"), + np.timedelta64(5, "ns"), + ] + ) + tm.assert_numpy_array_equal(actual[:, 0].view("m8[ns]"), expected) + + +def test_cython_group_mean_datetimelike(): + actual = np.zeros(shape=(1, 1), dtype="float64") + counts = np.array([0], dtype="int64") + data = ( + np.array( + [np.timedelta64(2, "ns"), np.timedelta64(4, "ns"), np.timedelta64("NaT")], + dtype="m8[ns]", + )[:, None] + .view("int64") + .astype("float64") + ) + labels = np.zeros(len(data), dtype=np.intp) + + group_mean(actual, counts, data, labels, is_datetimelike=True) + + tm.assert_numpy_array_equal(actual[:, 0], np.array([3], dtype="float64")) + + +def test_cython_group_mean_wrong_min_count(): + actual = np.zeros(shape=(1, 1), dtype="float64") + counts = np.zeros(1, dtype="int64") + data = np.zeros(1, dtype="float64")[:, None] + labels = np.zeros(1, dtype=np.intp) + + with pytest.raises(AssertionError, match="min_count"): + group_mean(actual, counts, data, labels, is_datetimelike=True, min_count=0) + + +def test_cython_group_mean_not_datetimelike_but_has_NaT_values(): + actual = np.zeros(shape=(1, 1), dtype="float64") + counts = np.array([0], dtype="int64") + data = ( + np.array( + [np.timedelta64("NaT"), np.timedelta64("NaT")], + dtype="m8[ns]", + )[:, None] + .view("int64") + .astype("float64") + ) + labels = np.zeros(len(data), dtype=np.intp) + + group_mean(actual, counts, data, labels, is_datetimelike=False) + + tm.assert_numpy_array_equal( + actual[:, 0], np.array(np.divide(np.add(data[0], data[1]), 2), dtype="float64") + ) + + +def test_cython_group_mean_Inf_at_begining_and_end(): + # GH 50367 + actual = np.array([[np.nan, np.nan], [np.nan, np.nan]], dtype="float64") + counts = np.array([0, 0], dtype="int64") + data = np.array( + [[np.inf, 1.0], [1.0, 2.0], [2.0, 3.0], [3.0, 4.0], [4.0, 5.0], [5, np.inf]], + dtype="float64", + ) + labels = np.array([0, 1, 0, 1, 0, 1], dtype=np.intp) + + group_mean(actual, counts, data, labels, is_datetimelike=False) + + expected = np.array([[np.inf, 3], [3, np.inf]], dtype="float64") + + tm.assert_numpy_array_equal( + actual, + expected, + ) + + +@pytest.mark.parametrize( + "values, out", + [ + ([[np.inf], [np.inf], [np.inf]], [[np.inf], [np.inf]]), + ([[np.inf], [np.inf], [-np.inf]], [[np.inf], [np.nan]]), + ([[np.inf], [-np.inf], [np.inf]], [[np.inf], [np.nan]]), + ([[np.inf], [-np.inf], [-np.inf]], [[np.inf], [-np.inf]]), + ], +) +def test_cython_group_sum_Inf_at_begining_and_end(values, out): + # GH #53606 + actual = np.array([[np.nan], [np.nan]], dtype="float64") + counts = np.array([0, 0], dtype="int64") + data = np.array(values, dtype="float64") + labels = np.array([0, 1, 1], dtype=np.intp) + + group_sum(actual, counts, data, labels, None, is_datetimelike=False) + + expected = np.array(out, dtype="float64") + + tm.assert_numpy_array_equal( + actual, + expected, + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_missing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_missing.py new file mode 100644 index 0000000000000000000000000000000000000000..3180a92be1236688e044758bf2334a0985e7aee1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_missing.py @@ -0,0 +1,163 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + date_range, +) +import pandas._testing as tm + + +@pytest.mark.parametrize("func", ["ffill", "bfill"]) +def test_groupby_column_index_name_lost_fill_funcs(func): + # GH: 29764 groupby loses index sometimes + df = DataFrame( + [[1, 1.0, -1.0], [1, np.nan, np.nan], [1, 2.0, -2.0]], + columns=Index(["type", "a", "b"], name="idx"), + ) + df_grouped = df.groupby(["type"])[["a", "b"]] + result = getattr(df_grouped, func)().columns + expected = Index(["a", "b"], name="idx") + tm.assert_index_equal(result, expected) + + +@pytest.mark.parametrize("func", ["ffill", "bfill"]) +def test_groupby_fill_duplicate_column_names(func): + # GH: 25610 ValueError with duplicate column names + df1 = DataFrame({"field1": [1, 3, 4], "field2": [1, 3, 4]}) + df2 = DataFrame({"field1": [1, np.nan, 4]}) + df_grouped = pd.concat([df1, df2], axis=1).groupby(by=["field2"]) + expected = DataFrame( + [[1, 1.0], [3, np.nan], [4, 4.0]], columns=["field1", "field1"] + ) + result = getattr(df_grouped, func)() + tm.assert_frame_equal(result, expected) + + +def test_ffill_missing_arguments(): + # GH 14955 + df = DataFrame({"a": [1, 2], "b": [1, 1]}) + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pytest.raises(ValueError, match="Must specify a fill"): + df.groupby("b").fillna() + + +@pytest.mark.parametrize( + "method, expected", [("ffill", [None, "a", "a"]), ("bfill", ["a", "a", None])] +) +def test_fillna_with_string_dtype(method, expected): + # GH 40250 + df = DataFrame({"a": pd.array([None, "a", None], dtype="string"), "b": [0, 0, 0]}) + grp = df.groupby("b") + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grp.fillna(method=method) + expected = DataFrame({"a": pd.array(expected, dtype="string")}) + tm.assert_frame_equal(result, expected) + + +def test_fill_consistency(): + # GH9221 + # pass thru keyword arguments to the generated wrapper + # are set if the passed kw is None (only) + df = DataFrame( + index=pd.MultiIndex.from_product( + [["value1", "value2"], date_range("2014-01-01", "2014-01-06")] + ), + columns=Index(["1", "2"], name="id"), + ) + df["1"] = [ + np.nan, + 1, + np.nan, + np.nan, + 11, + np.nan, + np.nan, + 2, + np.nan, + np.nan, + 22, + np.nan, + ] + df["2"] = [ + np.nan, + 3, + np.nan, + np.nan, + 33, + np.nan, + np.nan, + 4, + np.nan, + np.nan, + 44, + np.nan, + ] + + msg = "The 'axis' keyword in DataFrame.groupby is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby(level=0, axis=0).fillna(method="ffill") + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.T.groupby(level=0, axis=1).fillna(method="ffill").T + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("method", ["ffill", "bfill"]) +@pytest.mark.parametrize("dropna", [True, False]) +@pytest.mark.parametrize("has_nan_group", [True, False]) +def test_ffill_handles_nan_groups(dropna, method, has_nan_group): + # GH 34725 + + df_without_nan_rows = DataFrame([(1, 0.1), (2, 0.2)]) + + ridx = [-1, 0, -1, -1, 1, -1] + df = df_without_nan_rows.reindex(ridx).reset_index(drop=True) + + group_b = np.nan if has_nan_group else "b" + df["group_col"] = pd.Series(["a"] * 3 + [group_b] * 3) + + grouped = df.groupby(by="group_col", dropna=dropna) + result = getattr(grouped, method)(limit=None) + + expected_rows = { + ("ffill", True, True): [-1, 0, 0, -1, -1, -1], + ("ffill", True, False): [-1, 0, 0, -1, 1, 1], + ("ffill", False, True): [-1, 0, 0, -1, 1, 1], + ("ffill", False, False): [-1, 0, 0, -1, 1, 1], + ("bfill", True, True): [0, 0, -1, -1, -1, -1], + ("bfill", True, False): [0, 0, -1, 1, 1, -1], + ("bfill", False, True): [0, 0, -1, 1, 1, -1], + ("bfill", False, False): [0, 0, -1, 1, 1, -1], + } + + ridx = expected_rows.get((method, dropna, has_nan_group)) + expected = df_without_nan_rows.reindex(ridx).reset_index(drop=True) + # columns are a 'take' on df.columns, which are object dtype + expected.columns = expected.columns.astype(object) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("min_count, value", [(2, np.nan), (-1, 1.0)]) +@pytest.mark.parametrize("func", ["first", "last", "max", "min"]) +def test_min_count(func, min_count, value): + # GH#37821 + df = DataFrame({"a": [1] * 3, "b": [1, np.nan, np.nan], "c": [np.nan] * 3}) + result = getattr(df.groupby("a"), func)(min_count=min_count) + expected = DataFrame({"b": [value], "c": [np.nan]}, index=Index([1], name="a")) + tm.assert_frame_equal(result, expected) + + +def test_indices_with_missing(): + # GH 9304 + df = DataFrame({"a": [1, 1, np.nan], "b": [2, 3, 4], "c": [5, 6, 7]}) + g = df.groupby(["a", "b"]) + result = g.indices + expected = {(1.0, 2): np.array([0]), (1.0, 3): np.array([1])} + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numba.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numba.py new file mode 100644 index 0000000000000000000000000000000000000000..f2c138c86a046a27c93e402d4864d1351275c317 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numba.py @@ -0,0 +1,89 @@ +import pytest + +from pandas.compat import is_platform_arm + +from pandas import ( + DataFrame, + Series, + option_context, +) +import pandas._testing as tm +from pandas.util.version import Version + +pytestmark = [pytest.mark.single_cpu] + +numba = pytest.importorskip("numba") +pytestmark.append( + pytest.mark.skipif( + Version(numba.__version__) == Version("0.61") and is_platform_arm(), + reason=f"Segfaults on ARM platforms with numba {numba.__version__}", + ) +) + + +@pytest.mark.filterwarnings("ignore") +# Filter warnings when parallel=True and the function can't be parallelized by Numba +class TestEngine: + def test_cython_vs_numba_frame( + self, sort, nogil, parallel, nopython, numba_supported_reductions + ): + func, kwargs = numba_supported_reductions + df = DataFrame({"a": [3, 2, 3, 2], "b": range(4), "c": range(1, 5)}) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + gb = df.groupby("a", sort=sort) + result = getattr(gb, func)( + engine="numba", engine_kwargs=engine_kwargs, **kwargs + ) + expected = getattr(gb, func)(**kwargs) + tm.assert_frame_equal(result, expected) + + def test_cython_vs_numba_getitem( + self, sort, nogil, parallel, nopython, numba_supported_reductions + ): + func, kwargs = numba_supported_reductions + df = DataFrame({"a": [3, 2, 3, 2], "b": range(4), "c": range(1, 5)}) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + gb = df.groupby("a", sort=sort)["c"] + result = getattr(gb, func)( + engine="numba", engine_kwargs=engine_kwargs, **kwargs + ) + expected = getattr(gb, func)(**kwargs) + tm.assert_series_equal(result, expected) + + def test_cython_vs_numba_series( + self, sort, nogil, parallel, nopython, numba_supported_reductions + ): + func, kwargs = numba_supported_reductions + ser = Series(range(3), index=[1, 2, 1], name="foo") + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + gb = ser.groupby(level=0, sort=sort) + result = getattr(gb, func)( + engine="numba", engine_kwargs=engine_kwargs, **kwargs + ) + expected = getattr(gb, func)(**kwargs) + tm.assert_series_equal(result, expected) + + def test_as_index_false_unsupported(self, numba_supported_reductions): + func, kwargs = numba_supported_reductions + df = DataFrame({"a": [3, 2, 3, 2], "b": range(4), "c": range(1, 5)}) + gb = df.groupby("a", as_index=False) + with pytest.raises(NotImplementedError, match="as_index=False"): + getattr(gb, func)(engine="numba", **kwargs) + + def test_axis_1_unsupported(self, numba_supported_reductions): + func, kwargs = numba_supported_reductions + df = DataFrame({"a": [3, 2, 3, 2], "b": range(4), "c": range(1, 5)}) + gb = df.groupby("a", axis=1) + with pytest.raises(NotImplementedError, match="axis=1"): + getattr(gb, func)(engine="numba", **kwargs) + + def test_no_engine_doesnt_raise(self): + # GH55520 + df = DataFrame({"a": [3, 2, 3, 2], "b": range(4), "c": range(1, 5)}) + gb = df.groupby("a") + # Make sure behavior of functions w/out engine argument don't raise + # when the global use_numba option is set + with option_context("compute.use_numba", True): + res = gb.agg({"b": "first"}) + expected = gb.agg({"b": "first"}) + tm.assert_frame_equal(res, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numeric_only.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numeric_only.py new file mode 100644 index 0000000000000000000000000000000000000000..3c1ed20ddcb165db2444146c3e13ce7d7a8f874a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_numeric_only.py @@ -0,0 +1,532 @@ +import re + +import numpy as np +import pytest + +from pandas._libs import lib + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +class TestNumericOnly: + # make sure that we are passing thru kwargs to our agg functions + + @pytest.fixture + def df(self): + # GH3668 + # GH5724 + df = DataFrame( + { + "group": [1, 1, 2], + "int": [1, 2, 3], + "float": [4.0, 5.0, 6.0], + "string": Series(["a", "b", "c"], dtype="str"), + "object": Series(["a", "b", "c"], dtype=object), + "category_string": Series(list("abc")).astype("category"), + "category_int": [7, 8, 9], + "datetime": date_range("20130101", periods=3), + "datetimetz": date_range("20130101", periods=3, tz="US/Eastern"), + "timedelta": pd.timedelta_range("1 s", periods=3, freq="s"), + }, + columns=[ + "group", + "int", + "float", + "string", + "object", + "category_string", + "category_int", + "datetime", + "datetimetz", + "timedelta", + ], + ) + return df + + @pytest.mark.parametrize("method", ["mean", "median"]) + def test_averages(self, df, method): + # mean / median + expected_columns_numeric = Index(["int", "float", "category_int"]) + + gb = df.groupby("group") + expected = DataFrame( + { + "category_int": [7.5, 9], + "float": [4.5, 6.0], + "timedelta": [pd.Timedelta("1.5s"), pd.Timedelta("3s")], + "int": [1.5, 3], + "datetime": [ + Timestamp("2013-01-01 12:00:00"), + Timestamp("2013-01-03 00:00:00"), + ], + "datetimetz": [ + Timestamp("2013-01-01 12:00:00", tz="US/Eastern"), + Timestamp("2013-01-03 00:00:00", tz="US/Eastern"), + ], + }, + index=Index([1, 2], name="group"), + columns=[ + "int", + "float", + "category_int", + ], + ) + + result = getattr(gb, method)(numeric_only=True) + tm.assert_frame_equal(result.reindex_like(expected), expected) + + expected_columns = expected.columns + + self._check(df, method, expected_columns, expected_columns_numeric) + + @pytest.mark.parametrize("method", ["min", "max"]) + def test_extrema(self, df, method): + # TODO: min, max *should* handle + # categorical (ordered) dtype + + expected_columns = Index( + [ + "int", + "float", + "string", + "category_int", + "datetime", + "datetimetz", + "timedelta", + ] + ) + expected_columns_numeric = expected_columns + + self._check(df, method, expected_columns, expected_columns_numeric) + + @pytest.mark.parametrize("method", ["first", "last"]) + def test_first_last(self, df, method): + expected_columns = Index( + [ + "int", + "float", + "string", + "object", + "category_string", + "category_int", + "datetime", + "datetimetz", + "timedelta", + ] + ) + expected_columns_numeric = expected_columns + + self._check(df, method, expected_columns, expected_columns_numeric) + + @pytest.mark.parametrize("method", ["sum", "cumsum"]) + def test_sum_cumsum(self, df, method): + expected_columns_numeric = Index(["int", "float", "category_int"]) + expected_columns = Index( + ["int", "float", "string", "category_int", "timedelta"] + ) + if method == "cumsum": + # cumsum loses string + expected_columns = Index(["int", "float", "category_int", "timedelta"]) + + self._check(df, method, expected_columns, expected_columns_numeric) + + @pytest.mark.parametrize("method", ["prod", "cumprod"]) + def test_prod_cumprod(self, df, method): + expected_columns = Index(["int", "float", "category_int"]) + expected_columns_numeric = expected_columns + + self._check(df, method, expected_columns, expected_columns_numeric) + + @pytest.mark.parametrize("method", ["cummin", "cummax"]) + def test_cummin_cummax(self, df, method): + # like min, max, but don't include strings + expected_columns = Index( + ["int", "float", "category_int", "datetime", "datetimetz", "timedelta"] + ) + + # GH#15561: numeric_only=False set by default like min/max + expected_columns_numeric = expected_columns + + self._check(df, method, expected_columns, expected_columns_numeric) + + def _check(self, df, method, expected_columns, expected_columns_numeric): + gb = df.groupby("group") + + # object dtypes for transformations are not implemented in Cython and + # have no Python fallback + exception = ( + (NotImplementedError, TypeError) if method.startswith("cum") else TypeError + ) + + if method in ("min", "max", "cummin", "cummax", "cumsum", "cumprod"): + # The methods default to numeric_only=False and raise TypeError + msg = "|".join( + [ + "Categorical is not ordered", + f"Cannot perform {method} with non-ordered Categorical", + re.escape(f"agg function failed [how->{method},dtype->object]"), + # cumsum/cummin/cummax/cumprod + "function is not implemented for this dtype", + f"dtype 'str' does not support operation '{method}'", + ] + ) + with pytest.raises(exception, match=msg): + getattr(gb, method)() + elif method in ("sum", "mean", "median", "prod"): + msg = "|".join( + [ + "category type does not support sum operations", + re.escape(f"agg function failed [how->{method},dtype->object]"), + re.escape(f"agg function failed [how->{method},dtype->string]"), + f"dtype 'str' does not support operation '{method}'", + ] + ) + with pytest.raises(exception, match=msg): + getattr(gb, method)() + else: + result = getattr(gb, method)() + tm.assert_index_equal(result.columns, expected_columns_numeric) + + if method not in ("first", "last"): + msg = "|".join( + [ + "Categorical is not ordered", + "category type does not support", + "function is not implemented for this dtype", + f"Cannot perform {method} with non-ordered Categorical", + re.escape(f"agg function failed [how->{method},dtype->object]"), + re.escape(f"agg function failed [how->{method},dtype->string]"), + f"dtype 'str' does not support operation '{method}'", + ] + ) + with pytest.raises(exception, match=msg): + getattr(gb, method)(numeric_only=False) + else: + result = getattr(gb, method)(numeric_only=False) + tm.assert_index_equal(result.columns, expected_columns) + + +@pytest.mark.parametrize("numeric_only", [True, False, None]) +def test_axis1_numeric_only(request, groupby_func, numeric_only, using_infer_string): + if groupby_func in ("idxmax", "idxmin"): + pytest.skip("idxmax and idx_min tested in test_idxmin_idxmax_axis1") + if groupby_func in ("corrwith", "skew"): + msg = "GH#47723 groupby.corrwith and skew do not correctly implement axis=1" + request.applymarker(pytest.mark.xfail(reason=msg)) + + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), columns=["A", "B", "C", "D"] + ) + df["E"] = "x" + groups = [1, 2, 3, 1, 2, 3, 1, 2, 3, 4] + gb = df.groupby(groups) + method = getattr(gb, groupby_func) + args = get_groupby_method_args(groupby_func, df) + kwargs = {"axis": 1} + if numeric_only is not None: + # when numeric_only is None we don't pass any argument + kwargs["numeric_only"] = numeric_only + + # Functions without numeric_only and axis args + no_args = ("cumprod", "cumsum", "diff", "fillna", "pct_change", "rank", "shift") + # Functions with axis args + has_axis = ( + "cumprod", + "cumsum", + "diff", + "pct_change", + "rank", + "shift", + "cummax", + "cummin", + "idxmin", + "idxmax", + "fillna", + ) + warn_msg = f"DataFrameGroupBy.{groupby_func} with axis=1 is deprecated" + if numeric_only is not None and groupby_func in no_args: + msg = "got an unexpected keyword argument 'numeric_only'" + if groupby_func in ["cumprod", "cumsum"]: + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + method(*args, **kwargs) + else: + with pytest.raises(TypeError, match=msg): + method(*args, **kwargs) + elif groupby_func not in has_axis: + msg = "got an unexpected keyword argument 'axis'" + with pytest.raises(TypeError, match=msg): + method(*args, **kwargs) + # fillna and shift are successful even on object dtypes + elif (numeric_only is None or not numeric_only) and groupby_func not in ( + "fillna", + "shift", + ): + msgs = ( + # cummax, cummin, rank + "not supported between instances of", + # cumprod + "can't multiply sequence by non-int of type 'float'", + # cumsum, diff, pct_change + "unsupported operand type", + "has no kernel", + "operation 'sub' not supported for dtype 'str' with dtype 'float64'", + ) + if using_infer_string: + pa = pytest.importorskip("pyarrow") + + errs = (TypeError, pa.lib.ArrowNotImplementedError) + else: + errs = TypeError + with pytest.raises(errs, match=f"({'|'.join(msgs)})"): + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + method(*args, **kwargs) + else: + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + result = method(*args, **kwargs) + + df_expected = df.drop(columns="E").T if numeric_only else df.T + expected = getattr(df_expected, groupby_func)(*args).T + if groupby_func == "shift" and not numeric_only: + # shift with axis=1 leaves the leftmost column as numeric + # but transposing for expected gives us object dtype + expected = expected.astype(float) + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "kernel, has_arg", + [ + ("all", False), + ("any", False), + ("bfill", False), + ("corr", True), + ("corrwith", True), + ("cov", True), + ("cummax", True), + ("cummin", True), + ("cumprod", True), + ("cumsum", True), + ("diff", False), + ("ffill", False), + ("fillna", False), + ("first", True), + ("idxmax", True), + ("idxmin", True), + ("last", True), + ("max", True), + ("mean", True), + ("median", True), + ("min", True), + ("nth", False), + ("nunique", False), + ("pct_change", False), + ("prod", True), + ("quantile", True), + ("sem", True), + ("skew", True), + ("std", True), + ("sum", True), + ("var", True), + ], +) +@pytest.mark.parametrize("numeric_only", [True, False, lib.no_default]) +@pytest.mark.parametrize("keys", [["a1"], ["a1", "a2"]]) +def test_numeric_only(kernel, has_arg, numeric_only, keys): + # GH#46072 + # drops_nuisance: Whether the op drops nuisance columns even when numeric_only=False + # has_arg: Whether the op has a numeric_only arg + df = DataFrame({"a1": [1, 1], "a2": [2, 2], "a3": [5, 6], "b": 2 * [object]}) + + args = get_groupby_method_args(kernel, df) + kwargs = {} if numeric_only is lib.no_default else {"numeric_only": numeric_only} + + gb = df.groupby(keys) + method = getattr(gb, kernel) + if has_arg and numeric_only is True: + # Cases where b does not appear in the result + result = method(*args, **kwargs) + assert "b" not in result.columns + elif ( + # kernels that work on any dtype and have numeric_only arg + kernel in ("first", "last") + or ( + # kernels that work on any dtype and don't have numeric_only arg + kernel in ("any", "all", "bfill", "ffill", "fillna", "nth", "nunique") + and numeric_only is lib.no_default + ) + ): + warn = FutureWarning if kernel == "fillna" else None + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + result = method(*args, **kwargs) + assert "b" in result.columns + elif has_arg: + assert numeric_only is not True + # kernels that are successful on any dtype were above; this will fail + + # object dtypes for transformations are not implemented in Cython and + # have no Python fallback + exception = NotImplementedError if kernel.startswith("cum") else TypeError + + msg = "|".join( + [ + "not allowed for this dtype", + "cannot be performed against 'object' dtypes", + # On PY39 message is "a number"; on PY310 and after is "a real number" + "must be a string or a.* number", + "unsupported operand type", + "function is not implemented for this dtype", + re.escape(f"agg function failed [how->{kernel},dtype->object]"), + ] + ) + if kernel == "quantile": + msg = "dtype 'object' does not support operation 'quantile'" + elif kernel == "idxmin": + msg = "'<' not supported between instances of 'type' and 'type'" + elif kernel == "idxmax": + msg = "'>' not supported between instances of 'type' and 'type'" + with pytest.raises(exception, match=msg): + method(*args, **kwargs) + elif not has_arg and numeric_only is not lib.no_default: + with pytest.raises( + TypeError, match="got an unexpected keyword argument 'numeric_only'" + ): + method(*args, **kwargs) + else: + assert kernel in ("diff", "pct_change") + assert numeric_only is lib.no_default + # Doesn't have numeric_only argument and fails on nuisance columns + with pytest.raises(TypeError, match=r"unsupported operand type"): + method(*args, **kwargs) + + +@pytest.mark.filterwarnings("ignore:Downcasting object dtype arrays:FutureWarning") +@pytest.mark.parametrize("dtype", [bool, int, float, object]) +def test_deprecate_numeric_only_series(dtype, groupby_func, request): + # GH#46560 + grouper = [0, 0, 1] + + ser = Series([1, 0, 0], dtype=dtype) + gb = ser.groupby(grouper) + + if groupby_func == "corrwith": + # corrwith is not implemented on SeriesGroupBy + assert not hasattr(gb, groupby_func) + return + + method = getattr(gb, groupby_func) + + expected_ser = Series([1, 0, 0]) + expected_gb = expected_ser.groupby(grouper) + expected_method = getattr(expected_gb, groupby_func) + + args = get_groupby_method_args(groupby_func, ser) + + fails_on_numeric_object = ( + "corr", + "cov", + "cummax", + "cummin", + "cumprod", + "cumsum", + "quantile", + ) + # ops that give an object result on object input + obj_result = ( + "first", + "last", + "nth", + "bfill", + "ffill", + "shift", + "sum", + "diff", + "pct_change", + "var", + "mean", + "median", + "min", + "max", + "prod", + "skew", + ) + + # Test default behavior; kernels that fail may be enabled in the future but kernels + # that succeed should not be allowed to fail (without deprecation, at least) + if groupby_func in fails_on_numeric_object and dtype is object: + if groupby_func == "quantile": + msg = "dtype 'object' does not support operation 'quantile'" + else: + msg = "is not supported for object dtype" + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + with pytest.raises(TypeError, match=msg): + method(*args) + elif dtype is object: + warn = FutureWarning if groupby_func == "fillna" else None + warn_msg = "SeriesGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=warn_msg): + result = method(*args) + with tm.assert_produces_warning(warn, match=warn_msg): + expected = expected_method(*args) + if groupby_func in obj_result: + expected = expected.astype(object) + tm.assert_series_equal(result, expected) + + has_numeric_only = ( + "first", + "last", + "max", + "mean", + "median", + "min", + "prod", + "quantile", + "sem", + "skew", + "std", + "sum", + "var", + "cummax", + "cummin", + "cumprod", + "cumsum", + ) + if groupby_func not in has_numeric_only: + msg = "got an unexpected keyword argument 'numeric_only'" + with pytest.raises(TypeError, match=msg): + method(*args, numeric_only=True) + elif dtype is object: + msg = "|".join( + [ + "SeriesGroupBy.sem called with numeric_only=True and dtype object", + "Series.skew does not allow numeric_only=True with non-numeric", + "cum(sum|prod|min|max) is not supported for object dtype", + r"Cannot use numeric_only=True with SeriesGroupBy\..* and non-numeric", + ] + ) + with pytest.raises(TypeError, match=msg): + method(*args, numeric_only=True) + elif dtype == bool and groupby_func == "quantile": + msg = "Allowing bool dtype in SeriesGroupBy.quantile" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#51424 + result = method(*args, numeric_only=True) + expected = method(*args, numeric_only=False) + tm.assert_series_equal(result, expected) + else: + result = method(*args, numeric_only=True) + expected = method(*args, numeric_only=False) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_pipe.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_pipe.py new file mode 100644 index 0000000000000000000000000000000000000000..ee59a93695bcf84bcfcd8f1add8120e2c04004f5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_pipe.py @@ -0,0 +1,80 @@ +import numpy as np + +import pandas as pd +from pandas import ( + DataFrame, + Index, +) +import pandas._testing as tm + + +def test_pipe(): + # Test the pipe method of DataFrameGroupBy. + # Issue #17871 + + random_state = np.random.default_rng(2) + + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": random_state.standard_normal(8), + "C": random_state.standard_normal(8), + } + ) + + def f(dfgb): + return dfgb.B.max() - dfgb.C.min().min() + + def square(srs): + return srs**2 + + # Note that the transformations are + # GroupBy -> Series + # Series -> Series + # This then chains the GroupBy.pipe and the + # NDFrame.pipe methods + result = df.groupby("A").pipe(f).pipe(square) + + index = Index(["bar", "foo"], name="A") + expected = pd.Series([3.749306591013693, 6.717707873081384], name="B", index=index) + + tm.assert_series_equal(expected, result) + + +def test_pipe_args(): + # Test passing args to the pipe method of DataFrameGroupBy. + # Issue #17871 + + df = DataFrame( + { + "group": ["A", "A", "B", "B", "C"], + "x": [1.0, 2.0, 3.0, 2.0, 5.0], + "y": [10.0, 100.0, 1000.0, -100.0, -1000.0], + } + ) + + def f(dfgb, arg1): + filtered = dfgb.filter(lambda grp: grp.y.mean() > arg1, dropna=False) + return filtered.groupby("group") + + def g(dfgb, arg2): + return dfgb.sum() / dfgb.sum().sum() + arg2 + + def h(df, arg3): + return df.x + df.y - arg3 + + result = df.groupby("group").pipe(f, 0).pipe(g, 10).pipe(h, 100) + + # Assert the results here + index = Index(["A", "B"], name="group") + expected = pd.Series([-79.5160891089, -78.4839108911], index=index) + + tm.assert_series_equal(result, expected) + + # test SeriesGroupby.pipe + ser = pd.Series([1, 1, 2, 2, 3, 3]) + result = ser.groupby(ser).pipe(lambda grp: grp.sum() * grp.count()) + + expected = pd.Series([4, 8, 12], index=Index([1, 2, 3], dtype=np.int64)) + + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_raises.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_raises.py new file mode 100644 index 0000000000000000000000000000000000000000..bc39f67829792a5c4e254add7100f306ba19be61 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_raises.py @@ -0,0 +1,757 @@ +# Only tests that raise an error and have no better location should go here. +# Tests for specific groupby methods should go in their respective +# test file. + +import datetime +import re + +import numpy as np +import pytest + +from pandas import ( + Categorical, + DataFrame, + Grouper, + Series, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +@pytest.fixture( + params=[ + "a", + ["a"], + ["a", "b"], + Grouper(key="a"), + lambda x: x % 2, + [0, 0, 0, 1, 2, 2, 2, 3, 3], + np.array([0, 0, 0, 1, 2, 2, 2, 3, 3]), + dict(zip(range(9), [0, 0, 0, 1, 2, 2, 2, 3, 3])), + Series([1, 1, 1, 1, 1, 2, 2, 2, 2]), + [Series([1, 1, 1, 1, 1, 2, 2, 2, 2]), Series([3, 3, 4, 4, 4, 4, 4, 3, 3])], + ] +) +def by(request): + return request.param + + +@pytest.fixture(params=[True, False]) +def groupby_series(request): + return request.param + + +@pytest.fixture +def df_with_string_col(): + df = DataFrame( + { + "a": [1, 1, 1, 1, 1, 2, 2, 2, 2], + "b": [3, 3, 4, 4, 4, 4, 4, 3, 3], + "c": range(9), + "d": list("xyzwtyuio"), + } + ) + return df + + +@pytest.fixture +def df_with_datetime_col(): + df = DataFrame( + { + "a": [1, 1, 1, 1, 1, 2, 2, 2, 2], + "b": [3, 3, 4, 4, 4, 4, 4, 3, 3], + "c": range(9), + "d": datetime.datetime(2005, 1, 1, 10, 30, 23, 540000), + } + ) + return df + + +@pytest.fixture +def df_with_timedelta_col(): + df = DataFrame( + { + "a": [1, 1, 1, 1, 1, 2, 2, 2, 2], + "b": [3, 3, 4, 4, 4, 4, 4, 3, 3], + "c": range(9), + "d": datetime.timedelta(days=1), + } + ) + return df + + +@pytest.fixture +def df_with_cat_col(): + df = DataFrame( + { + "a": [1, 1, 1, 1, 1, 2, 2, 2, 2], + "b": [3, 3, 4, 4, 4, 4, 4, 3, 3], + "c": range(9), + "d": Categorical( + ["a", "a", "a", "a", "b", "b", "b", "b", "c"], + categories=["a", "b", "c", "d"], + ordered=True, + ), + } + ) + return df + + +def _call_and_check(klass, msg, how, gb, groupby_func, args, warn_msg=""): + warn_klass = None if warn_msg == "" else FutureWarning + with tm.assert_produces_warning(warn_klass, match=warn_msg): + if klass is None: + if how == "method": + getattr(gb, groupby_func)(*args) + elif how == "agg": + gb.agg(groupby_func, *args) + else: + gb.transform(groupby_func, *args) + else: + with pytest.raises(klass, match=msg): + if how == "method": + getattr(gb, groupby_func)(*args) + elif how == "agg": + gb.agg(groupby_func, *args) + else: + gb.transform(groupby_func, *args) + + +@pytest.mark.parametrize("how", ["method", "agg", "transform"]) +def test_groupby_raises_string( + how, by, groupby_series, groupby_func, df_with_string_col, using_infer_string +): + df = df_with_string_col + args = get_groupby_method_args(groupby_func, df) + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + if groupby_func == "corrwith": + assert not hasattr(gb, "corrwith") + return + + klass, msg = { + "all": (None, ""), + "any": (None, ""), + "bfill": (None, ""), + "corrwith": (TypeError, "Could not convert"), + "count": (None, ""), + "cumcount": (None, ""), + "cummax": ( + (NotImplementedError, TypeError), + "(function|cummax) is not (implemented|supported) for (this|object) dtype", + ), + "cummin": ( + (NotImplementedError, TypeError), + "(function|cummin) is not (implemented|supported) for (this|object) dtype", + ), + "cumprod": ( + (NotImplementedError, TypeError), + "(function|cumprod) is not (implemented|supported) for (this|object) dtype", + ), + "cumsum": ( + (NotImplementedError, TypeError), + "(function|cumsum) is not (implemented|supported) for (this|object) dtype", + ), + "diff": (TypeError, "unsupported operand type"), + "ffill": (None, ""), + "fillna": (None, ""), + "first": (None, ""), + "idxmax": (None, ""), + "idxmin": (None, ""), + "last": (None, ""), + "max": (None, ""), + "mean": ( + TypeError, + re.escape("agg function failed [how->mean,dtype->object]"), + ), + "median": ( + TypeError, + re.escape("agg function failed [how->median,dtype->object]"), + ), + "min": (None, ""), + "ngroup": (None, ""), + "nunique": (None, ""), + "pct_change": (TypeError, "unsupported operand type"), + "prod": ( + TypeError, + re.escape("agg function failed [how->prod,dtype->object]"), + ), + "quantile": (TypeError, "dtype 'object' does not support operation 'quantile'"), + "rank": (None, ""), + "sem": (ValueError, "could not convert string to float"), + "shift": (None, ""), + "size": (None, ""), + "skew": (ValueError, "could not convert string to float"), + "std": (ValueError, "could not convert string to float"), + "sum": (None, ""), + "var": ( + TypeError, + re.escape("agg function failed [how->var,dtype->"), + ), + }[groupby_func] + + if using_infer_string: + if groupby_func in [ + "prod", + "mean", + "median", + "cumsum", + "cumprod", + "std", + "sem", + "var", + "skew", + "quantile", + ]: + msg = f"dtype 'str' does not support operation '{groupby_func}'" + if groupby_func in ["sem", "std", "skew"]: + # The object-dtype raises ValueError when trying to convert to numeric. + klass = TypeError + elif groupby_func == "pct_change" and df["d"].dtype.storage == "pyarrow": + # This doesn't go through EA._groupby_op so the message isn't controlled + # there. + msg = "operation 'truediv' not supported for dtype 'str' with dtype 'str'" + elif groupby_func == "diff" and df["d"].dtype.storage == "pyarrow": + # This doesn't go through EA._groupby_op so the message isn't controlled + # there. + msg = "operation 'sub' not supported for dtype 'str' with dtype 'str'" + + elif groupby_func in ["cummin", "cummax"]: + msg = msg.replace("object", "str") + elif groupby_func == "corrwith": + msg = "Cannot perform reduction 'mean' with string dtype" + + if groupby_func == "fillna": + kind = "Series" if groupby_series else "DataFrame" + warn_msg = f"{kind}GroupBy.fillna is deprecated" + else: + warn_msg = "" + _call_and_check(klass, msg, how, gb, groupby_func, args, warn_msg) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +def test_groupby_raises_string_udf(how, by, groupby_series, df_with_string_col): + df = df_with_string_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + def func(x): + raise TypeError("Test error message") + + with pytest.raises(TypeError, match="Test error message"): + getattr(gb, how)(func) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +@pytest.mark.parametrize("groupby_func_np", [np.sum, np.mean]) +def test_groupby_raises_string_np( + how, + by, + groupby_series, + groupby_func_np, + df_with_string_col, + using_infer_string, +): + # GH#50749 + df = df_with_string_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + klass, msg = { + np.sum: (None, ""), + np.mean: ( + TypeError, + "agg function failed|Cannot perform reduction 'mean' with string dtype", + ), + }[groupby_func_np] + + if using_infer_string: + if groupby_func_np is np.mean: + klass = TypeError + msg = "dtype 'str' does not support operation 'mean'" + + if groupby_series: + warn_msg = "using SeriesGroupBy.[sum|mean]" + else: + warn_msg = "using DataFrameGroupBy.[sum|mean]" + _call_and_check(klass, msg, how, gb, groupby_func_np, (), warn_msg=warn_msg) + + +@pytest.mark.parametrize("how", ["method", "agg", "transform"]) +def test_groupby_raises_datetime( + how, by, groupby_series, groupby_func, df_with_datetime_col +): + df = df_with_datetime_col + args = get_groupby_method_args(groupby_func, df) + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + if groupby_func == "corrwith": + assert not hasattr(gb, "corrwith") + return + + klass, msg = { + "all": (None, ""), + "any": (None, ""), + "bfill": (None, ""), + "corrwith": (TypeError, "cannot perform __mul__ with this index type"), + "count": (None, ""), + "cumcount": (None, ""), + "cummax": (None, ""), + "cummin": (None, ""), + "cumprod": (TypeError, "datetime64 type does not support cumprod operations"), + "cumsum": (TypeError, "datetime64 type does not support cumsum operations"), + "diff": (None, ""), + "ffill": (None, ""), + "fillna": (None, ""), + "first": (None, ""), + "idxmax": (None, ""), + "idxmin": (None, ""), + "last": (None, ""), + "max": (None, ""), + "mean": (None, ""), + "median": (None, ""), + "min": (None, ""), + "ngroup": (None, ""), + "nunique": (None, ""), + "pct_change": (TypeError, "cannot perform __truediv__ with this index type"), + "prod": (TypeError, "datetime64 type does not support prod"), + "quantile": (None, ""), + "rank": (None, ""), + "sem": (None, ""), + "shift": (None, ""), + "size": (None, ""), + "skew": ( + TypeError, + "|".join( + [ + r"dtype datetime64\[ns\] does not support reduction", + "datetime64 type does not support skew operations", + ] + ), + ), + "std": (None, ""), + "sum": (TypeError, "datetime64 type does not support sum operations"), + "var": (TypeError, "datetime64 type does not support var operations"), + }[groupby_func] + + if groupby_func in ["any", "all"]: + warn_msg = f"'{groupby_func}' with datetime64 dtypes is deprecated" + elif groupby_func == "fillna": + kind = "Series" if groupby_series else "DataFrame" + warn_msg = f"{kind}GroupBy.fillna is deprecated" + else: + warn_msg = "" + _call_and_check(klass, msg, how, gb, groupby_func, args, warn_msg=warn_msg) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +def test_groupby_raises_datetime_udf(how, by, groupby_series, df_with_datetime_col): + df = df_with_datetime_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + def func(x): + raise TypeError("Test error message") + + with pytest.raises(TypeError, match="Test error message"): + getattr(gb, how)(func) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +@pytest.mark.parametrize("groupby_func_np", [np.sum, np.mean]) +def test_groupby_raises_datetime_np( + how, by, groupby_series, groupby_func_np, df_with_datetime_col +): + # GH#50749 + df = df_with_datetime_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + klass, msg = { + np.sum: (TypeError, "datetime64 type does not support sum operations"), + np.mean: (None, ""), + }[groupby_func_np] + + if groupby_series: + warn_msg = "using SeriesGroupBy.[sum|mean]" + else: + warn_msg = "using DataFrameGroupBy.[sum|mean]" + _call_and_check(klass, msg, how, gb, groupby_func_np, (), warn_msg=warn_msg) + + +@pytest.mark.parametrize("func", ["prod", "cumprod", "skew", "var"]) +def test_groupby_raises_timedelta(func, df_with_timedelta_col): + df = df_with_timedelta_col + gb = df.groupby(by="a") + + _call_and_check( + TypeError, + "timedelta64 type does not support .* operations", + "method", + gb, + func, + [], + ) + + +@pytest.mark.parametrize("how", ["method", "agg", "transform"]) +def test_groupby_raises_category( + how, by, groupby_series, groupby_func, using_copy_on_write, df_with_cat_col +): + # GH#50749 + df = df_with_cat_col + args = get_groupby_method_args(groupby_func, df) + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + if groupby_func == "corrwith": + assert not hasattr(gb, "corrwith") + return + + klass, msg = { + "all": (None, ""), + "any": (None, ""), + "bfill": (None, ""), + "corrwith": ( + TypeError, + r"unsupported operand type\(s\) for \*: 'Categorical' and 'int'", + ), + "count": (None, ""), + "cumcount": (None, ""), + "cummax": ( + (NotImplementedError, TypeError), + "(category type does not support cummax operations|" + "category dtype not supported|" + "cummax is not supported for category dtype)", + ), + "cummin": ( + (NotImplementedError, TypeError), + "(category type does not support cummin operations|" + "category dtype not supported|" + "cummin is not supported for category dtype)", + ), + "cumprod": ( + (NotImplementedError, TypeError), + "(category type does not support cumprod operations|" + "category dtype not supported|" + "cumprod is not supported for category dtype)", + ), + "cumsum": ( + (NotImplementedError, TypeError), + "(category type does not support cumsum operations|" + "category dtype not supported|" + "cumsum is not supported for category dtype)", + ), + "diff": ( + TypeError, + r"unsupported operand type\(s\) for -: 'Categorical' and 'Categorical'", + ), + "ffill": (None, ""), + "fillna": ( + TypeError, + r"Cannot setitem on a Categorical with a new category \(0\), " + "set the categories first", + ) + if not using_copy_on_write + else (None, ""), # no-op with CoW + "first": (None, ""), + "idxmax": (None, ""), + "idxmin": (None, ""), + "last": (None, ""), + "max": (None, ""), + "mean": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'mean'", + "category dtype does not support aggregation 'mean'", + ] + ), + ), + "median": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'median'", + "category dtype does not support aggregation 'median'", + ] + ), + ), + "min": (None, ""), + "ngroup": (None, ""), + "nunique": (None, ""), + "pct_change": ( + TypeError, + r"unsupported operand type\(s\) for /: 'Categorical' and 'Categorical'", + ), + "prod": (TypeError, "category type does not support prod operations"), + "quantile": (TypeError, "No matching signature found"), + "rank": (None, ""), + "sem": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'sem'", + "category dtype does not support aggregation 'sem'", + ] + ), + ), + "shift": (None, ""), + "size": (None, ""), + "skew": ( + TypeError, + "|".join( + [ + "dtype category does not support reduction 'skew'", + "category type does not support skew operations", + ] + ), + ), + "std": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'std'", + "category dtype does not support aggregation 'std'", + ] + ), + ), + "sum": (TypeError, "category type does not support sum operations"), + "var": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'var'", + "category dtype does not support aggregation 'var'", + ] + ), + ), + }[groupby_func] + + if groupby_func == "fillna": + kind = "Series" if groupby_series else "DataFrame" + warn_msg = f"{kind}GroupBy.fillna is deprecated" + else: + warn_msg = "" + _call_and_check(klass, msg, how, gb, groupby_func, args, warn_msg) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +def test_groupby_raises_category_udf(how, by, groupby_series, df_with_cat_col): + # GH#50749 + df = df_with_cat_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + def func(x): + raise TypeError("Test error message") + + with pytest.raises(TypeError, match="Test error message"): + getattr(gb, how)(func) + + +@pytest.mark.parametrize("how", ["agg", "transform"]) +@pytest.mark.parametrize("groupby_func_np", [np.sum, np.mean]) +def test_groupby_raises_category_np( + how, by, groupby_series, groupby_func_np, df_with_cat_col +): + # GH#50749 + df = df_with_cat_col + gb = df.groupby(by=by) + + if groupby_series: + gb = gb["d"] + + klass, msg = { + np.sum: (TypeError, "category type does not support sum operations"), + np.mean: ( + TypeError, + "category dtype does not support aggregation 'mean'", + ), + }[groupby_func_np] + + if groupby_series: + warn_msg = "using SeriesGroupBy.[sum|mean]" + else: + warn_msg = "using DataFrameGroupBy.[sum|mean]" + _call_and_check(klass, msg, how, gb, groupby_func_np, (), warn_msg=warn_msg) + + +@pytest.mark.parametrize("how", ["method", "agg", "transform"]) +def test_groupby_raises_category_on_category( + how, + by, + groupby_series, + groupby_func, + observed, + using_copy_on_write, + df_with_cat_col, +): + # GH#50749 + df = df_with_cat_col + df["a"] = Categorical( + ["a", "a", "a", "a", "b", "b", "b", "b", "c"], + categories=["a", "b", "c", "d"], + ordered=True, + ) + args = get_groupby_method_args(groupby_func, df) + gb = df.groupby(by=by, observed=observed) + + if groupby_series: + gb = gb["d"] + + if groupby_func == "corrwith": + assert not hasattr(gb, "corrwith") + return + + empty_groups = not observed and any(group.empty for group in gb.groups.values()) + if ( + not observed + and how != "transform" + and isinstance(by, list) + and isinstance(by[0], str) + and by == ["a", "b"] + ): + assert not empty_groups + # TODO: empty_groups should be true due to unobserved categorical combinations + empty_groups = True + if how == "transform": + # empty groups will be ignored + empty_groups = False + + klass, msg = { + "all": (None, ""), + "any": (None, ""), + "bfill": (None, ""), + "corrwith": ( + TypeError, + r"unsupported operand type\(s\) for \*: 'Categorical' and 'int'", + ), + "count": (None, ""), + "cumcount": (None, ""), + "cummax": ( + (NotImplementedError, TypeError), + "(cummax is not supported for category dtype|" + "category dtype not supported|" + "category type does not support cummax operations)", + ), + "cummin": ( + (NotImplementedError, TypeError), + "(cummin is not supported for category dtype|" + "category dtype not supported|" + "category type does not support cummin operations)", + ), + "cumprod": ( + (NotImplementedError, TypeError), + "(cumprod is not supported for category dtype|" + "category dtype not supported|" + "category type does not support cumprod operations)", + ), + "cumsum": ( + (NotImplementedError, TypeError), + "(cumsum is not supported for category dtype|" + "category dtype not supported|" + "category type does not support cumsum operations)", + ), + "diff": (TypeError, "unsupported operand type"), + "ffill": (None, ""), + "fillna": ( + TypeError, + r"Cannot setitem on a Categorical with a new category \(0\), " + "set the categories first", + ) + if not using_copy_on_write + else (None, ""), # no-op with CoW + "first": (None, ""), + "idxmax": (ValueError, "empty group due to unobserved categories") + if empty_groups + else (None, ""), + "idxmin": (ValueError, "empty group due to unobserved categories") + if empty_groups + else (None, ""), + "last": (None, ""), + "max": (None, ""), + "mean": (TypeError, "category dtype does not support aggregation 'mean'"), + "median": (TypeError, "category dtype does not support aggregation 'median'"), + "min": (None, ""), + "ngroup": (None, ""), + "nunique": (None, ""), + "pct_change": (TypeError, "unsupported operand type"), + "prod": (TypeError, "category type does not support prod operations"), + "quantile": (TypeError, "No matching signature found"), + "rank": (None, ""), + "sem": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'sem'", + "category dtype does not support aggregation 'sem'", + ] + ), + ), + "shift": (None, ""), + "size": (None, ""), + "skew": ( + TypeError, + "|".join( + [ + "category type does not support skew operations", + "dtype category does not support reduction 'skew'", + ] + ), + ), + "std": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'std'", + "category dtype does not support aggregation 'std'", + ] + ), + ), + "sum": (TypeError, "category type does not support sum operations"), + "var": ( + TypeError, + "|".join( + [ + "'Categorical' .* does not support reduction 'var'", + "category dtype does not support aggregation 'var'", + ] + ), + ), + }[groupby_func] + + if groupby_func == "fillna": + kind = "Series" if groupby_series else "DataFrame" + warn_msg = f"{kind}GroupBy.fillna is deprecated" + else: + warn_msg = "" + _call_and_check(klass, msg, how, gb, groupby_func, args, warn_msg) + + +def test_subsetting_columns_axis_1_raises(): + # GH 35443 + df = DataFrame({"a": [1], "b": [2], "c": [3]}) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby("a", axis=1) + with pytest.raises(ValueError, match="Cannot subset columns when using axis=1"): + gb["b"] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_reductions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_reductions.py new file mode 100644 index 0000000000000000000000000000000000000000..f9ef86adc92275842567a537343faa335a8eb59a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_reductions.py @@ -0,0 +1,1277 @@ +import builtins +import datetime as dt +from string import ascii_lowercase + +import numpy as np +import pytest + +from pandas._libs.tslibs import iNaT + +from pandas.core.dtypes.common import pandas_dtype +from pandas.core.dtypes.missing import na_value_for_dtype + +import pandas as pd +from pandas import ( + DataFrame, + MultiIndex, + Series, + Timestamp, + date_range, + isna, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args +from pandas.util import _test_decorators as td + + +@pytest.mark.parametrize("agg_func", ["any", "all"]) +@pytest.mark.parametrize( + "vals", + [ + ["foo", "bar", "baz"], + ["foo", "", ""], + ["", "", ""], + [1, 2, 3], + [1, 0, 0], + [0, 0, 0], + [1.0, 2.0, 3.0], + [1.0, 0.0, 0.0], + [0.0, 0.0, 0.0], + [True, True, True], + [True, False, False], + [False, False, False], + [np.nan, np.nan, np.nan], + ], +) +def test_groupby_bool_aggs(skipna, agg_func, vals): + df = DataFrame({"key": ["a"] * 3 + ["b"] * 3, "val": vals * 2}) + + # Figure out expectation using Python builtin + exp = getattr(builtins, agg_func)(vals) + + # edge case for missing data with skipna and 'any' + if skipna and all(isna(vals)) and agg_func == "any": + exp = False + + expected = DataFrame( + [exp] * 2, columns=["val"], index=pd.Index(["a", "b"], name="key") + ) + result = getattr(df.groupby("key"), agg_func)(skipna=skipna) + tm.assert_frame_equal(result, expected) + + +def test_any(): + df = DataFrame( + [[1, 2, "foo"], [1, np.nan, "bar"], [3, np.nan, "baz"]], + columns=["A", "B", "C"], + ) + expected = DataFrame( + [[True, True], [False, True]], columns=["B", "C"], index=[1, 3] + ) + expected.index.name = "A" + result = df.groupby("A").any() + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("bool_agg_func", ["any", "all"]) +def test_bool_aggs_dup_column_labels(bool_agg_func): + # GH#21668 + df = DataFrame([[True, True]], columns=["a", "a"]) + grp_by = df.groupby([0]) + result = getattr(grp_by, bool_agg_func)() + + expected = df.set_axis(np.array([0])) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("bool_agg_func", ["any", "all"]) +@pytest.mark.parametrize( + "data", + [ + [False, False, False], + [True, True, True], + [pd.NA, pd.NA, pd.NA], + [False, pd.NA, False], + [True, pd.NA, True], + [True, pd.NA, False], + ], +) +def test_masked_kleene_logic(bool_agg_func, skipna, data): + # GH#37506 + ser = Series(data, dtype="boolean") + + # The result should match aggregating on the whole series. Correctness + # there is verified in test_reductions.py::test_any_all_boolean_kleene_logic + expected_data = getattr(ser, bool_agg_func)(skipna=skipna) + expected = Series(expected_data, index=np.array([0]), dtype="boolean") + + result = ser.groupby([0, 0, 0]).agg(bool_agg_func, skipna=skipna) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "dtype1,dtype2,exp_col1,exp_col2", + [ + ( + "float", + "Float64", + np.array([True], dtype=bool), + pd.array([pd.NA], dtype="boolean"), + ), + ( + "Int64", + "float", + pd.array([pd.NA], dtype="boolean"), + np.array([True], dtype=bool), + ), + ( + "Int64", + "Int64", + pd.array([pd.NA], dtype="boolean"), + pd.array([pd.NA], dtype="boolean"), + ), + ( + "Float64", + "boolean", + pd.array([pd.NA], dtype="boolean"), + pd.array([pd.NA], dtype="boolean"), + ), + ], +) +def test_masked_mixed_types(dtype1, dtype2, exp_col1, exp_col2): + # GH#37506 + data = [1.0, np.nan] + df = DataFrame( + {"col1": pd.array(data, dtype=dtype1), "col2": pd.array(data, dtype=dtype2)} + ) + result = df.groupby([1, 1]).agg("all", skipna=False) + + expected = DataFrame({"col1": exp_col1, "col2": exp_col2}, index=np.array([1])) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("bool_agg_func", ["any", "all"]) +@pytest.mark.parametrize("dtype", ["Int64", "Float64", "boolean"]) +def test_masked_bool_aggs_skipna(bool_agg_func, dtype, skipna, frame_or_series): + # GH#40585 + obj = frame_or_series([pd.NA, 1], dtype=dtype) + expected_res = True + if not skipna and bool_agg_func == "all": + expected_res = pd.NA + expected = frame_or_series([expected_res], index=np.array([1]), dtype="boolean") + + result = obj.groupby([1, 1]).agg(bool_agg_func, skipna=skipna) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "bool_agg_func,data,expected_res", + [ + ("any", [pd.NA, np.nan], False), + ("any", [pd.NA, 1, np.nan], True), + ("all", [pd.NA, pd.NaT], True), + ("all", [pd.NA, False, pd.NaT], False), + ], +) +def test_object_type_missing_vals(bool_agg_func, data, expected_res, frame_or_series): + # GH#37501 + obj = frame_or_series(data, dtype=object) + result = obj.groupby([1] * len(data)).agg(bool_agg_func) + expected = frame_or_series([expected_res], index=np.array([1]), dtype="bool") + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("bool_agg_func", ["any", "all"]) +def test_object_NA_raises_with_skipna_false(bool_agg_func): + # GH#37501 + ser = Series([pd.NA], dtype=object) + with pytest.raises(TypeError, match="boolean value of NA is ambiguous"): + ser.groupby([1]).agg(bool_agg_func, skipna=False) + + +@pytest.mark.parametrize("bool_agg_func", ["any", "all"]) +def test_empty(frame_or_series, bool_agg_func): + # GH 45231 + kwargs = {"columns": ["a"]} if frame_or_series is DataFrame else {"name": "a"} + obj = frame_or_series(**kwargs, dtype=object) + result = getattr(obj.groupby(obj.index), bool_agg_func)() + expected = frame_or_series(**kwargs, dtype=bool) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("how", ["idxmin", "idxmax"]) +def test_idxmin_idxmax_extremes(how, any_real_numpy_dtype): + # GH#57040 + if any_real_numpy_dtype is int or any_real_numpy_dtype is float: + # No need to test + return + info = np.iinfo if "int" in any_real_numpy_dtype else np.finfo + min_value = info(any_real_numpy_dtype).min + max_value = info(any_real_numpy_dtype).max + df = DataFrame( + {"a": [2, 1, 1, 2], "b": [min_value, max_value, max_value, min_value]}, + dtype=any_real_numpy_dtype, + ) + gb = df.groupby("a") + result = getattr(gb, how)() + expected = DataFrame( + {"b": [1, 0]}, index=pd.Index([1, 2], name="a", dtype=any_real_numpy_dtype) + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("how", ["idxmin", "idxmax"]) +def test_idxmin_idxmax_extremes_skipna(skipna, how, float_numpy_dtype): + # GH#57040 + min_value = np.finfo(float_numpy_dtype).min + max_value = np.finfo(float_numpy_dtype).max + df = DataFrame( + { + "a": Series(np.repeat(range(1, 6), repeats=2), dtype="intp"), + "b": Series( + [ + np.nan, + min_value, + np.nan, + max_value, + min_value, + np.nan, + max_value, + np.nan, + np.nan, + np.nan, + ], + dtype=float_numpy_dtype, + ), + }, + ) + gb = df.groupby("a") + + warn = None if skipna else FutureWarning + msg = f"The behavior of DataFrameGroupBy.{how} with all-NA values" + with tm.assert_produces_warning(warn, match=msg): + result = getattr(gb, how)(skipna=skipna) + if skipna: + values = [1, 3, 4, 6, np.nan] + else: + values = np.nan + expected = DataFrame( + {"b": values}, index=pd.Index(range(1, 6), name="a", dtype="intp") + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "func, values", + [ + ("idxmin", {"c_int": [0, 2], "c_float": [1, 3], "c_date": [1, 2]}), + ("idxmax", {"c_int": [1, 3], "c_float": [0, 2], "c_date": [0, 3]}), + ], +) +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_idxmin_idxmax_returns_int_types(func, values, numeric_only): + # GH 25444 + df = DataFrame( + { + "name": ["A", "A", "B", "B"], + "c_int": [1, 2, 3, 4], + "c_float": [4.02, 3.03, 2.04, 1.05], + "c_date": ["2019", "2018", "2016", "2017"], + } + ) + df["c_date"] = pd.to_datetime(df["c_date"]) + df["c_date_tz"] = df["c_date"].dt.tz_localize("US/Pacific") + df["c_timedelta"] = df["c_date"] - df["c_date"].iloc[0] + df["c_period"] = df["c_date"].dt.to_period("W") + df["c_Integer"] = df["c_int"].astype("Int64") + df["c_Floating"] = df["c_float"].astype("Float64") + + result = getattr(df.groupby("name"), func)(numeric_only=numeric_only) + + expected = DataFrame(values, index=pd.Index(["A", "B"], name="name")) + if numeric_only: + expected = expected.drop(columns=["c_date"]) + else: + expected["c_date_tz"] = expected["c_date"] + expected["c_timedelta"] = expected["c_date"] + expected["c_period"] = expected["c_date"] + expected["c_Integer"] = expected["c_int"] + expected["c_Floating"] = expected["c_float"] + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "data", + [ + ( + Timestamp("2011-01-15 12:50:28.502376"), + Timestamp("2011-01-20 12:50:28.593448"), + ), + (24650000000000001, 24650000000000002), + ], +) +@pytest.mark.parametrize("method", ["count", "min", "max", "first", "last"]) +def test_groupby_non_arithmetic_agg_int_like_precision(method, data): + # GH#6620, GH#9311 + df = DataFrame({"a": [1, 1], "b": data}) + + grouped = df.groupby("a") + result = getattr(grouped, method)() + if method == "count": + expected_value = 2 + elif method == "first": + expected_value = data[0] + elif method == "last": + expected_value = data[1] + else: + expected_value = getattr(df["b"], method)() + expected = DataFrame({"b": [expected_value]}, index=pd.Index([1], name="a")) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("how", ["first", "last"]) +def test_first_last_skipna(any_real_nullable_dtype, sort, skipna, how): + # GH#57019 + na_value = na_value_for_dtype(pandas_dtype(any_real_nullable_dtype)) + df = DataFrame( + { + "a": [2, 1, 1, 2, 3, 3], + "b": [na_value, 3.0, na_value, 4.0, np.nan, np.nan], + "c": [na_value, 3.0, na_value, 4.0, np.nan, np.nan], + }, + dtype=any_real_nullable_dtype, + ) + gb = df.groupby("a", sort=sort) + method = getattr(gb, how) + result = method(skipna=skipna) + + ilocs = { + ("first", True): [3, 1, 4], + ("first", False): [0, 1, 4], + ("last", True): [3, 1, 5], + ("last", False): [3, 2, 5], + }[how, skipna] + expected = df.iloc[ilocs].set_index("a") + if sort: + expected = expected.sort_index() + tm.assert_frame_equal(result, expected) + + +def test_idxmin_idxmax_axis1(): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), columns=["A", "B", "C", "D"] + ) + df["A"] = [1, 2, 3, 1, 2, 3, 1, 2, 3, 4] + + gb = df.groupby("A") + + warn_msg = "DataFrameGroupBy.idxmax with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + res = gb.idxmax(axis=1) + + alt = df.iloc[:, 1:].idxmax(axis=1) + indexer = res.index.get_level_values(1) + + tm.assert_series_equal(alt[indexer], res.droplevel("A")) + + df["E"] = date_range("2016-01-01", periods=10) + gb2 = df.groupby("A") + + msg = "'>' not supported between instances of 'Timestamp' and 'float'" + with pytest.raises(TypeError, match=msg): + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + gb2.idxmax(axis=1) + + +def test_groupby_mean_no_overflow(): + # Regression test for (#22487) + df = DataFrame( + { + "user": ["A", "A", "A", "A", "A"], + "connections": [4970, 4749, 4719, 4704, 18446744073699999744], + } + ) + assert df.groupby("user")["connections"].mean()["A"] == 3689348814740003840 + + +def test_mean_on_timedelta(): + # GH 17382 + df = DataFrame({"time": pd.to_timedelta(range(10)), "cat": ["A", "B"] * 5}) + result = df.groupby("cat")["time"].mean() + expected = Series( + pd.to_timedelta([4, 5]), name="time", index=pd.Index(["A", "B"], name="cat") + ) + tm.assert_series_equal(result, expected) + + +def test_cython_median(): + arr = np.random.default_rng(2).standard_normal(1000) + arr[::2] = np.nan + df = DataFrame(arr) + + labels = np.random.default_rng(2).integers(0, 50, size=1000).astype(float) + labels[::17] = np.nan + + result = df.groupby(labels).median() + msg = "using DataFrameGroupBy.median" + with tm.assert_produces_warning(FutureWarning, match=msg): + exp = df.groupby(labels).agg(np.nanmedian) + tm.assert_frame_equal(result, exp) + + df = DataFrame(np.random.default_rng(2).standard_normal((1000, 5))) + msg = "using DataFrameGroupBy.median" + with tm.assert_produces_warning(FutureWarning, match=msg): + rs = df.groupby(labels).agg(np.median) + xp = df.groupby(labels).median() + tm.assert_frame_equal(rs, xp) + + +def test_median_empty_bins(observed): + df = DataFrame(np.random.default_rng(2).integers(0, 44, 500)) + + grps = range(0, 55, 5) + bins = pd.cut(df[0], grps) + + result = df.groupby(bins, observed=observed).median() + expected = df.groupby(bins, observed=observed).agg(lambda x: x.median()) + tm.assert_frame_equal(result, expected) + + +def test_max_min_non_numeric(): + # #2700 + aa = DataFrame({"nn": [11, 11, 22, 22], "ii": [1, 2, 3, 4], "ss": 4 * ["mama"]}) + + result = aa.groupby("nn").max() + assert "ss" in result + + result = aa.groupby("nn").max(numeric_only=False) + assert "ss" in result + + result = aa.groupby("nn").min() + assert "ss" in result + + result = aa.groupby("nn").min(numeric_only=False) + assert "ss" in result + + +def test_max_min_object_multiple_columns(using_array_manager, using_infer_string): + # GH#41111 case where the aggregation is valid for some columns but not + # others; we split object blocks column-wise, consistent with + # DataFrame._reduce + + df = DataFrame( + { + "A": [1, 1, 2, 2, 3], + "B": [1, "foo", 2, "bar", False], + "C": ["a", "b", "c", "d", "e"], + } + ) + df._consolidate_inplace() # should already be consolidate, but double-check + if not using_array_manager: + assert len(df._mgr.blocks) == 3 if using_infer_string else 2 + + gb = df.groupby("A") + + result = gb[["C"]].max() + # "max" is valid for column "C" but not for "B" + ei = pd.Index([1, 2, 3], name="A") + expected = DataFrame({"C": ["b", "d", "e"]}, index=ei) + tm.assert_frame_equal(result, expected) + + result = gb[["C"]].min() + # "min" is valid for column "C" but not for "B" + ei = pd.Index([1, 2, 3], name="A") + expected = DataFrame({"C": ["a", "c", "e"]}, index=ei) + tm.assert_frame_equal(result, expected) + + +def test_min_date_with_nans(): + # GH26321 + dates = pd.to_datetime( + Series(["2019-05-09", "2019-05-09", "2019-05-09"]), format="%Y-%m-%d" + ).dt.date + df = DataFrame({"a": [np.nan, "1", np.nan], "b": [0, 1, 1], "c": dates}) + + result = df.groupby("b", as_index=False)["c"].min()["c"] + expected = pd.to_datetime( + Series(["2019-05-09", "2019-05-09"], name="c"), format="%Y-%m-%d" + ).dt.date + tm.assert_series_equal(result, expected) + + result = df.groupby("b")["c"].min() + expected.index.name = "b" + tm.assert_series_equal(result, expected) + + +def test_max_inat(): + # GH#40767 dont interpret iNaT as NaN + ser = Series([1, iNaT]) + key = np.array([1, 1], dtype=np.int64) + gb = ser.groupby(key) + + result = gb.max(min_count=2) + expected = Series({1: 1}, dtype=np.int64) + tm.assert_series_equal(result, expected, check_exact=True) + + result = gb.min(min_count=2) + expected = Series({1: iNaT}, dtype=np.int64) + tm.assert_series_equal(result, expected, check_exact=True) + + # not enough entries -> gets masked to NaN + result = gb.min(min_count=3) + expected = Series({1: np.nan}) + tm.assert_series_equal(result, expected, check_exact=True) + + +def test_max_inat_not_all_na(): + # GH#40767 dont interpret iNaT as NaN + + # make sure we dont round iNaT+1 to iNaT + ser = Series([1, iNaT, 2, iNaT + 1]) + gb = ser.groupby([1, 2, 3, 3]) + result = gb.min(min_count=2) + + # Note: in converting to float64, the iNaT + 1 maps to iNaT, i.e. is lossy + expected = Series({1: np.nan, 2: np.nan, 3: iNaT + 1}) + expected.index = expected.index.astype(int) + tm.assert_series_equal(result, expected, check_exact=True) + + +@pytest.mark.parametrize("func", ["min", "max"]) +def test_groupby_aggregate_period_column(func): + # GH 31471 + groups = [1, 2] + periods = pd.period_range("2020", periods=2, freq="Y") + df = DataFrame({"a": groups, "b": periods}) + + result = getattr(df.groupby("a")["b"], func)() + idx = pd.Index([1, 2], name="a") + expected = Series(periods, index=idx, name="b") + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", ["min", "max"]) +def test_groupby_aggregate_period_frame(func): + # GH 31471 + groups = [1, 2] + periods = pd.period_range("2020", periods=2, freq="Y") + df = DataFrame({"a": groups, "b": periods}) + + result = getattr(df.groupby("a"), func)() + idx = pd.Index([1, 2], name="a") + expected = DataFrame({"b": periods}, index=idx) + + tm.assert_frame_equal(result, expected) + + +def test_aggregate_numeric_object_dtype(): + # https://github.com/pandas-dev/pandas/issues/39329 + # simplified case: multiple object columns where one is all-NaN + # -> gets split as the all-NaN is inferred as float + df = DataFrame( + {"key": ["A", "A", "B", "B"], "col1": list("abcd"), "col2": [np.nan] * 4}, + ).astype(object) + result = df.groupby("key").min() + expected = ( + DataFrame( + {"key": ["A", "B"], "col1": ["a", "c"], "col2": [np.nan, np.nan]}, + ) + .set_index("key") + .astype(object) + ) + tm.assert_frame_equal(result, expected) + + # same but with numbers + df = DataFrame( + {"key": ["A", "A", "B", "B"], "col1": list("abcd"), "col2": range(4)}, + ).astype(object) + result = df.groupby("key").min() + expected = ( + DataFrame({"key": ["A", "B"], "col1": ["a", "c"], "col2": [0, 2]}) + .set_index("key") + .astype(object) + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", ["min", "max"]) +def test_aggregate_categorical_lost_index(func: str): + # GH: 28641 groupby drops index, when grouping over categorical column with min/max + ds = Series(["b"], dtype="category").cat.as_ordered() + df = DataFrame({"A": [1997], "B": ds}) + result = df.groupby("A").agg({"B": func}) + expected = DataFrame({"B": ["b"]}, index=pd.Index([1997], name="A")) + + # ordered categorical dtype should be preserved + expected["B"] = expected["B"].astype(ds.dtype) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("dtype", ["Int64", "Int32", "Float64", "Float32", "boolean"]) +def test_groupby_min_max_nullable(dtype): + if dtype == "Int64": + # GH#41743 avoid precision loss + ts = 1618556707013635762 + elif dtype == "boolean": + ts = 0 + else: + ts = 4.0 + + df = DataFrame({"id": [2, 2], "ts": [ts, ts + 1]}) + df["ts"] = df["ts"].astype(dtype) + + gb = df.groupby("id") + + result = gb.min() + expected = df.iloc[:1].set_index("id") + tm.assert_frame_equal(result, expected) + + res_max = gb.max() + expected_max = df.iloc[1:].set_index("id") + tm.assert_frame_equal(res_max, expected_max) + + result2 = gb.min(min_count=3) + expected2 = DataFrame({"ts": [pd.NA]}, index=expected.index, dtype=dtype) + tm.assert_frame_equal(result2, expected2) + + res_max2 = gb.max(min_count=3) + tm.assert_frame_equal(res_max2, expected2) + + # Case with NA values + df2 = DataFrame({"id": [2, 2, 2], "ts": [ts, pd.NA, ts + 1]}) + df2["ts"] = df2["ts"].astype(dtype) + gb2 = df2.groupby("id") + + result3 = gb2.min() + tm.assert_frame_equal(result3, expected) + + res_max3 = gb2.max() + tm.assert_frame_equal(res_max3, expected_max) + + result4 = gb2.min(min_count=100) + tm.assert_frame_equal(result4, expected2) + + res_max4 = gb2.max(min_count=100) + tm.assert_frame_equal(res_max4, expected2) + + +def test_min_max_nullable_uint64_empty_group(): + # don't raise NotImplementedError from libgroupby + cat = pd.Categorical([0] * 10, categories=[0, 1]) + df = DataFrame({"A": cat, "B": pd.array(np.arange(10, dtype=np.uint64))}) + gb = df.groupby("A", observed=False) + + res = gb.min() + + idx = pd.CategoricalIndex([0, 1], dtype=cat.dtype, name="A") + expected = DataFrame({"B": pd.array([0, pd.NA], dtype="UInt64")}, index=idx) + tm.assert_frame_equal(res, expected) + + res = gb.max() + expected.iloc[0, 0] = 9 + tm.assert_frame_equal(res, expected) + + +@pytest.mark.parametrize("func", ["first", "last", "min", "max"]) +def test_groupby_min_max_categorical(func): + # GH: 52151 + df = DataFrame( + { + "col1": pd.Categorical(["A"], categories=list("AB"), ordered=True), + "col2": pd.Categorical([1], categories=[1, 2], ordered=True), + "value": 0.1, + } + ) + result = getattr(df.groupby("col1", observed=False), func)() + + idx = pd.CategoricalIndex(data=["A", "B"], name="col1", ordered=True) + expected = DataFrame( + { + "col2": pd.Categorical([1, None], categories=[1, 2], ordered=True), + "value": [0.1, None], + }, + index=idx, + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("func", ["min", "max"]) +def test_min_empty_string_dtype(func, string_dtype_no_object): + # GH#55619 + dtype = string_dtype_no_object + df = DataFrame({"a": ["a"], "b": "a", "c": "a"}, dtype=dtype).iloc[:0] + result = getattr(df.groupby("a"), func)() + expected = DataFrame( + columns=["b", "c"], dtype=dtype, index=pd.Index([], dtype=dtype, name="a") + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("min_count", [0, 1]) +@pytest.mark.parametrize("test_series", [True, False]) +def test_string_dtype_all_na( + string_dtype_no_object, reduction_func, min_count, test_series +): + # https://github.com/pandas-dev/pandas/issues/60985 + if reduction_func == "corrwith": + # corrwith is deprecated. + return + + dtype = string_dtype_no_object + + if reduction_func in [ + "any", + "all", + "idxmin", + "idxmax", + "mean", + "median", + "std", + "var", + ]: + kwargs = {} + elif reduction_func in ["kurt"]: + kwargs = {"min_count": min_count} + elif reduction_func in ["count", "nunique", "quantile", "sem", "size"]: + kwargs = {} + else: + kwargs = {"min_count": min_count} + + expected_dtype, expected_value = dtype, pd.NA + if reduction_func in ["all", "any"]: + expected_dtype = "bool" + # TODO: For skipna=False, bool(pd.NA) raises; should groupby? + expected_value = False if reduction_func == "any" else True + elif reduction_func in ["count", "nunique", "size"]: + # TODO: Should be more consistent - return Int64 when dtype.na_value is pd.NA? + if ( + test_series + and reduction_func == "size" + and dtype.storage == "pyarrow" + and dtype.na_value is pd.NA + ): + expected_dtype = "Int64" + else: + expected_dtype = "int64" + expected_value = 1 if reduction_func == "size" else 0 + elif reduction_func in ["idxmin", "idxmax"]: + expected_dtype, expected_value = "float64", np.nan + elif min_count > 0: + expected_value = pd.NA + elif reduction_func == "sum": + # https://github.com/pandas-dev/pandas/pull/60936 + expected_value = "" + + df = DataFrame({"a": ["x"], "b": [pd.NA]}, dtype=dtype) + obj = df["b"] if test_series else df + args = get_groupby_method_args(reduction_func, obj) + gb = obj.groupby(df["a"]) + method = getattr(gb, reduction_func) + + if reduction_func in [ + "mean", + "median", + "kurt", + "prod", + "quantile", + "sem", + "skew", + "std", + "var", + ]: + msg = f"dtype '{dtype}' does not support operation '{reduction_func}'" + with pytest.raises(TypeError, match=msg): + method(*args, **kwargs) + return + + result = method(*args, **kwargs) + index = pd.Index(["x"], name="a", dtype=dtype) + if test_series or reduction_func == "size": + name = None if not test_series and reduction_func == "size" else "b" + expected = Series(expected_value, index=index, dtype=expected_dtype, name=name) + else: + expected = DataFrame({"b": expected_value}, index=index, dtype=expected_dtype) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("min_count", [0, 1]) +def test_string_dtype_empty_sum(string_dtype_no_object, min_count): + # https://github.com/pandas-dev/pandas/issues/60229 + dtype = string_dtype_no_object + df = DataFrame({"a": ["x"], "b": [pd.NA]}, dtype=dtype) + gb = df.groupby("a") + result = gb.sum(min_count=min_count) + value = "" if min_count == 0 else pd.NA + expected = DataFrame( + {"b": value}, index=pd.Index(["x"], name="a", dtype=dtype), dtype=dtype + ) + tm.assert_frame_equal(result, expected) + + +def test_max_nan_bug(): + df = DataFrame( + { + "Unnamed: 0": ["-04-23", "-05-06", "-05-07"], + "Date": [ + "2013-04-23 00:00:00", + "2013-05-06 00:00:00", + "2013-05-07 00:00:00", + ], + "app": Series([np.nan, np.nan, "OE"]), + "File": ["log080001.log", "log.log", "xlsx"], + } + ) + gb = df.groupby("Date") + r = gb[["File"]].max() + e = gb["File"].max().to_frame() + tm.assert_frame_equal(r, e) + assert not r["File"].isna().any() + + +@pytest.mark.slow +@pytest.mark.parametrize("sort", [False, True]) +@pytest.mark.parametrize("dropna", [False, True]) +@pytest.mark.parametrize("as_index", [True, False]) +@pytest.mark.parametrize("with_nan", [True, False]) +@pytest.mark.parametrize("keys", [["joe"], ["joe", "jim"]]) +def test_series_groupby_nunique(sort, dropna, as_index, with_nan, keys): + n = 100 + m = 10 + days = date_range("2015-08-23", periods=10) + df = DataFrame( + { + "jim": np.random.default_rng(2).choice(list(ascii_lowercase), n), + "joe": np.random.default_rng(2).choice(days, n), + "julie": np.random.default_rng(2).integers(0, m, n), + } + ) + if with_nan: + df = df.astype({"julie": float}) # Explicit cast to avoid implicit cast below + df.loc[1::17, "jim"] = None + df.loc[3::37, "joe"] = None + df.loc[7::19, "julie"] = None + df.loc[8::19, "julie"] = None + df.loc[9::19, "julie"] = None + original_df = df.copy() + gr = df.groupby(keys, as_index=as_index, sort=sort) + left = gr["julie"].nunique(dropna=dropna) + + gr = df.groupby(keys, as_index=as_index, sort=sort) + right = gr["julie"].apply(Series.nunique, dropna=dropna) + if not as_index: + right = right.reset_index(drop=True) + + if as_index: + tm.assert_series_equal(left, right, check_names=False) + else: + tm.assert_frame_equal(left, right, check_names=False) + tm.assert_frame_equal(df, original_df) + + +def test_nunique(): + df = DataFrame({"A": list("abbacc"), "B": list("abxacc"), "C": list("abbacx")}) + + expected = DataFrame({"A": list("abc"), "B": [1, 2, 1], "C": [1, 1, 2]}) + result = df.groupby("A", as_index=False).nunique() + tm.assert_frame_equal(result, expected) + + # as_index + expected.index = list("abc") + expected.index.name = "A" + expected = expected.drop(columns="A") + result = df.groupby("A").nunique() + tm.assert_frame_equal(result, expected) + + # with na + result = df.replace({"x": None}).groupby("A").nunique(dropna=False) + tm.assert_frame_equal(result, expected) + + # dropna + expected = DataFrame({"B": [1] * 3, "C": [1] * 3}, index=list("abc")) + expected.index.name = "A" + result = df.replace({"x": None}).groupby("A").nunique() + tm.assert_frame_equal(result, expected) + + +def test_nunique_with_object(): + # GH 11077 + data = DataFrame( + [ + [100, 1, "Alice"], + [200, 2, "Bob"], + [300, 3, "Charlie"], + [-400, 4, "Dan"], + [500, 5, "Edith"], + ], + columns=["amount", "id", "name"], + ) + + result = data.groupby(["id", "amount"])["name"].nunique() + index = MultiIndex.from_arrays([data.id, data.amount]) + expected = Series([1] * 5, name="name", index=index) + tm.assert_series_equal(result, expected) + + +def test_nunique_with_empty_series(): + # GH 12553 + data = Series(name="name", dtype=object) + result = data.groupby(level=0).nunique() + expected = Series(name="name", dtype="int64") + tm.assert_series_equal(result, expected) + + +def test_nunique_with_timegrouper(): + # GH 13453 + test = DataFrame( + { + "time": [ + Timestamp("2016-06-28 09:35:35"), + Timestamp("2016-06-28 16:09:30"), + Timestamp("2016-06-28 16:46:28"), + ], + "data": ["1", "2", "3"], + } + ).set_index("time") + result = test.groupby(pd.Grouper(freq="h"))["data"].nunique() + expected = test.groupby(pd.Grouper(freq="h"))["data"].apply(Series.nunique) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "key, data, dropna, expected", + [ + ( + ["x", "x", "x"], + [Timestamp("2019-01-01"), pd.NaT, Timestamp("2019-01-01")], + True, + Series([1], index=pd.Index(["x"], name="key"), name="data"), + ), + ( + ["x", "x", "x"], + [dt.date(2019, 1, 1), pd.NaT, dt.date(2019, 1, 1)], + True, + Series([1], index=pd.Index(["x"], name="key"), name="data"), + ), + ( + ["x", "x", "x", "y", "y"], + [ + dt.date(2019, 1, 1), + pd.NaT, + dt.date(2019, 1, 1), + pd.NaT, + dt.date(2019, 1, 1), + ], + False, + Series([2, 2], index=pd.Index(["x", "y"], name="key"), name="data"), + ), + ( + ["x", "x", "x", "x", "y"], + [ + dt.date(2019, 1, 1), + pd.NaT, + dt.date(2019, 1, 1), + pd.NaT, + dt.date(2019, 1, 1), + ], + False, + Series([2, 1], index=pd.Index(["x", "y"], name="key"), name="data"), + ), + ], +) +def test_nunique_with_NaT(key, data, dropna, expected): + # GH 27951 + df = DataFrame({"key": key, "data": data}) + result = df.groupby(["key"])["data"].nunique(dropna=dropna) + tm.assert_series_equal(result, expected) + + +def test_nunique_preserves_column_level_names(): + # GH 23222 + test = DataFrame([1, 2, 2], columns=pd.Index(["A"], name="level_0")) + result = test.groupby([0, 0, 0]).nunique() + expected = DataFrame([2], index=np.array([0]), columns=test.columns) + tm.assert_frame_equal(result, expected) + + +def test_nunique_transform_with_datetime(): + # GH 35109 - transform with nunique on datetimes results in integers + df = DataFrame(date_range("2008-12-31", "2009-01-02"), columns=["date"]) + result = df.groupby([0, 0, 1])["date"].transform("nunique") + expected = Series([2, 2, 1], name="date") + tm.assert_series_equal(result, expected) + + +def test_empty_categorical(observed): + # GH#21334 + cat = Series([1]).astype("category") + ser = cat[:0] + gb = ser.groupby(ser, observed=observed) + result = gb.nunique() + if observed: + expected = Series([], index=cat[:0], dtype="int64") + else: + expected = Series([0], index=cat, dtype="int64") + tm.assert_series_equal(result, expected) + + +def test_intercept_builtin_sum(): + s = Series([1.0, 2.0, np.nan, 3.0]) + grouped = s.groupby([0, 1, 2, 2]) + + msg = "using SeriesGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result = grouped.agg(builtins.sum) + msg = "using np.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + # GH#53425 + result2 = grouped.apply(builtins.sum) + expected = grouped.sum() + tm.assert_series_equal(result, expected) + tm.assert_series_equal(result2, expected) + + +@pytest.mark.parametrize("min_count", [0, 10]) +def test_groupby_sum_mincount_boolean(min_count): + b = True + a = False + na = np.nan + dfg = pd.array([b, b, na, na, a, a, b], dtype="boolean") + + df = DataFrame({"A": [1, 1, 2, 2, 3, 3, 1], "B": dfg}) + result = df.groupby("A").sum(min_count=min_count) + if min_count == 0: + expected = DataFrame( + {"B": pd.array([3, 0, 0], dtype="Int64")}, + index=pd.Index([1, 2, 3], name="A"), + ) + tm.assert_frame_equal(result, expected) + else: + expected = DataFrame( + {"B": pd.array([pd.NA] * 3, dtype="Int64")}, + index=pd.Index([1, 2, 3], name="A"), + ) + tm.assert_frame_equal(result, expected) + + +def test_groupby_sum_below_mincount_nullable_integer(): + # https://github.com/pandas-dev/pandas/issues/32861 + df = DataFrame({"a": [0, 1, 2], "b": [0, 1, 2], "c": [0, 1, 2]}, dtype="Int64") + grouped = df.groupby("a") + idx = pd.Index([0, 1, 2], name="a", dtype="Int64") + + result = grouped["b"].sum(min_count=2) + expected = Series([pd.NA] * 3, dtype="Int64", index=idx, name="b") + tm.assert_series_equal(result, expected) + + result = grouped.sum(min_count=2) + expected = DataFrame({"b": [pd.NA] * 3, "c": [pd.NA] * 3}, dtype="Int64", index=idx) + tm.assert_frame_equal(result, expected) + + +def test_groupby_sum_timedelta_with_nat(): + # GH#42659 + df = DataFrame( + { + "a": [1, 1, 2, 2], + "b": [pd.Timedelta("1d"), pd.Timedelta("2d"), pd.Timedelta("3d"), pd.NaT], + } + ) + td3 = pd.Timedelta(days=3) + + gb = df.groupby("a") + + res = gb.sum() + expected = DataFrame({"b": [td3, td3]}, index=pd.Index([1, 2], name="a")) + tm.assert_frame_equal(res, expected) + + res = gb["b"].sum() + tm.assert_series_equal(res, expected["b"]) + + res = gb["b"].sum(min_count=2) + expected = Series([td3, pd.NaT], dtype="m8[ns]", name="b", index=expected.index) + tm.assert_series_equal(res, expected) + + +@pytest.mark.parametrize( + "dtype", ["int8", "int16", "int32", "int64", "float32", "float64", "uint64"] +) +@pytest.mark.parametrize( + "method,data", + [ + ("first", {"df": [{"a": 1, "b": 1}, {"a": 2, "b": 3}]}), + ("last", {"df": [{"a": 1, "b": 2}, {"a": 2, "b": 4}]}), + ("min", {"df": [{"a": 1, "b": 1}, {"a": 2, "b": 3}]}), + ("max", {"df": [{"a": 1, "b": 2}, {"a": 2, "b": 4}]}), + ("count", {"df": [{"a": 1, "b": 2}, {"a": 2, "b": 2}], "out_type": "int64"}), + ], +) +def test_groupby_non_arithmetic_agg_types(dtype, method, data): + # GH9311, GH6620 + df = DataFrame( + [{"a": 1, "b": 1}, {"a": 1, "b": 2}, {"a": 2, "b": 3}, {"a": 2, "b": 4}] + ) + + df["b"] = df.b.astype(dtype) + + if "args" not in data: + data["args"] = [] + + if "out_type" in data: + out_type = data["out_type"] + else: + out_type = dtype + + exp = data["df"] + df_out = DataFrame(exp) + + df_out["b"] = df_out.b.astype(out_type) + df_out.set_index("a", inplace=True) + + grpd = df.groupby("a") + t = getattr(grpd, method)(*data["args"]) + tm.assert_frame_equal(t, df_out) + + +def scipy_sem(*args, **kwargs): + from scipy.stats import sem + + return sem(*args, ddof=1, **kwargs) + + +@pytest.mark.parametrize( + "op,targop", + [ + ("mean", np.mean), + ("median", np.median), + ("std", np.std), + ("var", np.var), + ("sum", np.sum), + ("prod", np.prod), + ("min", np.min), + ("max", np.max), + ("first", lambda x: x.iloc[0]), + ("last", lambda x: x.iloc[-1]), + ("count", np.size), + pytest.param("sem", scipy_sem, marks=td.skip_if_no("scipy")), + ], +) +def test_ops_general(op, targop): + df = DataFrame(np.random.default_rng(2).standard_normal(1000)) + labels = np.random.default_rng(2).integers(0, 50, size=1000).astype(float) + + result = getattr(df.groupby(labels), op)() + warn = None if op in ("first", "last", "count", "sem") else FutureWarning + msg = f"using DataFrameGroupBy.{op}" + with tm.assert_produces_warning(warn, match=msg): + expected = df.groupby(labels).agg(targop) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "values", + [ + { + "a": [1, 1, 1, 2, 2, 2, 3, 3, 3], + "b": [1, pd.NA, 2, 1, pd.NA, 2, 1, pd.NA, 2], + }, + {"a": [1, 1, 2, 2, 3, 3], "b": [1, 2, 1, 2, 1, 2]}, + ], +) +@pytest.mark.parametrize("function", ["mean", "median", "var"]) +def test_apply_to_nullable_integer_returns_float(values, function): + # https://github.com/pandas-dev/pandas/issues/32219 + output = 0.5 if function == "var" else 1.5 + arr = np.array([output] * 3, dtype=float) + idx = pd.Index([1, 2, 3], name="a", dtype="Int64") + expected = DataFrame({"b": arr}, index=idx).astype("Float64") + + groups = DataFrame(values, dtype="Int64").groupby("a") + + result = getattr(groups, function)() + tm.assert_frame_equal(result, expected) + + result = groups.agg(function) + tm.assert_frame_equal(result, expected) + + result = groups.agg([function]) + expected.columns = MultiIndex.from_tuples([("b", function)]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "op", + [ + "sum", + "prod", + "min", + "max", + "median", + "mean", + "skew", + "std", + "var", + "sem", + ], +) +@pytest.mark.parametrize("axis", [0, 1]) +@pytest.mark.parametrize("skipna", [True, False]) +@pytest.mark.parametrize("sort", [True, False]) +def test_regression_allowlist_methods(op, axis, skipna, sort): + # GH6944 + # GH 17537 + # explicitly test the allowlist methods + raw_frame = DataFrame([0]) + if axis == 0: + frame = raw_frame + msg = "The 'axis' keyword in DataFrame.groupby is deprecated and will be" + else: + frame = raw_frame.T + msg = "DataFrame.groupby with axis=1 is deprecated" + + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = frame.groupby(level=0, axis=axis, sort=sort) + + if op == "skew": + # skew has skipna + result = getattr(grouped, op)(skipna=skipna) + expected = frame.groupby(level=0).apply( + lambda h: getattr(h, op)(axis=axis, skipna=skipna) + ) + if sort: + expected = expected.sort_index(axis=axis) + tm.assert_frame_equal(result, expected) + else: + result = getattr(grouped, op)() + expected = frame.groupby(level=0).apply(lambda h: getattr(h, op)(axis=axis)) + if sort: + expected = expected.sort_index(axis=axis) + tm.assert_frame_equal(result, expected) + + +def test_groupby_prod_with_int64_dtype(): + # GH#46573 + data = [ + [1, 11], + [1, 41], + [1, 17], + [1, 37], + [1, 7], + [1, 29], + [1, 31], + [1, 2], + [1, 3], + [1, 43], + [1, 5], + [1, 47], + [1, 19], + [1, 88], + ] + df = DataFrame(data, columns=["A", "B"], dtype="int64") + result = df.groupby(["A"]).prod().reset_index() + expected = DataFrame({"A": [1], "B": [180970905912331920]}, dtype="int64") + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_timegrouper.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_timegrouper.py new file mode 100644 index 0000000000000000000000000000000000000000..3bae719e01b7352aa381d826d179739dc5f5cb5b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/test_timegrouper.py @@ -0,0 +1,968 @@ +""" +test with the TimeGrouper / grouping with datetimes +""" +from datetime import ( + datetime, + timedelta, +) + +import numpy as np +import pytest +import pytz + +from pandas._config import using_string_dtype + +import pandas as pd +from pandas import ( + DataFrame, + DatetimeIndex, + Index, + MultiIndex, + Series, + Timestamp, + date_range, + offsets, +) +import pandas._testing as tm +from pandas.core.groupby.grouper import Grouper +from pandas.core.groupby.ops import BinGrouper + + +@pytest.fixture +def frame_for_truncated_bingrouper(): + """ + DataFrame used by groupby_with_truncated_bingrouper, made into + a separate fixture for easier reuse in + test_groupby_apply_timegrouper_with_nat_apply_squeeze + """ + df = DataFrame( + { + "Quantity": [18, 3, 5, 1, 9, 3], + "Date": [ + Timestamp(2013, 9, 1, 13, 0), + Timestamp(2013, 9, 1, 13, 5), + Timestamp(2013, 10, 1, 20, 0), + Timestamp(2013, 10, 3, 10, 0), + pd.NaT, + Timestamp(2013, 9, 2, 14, 0), + ], + } + ) + return df + + +@pytest.fixture +def groupby_with_truncated_bingrouper(frame_for_truncated_bingrouper): + """ + GroupBy object such that gb._grouper is a BinGrouper and + len(gb._grouper.result_index) < len(gb._grouper.group_keys_seq) + + Aggregations on this groupby should have + + dti = date_range("2013-09-01", "2013-10-01", freq="5D", name="Date") + + As either the index or an index level. + """ + df = frame_for_truncated_bingrouper + + tdg = Grouper(key="Date", freq="5D") + gb = df.groupby(tdg) + + # check we're testing the case we're interested in + assert len(gb._grouper.result_index) != len(gb._grouper.group_keys_seq) + + return gb + + +class TestGroupBy: + # TODO(infer_string) resample sum introduces 0's + # https://github.com/pandas-dev/pandas/issues/60229 + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)") + def test_groupby_with_timegrouper(self): + # GH 4161 + # TimeGrouper requires a sorted index + # also verifies that the resultant index has the correct name + df_original = DataFrame( + { + "Buyer": "Carl Carl Carl Carl Joe Carl".split(), + "Quantity": [18, 3, 5, 1, 9, 3], + "Date": [ + datetime(2013, 9, 1, 13, 0), + datetime(2013, 9, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 3, 10, 0), + datetime(2013, 12, 2, 12, 0), + datetime(2013, 9, 2, 14, 0), + ], + } + ) + + # GH 6908 change target column's order + df_reordered = df_original.sort_values(by="Quantity") + + for df in [df_original, df_reordered]: + df = df.set_index(["Date"]) + + exp_dti = date_range( + "20130901", + "20131205", + freq="5D", + name="Date", + inclusive="left", + unit=df.index.unit, + ) + expected = DataFrame( + {"Buyer": 0, "Quantity": 0}, + index=exp_dti, + ) + # Cast to object to avoid implicit cast when setting entry to "CarlCarlCarl" + expected = expected.astype({"Buyer": object}) + expected.iloc[0, 0] = "CarlCarlCarl" + expected.iloc[6, 0] = "CarlCarl" + expected.iloc[18, 0] = "Joe" + expected.iloc[[0, 6, 18], 1] = np.array([24, 6, 9], dtype="int64") + + result1 = df.resample("5D").sum() + tm.assert_frame_equal(result1, expected) + + df_sorted = df.sort_index() + result2 = df_sorted.groupby(Grouper(freq="5D")).sum() + tm.assert_frame_equal(result2, expected) + + result3 = df.groupby(Grouper(freq="5D")).sum() + tm.assert_frame_equal(result3, expected) + + @pytest.mark.parametrize("should_sort", [True, False]) + def test_groupby_with_timegrouper_methods(self, should_sort): + # GH 3881 + # make sure API of timegrouper conforms + + df = DataFrame( + { + "Branch": "A A A A A B".split(), + "Buyer": "Carl Mark Carl Joe Joe Carl".split(), + "Quantity": [1, 3, 5, 8, 9, 3], + "Date": [ + datetime(2013, 1, 1, 13, 0), + datetime(2013, 1, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 2, 10, 0), + datetime(2013, 12, 2, 12, 0), + datetime(2013, 12, 2, 14, 0), + ], + } + ) + + if should_sort: + df = df.sort_values(by="Quantity", ascending=False) + + df = df.set_index("Date", drop=False) + g = df.groupby(Grouper(freq="6ME")) + assert g.group_keys + + assert isinstance(g._grouper, BinGrouper) + groups = g.groups + assert isinstance(groups, dict) + assert len(groups) == 3 + + def test_timegrouper_with_reg_groups(self): + # GH 3794 + # allow combination of timegrouper/reg groups + + df_original = DataFrame( + { + "Branch": "A A A A A A A B".split(), + "Buyer": "Carl Mark Carl Carl Joe Joe Joe Carl".split(), + "Quantity": [1, 3, 5, 1, 8, 1, 9, 3], + "Date": [ + datetime(2013, 1, 1, 13, 0), + datetime(2013, 1, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 2, 10, 0), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 2, 10, 0), + datetime(2013, 12, 2, 12, 0), + datetime(2013, 12, 2, 14, 0), + ], + } + ).set_index("Date") + + df_sorted = df_original.sort_values(by="Quantity", ascending=False) + + for df in [df_original, df_sorted]: + expected = DataFrame( + { + "Buyer": "Carl Joe Mark".split(), + "Quantity": [10, 18, 3], + "Date": [ + datetime(2013, 12, 31, 0, 0), + datetime(2013, 12, 31, 0, 0), + datetime(2013, 12, 31, 0, 0), + ], + } + ).set_index(["Date", "Buyer"]) + + msg = "The default value of numeric_only" + result = df.groupby([Grouper(freq="YE"), "Buyer"]).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + expected = DataFrame( + { + "Buyer": "Carl Mark Carl Joe".split(), + "Quantity": [1, 3, 9, 18], + "Date": [ + datetime(2013, 1, 1, 0, 0), + datetime(2013, 1, 1, 0, 0), + datetime(2013, 7, 1, 0, 0), + datetime(2013, 7, 1, 0, 0), + ], + } + ).set_index(["Date", "Buyer"]) + result = df.groupby([Grouper(freq="6MS"), "Buyer"]).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + df_original = DataFrame( + { + "Branch": "A A A A A A A B".split(), + "Buyer": "Carl Mark Carl Carl Joe Joe Joe Carl".split(), + "Quantity": [1, 3, 5, 1, 8, 1, 9, 3], + "Date": [ + datetime(2013, 10, 1, 13, 0), + datetime(2013, 10, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 2, 10, 0), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 2, 10, 0), + datetime(2013, 10, 2, 12, 0), + datetime(2013, 10, 2, 14, 0), + ], + } + ).set_index("Date") + + df_sorted = df_original.sort_values(by="Quantity", ascending=False) + for df in [df_original, df_sorted]: + expected = DataFrame( + { + "Buyer": "Carl Joe Mark Carl Joe".split(), + "Quantity": [6, 8, 3, 4, 10], + "Date": [ + datetime(2013, 10, 1, 0, 0), + datetime(2013, 10, 1, 0, 0), + datetime(2013, 10, 1, 0, 0), + datetime(2013, 10, 2, 0, 0), + datetime(2013, 10, 2, 0, 0), + ], + } + ).set_index(["Date", "Buyer"]) + + result = df.groupby([Grouper(freq="1D"), "Buyer"]).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + result = df.groupby([Grouper(freq="1ME"), "Buyer"]).sum(numeric_only=True) + expected = DataFrame( + { + "Buyer": "Carl Joe Mark".split(), + "Quantity": [10, 18, 3], + "Date": [ + datetime(2013, 10, 31, 0, 0), + datetime(2013, 10, 31, 0, 0), + datetime(2013, 10, 31, 0, 0), + ], + } + ).set_index(["Date", "Buyer"]) + tm.assert_frame_equal(result, expected) + + # passing the name + df = df.reset_index() + result = df.groupby([Grouper(freq="1ME", key="Date"), "Buyer"]).sum( + numeric_only=True + ) + tm.assert_frame_equal(result, expected) + + with pytest.raises(KeyError, match="'The grouper name foo is not found'"): + df.groupby([Grouper(freq="1ME", key="foo"), "Buyer"]).sum() + + # passing the level + df = df.set_index("Date") + result = df.groupby([Grouper(freq="1ME", level="Date"), "Buyer"]).sum( + numeric_only=True + ) + tm.assert_frame_equal(result, expected) + result = df.groupby([Grouper(freq="1ME", level=0), "Buyer"]).sum( + numeric_only=True + ) + tm.assert_frame_equal(result, expected) + + with pytest.raises(ValueError, match="The level foo is not valid"): + df.groupby([Grouper(freq="1ME", level="foo"), "Buyer"]).sum() + + # multi names + df = df.copy() + df["Date"] = df.index + offsets.MonthEnd(2) + result = df.groupby([Grouper(freq="1ME", key="Date"), "Buyer"]).sum( + numeric_only=True + ) + expected = DataFrame( + { + "Buyer": "Carl Joe Mark".split(), + "Quantity": [10, 18, 3], + "Date": [ + datetime(2013, 11, 30, 0, 0), + datetime(2013, 11, 30, 0, 0), + datetime(2013, 11, 30, 0, 0), + ], + } + ).set_index(["Date", "Buyer"]) + tm.assert_frame_equal(result, expected) + + # error as we have both a level and a name! + msg = "The Grouper cannot specify both a key and a level!" + with pytest.raises(ValueError, match=msg): + df.groupby( + [Grouper(freq="1ME", key="Date", level="Date"), "Buyer"] + ).sum() + + # single groupers + expected = DataFrame( + [[31]], + columns=["Quantity"], + index=DatetimeIndex( + [datetime(2013, 10, 31, 0, 0)], freq=offsets.MonthEnd(), name="Date" + ), + ) + result = df.groupby(Grouper(freq="1ME")).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + result = df.groupby([Grouper(freq="1ME")]).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + expected.index = expected.index.shift(1) + assert expected.index.freq == offsets.MonthEnd() + result = df.groupby(Grouper(freq="1ME", key="Date")).sum(numeric_only=True) + tm.assert_frame_equal(result, expected) + + result = df.groupby([Grouper(freq="1ME", key="Date")]).sum( + numeric_only=True + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("freq", ["D", "ME", "YE", "QE-APR"]) + def test_timegrouper_with_reg_groups_freq(self, freq): + # GH 6764 multiple grouping with/without sort + df = DataFrame( + { + "date": pd.to_datetime( + [ + "20121002", + "20121007", + "20130130", + "20130202", + "20130305", + "20121002", + "20121207", + "20130130", + "20130202", + "20130305", + "20130202", + "20130305", + ] + ), + "user_id": [1, 1, 1, 1, 1, 3, 3, 3, 5, 5, 5, 5], + "whole_cost": [ + 1790, + 364, + 280, + 259, + 201, + 623, + 90, + 312, + 359, + 301, + 359, + 801, + ], + "cost1": [12, 15, 10, 24, 39, 1, 0, 90, 45, 34, 1, 12], + } + ).set_index("date") + + expected = ( + df.groupby("user_id")["whole_cost"] + .resample(freq) + .sum(min_count=1) # XXX + .dropna() + .reorder_levels(["date", "user_id"]) + .sort_index() + .astype("int64") + ) + expected.name = "whole_cost" + + result1 = ( + df.sort_index().groupby([Grouper(freq=freq), "user_id"])["whole_cost"].sum() + ) + tm.assert_series_equal(result1, expected) + + result2 = df.groupby([Grouper(freq=freq), "user_id"])["whole_cost"].sum() + tm.assert_series_equal(result2, expected) + + def test_timegrouper_get_group(self): + # GH 6914 + + df_original = DataFrame( + { + "Buyer": "Carl Joe Joe Carl Joe Carl".split(), + "Quantity": [18, 3, 5, 1, 9, 3], + "Date": [ + datetime(2013, 9, 1, 13, 0), + datetime(2013, 9, 1, 13, 5), + datetime(2013, 10, 1, 20, 0), + datetime(2013, 10, 3, 10, 0), + datetime(2013, 12, 2, 12, 0), + datetime(2013, 9, 2, 14, 0), + ], + } + ) + df_reordered = df_original.sort_values(by="Quantity") + + # single grouping + expected_list = [ + df_original.iloc[[0, 1, 5]], + df_original.iloc[[2, 3]], + df_original.iloc[[4]], + ] + dt_list = ["2013-09-30", "2013-10-31", "2013-12-31"] + + for df in [df_original, df_reordered]: + grouped = df.groupby(Grouper(freq="ME", key="Date")) + for t, expected in zip(dt_list, expected_list): + dt = Timestamp(t) + result = grouped.get_group(dt) + tm.assert_frame_equal(result, expected) + + # multiple grouping + expected_list = [ + df_original.iloc[[1]], + df_original.iloc[[3]], + df_original.iloc[[4]], + ] + g_list = [("Joe", "2013-09-30"), ("Carl", "2013-10-31"), ("Joe", "2013-12-31")] + + for df in [df_original, df_reordered]: + grouped = df.groupby(["Buyer", Grouper(freq="ME", key="Date")]) + for (b, t), expected in zip(g_list, expected_list): + dt = Timestamp(t) + result = grouped.get_group((b, dt)) + tm.assert_frame_equal(result, expected) + + # with index + df_original = df_original.set_index("Date") + df_reordered = df_original.sort_values(by="Quantity") + + expected_list = [ + df_original.iloc[[0, 1, 5]], + df_original.iloc[[2, 3]], + df_original.iloc[[4]], + ] + + for df in [df_original, df_reordered]: + grouped = df.groupby(Grouper(freq="ME")) + for t, expected in zip(dt_list, expected_list): + dt = Timestamp(t) + result = grouped.get_group(dt) + tm.assert_frame_equal(result, expected) + + def test_timegrouper_apply_return_type_series(self): + # Using `apply` with the `TimeGrouper` should give the + # same return type as an `apply` with a `Grouper`. + # Issue #11742 + df = DataFrame({"date": ["10/10/2000", "11/10/2000"], "value": [10, 13]}) + df_dt = df.copy() + df_dt["date"] = pd.to_datetime(df_dt["date"]) + + def sumfunc_series(x): + return Series([x["value"].sum()], ("sum",)) + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby(Grouper(key="date")).apply(sumfunc_series) + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df_dt.groupby(Grouper(freq="ME", key="date")).apply(sumfunc_series) + tm.assert_frame_equal( + result.reset_index(drop=True), expected.reset_index(drop=True) + ) + + def test_timegrouper_apply_return_type_value(self): + # Using `apply` with the `TimeGrouper` should give the + # same return type as an `apply` with a `Grouper`. + # Issue #11742 + df = DataFrame({"date": ["10/10/2000", "11/10/2000"], "value": [10, 13]}) + df_dt = df.copy() + df_dt["date"] = pd.to_datetime(df_dt["date"]) + + def sumfunc_value(x): + return x.value.sum() + + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby(Grouper(key="date")).apply(sumfunc_value) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df_dt.groupby(Grouper(freq="ME", key="date")).apply(sumfunc_value) + tm.assert_series_equal( + result.reset_index(drop=True), expected.reset_index(drop=True) + ) + + def test_groupby_groups_datetimeindex(self): + # GH#1430 + periods = 1000 + ind = date_range(start="2012/1/1", freq="5min", periods=periods) + df = DataFrame( + {"high": np.arange(periods), "low": np.arange(periods)}, index=ind + ) + grouped = df.groupby(lambda x: datetime(x.year, x.month, x.day)) + + # it works! + groups = grouped.groups + assert isinstance(next(iter(groups.keys())), datetime) + + def test_groupby_groups_datetimeindex2(self): + # GH#11442 + index = date_range("2015/01/01", periods=5, name="date") + df = DataFrame({"A": [5, 6, 7, 8, 9], "B": [1, 2, 3, 4, 5]}, index=index) + result = df.groupby(level="date").groups + dates = ["2015-01-05", "2015-01-04", "2015-01-03", "2015-01-02", "2015-01-01"] + expected = { + Timestamp(date): DatetimeIndex([date], name="date") for date in dates + } + tm.assert_dict_equal(result, expected) + + grouped = df.groupby(level="date") + for date in dates: + result = grouped.get_group(date) + data = [[df.loc[date, "A"], df.loc[date, "B"]]] + expected_index = DatetimeIndex( + [date], name="date", freq="D", dtype=index.dtype + ) + expected = DataFrame(data, columns=list("AB"), index=expected_index) + tm.assert_frame_equal(result, expected) + + def test_groupby_groups_datetimeindex_tz(self): + # GH 3950 + dates = [ + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + ] + df = DataFrame( + { + "label": ["a", "a", "a", "b", "b", "b"], + "datetime": dates, + "value1": np.arange(6, dtype="int64"), + "value2": [1, 2] * 3, + } + ) + df["datetime"] = df["datetime"].apply(lambda d: Timestamp(d, tz="US/Pacific")) + + exp_idx1 = DatetimeIndex( + [ + "2011-07-19 07:00:00", + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + "2011-07-19 09:00:00", + ], + tz="US/Pacific", + name="datetime", + ) + exp_idx2 = Index(["a", "b"] * 3, name="label") + exp_idx = MultiIndex.from_arrays([exp_idx1, exp_idx2]) + expected = DataFrame( + {"value1": [0, 3, 1, 4, 2, 5], "value2": [1, 2, 2, 1, 1, 2]}, + index=exp_idx, + columns=["value1", "value2"], + ) + + result = df.groupby(["datetime", "label"]).sum() + tm.assert_frame_equal(result, expected) + + # by level + didx = DatetimeIndex(dates, tz="Asia/Tokyo") + df = DataFrame( + {"value1": np.arange(6, dtype="int64"), "value2": [1, 2, 3, 1, 2, 3]}, + index=didx, + ) + + exp_idx = DatetimeIndex( + ["2011-07-19 07:00:00", "2011-07-19 08:00:00", "2011-07-19 09:00:00"], + tz="Asia/Tokyo", + ) + expected = DataFrame( + {"value1": [3, 5, 7], "value2": [2, 4, 6]}, + index=exp_idx, + columns=["value1", "value2"], + ) + + result = df.groupby(level=0).sum() + tm.assert_frame_equal(result, expected) + + def test_frame_datetime64_handling_groupby(self): + # it works! + df = DataFrame( + [(3, np.datetime64("2012-07-03")), (3, np.datetime64("2012-07-04"))], + columns=["a", "date"], + ) + result = df.groupby("a").first() + assert result["date"][3] == Timestamp("2012-07-03") + + def test_groupby_multi_timezone(self): + # combining multiple / different timezones yields UTC + df = DataFrame( + { + "value": range(5), + "date": [ + "2000-01-28 16:47:00", + "2000-01-29 16:48:00", + "2000-01-30 16:49:00", + "2000-01-31 16:50:00", + "2000-01-01 16:50:00", + ], + "tz": [ + "America/Chicago", + "America/Chicago", + "America/Los_Angeles", + "America/Chicago", + "America/New_York", + ], + } + ) + + result = df.groupby("tz", group_keys=False).date.apply( + lambda x: pd.to_datetime(x).dt.tz_localize(x.name) + ) + + expected = Series( + [ + Timestamp("2000-01-28 16:47:00-0600", tz="America/Chicago"), + Timestamp("2000-01-29 16:48:00-0600", tz="America/Chicago"), + Timestamp("2000-01-30 16:49:00-0800", tz="America/Los_Angeles"), + Timestamp("2000-01-31 16:50:00-0600", tz="America/Chicago"), + Timestamp("2000-01-01 16:50:00-0500", tz="America/New_York"), + ], + name="date", + dtype=object, + ) + tm.assert_series_equal(result, expected) + + tz = "America/Chicago" + res_values = df.groupby("tz").date.get_group(tz) + result = pd.to_datetime(res_values).dt.tz_localize(tz) + exp_values = Series( + ["2000-01-28 16:47:00", "2000-01-29 16:48:00", "2000-01-31 16:50:00"], + index=[0, 1, 3], + name="date", + ) + expected = pd.to_datetime(exp_values).dt.tz_localize(tz) + tm.assert_series_equal(result, expected) + + def test_groupby_groups_periods(self): + dates = [ + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + ] + df = DataFrame( + { + "label": ["a", "a", "a", "b", "b", "b"], + "period": [pd.Period(d, freq="h") for d in dates], + "value1": np.arange(6, dtype="int64"), + "value2": [1, 2] * 3, + } + ) + + exp_idx1 = pd.PeriodIndex( + [ + "2011-07-19 07:00:00", + "2011-07-19 07:00:00", + "2011-07-19 08:00:00", + "2011-07-19 08:00:00", + "2011-07-19 09:00:00", + "2011-07-19 09:00:00", + ], + freq="h", + name="period", + ) + exp_idx2 = Index(["a", "b"] * 3, name="label") + exp_idx = MultiIndex.from_arrays([exp_idx1, exp_idx2]) + expected = DataFrame( + {"value1": [0, 3, 1, 4, 2, 5], "value2": [1, 2, 2, 1, 1, 2]}, + index=exp_idx, + columns=["value1", "value2"], + ) + + result = df.groupby(["period", "label"]).sum() + tm.assert_frame_equal(result, expected) + + # by level + didx = pd.PeriodIndex(dates, freq="h") + df = DataFrame( + {"value1": np.arange(6, dtype="int64"), "value2": [1, 2, 3, 1, 2, 3]}, + index=didx, + ) + + exp_idx = pd.PeriodIndex( + ["2011-07-19 07:00:00", "2011-07-19 08:00:00", "2011-07-19 09:00:00"], + freq="h", + ) + expected = DataFrame( + {"value1": [3, 5, 7], "value2": [2, 4, 6]}, + index=exp_idx, + columns=["value1", "value2"], + ) + + result = df.groupby(level=0).sum() + tm.assert_frame_equal(result, expected) + + def test_groupby_first_datetime64(self): + df = DataFrame([(1, 1351036800000000000), (2, 1351036800000000000)]) + df[1] = df[1].astype("M8[ns]") + + assert issubclass(df[1].dtype.type, np.datetime64) + + result = df.groupby(level=0).first() + got_dt = result[1].dtype + assert issubclass(got_dt.type, np.datetime64) + + result = df[1].groupby(level=0).first() + got_dt = result.dtype + assert issubclass(got_dt.type, np.datetime64) + + def test_groupby_max_datetime64(self): + # GH 5869 + # datetimelike dtype conversion from int + df = DataFrame({"A": Timestamp("20130101"), "B": np.arange(5)}) + # TODO: can we retain second reso in .apply here? + expected = df.groupby("A")["A"].apply(lambda x: x.max()).astype("M8[s]") + result = df.groupby("A")["A"].max() + tm.assert_series_equal(result, expected) + + def test_groupby_datetime64_32_bit(self): + # GH 6410 / numpy 4328 + # 32-bit under 1.9-dev indexing issue + + df = DataFrame({"A": range(2), "B": [Timestamp("2000-01-1")] * 2}) + result = df.groupby("A")["B"].transform("min") + expected = Series([Timestamp("2000-01-1")] * 2, name="B") + tm.assert_series_equal(result, expected) + + def test_groupby_with_timezone_selection(self): + # GH 11616 + # Test that column selection returns output in correct timezone. + + df = DataFrame( + { + "factor": np.random.default_rng(2).integers(0, 3, size=60), + "time": date_range("01/01/2000 00:00", periods=60, freq="s", tz="UTC"), + } + ) + df1 = df.groupby("factor").max()["time"] + df2 = df.groupby("factor")["time"].max() + tm.assert_series_equal(df1, df2) + + def test_timezone_info(self): + # see gh-11682: Timezone info lost when broadcasting + # scalar datetime to DataFrame + + df = DataFrame({"a": [1], "b": [datetime.now(pytz.utc)]}) + assert df["b"][0].tzinfo == pytz.utc + df = DataFrame({"a": [1, 2, 3]}) + df["b"] = datetime.now(pytz.utc) + assert df["b"][0].tzinfo == pytz.utc + + def test_datetime_count(self): + df = DataFrame( + {"a": [1, 2, 3] * 2, "dates": date_range("now", periods=6, freq="min")} + ) + result = df.groupby("a").dates.count() + expected = Series([2, 2, 2], index=Index([1, 2, 3], name="a"), name="dates") + tm.assert_series_equal(result, expected) + + def test_first_last_max_min_on_time_data(self): + # GH 10295 + # Verify that NaT is not in the result of max, min, first and last on + # Dataframe with datetime or timedelta values. + df_test = DataFrame( + { + "dt": [ + np.nan, + "2015-07-24 10:10", + "2015-07-25 11:11", + "2015-07-23 12:12", + np.nan, + ], + "td": [ + np.nan, + timedelta(days=1), + timedelta(days=2), + timedelta(days=3), + np.nan, + ], + } + ) + df_test.dt = pd.to_datetime(df_test.dt) + df_test["group"] = "A" + df_ref = df_test[df_test.dt.notna()] + + grouped_test = df_test.groupby("group") + grouped_ref = df_ref.groupby("group") + + tm.assert_frame_equal(grouped_ref.max(), grouped_test.max()) + tm.assert_frame_equal(grouped_ref.min(), grouped_test.min()) + tm.assert_frame_equal(grouped_ref.first(), grouped_test.first()) + tm.assert_frame_equal(grouped_ref.last(), grouped_test.last()) + + def test_nunique_with_timegrouper_and_nat(self): + # GH 17575 + test = DataFrame( + { + "time": [ + Timestamp("2016-06-28 09:35:35"), + pd.NaT, + Timestamp("2016-06-28 16:46:28"), + ], + "data": ["1", "2", "3"], + } + ) + + grouper = Grouper(key="time", freq="h") + result = test.groupby(grouper)["data"].nunique() + expected = test[test.time.notnull()].groupby(grouper)["data"].nunique() + expected.index = expected.index._with_freq(None) + tm.assert_series_equal(result, expected) + + def test_scalar_call_versus_list_call(self): + # Issue: 17530 + data_frame = { + "location": ["shanghai", "beijing", "shanghai"], + "time": Series( + ["2017-08-09 13:32:23", "2017-08-11 23:23:15", "2017-08-11 22:23:15"], + dtype="datetime64[ns]", + ), + "value": [1, 2, 3], + } + data_frame = DataFrame(data_frame).set_index("time") + grouper = Grouper(freq="D") + + grouped = data_frame.groupby(grouper) + result = grouped.count() + grouped = data_frame.groupby([grouper]) + expected = grouped.count() + + tm.assert_frame_equal(result, expected) + + def test_grouper_period_index(self): + # GH 32108 + periods = 2 + index = pd.period_range( + start="2018-01", periods=periods, freq="M", name="Month" + ) + period_series = Series(range(periods), index=index) + result = period_series.groupby(period_series.index.month).sum() + + expected = Series( + range(periods), index=Index(range(1, periods + 1), name=index.name) + ) + tm.assert_series_equal(result, expected) + + def test_groupby_apply_timegrouper_with_nat_dict_returns( + self, groupby_with_truncated_bingrouper + ): + # GH#43500 case where gb._grouper.result_index and gb._grouper.group_keys_seq + # have different lengths that goes through the `isinstance(values[0], dict)` + # path + gb = groupby_with_truncated_bingrouper + + res = gb["Quantity"].apply(lambda x: {"foo": len(x)}) + + df = gb.obj + unit = df["Date"]._values.unit + dti = date_range("2013-09-01", "2013-10-01", freq="5D", name="Date", unit=unit) + mi = MultiIndex.from_arrays([dti, ["foo"] * len(dti)]) + expected = Series([3, 0, 0, 0, 0, 0, 2], index=mi, name="Quantity") + tm.assert_series_equal(res, expected) + + def test_groupby_apply_timegrouper_with_nat_scalar_returns( + self, groupby_with_truncated_bingrouper + ): + # GH#43500 Previously raised ValueError bc used index with incorrect + # length in wrap_applied_result + gb = groupby_with_truncated_bingrouper + + res = gb["Quantity"].apply(lambda x: x.iloc[0] if len(x) else np.nan) + + df = gb.obj + unit = df["Date"]._values.unit + dti = date_range("2013-09-01", "2013-10-01", freq="5D", name="Date", unit=unit) + expected = Series( + [18, np.nan, np.nan, np.nan, np.nan, np.nan, 5], + index=dti._with_freq(None), + name="Quantity", + ) + + tm.assert_series_equal(res, expected) + + def test_groupby_apply_timegrouper_with_nat_apply_squeeze( + self, frame_for_truncated_bingrouper + ): + df = frame_for_truncated_bingrouper + + # We need to create a GroupBy object with only one non-NaT group, + # so use a huge freq so that all non-NaT dates will be grouped together + tdg = Grouper(key="Date", freq="100YE") + gb = df.groupby(tdg) + + # check that we will go through the singular_series path + # in _wrap_applied_output_series + assert gb.ngroups == 1 + assert gb._selected_obj._get_axis(gb.axis).nlevels == 1 + + # function that returns a Series + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = gb.apply(lambda x: x["Quantity"] * 2) + + dti = Index([Timestamp("2013-12-31")], dtype=df["Date"].dtype, name="Date") + expected = DataFrame( + [[36, 6, 6, 10, 2]], + index=dti, + columns=Index([0, 1, 5, 2, 3], name="Quantity"), + ) + tm.assert_frame_equal(res, expected) + + @pytest.mark.single_cpu + def test_groupby_agg_numba_timegrouper_with_nat( + self, groupby_with_truncated_bingrouper + ): + pytest.importorskip("numba") + + # See discussion in GH#43487 + gb = groupby_with_truncated_bingrouper + + result = gb["Quantity"].aggregate( + lambda values, index: np.nanmean(values), engine="numba" + ) + + expected = gb["Quantity"].aggregate("mean") + tm.assert_series_equal(result, expected) + + result_df = gb[["Quantity"]].aggregate( + lambda values, index: np.nanmean(values), engine="numba" + ) + expected_df = gb[["Quantity"]].aggregate("mean") + tm.assert_frame_equal(result_df, expected_df) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_numba.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_numba.py new file mode 100644 index 0000000000000000000000000000000000000000..5afc6f3bdcd3c223157f05801d2ec83432f80d47 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_numba.py @@ -0,0 +1,294 @@ +import numpy as np +import pytest + +from pandas.compat import is_platform_arm +from pandas.errors import NumbaUtilError + +from pandas import ( + DataFrame, + Series, + option_context, +) +import pandas._testing as tm +from pandas.util.version import Version + +pytestmark = [pytest.mark.single_cpu] + +numba = pytest.importorskip("numba") +pytestmark.append( + pytest.mark.skipif( + Version(numba.__version__) == Version("0.61") and is_platform_arm(), + reason=f"Segfaults on ARM platforms with numba {numba.__version__}", + ) +) + + +def test_correct_function_signature(): + pytest.importorskip("numba") + + def incorrect_function(x): + return x + 1 + + data = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + with pytest.raises(NumbaUtilError, match="The first 2"): + data.groupby("key").transform(incorrect_function, engine="numba") + + with pytest.raises(NumbaUtilError, match="The first 2"): + data.groupby("key")["data"].transform(incorrect_function, engine="numba") + + +def test_check_nopython_kwargs(): + pytest.importorskip("numba") + + def incorrect_function(values, index): + return values + 1 + + data = DataFrame( + {"key": ["a", "a", "b", "b", "a"], "data": [1.0, 2.0, 3.0, 4.0, 5.0]}, + columns=["key", "data"], + ) + with pytest.raises(NumbaUtilError, match="numba does not support"): + data.groupby("key").transform(incorrect_function, engine="numba", a=1) + + with pytest.raises(NumbaUtilError, match="numba does not support"): + data.groupby("key")["data"].transform(incorrect_function, engine="numba", a=1) + + +@pytest.mark.filterwarnings("ignore") +# Filter warnings when parallel=True and the function can't be parallelized by Numba +@pytest.mark.parametrize("jit", [True, False]) +@pytest.mark.parametrize("pandas_obj", ["Series", "DataFrame"]) +@pytest.mark.parametrize("as_index", [True, False]) +def test_numba_vs_cython(jit, pandas_obj, nogil, parallel, nopython, as_index): + pytest.importorskip("numba") + + def func(values, index): + return values + 1 + + if jit: + # Test accepted jitted functions + import numba + + func = numba.jit(func) + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + grouped = data.groupby(0, as_index=as_index) + if pandas_obj == "Series": + grouped = grouped[1] + + result = grouped.transform(func, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.transform(lambda x: x + 1, engine="cython") + + tm.assert_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore") +# Filter warnings when parallel=True and the function can't be parallelized by Numba +@pytest.mark.parametrize("jit", [True, False]) +@pytest.mark.parametrize("pandas_obj", ["Series", "DataFrame"]) +def test_cache(jit, pandas_obj, nogil, parallel, nopython): + # Test that the functions are cached correctly if we switch functions + pytest.importorskip("numba") + + def func_1(values, index): + return values + 1 + + def func_2(values, index): + return values * 5 + + if jit: + import numba + + func_1 = numba.jit(func_1) + func_2 = numba.jit(func_2) + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + engine_kwargs = {"nogil": nogil, "parallel": parallel, "nopython": nopython} + grouped = data.groupby(0) + if pandas_obj == "Series": + grouped = grouped[1] + + result = grouped.transform(func_1, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.transform(lambda x: x + 1, engine="cython") + tm.assert_equal(result, expected) + + result = grouped.transform(func_2, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.transform(lambda x: x * 5, engine="cython") + tm.assert_equal(result, expected) + + # Retest func_1 which should use the cache + result = grouped.transform(func_1, engine="numba", engine_kwargs=engine_kwargs) + expected = grouped.transform(lambda x: x + 1, engine="cython") + tm.assert_equal(result, expected) + + +def test_use_global_config(): + pytest.importorskip("numba") + + def func_1(values, index): + return values + 1 + + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + grouped = data.groupby(0) + expected = grouped.transform(func_1, engine="numba") + with option_context("compute.use_numba", True): + result = grouped.transform(func_1, engine=None) + tm.assert_frame_equal(expected, result) + + +# TODO: Test more than just reductions (e.g. actually test transformations once we have +@pytest.mark.parametrize( + "agg_func", [["min", "max"], "min", {"B": ["min", "max"], "C": "sum"}] +) +def test_string_cython_vs_numba(agg_func, numba_supported_reductions): + pytest.importorskip("numba") + agg_func, kwargs = numba_supported_reductions + data = DataFrame( + {0: ["a", "a", "b", "b", "a"], 1: [1.0, 2.0, 3.0, 4.0, 5.0]}, columns=[0, 1] + ) + grouped = data.groupby(0) + + result = grouped.transform(agg_func, engine="numba", **kwargs) + expected = grouped.transform(agg_func, engine="cython", **kwargs) + tm.assert_frame_equal(result, expected) + + result = grouped[1].transform(agg_func, engine="numba", **kwargs) + expected = grouped[1].transform(agg_func, engine="cython", **kwargs) + tm.assert_series_equal(result, expected) + + +def test_args_not_cached(): + # GH 41647 + pytest.importorskip("numba") + + def sum_last(values, index, n): + return values[-n:].sum() + + df = DataFrame({"id": [0, 0, 1, 1], "x": [1, 1, 1, 1]}) + grouped_x = df.groupby("id")["x"] + result = grouped_x.transform(sum_last, 1, engine="numba") + expected = Series([1.0] * 4, name="x") + tm.assert_series_equal(result, expected) + + result = grouped_x.transform(sum_last, 2, engine="numba") + expected = Series([2.0] * 4, name="x") + tm.assert_series_equal(result, expected) + + +def test_index_data_correctly_passed(): + # GH 43133 + pytest.importorskip("numba") + + def f(values, index): + return index - 1 + + df = DataFrame({"group": ["A", "A", "B"], "v": [4, 5, 6]}, index=[-1, -2, -3]) + result = df.groupby("group").transform(f, engine="numba") + expected = DataFrame([-4.0, -3.0, -2.0], columns=["v"], index=[-1, -2, -3]) + tm.assert_frame_equal(result, expected) + + +def test_engine_kwargs_not_cached(): + # If the user passes a different set of engine_kwargs don't return the same + # jitted function + pytest.importorskip("numba") + nogil = True + parallel = False + nopython = True + + def func_kwargs(values, index): + return nogil + parallel + nopython + + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + df = DataFrame({"value": [0, 0, 0]}) + result = df.groupby(level=0).transform( + func_kwargs, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame({"value": [2.0, 2.0, 2.0]}) + tm.assert_frame_equal(result, expected) + + nogil = False + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + result = df.groupby(level=0).transform( + func_kwargs, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame({"value": [1.0, 1.0, 1.0]}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.filterwarnings("ignore") +def test_multiindex_one_key(nogil, parallel, nopython): + pytest.importorskip("numba") + + def numba_func(values, index): + return 1 + + df = DataFrame([{"A": 1, "B": 2, "C": 3}]).set_index(["A", "B"]) + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + result = df.groupby("A").transform( + numba_func, engine="numba", engine_kwargs=engine_kwargs + ) + expected = DataFrame([{"A": 1, "B": 2, "C": 1.0}]).set_index(["A", "B"]) + tm.assert_frame_equal(result, expected) + + +def test_multiindex_multi_key_not_supported(nogil, parallel, nopython): + pytest.importorskip("numba") + + def numba_func(values, index): + return 1 + + df = DataFrame([{"A": 1, "B": 2, "C": 3}]).set_index(["A", "B"]) + engine_kwargs = {"nopython": nopython, "nogil": nogil, "parallel": parallel} + with pytest.raises(NotImplementedError, match="more than 1 grouping labels"): + df.groupby(["A", "B"]).transform( + numba_func, engine="numba", engine_kwargs=engine_kwargs + ) + + +def test_multilabel_numba_vs_cython(numba_supported_reductions): + pytest.importorskip("numba") + reduction, kwargs = numba_supported_reductions + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + gb = df.groupby(["A", "B"]) + res_agg = gb.transform(reduction, engine="numba", **kwargs) + expected_agg = gb.transform(reduction, engine="cython", **kwargs) + tm.assert_frame_equal(res_agg, expected_agg) + + +def test_multilabel_udf_numba_vs_cython(): + pytest.importorskip("numba") + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"], + "B": ["one", "one", "two", "three", "two", "two", "one", "three"], + "C": np.random.default_rng(2).standard_normal(8), + "D": np.random.default_rng(2).standard_normal(8), + } + ) + gb = df.groupby(["A", "B"]) + result = gb.transform( + lambda values, index: (values - values.min()) / (values.max() - values.min()), + engine="numba", + ) + expected = gb.transform( + lambda x: (x - x.min()) / (x.max() - x.min()), engine="cython" + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_transform.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_transform.py new file mode 100644 index 0000000000000000000000000000000000000000..18ce6e93de402cabe67b2802e52553322df8cef0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/groupby/transform/test_transform.py @@ -0,0 +1,1710 @@ +""" test with the .transform """ +import numpy as np +import pytest + +from pandas._libs import lib + +from pandas.core.dtypes.common import ensure_platform_int + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + Index, + MultiIndex, + Series, + Timestamp, + concat, + date_range, +) +import pandas._testing as tm +from pandas.tests.groupby import get_groupby_method_args + + +def assert_fp_equal(a, b): + assert (np.abs(a - b) < 1e-12).all() + + +def test_transform(): + data = Series(np.arange(9) // 3, index=np.arange(9)) + + index = np.arange(9) + np.random.default_rng(2).shuffle(index) + data = data.reindex(index) + + grouped = data.groupby(lambda x: x // 3) + + transformed = grouped.transform(lambda x: x * x.sum()) + assert transformed[7] == 12 + + # GH 8046 + # make sure that we preserve the input order + + df = DataFrame( + np.arange(6, dtype="int64").reshape(3, 2), columns=["a", "b"], index=[0, 2, 1] + ) + key = [0, 0, 1] + expected = ( + df.sort_index() + .groupby(key) + .transform(lambda x: x - x.mean()) + .groupby(key) + .mean() + ) + result = df.groupby(key).transform(lambda x: x - x.mean()).groupby(key).mean() + tm.assert_frame_equal(result, expected) + + def demean(arr): + return arr - arr.mean(axis=0) + + people = DataFrame( + np.random.default_rng(2).standard_normal((5, 5)), + columns=["a", "b", "c", "d", "e"], + index=["Joe", "Steve", "Wes", "Jim", "Travis"], + ) + key = ["one", "two", "one", "two", "one"] + result = people.groupby(key).transform(demean).groupby(key).mean() + expected = people.groupby(key, group_keys=False).apply(demean).groupby(key).mean() + tm.assert_frame_equal(result, expected) + + # GH 8430 + df = DataFrame( + np.random.default_rng(2).standard_normal((50, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=50, freq="B"), + ) + g = df.groupby(pd.Grouper(freq="ME")) + g.transform(lambda x: x - 1) + + # GH 9700 + df = DataFrame({"a": range(5, 10), "b": range(5)}) + msg = "using DataFrameGroupBy.max" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby("a").transform(max) + expected = DataFrame({"b": range(5)}) + tm.assert_frame_equal(result, expected) + + +def test_transform_fast(): + df = DataFrame( + { + "id": np.arange(100000) / 3, + "val": np.random.default_rng(2).standard_normal(100000), + } + ) + + grp = df.groupby("id")["val"] + + values = np.repeat(grp.mean().values, ensure_platform_int(grp.count().values)) + expected = Series(values, index=df.index, name="val") + + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grp.transform(np.mean) + tm.assert_series_equal(result, expected) + + result = grp.transform("mean") + tm.assert_series_equal(result, expected) + + +def test_transform_fast2(): + # GH 12737 + df = DataFrame( + { + "grouping": [0, 1, 1, 3], + "f": [1.1, 2.1, 3.1, 4.5], + "d": date_range("2014-1-1", "2014-1-4"), + "i": [1, 2, 3, 4], + }, + columns=["grouping", "f", "i", "d"], + ) + result = df.groupby("grouping").transform("first") + + dates = Index( + [ + Timestamp("2014-1-1"), + Timestamp("2014-1-2"), + Timestamp("2014-1-2"), + Timestamp("2014-1-4"), + ], + dtype="M8[ns]", + ) + expected = DataFrame( + {"f": [1.1, 2.1, 2.1, 4.5], "d": dates, "i": [1, 2, 2, 4]}, + columns=["f", "i", "d"], + ) + tm.assert_frame_equal(result, expected) + + # selection + result = df.groupby("grouping")[["f", "i"]].transform("first") + expected = expected[["f", "i"]] + tm.assert_frame_equal(result, expected) + + +def test_transform_fast3(): + # dup columns + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["g", "a", "a"]) + result = df.groupby("g").transform("first") + expected = df.drop("g", axis=1) + tm.assert_frame_equal(result, expected) + + +def test_transform_broadcast(tsframe, ts): + grouped = ts.groupby(lambda x: x.month) + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.transform(np.mean) + + tm.assert_index_equal(result.index, ts.index) + for _, gp in grouped: + assert_fp_equal(result.reindex(gp.index), gp.mean()) + + grouped = tsframe.groupby(lambda x: x.month) + msg = "using DataFrameGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.transform(np.mean) + tm.assert_index_equal(result.index, tsframe.index) + for _, gp in grouped: + agged = gp.mean(axis=0) + res = result.reindex(gp.index) + for col in tsframe: + assert_fp_equal(res[col], agged[col]) + + # group columns + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = tsframe.groupby({"A": 0, "B": 0, "C": 1, "D": 1}, axis=1) + msg = "using DataFrameGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.transform(np.mean) + tm.assert_index_equal(result.index, tsframe.index) + tm.assert_index_equal(result.columns, tsframe.columns) + for _, gp in grouped: + agged = gp.mean(1) + res = result.reindex(columns=gp.columns) + for idx in gp.index: + assert_fp_equal(res.xs(idx), agged[idx]) + + +def test_transform_axis_1(request, transformation_func): + # GH 36308 + + df = DataFrame({"a": [1, 2], "b": [3, 4], "c": [5, 6]}, index=["x", "y"]) + args = get_groupby_method_args(transformation_func, df) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby([0, 0, 1], axis=1) + warn = FutureWarning if transformation_func == "fillna" else None + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + result = gb.transform(transformation_func, *args) + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + expected = df.T.groupby([0, 0, 1]).transform(transformation_func, *args).T + + if transformation_func in ["diff", "shift"]: + # Result contains nans, so transpose coerces to float + expected["b"] = expected["b"].astype("int64") + + # cumcount returns Series; the rest are DataFrame + tm.assert_equal(result, expected) + + +def test_transform_axis_1_reducer(request, reduction_func): + # GH#45715 + if reduction_func in ( + "corrwith", + "ngroup", + "nth", + ): + marker = pytest.mark.xfail(reason="transform incorrectly fails - GH#45986") + request.applymarker(marker) + + df = DataFrame({"a": [1, 2], "b": [3, 4], "c": [5, 6]}, index=["x", "y"]) + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby([0, 0, 1], axis=1) + + result = gb.transform(reduction_func) + expected = df.T.groupby([0, 0, 1]).transform(reduction_func).T + tm.assert_equal(result, expected) + + +def test_transform_axis_ts(tsframe): + # make sure that we are setting the axes + # correctly when on axis=0 or 1 + # in the presence of a non-monotonic indexer + # GH12713 + + base = tsframe.iloc[0:5] + r = len(base.index) + c = len(base.columns) + tso = DataFrame( + np.random.default_rng(2).standard_normal((r, c)), + index=base.index, + columns=base.columns, + dtype="float64", + ) + # monotonic + ts = tso + grouped = ts.groupby(lambda x: x.weekday(), group_keys=False) + result = ts - grouped.transform("mean") + expected = grouped.apply(lambda x: x - x.mean(axis=0)) + tm.assert_frame_equal(result, expected) + + ts = ts.T + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = ts.groupby(lambda x: x.weekday(), axis=1, group_keys=False) + result = ts - grouped.transform("mean") + expected = grouped.apply(lambda x: (x.T - x.mean(1)).T) + tm.assert_frame_equal(result, expected) + + # non-monotonic + ts = tso.iloc[[1, 0] + list(range(2, len(base)))] + grouped = ts.groupby(lambda x: x.weekday(), group_keys=False) + result = ts - grouped.transform("mean") + expected = grouped.apply(lambda x: x - x.mean(axis=0)) + tm.assert_frame_equal(result, expected) + + ts = ts.T + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped = ts.groupby(lambda x: x.weekday(), axis=1, group_keys=False) + result = ts - grouped.transform("mean") + expected = grouped.apply(lambda x: (x.T - x.mean(1)).T) + tm.assert_frame_equal(result, expected) + + +def test_transform_dtype(): + # GH 9807 + # Check transform dtype output is preserved + df = DataFrame([[1, 3], [2, 3]]) + result = df.groupby(1).transform("mean") + expected = DataFrame([[1.5], [1.5]]) + tm.assert_frame_equal(result, expected) + + +def test_transform_bug(): + # GH 5712 + # transforming on a datetime column + df = DataFrame({"A": Timestamp("20130101"), "B": np.arange(5)}) + result = df.groupby("A")["B"].transform(lambda x: x.rank(ascending=False)) + expected = Series(np.arange(5, 0, step=-1), name="B", dtype="float64") + tm.assert_series_equal(result, expected) + + +def test_transform_numeric_to_boolean(): + # GH 16875 + # inconsistency in transforming boolean values + expected = Series([True, True], name="A") + + df = DataFrame({"A": [1.1, 2.2], "B": [1, 2]}) + result = df.groupby("B").A.transform(lambda x: True) + tm.assert_series_equal(result, expected) + + df = DataFrame({"A": [1, 2], "B": [1, 2]}) + result = df.groupby("B").A.transform(lambda x: True) + tm.assert_series_equal(result, expected) + + +def test_transform_datetime_to_timedelta(): + # GH 15429 + # transforming a datetime to timedelta + df = DataFrame({"A": Timestamp("20130101"), "B": np.arange(5)}) + expected = Series( + Timestamp("20130101") - Timestamp("20130101"), index=range(5), name="A" + ) + + # this does date math without changing result type in transform + base_time = df["A"][0] + result = ( + df.groupby("A")["A"].transform(lambda x: x.max() - x.min() + base_time) + - base_time + ) + tm.assert_series_equal(result, expected) + + # this does date math and causes the transform to return timedelta + result = df.groupby("A")["A"].transform(lambda x: x.max() - x.min()) + tm.assert_series_equal(result, expected) + + +def test_transform_datetime_to_numeric(): + # GH 10972 + # convert dt to float + df = DataFrame({"a": 1, "b": date_range("2015-01-01", periods=2, freq="D")}) + result = df.groupby("a").b.transform( + lambda x: x.dt.dayofweek - x.dt.dayofweek.mean() + ) + + expected = Series([-0.5, 0.5], name="b") + tm.assert_series_equal(result, expected) + + # convert dt to int + df = DataFrame({"a": 1, "b": date_range("2015-01-01", periods=2, freq="D")}) + result = df.groupby("a").b.transform( + lambda x: x.dt.dayofweek - x.dt.dayofweek.min() + ) + + expected = Series([0, 1], dtype=np.int32, name="b") + tm.assert_series_equal(result, expected) + + +def test_transform_casting(): + # 13046 + times = [ + "13:43:27", + "14:26:19", + "14:29:01", + "18:39:34", + "18:40:18", + "18:44:30", + "18:46:00", + "18:52:15", + "18:59:59", + "19:17:48", + "19:21:38", + ] + df = DataFrame( + { + "A": [f"B-{i}" for i in range(11)], + "ID3": np.take( + ["a", "b", "c", "d", "e"], [0, 1, 2, 1, 3, 1, 1, 1, 4, 1, 1] + ), + "DATETIME": pd.to_datetime([f"2014-10-08 {time}" for time in times]), + }, + index=pd.RangeIndex(11, name="idx"), + ) + + result = df.groupby("ID3")["DATETIME"].transform(lambda x: x.diff()) + assert lib.is_np_dtype(result.dtype, "m") + + result = df[["ID3", "DATETIME"]].groupby("ID3").transform(lambda x: x.diff()) + assert lib.is_np_dtype(result.DATETIME.dtype, "m") + + +def test_transform_multiple(ts): + grouped = ts.groupby([lambda x: x.year, lambda x: x.month]) + + grouped.transform(lambda x: x * 2) + + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + grouped.transform(np.mean) + + +def test_dispatch_transform(tsframe): + df = tsframe[::5].reindex(tsframe.index) + + grouped = df.groupby(lambda x: x.month) + + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + filled = grouped.fillna(method="pad") + msg = "Series.fillna with 'method' is deprecated" + fillit = lambda x: x.fillna(method="pad") + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby(lambda x: x.month).transform(fillit) + tm.assert_frame_equal(filled, expected) + + +def test_transform_fillna_null(): + df = DataFrame( + { + "price": [10, 10, 20, 20, 30, 30], + "color": [10, 10, 20, 20, 30, 30], + "cost": (100, 200, 300, 400, 500, 600), + } + ) + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pytest.raises(ValueError, match="Must specify a fill 'value' or 'method'"): + df.groupby(["price"]).transform("fillna") + with tm.assert_produces_warning(FutureWarning, match=msg): + with pytest.raises(ValueError, match="Must specify a fill 'value' or 'method'"): + df.groupby(["price"]).fillna() + + +def test_transform_transformation_func(transformation_func): + # GH 30918 + df = DataFrame( + { + "A": ["foo", "foo", "foo", "foo", "bar", "bar", "baz"], + "B": [1, 2, np.nan, 3, 3, np.nan, 4], + }, + index=date_range("2020-01-01", "2020-01-07"), + ) + if transformation_func == "cumcount": + test_op = lambda x: x.transform("cumcount") + mock_op = lambda x: Series(range(len(x)), x.index) + elif transformation_func == "fillna": + test_op = lambda x: x.transform("fillna", value=0) + mock_op = lambda x: x.fillna(value=0) + elif transformation_func == "ngroup": + test_op = lambda x: x.transform("ngroup") + counter = -1 + + def mock_op(x): + nonlocal counter + counter += 1 + return Series(counter, index=x.index) + + else: + test_op = lambda x: x.transform(transformation_func) + mock_op = lambda x: getattr(x, transformation_func)() + + if transformation_func == "pct_change": + msg = "The default fill_method='pad' in DataFrame.pct_change is deprecated" + groupby_msg = ( + "The default fill_method='ffill' in DataFrameGroupBy.pct_change " + "is deprecated" + ) + warn = FutureWarning + groupby_warn = FutureWarning + elif transformation_func == "fillna": + msg = "" + groupby_msg = "DataFrameGroupBy.fillna is deprecated" + warn = None + groupby_warn = FutureWarning + else: + msg = groupby_msg = "" + warn = groupby_warn = None + + with tm.assert_produces_warning(groupby_warn, match=groupby_msg): + result = test_op(df.groupby("A")) + + # pass the group in same order as iterating `for ... in df.groupby(...)` + # but reorder to match df's index since this is a transform + groups = [df[["B"]].iloc[4:6], df[["B"]].iloc[6:], df[["B"]].iloc[:4]] + with tm.assert_produces_warning(warn, match=msg): + expected = concat([mock_op(g) for g in groups]).sort_index() + # sort_index does not preserve the freq + expected = expected.set_axis(df.index) + + if transformation_func in ("cumcount", "ngroup"): + tm.assert_series_equal(result, expected) + else: + tm.assert_frame_equal(result, expected) + + +def test_transform_select_columns(df): + f = lambda x: x.mean() + result = df.groupby("A")[["C", "D"]].transform(f) + + selection = df[["C", "D"]] + expected = selection.groupby(df["A"]).transform(f) + + tm.assert_frame_equal(result, expected) + + +def test_transform_nuisance_raises(df, using_infer_string): + # case that goes through _transform_item_by_item + + df.columns = ["A", "B", "B", "D"] + + # this also tests orderings in transform between + # series/frame to make sure it's consistent + grouped = df.groupby("A") + + gbc = grouped["B"] + msg = "Could not convert" + if using_infer_string: + msg = "Cannot perform reduction 'mean' with string dtype" + with pytest.raises(TypeError, match=msg): + gbc.transform(lambda x: np.mean(x)) + + with pytest.raises(TypeError, match=msg): + df.groupby("A").transform(lambda x: np.mean(x)) + + +def test_transform_function_aliases(df): + result = df.groupby("A").transform("mean", numeric_only=True) + msg = "using DataFrameGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby("A")[["C", "D"]].transform(np.mean) + tm.assert_frame_equal(result, expected) + + result = df.groupby("A")["C"].transform("mean") + msg = "using SeriesGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = df.groupby("A")["C"].transform(np.mean) + tm.assert_series_equal(result, expected) + + +def test_series_fast_transform_date(): + # GH 13191 + df = DataFrame( + {"grouping": [np.nan, 1, 1, 3], "d": date_range("2014-1-1", "2014-1-4")} + ) + result = df.groupby("grouping")["d"].transform("first") + dates = [ + pd.NaT, + Timestamp("2014-1-2"), + Timestamp("2014-1-2"), + Timestamp("2014-1-4"), + ] + expected = Series(dates, name="d", dtype="M8[ns]") + tm.assert_series_equal(result, expected) + + +def test_transform_length(): + # GH 9697 + df = DataFrame({"col1": [1, 1, 2, 2], "col2": [1, 2, 3, np.nan]}) + expected = Series([3.0] * 4) + + def nsum(x): + return np.nansum(x) + + msg = "using DataFrameGroupBy.sum" + with tm.assert_produces_warning(FutureWarning, match=msg): + results = [ + df.groupby("col1").transform(sum)["col2"], + df.groupby("col1")["col2"].transform(sum), + df.groupby("col1").transform(nsum)["col2"], + df.groupby("col1")["col2"].transform(nsum), + ] + for result in results: + tm.assert_series_equal(result, expected, check_names=False) + + +def test_transform_coercion(): + # 14457 + # when we are transforming be sure to not coerce + # via assignment + df = DataFrame({"A": ["a", "a", "b", "b"], "B": [0, 1, 3, 4]}) + g = df.groupby("A") + + msg = "using DataFrameGroupBy.mean" + with tm.assert_produces_warning(FutureWarning, match=msg): + expected = g.transform(np.mean) + + result = g.transform(lambda x: np.mean(x, axis=0)) + tm.assert_frame_equal(result, expected) + + +def test_groupby_transform_with_int(using_infer_string): + # GH 3740, make sure that we might upcast on item-by-item transform + + # floats + df = DataFrame( + { + "A": [1, 1, 1, 2, 2, 2], + "B": Series(1, dtype="float64"), + "C": Series([1, 2, 3, 1, 2, 3], dtype="float64"), + "D": "foo", + } + ) + with np.errstate(all="ignore"): + result = df.groupby("A")[["B", "C"]].transform( + lambda x: (x - x.mean()) / x.std() + ) + expected = DataFrame( + {"B": np.nan, "C": Series([-1, 0, 1, -1, 0, 1], dtype="float64")} + ) + tm.assert_frame_equal(result, expected) + + # int case + df = DataFrame( + { + "A": [1, 1, 1, 2, 2, 2], + "B": 1, + "C": [1, 2, 3, 1, 2, 3], + "D": "foo", + } + ) + msg = "Could not convert" + if using_infer_string: + msg = "Cannot perform reduction 'mean' with string dtype" + with np.errstate(all="ignore"): + with pytest.raises(TypeError, match=msg): + df.groupby("A").transform(lambda x: (x - x.mean()) / x.std()) + result = df.groupby("A")[["B", "C"]].transform( + lambda x: (x - x.mean()) / x.std() + ) + expected = DataFrame({"B": np.nan, "C": [-1.0, 0.0, 1.0, -1.0, 0.0, 1.0]}) + tm.assert_frame_equal(result, expected) + + # int that needs float conversion + s = Series([2, 3, 4, 10, 5, -1]) + df = DataFrame({"A": [1, 1, 1, 2, 2, 2], "B": 1, "C": s, "D": "foo"}) + with np.errstate(all="ignore"): + with pytest.raises(TypeError, match=msg): + df.groupby("A").transform(lambda x: (x - x.mean()) / x.std()) + result = df.groupby("A")[["B", "C"]].transform( + lambda x: (x - x.mean()) / x.std() + ) + + s1 = s.iloc[0:3] + s1 = (s1 - s1.mean()) / s1.std() + s2 = s.iloc[3:6] + s2 = (s2 - s2.mean()) / s2.std() + expected = DataFrame({"B": np.nan, "C": concat([s1, s2])}) + tm.assert_frame_equal(result, expected) + + # int doesn't get downcasted + result = df.groupby("A")[["B", "C"]].transform(lambda x: x * 2 / 2) + expected = DataFrame({"B": 1.0, "C": [2.0, 3.0, 4.0, 10.0, 5.0, -1.0]}) + tm.assert_frame_equal(result, expected) + + +def test_groupby_transform_with_nan_group(): + # GH 9941 + df = DataFrame({"a": range(10), "b": [1, 1, 2, 3, np.nan, 4, 4, 5, 5, 5]}) + msg = "using SeriesGroupBy.max" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = df.groupby(df.b)["a"].transform(max) + expected = Series([1.0, 1.0, 2.0, 3.0, np.nan, 6.0, 6.0, 9.0, 9.0, 9.0], name="a") + tm.assert_series_equal(result, expected) + + +def test_transform_mixed_type(): + index = MultiIndex.from_arrays([[0, 0, 0, 1, 1, 1], [1, 2, 3, 1, 2, 3]]) + df = DataFrame( + { + "d": [1.0, 1.0, 1.0, 2.0, 2.0, 2.0], + "c": np.tile(["a", "b", "c"], 2), + "v": np.arange(1.0, 7.0), + }, + index=index, + ) + + def f(group): + group["g"] = group["d"] * 2 + return group[:1] + + grouped = df.groupby("c") + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = grouped.apply(f) + + assert result["d"].dtype == np.float64 + + # this is by definition a mutating operation! + with pd.option_context("mode.chained_assignment", None): + for key, group in grouped: + res = f(group) + tm.assert_frame_equal(res, result.loc[key]) + + +@pytest.mark.parametrize( + "op, args, targop", + [ + ("cumprod", (), lambda x: x.cumprod()), + ("cumsum", (), lambda x: x.cumsum()), + ("shift", (-1,), lambda x: x.shift(-1)), + ("shift", (1,), lambda x: x.shift()), + ], +) +def test_cython_transform_series(op, args, targop): + # GH 4095 + s = Series(np.random.default_rng(2).standard_normal(1000)) + s_missing = s.copy() + s_missing.iloc[2:10] = np.nan + labels = np.random.default_rng(2).integers(0, 50, size=1000).astype(float) + + # series + for data in [s, s_missing]: + # print(data.head()) + expected = data.groupby(labels).transform(targop) + + tm.assert_series_equal(expected, data.groupby(labels).transform(op, *args)) + tm.assert_series_equal(expected, getattr(data.groupby(labels), op)(*args)) + + +@pytest.mark.parametrize("op", ["cumprod", "cumsum"]) +@pytest.mark.parametrize("skipna", [False, True]) +@pytest.mark.parametrize( + "input, exp", + [ + # When everything is NaN + ({"key": ["b"] * 10, "value": np.nan}, Series([np.nan] * 10, name="value")), + # When there is a single NaN + ( + {"key": ["b"] * 10 + ["a"] * 2, "value": [3] * 3 + [np.nan] + [3] * 8}, + { + ("cumprod", False): [3.0, 9.0, 27.0] + [np.nan] * 7 + [3.0, 9.0], + ("cumprod", True): [ + 3.0, + 9.0, + 27.0, + np.nan, + 81.0, + 243.0, + 729.0, + 2187.0, + 6561.0, + 19683.0, + 3.0, + 9.0, + ], + ("cumsum", False): [3.0, 6.0, 9.0] + [np.nan] * 7 + [3.0, 6.0], + ("cumsum", True): [ + 3.0, + 6.0, + 9.0, + np.nan, + 12.0, + 15.0, + 18.0, + 21.0, + 24.0, + 27.0, + 3.0, + 6.0, + ], + }, + ), + ], +) +def test_groupby_cum_skipna(op, skipna, input, exp): + df = DataFrame(input) + result = df.groupby("key")["value"].transform(op, skipna=skipna) + if isinstance(exp, dict): + expected = exp[(op, skipna)] + else: + expected = exp + expected = Series(expected, name="value") + tm.assert_series_equal(expected, result) + + +@pytest.fixture +def frame(): + floating = Series(np.random.default_rng(2).standard_normal(10)) + floating_missing = floating.copy() + floating_missing.iloc[2:7] = np.nan + strings = list("abcde") * 2 + strings_missing = strings[:] + strings_missing[5] = np.nan + + df = DataFrame( + { + "float": floating, + "float_missing": floating_missing, + "int": [1, 1, 1, 1, 2] * 2, + "datetime": date_range("1990-1-1", periods=10), + "timedelta": pd.timedelta_range(1, freq="s", periods=10), + "string": strings, + "string_missing": strings_missing, + "cat": Categorical(strings), + }, + ) + return df + + +@pytest.fixture +def frame_mi(frame): + frame.index = MultiIndex.from_product([range(5), range(2)]) + return frame + + +@pytest.mark.slow +@pytest.mark.parametrize( + "op, args, targop", + [ + ("cumprod", (), lambda x: x.cumprod()), + ("cumsum", (), lambda x: x.cumsum()), + ("shift", (-1,), lambda x: x.shift(-1)), + ("shift", (1,), lambda x: x.shift()), + ], +) +@pytest.mark.parametrize("df_fix", ["frame", "frame_mi"]) +@pytest.mark.parametrize( + "gb_target", + [ + {"by": np.random.default_rng(2).integers(0, 50, size=10).astype(float)}, + {"level": 0}, + {"by": "string"}, + pytest.param({"by": "string_missing"}, marks=pytest.mark.xfail), + {"by": ["int", "string"]}, + ], +) +def test_cython_transform_frame(request, op, args, targop, df_fix, gb_target): + df = request.getfixturevalue(df_fix) + gb = df.groupby(group_keys=False, **gb_target) + + if op != "shift" and "int" not in gb_target: + # numeric apply fastpath promotes dtype so have + # to apply separately and concat + i = gb[["int"]].apply(targop) + f = gb[["float", "float_missing"]].apply(targop) + expected = concat([f, i], axis=1) + else: + if op != "shift" or not isinstance(gb_target.get("by"), (str, list)): + warn = None + else: + warn = FutureWarning + msg = "DataFrameGroupBy.apply operated on the grouping columns" + with tm.assert_produces_warning(warn, match=msg): + expected = gb.apply(targop) + + expected = expected.sort_index(axis=1) + if op == "shift": + depr_msg = "The 'downcast' keyword in fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + expected["string_missing"] = expected["string_missing"].fillna( + np.nan, downcast=False + ) + expected["string"] = expected["string"].fillna(np.nan, downcast=False) + + result = gb[expected.columns].transform(op, *args).sort_index(axis=1) + tm.assert_frame_equal(result, expected) + result = getattr(gb[expected.columns], op)(*args).sort_index(axis=1) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.slow +@pytest.mark.parametrize( + "op, args, targop", + [ + ("cumprod", (), lambda x: x.cumprod()), + ("cumsum", (), lambda x: x.cumsum()), + ("shift", (-1,), lambda x: x.shift(-1)), + ("shift", (1,), lambda x: x.shift()), + ], +) +@pytest.mark.parametrize("df_fix", ["frame", "frame_mi"]) +@pytest.mark.parametrize( + "gb_target", + [ + {"by": np.random.default_rng(2).integers(0, 50, size=10).astype(float)}, + {"level": 0}, + {"by": "string"}, + # TODO: create xfail condition given other params + # {"by": 'string_missing'}, + {"by": ["int", "string"]}, + ], +) +@pytest.mark.parametrize( + "column", + [ + "float", + "float_missing", + "int", + "datetime", + "timedelta", + "string", + "string_missing", + ], +) +def test_cython_transform_frame_column( + request, op, args, targop, df_fix, gb_target, column +): + df = request.getfixturevalue(df_fix) + gb = df.groupby(group_keys=False, **gb_target) + c = column + if ( + c not in ["float", "int", "float_missing"] + and op != "shift" + and not (c == "timedelta" and op == "cumsum") + ): + msg = "|".join( + [ + "does not support .* operations", + ".* is not supported for object dtype", + "is not implemented for this dtype", + ".* is not supported for str dtype", + "dtype 'str' does not support operation '.*'", + ] + ) + with pytest.raises(TypeError, match=msg): + gb[c].transform(op) + with pytest.raises(TypeError, match=msg): + getattr(gb[c], op)() + else: + expected = gb[c].apply(targop) + expected.name = c + if c in ["string_missing", "string"]: + depr_msg = "The 'downcast' keyword in fillna is deprecated" + with tm.assert_produces_warning(FutureWarning, match=depr_msg): + expected = expected.fillna(np.nan, downcast=False) + + res = gb[c].transform(op, *args) + tm.assert_series_equal(expected, res) + res2 = getattr(gb[c], op)(*args) + tm.assert_series_equal(expected, res2) + + +def test_transform_with_non_scalar_group(): + # GH 10165 + cols = MultiIndex.from_tuples( + [ + ("syn", "A"), + ("foo", "A"), + ("non", "A"), + ("syn", "C"), + ("foo", "C"), + ("non", "C"), + ("syn", "T"), + ("foo", "T"), + ("non", "T"), + ("syn", "G"), + ("foo", "G"), + ("non", "G"), + ] + ) + df = DataFrame( + np.random.default_rng(2).integers(1, 10, (4, 12)), + columns=cols, + index=["A", "C", "G", "T"], + ) + + msg = "DataFrame.groupby with axis=1 is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + gb = df.groupby(axis=1, level=1) + msg = "transform must return a scalar value for each group.*" + with pytest.raises(ValueError, match=msg): + gb.transform(lambda z: z.div(z.sum(axis=1), axis=0)) + + +@pytest.mark.parametrize( + "cols,expected", + [ + ("a", Series([1, 1, 1], name="a")), + ( + ["a", "c"], + DataFrame({"a": [1, 1, 1], "c": [1, 1, 1]}), + ), + ], +) +@pytest.mark.parametrize("agg_func", ["count", "rank", "size"]) +def test_transform_numeric_ret(cols, expected, agg_func): + # GH#19200 and GH#27469 + df = DataFrame( + {"a": date_range("2018-01-01", periods=3), "b": range(3), "c": range(7, 10)} + ) + result = df.groupby("b")[cols].transform(agg_func) + + if agg_func == "rank": + expected = expected.astype("float") + elif agg_func == "size" and cols == ["a", "c"]: + # transform("size") returns a Series + expected = expected["a"].rename(None) + tm.assert_equal(result, expected) + + +def test_transform_ffill(): + # GH 24211 + data = [["a", 0.0], ["a", float("nan")], ["b", 1.0], ["b", float("nan")]] + df = DataFrame(data, columns=["key", "values"]) + result = df.groupby("key").transform("ffill") + expected = DataFrame({"values": [0.0, 0.0, 1.0, 1.0]}) + tm.assert_frame_equal(result, expected) + result = df.groupby("key")["values"].transform("ffill") + expected = Series([0.0, 0.0, 1.0, 1.0], name="values") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("mix_groupings", [True, False]) +@pytest.mark.parametrize("as_series", [True, False]) +@pytest.mark.parametrize("val1,val2", [("foo", "bar"), (1, 2), (1.0, 2.0)]) +@pytest.mark.parametrize( + "fill_method,limit,exp_vals", + [ + ( + "ffill", + None, + [np.nan, np.nan, "val1", "val1", "val1", "val2", "val2", "val2"], + ), + ("ffill", 1, [np.nan, np.nan, "val1", "val1", np.nan, "val2", "val2", np.nan]), + ( + "bfill", + None, + ["val1", "val1", "val1", "val2", "val2", "val2", np.nan, np.nan], + ), + ("bfill", 1, [np.nan, "val1", "val1", np.nan, "val2", "val2", np.nan, np.nan]), + ], +) +def test_group_fill_methods( + mix_groupings, as_series, val1, val2, fill_method, limit, exp_vals +): + vals = [np.nan, np.nan, val1, np.nan, np.nan, val2, np.nan, np.nan] + _exp_vals = list(exp_vals) + # Overwrite placeholder values + for index, exp_val in enumerate(_exp_vals): + if exp_val == "val1": + _exp_vals[index] = val1 + elif exp_val == "val2": + _exp_vals[index] = val2 + + # Need to modify values and expectations depending on the + # Series / DataFrame that we ultimately want to generate + if mix_groupings: # ['a', 'b', 'a, 'b', ...] + keys = ["a", "b"] * len(vals) + + def interweave(list_obj): + temp = [] + for x in list_obj: + temp.extend([x, x]) + + return temp + + _exp_vals = interweave(_exp_vals) + vals = interweave(vals) + else: # ['a', 'a', 'a', ... 'b', 'b', 'b'] + keys = ["a"] * len(vals) + ["b"] * len(vals) + _exp_vals = _exp_vals * 2 + vals = vals * 2 + + df = DataFrame({"key": keys, "val": vals}) + if as_series: + result = getattr(df.groupby("key")["val"], fill_method)(limit=limit) + exp = Series(_exp_vals, name="val") + tm.assert_series_equal(result, exp) + else: + result = getattr(df.groupby("key"), fill_method)(limit=limit) + exp = DataFrame({"val": _exp_vals}) + tm.assert_frame_equal(result, exp) + + +@pytest.mark.parametrize("fill_method", ["ffill", "bfill"]) +def test_pad_stable_sorting(fill_method): + # GH 21207 + x = [0] * 20 + y = [np.nan] * 10 + [1] * 10 + + if fill_method == "bfill": + y = y[::-1] + + df = DataFrame({"x": x, "y": y}) + expected = df.drop("x", axis=1) + + result = getattr(df.groupby("x"), fill_method)() + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "freq", + [ + None, + pytest.param( + "D", + marks=pytest.mark.xfail( + reason="GH#23918 before method uses freq in vectorized approach" + ), + ), + ], +) +@pytest.mark.parametrize("periods", [1, -1]) +@pytest.mark.parametrize("fill_method", ["ffill", "bfill", None]) +@pytest.mark.parametrize("limit", [None, 1]) +def test_pct_change(frame_or_series, freq, periods, fill_method, limit): + # GH 21200, 21621, 30463 + vals = [3, np.nan, np.nan, np.nan, 1, 2, 4, 10, np.nan, 4] + keys = ["a", "b"] + key_v = np.repeat(keys, len(vals)) + df = DataFrame({"key": key_v, "vals": vals * 2}) + + df_g = df + if fill_method is not None: + df_g = getattr(df.groupby("key"), fill_method)(limit=limit) + grp = df_g.groupby(df.key) + + expected = grp["vals"].obj / grp["vals"].shift(periods) - 1 + + gb = df.groupby("key") + + if frame_or_series is Series: + gb = gb["vals"] + else: + expected = expected.to_frame("vals") + + msg = ( + "The 'fill_method' keyword being not None and the 'limit' keyword in " + f"{type(gb).__name__}.pct_change are deprecated" + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.pct_change( + periods=periods, fill_method=fill_method, limit=limit, freq=freq + ) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "func, expected_status", + [ + ("ffill", ["shrt", "shrt", "lng", np.nan, "shrt", "ntrl", "ntrl"]), + ("bfill", ["shrt", "lng", "lng", "shrt", "shrt", "ntrl", np.nan]), + ], +) +def test_ffill_bfill_non_unique_multilevel(func, expected_status): + # GH 19437 + date = pd.to_datetime( + [ + "2018-01-01", + "2018-01-01", + "2018-01-01", + "2018-01-01", + "2018-01-02", + "2018-01-01", + "2018-01-02", + ] + ) + symbol = ["MSFT", "MSFT", "MSFT", "AAPL", "AAPL", "TSLA", "TSLA"] + status = ["shrt", np.nan, "lng", np.nan, "shrt", "ntrl", np.nan] + + df = DataFrame({"date": date, "symbol": symbol, "status": status}) + df = df.set_index(["date", "symbol"]) + result = getattr(df.groupby("symbol")["status"], func)() + + index = MultiIndex.from_tuples( + tuples=list(zip(*[date, symbol])), names=["date", "symbol"] + ) + expected = Series(expected_status, index=index, name="status") + + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", [np.any, np.all]) +def test_any_all_np_func(func): + # GH 20653 + df = DataFrame( + [["foo", True], [np.nan, True], ["foo", True]], columns=["key", "val"] + ) + + exp = Series([True, np.nan, True], name="val") + + msg = "using SeriesGroupBy.[any|all]" + with tm.assert_produces_warning(FutureWarning, match=msg): + res = df.groupby("key")["val"].transform(func) + tm.assert_series_equal(res, exp) + + +def test_groupby_transform_rename(): + # https://github.com/pandas-dev/pandas/issues/23461 + def demean_rename(x): + result = x - x.mean() + + if isinstance(x, Series): + return result + + result = result.rename(columns={c: f"{c}_demeaned" for c in result.columns}) + + return result + + df = DataFrame({"group": list("ababa"), "value": [1, 1, 1, 2, 2]}) + expected = DataFrame({"value": [-1.0 / 3, -0.5, -1.0 / 3, 0.5, 2.0 / 3]}) + + result = df.groupby("group").transform(demean_rename) + tm.assert_frame_equal(result, expected) + result_single = df.groupby("group").value.transform(demean_rename) + tm.assert_series_equal(result_single, expected["value"]) + + +@pytest.mark.parametrize("func", [min, max, np.min, np.max, "first", "last"]) +def test_groupby_transform_timezone_column(func): + # GH 24198 + ts = pd.to_datetime("now", utc=True).tz_convert("Asia/Singapore") + result = DataFrame({"end_time": [ts], "id": [1]}) + warn = FutureWarning if not isinstance(func, str) else None + msg = "using SeriesGroupBy.[min|max]" + with tm.assert_produces_warning(warn, match=msg): + result["max_end_time"] = result.groupby("id").end_time.transform(func) + expected = DataFrame([[ts, 1, ts]], columns=["end_time", "id", "max_end_time"]) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "func, values", + [ + ("idxmin", ["1/1/2011"] * 2 + ["1/3/2011"] * 7 + ["1/10/2011"]), + ("idxmax", ["1/2/2011"] * 2 + ["1/9/2011"] * 7 + ["1/10/2011"]), + ], +) +def test_groupby_transform_with_datetimes(func, values): + # GH 15306 + dates = date_range("1/1/2011", periods=10, freq="D") + + stocks = DataFrame({"price": np.arange(10.0)}, index=dates) + stocks["week_id"] = dates.isocalendar().week + + result = stocks.groupby(stocks["week_id"])["price"].transform(func) + + expected = Series( + data=pd.to_datetime(values).as_unit("ns"), index=dates, name="price" + ) + + tm.assert_series_equal(result, expected) + + +def test_groupby_transform_dtype(): + # GH 22243 + df = DataFrame({"a": [1], "val": [1.35]}) + + result = df["val"].transform(lambda x: x.map(lambda y: f"+{y}")) + expected1 = Series(["+1.35"], name="val") + tm.assert_series_equal(result, expected1) + + result = df.groupby("a")["val"].transform(lambda x: x.map(lambda y: f"+{y}")) + tm.assert_series_equal(result, expected1) + + result = df.groupby("a")["val"].transform(lambda x: x.map(lambda y: f"+({y})")) + expected2 = Series(["+(1.35)"], name="val") + tm.assert_series_equal(result, expected2) + + df["val"] = df["val"].astype(object) + result = df.groupby("a")["val"].transform(lambda x: x.map(lambda y: f"+{y}")) + tm.assert_series_equal(result, expected1) + + +@pytest.mark.parametrize("func", ["cumsum", "cumprod", "cummin", "cummax"]) +def test_transform_absent_categories(func): + # GH 16771 + # cython transforms with more groups than rows + x_vals = [1] + x_cats = range(2) + y = [1] + df = DataFrame({"x": Categorical(x_vals, x_cats), "y": y}) + result = getattr(df.y.groupby(df.x, observed=False), func)() + expected = df.y + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("func", ["ffill", "bfill", "shift"]) +@pytest.mark.parametrize("key, val", [("level", 0), ("by", Series([0]))]) +def test_ffill_not_in_axis(func, key, val): + # GH 21521 + df = DataFrame([[np.nan]]) + result = getattr(df.groupby(**{key: val}), func)() + expected = df + + tm.assert_frame_equal(result, expected) + + +def test_transform_invalid_name_raises(): + # GH#27486 + df = DataFrame({"a": [0, 1, 1, 2]}) + g = df.groupby(["a", "b", "b", "c"]) + with pytest.raises(ValueError, match="not a valid function name"): + g.transform("some_arbitrary_name") + + # method exists on the object, but is not a valid transformation/agg + assert hasattr(g, "aggregate") # make sure the method exists + with pytest.raises(ValueError, match="not a valid function name"): + g.transform("aggregate") + + # Test SeriesGroupBy + g = df["a"].groupby(["a", "b", "b", "c"]) + with pytest.raises(ValueError, match="not a valid function name"): + g.transform("some_arbitrary_name") + + +def test_transform_agg_by_name(request, reduction_func, frame_or_series): + func = reduction_func + + obj = DataFrame( + {"a": [0, 0, 0, 1, 1, 1], "b": range(6)}, + index=["A", "B", "C", "D", "E", "F"], + ) + if frame_or_series is Series: + obj = obj["a"] + + g = obj.groupby(np.repeat([0, 1], 3)) + + if func == "corrwith" and isinstance(obj, Series): # GH#32293 + # TODO: implement SeriesGroupBy.corrwith + assert not hasattr(g, func) + return + + args = get_groupby_method_args(reduction_func, obj) + result = g.transform(func, *args) + + # this is the *definition* of a transformation + tm.assert_index_equal(result.index, obj.index) + + if func not in ("ngroup", "size") and obj.ndim == 2: + # size/ngroup return a Series, unlike other transforms + tm.assert_index_equal(result.columns, obj.columns) + + # verify that values were broadcasted across each group + assert len(set(DataFrame(result).iloc[-3:, -1])) == 1 + + +def test_transform_lambda_with_datetimetz(): + # GH 27496 + df = DataFrame( + { + "time": [ + Timestamp("2010-07-15 03:14:45"), + Timestamp("2010-11-19 18:47:06"), + ], + "timezone": ["Etc/GMT+4", "US/Eastern"], + } + ) + result = df.groupby(["timezone"])["time"].transform( + lambda x: x.dt.tz_localize(x.name) + ) + expected = Series( + [ + Timestamp("2010-07-15 03:14:45", tz="Etc/GMT+4"), + Timestamp("2010-11-19 18:47:06", tz="US/Eastern"), + ], + name="time", + ) + tm.assert_series_equal(result, expected) + + +def test_transform_fastpath_raises(): + # GH#29631 case where fastpath defined in groupby.generic _choose_path + # raises, but slow_path does not + + df = DataFrame({"A": [1, 1, 2, 2], "B": [1, -1, 1, 2]}) + gb = df.groupby("A") + + def func(grp): + # we want a function such that func(frame) fails but func.apply(frame) + # works + if grp.ndim == 2: + # Ensure that fast_path fails + raise NotImplementedError("Don't cross the streams") + return grp * 2 + + # Check that the fastpath raises, see _transform_general + obj = gb._obj_with_exclusions + gen = gb._grouper.get_iterator(obj, axis=gb.axis) + fast_path, slow_path = gb._define_paths(func) + _, group = next(gen) + + with pytest.raises(NotImplementedError, match="Don't cross the streams"): + fast_path(group) + + result = gb.transform(func) + + expected = DataFrame([2, -2, 2, 4], columns=["B"]) + tm.assert_frame_equal(result, expected) + + +def test_transform_lambda_indexing(): + # GH 7883 + df = DataFrame( + { + "A": ["foo", "bar", "foo", "bar", "foo", "flux", "foo", "flux"], + "B": ["one", "one", "two", "three", "two", "six", "five", "three"], + "C": range(8), + "D": range(8), + "E": range(8), + } + ) + df = df.set_index(["A", "B"]) + df = df.sort_index() + result = df.groupby(level="A").transform(lambda x: x.iloc[-1]) + expected = DataFrame( + { + "C": [3, 3, 7, 7, 4, 4, 4, 4], + "D": [3, 3, 7, 7, 4, 4, 4, 4], + "E": [3, 3, 7, 7, 4, 4, 4, 4], + }, + index=MultiIndex.from_tuples( + [ + ("bar", "one"), + ("bar", "three"), + ("flux", "six"), + ("flux", "three"), + ("foo", "five"), + ("foo", "one"), + ("foo", "two"), + ("foo", "two"), + ], + names=["A", "B"], + ), + ) + tm.assert_frame_equal(result, expected) + + +def test_categorical_and_not_categorical_key(observed): + # Checks that groupby-transform, when grouping by both a categorical + # and a non-categorical key, doesn't try to expand the output to include + # non-observed categories but instead matches the input shape. + # GH 32494 + df_with_categorical = DataFrame( + { + "A": Categorical(["a", "b", "a"], categories=["a", "b", "c"]), + "B": [1, 2, 3], + "C": ["a", "b", "a"], + } + ) + df_without_categorical = DataFrame( + {"A": ["a", "b", "a"], "B": [1, 2, 3], "C": ["a", "b", "a"]} + ) + + # DataFrame case + result = df_with_categorical.groupby(["A", "C"], observed=observed).transform("sum") + expected = df_without_categorical.groupby(["A", "C"]).transform("sum") + tm.assert_frame_equal(result, expected) + expected_explicit = DataFrame({"B": [4, 2, 4]}) + tm.assert_frame_equal(result, expected_explicit) + + # Series case + result = df_with_categorical.groupby(["A", "C"], observed=observed)["B"].transform( + "sum" + ) + expected = df_without_categorical.groupby(["A", "C"])["B"].transform("sum") + tm.assert_series_equal(result, expected) + expected_explicit = Series([4, 2, 4], name="B") + tm.assert_series_equal(result, expected_explicit) + + +def test_string_rank_grouping(): + # GH 19354 + df = DataFrame({"A": [1, 1, 2], "B": [1, 2, 3]}) + result = df.groupby("A").transform("rank") + expected = DataFrame({"B": [1.0, 2.0, 1.0]}) + tm.assert_frame_equal(result, expected) + + +def test_transform_cumcount(): + # GH 27472 + df = DataFrame({"a": [0, 0, 0, 1, 1, 1], "b": range(6)}) + grp = df.groupby(np.repeat([0, 1], 3)) + + result = grp.cumcount() + expected = Series([0, 1, 2, 0, 1, 2]) + tm.assert_series_equal(result, expected) + + result = grp.transform("cumcount") + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("keys", [["A1"], ["A1", "A2"]]) +def test_null_group_lambda_self(sort, dropna, keys): + # GH 17093 + size = 50 + nulls1 = np.random.default_rng(2).choice([False, True], size) + nulls2 = np.random.default_rng(2).choice([False, True], size) + # Whether a group contains a null value or not + nulls_grouper = nulls1 if len(keys) == 1 else nulls1 | nulls2 + + a1 = np.random.default_rng(2).integers(0, 5, size=size).astype(float) + a1[nulls1] = np.nan + a2 = np.random.default_rng(2).integers(0, 5, size=size).astype(float) + a2[nulls2] = np.nan + values = np.random.default_rng(2).integers(0, 5, size=a1.shape) + df = DataFrame({"A1": a1, "A2": a2, "B": values}) + + expected_values = values + if dropna and nulls_grouper.any(): + expected_values = expected_values.astype(float) + expected_values[nulls_grouper] = np.nan + expected = DataFrame(expected_values, columns=["B"]) + + gb = df.groupby(keys, dropna=dropna, sort=sort) + result = gb[["B"]].transform(lambda x: x) + tm.assert_frame_equal(result, expected) + + +def test_null_group_str_reducer(request, dropna, reduction_func): + # GH 17093 + if reduction_func == "corrwith": + msg = "incorrectly raises" + request.applymarker(pytest.mark.xfail(reason=msg)) + + index = [1, 2, 3, 4] # test transform preserves non-standard index + df = DataFrame({"A": [1, 1, np.nan, np.nan], "B": [1, 2, 2, 3]}, index=index) + gb = df.groupby("A", dropna=dropna) + + args = get_groupby_method_args(reduction_func, df) + + # Manually handle reducers that don't fit the generic pattern + # Set expected with dropna=False, then replace if necessary + if reduction_func == "first": + expected = DataFrame({"B": [1, 1, 2, 2]}, index=index) + elif reduction_func == "last": + expected = DataFrame({"B": [2, 2, 3, 3]}, index=index) + elif reduction_func == "nth": + expected = DataFrame({"B": [1, 1, 2, 2]}, index=index) + elif reduction_func == "size": + expected = Series([2, 2, 2, 2], index=index) + elif reduction_func == "corrwith": + expected = DataFrame({"B": [1.0, 1.0, 1.0, 1.0]}, index=index) + else: + expected_gb = df.groupby("A", dropna=False) + buffer = [] + for idx, group in expected_gb: + res = getattr(group["B"], reduction_func)() + buffer.append(Series(res, index=group.index)) + expected = concat(buffer).to_frame("B") + if dropna: + dtype = object if reduction_func in ("any", "all") else float + expected = expected.astype(dtype) + if expected.ndim == 2: + expected.iloc[[2, 3], 0] = np.nan + else: + expected.iloc[[2, 3]] = np.nan + + result = gb.transform(reduction_func, *args) + tm.assert_equal(result, expected) + + +def test_null_group_str_transformer(request, dropna, transformation_func): + # GH 17093 + df = DataFrame({"A": [1, 1, np.nan], "B": [1, 2, 2]}, index=[1, 2, 3]) + args = get_groupby_method_args(transformation_func, df) + gb = df.groupby("A", dropna=dropna) + + buffer = [] + for k, (idx, group) in enumerate(gb): + if transformation_func == "cumcount": + # DataFrame has no cumcount method + res = DataFrame({"B": range(len(group))}, index=group.index) + elif transformation_func == "ngroup": + res = DataFrame(len(group) * [k], index=group.index, columns=["B"]) + else: + res = getattr(group[["B"]], transformation_func)(*args) + buffer.append(res) + if dropna: + dtype = object if transformation_func in ("any", "all") else None + buffer.append(DataFrame([[np.nan]], index=[3], dtype=dtype, columns=["B"])) + expected = concat(buffer) + + if transformation_func in ("cumcount", "ngroup"): + # ngroup/cumcount always returns a Series as it counts the groups, not values + expected = expected["B"].rename(None) + + if transformation_func == "pct_change" and not dropna: + warn = FutureWarning + msg = ( + "The default fill_method='ffill' in DataFrameGroupBy.pct_change " + "is deprecated" + ) + elif transformation_func == "fillna": + warn = FutureWarning + msg = "DataFrameGroupBy.fillna is deprecated" + else: + warn = None + msg = "" + with tm.assert_produces_warning(warn, match=msg): + result = gb.transform(transformation_func, *args) + + tm.assert_equal(result, expected) + + +def test_null_group_str_reducer_series(request, dropna, reduction_func): + # GH 17093 + index = [1, 2, 3, 4] # test transform preserves non-standard index + ser = Series([1, 2, 2, 3], index=index) + gb = ser.groupby([1, 1, np.nan, np.nan], dropna=dropna) + + if reduction_func == "corrwith": + # corrwith not implemented for SeriesGroupBy + assert not hasattr(gb, reduction_func) + return + + args = get_groupby_method_args(reduction_func, ser) + + # Manually handle reducers that don't fit the generic pattern + # Set expected with dropna=False, then replace if necessary + if reduction_func == "first": + expected = Series([1, 1, 2, 2], index=index) + elif reduction_func == "last": + expected = Series([2, 2, 3, 3], index=index) + elif reduction_func == "nth": + expected = Series([1, 1, 2, 2], index=index) + elif reduction_func == "size": + expected = Series([2, 2, 2, 2], index=index) + elif reduction_func == "corrwith": + expected = Series([1, 1, 2, 2], index=index) + else: + expected_gb = ser.groupby([1, 1, np.nan, np.nan], dropna=False) + buffer = [] + for idx, group in expected_gb: + res = getattr(group, reduction_func)() + buffer.append(Series(res, index=group.index)) + expected = concat(buffer) + if dropna: + dtype = object if reduction_func in ("any", "all") else float + expected = expected.astype(dtype) + expected.iloc[[2, 3]] = np.nan + + result = gb.transform(reduction_func, *args) + tm.assert_series_equal(result, expected) + + +def test_null_group_str_transformer_series(dropna, transformation_func): + # GH 17093 + ser = Series([1, 2, 2], index=[1, 2, 3]) + args = get_groupby_method_args(transformation_func, ser) + gb = ser.groupby([1, 1, np.nan], dropna=dropna) + + buffer = [] + for k, (idx, group) in enumerate(gb): + if transformation_func == "cumcount": + # Series has no cumcount method + res = Series(range(len(group)), index=group.index) + elif transformation_func == "ngroup": + res = Series(k, index=group.index) + else: + res = getattr(group, transformation_func)(*args) + buffer.append(res) + if dropna: + dtype = object if transformation_func in ("any", "all") else None + buffer.append(Series([np.nan], index=[3], dtype=dtype)) + expected = concat(buffer) + + warn = FutureWarning if transformation_func == "fillna" else None + msg = "SeriesGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + result = gb.transform(transformation_func, *args) + + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize( + "func, expected_values", + [ + (Series.sort_values, [5, 4, 3, 2, 1]), + (lambda x: x.head(1), [5.0, np.nan, 3, 2, np.nan]), + ], +) +@pytest.mark.parametrize("keys", [["a1"], ["a1", "a2"]]) +@pytest.mark.parametrize("keys_in_index", [True, False]) +def test_transform_aligns(func, frame_or_series, expected_values, keys, keys_in_index): + # GH#45648 - transform should align with the input's index + df = DataFrame({"a1": [1, 1, 3, 2, 2], "b": [5, 4, 3, 2, 1]}) + if "a2" in keys: + df["a2"] = df["a1"] + if keys_in_index: + df = df.set_index(keys, append=True) + + gb = df.groupby(keys) + if frame_or_series is Series: + gb = gb["b"] + + result = gb.transform(func) + expected = DataFrame({"b": expected_values}, index=df.index) + if frame_or_series is Series: + expected = expected["b"] + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("keys", ["A", ["A", "B"]]) +def test_as_index_no_change(keys, df, groupby_func): + # GH#49834 - as_index should have no impact on DataFrameGroupBy.transform + if keys == "A": + # Column B is string dtype; will fail on some ops + df = df.drop(columns="B") + args = get_groupby_method_args(groupby_func, df) + gb_as_index_true = df.groupby(keys, as_index=True) + gb_as_index_false = df.groupby(keys, as_index=False) + warn = FutureWarning if groupby_func == "fillna" else None + msg = "DataFrameGroupBy.fillna is deprecated" + with tm.assert_produces_warning(warn, match=msg): + result = gb_as_index_true.transform(groupby_func, *args) + with tm.assert_produces_warning(warn, match=msg): + expected = gb_as_index_false.transform(groupby_func, *args) + tm.assert_equal(result, expected) + + +@pytest.mark.parametrize("how", ["idxmax", "idxmin"]) +@pytest.mark.parametrize("numeric_only", [True, False]) +def test_idxmin_idxmax_transform_args(how, skipna, numeric_only): + # GH#55268 - ensure *args are passed through when calling transform + df = DataFrame({"a": [1, 1, 1, 2], "b": [3.0, 4.0, np.nan, 6.0], "c": list("abcd")}) + gb = df.groupby("a") + msg = f"'axis' keyword in DataFrameGroupBy.{how} is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = gb.transform(how, 0, skipna, numeric_only) + warn = None if skipna else FutureWarning + msg = f"The behavior of DataFrameGroupBy.{how} with .* any-NA and skipna=False" + with tm.assert_produces_warning(warn, match=msg): + expected = gb.transform(how, skipna=skipna, numeric_only=numeric_only) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/common.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/common.py new file mode 100644 index 0000000000000000000000000000000000000000..2af76f69a4300ac744a5e6f1f7dab185e19767ca --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/common.py @@ -0,0 +1,40 @@ +""" common utilities """ +from __future__ import annotations + +from typing import ( + Any, + Literal, +) + + +def _mklbl(prefix: str, n: int): + return [f"{prefix}{i}" for i in range(n)] + + +def check_indexing_smoketest_or_raises( + obj, + method: Literal["iloc", "loc"], + key: Any, + axes: Literal[0, 1] | None = None, + fails=None, +) -> None: + if axes is None: + axes_list = [0, 1] + else: + assert axes in [0, 1] + axes_list = [axes] + + for ax in axes_list: + if ax < obj.ndim: + # create a tuple accessor + new_axes = [slice(None)] * obj.ndim + new_axes[ax] = key + axified = tuple(new_axes) + try: + getattr(obj, method).__getitem__(axified) + except (IndexError, TypeError, KeyError) as detail: + # if we are in fails, the ok, otherwise raise it + if fails is not None: + if isinstance(detail, fails): + return + raise diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..4184c6a0047ccf0dccb8a72f028b27879130aea5 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/conftest.py @@ -0,0 +1,127 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + date_range, +) + + +@pytest.fixture +def series_ints(): + return Series(np.random.default_rng(2).random(4), index=np.arange(0, 8, 2)) + + +@pytest.fixture +def frame_ints(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=np.arange(0, 8, 2), + columns=np.arange(0, 12, 3), + ) + + +@pytest.fixture +def series_uints(): + return Series( + np.random.default_rng(2).random(4), + index=Index(np.arange(0, 8, 2, dtype=np.uint64)), + ) + + +@pytest.fixture +def frame_uints(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=Index(range(0, 8, 2), dtype=np.uint64), + columns=Index(range(0, 12, 3), dtype=np.uint64), + ) + + +@pytest.fixture +def series_labels(): + return Series(np.random.default_rng(2).standard_normal(4), index=list("abcd")) + + +@pytest.fixture +def frame_labels(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=list("abcd"), + columns=list("ABCD"), + ) + + +@pytest.fixture +def series_ts(): + return Series( + np.random.default_rng(2).standard_normal(4), + index=date_range("20130101", periods=4), + ) + + +@pytest.fixture +def frame_ts(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=date_range("20130101", periods=4), + ) + + +@pytest.fixture +def series_floats(): + return Series( + np.random.default_rng(2).random(4), + index=Index(range(0, 8, 2), dtype=np.float64), + ) + + +@pytest.fixture +def frame_floats(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=Index(range(0, 8, 2), dtype=np.float64), + columns=Index(range(0, 12, 3), dtype=np.float64), + ) + + +@pytest.fixture +def series_mixed(): + return Series(np.random.default_rng(2).standard_normal(4), index=[2, 4, "null", 8]) + + +@pytest.fixture +def frame_mixed(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), index=[2, 4, "null", 8] + ) + + +@pytest.fixture +def frame_empty(): + return DataFrame() + + +@pytest.fixture +def series_empty(): + return Series(dtype=object) + + +@pytest.fixture +def frame_multi(): + return DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=MultiIndex.from_product([[1, 2], [3, 4]]), + columns=MultiIndex.from_product([[5, 6], [7, 8]]), + ) + + +@pytest.fixture +def series_multi(): + return Series( + np.random.default_rng(2).random(4), + index=MultiIndex.from_product([[1, 2], [3, 4]]), + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval.py new file mode 100644 index 0000000000000000000000000000000000000000..dd51917b85a59b2ae88ac0c029dadaa6ff8f19da --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval.py @@ -0,0 +1,225 @@ +import numpy as np +import pytest + +from pandas._libs import index as libindex + +import pandas as pd +from pandas import ( + DataFrame, + IntervalIndex, + Series, +) +import pandas._testing as tm + + +class TestIntervalIndex: + @pytest.fixture + def series_with_interval_index(self): + return Series(np.arange(5), IntervalIndex.from_breaks(np.arange(6))) + + def test_getitem_with_scalar(self, series_with_interval_index, indexer_sl): + ser = series_with_interval_index.copy() + + expected = ser.iloc[:3] + tm.assert_series_equal(expected, indexer_sl(ser)[:3]) + tm.assert_series_equal(expected, indexer_sl(ser)[:2.5]) + tm.assert_series_equal(expected, indexer_sl(ser)[0.1:2.5]) + if indexer_sl is tm.loc: + tm.assert_series_equal(expected, ser.loc[-1:3]) + + expected = ser.iloc[1:4] + tm.assert_series_equal(expected, indexer_sl(ser)[[1.5, 2.5, 3.5]]) + tm.assert_series_equal(expected, indexer_sl(ser)[[2, 3, 4]]) + tm.assert_series_equal(expected, indexer_sl(ser)[[1.5, 3, 4]]) + + expected = ser.iloc[2:5] + tm.assert_series_equal(expected, indexer_sl(ser)[ser >= 2]) + + @pytest.mark.parametrize("direction", ["increasing", "decreasing"]) + def test_getitem_nonoverlapping_monotonic(self, direction, closed, indexer_sl): + tpls = [(0, 1), (2, 3), (4, 5)] + if direction == "decreasing": + tpls = tpls[::-1] + + idx = IntervalIndex.from_tuples(tpls, closed=closed) + ser = Series(list("abc"), idx) + + for key, expected in zip(idx.left, ser): + if idx.closed_left: + assert indexer_sl(ser)[key] == expected + else: + with pytest.raises(KeyError, match=str(key)): + indexer_sl(ser)[key] + + for key, expected in zip(idx.right, ser): + if idx.closed_right: + assert indexer_sl(ser)[key] == expected + else: + with pytest.raises(KeyError, match=str(key)): + indexer_sl(ser)[key] + + for key, expected in zip(idx.mid, ser): + assert indexer_sl(ser)[key] == expected + + def test_getitem_non_matching(self, series_with_interval_index, indexer_sl): + ser = series_with_interval_index.copy() + + # this is a departure from our current + # indexing scheme, but simpler + with pytest.raises(KeyError, match=r"\[-1\] not in index"): + indexer_sl(ser)[[-1, 3, 4, 5]] + + with pytest.raises(KeyError, match=r"\[-1\] not in index"): + indexer_sl(ser)[[-1, 3]] + + def test_loc_getitem_large_series(self, monkeypatch): + size_cutoff = 20 + with monkeypatch.context(): + monkeypatch.setattr(libindex, "_SIZE_CUTOFF", size_cutoff) + ser = Series( + np.arange(size_cutoff), + index=IntervalIndex.from_breaks(np.arange(size_cutoff + 1)), + ) + + result1 = ser.loc[:8] + result2 = ser.loc[0:8] + result3 = ser.loc[0:8:1] + tm.assert_series_equal(result1, result2) + tm.assert_series_equal(result1, result3) + + def test_loc_getitem_frame(self): + # CategoricalIndex with IntervalIndex categories + df = DataFrame({"A": range(10)}) + ser = pd.cut(df.A, 5) + df["B"] = ser + df = df.set_index("B") + + result = df.loc[4] + expected = df.iloc[4:6] + tm.assert_frame_equal(result, expected) + + with pytest.raises(KeyError, match="10"): + df.loc[10] + + # single list-like + result = df.loc[[4]] + expected = df.iloc[4:6] + tm.assert_frame_equal(result, expected) + + # non-unique + result = df.loc[[4, 5]] + expected = df.take([4, 5, 4, 5]) + tm.assert_frame_equal(result, expected) + + msg = ( + r"None of \[Index\(\[10\], dtype='object', name='B'\)\] " + r"are in the \[index\]" + ) + with pytest.raises(KeyError, match=msg): + df.loc[[10]] + + # partial missing + with pytest.raises(KeyError, match=r"\[10\] not in index"): + df.loc[[10, 4]] + + def test_getitem_interval_with_nans(self, frame_or_series, indexer_sl): + # GH#41831 + + index = IntervalIndex([np.nan, np.nan]) + key = index[:-1] + + obj = frame_or_series(range(2), index=index) + if frame_or_series is DataFrame and indexer_sl is tm.setitem: + obj = obj.T + + result = indexer_sl(obj)[key] + expected = obj + + tm.assert_equal(result, expected) + + def test_setitem_interval_with_slice(self): + # GH#54722 + ii = IntervalIndex.from_breaks(range(4, 15)) + ser = Series(range(10), index=ii) + + orig = ser.copy() + + # This should be a no-op (used to raise) + ser.loc[1:3] = 20 + tm.assert_series_equal(ser, orig) + + ser.loc[6:8] = 19 + orig.iloc[1:4] = 19 + tm.assert_series_equal(ser, orig) + + ser2 = Series(range(5), index=ii[::2]) + orig2 = ser2.copy() + + # this used to raise + ser2.loc[6:8] = 22 # <- raises on main, sets on branch + orig2.iloc[1] = 22 + tm.assert_series_equal(ser2, orig2) + + ser2.loc[5:7] = 21 + orig2.iloc[:2] = 21 + tm.assert_series_equal(ser2, orig2) + + +class TestIntervalIndexInsideMultiIndex: + def test_mi_intervalindex_slicing_with_scalar(self): + # GH#27456 + ii = IntervalIndex.from_arrays( + [0, 1, 10, 11, 0, 1, 10, 11], [1, 2, 11, 12, 1, 2, 11, 12], name="MP" + ) + idx = pd.MultiIndex.from_arrays( + [ + pd.Index(["FC", "FC", "FC", "FC", "OWNER", "OWNER", "OWNER", "OWNER"]), + pd.Index( + ["RID1", "RID1", "RID2", "RID2", "RID1", "RID1", "RID2", "RID2"] + ), + ii, + ] + ) + + idx.names = ["Item", "RID", "MP"] + df = DataFrame({"value": [1, 2, 3, 4, 5, 6, 7, 8]}) + df.index = idx + + query_df = DataFrame( + { + "Item": ["FC", "OWNER", "FC", "OWNER", "OWNER"], + "RID": ["RID1", "RID1", "RID1", "RID2", "RID2"], + "MP": [0.2, 1.5, 1.6, 11.1, 10.9], + } + ) + + query_df = query_df.sort_index() + + idx = pd.MultiIndex.from_arrays([query_df.Item, query_df.RID, query_df.MP]) + query_df.index = idx + result = df.value.loc[query_df.index] + + # the IntervalIndex level is indexed with floats, which map to + # the intervals containing them. Matching the behavior we would get + # with _only_ an IntervalIndex, we get an IntervalIndex level back. + sliced_level = ii.take([0, 1, 1, 3, 2]) + expected_index = pd.MultiIndex.from_arrays( + [idx.get_level_values(0), idx.get_level_values(1), sliced_level] + ) + expected = Series([1, 6, 2, 8, 7], index=expected_index, name="value") + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "base", + [101, 1010], + ) + def test_reindex_behavior_with_interval_index(self, base): + # GH 51826 + + ser = Series( + range(base), + index=IntervalIndex.from_arrays(range(base), range(1, base + 1)), + ) + expected_result = Series([np.nan, 0], index=[np.nan, 1.0], dtype=float) + result = ser.reindex(index=[np.nan, 1.0]) + tm.assert_series_equal(result, expected_result) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval_new.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval_new.py new file mode 100644 index 0000000000000000000000000000000000000000..018db5846f4e269efe69de91b30b461822872410 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/interval/test_interval_new.py @@ -0,0 +1,229 @@ +import re + +import numpy as np +import pytest + +from pandas import ( + Index, + Interval, + IntervalIndex, + Series, +) +import pandas._testing as tm + + +class TestIntervalIndex: + @pytest.fixture + def series_with_interval_index(self): + return Series(np.arange(5), IntervalIndex.from_breaks(np.arange(6))) + + def test_loc_with_interval(self, series_with_interval_index, indexer_sl): + # loc with single label / list of labels: + # - Intervals: only exact matches + # - scalars: those that contain it + + ser = series_with_interval_index.copy() + + expected = 0 + result = indexer_sl(ser)[Interval(0, 1)] + assert result == expected + + expected = ser.iloc[3:5] + result = indexer_sl(ser)[[Interval(3, 4), Interval(4, 5)]] + tm.assert_series_equal(expected, result) + + # missing or not exact + with pytest.raises(KeyError, match=re.escape("Interval(3, 5, closed='left')")): + indexer_sl(ser)[Interval(3, 5, closed="left")] + + with pytest.raises(KeyError, match=re.escape("Interval(3, 5, closed='right')")): + indexer_sl(ser)[Interval(3, 5)] + + with pytest.raises( + KeyError, match=re.escape("Interval(-2, 0, closed='right')") + ): + indexer_sl(ser)[Interval(-2, 0)] + + with pytest.raises(KeyError, match=re.escape("Interval(5, 6, closed='right')")): + indexer_sl(ser)[Interval(5, 6)] + + def test_loc_with_scalar(self, series_with_interval_index, indexer_sl): + # loc with single label / list of labels: + # - Intervals: only exact matches + # - scalars: those that contain it + + ser = series_with_interval_index.copy() + + assert indexer_sl(ser)[1] == 0 + assert indexer_sl(ser)[1.5] == 1 + assert indexer_sl(ser)[2] == 1 + + expected = ser.iloc[1:4] + tm.assert_series_equal(expected, indexer_sl(ser)[[1.5, 2.5, 3.5]]) + tm.assert_series_equal(expected, indexer_sl(ser)[[2, 3, 4]]) + tm.assert_series_equal(expected, indexer_sl(ser)[[1.5, 3, 4]]) + + expected = ser.iloc[[1, 1, 2, 1]] + tm.assert_series_equal(expected, indexer_sl(ser)[[1.5, 2, 2.5, 1.5]]) + + expected = ser.iloc[2:5] + tm.assert_series_equal(expected, indexer_sl(ser)[ser >= 2]) + + def test_loc_with_slices(self, series_with_interval_index, indexer_sl): + # loc with slices: + # - Interval objects: only works with exact matches + # - scalars: only works for non-overlapping, monotonic intervals, + # and start/stop select location based on the interval that + # contains them: + # (slice_loc(start, stop) == (idx.get_loc(start), idx.get_loc(stop)) + + ser = series_with_interval_index.copy() + + # slice of interval + + expected = ser.iloc[:3] + result = indexer_sl(ser)[Interval(0, 1) : Interval(2, 3)] + tm.assert_series_equal(expected, result) + + expected = ser.iloc[3:] + result = indexer_sl(ser)[Interval(3, 4) :] + tm.assert_series_equal(expected, result) + + msg = "Interval objects are not currently supported" + with pytest.raises(NotImplementedError, match=msg): + indexer_sl(ser)[Interval(3, 6) :] + + with pytest.raises(NotImplementedError, match=msg): + indexer_sl(ser)[Interval(3, 4, closed="left") :] + + def test_slice_step_ne1(self, series_with_interval_index): + # GH#31658 slice of scalar with step != 1 + ser = series_with_interval_index.copy() + expected = ser.iloc[0:4:2] + + result = ser[0:4:2] + tm.assert_series_equal(result, expected) + + result2 = ser[0:4][::2] + tm.assert_series_equal(result2, expected) + + def test_slice_float_start_stop(self, series_with_interval_index): + # GH#31658 slicing with integers is positional, with floats is not + # supported + ser = series_with_interval_index.copy() + + msg = "label-based slicing with step!=1 is not supported for IntervalIndex" + with pytest.raises(ValueError, match=msg): + ser[1.5:9.5:2] + + def test_slice_interval_step(self, series_with_interval_index): + # GH#31658 allows for integer step!=1, not Interval step + ser = series_with_interval_index.copy() + msg = "label-based slicing with step!=1 is not supported for IntervalIndex" + with pytest.raises(ValueError, match=msg): + ser[0 : 4 : Interval(0, 1)] + + def test_loc_with_overlap(self, indexer_sl): + idx = IntervalIndex.from_tuples([(1, 5), (3, 7)]) + ser = Series(range(len(idx)), index=idx) + + # scalar + expected = ser + result = indexer_sl(ser)[4] + tm.assert_series_equal(expected, result) + + result = indexer_sl(ser)[[4]] + tm.assert_series_equal(expected, result) + + # interval + expected = 0 + result = indexer_sl(ser)[Interval(1, 5)] + assert expected == result + + expected = ser + result = indexer_sl(ser)[[Interval(1, 5), Interval(3, 7)]] + tm.assert_series_equal(expected, result) + + with pytest.raises(KeyError, match=re.escape("Interval(3, 5, closed='right')")): + indexer_sl(ser)[Interval(3, 5)] + + msg = ( + r"None of \[IntervalIndex\(\[\(3, 5\]\], " + r"dtype='interval\[int64, right\]'\)\] are in the \[index\]" + ) + with pytest.raises(KeyError, match=msg): + indexer_sl(ser)[[Interval(3, 5)]] + + # slices with interval (only exact matches) + expected = ser + result = indexer_sl(ser)[Interval(1, 5) : Interval(3, 7)] + tm.assert_series_equal(expected, result) + + msg = ( + "'can only get slices from an IntervalIndex if bounds are " + "non-overlapping and all monotonic increasing or decreasing'" + ) + with pytest.raises(KeyError, match=msg): + indexer_sl(ser)[Interval(1, 6) : Interval(3, 8)] + + if indexer_sl is tm.loc: + # slices with scalar raise for overlapping intervals + # TODO KeyError is the appropriate error? + with pytest.raises(KeyError, match=msg): + ser.loc[1:4] + + def test_non_unique(self, indexer_sl): + idx = IntervalIndex.from_tuples([(1, 3), (3, 7)]) + ser = Series(range(len(idx)), index=idx) + + result = indexer_sl(ser)[Interval(1, 3)] + assert result == 0 + + result = indexer_sl(ser)[[Interval(1, 3)]] + expected = ser.iloc[0:1] + tm.assert_series_equal(expected, result) + + def test_non_unique_moar(self, indexer_sl): + idx = IntervalIndex.from_tuples([(1, 3), (1, 3), (3, 7)]) + ser = Series(range(len(idx)), index=idx) + + expected = ser.iloc[[0, 1]] + result = indexer_sl(ser)[Interval(1, 3)] + tm.assert_series_equal(expected, result) + + expected = ser + result = indexer_sl(ser)[Interval(1, 3) :] + tm.assert_series_equal(expected, result) + + expected = ser.iloc[[0, 1]] + result = indexer_sl(ser)[[Interval(1, 3)]] + tm.assert_series_equal(expected, result) + + def test_loc_getitem_missing_key_error_message( + self, frame_or_series, series_with_interval_index + ): + # GH#27365 + ser = series_with_interval_index.copy() + obj = frame_or_series(ser) + with pytest.raises(KeyError, match=r"\[6\]"): + obj.loc[[4, 5, 6]] + + +@pytest.mark.parametrize( + "intervals", + [ + ([Interval(-np.inf, 0.0), Interval(0.0, 1.0)]), + ([Interval(-np.inf, -2.0), Interval(-2.0, -1.0)]), + ([Interval(-1.0, 0.0), Interval(0.0, np.inf)]), + ([Interval(1.0, 2.0), Interval(2.0, np.inf)]), + ], +) +def test_repeating_interval_index_with_infs(intervals): + # GH 46658 + + interval_index = Index(intervals * 51) + + expected = np.arange(1, 102, 2, dtype=np.intp) + result = interval_index.get_indexer_for([intervals[1]]) + + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_chaining_and_caching.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_chaining_and_caching.py new file mode 100644 index 0000000000000000000000000000000000000000..0dd1a56890fee90e49646ff2a1fe87c6249b3f57 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_chaining_and_caching.py @@ -0,0 +1,87 @@ +import numpy as np +import pytest + +from pandas._libs import index as libindex +from pandas.errors import SettingWithCopyError +import pandas.util._test_decorators as td + +from pandas import ( + DataFrame, + MultiIndex, + Series, +) +import pandas._testing as tm + + +def test_detect_chained_assignment(using_copy_on_write, warn_copy_on_write): + # Inplace ops, originally from: + # https://stackoverflow.com/questions/20508968/series-fillna-in-a-multiindex-dataframe-does-not-fill-is-this-a-bug + a = [12, 23] + b = [123, None] + c = [1234, 2345] + d = [12345, 23456] + tuples = [("eyes", "left"), ("eyes", "right"), ("ears", "left"), ("ears", "right")] + events = { + ("eyes", "left"): a, + ("eyes", "right"): b, + ("ears", "left"): c, + ("ears", "right"): d, + } + multiind = MultiIndex.from_tuples(tuples, names=["part", "side"]) + zed = DataFrame(events, index=["a", "b"], columns=multiind) + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + zed["eyes"]["right"].fillna(value=555, inplace=True) + elif warn_copy_on_write: + with tm.assert_produces_warning(None): + zed["eyes"]["right"].fillna(value=555, inplace=True) + else: + msg = "A value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + with tm.assert_produces_warning(None): + zed["eyes"]["right"].fillna(value=555, inplace=True) + + +@td.skip_array_manager_invalid_test # with ArrayManager df.loc[0] is not a view +def test_cache_updating(using_copy_on_write, warn_copy_on_write): + # 5216 + # make sure that we don't try to set a dead cache + a = np.random.default_rng(2).random((10, 3)) + df = DataFrame(a, columns=["x", "y", "z"]) + df_original = df.copy() + tuples = [(i, j) for i in range(5) for j in range(2)] + index = MultiIndex.from_tuples(tuples) + df.index = index + + # setting via chained assignment + # but actually works, since everything is a view + + with tm.raises_chained_assignment_error(): + df.loc[0]["z"].iloc[0] = 1.0 + + if using_copy_on_write: + assert df.loc[(0, 0), "z"] == df_original.loc[0, "z"] + else: + result = df.loc[(0, 0), "z"] + assert result == 1 + + # correct setting + df.loc[(0, 0), "z"] = 2 + result = df.loc[(0, 0), "z"] + assert result == 2 + + +def test_indexer_caching(monkeypatch): + # GH5727 + # make sure that indexers are in the _internal_names_set + size_cutoff = 20 + with monkeypatch.context(): + monkeypatch.setattr(libindex, "_SIZE_CUTOFF", size_cutoff) + index = MultiIndex.from_arrays([np.arange(size_cutoff), np.arange(size_cutoff)]) + s = Series(np.zeros(size_cutoff), index=index) + + # setitem + s[s == 0] = 1 + expected = Series(np.ones(size_cutoff), index=index) + tm.assert_series_equal(s, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_datetime.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_datetime.py new file mode 100644 index 0000000000000000000000000000000000000000..d325971e7baf69fb3119afc018c6f90da93e0d3b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_datetime.py @@ -0,0 +1,50 @@ +from datetime import datetime + +import numpy as np + +from pandas import ( + DataFrame, + Index, + MultiIndex, + Period, + Series, + period_range, + to_datetime, +) +import pandas._testing as tm + + +def test_multiindex_period_datetime(): + # GH4861, using datetime in period of multiindex raises exception + + idx1 = Index(["a", "a", "a", "b", "b"]) + idx2 = period_range("2012-01", periods=len(idx1), freq="M") + s = Series(np.random.default_rng(2).standard_normal(len(idx1)), [idx1, idx2]) + + # try Period as index + expected = s.iloc[0] + result = s.loc["a", Period("2012-01")] + assert result == expected + + # try datetime as index + result = s.loc["a", datetime(2012, 1, 1)] + assert result == expected + + +def test_multiindex_datetime_columns(): + # GH35015, using datetime as column indices raises exception + + mi = MultiIndex.from_tuples( + [(to_datetime("02/29/2020"), to_datetime("03/01/2020"))], names=["a", "b"] + ) + + df = DataFrame([], columns=mi) + + expected_df = DataFrame( + [], + columns=MultiIndex.from_arrays( + [[to_datetime("02/29/2020")], [to_datetime("03/01/2020")]], names=["a", "b"] + ), + ) + + tm.assert_frame_equal(df, expected_df) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_getitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_getitem.py new file mode 100644 index 0000000000000000000000000000000000000000..b86e233110e882d3c9a71720bfc0b725bfd46923 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_getitem.py @@ -0,0 +1,410 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm +from pandas.core.indexing import IndexingError + +# ---------------------------------------------------------------------------- +# test indexing of Series with multi-level Index +# ---------------------------------------------------------------------------- + + +@pytest.mark.parametrize( + "access_method", + [lambda s, x: s[:, x], lambda s, x: s.loc[:, x], lambda s, x: s.xs(x, level=1)], +) +@pytest.mark.parametrize( + "level1_value, expected", + [(0, Series([1], index=[0])), (1, Series([2, 3], index=[1, 2]))], +) +def test_series_getitem_multiindex(access_method, level1_value, expected): + # GH 6018 + # series regression getitem with a multi-index + + mi = MultiIndex.from_tuples([(0, 0), (1, 1), (2, 1)], names=["A", "B"]) + ser = Series([1, 2, 3], index=mi) + expected.index.name = "A" + + result = access_method(ser, level1_value) + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("level0_value", ["D", "A"]) +def test_series_getitem_duplicates_multiindex(level0_value): + # GH 5725 the 'A' happens to be a valid Timestamp so the doesn't raise + # the appropriate error, only in PY3 of course! + + index = MultiIndex( + levels=[[level0_value, "B", "C"], [0, 26, 27, 37, 57, 67, 75, 82]], + codes=[[0, 0, 0, 1, 2, 2, 2, 2, 2, 2], [1, 3, 4, 6, 0, 2, 2, 3, 5, 7]], + names=["tag", "day"], + ) + arr = np.random.default_rng(2).standard_normal((len(index), 1)) + df = DataFrame(arr, index=index, columns=["val"]) + + # confirm indexing on missing value raises KeyError + if level0_value != "A": + with pytest.raises(KeyError, match=r"^'A'$"): + df.val["A"] + + with pytest.raises(KeyError, match=r"^'X'$"): + df.val["X"] + + result = df.val[level0_value] + expected = Series( + arr.ravel()[0:3], name="val", index=Index([26, 37, 57], name="day") + ) + tm.assert_series_equal(result, expected) + + +def test_series_getitem(multiindex_year_month_day_dataframe_random_data, indexer_sl): + s = multiindex_year_month_day_dataframe_random_data["A"] + expected = s.reindex(s.index[42:65]) + expected.index = expected.index.droplevel(0).droplevel(0) + + result = indexer_sl(s)[2000, 3] + tm.assert_series_equal(result, expected) + + +def test_series_getitem_returns_scalar( + multiindex_year_month_day_dataframe_random_data, indexer_sl +): + s = multiindex_year_month_day_dataframe_random_data["A"] + expected = s.iloc[49] + + result = indexer_sl(s)[2000, 3, 10] + assert result == expected + + +@pytest.mark.parametrize( + "indexer,expected_error,expected_error_msg", + [ + (lambda s: s.__getitem__((2000, 3, 4)), KeyError, r"^\(2000, 3, 4\)$"), + (lambda s: s[(2000, 3, 4)], KeyError, r"^\(2000, 3, 4\)$"), + (lambda s: s.loc[(2000, 3, 4)], KeyError, r"^\(2000, 3, 4\)$"), + (lambda s: s.loc[(2000, 3, 4, 5)], IndexingError, "Too many indexers"), + (lambda s: s.__getitem__(len(s)), KeyError, ""), # match should include len(s) + (lambda s: s[len(s)], KeyError, ""), # match should include len(s) + ( + lambda s: s.iloc[len(s)], + IndexError, + "single positional indexer is out-of-bounds", + ), + ], +) +def test_series_getitem_indexing_errors( + multiindex_year_month_day_dataframe_random_data, + indexer, + expected_error, + expected_error_msg, +): + s = multiindex_year_month_day_dataframe_random_data["A"] + with pytest.raises(expected_error, match=expected_error_msg): + indexer(s) + + +def test_series_getitem_corner_generator( + multiindex_year_month_day_dataframe_random_data, +): + s = multiindex_year_month_day_dataframe_random_data["A"] + result = s[(x > 0 for x in s)] + expected = s[s > 0] + tm.assert_series_equal(result, expected) + + +# ---------------------------------------------------------------------------- +# test indexing of DataFrame with multi-level Index +# ---------------------------------------------------------------------------- + + +def test_getitem_simple(multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data.T + expected = df.values[:, 0] + result = df["foo", "one"].values + tm.assert_almost_equal(result, expected) + + +@pytest.mark.parametrize( + "indexer,expected_error_msg", + [ + (lambda df: df[("foo", "four")], r"^\('foo', 'four'\)$"), + (lambda df: df["foobar"], r"^'foobar'$"), + ], +) +def test_frame_getitem_simple_key_error( + multiindex_dataframe_random_data, indexer, expected_error_msg +): + df = multiindex_dataframe_random_data.T + with pytest.raises(KeyError, match=expected_error_msg): + indexer(df) + + +def test_tuple_string_column_names(): + # GH#50372 + mi = MultiIndex.from_tuples([("a", "aa"), ("a", "ab"), ("b", "ba"), ("b", "bb")]) + df = DataFrame([range(4), range(1, 5), range(2, 6)], columns=mi) + df["single_index"] = 0 + + df_flat = df.copy() + df_flat.columns = df_flat.columns.to_flat_index() + df_flat["new_single_index"] = 0 + + result = df_flat[[("a", "aa"), "new_single_index"]] + expected = DataFrame( + [[0, 0], [1, 0], [2, 0]], columns=Index([("a", "aa"), "new_single_index"]) + ) + tm.assert_frame_equal(result, expected) + + +def test_frame_getitem_multicolumn_empty_level(): + df = DataFrame({"a": ["1", "2", "3"], "b": ["2", "3", "4"]}) + df.columns = [ + ["level1 item1", "level1 item2"], + ["", "level2 item2"], + ["level3 item1", "level3 item2"], + ] + + result = df["level1 item1"] + expected = DataFrame( + [["1"], ["2"], ["3"]], index=df.index, columns=["level3 item1"] + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "indexer,expected_slice", + [ + (lambda df: df["foo"], slice(3)), + (lambda df: df["bar"], slice(3, 5)), + (lambda df: df.loc[:, "bar"], slice(3, 5)), + ], +) +def test_frame_getitem_toplevel( + multiindex_dataframe_random_data, indexer, expected_slice +): + df = multiindex_dataframe_random_data.T + expected = df.reindex(columns=df.columns[expected_slice]) + expected.columns = expected.columns.droplevel(0) + result = indexer(df) + tm.assert_frame_equal(result, expected) + + +def test_frame_mixed_depth_get(): + arrays = [ + ["a", "top", "top", "routine1", "routine1", "routine2"], + ["", "OD", "OD", "result1", "result2", "result1"], + ["", "wx", "wy", "", "", ""], + ] + + tuples = sorted(zip(*arrays)) + index = MultiIndex.from_tuples(tuples) + df = DataFrame(np.random.default_rng(2).standard_normal((4, 6)), columns=index) + + result = df["a"] + expected = df["a", "", ""].rename("a") + tm.assert_series_equal(result, expected) + + result = df["routine1", "result1"] + expected = df["routine1", "result1", ""] + expected = expected.rename(("routine1", "result1")) + tm.assert_series_equal(result, expected) + + +def test_frame_getitem_nan_multiindex(nulls_fixture): + # GH#29751 + # loc on a multiindex containing nan values + n = nulls_fixture # for code readability + cols = ["a", "b", "c"] + df = DataFrame( + [[11, n, 13], [21, n, 23], [31, n, 33], [41, n, 43]], + columns=cols, + ).set_index(["a", "b"]) + df["c"] = df["c"].astype("int64") + + idx = (21, n) + result = df.loc[:idx] + expected = DataFrame([[11, n, 13], [21, n, 23]], columns=cols).set_index(["a", "b"]) + expected["c"] = expected["c"].astype("int64") + tm.assert_frame_equal(result, expected) + + result = df.loc[idx:] + expected = DataFrame( + [[21, n, 23], [31, n, 33], [41, n, 43]], columns=cols + ).set_index(["a", "b"]) + expected["c"] = expected["c"].astype("int64") + tm.assert_frame_equal(result, expected) + + idx1, idx2 = (21, n), (31, n) + result = df.loc[idx1:idx2] + expected = DataFrame([[21, n, 23], [31, n, 33]], columns=cols).set_index(["a", "b"]) + expected["c"] = expected["c"].astype("int64") + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "indexer,expected", + [ + ( + (["b"], ["bar", np.nan]), + ( + DataFrame( + [[2, 3], [5, 6]], + columns=MultiIndex.from_tuples([("b", "bar"), ("b", np.nan)]), + dtype="int64", + ) + ), + ), + ( + (["a", "b"]), + ( + DataFrame( + [[1, 2, 3], [4, 5, 6]], + columns=MultiIndex.from_tuples( + [("a", "foo"), ("b", "bar"), ("b", np.nan)] + ), + dtype="int64", + ) + ), + ), + ( + (["b"]), + ( + DataFrame( + [[2, 3], [5, 6]], + columns=MultiIndex.from_tuples([("b", "bar"), ("b", np.nan)]), + dtype="int64", + ) + ), + ), + ( + (["b"], ["bar"]), + ( + DataFrame( + [[2], [5]], + columns=MultiIndex.from_tuples([("b", "bar")]), + dtype="int64", + ) + ), + ), + ( + (["b"], [np.nan]), + ( + DataFrame( + [[3], [6]], + columns=MultiIndex( + codes=[[1], [-1]], levels=[["a", "b"], ["bar", "foo"]] + ), + dtype="int64", + ) + ), + ), + (("b", np.nan), Series([3, 6], dtype="int64", name=("b", np.nan))), + ], +) +def test_frame_getitem_nan_cols_multiindex( + indexer, + expected, + nulls_fixture, +): + # Slicing MultiIndex including levels with nan values, for more information + # see GH#25154 + df = DataFrame( + [[1, 2, 3], [4, 5, 6]], + columns=MultiIndex.from_tuples( + [("a", "foo"), ("b", "bar"), ("b", nulls_fixture)] + ), + dtype="int64", + ) + + result = df.loc[:, indexer] + tm.assert_equal(result, expected) + + +# ---------------------------------------------------------------------------- +# test indexing of DataFrame with multi-level Index with duplicates +# ---------------------------------------------------------------------------- + + +@pytest.fixture +def dataframe_with_duplicate_index(): + """Fixture for DataFrame used in tests for gh-4145 and gh-4146""" + data = [["a", "d", "e", "c", "f", "b"], [1, 4, 5, 3, 6, 2], [1, 4, 5, 3, 6, 2]] + index = ["h1", "h3", "h5"] + columns = MultiIndex( + levels=[["A", "B"], ["A1", "A2", "B1", "B2"]], + codes=[[0, 0, 0, 1, 1, 1], [0, 3, 3, 0, 1, 2]], + names=["main", "sub"], + ) + return DataFrame(data, index=index, columns=columns) + + +@pytest.mark.parametrize( + "indexer", [lambda df: df[("A", "A1")], lambda df: df.loc[:, ("A", "A1")]] +) +def test_frame_mi_access(dataframe_with_duplicate_index, indexer): + # GH 4145 + df = dataframe_with_duplicate_index + index = Index(["h1", "h3", "h5"]) + columns = MultiIndex.from_tuples([("A", "A1")], names=["main", "sub"]) + expected = DataFrame([["a", 1, 1]], index=columns, columns=index).T + + result = indexer(df) + tm.assert_frame_equal(result, expected) + + +def test_frame_mi_access_returns_series(dataframe_with_duplicate_index): + # GH 4146, not returning a block manager when selecting a unique index + # from a duplicate index + # as of 4879, this returns a Series (which is similar to what happens + # with a non-unique) + df = dataframe_with_duplicate_index + expected = Series(["a", 1, 1], index=["h1", "h3", "h5"], name="A1") + result = df["A"]["A1"] + tm.assert_series_equal(result, expected) + + +def test_frame_mi_access_returns_frame(dataframe_with_duplicate_index): + # selecting a non_unique from the 2nd level + df = dataframe_with_duplicate_index + expected = DataFrame( + [["d", 4, 4], ["e", 5, 5]], + index=Index(["B2", "B2"], name="sub"), + columns=["h1", "h3", "h5"], + ).T + result = df["A"]["B2"] + tm.assert_frame_equal(result, expected) + + +def test_frame_mi_empty_slice(): + # GH 15454 + df = DataFrame(0, index=range(2), columns=MultiIndex.from_product([[1], [2]])) + result = df[[]] + expected = DataFrame( + index=[0, 1], columns=MultiIndex(levels=[[1], [2]], codes=[[], []]) + ) + tm.assert_frame_equal(result, expected) + + +def test_loc_empty_multiindex(): + # GH#36936 + arrays = [["a", "a", "b", "a"], ["a", "a", "b", "b"]] + index = MultiIndex.from_arrays(arrays, names=("idx1", "idx2")) + df = DataFrame([1, 2, 3, 4], index=index, columns=["value"]) + + # loc on empty multiindex == loc with False mask + empty_multiindex = df.loc[df.loc[:, "value"] == 0, :].index + result = df.loc[empty_multiindex, :] + expected = df.loc[[False] * len(df.index), :] + tm.assert_frame_equal(result, expected) + + # replacing value with loc on empty multiindex + df.loc[df.loc[df.loc[:, "value"] == 0].index, "value"] = 5 + result = df + expected = DataFrame([1, 2, 3, 4], index=index, columns=["value"]) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_iloc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_iloc.py new file mode 100644 index 0000000000000000000000000000000000000000..8939ecc78000be08812afb702358e7eee1ae9499 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_iloc.py @@ -0,0 +1,171 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, + Series, +) +import pandas._testing as tm + + +@pytest.fixture +def simple_multiindex_dataframe(): + """ + Factory function to create simple 3 x 3 dataframe with + both columns and row MultiIndex using supplied data or + random data by default. + """ + + data = np.random.default_rng(2).standard_normal((3, 3)) + return DataFrame( + data, columns=[[2, 2, 4], [6, 8, 10]], index=[[4, 4, 8], [8, 10, 12]] + ) + + +@pytest.mark.parametrize( + "indexer, expected", + [ + ( + lambda df: df.iloc[0], + lambda arr: Series(arr[0], index=[[2, 2, 4], [6, 8, 10]], name=(4, 8)), + ), + ( + lambda df: df.iloc[2], + lambda arr: Series(arr[2], index=[[2, 2, 4], [6, 8, 10]], name=(8, 12)), + ), + ( + lambda df: df.iloc[:, 2], + lambda arr: Series(arr[:, 2], index=[[4, 4, 8], [8, 10, 12]], name=(4, 10)), + ), + ], +) +def test_iloc_returns_series(indexer, expected, simple_multiindex_dataframe): + df = simple_multiindex_dataframe + arr = df.values + result = indexer(df) + expected = expected(arr) + tm.assert_series_equal(result, expected) + + +def test_iloc_returns_dataframe(simple_multiindex_dataframe): + df = simple_multiindex_dataframe + result = df.iloc[[0, 1]] + expected = df.xs(4, drop_level=False) + tm.assert_frame_equal(result, expected) + + +def test_iloc_returns_scalar(simple_multiindex_dataframe): + df = simple_multiindex_dataframe + arr = df.values + result = df.iloc[2, 2] + expected = arr[2, 2] + assert result == expected + + +def test_iloc_getitem_multiple_items(): + # GH 5528 + tup = zip(*[["a", "a", "b", "b"], ["x", "y", "x", "y"]]) + index = MultiIndex.from_tuples(tup) + df = DataFrame(np.random.default_rng(2).standard_normal((4, 4)), index=index) + result = df.iloc[[2, 3]] + expected = df.xs("b", drop_level=False) + tm.assert_frame_equal(result, expected) + + +def test_iloc_getitem_labels(): + # this is basically regular indexing + arr = np.random.default_rng(2).standard_normal((4, 3)) + df = DataFrame( + arr, + columns=[["i", "i", "j"], ["A", "A", "B"]], + index=[["i", "i", "j", "k"], ["X", "X", "Y", "Y"]], + ) + result = df.iloc[2, 2] + expected = arr[2, 2] + assert result == expected + + +def test_frame_getitem_slice(multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + result = df.iloc[:4] + expected = df[:4] + tm.assert_frame_equal(result, expected) + + +def test_frame_setitem_slice(multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + df.iloc[:4] = 0 + + assert (df.values[:4] == 0).all() + assert (df.values[4:] != 0).all() + + +def test_indexing_ambiguity_bug_1678(): + # GH 1678 + columns = MultiIndex.from_tuples( + [("Ohio", "Green"), ("Ohio", "Red"), ("Colorado", "Green")] + ) + index = MultiIndex.from_tuples([("a", 1), ("a", 2), ("b", 1), ("b", 2)]) + + df = DataFrame(np.arange(12).reshape((4, 3)), index=index, columns=columns) + + result = df.iloc[:, 1] + expected = df.loc[:, ("Ohio", "Red")] + tm.assert_series_equal(result, expected) + + +def test_iloc_integer_locations(): + # GH 13797 + data = [ + ["str00", "str01"], + ["str10", "str11"], + ["str20", "srt21"], + ["str30", "str31"], + ["str40", "str41"], + ] + + index = MultiIndex.from_tuples( + [("CC", "A"), ("CC", "B"), ("CC", "B"), ("BB", "a"), ("BB", "b")] + ) + + expected = DataFrame(data) + df = DataFrame(data, index=index) + + result = DataFrame([[df.iloc[r, c] for c in range(2)] for r in range(5)]) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "data, indexes, values, expected_k", + [ + # test without indexer value in first level of MultiIndex + ([[2, 22, 5], [2, 33, 6]], [0, -1, 1], [2, 3, 1], [7, 10]), + # test like code sample 1 in the issue + ([[1, 22, 555], [1, 33, 666]], [0, -1, 1], [200, 300, 100], [755, 1066]), + # test like code sample 2 in the issue + ([[1, 3, 7], [2, 4, 8]], [0, -1, 1], [10, 10, 1000], [17, 1018]), + # test like code sample 3 in the issue + ([[1, 11, 4], [2, 22, 5], [3, 33, 6]], [0, -1, 1], [4, 7, 10], [8, 15, 13]), + ], +) +def test_iloc_setitem_int_multiindex_series(data, indexes, values, expected_k): + # GH17148 + df = DataFrame(data=data, columns=["i", "j", "k"]) + df = df.set_index(["i", "j"]) + + series = df.k.copy() + for i, v in zip(indexes, values): + series.iloc[i] += v + + df["k"] = expected_k + expected = df.k + tm.assert_series_equal(series, expected) + + +def test_getitem_iloc(multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + result = df.iloc[2] + expected = df.xs(df.index[2]) + tm.assert_series_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_indexing_slow.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_indexing_slow.py new file mode 100644 index 0000000000000000000000000000000000000000..c6fc1659500e62423f20cca44b40762bee60509d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_indexing_slow.py @@ -0,0 +1,118 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Series, +) +import pandas._testing as tm + + +@pytest.fixture +def m(): + return 5 + + +@pytest.fixture +def n(): + return 100 + + +@pytest.fixture +def cols(): + return ["jim", "joe", "jolie", "joline", "jolia"] + + +@pytest.fixture +def vals(n): + vals = [ + np.random.default_rng(2).integers(0, 10, n), + np.random.default_rng(2).choice(list("abcdefghij"), n), + np.random.default_rng(2).choice( + pd.date_range("20141009", periods=10).tolist(), n + ), + np.random.default_rng(2).choice(list("ZYXWVUTSRQ"), n), + np.random.default_rng(2).standard_normal(n), + ] + vals = list(map(tuple, zip(*vals))) + return vals + + +@pytest.fixture +def keys(n, m, vals): + # bunch of keys for testing + keys = [ + np.random.default_rng(2).integers(0, 11, m), + np.random.default_rng(2).choice(list("abcdefghijk"), m), + np.random.default_rng(2).choice( + pd.date_range("20141009", periods=11).tolist(), m + ), + np.random.default_rng(2).choice(list("ZYXWVUTSRQP"), m), + ] + keys = list(map(tuple, zip(*keys))) + keys += [t[:-1] for t in vals[:: n // m]] + return keys + + +# covers both unique index and non-unique index +@pytest.fixture +def df(vals, cols): + return DataFrame(vals, columns=cols) + + +@pytest.fixture +def a(df): + return pd.concat([df, df]) + + +@pytest.fixture +def b(df, cols): + return df.drop_duplicates(subset=cols[:-1]) + + +@pytest.mark.filterwarnings("ignore::pandas.errors.PerformanceWarning") +@pytest.mark.parametrize("lexsort_depth", list(range(5))) +@pytest.mark.parametrize("frame_fixture", ["a", "b"]) +def test_multiindex_get_loc(request, lexsort_depth, keys, frame_fixture, cols): + # GH7724, GH2646 + + frame = request.getfixturevalue(frame_fixture) + if lexsort_depth == 0: + df = frame.copy(deep=False) + else: + df = frame.sort_values(by=cols[:lexsort_depth]) + + mi = df.set_index(cols[:-1]) + assert not mi.index._lexsort_depth < lexsort_depth + for key in keys: + mask = np.ones(len(df), dtype=bool) + + # test for all partials of this key + for i, k in enumerate(key): + mask &= df.iloc[:, i] == k + + if not mask.any(): + assert key[: i + 1] not in mi.index + continue + + assert key[: i + 1] in mi.index + right = df[mask].copy(deep=False) + + if i + 1 != len(key): # partial key + return_value = right.drop(cols[: i + 1], axis=1, inplace=True) + assert return_value is None + return_value = right.set_index(cols[i + 1 : -1], inplace=True) + assert return_value is None + tm.assert_frame_equal(mi.loc[key[: i + 1]], right) + + else: # full key + return_value = right.set_index(cols[:-1], inplace=True) + assert return_value is None + if len(right) == 1: # single hit + right = Series( + right["jolia"].values, name=right.index[0], index=["jolia"] + ) + tm.assert_series_equal(mi.loc[key[: i + 1]], right) + else: # multi hit + tm.assert_frame_equal(mi.loc[key[: i + 1]], right) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_loc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_loc.py new file mode 100644 index 0000000000000000000000000000000000000000..fa5ec63dd32fe519634611e2776d5feb49044dd7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_loc.py @@ -0,0 +1,992 @@ +import numpy as np +import pytest + +from pandas.errors import ( + IndexingError, + PerformanceWarning, +) + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm + + +@pytest.fixture +def single_level_multiindex(): + """single level MultiIndex""" + return MultiIndex( + levels=[["foo", "bar", "baz", "qux"]], codes=[[0, 1, 2, 3]], names=["first"] + ) + + +@pytest.fixture +def frame_random_data_integer_multi_index(): + levels = [[0, 1], [0, 1, 2]] + codes = [[0, 0, 0, 1, 1, 1], [0, 1, 2, 0, 1, 2]] + index = MultiIndex(levels=levels, codes=codes) + return DataFrame(np.random.default_rng(2).standard_normal((6, 2)), index=index) + + +class TestMultiIndexLoc: + def test_loc_setitem_frame_with_multiindex(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + frame.loc[("bar", "two"), "B"] = 5 + assert frame.loc[("bar", "two"), "B"] == 5 + + # with integer labels + df = frame.copy() + df.columns = list(range(3)) + df.loc[("bar", "two"), 1] = 7 + assert df.loc[("bar", "two"), 1] == 7 + + def test_loc_getitem_general(self, any_real_numpy_dtype): + # GH#2817 + dtype = any_real_numpy_dtype + data = { + "amount": {0: 700, 1: 600, 2: 222, 3: 333, 4: 444}, + "col": {0: 3.5, 1: 3.5, 2: 4.0, 3: 4.0, 4: 4.0}, + "num": {0: 12, 1: 11, 2: 12, 3: 12, 4: 12}, + } + df = DataFrame(data) + df = df.astype({"col": dtype, "num": dtype}) + df = df.set_index(keys=["col", "num"]) + key = 4.0, 12 + + # emits a PerformanceWarning, ok + with tm.assert_produces_warning(PerformanceWarning): + tm.assert_frame_equal(df.loc[key], df.iloc[2:]) + + # this is ok + return_value = df.sort_index(inplace=True) + assert return_value is None + res = df.loc[key] + + # col has float dtype, result should be float64 Index + col_arr = np.array([4.0] * 3, dtype=dtype) + year_arr = np.array([12] * 3, dtype=dtype) + index = MultiIndex.from_arrays([col_arr, year_arr], names=["col", "num"]) + expected = DataFrame({"amount": [222, 333, 444]}, index=index) + tm.assert_frame_equal(res, expected) + + def test_loc_getitem_multiindex_missing_label_raises(self): + # GH#21593 + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + columns=[[2, 2, 4], [6, 8, 10]], + index=[[4, 4, 8], [8, 10, 12]], + ) + + with pytest.raises(KeyError, match=r"^2$"): + df.loc[2] + + def test_loc_getitem_list_of_tuples_with_multiindex( + self, multiindex_year_month_day_dataframe_random_data + ): + ser = multiindex_year_month_day_dataframe_random_data["A"] + expected = ser.reindex(ser.index[49:51]) + result = ser.loc[[(2000, 3, 10), (2000, 3, 13)]] + tm.assert_series_equal(result, expected) + + def test_loc_getitem_series(self): + # GH14730 + # passing a series as a key with a MultiIndex + index = MultiIndex.from_product([[1, 2, 3], ["A", "B", "C"]]) + x = Series(index=index, data=range(9), dtype=np.float64) + y = Series([1, 3]) + expected = Series( + data=[0, 1, 2, 6, 7, 8], + index=MultiIndex.from_product([[1, 3], ["A", "B", "C"]]), + dtype=np.float64, + ) + result = x.loc[y] + tm.assert_series_equal(result, expected) + + result = x.loc[[1, 3]] + tm.assert_series_equal(result, expected) + + # GH15424 + y1 = Series([1, 3], index=[1, 2]) + result = x.loc[y1] + tm.assert_series_equal(result, expected) + + empty = Series(data=[], dtype=np.float64) + expected = Series( + [], + index=MultiIndex(levels=index.levels, codes=[[], []], dtype=np.float64), + dtype=np.float64, + ) + result = x.loc[empty] + tm.assert_series_equal(result, expected) + + def test_loc_getitem_array(self): + # GH15434 + # passing an array as a key with a MultiIndex + index = MultiIndex.from_product([[1, 2, 3], ["A", "B", "C"]]) + x = Series(index=index, data=range(9), dtype=np.float64) + y = np.array([1, 3]) + expected = Series( + data=[0, 1, 2, 6, 7, 8], + index=MultiIndex.from_product([[1, 3], ["A", "B", "C"]]), + dtype=np.float64, + ) + result = x.loc[y] + tm.assert_series_equal(result, expected) + + # empty array: + empty = np.array([]) + expected = Series( + [], + index=MultiIndex(levels=index.levels, codes=[[], []], dtype=np.float64), + dtype="float64", + ) + result = x.loc[empty] + tm.assert_series_equal(result, expected) + + # 0-dim array (scalar): + scalar = np.int64(1) + expected = Series(data=[0, 1, 2], index=["A", "B", "C"], dtype=np.float64) + result = x.loc[scalar] + tm.assert_series_equal(result, expected) + + def test_loc_multiindex_labels(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + columns=[["i", "i", "j"], ["A", "A", "B"]], + index=[["i", "i", "j"], ["X", "X", "Y"]], + ) + + # the first 2 rows + expected = df.iloc[[0, 1]].droplevel(0) + result = df.loc["i"] + tm.assert_frame_equal(result, expected) + + # 2nd (last) column + expected = df.iloc[:, [2]].droplevel(0, axis=1) + result = df.loc[:, "j"] + tm.assert_frame_equal(result, expected) + + # bottom right corner + expected = df.iloc[[2], [2]].droplevel(0).droplevel(0, axis=1) + result = df.loc["j"].loc[:, "j"] + tm.assert_frame_equal(result, expected) + + # with a tuple + expected = df.iloc[[0, 1]] + result = df.loc[("i", "X")] + tm.assert_frame_equal(result, expected) + + def test_loc_multiindex_ints(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + columns=[[2, 2, 4], [6, 8, 10]], + index=[[4, 4, 8], [8, 10, 12]], + ) + expected = df.iloc[[0, 1]].droplevel(0) + result = df.loc[4] + tm.assert_frame_equal(result, expected) + + def test_loc_multiindex_missing_label_raises(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + columns=[[2, 2, 4], [6, 8, 10]], + index=[[4, 4, 8], [8, 10, 12]], + ) + + with pytest.raises(KeyError, match=r"^2$"): + df.loc[2] + + @pytest.mark.parametrize("key, pos", [([2, 4], [0, 1]), ([2], []), ([2, 3], [])]) + def test_loc_multiindex_list_missing_label(self, key, pos): + # GH 27148 - lists with missing labels _do_ raise + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + columns=[[2, 2, 4], [6, 8, 10]], + index=[[4, 4, 8], [8, 10, 12]], + ) + + with pytest.raises(KeyError, match="not in index"): + df.loc[key] + + def test_loc_multiindex_too_many_dims_raises(self): + # GH 14885 + s = Series( + range(8), + index=MultiIndex.from_product([["a", "b"], ["c", "d"], ["e", "f"]]), + ) + + with pytest.raises(KeyError, match=r"^\('a', 'b'\)$"): + s.loc["a", "b"] + with pytest.raises(KeyError, match=r"^\('a', 'd', 'g'\)$"): + s.loc["a", "d", "g"] + with pytest.raises(IndexingError, match="Too many indexers"): + s.loc["a", "d", "g", "j"] + + def test_loc_multiindex_indexer_none(self): + # GH6788 + # multi-index indexer is None (meaning take all) + attributes = ["Attribute" + str(i) for i in range(1)] + attribute_values = ["Value" + str(i) for i in range(5)] + + index = MultiIndex.from_product([attributes, attribute_values]) + df = 0.1 * np.random.default_rng(2).standard_normal((10, 1 * 5)) + 0.5 + df = DataFrame(df, columns=index) + result = df[attributes] + tm.assert_frame_equal(result, df) + + # GH 7349 + # loc with a multi-index seems to be doing fallback + df = DataFrame( + np.arange(12).reshape(-1, 1), + index=MultiIndex.from_product([[1, 2, 3, 4], [1, 2, 3]]), + ) + + expected = df.loc[([1, 2],), :] + result = df.loc[[1, 2]] + tm.assert_frame_equal(result, expected) + + def test_loc_multiindex_incomplete(self): + # GH 7399 + # incomplete indexers + s = Series( + np.arange(15, dtype="int64"), + MultiIndex.from_product([range(5), ["a", "b", "c"]]), + ) + expected = s.loc[:, "a":"c"] + + result = s.loc[0:4, "a":"c"] + tm.assert_series_equal(result, expected) + + result = s.loc[:4, "a":"c"] + tm.assert_series_equal(result, expected) + + result = s.loc[0:, "a":"c"] + tm.assert_series_equal(result, expected) + + # GH 7400 + # multiindexer getitem with list of indexers skips wrong element + s = Series( + np.arange(15, dtype="int64"), + MultiIndex.from_product([range(5), ["a", "b", "c"]]), + ) + expected = s.iloc[[6, 7, 8, 12, 13, 14]] + result = s.loc[2:4:2, "a":"c"] + tm.assert_series_equal(result, expected) + + def test_get_loc_single_level(self, single_level_multiindex): + single_level = single_level_multiindex + s = Series( + np.random.default_rng(2).standard_normal(len(single_level)), + index=single_level, + ) + for k in single_level.values: + s[k] + + def test_loc_getitem_int_slice(self): + # GH 3053 + # loc should treat integer slices like label slices + + index = MultiIndex.from_product([[6, 7, 8], ["a", "b"]]) + df = DataFrame(np.random.default_rng(2).standard_normal((6, 6)), index, index) + result = df.loc[6:8, :] + expected = df + tm.assert_frame_equal(result, expected) + + index = MultiIndex.from_product([[10, 20, 30], ["a", "b"]]) + df = DataFrame(np.random.default_rng(2).standard_normal((6, 6)), index, index) + result = df.loc[20:30, :] + expected = df.iloc[2:] + tm.assert_frame_equal(result, expected) + + # doc examples + result = df.loc[10, :] + expected = df.iloc[0:2] + expected.index = ["a", "b"] + tm.assert_frame_equal(result, expected) + + result = df.loc[:, 10] + expected = df[10] + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "indexer_type_1", (list, tuple, set, slice, np.ndarray, Series, Index) + ) + @pytest.mark.parametrize( + "indexer_type_2", (list, tuple, set, slice, np.ndarray, Series, Index) + ) + def test_loc_getitem_nested_indexer(self, indexer_type_1, indexer_type_2): + # GH #19686 + # .loc should work with nested indexers which can be + # any list-like objects (see `is_list_like` (`pandas.api.types`)) or slices + + def convert_nested_indexer(indexer_type, keys): + if indexer_type == np.ndarray: + return np.array(keys) + if indexer_type == slice: + return slice(*keys) + return indexer_type(keys) + + a = [10, 20, 30] + b = [1, 2, 3] + index = MultiIndex.from_product([a, b]) + df = DataFrame( + np.arange(len(index), dtype="int64"), index=index, columns=["Data"] + ) + + keys = ([10, 20], [2, 3]) + types = (indexer_type_1, indexer_type_2) + + # check indexers with all the combinations of nested objects + # of all the valid types + indexer = tuple( + convert_nested_indexer(indexer_type, k) + for indexer_type, k in zip(types, keys) + ) + if indexer_type_1 is set or indexer_type_2 is set: + with pytest.raises(TypeError, match="as an indexer is not supported"): + df.loc[indexer, "Data"] + + return + else: + result = df.loc[indexer, "Data"] + expected = Series( + [1, 2, 4, 5], name="Data", index=MultiIndex.from_product(keys) + ) + + tm.assert_series_equal(result, expected) + + def test_multiindex_loc_one_dimensional_tuple(self, frame_or_series): + # GH#37711 + mi = MultiIndex.from_tuples([("a", "A"), ("b", "A")]) + obj = frame_or_series([1, 2], index=mi) + obj.loc[("a",)] = 0 + expected = frame_or_series([0, 2], index=mi) + tm.assert_equal(obj, expected) + + @pytest.mark.parametrize("indexer", [("a",), ("a")]) + def test_multiindex_one_dimensional_tuple_columns(self, indexer): + # GH#37711 + mi = MultiIndex.from_tuples([("a", "A"), ("b", "A")]) + obj = DataFrame([1, 2], index=mi) + obj.loc[indexer, :] = 0 + expected = DataFrame([0, 2], index=mi) + tm.assert_frame_equal(obj, expected) + + @pytest.mark.parametrize( + "indexer, exp_value", [(slice(None), 1.0), ((1, 2), np.nan)] + ) + def test_multiindex_setitem_columns_enlarging(self, indexer, exp_value): + # GH#39147 + mi = MultiIndex.from_tuples([(1, 2), (3, 4)]) + df = DataFrame([[1, 2], [3, 4]], index=mi, columns=["a", "b"]) + df.loc[indexer, ["c", "d"]] = 1.0 + expected = DataFrame( + [[1, 2, 1.0, 1.0], [3, 4, exp_value, exp_value]], + index=mi, + columns=["a", "b", "c", "d"], + ) + tm.assert_frame_equal(df, expected) + + def test_sorted_multiindex_after_union(self): + # GH#44752 + midx = MultiIndex.from_product( + [pd.date_range("20110101", periods=2), Index(["a", "b"])] + ) + ser1 = Series(1, index=midx) + ser2 = Series(1, index=midx[:2]) + df = pd.concat([ser1, ser2], axis=1) + expected = df.copy() + result = df.loc["2011-01-01":"2011-01-02"] + tm.assert_frame_equal(result, expected) + + df = DataFrame({0: ser1, 1: ser2}) + result = df.loc["2011-01-01":"2011-01-02"] + tm.assert_frame_equal(result, expected) + + df = pd.concat([ser1, ser2.reindex(ser1.index)], axis=1) + result = df.loc["2011-01-01":"2011-01-02"] + tm.assert_frame_equal(result, expected) + + def test_loc_no_second_level_index(self): + # GH#43599 + df = DataFrame( + index=MultiIndex.from_product([list("ab"), list("cd"), list("e")]), + columns=["Val"], + ) + res = df.loc[np.s_[:, "c", :]] + expected = DataFrame( + index=MultiIndex.from_product([list("ab"), list("e")]), columns=["Val"] + ) + tm.assert_frame_equal(res, expected) + + def test_loc_multi_index_key_error(self): + # GH 51892 + df = DataFrame( + { + (1, 2): ["a", "b", "c"], + (1, 3): ["d", "e", "f"], + (2, 2): ["g", "h", "i"], + (2, 4): ["j", "k", "l"], + } + ) + with pytest.raises(KeyError, match=r"(1, 4)"): + df.loc[0, (1, 4)] + + +@pytest.mark.parametrize( + "indexer, pos", + [ + ([], []), # empty ok + (["A"], slice(3)), + (["A", "D"], []), # "D" isn't present -> raise + (["D", "E"], []), # no values found -> raise + (["D"], []), # same, with single item list: GH 27148 + (pd.IndexSlice[:, ["foo"]], slice(2, None, 3)), + (pd.IndexSlice[:, ["foo", "bah"]], slice(2, None, 3)), + ], +) +def test_loc_getitem_duplicates_multiindex_missing_indexers(indexer, pos): + # GH 7866 + # multi-index slicing with missing indexers + idx = MultiIndex.from_product( + [["A", "B", "C"], ["foo", "bar", "baz"]], names=["one", "two"] + ) + ser = Series(np.arange(9, dtype="int64"), index=idx).sort_index() + expected = ser.iloc[pos] + + if expected.size == 0 and indexer != []: + with pytest.raises(KeyError, match=str(indexer)): + ser.loc[indexer] + elif indexer == (slice(None), ["foo", "bah"]): + # "bah" is not in idx.levels[1], raising KeyError enforced in 2.0 + with pytest.raises(KeyError, match="'bah'"): + ser.loc[indexer] + else: + result = ser.loc[indexer] + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize("columns_indexer", [([], slice(None)), (["foo"], [])]) +def test_loc_getitem_duplicates_multiindex_empty_indexer(columns_indexer): + # GH 8737 + # empty indexer + multi_index = MultiIndex.from_product((["foo", "bar", "baz"], ["alpha", "beta"])) + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 6)), + index=range(5), + columns=multi_index, + ) + df = df.sort_index(level=0, axis=1) + + expected = DataFrame(index=range(5), columns=multi_index.reindex([])[0]) + result = df.loc[:, columns_indexer] + tm.assert_frame_equal(result, expected) + + +def test_loc_getitem_duplicates_multiindex_non_scalar_type_object(): + # regression from < 0.14.0 + # GH 7914 + df = DataFrame( + [[np.mean, np.median], ["mean", "median"]], + columns=MultiIndex.from_tuples([("functs", "mean"), ("functs", "median")]), + index=["function", "name"], + ) + result = df.loc["function", ("functs", "mean")] + expected = np.mean + assert result == expected + + +def test_loc_getitem_tuple_plus_slice(): + # GH 671 + df = DataFrame( + { + "a": np.arange(10), + "b": np.arange(10), + "c": np.random.default_rng(2).standard_normal(10), + "d": np.random.default_rng(2).standard_normal(10), + } + ).set_index(["a", "b"]) + expected = df.loc[0, 0] + result = df.loc[(0, 0), :] + tm.assert_series_equal(result, expected) + + +def test_loc_getitem_int(frame_random_data_integer_multi_index): + df = frame_random_data_integer_multi_index + result = df.loc[1] + expected = df[-3:] + expected.index = expected.index.droplevel(0) + tm.assert_frame_equal(result, expected) + + +def test_loc_getitem_int_raises_exception(frame_random_data_integer_multi_index): + df = frame_random_data_integer_multi_index + with pytest.raises(KeyError, match=r"^3$"): + df.loc[3] + + +def test_loc_getitem_lowerdim_corner(multiindex_dataframe_random_data): + df = multiindex_dataframe_random_data + + # test setup - check key not in dataframe + with pytest.raises(KeyError, match=r"^\('bar', 'three'\)$"): + df.loc[("bar", "three"), "B"] + + # in theory should be inserting in a sorted space???? + df.loc[("bar", "three"), "B"] = 0 + expected = 0 + result = df.sort_index().loc[("bar", "three"), "B"] + assert result == expected + + +def test_loc_setitem_single_column_slice(): + # case from https://github.com/pandas-dev/pandas/issues/27841 + df = DataFrame( + "string", + index=list("abcd"), + columns=MultiIndex.from_product([["Main"], ("another", "one")]), + ) + df["labels"] = "a" + df.loc[:, "labels"] = df.index + tm.assert_numpy_array_equal(np.asarray(df["labels"]), np.asarray(df.index)) + + # test with non-object block + df = DataFrame( + np.nan, + index=range(4), + columns=MultiIndex.from_tuples([("A", "1"), ("A", "2"), ("B", "1")]), + ) + expected = df.copy() + df.loc[:, "B"] = np.arange(4) + expected.iloc[:, 2] = np.arange(4) + tm.assert_frame_equal(df, expected) + + +def test_loc_nan_multiindex(using_infer_string): + # GH 5286 + tups = [ + ("Good Things", "C", np.nan), + ("Good Things", "R", np.nan), + ("Bad Things", "C", np.nan), + ("Bad Things", "T", np.nan), + ("Okay Things", "N", "B"), + ("Okay Things", "N", "D"), + ("Okay Things", "B", np.nan), + ("Okay Things", "D", np.nan), + ] + df = DataFrame( + np.ones((8, 4)), + columns=Index(["d1", "d2", "d3", "d4"]), + index=MultiIndex.from_tuples(tups, names=["u1", "u2", "u3"]), + ) + result = df.loc["Good Things"].loc["C"] + expected = DataFrame( + np.ones((1, 4)), + index=Index( + [np.nan], + dtype="object" if not using_infer_string else "str", + name="u3", + ), + columns=Index(["d1", "d2", "d3", "d4"]), + ) + tm.assert_frame_equal(result, expected) + + +def test_loc_period_string_indexing(): + # GH 9892 + a = pd.period_range("2013Q1", "2013Q4", freq="Q") + i = (1111, 2222, 3333) + idx = MultiIndex.from_product((a, i), names=("Period", "CVR")) + df = DataFrame( + index=idx, + columns=( + "OMS", + "OMK", + "RES", + "DRIFT_IND", + "OEVRIG_IND", + "FIN_IND", + "VARE_UD", + "LOEN_UD", + "FIN_UD", + ), + ) + result = df.loc[("2013Q1", 1111), "OMS"] + + alt = df.loc[(a[0], 1111), "OMS"] + assert np.isnan(alt) + + # Because the resolution of the string matches, it is an exact lookup, + # not a slice + assert np.isnan(result) + + alt = df.loc[("2013Q1", 1111), "OMS"] + assert np.isnan(alt) + + +def test_loc_datetime_mask_slicing(): + # GH 16699 + dt_idx = pd.to_datetime(["2017-05-04", "2017-05-05"]) + m_idx = MultiIndex.from_product([dt_idx, dt_idx], names=["Idx1", "Idx2"]) + df = DataFrame( + data=[[1, 2], [3, 4], [5, 6], [7, 6]], index=m_idx, columns=["C1", "C2"] + ) + result = df.loc[(dt_idx[0], (df.index.get_level_values(1) > "2017-05-04")), "C1"] + expected = Series( + [3], + name="C1", + index=MultiIndex.from_tuples( + [(pd.Timestamp("2017-05-04"), pd.Timestamp("2017-05-05"))], + names=["Idx1", "Idx2"], + ), + ) + tm.assert_series_equal(result, expected) + + +def test_loc_datetime_series_tuple_slicing(): + # https://github.com/pandas-dev/pandas/issues/35858 + date = pd.Timestamp("2000") + ser = Series( + 1, + index=MultiIndex.from_tuples([("a", date)], names=["a", "b"]), + name="c", + ) + result = ser.loc[:, [date]] + tm.assert_series_equal(result, ser) + + +def test_loc_with_mi_indexer(): + # https://github.com/pandas-dev/pandas/issues/35351 + df = DataFrame( + data=[["a", 1], ["a", 0], ["b", 1], ["c", 2]], + index=MultiIndex.from_tuples( + [(0, 1), (1, 0), (1, 1), (1, 1)], names=["index", "date"] + ), + columns=["author", "price"], + ) + idx = MultiIndex.from_tuples([(0, 1), (1, 1)], names=["index", "date"]) + result = df.loc[idx, :] + expected = DataFrame( + [["a", 1], ["b", 1], ["c", 2]], + index=MultiIndex.from_tuples([(0, 1), (1, 1), (1, 1)], names=["index", "date"]), + columns=["author", "price"], + ) + tm.assert_frame_equal(result, expected) + + +def test_loc_mi_with_level1_named_0(): + # GH#37194 + dti = pd.date_range("2016-01-01", periods=3, tz="US/Pacific") + + ser = Series(range(3), index=dti) + df = ser.to_frame() + df[1] = dti + + df2 = df.set_index(0, append=True) + assert df2.index.names == (None, 0) + df2.index.get_loc(dti[0]) # smoke test + + result = df2.loc[dti[0]] + expected = df2.iloc[[0]].droplevel(None) + tm.assert_frame_equal(result, expected) + + ser2 = df2[1] + assert ser2.index.names == (None, 0) + + result = ser2.loc[dti[0]] + expected = ser2.iloc[[0]].droplevel(None) + tm.assert_series_equal(result, expected) + + +def test_getitem_str_slice(): + # GH#15928 + df = DataFrame( + [ + ["20160525 13:30:00.023", "MSFT", "51.95", "51.95"], + ["20160525 13:30:00.048", "GOOG", "720.50", "720.93"], + ["20160525 13:30:00.076", "AAPL", "98.55", "98.56"], + ["20160525 13:30:00.131", "AAPL", "98.61", "98.62"], + ["20160525 13:30:00.135", "MSFT", "51.92", "51.95"], + ["20160525 13:30:00.135", "AAPL", "98.61", "98.62"], + ], + columns="time,ticker,bid,ask".split(","), + ) + df2 = df.set_index(["ticker", "time"]).sort_index() + + res = df2.loc[("AAPL", slice("2016-05-25 13:30:00")), :].droplevel(0) + expected = df2.loc["AAPL"].loc[slice("2016-05-25 13:30:00"), :] + tm.assert_frame_equal(res, expected) + + +def test_3levels_leading_period_index(): + # GH#24091 + pi = pd.PeriodIndex( + ["20181101 1100", "20181101 1200", "20181102 1300", "20181102 1400"], + name="datetime", + freq="D", + ) + lev2 = ["A", "A", "Z", "W"] + lev3 = ["B", "C", "Q", "F"] + mi = MultiIndex.from_arrays([pi, lev2, lev3]) + + ser = Series(range(4), index=mi, dtype=np.float64) + result = ser.loc[(pi[0], "A", "B")] + assert result == 0.0 + + +class TestKeyErrorsWithMultiIndex: + def test_missing_keys_raises_keyerror(self): + # GH#27420 KeyError, not TypeError + df = DataFrame(np.arange(12).reshape(4, 3), columns=["A", "B", "C"]) + df2 = df.set_index(["A", "B"]) + + with pytest.raises(KeyError, match="1"): + df2.loc[(1, 6)] + + def test_missing_key_raises_keyerror2(self): + # GH#21168 KeyError, not "IndexingError: Too many indexers" + ser = Series(-1, index=MultiIndex.from_product([[0, 1]] * 2)) + + with pytest.raises(KeyError, match=r"\(0, 3\)"): + ser.loc[0, 3] + + def test_missing_key_combination(self): + # GH: 19556 + mi = MultiIndex.from_arrays( + [ + np.array(["a", "a", "b", "b"]), + np.array(["1", "2", "2", "3"]), + np.array(["c", "d", "c", "d"]), + ], + names=["one", "two", "three"], + ) + df = DataFrame(np.random.default_rng(2).random((4, 3)), index=mi) + msg = r"\('b', '1', slice\(None, None, None\)\)" + with pytest.raises(KeyError, match=msg): + df.loc[("b", "1", slice(None)), :] + with pytest.raises(KeyError, match=msg): + df.index.get_locs(("b", "1", slice(None))) + with pytest.raises(KeyError, match=r"\('b', '1'\)"): + df.loc[("b", "1"), :] + + +def test_getitem_loc_commutability(multiindex_year_month_day_dataframe_random_data): + df = multiindex_year_month_day_dataframe_random_data + ser = df["A"] + result = ser[2000, 5] + expected = df.loc[2000, 5]["A"] + tm.assert_series_equal(result, expected) + + +def test_loc_with_nan(): + # GH: 27104 + df = DataFrame( + {"col": [1, 2, 5], "ind1": ["a", "d", np.nan], "ind2": [1, 4, 5]} + ).set_index(["ind1", "ind2"]) + result = df.loc[["a"]] + expected = DataFrame( + {"col": [1]}, index=MultiIndex.from_tuples([("a", 1)], names=["ind1", "ind2"]) + ) + tm.assert_frame_equal(result, expected) + + result = df.loc["a"] + expected = DataFrame({"col": [1]}, index=Index([1], name="ind2")) + tm.assert_frame_equal(result, expected) + + +def test_getitem_non_found_tuple(): + # GH: 25236 + df = DataFrame([[1, 2, 3, 4]], columns=["a", "b", "c", "d"]).set_index( + ["a", "b", "c"] + ) + with pytest.raises(KeyError, match=r"\(2\.0, 2\.0, 3\.0\)"): + df.loc[(2.0, 2.0, 3.0)] + + +def test_get_loc_datetime_index(): + # GH#24263 + index = pd.date_range("2001-01-01", periods=100) + mi = MultiIndex.from_arrays([index]) + # Check if get_loc matches for Index and MultiIndex + assert mi.get_loc("2001-01") == slice(0, 31, None) + assert index.get_loc("2001-01") == slice(0, 31, None) + + loc = mi[::2].get_loc("2001-01") + expected = index[::2].get_loc("2001-01") + assert loc == expected + + loc = mi.repeat(2).get_loc("2001-01") + expected = index.repeat(2).get_loc("2001-01") + assert loc == expected + + loc = mi.append(mi).get_loc("2001-01") + expected = index.append(index).get_loc("2001-01") + # TODO: standardize return type for MultiIndex.get_loc + tm.assert_numpy_array_equal(loc.nonzero()[0], expected) + + +def test_loc_setitem_indexer_differently_ordered(): + # GH#34603 + mi = MultiIndex.from_product([["a", "b"], [0, 1]]) + df = DataFrame([[1, 2], [3, 4], [5, 6], [7, 8]], index=mi) + + indexer = ("a", [1, 0]) + df.loc[indexer, :] = np.array([[9, 10], [11, 12]]) + expected = DataFrame([[11, 12], [9, 10], [5, 6], [7, 8]], index=mi) + tm.assert_frame_equal(df, expected) + + +def test_loc_getitem_index_differently_ordered_slice_none(): + # GH#31330 + df = DataFrame( + [[1, 2], [3, 4], [5, 6], [7, 8]], + index=[["a", "a", "b", "b"], [1, 2, 1, 2]], + columns=["a", "b"], + ) + result = df.loc[(slice(None), [2, 1]), :] + expected = DataFrame( + [[3, 4], [7, 8], [1, 2], [5, 6]], + index=[["a", "b", "a", "b"], [2, 2, 1, 1]], + columns=["a", "b"], + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize("indexer", [[1, 2, 7, 6, 2, 3, 8, 7], [1, 2, 7, 6, 3, 8]]) +def test_loc_getitem_index_differently_ordered_slice_none_duplicates(indexer): + # GH#40978 + df = DataFrame( + [1] * 8, + index=MultiIndex.from_tuples( + [(1, 1), (1, 2), (1, 7), (1, 6), (2, 2), (2, 3), (2, 8), (2, 7)] + ), + columns=["a"], + ) + result = df.loc[(slice(None), indexer), :] + expected = DataFrame( + [1] * 8, + index=[[1, 1, 2, 1, 2, 1, 2, 2], [1, 2, 2, 7, 7, 6, 3, 8]], + columns=["a"], + ) + tm.assert_frame_equal(result, expected) + + result = df.loc[df.index.isin(indexer, level=1), :] + tm.assert_frame_equal(result, df) + + +def test_loc_getitem_drops_levels_for_one_row_dataframe(): + # GH#10521 "x" and "z" are both scalar indexing, so those levels are dropped + mi = MultiIndex.from_arrays([["x"], ["y"], ["z"]], names=["a", "b", "c"]) + df = DataFrame({"d": [0]}, index=mi) + expected = df.droplevel([0, 2]) + result = df.loc["x", :, "z"] + tm.assert_frame_equal(result, expected) + + ser = Series([0], index=mi) + result = ser.loc["x", :, "z"] + expected = Series([0], index=Index(["y"], name="b")) + tm.assert_series_equal(result, expected) + + +def test_mi_columns_loc_list_label_order(): + # GH 10710 + cols = MultiIndex.from_product([["A", "B", "C"], [1, 2]]) + df = DataFrame(np.zeros((5, 6)), columns=cols) + result = df.loc[:, ["B", "A"]] + expected = DataFrame( + np.zeros((5, 4)), + columns=MultiIndex.from_tuples([("B", 1), ("B", 2), ("A", 1), ("A", 2)]), + ) + tm.assert_frame_equal(result, expected) + + +def test_mi_partial_indexing_list_raises(): + # GH 13501 + frame = DataFrame( + np.arange(12).reshape((4, 3)), + index=[["a", "a", "b", "b"], [1, 2, 1, 2]], + columns=[["Ohio", "Ohio", "Colorado"], ["Green", "Red", "Green"]], + ) + frame.index.names = ["key1", "key2"] + frame.columns.names = ["state", "color"] + with pytest.raises(KeyError, match="\\[2\\] not in index"): + frame.loc[["b", 2], "Colorado"] + + +def test_mi_indexing_list_nonexistent_raises(): + # GH 15452 + s = Series(range(4), index=MultiIndex.from_product([[1, 2], ["a", "b"]])) + with pytest.raises(KeyError, match="\\['not' 'found'\\] not in index"): + s.loc[["not", "found"]] + + +def test_mi_add_cell_missing_row_non_unique(): + # GH 16018 + result = DataFrame( + [[1, 2, 5, 6], [3, 4, 7, 8]], + index=["a", "a"], + columns=MultiIndex.from_product([[1, 2], ["A", "B"]]), + ) + result.loc["c"] = -1 + result.loc["c", (1, "A")] = 3 + result.loc["d", (1, "A")] = 3 + expected = DataFrame( + [ + [1.0, 2.0, 5.0, 6.0], + [3.0, 4.0, 7.0, 8.0], + [3.0, -1.0, -1, -1], + [3.0, np.nan, np.nan, np.nan], + ], + index=["a", "a", "c", "d"], + columns=MultiIndex.from_product([[1, 2], ["A", "B"]]), + ) + tm.assert_frame_equal(result, expected) + + +def test_loc_get_scalar_casting_to_float(): + # GH#41369 + df = DataFrame( + {"a": 1.0, "b": 2}, index=MultiIndex.from_arrays([[3], [4]], names=["c", "d"]) + ) + result = df.loc[(3, 4), "b"] + assert result == 2 + assert isinstance(result, np.int64) + result = df.loc[[(3, 4)], "b"].iloc[0] + assert result == 2 + assert isinstance(result, np.int64) + + +def test_loc_empty_single_selector_with_names(): + # GH 19517 + idx = MultiIndex.from_product([["a", "b"], ["A", "B"]], names=[1, 0]) + s2 = Series(index=idx, dtype=np.float64) + result = s2.loc["a"] + expected = Series([np.nan, np.nan], index=Index(["A", "B"], name=0)) + tm.assert_series_equal(result, expected) + + +def test_loc_keyerror_rightmost_key_missing(): + # GH 20951 + + df = DataFrame( + { + "A": [100, 100, 200, 200, 300, 300], + "B": [10, 10, 20, 21, 31, 33], + "C": range(6), + } + ) + df = df.set_index(["A", "B"]) + with pytest.raises(KeyError, match="^1$"): + df.loc[(100, 1)] + + +def test_multindex_series_loc_with_tuple_label(): + # GH#43908 + mi = MultiIndex.from_tuples([(1, 2), (3, (4, 5))]) + ser = Series([1, 2], index=mi) + result = ser.loc[(3, (4, 5))] + assert result == 2 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_multiindex.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_multiindex.py new file mode 100644 index 0000000000000000000000000000000000000000..36cc8316ea5ff4f7a5d264748e6c202d723129d9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_multiindex.py @@ -0,0 +1,235 @@ +import numpy as np +import pytest + +import pandas._libs.index as libindex +from pandas.errors import PerformanceWarning + +import pandas as pd +from pandas import ( + CategoricalDtype, + DataFrame, + Index, + MultiIndex, + Series, +) +import pandas._testing as tm +from pandas.core.arrays.boolean import BooleanDtype + + +class TestMultiIndexBasic: + def test_multiindex_perf_warn(self): + df = DataFrame( + { + "jim": [0, 0, 1, 1], + "joe": ["x", "x", "z", "y"], + "jolie": np.random.default_rng(2).random(4), + } + ).set_index(["jim", "joe"]) + + with tm.assert_produces_warning(PerformanceWarning): + df.loc[(1, "z")] + + df = df.iloc[[2, 1, 3, 0]] + with tm.assert_produces_warning(PerformanceWarning): + df.loc[(0,)] + + @pytest.mark.parametrize("offset", [-5, 5]) + def test_indexing_over_hashtable_size_cutoff(self, monkeypatch, offset): + size_cutoff = 20 + n = size_cutoff + offset + + with monkeypatch.context(): + monkeypatch.setattr(libindex, "_SIZE_CUTOFF", size_cutoff) + s = Series(np.arange(n), MultiIndex.from_arrays((["a"] * n, np.arange(n)))) + + # hai it works! + assert s[("a", 5)] == 5 + assert s[("a", 6)] == 6 + assert s[("a", 7)] == 7 + + def test_multi_nan_indexing(self): + # GH 3588 + df = DataFrame( + { + "a": ["R1", "R2", np.nan, "R4"], + "b": ["C1", "C2", "C3", "C4"], + "c": [10, 15, np.nan, 20], + } + ) + result = df.set_index(["a", "b"], drop=False) + expected = DataFrame( + { + "a": ["R1", "R2", np.nan, "R4"], + "b": ["C1", "C2", "C3", "C4"], + "c": [10, 15, np.nan, 20], + }, + index=[ + Index(["R1", "R2", np.nan, "R4"], name="a"), + Index(["C1", "C2", "C3", "C4"], name="b"), + ], + ) + tm.assert_frame_equal(result, expected) + + def test_exclusive_nat_column_indexing(self): + # GH 38025 + # test multi indexing when one column exclusively contains NaT values + df = DataFrame( + { + "a": [pd.NaT, pd.NaT, pd.NaT, pd.NaT], + "b": ["C1", "C2", "C3", "C4"], + "c": [10, 15, np.nan, 20], + } + ) + df = df.set_index(["a", "b"]) + expected = DataFrame( + { + "c": [10, 15, np.nan, 20], + }, + index=[ + Index([pd.NaT, pd.NaT, pd.NaT, pd.NaT], name="a"), + Index(["C1", "C2", "C3", "C4"], name="b"), + ], + ) + tm.assert_frame_equal(df, expected) + + def test_nested_tuples_duplicates(self): + # GH#30892 + + dti = pd.to_datetime(["20190101", "20190101", "20190102"]) + idx = Index(["a", "a", "c"]) + mi = MultiIndex.from_arrays([dti, idx], names=["index1", "index2"]) + + df = DataFrame({"c1": [1, 2, 3], "c2": [np.nan, np.nan, np.nan]}, index=mi) + + expected = DataFrame({"c1": df["c1"], "c2": [1.0, 1.0, np.nan]}, index=mi) + + df2 = df.copy(deep=True) + df2.loc[(dti[0], "a"), "c2"] = 1.0 + tm.assert_frame_equal(df2, expected) + + df3 = df.copy(deep=True) + df3.loc[[(dti[0], "a")], "c2"] = 1.0 + tm.assert_frame_equal(df3, expected) + + def test_multiindex_with_datatime_level_preserves_freq(self): + # https://github.com/pandas-dev/pandas/issues/35563 + idx = Index(range(2), name="A") + dti = pd.date_range("2020-01-01", periods=7, freq="D", name="B") + mi = MultiIndex.from_product([idx, dti]) + df = DataFrame(np.random.default_rng(2).standard_normal((14, 2)), index=mi) + result = df.loc[0].index + tm.assert_index_equal(result, dti) + assert result.freq == dti.freq + + def test_multiindex_complex(self): + # GH#42145 + complex_data = [1 + 2j, 4 - 3j, 10 - 1j] + non_complex_data = [3, 4, 5] + result = DataFrame( + { + "x": complex_data, + "y": non_complex_data, + "z": non_complex_data, + } + ) + result.set_index(["x", "y"], inplace=True) + expected = DataFrame( + {"z": non_complex_data}, + index=MultiIndex.from_arrays( + [complex_data, non_complex_data], + names=("x", "y"), + ), + ) + tm.assert_frame_equal(result, expected) + + def test_rename_multiindex_with_duplicates(self): + # GH 38015 + mi = MultiIndex.from_tuples([("A", "cat"), ("B", "cat"), ("B", "cat")]) + df = DataFrame(index=mi) + df = df.rename(index={"A": "Apple"}, level=0) + + mi2 = MultiIndex.from_tuples([("Apple", "cat"), ("B", "cat"), ("B", "cat")]) + expected = DataFrame(index=mi2) + tm.assert_frame_equal(df, expected) + + def test_series_align_multiindex_with_nan_overlap_only(self): + # GH 38439 + mi1 = MultiIndex.from_arrays([[81.0, np.nan], [np.nan, np.nan]]) + mi2 = MultiIndex.from_arrays([[np.nan, 82.0], [np.nan, np.nan]]) + ser1 = Series([1, 2], index=mi1) + ser2 = Series([1, 2], index=mi2) + result1, result2 = ser1.align(ser2) + + mi = MultiIndex.from_arrays([[81.0, 82.0, np.nan], [np.nan, np.nan, np.nan]]) + expected1 = Series([1.0, np.nan, 2.0], index=mi) + expected2 = Series([np.nan, 2.0, 1.0], index=mi) + + tm.assert_series_equal(result1, expected1) + tm.assert_series_equal(result2, expected2) + + def test_series_align_multiindex_with_nan(self): + # GH 38439 + mi1 = MultiIndex.from_arrays([[81.0, np.nan], [np.nan, np.nan]]) + mi2 = MultiIndex.from_arrays([[np.nan, 81.0], [np.nan, np.nan]]) + ser1 = Series([1, 2], index=mi1) + ser2 = Series([1, 2], index=mi2) + result1, result2 = ser1.align(ser2) + + mi = MultiIndex.from_arrays([[81.0, np.nan], [np.nan, np.nan]]) + expected1 = Series([1, 2], index=mi) + expected2 = Series([2, 1], index=mi) + + tm.assert_series_equal(result1, expected1) + tm.assert_series_equal(result2, expected2) + + def test_nunique_smoke(self): + # GH 34019 + n = DataFrame([[1, 2], [1, 2]]).set_index([0, 1]).index.nunique() + assert n == 1 + + def test_multiindex_repeated_keys(self): + # GH19414 + tm.assert_series_equal( + Series([1, 2], MultiIndex.from_arrays([["a", "b"]])).loc[ + ["a", "a", "b", "b"] + ], + Series([1, 1, 2, 2], MultiIndex.from_arrays([["a", "a", "b", "b"]])), + ) + + def test_multiindex_with_na_missing_key(self): + # GH46173 + df = DataFrame.from_dict( + { + ("foo",): [1, 2, 3], + ("bar",): [5, 6, 7], + (None,): [8, 9, 0], + } + ) + with pytest.raises(KeyError, match="missing_key"): + df[[("missing_key",)]] + + def test_multiindex_dtype_preservation(self): + # GH51261 + columns = MultiIndex.from_tuples([("A", "B")], names=["lvl1", "lvl2"]) + df = DataFrame(["value"], columns=columns).astype("category") + df_no_multiindex = df["A"] + assert isinstance(df_no_multiindex["B"].dtype, CategoricalDtype) + + # geopandas 1763 analogue + df = DataFrame( + [[1, 0], [0, 1]], + columns=[ + ["foo", "foo"], + ["location", "location"], + ["x", "y"], + ], + ).assign(bools=Series([True, False], dtype="boolean")) + assert isinstance(df["bools"].dtype, BooleanDtype) + + def test_multiindex_from_tuples_with_nan(self): + # GH#23578 + result = MultiIndex.from_tuples([("a", "b", "c"), np.nan, ("d", "", "")]) + expected = MultiIndex.from_tuples( + [("a", "b", "c"), (np.nan, np.nan, np.nan), ("d", "", "")] + ) + tm.assert_index_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_partial.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_partial.py new file mode 100644 index 0000000000000000000000000000000000000000..fdf88b2a97e461702b63bbfad31905682ff66b35 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_partial.py @@ -0,0 +1,269 @@ +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +from pandas import ( + DataFrame, + DatetimeIndex, + MultiIndex, + date_range, +) +import pandas._testing as tm + + +class TestMultiIndexPartial: + def test_getitem_partial_int(self): + # GH 12416 + # with single item + l1 = [10, 20] + l2 = ["a", "b"] + df = DataFrame(index=range(2), columns=MultiIndex.from_product([l1, l2])) + expected = DataFrame(index=range(2), columns=l2) + result = df[20] + tm.assert_frame_equal(result, expected) + + # with list + expected = DataFrame( + index=range(2), columns=MultiIndex.from_product([l1[1:], l2]) + ) + result = df[[20]] + tm.assert_frame_equal(result, expected) + + # missing item: + with pytest.raises(KeyError, match="1"): + df[1] + with pytest.raises(KeyError, match=r"'\[1\] not in index'"): + df[[1]] + + def test_series_slice_partial(self): + pass + + def test_xs_partial( + self, + multiindex_dataframe_random_data, + multiindex_year_month_day_dataframe_random_data, + ): + frame = multiindex_dataframe_random_data + ymd = multiindex_year_month_day_dataframe_random_data + result = frame.xs("foo") + result2 = frame.loc["foo"] + expected = frame.T["foo"].T + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result, result2) + + result = ymd.xs((2000, 4)) + expected = ymd.loc[2000, 4] + tm.assert_frame_equal(result, expected) + + # ex from #1796 + index = MultiIndex( + levels=[["foo", "bar"], ["one", "two"], [-1, 1]], + codes=[ + [0, 0, 0, 0, 1, 1, 1, 1], + [0, 0, 1, 1, 0, 0, 1, 1], + [0, 1, 0, 1, 0, 1, 0, 1], + ], + ) + df = DataFrame( + np.random.default_rng(2).standard_normal((8, 4)), + index=index, + columns=list("abcd"), + ) + + result = df.xs(("foo", "one")) + expected = df.loc["foo", "one"] + tm.assert_frame_equal(result, expected) + + def test_getitem_partial(self, multiindex_year_month_day_dataframe_random_data): + ymd = multiindex_year_month_day_dataframe_random_data + ymd = ymd.T + result = ymd[2000, 2] + + expected = ymd.reindex(columns=ymd.columns[ymd.columns.codes[1] == 1]) + expected.columns = expected.columns.droplevel(0).droplevel(0) + tm.assert_frame_equal(result, expected) + + def test_fancy_slice_partial( + self, + multiindex_dataframe_random_data, + multiindex_year_month_day_dataframe_random_data, + ): + frame = multiindex_dataframe_random_data + result = frame.loc["bar":"baz"] + expected = frame[3:7] + tm.assert_frame_equal(result, expected) + + ymd = multiindex_year_month_day_dataframe_random_data + result = ymd.loc[(2000, 2):(2000, 4)] + lev = ymd.index.codes[1] + expected = ymd[(lev >= 1) & (lev <= 3)] + tm.assert_frame_equal(result, expected) + + def test_getitem_partial_column_select(self): + idx = MultiIndex( + codes=[[0, 0, 0], [0, 1, 1], [1, 0, 1]], + levels=[["a", "b"], ["x", "y"], ["p", "q"]], + ) + df = DataFrame(np.random.default_rng(2).random((3, 2)), index=idx) + + result = df.loc[("a", "y"), :] + expected = df.loc[("a", "y")] + tm.assert_frame_equal(result, expected) + + result = df.loc[("a", "y"), [1, 0]] + expected = df.loc[("a", "y")][[1, 0]] + tm.assert_frame_equal(result, expected) + + with pytest.raises(KeyError, match=r"\('a', 'foo'\)"): + df.loc[("a", "foo"), :] + + # TODO(ArrayManager) rewrite test to not use .values + # exp.loc[2000, 4].values[:] select multiple columns -> .values is not a view + @td.skip_array_manager_invalid_test + def test_partial_set( + self, + multiindex_year_month_day_dataframe_random_data, + using_copy_on_write, + warn_copy_on_write, + ): + # GH #397 + ymd = multiindex_year_month_day_dataframe_random_data + df = ymd.copy() + exp = ymd.copy() + df.loc[2000, 4] = 0 + exp.iloc[65:85] = 0 + tm.assert_frame_equal(df, exp) + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df["A"].loc[2000, 4] = 1 + df.loc[(2000, 4), "A"] = 1 + else: + with tm.raises_chained_assignment_error(): + df["A"].loc[2000, 4] = 1 + exp.iloc[65:85, 0] = 1 + tm.assert_frame_equal(df, exp) + + df.loc[2000] = 5 + exp.iloc[:100] = 5 + tm.assert_frame_equal(df, exp) + + # this works...for now + with tm.raises_chained_assignment_error(): + df["A"].iloc[14] = 5 + if using_copy_on_write: + assert df["A"].iloc[14] == exp["A"].iloc[14] + else: + assert df["A"].iloc[14] == 5 + + @pytest.mark.parametrize("dtype", [int, float]) + def test_getitem_intkey_leading_level( + self, multiindex_year_month_day_dataframe_random_data, dtype + ): + # GH#33355 dont fall-back to positional when leading level is int + ymd = multiindex_year_month_day_dataframe_random_data + levels = ymd.index.levels + ymd.index = ymd.index.set_levels([levels[0].astype(dtype)] + levels[1:]) + ser = ymd["A"] + mi = ser.index + assert isinstance(mi, MultiIndex) + if dtype is int: + assert mi.levels[0].dtype == np.dtype(int) + else: + assert mi.levels[0].dtype == np.float64 + + assert 14 not in mi.levels[0] + assert not mi.levels[0]._should_fallback_to_positional + assert not mi._should_fallback_to_positional + + with pytest.raises(KeyError, match="14"): + ser[14] + + # --------------------------------------------------------------------- + + def test_setitem_multiple_partial(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + expected = frame.copy() + result = frame.copy() + result.loc[["foo", "bar"]] = 0 + expected.loc["foo"] = 0 + expected.loc["bar"] = 0 + tm.assert_frame_equal(result, expected) + + expected = frame.copy() + result = frame.copy() + result.loc["foo":"bar"] = 0 + expected.loc["foo"] = 0 + expected.loc["bar"] = 0 + tm.assert_frame_equal(result, expected) + + expected = frame["A"].copy() + result = frame["A"].copy() + result.loc[["foo", "bar"]] = 0 + expected.loc["foo"] = 0 + expected.loc["bar"] = 0 + tm.assert_series_equal(result, expected) + + expected = frame["A"].copy() + result = frame["A"].copy() + result.loc["foo":"bar"] = 0 + expected.loc["foo"] = 0 + expected.loc["bar"] = 0 + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "indexer, exp_idx, exp_values", + [ + ( + slice("2019-2", None), + DatetimeIndex(["2019-02-01"], dtype="M8[ns]"), + [2, 3], + ), + ( + slice(None, "2019-2"), + date_range("2019", periods=2, freq="MS"), + [0, 1, 2, 3], + ), + ], + ) + def test_partial_getitem_loc_datetime(self, indexer, exp_idx, exp_values): + # GH: 25165 + date_idx = date_range("2019", periods=2, freq="MS") + df = DataFrame( + list(range(4)), + index=MultiIndex.from_product([date_idx, [0, 1]], names=["x", "y"]), + ) + expected = DataFrame( + exp_values, + index=MultiIndex.from_product([exp_idx, [0, 1]], names=["x", "y"]), + ) + result = df[indexer] + tm.assert_frame_equal(result, expected) + result = df.loc[indexer] + tm.assert_frame_equal(result, expected) + + result = df.loc(axis=0)[indexer] + tm.assert_frame_equal(result, expected) + + result = df.loc[indexer, :] + tm.assert_frame_equal(result, expected) + + df2 = df.swaplevel(0, 1).sort_index() + expected = expected.swaplevel(0, 1).sort_index() + + result = df2.loc[:, indexer, :] + tm.assert_frame_equal(result, expected) + + +def test_loc_getitem_partial_both_axis(): + # gh-12660 + iterables = [["a", "b"], [2, 1]] + columns = MultiIndex.from_product(iterables, names=["col1", "col2"]) + rows = MultiIndex.from_product(iterables, names=["row1", "row2"]) + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), index=rows, columns=columns + ) + expected = df.iloc[:2, 2:].droplevel("row1").droplevel("col1", axis=1) + result = df.loc["a", "b"] + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_setitem.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_setitem.py new file mode 100644 index 0000000000000000000000000000000000000000..53ad4d6b41687e8e778710d1de22c19ebbfd3495 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_setitem.py @@ -0,0 +1,589 @@ +import numpy as np +import pytest + +from pandas.errors import SettingWithCopyError +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + MultiIndex, + Series, + date_range, + isna, + notna, +) +import pandas._testing as tm + + +def assert_equal(a, b): + assert a == b + + +class TestMultiIndexSetItem: + def check(self, target, indexers, value, compare_fn=assert_equal, expected=None): + target.loc[indexers] = value + result = target.loc[indexers] + if expected is None: + expected = value + compare_fn(result, expected) + + def test_setitem_multiindex(self): + # GH#7190 + cols = ["A", "w", "l", "a", "x", "X", "d", "profit"] + index = MultiIndex.from_product( + [np.arange(0, 100), np.arange(0, 80)], names=["time", "firm"] + ) + t, n = 0, 2 + + df = DataFrame( + np.nan, + columns=cols, + index=index, + ) + self.check(target=df, indexers=((t, n), "X"), value=0) + + df = DataFrame(-999, columns=cols, index=index) + self.check(target=df, indexers=((t, n), "X"), value=1) + + df = DataFrame(columns=cols, index=index) + self.check(target=df, indexers=((t, n), "X"), value=2) + + # gh-7218: assigning with 0-dim arrays + df = DataFrame(-999, columns=cols, index=index) + self.check( + target=df, + indexers=((t, n), "X"), + value=np.array(3), + expected=3, + ) + + def test_setitem_multiindex2(self): + # GH#5206 + df = DataFrame( + np.arange(25).reshape(5, 5), columns="A,B,C,D,E".split(","), dtype=float + ) + df["F"] = 99 + row_selection = df["A"] % 2 == 0 + col_selection = ["B", "C"] + df.loc[row_selection, col_selection] = df["F"] + output = DataFrame(99.0, index=[0, 2, 4], columns=["B", "C"]) + tm.assert_frame_equal(df.loc[row_selection, col_selection], output) + self.check( + target=df, + indexers=(row_selection, col_selection), + value=df["F"], + compare_fn=tm.assert_frame_equal, + expected=output, + ) + + def test_setitem_multiindex3(self): + # GH#11372 + idx = MultiIndex.from_product( + [["A", "B", "C"], date_range("2015-01-01", "2015-04-01", freq="MS")] + ) + cols = MultiIndex.from_product( + [["foo", "bar"], date_range("2016-01-01", "2016-02-01", freq="MS")] + ) + + df = DataFrame( + np.random.default_rng(2).random((12, 4)), index=idx, columns=cols + ) + + subidx = MultiIndex.from_arrays( + [["A", "A"], date_range("2015-01-01", "2015-02-01", freq="MS")] + ) + subcols = MultiIndex.from_arrays( + [["foo", "foo"], date_range("2016-01-01", "2016-02-01", freq="MS")] + ) + + vals = DataFrame( + np.random.default_rng(2).random((2, 2)), index=subidx, columns=subcols + ) + self.check( + target=df, + indexers=(subidx, subcols), + value=vals, + compare_fn=tm.assert_frame_equal, + ) + # set all columns + vals = DataFrame( + np.random.default_rng(2).random((2, 4)), index=subidx, columns=cols + ) + self.check( + target=df, + indexers=(subidx, slice(None, None, None)), + value=vals, + compare_fn=tm.assert_frame_equal, + ) + # identity + copy = df.copy() + self.check( + target=df, + indexers=(df.index, df.columns), + value=df, + compare_fn=tm.assert_frame_equal, + expected=copy, + ) + + # TODO(ArrayManager) df.loc["bar"] *= 2 doesn't raise an error but results in + # all NaNs -> doesn't work in the "split" path (also for BlockManager actually) + @td.skip_array_manager_not_yet_implemented + def test_multiindex_setitem(self): + # GH 3738 + # setting with a multi-index right hand side + arrays = [ + np.array(["bar", "bar", "baz", "qux", "qux", "bar"]), + np.array(["one", "two", "one", "one", "two", "one"]), + np.arange(0, 6, 1), + ] + + df_orig = DataFrame( + np.random.default_rng(2).standard_normal((6, 3)), + index=arrays, + columns=["A", "B", "C"], + ).sort_index() + + expected = df_orig.loc[["bar"]] * 2 + df = df_orig.copy() + df.loc[["bar"]] *= 2 + tm.assert_frame_equal(df.loc[["bar"]], expected) + + # raise because these have differing levels + msg = "cannot align on a multi-index with out specifying the join levels" + with pytest.raises(TypeError, match=msg): + df.loc["bar"] *= 2 + + def test_multiindex_setitem2(self): + # from SO + # https://stackoverflow.com/questions/24572040/pandas-access-the-level-of-multiindex-for-inplace-operation + df_orig = DataFrame.from_dict( + { + "price": { + ("DE", "Coal", "Stock"): 2, + ("DE", "Gas", "Stock"): 4, + ("DE", "Elec", "Demand"): 1, + ("FR", "Gas", "Stock"): 5, + ("FR", "Solar", "SupIm"): 0, + ("FR", "Wind", "SupIm"): 0, + } + } + ) + df_orig.index = MultiIndex.from_tuples( + df_orig.index, names=["Sit", "Com", "Type"] + ) + + expected = df_orig.copy() + expected.iloc[[0, 1, 3]] *= 2 + + idx = pd.IndexSlice + df = df_orig.copy() + df.loc[idx[:, :, "Stock"], :] *= 2 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[idx[:, :, "Stock"], "price"] *= 2 + tm.assert_frame_equal(df, expected) + + def test_multiindex_assignment(self): + # GH3777 part 2 + + # mixed dtype + df = DataFrame( + np.random.default_rng(2).integers(5, 10, size=9).reshape(3, 3), + columns=list("abc"), + index=[[4, 4, 8], [8, 10, 12]], + ) + df["d"] = np.nan + arr = np.array([0.0, 1.0]) + + df.loc[4, "d"] = arr + tm.assert_series_equal(df.loc[4, "d"], Series(arr, index=[8, 10], name="d")) + + def test_multiindex_assignment_single_dtype( + self, using_copy_on_write, warn_copy_on_write + ): + # GH3777 part 2b + # single dtype + arr = np.array([0.0, 1.0]) + + df = DataFrame( + np.random.default_rng(2).integers(5, 10, size=9).reshape(3, 3), + columns=list("abc"), + index=[[4, 4, 8], [8, 10, 12]], + dtype=np.int64, + ) + view = df["c"].iloc[:2].values + + # arr can be losslessly cast to int, so this setitem is inplace + # INFO(CoW-warn) this does not warn because we directly took .values + # above, so no reference to a pandas object is alive for `view` + df.loc[4, "c"] = arr + exp = Series(arr, index=[8, 10], name="c", dtype="int64") + result = df.loc[4, "c"] + tm.assert_series_equal(result, exp) + + # extra check for inplace-ness + if not using_copy_on_write: + tm.assert_numpy_array_equal(view, exp.values) + + # arr + 0.5 cannot be cast losslessly to int, so we upcast + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + df.loc[4, "c"] = arr + 0.5 + result = df.loc[4, "c"] + exp = exp + 0.5 + tm.assert_series_equal(result, exp) + + # scalar ok + with tm.assert_cow_warning(warn_copy_on_write): + df.loc[4, "c"] = 10 + exp = Series(10, index=[8, 10], name="c", dtype="float64") + tm.assert_series_equal(df.loc[4, "c"], exp) + + # invalid assignments + msg = "Must have equal len keys and value when setting with an iterable" + with pytest.raises(ValueError, match=msg): + df.loc[4, "c"] = [0, 1, 2, 3] + + with pytest.raises(ValueError, match=msg): + df.loc[4, "c"] = [0] + + # But with a length-1 listlike column indexer this behaves like + # `df.loc[4, "c"] = 0 + with tm.assert_cow_warning(warn_copy_on_write): + df.loc[4, ["c"]] = [0] + assert (df.loc[4, "c"] == 0).all() + + def test_groupby_example(self): + # groupby example + NUM_ROWS = 100 + NUM_COLS = 10 + col_names = ["A" + num for num in map(str, np.arange(NUM_COLS).tolist())] + index_cols = col_names[:5] + + df = DataFrame( + np.random.default_rng(2).integers(5, size=(NUM_ROWS, NUM_COLS)), + dtype=np.int64, + columns=col_names, + ) + df = df.set_index(index_cols).sort_index() + grp = df.groupby(level=index_cols[:4]) + df["new_col"] = np.nan + + # we are actually operating on a copy here + # but in this case, that's ok + for name, df2 in grp: + new_vals = np.arange(df2.shape[0]) + df.loc[name, "new_col"] = new_vals + + def test_series_setitem( + self, multiindex_year_month_day_dataframe_random_data, warn_copy_on_write + ): + ymd = multiindex_year_month_day_dataframe_random_data + s = ymd["A"] + + with tm.assert_cow_warning(warn_copy_on_write): + s[2000, 3] = np.nan + assert isna(s.values[42:65]).all() + assert notna(s.values[:42]).all() + assert notna(s.values[65:]).all() + + with tm.assert_cow_warning(warn_copy_on_write): + s[2000, 3, 10] = np.nan + assert isna(s.iloc[49]) + + with pytest.raises(KeyError, match="49"): + # GH#33355 dont fall-back to positional when leading level is int + s[49] + + def test_frame_getitem_setitem_boolean(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + df = frame.T.copy() + values = df.values.copy() + + result = df[df > 0] + expected = df.where(df > 0) + tm.assert_frame_equal(result, expected) + + df[df > 0] = 5 + values[values > 0] = 5 + tm.assert_almost_equal(df.values, values) + + df[df == 5] = 0 + values[values == 5] = 0 + tm.assert_almost_equal(df.values, values) + + # a df that needs alignment first + df[df[:-1] < 0] = 2 + np.putmask(values[:-1], values[:-1] < 0, 2) + tm.assert_almost_equal(df.values, values) + + with pytest.raises(TypeError, match="boolean values only"): + df[df * 0] = 2 + + def test_frame_getitem_setitem_multislice(self): + levels = [["t1", "t2"], ["a", "b", "c"]] + codes = [[0, 0, 0, 1, 1], [0, 1, 2, 0, 1]] + midx = MultiIndex(codes=codes, levels=levels, names=[None, "id"]) + df = DataFrame({"value": [1, 2, 3, 7, 8]}, index=midx) + + result = df.loc[:, "value"] + tm.assert_series_equal(df["value"], result) + + result = df.loc[df.index[1:3], "value"] + tm.assert_series_equal(df["value"][1:3], result) + + result = df.loc[:, :] + tm.assert_frame_equal(df, result) + + result = df + df.loc[:, "value"] = 10 + result["value"] = 10 + tm.assert_frame_equal(df, result) + + df.loc[:, :] = 10 + tm.assert_frame_equal(df, result) + + def test_frame_setitem_multi_column(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=[["a", "a", "b", "b"], [0, 1, 0, 1]], + ) + + cp = df.copy() + cp["a"] = cp["b"] + tm.assert_frame_equal(cp["a"], cp["b"]) + + # set with ndarray + cp = df.copy() + cp["a"] = cp["b"].values + tm.assert_frame_equal(cp["a"], cp["b"]) + + def test_frame_setitem_multi_column2(self): + # --------------------------------------- + # GH#1803 + columns = MultiIndex.from_tuples([("A", "1"), ("A", "2"), ("B", "1")]) + df = DataFrame(index=[1, 3, 5], columns=columns) + + # Works, but adds a column instead of updating the two existing ones + df["A"] = 0.0 # Doesn't work + assert (df["A"].values == 0).all() + + # it broadcasts + df["B", "1"] = [1, 2, 3] + df["A"] = df["B", "1"] + + sliced_a1 = df["A", "1"] + sliced_a2 = df["A", "2"] + sliced_b1 = df["B", "1"] + tm.assert_series_equal(sliced_a1, sliced_b1, check_names=False) + tm.assert_series_equal(sliced_a2, sliced_b1, check_names=False) + assert sliced_a1.name == ("A", "1") + assert sliced_a2.name == ("A", "2") + assert sliced_b1.name == ("B", "1") + + def test_loc_getitem_tuple_plus_columns( + self, multiindex_year_month_day_dataframe_random_data + ): + # GH #1013 + ymd = multiindex_year_month_day_dataframe_random_data + df = ymd[:5] + + result = df.loc[(2000, 1, 6), ["A", "B", "C"]] + expected = df.loc[2000, 1, 6][["A", "B", "C"]] + tm.assert_series_equal(result, expected) + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + def test_loc_getitem_setitem_slice_integers(self, frame_or_series): + index = MultiIndex( + levels=[[0, 1, 2], [0, 2]], codes=[[0, 0, 1, 1, 2, 2], [0, 1, 0, 1, 0, 1]] + ) + + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 4)), + index=index, + columns=["a", "b", "c", "d"], + ) + obj = tm.get_obj(obj, frame_or_series) + + res = obj.loc[1:2] + exp = obj.reindex(obj.index[2:]) + tm.assert_equal(res, exp) + + obj.loc[1:2] = 7 + assert (obj.loc[1:2] == 7).values.all() + + def test_setitem_change_dtype(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + dft = frame.T + s = dft["foo", "two"] + dft["foo", "two"] = s > s.median() + tm.assert_series_equal(dft["foo", "two"], s > s.median()) + # assert isinstance(dft._data.blocks[1].items, MultiIndex) + + reindexed = dft.reindex(columns=[("foo", "two")]) + tm.assert_series_equal(reindexed["foo", "two"], s > s.median()) + + def test_set_column_scalar_with_loc( + self, multiindex_dataframe_random_data, using_copy_on_write, warn_copy_on_write + ): + frame = multiindex_dataframe_random_data + subset = frame.index[[1, 4, 5]] + + frame.loc[subset] = 99 + assert (frame.loc[subset].values == 99).all() + + frame_original = frame.copy() + col = frame["B"] + with tm.assert_cow_warning(warn_copy_on_write): + col[subset] = 97 + if using_copy_on_write: + # chained setitem doesn't work with CoW + tm.assert_frame_equal(frame, frame_original) + else: + assert (frame.loc[subset, "B"] == 97).all() + + def test_nonunique_assignment_1750(self): + df = DataFrame( + [[1, 1, "x", "X"], [1, 1, "y", "Y"], [1, 2, "z", "Z"]], columns=list("ABCD") + ) + + df = df.set_index(["A", "B"]) + mi = MultiIndex.from_tuples([(1, 1)]) + + df.loc[mi, "C"] = "_" + + assert (df.xs((1, 1))["C"] == "_").all() + + def test_astype_assignment_with_dups(self): + # GH 4686 + # assignment with dups that has a dtype change + cols = MultiIndex.from_tuples([("A", "1"), ("B", "1"), ("A", "2")]) + df = DataFrame(np.arange(3).reshape((1, 3)), columns=cols, dtype=object) + index = df.index.copy() + + df["A"] = df["A"].astype(np.float64) + tm.assert_index_equal(df.index, index) + + def test_setitem_nonmonotonic(self): + # https://github.com/pandas-dev/pandas/issues/31449 + index = MultiIndex.from_tuples( + [("a", "c"), ("b", "x"), ("a", "d")], names=["l1", "l2"] + ) + df = DataFrame(data=[0, 1, 2], index=index, columns=["e"]) + df.loc["a", "e"] = np.arange(99, 101, dtype="int64") + expected = DataFrame({"e": [99, 1, 100]}, index=index) + tm.assert_frame_equal(df, expected) + + +class TestSetitemWithExpansionMultiIndex: + def test_setitem_new_column_mixed_depth(self): + arrays = [ + ["a", "top", "top", "routine1", "routine1", "routine2"], + ["", "OD", "OD", "result1", "result2", "result1"], + ["", "wx", "wy", "", "", ""], + ] + + tuples = sorted(zip(*arrays)) + index = MultiIndex.from_tuples(tuples) + df = DataFrame(np.random.default_rng(2).standard_normal((4, 6)), columns=index) + + result = df.copy() + expected = df.copy() + result["b"] = [1, 2, 3, 4] + expected["b", "", ""] = [1, 2, 3, 4] + tm.assert_frame_equal(result, expected) + + def test_setitem_new_column_all_na(self): + # GH#1534 + mix = MultiIndex.from_tuples([("1a", "2a"), ("1a", "2b"), ("1a", "2c")]) + df = DataFrame([[1, 2], [3, 4], [5, 6]], index=mix) + s = Series({(1, 1): 1, (1, 2): 2}) + df["new"] = s + assert df["new"].isna().all() + + def test_setitem_enlargement_keep_index_names(self): + # GH#53053 + mi = MultiIndex.from_tuples([(1, 2, 3)], names=["i1", "i2", "i3"]) + df = DataFrame(data=[[10, 20, 30]], index=mi, columns=["A", "B", "C"]) + df.loc[(0, 0, 0)] = df.loc[(1, 2, 3)] + mi_expected = MultiIndex.from_tuples( + [(1, 2, 3), (0, 0, 0)], names=["i1", "i2", "i3"] + ) + expected = DataFrame( + data=[[10, 20, 30], [10, 20, 30]], + index=mi_expected, + columns=["A", "B", "C"], + ) + tm.assert_frame_equal(df, expected) + + +@td.skip_array_manager_invalid_test # df["foo"] select multiple columns -> .values +# is not a view +def test_frame_setitem_view_direct( + multiindex_dataframe_random_data, using_copy_on_write +): + # this works because we are modifying the underlying array + # really a no-no + df = multiindex_dataframe_random_data.T + if using_copy_on_write: + with pytest.raises(ValueError, match="read-only"): + df["foo"].values[:] = 0 + assert (df["foo"].values != 0).all() + else: + df["foo"].values[:] = 0 + assert (df["foo"].values == 0).all() + + +def test_frame_setitem_copy_raises( + multiindex_dataframe_random_data, using_copy_on_write, warn_copy_on_write +): + # will raise/warn as its chained assignment + df = multiindex_dataframe_random_data.T + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df["foo"]["one"] = 2 + else: + msg = "A value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["foo"]["one"] = 2 + + +def test_frame_setitem_copy_no_write( + multiindex_dataframe_random_data, using_copy_on_write, warn_copy_on_write +): + frame = multiindex_dataframe_random_data.T + expected = frame + df = frame.copy() + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df["foo"]["one"] = 2 + else: + msg = "A value is trying to be set on a copy of a slice from a DataFrame" + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["foo"]["one"] = 2 + + result = df + tm.assert_frame_equal(result, expected) + + +def test_frame_setitem_partial_multiindex(): + # GH 54875 + df = DataFrame( + { + "a": [1, 2, 3], + "b": [3, 4, 5], + "c": 6, + "d": 7, + } + ).set_index(["a", "b", "c"]) + ser = Series(8, index=df.index.droplevel("c")) + result = df.copy() + result["d"] = ser + expected = df.copy() + expected["d"] = 8 + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_slice.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_slice.py new file mode 100644 index 0000000000000000000000000000000000000000..cef3dca054758eb8c4926455c449d73d63c0dc63 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_slice.py @@ -0,0 +1,796 @@ +from datetime import ( + datetime, + timedelta, +) + +import numpy as np +import pytest + +from pandas.errors import UnsortedIndexError + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + Timestamp, +) +import pandas._testing as tm +from pandas.tests.indexing.common import _mklbl + + +class TestMultiIndexSlicers: + def test_per_axis_per_level_getitem(self): + # GH6134 + # example test case + ix = MultiIndex.from_product( + [_mklbl("A", 5), _mklbl("B", 7), _mklbl("C", 4), _mklbl("D", 2)] + ) + df = DataFrame(np.arange(len(ix.to_numpy())), index=ix) + + result = df.loc[(slice("A1", "A3"), slice(None), ["C1", "C3"]), :] + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if a in ("A1", "A2", "A3") and c in ("C1", "C3") + ] + ] + tm.assert_frame_equal(result, expected) + + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if a in ("A1", "A2", "A3") and c in ("C1", "C2", "C3") + ] + ] + result = df.loc[(slice("A1", "A3"), slice(None), slice("C1", "C3")), :] + tm.assert_frame_equal(result, expected) + + # test multi-index slicing with per axis and per index controls + index = MultiIndex.from_tuples( + [("A", 1), ("A", 2), ("A", 3), ("B", 1)], names=["one", "two"] + ) + columns = MultiIndex.from_tuples( + [("a", "foo"), ("a", "bar"), ("b", "foo"), ("b", "bah")], + names=["lvl0", "lvl1"], + ) + + df = DataFrame( + np.arange(16, dtype="int64").reshape(4, 4), index=index, columns=columns + ) + df = df.sort_index(axis=0).sort_index(axis=1) + + # identity + result = df.loc[(slice(None), slice(None)), :] + tm.assert_frame_equal(result, df) + result = df.loc[(slice(None), slice(None)), (slice(None), slice(None))] + tm.assert_frame_equal(result, df) + result = df.loc[:, (slice(None), slice(None))] + tm.assert_frame_equal(result, df) + + # index + result = df.loc[(slice(None), [1]), :] + expected = df.iloc[[0, 3]] + tm.assert_frame_equal(result, expected) + + result = df.loc[(slice(None), 1), :] + expected = df.iloc[[0, 3]] + tm.assert_frame_equal(result, expected) + + # columns + result = df.loc[:, (slice(None), ["foo"])] + expected = df.iloc[:, [1, 3]] + tm.assert_frame_equal(result, expected) + + # both + result = df.loc[(slice(None), 1), (slice(None), ["foo"])] + expected = df.iloc[[0, 3], [1, 3]] + tm.assert_frame_equal(result, expected) + + result = df.loc["A", "a"] + expected = DataFrame( + {"bar": [1, 5, 9], "foo": [0, 4, 8]}, + index=Index([1, 2, 3], name="two"), + columns=Index(["bar", "foo"], name="lvl1"), + ) + tm.assert_frame_equal(result, expected) + + result = df.loc[(slice(None), [1, 2]), :] + expected = df.iloc[[0, 1, 3]] + tm.assert_frame_equal(result, expected) + + # multi-level series + s = Series(np.arange(len(ix.to_numpy())), index=ix) + result = s.loc["A1":"A3", :, ["C1", "C3"]] + expected = s.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in s.index.values + if a in ("A1", "A2", "A3") and c in ("C1", "C3") + ] + ] + tm.assert_series_equal(result, expected) + + # boolean indexers + result = df.loc[(slice(None), df.loc[:, ("a", "bar")] > 5), :] + expected = df.iloc[[2, 3]] + tm.assert_frame_equal(result, expected) + + msg = ( + "cannot index with a boolean indexer " + "that is not the same length as the index" + ) + with pytest.raises(ValueError, match=msg): + df.loc[(slice(None), np.array([True, False])), :] + + with pytest.raises(KeyError, match=r"\[1\] not in index"): + # slice(None) is on the index, [1] is on the columns, but 1 is + # not in the columns, so we raise + # This used to treat [1] as positional GH#16396 + df.loc[slice(None), [1]] + + # not lexsorted + assert df.index._lexsort_depth == 2 + df = df.sort_index(level=1, axis=0) + assert df.index._lexsort_depth == 0 + + msg = ( + "MultiIndex slicing requires the index to be " + r"lexsorted: slicing on levels \[1\], lexsort depth 0" + ) + with pytest.raises(UnsortedIndexError, match=msg): + df.loc[(slice(None), slice("bar")), :] + + # GH 16734: not sorted, but no real slicing + result = df.loc[(slice(None), df.loc[:, ("a", "bar")] > 5), :] + tm.assert_frame_equal(result, df.iloc[[1, 3], :]) + + def test_multiindex_slicers_non_unique(self): + # GH 7106 + # non-unique mi index support + df = ( + DataFrame( + { + "A": ["foo", "foo", "foo", "foo"], + "B": ["a", "a", "a", "a"], + "C": [1, 2, 1, 3], + "D": [1, 2, 3, 4], + } + ) + .set_index(["A", "B", "C"]) + .sort_index() + ) + assert not df.index.is_unique + expected = ( + DataFrame({"A": ["foo", "foo"], "B": ["a", "a"], "C": [1, 1], "D": [1, 3]}) + .set_index(["A", "B", "C"]) + .sort_index() + ) + result = df.loc[(slice(None), slice(None), 1), :] + tm.assert_frame_equal(result, expected) + + # this is equivalent of an xs expression + result = df.xs(1, level=2, drop_level=False) + tm.assert_frame_equal(result, expected) + + df = ( + DataFrame( + { + "A": ["foo", "foo", "foo", "foo"], + "B": ["a", "a", "a", "a"], + "C": [1, 2, 1, 2], + "D": [1, 2, 3, 4], + } + ) + .set_index(["A", "B", "C"]) + .sort_index() + ) + assert not df.index.is_unique + expected = ( + DataFrame({"A": ["foo", "foo"], "B": ["a", "a"], "C": [1, 1], "D": [1, 3]}) + .set_index(["A", "B", "C"]) + .sort_index() + ) + result = df.loc[(slice(None), slice(None), 1), :] + assert not result.index.is_unique + tm.assert_frame_equal(result, expected) + + # GH12896 + # numpy-implementation dependent bug + ints = [ + 1, + 2, + 3, + 4, + 5, + 6, + 7, + 8, + 9, + 10, + 11, + 12, + 12, + 13, + 14, + 14, + 16, + 17, + 18, + 19, + 200000, + 200000, + ] + n = len(ints) + idx = MultiIndex.from_arrays([["a"] * n, ints]) + result = Series([1] * n, index=idx) + result = result.sort_index() + result = result.loc[(slice(None), slice(100000))] + expected = Series([1] * (n - 2), index=idx[:-2]).sort_index() + tm.assert_series_equal(result, expected) + + def test_multiindex_slicers_datetimelike(self): + # GH 7429 + # buggy/inconsistent behavior when slicing with datetime-like + dates = [datetime(2012, 1, 1, 12, 12, 12) + timedelta(days=i) for i in range(6)] + freq = [1, 2] + index = MultiIndex.from_product([dates, freq], names=["date", "frequency"]) + + df = DataFrame( + np.arange(6 * 2 * 4, dtype="int64").reshape(-1, 4), + index=index, + columns=list("ABCD"), + ) + + # multi-axis slicing + idx = pd.IndexSlice + expected = df.iloc[[0, 2, 4], [0, 1]] + result = df.loc[ + ( + slice( + Timestamp("2012-01-01 12:12:12"), Timestamp("2012-01-03 12:12:12") + ), + slice(1, 1), + ), + slice("A", "B"), + ] + tm.assert_frame_equal(result, expected) + + result = df.loc[ + ( + idx[ + Timestamp("2012-01-01 12:12:12") : Timestamp("2012-01-03 12:12:12") + ], + idx[1:1], + ), + slice("A", "B"), + ] + tm.assert_frame_equal(result, expected) + + result = df.loc[ + ( + slice( + Timestamp("2012-01-01 12:12:12"), Timestamp("2012-01-03 12:12:12") + ), + 1, + ), + slice("A", "B"), + ] + tm.assert_frame_equal(result, expected) + + # with strings + result = df.loc[ + (slice("2012-01-01 12:12:12", "2012-01-03 12:12:12"), slice(1, 1)), + slice("A", "B"), + ] + tm.assert_frame_equal(result, expected) + + result = df.loc[ + (idx["2012-01-01 12:12:12":"2012-01-03 12:12:12"], 1), idx["A", "B"] + ] + tm.assert_frame_equal(result, expected) + + def test_multiindex_slicers_edges(self): + # GH 8132 + # various edge cases + df = DataFrame( + { + "A": ["A0"] * 5 + ["A1"] * 5 + ["A2"] * 5, + "B": ["B0", "B0", "B1", "B1", "B2"] * 3, + "DATE": [ + "2013-06-11", + "2013-07-02", + "2013-07-09", + "2013-07-30", + "2013-08-06", + "2013-06-11", + "2013-07-02", + "2013-07-09", + "2013-07-30", + "2013-08-06", + "2013-09-03", + "2013-10-01", + "2013-07-09", + "2013-08-06", + "2013-09-03", + ], + "VALUES": [22, 35, 14, 9, 4, 40, 18, 4, 2, 5, 1, 2, 3, 4, 2], + } + ) + + df["DATE"] = pd.to_datetime(df["DATE"]) + df1 = df.set_index(["A", "B", "DATE"]) + df1 = df1.sort_index() + + # A1 - Get all values under "A0" and "A1" + result = df1.loc[(slice("A1")), :] + expected = df1.iloc[0:10] + tm.assert_frame_equal(result, expected) + + # A2 - Get all values from the start to "A2" + result = df1.loc[(slice("A2")), :] + expected = df1 + tm.assert_frame_equal(result, expected) + + # A3 - Get all values under "B1" or "B2" + result = df1.loc[(slice(None), slice("B1", "B2")), :] + expected = df1.iloc[[2, 3, 4, 7, 8, 9, 12, 13, 14]] + tm.assert_frame_equal(result, expected) + + # A4 - Get all values between 2013-07-02 and 2013-07-09 + result = df1.loc[(slice(None), slice(None), slice("20130702", "20130709")), :] + expected = df1.iloc[[1, 2, 6, 7, 12]] + tm.assert_frame_equal(result, expected) + + # B1 - Get all values in B0 that are also under A0, A1 and A2 + result = df1.loc[(slice("A2"), slice("B0")), :] + expected = df1.iloc[[0, 1, 5, 6, 10, 11]] + tm.assert_frame_equal(result, expected) + + # B2 - Get all values in B0, B1 and B2 (similar to what #2 is doing for + # the As) + result = df1.loc[(slice(None), slice("B2")), :] + expected = df1 + tm.assert_frame_equal(result, expected) + + # B3 - Get all values from B1 to B2 and up to 2013-08-06 + result = df1.loc[(slice(None), slice("B1", "B2"), slice("2013-08-06")), :] + expected = df1.iloc[[2, 3, 4, 7, 8, 9, 12, 13]] + tm.assert_frame_equal(result, expected) + + # B4 - Same as A4 but the start of the date slice is not a key. + # shows indexing on a partial selection slice + result = df1.loc[(slice(None), slice(None), slice("20130701", "20130709")), :] + expected = df1.iloc[[1, 2, 6, 7, 12]] + tm.assert_frame_equal(result, expected) + + def test_per_axis_per_level_doc_examples(self): + # test index maker + idx = pd.IndexSlice + + # from indexing.rst / advanced + index = MultiIndex.from_product( + [_mklbl("A", 4), _mklbl("B", 2), _mklbl("C", 4), _mklbl("D", 2)] + ) + columns = MultiIndex.from_tuples( + [("a", "foo"), ("a", "bar"), ("b", "foo"), ("b", "bah")], + names=["lvl0", "lvl1"], + ) + df = DataFrame( + np.arange(len(index) * len(columns), dtype="int64").reshape( + (len(index), len(columns)) + ), + index=index, + columns=columns, + ) + result = df.loc[(slice("A1", "A3"), slice(None), ["C1", "C3"]), :] + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if a in ("A1", "A2", "A3") and c in ("C1", "C3") + ] + ] + tm.assert_frame_equal(result, expected) + result = df.loc[idx["A1":"A3", :, ["C1", "C3"]], :] + tm.assert_frame_equal(result, expected) + + result = df.loc[(slice(None), slice(None), ["C1", "C3"]), :] + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if c in ("C1", "C3") + ] + ] + tm.assert_frame_equal(result, expected) + result = df.loc[idx[:, :, ["C1", "C3"]], :] + tm.assert_frame_equal(result, expected) + + # not sorted + msg = ( + "MultiIndex slicing requires the index to be lexsorted: " + r"slicing on levels \[1\], lexsort depth 1" + ) + with pytest.raises(UnsortedIndexError, match=msg): + df.loc["A1", ("a", slice("foo"))] + + # GH 16734: not sorted, but no real slicing + tm.assert_frame_equal( + df.loc["A1", (slice(None), "foo")], df.loc["A1"].iloc[:, [0, 2]] + ) + + df = df.sort_index(axis=1) + + # slicing + df.loc["A1", (slice(None), "foo")] + df.loc[(slice(None), slice(None), ["C1", "C3"]), (slice(None), "foo")] + + # setitem + df.loc(axis=0)[:, :, ["C1", "C3"]] = -10 + + def test_loc_axis_arguments(self): + index = MultiIndex.from_product( + [_mklbl("A", 4), _mklbl("B", 2), _mklbl("C", 4), _mklbl("D", 2)] + ) + columns = MultiIndex.from_tuples( + [("a", "foo"), ("a", "bar"), ("b", "foo"), ("b", "bah")], + names=["lvl0", "lvl1"], + ) + df = ( + DataFrame( + np.arange(len(index) * len(columns), dtype="int64").reshape( + (len(index), len(columns)) + ), + index=index, + columns=columns, + ) + .sort_index() + .sort_index(axis=1) + ) + + # axis 0 + result = df.loc(axis=0)["A1":"A3", :, ["C1", "C3"]] + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if a in ("A1", "A2", "A3") and c in ("C1", "C3") + ] + ] + tm.assert_frame_equal(result, expected) + + result = df.loc(axis="index")[:, :, ["C1", "C3"]] + expected = df.loc[ + [ + ( + a, + b, + c, + d, + ) + for a, b, c, d in df.index.values + if c in ("C1", "C3") + ] + ] + tm.assert_frame_equal(result, expected) + + # axis 1 + result = df.loc(axis=1)[:, "foo"] + expected = df.loc[:, (slice(None), "foo")] + tm.assert_frame_equal(result, expected) + + result = df.loc(axis="columns")[:, "foo"] + expected = df.loc[:, (slice(None), "foo")] + tm.assert_frame_equal(result, expected) + + # invalid axis + for i in [-1, 2, "foo"]: + msg = f"No axis named {i} for object type DataFrame" + with pytest.raises(ValueError, match=msg): + df.loc(axis=i)[:, :, ["C1", "C3"]] + + def test_loc_axis_single_level_multi_col_indexing_multiindex_col_df(self): + # GH29519 + df = DataFrame( + np.arange(27).reshape(3, 9), + columns=MultiIndex.from_product([["a1", "a2", "a3"], ["b1", "b2", "b3"]]), + ) + result = df.loc(axis=1)["a1":"a2"] + expected = df.iloc[:, :-3] + + tm.assert_frame_equal(result, expected) + + def test_loc_axis_single_level_single_col_indexing_multiindex_col_df(self): + # GH29519 + df = DataFrame( + np.arange(27).reshape(3, 9), + columns=MultiIndex.from_product([["a1", "a2", "a3"], ["b1", "b2", "b3"]]), + ) + result = df.loc(axis=1)["a1"] + expected = df.iloc[:, :3] + expected.columns = ["b1", "b2", "b3"] + + tm.assert_frame_equal(result, expected) + + def test_loc_ax_single_level_indexer_simple_df(self): + # GH29519 + # test single level indexing on single index column data frame + df = DataFrame(np.arange(9).reshape(3, 3), columns=["a", "b", "c"]) + result = df.loc(axis=1)["a"] + expected = Series(np.array([0, 3, 6]), name="a") + tm.assert_series_equal(result, expected) + + def test_per_axis_per_level_setitem(self): + # test index maker + idx = pd.IndexSlice + + # test multi-index slicing with per axis and per index controls + index = MultiIndex.from_tuples( + [("A", 1), ("A", 2), ("A", 3), ("B", 1)], names=["one", "two"] + ) + columns = MultiIndex.from_tuples( + [("a", "foo"), ("a", "bar"), ("b", "foo"), ("b", "bah")], + names=["lvl0", "lvl1"], + ) + + df_orig = DataFrame( + np.arange(16, dtype="int64").reshape(4, 4), index=index, columns=columns + ) + df_orig = df_orig.sort_index(axis=0).sort_index(axis=1) + + # identity + df = df_orig.copy() + df.loc[(slice(None), slice(None)), :] = 100 + expected = df_orig.copy() + expected.iloc[:, :] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc(axis=0)[:, :] = 100 + expected = df_orig.copy() + expected.iloc[:, :] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[(slice(None), slice(None)), (slice(None), slice(None))] = 100 + expected = df_orig.copy() + expected.iloc[:, :] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[:, (slice(None), slice(None))] = 100 + expected = df_orig.copy() + expected.iloc[:, :] = 100 + tm.assert_frame_equal(df, expected) + + # index + df = df_orig.copy() + df.loc[(slice(None), [1]), :] = 100 + expected = df_orig.copy() + expected.iloc[[0, 3]] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[(slice(None), 1), :] = 100 + expected = df_orig.copy() + expected.iloc[[0, 3]] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc(axis=0)[:, 1] = 100 + expected = df_orig.copy() + expected.iloc[[0, 3]] = 100 + tm.assert_frame_equal(df, expected) + + # columns + df = df_orig.copy() + df.loc[:, (slice(None), ["foo"])] = 100 + expected = df_orig.copy() + expected.iloc[:, [1, 3]] = 100 + tm.assert_frame_equal(df, expected) + + # both + df = df_orig.copy() + df.loc[(slice(None), 1), (slice(None), ["foo"])] = 100 + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[idx[:, 1], idx[:, ["foo"]]] = 100 + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] = 100 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc["A", "a"] = 100 + expected = df_orig.copy() + expected.iloc[0:3, 0:2] = 100 + tm.assert_frame_equal(df, expected) + + # setting with a list-like + df = df_orig.copy() + df.loc[(slice(None), 1), (slice(None), ["foo"])] = np.array( + [[100, 100], [100, 100]], dtype="int64" + ) + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] = 100 + tm.assert_frame_equal(df, expected) + + # not enough values + df = df_orig.copy() + + msg = "setting an array element with a sequence." + with pytest.raises(ValueError, match=msg): + df.loc[(slice(None), 1), (slice(None), ["foo"])] = np.array( + [[100], [100, 100]], dtype="int64" + ) + + msg = "Must have equal len keys and value when setting with an iterable" + with pytest.raises(ValueError, match=msg): + df.loc[(slice(None), 1), (slice(None), ["foo"])] = np.array( + [100, 100, 100, 100], dtype="int64" + ) + + # with an alignable rhs + df = df_orig.copy() + df.loc[(slice(None), 1), (slice(None), ["foo"])] = ( + df.loc[(slice(None), 1), (slice(None), ["foo"])] * 5 + ) + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] = expected.iloc[[0, 3], [1, 3]] * 5 + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + df.loc[(slice(None), 1), (slice(None), ["foo"])] *= df.loc[ + (slice(None), 1), (slice(None), ["foo"]) + ] + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] *= expected.iloc[[0, 3], [1, 3]] + tm.assert_frame_equal(df, expected) + + rhs = df_orig.loc[(slice(None), 1), (slice(None), ["foo"])].copy() + rhs.loc[:, ("c", "bah")] = 10 + df = df_orig.copy() + df.loc[(slice(None), 1), (slice(None), ["foo"])] *= rhs + expected = df_orig.copy() + expected.iloc[[0, 3], [1, 3]] *= expected.iloc[[0, 3], [1, 3]] + tm.assert_frame_equal(df, expected) + + def test_multiindex_label_slicing_with_negative_step(self): + ser = Series( + np.arange(20), MultiIndex.from_product([list("abcde"), np.arange(4)]) + ) + SLC = pd.IndexSlice + + tm.assert_indexing_slices_equivalent(ser, SLC[::-1], SLC[::-1]) + + tm.assert_indexing_slices_equivalent(ser, SLC["d"::-1], SLC[15::-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[("d",)::-1], SLC[15::-1]) + + tm.assert_indexing_slices_equivalent(ser, SLC[:"d":-1], SLC[:11:-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[:("d",):-1], SLC[:11:-1]) + + tm.assert_indexing_slices_equivalent(ser, SLC["d":"b":-1], SLC[15:3:-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[("d",):"b":-1], SLC[15:3:-1]) + tm.assert_indexing_slices_equivalent(ser, SLC["d":("b",):-1], SLC[15:3:-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[("d",):("b",):-1], SLC[15:3:-1]) + tm.assert_indexing_slices_equivalent(ser, SLC["b":"d":-1], SLC[:0]) + + tm.assert_indexing_slices_equivalent(ser, SLC[("c", 2)::-1], SLC[10::-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[:("c", 2):-1], SLC[:9:-1]) + tm.assert_indexing_slices_equivalent( + ser, SLC[("e", 0):("c", 2):-1], SLC[16:9:-1] + ) + + def test_multiindex_slice_first_level(self): + # GH 12697 + freq = ["a", "b", "c", "d"] + idx = MultiIndex.from_product([freq, range(500)]) + df = DataFrame(list(range(2000)), index=idx, columns=["Test"]) + df_slice = df.loc[pd.IndexSlice[:, 30:70], :] + result = df_slice.loc["a"] + expected = DataFrame(list(range(30, 71)), columns=["Test"], index=range(30, 71)) + tm.assert_frame_equal(result, expected) + result = df_slice.loc["d"] + expected = DataFrame( + list(range(1530, 1571)), columns=["Test"], index=range(30, 71) + ) + tm.assert_frame_equal(result, expected) + + def test_int_series_slicing(self, multiindex_year_month_day_dataframe_random_data): + ymd = multiindex_year_month_day_dataframe_random_data + s = ymd["A"] + result = s[5:] + expected = s.reindex(s.index[5:]) + tm.assert_series_equal(result, expected) + + s = ymd["A"].copy() + exp = ymd["A"].copy() + s[5:] = 0 + exp.iloc[5:] = 0 + tm.assert_numpy_array_equal(s.values, exp.values) + + result = ymd[5:] + expected = ymd.reindex(s.index[5:]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "dtype, loc, iloc", + [ + # dtype = int, step = -1 + ("int", slice(None, None, -1), slice(None, None, -1)), + ("int", slice(3, None, -1), slice(3, None, -1)), + ("int", slice(None, 1, -1), slice(None, 0, -1)), + ("int", slice(3, 1, -1), slice(3, 0, -1)), + # dtype = int, step = -2 + ("int", slice(None, None, -2), slice(None, None, -2)), + ("int", slice(3, None, -2), slice(3, None, -2)), + ("int", slice(None, 1, -2), slice(None, 0, -2)), + ("int", slice(3, 1, -2), slice(3, 0, -2)), + # dtype = str, step = -1 + ("str", slice(None, None, -1), slice(None, None, -1)), + ("str", slice("d", None, -1), slice(3, None, -1)), + ("str", slice(None, "b", -1), slice(None, 0, -1)), + ("str", slice("d", "b", -1), slice(3, 0, -1)), + # dtype = str, step = -2 + ("str", slice(None, None, -2), slice(None, None, -2)), + ("str", slice("d", None, -2), slice(3, None, -2)), + ("str", slice(None, "b", -2), slice(None, 0, -2)), + ("str", slice("d", "b", -2), slice(3, 0, -2)), + ], + ) + def test_loc_slice_negative_stepsize(self, dtype, loc, iloc): + # GH#38071 + labels = { + "str": list("abcde"), + "int": range(5), + }[dtype] + + mi = MultiIndex.from_arrays([labels] * 2) + df = DataFrame(1.0, index=mi, columns=["A"]) + + SLC = pd.IndexSlice + + expected = df.iloc[iloc, :] + result_get_loc = df.loc[SLC[loc], :] + result_get_locs_level_0 = df.loc[SLC[loc, :], :] + result_get_locs_level_1 = df.loc[SLC[:, loc], :] + + tm.assert_frame_equal(result_get_loc, expected) + tm.assert_frame_equal(result_get_locs_level_0, expected) + tm.assert_frame_equal(result_get_locs_level_1, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_sorted.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_sorted.py new file mode 100644 index 0000000000000000000000000000000000000000..cf3fa5296c97c313292a0581cb776931c121fd52 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/multiindex/test_sorted.py @@ -0,0 +1,153 @@ +import numpy as np +import pytest + +from pandas import ( + NA, + DataFrame, + MultiIndex, + Series, + array, +) +import pandas._testing as tm + + +class TestMultiIndexSorted: + def test_getitem_multilevel_index_tuple_not_sorted(self): + index_columns = list("abc") + df = DataFrame( + [[0, 1, 0, "x"], [0, 0, 1, "y"]], columns=index_columns + ["data"] + ) + df = df.set_index(index_columns) + query_index = df.index[:1] + rs = df.loc[query_index, "data"] + + xp_idx = MultiIndex.from_tuples([(0, 1, 0)], names=["a", "b", "c"]) + xp = Series(["x"], index=xp_idx, name="data") + tm.assert_series_equal(rs, xp) + + def test_getitem_slice_not_sorted(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + df = frame.sort_index(level=1).T + + # buglet with int typechecking + result = df.iloc[:, : np.int32(3)] + expected = df.reindex(columns=df.columns[:3]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("key", [None, lambda x: x]) + def test_frame_getitem_not_sorted2(self, key): + # 13431 + df = DataFrame( + { + "col1": ["b", "d", "b", "a"], + "col2": [3, 1, 1, 2], + "data": ["one", "two", "three", "four"], + } + ) + + df2 = df.set_index(["col1", "col2"]) + df2_original = df2.copy() + + df2.index = df2.index.set_levels(["b", "d", "a"], level="col1") + df2.index = df2.index.set_codes([0, 1, 0, 2], level="col1") + assert not df2.index.is_monotonic_increasing + + assert df2_original.index.equals(df2.index) + expected = df2.sort_index(key=key) + assert expected.index.is_monotonic_increasing + + result = df2.sort_index(level=0, key=key) + assert result.index.is_monotonic_increasing + tm.assert_frame_equal(result, expected) + + def test_sort_values_key(self): + arrays = [ + ["bar", "bar", "baz", "baz", "qux", "qux", "foo", "foo"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ] + tuples = zip(*arrays) + index = MultiIndex.from_tuples(tuples) + index = index.sort_values( # sort by third letter + key=lambda x: x.map(lambda entry: entry[2]) + ) + result = DataFrame(range(8), index=index) + + arrays = [ + ["foo", "foo", "bar", "bar", "qux", "qux", "baz", "baz"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ] + tuples = zip(*arrays) + index = MultiIndex.from_tuples(tuples) + expected = DataFrame(range(8), index=index) + + tm.assert_frame_equal(result, expected) + + def test_argsort_with_na(self): + # GH48495 + arrays = [ + array([2, NA, 1], dtype="Int64"), + array([1, 2, 3], dtype="Int64"), + ] + index = MultiIndex.from_arrays(arrays) + result = index.argsort() + expected = np.array([2, 0, 1], dtype=np.intp) + tm.assert_numpy_array_equal(result, expected) + + def test_sort_values_with_na(self): + # GH48495 + arrays = [ + array([2, NA, 1], dtype="Int64"), + array([1, 2, 3], dtype="Int64"), + ] + index = MultiIndex.from_arrays(arrays) + index = index.sort_values() + result = DataFrame(range(3), index=index) + + arrays = [ + array([1, 2, NA], dtype="Int64"), + array([3, 1, 2], dtype="Int64"), + ] + index = MultiIndex.from_arrays(arrays) + expected = DataFrame(range(3), index=index) + + tm.assert_frame_equal(result, expected) + + def test_frame_getitem_not_sorted(self, multiindex_dataframe_random_data): + frame = multiindex_dataframe_random_data + df = frame.T + df["foo", "four"] = "foo" + + arrays = [np.array(x) for x in zip(*df.columns.values)] + + result = df["foo"] + result2 = df.loc[:, "foo"] + expected = df.reindex(columns=df.columns[arrays[0] == "foo"]) + expected.columns = expected.columns.droplevel(0) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + df = df.T + result = df.xs("foo") + result2 = df.loc["foo"] + expected = df.reindex(df.index[arrays[0] == "foo"]) + expected.index = expected.index.droplevel(0) + tm.assert_frame_equal(result, expected) + tm.assert_frame_equal(result2, expected) + + def test_series_getitem_not_sorted(self): + arrays = [ + ["bar", "bar", "baz", "baz", "qux", "qux", "foo", "foo"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ] + tuples = zip(*arrays) + index = MultiIndex.from_tuples(tuples) + s = Series(np.random.default_rng(2).standard_normal(8), index=index) + + arrays = [np.array(x) for x in zip(*index.values)] + + result = s["qux"] + result2 = s.loc["qux"] + expected = s[arrays[0] == "qux"] + expected.index = expected.index.droplevel(0) + tm.assert_series_equal(result, expected) + tm.assert_series_equal(result2, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_at.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_at.py new file mode 100644 index 0000000000000000000000000000000000000000..7504c984794e8d1b10d6b7d25d34817ecbb74127 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_at.py @@ -0,0 +1,252 @@ +from datetime import ( + datetime, + timezone, +) + +import numpy as np +import pytest + +from pandas.errors import InvalidIndexError + +from pandas import ( + CategoricalDtype, + CategoricalIndex, + DataFrame, + DatetimeIndex, + MultiIndex, + Series, + Timestamp, +) +import pandas._testing as tm + + +def test_at_timezone(): + # https://github.com/pandas-dev/pandas/issues/33544 + result = DataFrame({"foo": [datetime(2000, 1, 1)]}) + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + result.at[0, "foo"] = datetime(2000, 1, 2, tzinfo=timezone.utc) + expected = DataFrame( + {"foo": [datetime(2000, 1, 2, tzinfo=timezone.utc)]}, dtype=object + ) + tm.assert_frame_equal(result, expected) + + +def test_selection_methods_of_assigned_col(): + # GH 29282 + df = DataFrame(data={"a": [1, 2, 3], "b": [4, 5, 6]}) + df2 = DataFrame(data={"c": [7, 8, 9]}, index=[2, 1, 0]) + df["c"] = df2["c"] + df.at[1, "c"] = 11 + result = df + expected = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6], "c": [9, 11, 7]}) + tm.assert_frame_equal(result, expected) + result = df.at[1, "c"] + assert result == 11 + + result = df["c"] + expected = Series([9, 11, 7], name="c") + tm.assert_series_equal(result, expected) + + result = df[["c"]] + expected = DataFrame({"c": [9, 11, 7]}) + tm.assert_frame_equal(result, expected) + + +class TestAtSetItem: + def test_at_setitem_item_cache_cleared(self): + # GH#22372 Note the multi-step construction is necessary to trigger + # the original bug. pandas/issues/22372#issuecomment-413345309 + df = DataFrame(index=[0]) + df["x"] = 1 + df["cost"] = 2 + + # accessing df["cost"] adds "cost" to the _item_cache + df["cost"] + + # This loc[[0]] lookup used to call _consolidate_inplace at the + # BlockManager level, which failed to clear the _item_cache + df.loc[[0]] + + df.at[0, "x"] = 4 + df.at[0, "cost"] = 789 + + expected = DataFrame({"x": [4], "cost": 789}, index=[0]) + tm.assert_frame_equal(df, expected) + + # And in particular, check that the _item_cache has updated correctly. + tm.assert_series_equal(df["cost"], expected["cost"]) + + def test_at_setitem_mixed_index_assignment(self): + # GH#19860 + ser = Series([1, 2, 3, 4, 5], index=["a", "b", "c", 1, 2]) + ser.at["a"] = 11 + assert ser.iat[0] == 11 + ser.at[1] = 22 + assert ser.iat[3] == 22 + + def test_at_setitem_categorical_missing(self): + df = DataFrame( + index=range(3), columns=range(3), dtype=CategoricalDtype(["foo", "bar"]) + ) + df.at[1, 1] = "foo" + + expected = DataFrame( + [ + [np.nan, np.nan, np.nan], + [np.nan, "foo", np.nan], + [np.nan, np.nan, np.nan], + ], + dtype=CategoricalDtype(["foo", "bar"]), + ) + + tm.assert_frame_equal(df, expected) + + def test_at_setitem_multiindex(self): + df = DataFrame( + np.zeros((3, 2), dtype="int64"), + columns=MultiIndex.from_tuples([("a", 0), ("a", 1)]), + ) + df.at[0, "a"] = 10 + expected = DataFrame( + [[10, 10], [0, 0], [0, 0]], + columns=MultiIndex.from_tuples([("a", 0), ("a", 1)]), + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("row", (Timestamp("2019-01-01"), "2019-01-01")) + def test_at_datetime_index(self, row): + # Set float64 dtype to avoid upcast when setting .5 + df = DataFrame( + data=[[1] * 2], index=DatetimeIndex(data=["2019-01-01", "2019-01-02"]) + ).astype({0: "float64"}) + expected = DataFrame( + data=[[0.5, 1], [1.0, 1]], + index=DatetimeIndex(data=["2019-01-01", "2019-01-02"]), + ) + + df.at[row, 0] = 0.5 + tm.assert_frame_equal(df, expected) + + +class TestAtSetItemWithExpansion: + def test_at_setitem_expansion_series_dt64tz_value(self, tz_naive_fixture): + # GH#25506 + ts = Timestamp("2017-08-05 00:00:00+0100", tz=tz_naive_fixture) + result = Series(ts) + result.at[1] = ts + expected = Series([ts, ts]) + tm.assert_series_equal(result, expected) + + +class TestAtWithDuplicates: + def test_at_with_duplicate_axes_requires_scalar_lookup(self): + # GH#33041 check that falling back to loc doesn't allow non-scalar + # args to slip in + + arr = np.random.default_rng(2).standard_normal(6).reshape(3, 2) + df = DataFrame(arr, columns=["A", "A"]) + + msg = "Invalid call for scalar access" + with pytest.raises(ValueError, match=msg): + df.at[[1, 2]] + with pytest.raises(ValueError, match=msg): + df.at[1, ["A"]] + with pytest.raises(ValueError, match=msg): + df.at[:, "A"] + + with pytest.raises(ValueError, match=msg): + df.at[[1, 2]] = 1 + with pytest.raises(ValueError, match=msg): + df.at[1, ["A"]] = 1 + with pytest.raises(ValueError, match=msg): + df.at[:, "A"] = 1 + + +class TestAtErrors: + # TODO: De-duplicate/parametrize + # test_at_series_raises_key_error2, test_at_frame_raises_key_error2 + + def test_at_series_raises_key_error(self, indexer_al): + # GH#31724 .at should match .loc + + ser = Series([1, 2, 3], index=[3, 2, 1]) + result = indexer_al(ser)[1] + assert result == 3 + + with pytest.raises(KeyError, match="a"): + indexer_al(ser)["a"] + + def test_at_frame_raises_key_error(self, indexer_al): + # GH#31724 .at should match .loc + + df = DataFrame({0: [1, 2, 3]}, index=[3, 2, 1]) + + result = indexer_al(df)[1, 0] + assert result == 3 + + with pytest.raises(KeyError, match="a"): + indexer_al(df)["a", 0] + + with pytest.raises(KeyError, match="a"): + indexer_al(df)[1, "a"] + + def test_at_series_raises_key_error2(self, indexer_al): + # at should not fallback + # GH#7814 + # GH#31724 .at should match .loc + ser = Series([1, 2, 3], index=list("abc")) + result = indexer_al(ser)["a"] + assert result == 1 + + with pytest.raises(KeyError, match="^0$"): + indexer_al(ser)[0] + + def test_at_frame_raises_key_error2(self, indexer_al): + # GH#31724 .at should match .loc + df = DataFrame({"A": [1, 2, 3]}, index=list("abc")) + result = indexer_al(df)["a", "A"] + assert result == 1 + + with pytest.raises(KeyError, match="^0$"): + indexer_al(df)["a", 0] + + def test_at_frame_multiple_columns(self): + # GH#48296 - at shouldn't modify multiple columns + df = DataFrame({"a": [1, 2], "b": [3, 4]}) + new_row = [6, 7] + with pytest.raises( + InvalidIndexError, + match=f"You can only assign a scalar value not a \\{type(new_row)}", + ): + df.at[5] = new_row + + def test_at_getitem_mixed_index_no_fallback(self): + # GH#19860 + ser = Series([1, 2, 3, 4, 5], index=["a", "b", "c", 1, 2]) + with pytest.raises(KeyError, match="^0$"): + ser.at[0] + with pytest.raises(KeyError, match="^4$"): + ser.at[4] + + def test_at_categorical_integers(self): + # CategoricalIndex with integer categories that don't happen to match + # the Categorical's codes + ci = CategoricalIndex([3, 4]) + + arr = np.arange(4).reshape(2, 2) + frame = DataFrame(arr, index=ci) + + for df in [frame, frame.T]: + for key in [0, 1]: + with pytest.raises(KeyError, match=str(key)): + df.at[key, key] + + def test_at_applied_for_rows(self): + # GH#48729 .at should raise InvalidIndexError when assigning rows + df = DataFrame(index=["a"], columns=["col1", "col2"]) + new_row = [123, 15] + with pytest.raises( + InvalidIndexError, + match=f"You can only assign a scalar value not a \\{type(new_row)}", + ): + df.at["a"] = new_row diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_categorical.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_categorical.py new file mode 100644 index 0000000000000000000000000000000000000000..1b58f8e8b983113e4a627e75cf6db7917c33866a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_categorical.py @@ -0,0 +1,573 @@ +import re + +import numpy as np +import pytest + +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + CategoricalDtype, + CategoricalIndex, + DataFrame, + Index, + Interval, + Series, + Timedelta, + Timestamp, + option_context, +) +import pandas._testing as tm + + +@pytest.fixture +def df(): + return DataFrame( + { + "A": np.arange(6, dtype="int64"), + }, + index=CategoricalIndex( + list("aabbca"), dtype=CategoricalDtype(list("cab")), name="B" + ), + ) + + +@pytest.fixture +def df2(): + return DataFrame( + { + "A": np.arange(6, dtype="int64"), + }, + index=CategoricalIndex( + list("aabbca"), dtype=CategoricalDtype(list("cabe")), name="B" + ), + ) + + +class TestCategoricalIndex: + def test_loc_scalar(self, df): + dtype = CategoricalDtype(list("cab")) + result = df.loc["a"] + bidx = Series(list("aaa"), name="B").astype(dtype) + assert bidx.dtype == dtype + + expected = DataFrame({"A": [0, 1, 5]}, index=Index(bidx)) + tm.assert_frame_equal(result, expected) + + df = df.copy() + df.loc["a"] = 20 + bidx2 = Series(list("aabbca"), name="B").astype(dtype) + assert bidx2.dtype == dtype + expected = DataFrame( + { + "A": [20, 20, 2, 3, 4, 20], + }, + index=Index(bidx2), + ) + tm.assert_frame_equal(df, expected) + + # value not in the categories + with pytest.raises(KeyError, match=r"^'d'$"): + df.loc["d"] + + df2 = df.copy() + expected = df2.copy() + expected.index = expected.index.astype(object) + expected.loc["d"] = 10 + df2.loc["d"] = 10 + tm.assert_frame_equal(df2, expected) + + def test_loc_setitem_with_expansion_non_category(self, df): + # Setting-with-expansion with a new key "d" that is not among caegories + df.loc["a"] = 20 + + # Setting a new row on an existing column + df3 = df.copy() + df3.loc["d", "A"] = 10 + bidx3 = Index(list("aabbcad"), name="B") + expected3 = DataFrame( + { + "A": [20, 20, 2, 3, 4, 20, 10.0], + }, + index=Index(bidx3), + ) + tm.assert_frame_equal(df3, expected3) + + # Setting a new row _and_ new column + df4 = df.copy() + df4.loc["d", "C"] = 10 + expected3 = DataFrame( + { + "A": [20, 20, 2, 3, 4, 20, np.nan], + "C": [np.nan, np.nan, np.nan, np.nan, np.nan, np.nan, 10], + }, + index=Index(bidx3), + ) + tm.assert_frame_equal(df4, expected3) + + def test_loc_getitem_scalar_non_category(self, df): + with pytest.raises(KeyError, match="^1$"): + df.loc[1] + + def test_slicing(self): + cat = Series(Categorical([1, 2, 3, 4])) + reverse = cat[::-1] + exp = np.array([4, 3, 2, 1], dtype=np.int64) + tm.assert_numpy_array_equal(reverse.__array__(), exp) + + df = DataFrame({"value": (np.arange(100) + 1).astype("int64")}) + df["D"] = pd.cut(df.value, bins=[0, 25, 50, 75, 100]) + + expected = Series([11, Interval(0, 25)], index=["value", "D"], name=10) + result = df.iloc[10] + tm.assert_series_equal(result, expected) + + expected = DataFrame( + {"value": np.arange(11, 21).astype("int64")}, + index=np.arange(10, 20).astype("int64"), + ) + expected["D"] = pd.cut(expected.value, bins=[0, 25, 50, 75, 100]) + result = df.iloc[10:20] + tm.assert_frame_equal(result, expected) + + expected = Series([9, Interval(0, 25)], index=["value", "D"], name=8) + result = df.loc[8] + tm.assert_series_equal(result, expected) + + def test_slicing_and_getting_ops(self): + # systematically test the slicing operations: + # for all slicing ops: + # - returning a dataframe + # - returning a column + # - returning a row + # - returning a single value + + cats = Categorical( + ["a", "c", "b", "c", "c", "c", "c"], categories=["a", "b", "c"] + ) + idx = Index(["h", "i", "j", "k", "l", "m", "n"]) + values = [1, 2, 3, 4, 5, 6, 7] + df = DataFrame({"cats": cats, "values": values}, index=idx) + + # the expected values + cats2 = Categorical(["b", "c"], categories=["a", "b", "c"]) + idx2 = Index(["j", "k"]) + values2 = [3, 4] + + # 2:4,: | "j":"k",: + exp_df = DataFrame({"cats": cats2, "values": values2}, index=idx2) + + # :,"cats" | :,0 + exp_col = Series(cats, index=idx, name="cats") + + # "j",: | 2,: + exp_row = Series(["b", 3], index=["cats", "values"], dtype="object", name="j") + + # "j","cats | 2,0 + exp_val = "b" + + # iloc + # frame + res_df = df.iloc[2:4, :] + tm.assert_frame_equal(res_df, exp_df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + # row + res_row = df.iloc[2, :] + tm.assert_series_equal(res_row, exp_row) + assert isinstance(res_row["cats"], str) + + # col + res_col = df.iloc[:, 0] + tm.assert_series_equal(res_col, exp_col) + assert isinstance(res_col.dtype, CategoricalDtype) + + # single value + res_val = df.iloc[2, 0] + assert res_val == exp_val + + # loc + # frame + res_df = df.loc["j":"k", :] + tm.assert_frame_equal(res_df, exp_df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + # row + res_row = df.loc["j", :] + tm.assert_series_equal(res_row, exp_row) + assert isinstance(res_row["cats"], str) + + # col + res_col = df.loc[:, "cats"] + tm.assert_series_equal(res_col, exp_col) + assert isinstance(res_col.dtype, CategoricalDtype) + + # single value + res_val = df.loc["j", "cats"] + assert res_val == exp_val + + # single value + res_val = df.loc["j", df.columns[0]] + assert res_val == exp_val + + # iat + res_val = df.iat[2, 0] + assert res_val == exp_val + + # at + res_val = df.at["j", "cats"] + assert res_val == exp_val + + # fancy indexing + exp_fancy = df.iloc[[2]] + + res_fancy = df[df["cats"] == "b"] + tm.assert_frame_equal(res_fancy, exp_fancy) + res_fancy = df[df["values"] == 3] + tm.assert_frame_equal(res_fancy, exp_fancy) + + # get_value + res_val = df.at["j", "cats"] + assert res_val == exp_val + + # i : int, slice, or sequence of integers + res_row = df.iloc[2] + tm.assert_series_equal(res_row, exp_row) + assert isinstance(res_row["cats"], str) + + res_df = df.iloc[slice(2, 4)] + tm.assert_frame_equal(res_df, exp_df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + res_df = df.iloc[[2, 3]] + tm.assert_frame_equal(res_df, exp_df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + res_col = df.iloc[:, 0] + tm.assert_series_equal(res_col, exp_col) + assert isinstance(res_col.dtype, CategoricalDtype) + + res_df = df.iloc[:, slice(0, 2)] + tm.assert_frame_equal(res_df, df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + res_df = df.iloc[:, [0, 1]] + tm.assert_frame_equal(res_df, df) + assert isinstance(res_df["cats"].dtype, CategoricalDtype) + + def test_slicing_doc_examples(self): + # GH 7918 + cats = Categorical( + ["a", "b", "b", "b", "c", "c", "c"], categories=["a", "b", "c"] + ) + idx = Index(["h", "i", "j", "k", "l", "m", "n"]) + values = [1, 2, 2, 2, 3, 4, 5] + df = DataFrame({"cats": cats, "values": values}, index=idx) + + result = df.iloc[2:4, :] + expected = DataFrame( + { + "cats": Categorical(["b", "b"], categories=["a", "b", "c"]), + "values": [2, 2], + }, + index=["j", "k"], + ) + tm.assert_frame_equal(result, expected) + + result = df.iloc[2:4, :].dtypes + expected = Series(["category", "int64"], ["cats", "values"], dtype=object) + tm.assert_series_equal(result, expected) + + result = df.loc["h":"j", "cats"] + expected = Series( + Categorical(["a", "b", "b"], categories=["a", "b", "c"]), + index=["h", "i", "j"], + name="cats", + ) + tm.assert_series_equal(result, expected) + + result = df.loc["h":"j", df.columns[0:1]] + expected = DataFrame( + {"cats": Categorical(["a", "b", "b"], categories=["a", "b", "c"])}, + index=["h", "i", "j"], + ) + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_listlike_labels(self, df): + # list of labels + result = df.loc[["c", "a"]] + expected = df.iloc[[4, 0, 1, 5]] + tm.assert_frame_equal(result, expected, check_index_type=True) + + def test_loc_getitem_listlike_unused_category(self, df2): + # GH#37901 a label that is in index.categories but not in index + # listlike containing an element in the categories but not in the values + with pytest.raises(KeyError, match=re.escape("['e'] not in index")): + df2.loc[["a", "b", "e"]] + + def test_loc_getitem_label_unused_category(self, df2): + # element in the categories but not in the values + with pytest.raises(KeyError, match=r"^'e'$"): + df2.loc["e"] + + def test_loc_getitem_non_category(self, df2): + # not all labels in the categories + with pytest.raises(KeyError, match=re.escape("['d'] not in index")): + df2.loc[["a", "d"]] + + def test_loc_setitem_expansion_label_unused_category(self, df2): + # assigning with a label that is in the categories but not in the index + df = df2.copy() + df.loc["e"] = 20 + result = df.loc[["a", "b", "e"]] + exp_index = CategoricalIndex(list("aaabbe"), categories=list("cabe"), name="B") + expected = DataFrame({"A": [0, 1, 5, 2, 3, 20]}, index=exp_index) + tm.assert_frame_equal(result, expected) + + def test_loc_listlike_dtypes(self): + # GH 11586 + + # unique categories and codes + index = CategoricalIndex(["a", "b", "c"]) + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}, index=index) + + # unique slice + res = df.loc[["a", "b"]] + exp_index = CategoricalIndex(["a", "b"], categories=index.categories) + exp = DataFrame({"A": [1, 2], "B": [4, 5]}, index=exp_index) + tm.assert_frame_equal(res, exp, check_index_type=True) + + # duplicated slice + res = df.loc[["a", "a", "b"]] + + exp_index = CategoricalIndex(["a", "a", "b"], categories=index.categories) + exp = DataFrame({"A": [1, 1, 2], "B": [4, 4, 5]}, index=exp_index) + tm.assert_frame_equal(res, exp, check_index_type=True) + + with pytest.raises(KeyError, match=re.escape("['x'] not in index")): + df.loc[["a", "x"]] + + def test_loc_listlike_dtypes_duplicated_categories_and_codes(self): + # duplicated categories and codes + index = CategoricalIndex(["a", "b", "a"]) + df = DataFrame({"A": [1, 2, 3], "B": [4, 5, 6]}, index=index) + + # unique slice + res = df.loc[["a", "b"]] + exp = DataFrame( + {"A": [1, 3, 2], "B": [4, 6, 5]}, index=CategoricalIndex(["a", "a", "b"]) + ) + tm.assert_frame_equal(res, exp, check_index_type=True) + + # duplicated slice + res = df.loc[["a", "a", "b"]] + exp = DataFrame( + {"A": [1, 3, 1, 3, 2], "B": [4, 6, 4, 6, 5]}, + index=CategoricalIndex(["a", "a", "a", "a", "b"]), + ) + tm.assert_frame_equal(res, exp, check_index_type=True) + + with pytest.raises(KeyError, match=re.escape("['x'] not in index")): + df.loc[["a", "x"]] + + def test_loc_listlike_dtypes_unused_category(self): + # contains unused category + index = CategoricalIndex(["a", "b", "a", "c"], categories=list("abcde")) + df = DataFrame({"A": [1, 2, 3, 4], "B": [5, 6, 7, 8]}, index=index) + + res = df.loc[["a", "b"]] + exp = DataFrame( + {"A": [1, 3, 2], "B": [5, 7, 6]}, + index=CategoricalIndex(["a", "a", "b"], categories=list("abcde")), + ) + tm.assert_frame_equal(res, exp, check_index_type=True) + + # duplicated slice + res = df.loc[["a", "a", "b"]] + exp = DataFrame( + {"A": [1, 3, 1, 3, 2], "B": [5, 7, 5, 7, 6]}, + index=CategoricalIndex(["a", "a", "a", "a", "b"], categories=list("abcde")), + ) + tm.assert_frame_equal(res, exp, check_index_type=True) + + with pytest.raises(KeyError, match=re.escape("['x'] not in index")): + df.loc[["a", "x"]] + + def test_loc_getitem_listlike_unused_category_raises_keyerror(self): + # key that is an *unused* category raises + index = CategoricalIndex(["a", "b", "a", "c"], categories=list("abcde")) + df = DataFrame({"A": [1, 2, 3, 4], "B": [5, 6, 7, 8]}, index=index) + + with pytest.raises(KeyError, match="e"): + # For comparison, check the scalar behavior + df.loc["e"] + + with pytest.raises(KeyError, match=re.escape("['e'] not in index")): + df.loc[["a", "e"]] + + def test_ix_categorical_index(self): + # GH 12531 + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=list("ABC"), + columns=list("XYZ"), + ) + cdf = df.copy() + cdf.index = CategoricalIndex(df.index) + cdf.columns = CategoricalIndex(df.columns) + + expect = Series(df.loc["A", :], index=cdf.columns, name="A") + tm.assert_series_equal(cdf.loc["A", :], expect) + + expect = Series(df.loc[:, "X"], index=cdf.index, name="X") + tm.assert_series_equal(cdf.loc[:, "X"], expect) + + exp_index = CategoricalIndex(list("AB"), categories=["A", "B", "C"]) + expect = DataFrame(df.loc[["A", "B"], :], columns=cdf.columns, index=exp_index) + tm.assert_frame_equal(cdf.loc[["A", "B"], :], expect) + + exp_columns = CategoricalIndex(list("XY"), categories=["X", "Y", "Z"]) + expect = DataFrame(df.loc[:, ["X", "Y"]], index=cdf.index, columns=exp_columns) + tm.assert_frame_equal(cdf.loc[:, ["X", "Y"]], expect) + + @pytest.mark.parametrize( + "infer_string", [False, pytest.param(True, marks=td.skip_if_no("pyarrow"))] + ) + def test_ix_categorical_index_non_unique(self, infer_string): + # non-unique + with option_context("future.infer_string", infer_string): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=list("ABA"), + columns=list("XYX"), + ) + cdf = df.copy() + cdf.index = CategoricalIndex(df.index) + cdf.columns = CategoricalIndex(df.columns) + + exp_index = CategoricalIndex(list("AA"), categories=["A", "B"]) + expect = DataFrame(df.loc["A", :], columns=cdf.columns, index=exp_index) + tm.assert_frame_equal(cdf.loc["A", :], expect) + + exp_columns = CategoricalIndex(list("XX"), categories=["X", "Y"]) + expect = DataFrame(df.loc[:, "X"], index=cdf.index, columns=exp_columns) + tm.assert_frame_equal(cdf.loc[:, "X"], expect) + + expect = DataFrame( + df.loc[["A", "B"], :], + columns=cdf.columns, + index=CategoricalIndex(list("AAB")), + ) + tm.assert_frame_equal(cdf.loc[["A", "B"], :], expect) + + expect = DataFrame( + df.loc[:, ["X", "Y"]], + index=cdf.index, + columns=CategoricalIndex(list("XXY")), + ) + tm.assert_frame_equal(cdf.loc[:, ["X", "Y"]], expect) + + def test_loc_slice(self, df): + # GH9748 + msg = ( + "cannot do slice indexing on CategoricalIndex with these " + r"indexers \[1\] of type int" + ) + with pytest.raises(TypeError, match=msg): + df.loc[1:5] + + result = df.loc["b":"c"] + expected = df.iloc[[2, 3, 4]] + tm.assert_frame_equal(result, expected) + + def test_loc_and_at_with_categorical_index(self): + # GH 20629 + df = DataFrame( + [[1, 2], [3, 4], [5, 6]], index=CategoricalIndex(["A", "B", "C"]) + ) + + s = df[0] + assert s.loc["A"] == 1 + assert s.at["A"] == 1 + + assert df.loc["B", 1] == 4 + assert df.at["B", 1] == 4 + + @pytest.mark.parametrize( + "idx_values", + [ + # python types + [1, 2, 3], + [-1, -2, -3], + [1.5, 2.5, 3.5], + [-1.5, -2.5, -3.5], + # numpy int/uint + *(np.array([1, 2, 3], dtype=dtype) for dtype in tm.ALL_INT_NUMPY_DTYPES), + # numpy floats + *(np.array([1.5, 2.5, 3.5], dtype=dtyp) for dtyp in tm.FLOAT_NUMPY_DTYPES), + # numpy object + np.array([1, "b", 3.5], dtype=object), + # pandas scalars + [Interval(1, 4), Interval(4, 6), Interval(6, 9)], + [Timestamp(2019, 1, 1), Timestamp(2019, 2, 1), Timestamp(2019, 3, 1)], + [Timedelta(1, "d"), Timedelta(2, "d"), Timedelta(3, "D")], + # pandas Integer arrays + *(pd.array([1, 2, 3], dtype=dtype) for dtype in tm.ALL_INT_EA_DTYPES), + # other pandas arrays + pd.IntervalIndex.from_breaks([1, 4, 6, 9]).array, + pd.date_range("2019-01-01", periods=3).array, + pd.timedelta_range(start="1d", periods=3).array, + ], + ) + def test_loc_getitem_with_non_string_categories(self, idx_values, ordered): + # GH-17569 + cat_idx = CategoricalIndex(idx_values, ordered=ordered) + df = DataFrame({"A": ["foo", "bar", "baz"]}, index=cat_idx) + sl = slice(idx_values[0], idx_values[1]) + + # scalar selection + result = df.loc[idx_values[0]] + expected = Series(["foo"], index=["A"], name=idx_values[0]) + tm.assert_series_equal(result, expected) + + # list selection + result = df.loc[idx_values[:2]] + expected = DataFrame(["foo", "bar"], index=cat_idx[:2], columns=["A"]) + tm.assert_frame_equal(result, expected) + + # slice selection + result = df.loc[sl] + expected = DataFrame(["foo", "bar"], index=cat_idx[:2], columns=["A"]) + tm.assert_frame_equal(result, expected) + + # scalar assignment + result = df.copy() + result.loc[idx_values[0]] = "qux" + expected = DataFrame({"A": ["qux", "bar", "baz"]}, index=cat_idx) + tm.assert_frame_equal(result, expected) + + # list assignment + result = df.copy() + result.loc[idx_values[:2], "A"] = ["qux", "qux2"] + expected = DataFrame({"A": ["qux", "qux2", "baz"]}, index=cat_idx) + tm.assert_frame_equal(result, expected) + + # slice assignment + result = df.copy() + result.loc[sl, "A"] = ["qux", "qux2"] + expected = DataFrame({"A": ["qux", "qux2", "baz"]}, index=cat_idx) + tm.assert_frame_equal(result, expected) + + def test_getitem_categorical_with_nan(self): + # GH#41933 + ci = CategoricalIndex(["A", "B", np.nan]) + + ser = Series(range(3), index=ci) + + assert ser[np.nan] == 2 + assert ser.loc[np.nan] == 2 + + df = DataFrame(ser) + assert df.loc[np.nan, 0] == 2 + assert df.loc[np.nan][0] == 2 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_chaining_and_caching.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_chaining_and_caching.py new file mode 100644 index 0000000000000000000000000000000000000000..b97df376ac47fd8b62f631e38133ae0c0251fd63 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_chaining_and_caching.py @@ -0,0 +1,647 @@ +from string import ascii_letters + +import numpy as np +import pytest + +from pandas.errors import ( + SettingWithCopyError, + SettingWithCopyWarning, +) +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + Timestamp, + date_range, + option_context, +) +import pandas._testing as tm + +msg = "A value is trying to be set on a copy of a slice from a DataFrame" + + +def random_text(nobs=100): + # Construct a DataFrame where each row is a random slice from 'letters' + idxs = np.random.default_rng(2).integers(len(ascii_letters), size=(nobs, 2)) + idxs.sort(axis=1) + strings = [ascii_letters[x[0] : x[1]] for x in idxs] + + return DataFrame(strings, columns=["letters"]) + + +class TestCaching: + def test_slice_consolidate_invalidate_item_cache(self, using_copy_on_write): + # this is chained assignment, but will 'work' + with option_context("chained_assignment", None): + # #3970 + df = DataFrame({"aa": np.arange(5), "bb": [2.2] * 5}) + + # Creates a second float block + df["cc"] = 0.0 + + # caches a reference to the 'bb' series + df["bb"] + + # Assignment to wrong series + with tm.raises_chained_assignment_error(): + df["bb"].iloc[0] = 0.17 + df._clear_item_cache() + if not using_copy_on_write: + tm.assert_almost_equal(df["bb"][0], 0.17) + else: + # with ArrayManager, parent is not mutated with chained assignment + tm.assert_almost_equal(df["bb"][0], 2.2) + + @pytest.mark.parametrize("do_ref", [True, False]) + def test_setitem_cache_updating(self, do_ref): + # GH 5424 + cont = ["one", "two", "three", "four", "five", "six", "seven"] + + df = DataFrame({"a": cont, "b": cont[3:] + cont[:3], "c": np.arange(7)}) + + # ref the cache + if do_ref: + df.loc[0, "c"] + + # set it + df.loc[7, "c"] = 1 + + assert df.loc[0, "c"] == 0.0 + assert df.loc[7, "c"] == 1.0 + + def test_setitem_cache_updating_slices( + self, using_copy_on_write, warn_copy_on_write + ): + # GH 7084 + # not updating cache on series setting with slices + expected = DataFrame( + {"A": [600, 600, 600]}, index=date_range("5/7/2014", "5/9/2014") + ) + out = DataFrame({"A": [0, 0, 0]}, index=date_range("5/7/2014", "5/9/2014")) + df = DataFrame({"C": ["A", "A", "A"], "D": [100, 200, 300]}) + + # loop through df to update out + six = Timestamp("5/7/2014") + eix = Timestamp("5/9/2014") + for ix, row in df.iterrows(): + out.loc[six:eix, row["C"]] = out.loc[six:eix, row["C"]] + row["D"] + + tm.assert_frame_equal(out, expected) + tm.assert_series_equal(out["A"], expected["A"]) + + # try via a chain indexing + # this actually works + out = DataFrame({"A": [0, 0, 0]}, index=date_range("5/7/2014", "5/9/2014")) + out_original = out.copy() + for ix, row in df.iterrows(): + v = out[row["C"]][six:eix] + row["D"] + with tm.raises_chained_assignment_error( + (ix == 0) or warn_copy_on_write or using_copy_on_write + ): + out[row["C"]][six:eix] = v + + if not using_copy_on_write: + tm.assert_frame_equal(out, expected) + tm.assert_series_equal(out["A"], expected["A"]) + else: + tm.assert_frame_equal(out, out_original) + tm.assert_series_equal(out["A"], out_original["A"]) + + out = DataFrame({"A": [0, 0, 0]}, index=date_range("5/7/2014", "5/9/2014")) + for ix, row in df.iterrows(): + out.loc[six:eix, row["C"]] += row["D"] + + tm.assert_frame_equal(out, expected) + tm.assert_series_equal(out["A"], expected["A"]) + + def test_altering_series_clears_parent_cache( + self, using_copy_on_write, warn_copy_on_write + ): + # GH #33675 + df = DataFrame([[1, 2], [3, 4]], index=["a", "b"], columns=["A", "B"]) + ser = df["A"] + + if using_copy_on_write or warn_copy_on_write: + assert "A" not in df._item_cache + else: + assert "A" in df._item_cache + + # Adding a new entry to ser swaps in a new array, so "A" needs to + # be removed from df._item_cache + ser["c"] = 5 + assert len(ser) == 3 + assert "A" not in df._item_cache + assert df["A"] is not ser + assert len(df["A"]) == 2 + + +class TestChaining: + def test_setitem_chained_setfault(self, using_copy_on_write): + # GH6026 + data = ["right", "left", "left", "left", "right", "left", "timeout"] + mdata = ["right", "left", "left", "left", "right", "left", "none"] + + df = DataFrame({"response": np.array(data)}) + mask = df.response == "timeout" + with tm.raises_chained_assignment_error(): + df.response[mask] = "none" + if using_copy_on_write: + tm.assert_frame_equal(df, DataFrame({"response": data})) + else: + tm.assert_frame_equal(df, DataFrame({"response": mdata})) + + recarray = np.rec.fromarrays([data], names=["response"]) + df = DataFrame(recarray) + mask = df.response == "timeout" + with tm.raises_chained_assignment_error(): + df.response[mask] = "none" + if using_copy_on_write: + tm.assert_frame_equal(df, DataFrame({"response": data})) + else: + tm.assert_frame_equal(df, DataFrame({"response": mdata})) + + df = DataFrame({"response": data, "response1": data}) + df_original = df.copy() + mask = df.response == "timeout" + with tm.raises_chained_assignment_error(): + df.response[mask] = "none" + if using_copy_on_write: + tm.assert_frame_equal(df, df_original) + else: + tm.assert_frame_equal(df, DataFrame({"response": mdata, "response1": data})) + + # GH 6056 + expected = DataFrame({"A": [np.nan, "bar", "bah", "foo", "bar"]}) + df = DataFrame({"A": np.array(["foo", "bar", "bah", "foo", "bar"])}) + with tm.raises_chained_assignment_error(): + df["A"].iloc[0] = np.nan + if using_copy_on_write: + expected = DataFrame({"A": ["foo", "bar", "bah", "foo", "bar"]}) + else: + expected = DataFrame({"A": [np.nan, "bar", "bah", "foo", "bar"]}) + result = df.head() + tm.assert_frame_equal(result, expected) + + df = DataFrame({"A": np.array(["foo", "bar", "bah", "foo", "bar"])}) + with tm.raises_chained_assignment_error(): + df.A.iloc[0] = np.nan + result = df.head() + tm.assert_frame_equal(result, expected) + + @pytest.mark.arm_slow + def test_detect_chained_assignment(self, using_copy_on_write): + with option_context("chained_assignment", "raise"): + # work with the chain + expected = DataFrame([[-5, 1], [-6, 3]], columns=list("AB")) + df = DataFrame( + np.arange(4).reshape(2, 2), columns=list("AB"), dtype="int64" + ) + df_original = df.copy() + assert df._is_copy is None + + with tm.raises_chained_assignment_error(): + df["A"][0] = -5 + with tm.raises_chained_assignment_error(): + df["A"][1] = -6 + if using_copy_on_write: + tm.assert_frame_equal(df, df_original) + else: + tm.assert_frame_equal(df, expected) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_raises( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + # test with the chaining + df = DataFrame( + { + "A": Series(range(2), dtype="int64"), + "B": np.array(np.arange(2, 4), dtype=np.float64), + } + ) + df_original = df.copy() + assert df._is_copy is None + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df["A"][0] = -5 + with tm.raises_chained_assignment_error(): + df["A"][1] = -6 + tm.assert_frame_equal(df, df_original) + elif warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df["A"][0] = -5 + with tm.raises_chained_assignment_error(): + df["A"][1] = np.nan + elif not using_array_manager: + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["A"][0] = -5 + + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["A"][1] = np.nan + + assert df["A"]._is_copy is None + else: + # INFO(ArrayManager) for ArrayManager it doesn't matter that it's + # a mixed dataframe + df["A"][0] = -5 + df["A"][1] = -6 + expected = DataFrame([[-5, 2], [-6, 3]], columns=list("AB")) + expected["B"] = expected["B"].astype("float64") + tm.assert_frame_equal(df, expected) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_fails( + self, using_copy_on_write, warn_copy_on_write + ): + # Using a copy (the chain), fails + df = DataFrame( + { + "A": Series(range(2), dtype="int64"), + "B": np.array(np.arange(2, 4), dtype=np.float64), + } + ) + + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df.loc[0]["A"] = -5 + else: + with pytest.raises(SettingWithCopyError, match=msg): + df.loc[0]["A"] = -5 + + @pytest.mark.arm_slow + def test_detect_chained_assignment_doc_example( + self, using_copy_on_write, warn_copy_on_write + ): + # Doc example + df = DataFrame( + { + "a": ["one", "one", "two", "three", "two", "one", "six"], + "c": Series(range(7), dtype="int64"), + } + ) + assert df._is_copy is None + + indexer = df.a.str.startswith("o") + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df[indexer]["c"] = 42 + else: + with pytest.raises(SettingWithCopyError, match=msg): + df[indexer]["c"] = 42 + + @pytest.mark.arm_slow + def test_detect_chained_assignment_object_dtype( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + expected = DataFrame({"A": [111, "bbb", "ccc"], "B": [1, 2, 3]}) + df = DataFrame( + {"A": Series(["aaa", "bbb", "ccc"], dtype=object), "B": [1, 2, 3]} + ) + df_original = df.copy() + + if not using_copy_on_write and not warn_copy_on_write: + with pytest.raises(SettingWithCopyError, match=msg): + df.loc[0]["A"] = 111 + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df["A"][0] = 111 + tm.assert_frame_equal(df, df_original) + elif warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df["A"][0] = 111 + tm.assert_frame_equal(df, expected) + elif not using_array_manager: + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["A"][0] = 111 + + df.loc[0, "A"] = 111 + tm.assert_frame_equal(df, expected) + else: + # INFO(ArrayManager) for ArrayManager it doesn't matter that it's + # a mixed dataframe + df["A"][0] = 111 + tm.assert_frame_equal(df, expected) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_is_copy_pickle(self): + # gh-5475: Make sure that is_copy is picked up reconstruction + df = DataFrame({"A": [1, 2]}) + assert df._is_copy is None + + with tm.ensure_clean("__tmp__pickle") as path: + df.to_pickle(path) + df2 = pd.read_pickle(path) + df2["B"] = df2["A"] + df2["B"] = df2["A"] + + @pytest.mark.arm_slow + def test_detect_chained_assignment_setting_entire_column(self): + # gh-5597: a spurious raise as we are setting the entire column here + + df = random_text(100000) + + # Always a copy + x = df.iloc[[0, 1, 2]] + assert x._is_copy is not None + + x = df.iloc[[0, 1, 2, 4]] + assert x._is_copy is not None + + # Explicitly copy + indexer = df.letters.apply(lambda x: len(x) > 10) + df = df.loc[indexer].copy() + + assert df._is_copy is None + df["letters"] = df["letters"].apply(str.lower) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_implicit_take(self): + # Implicitly take + df = random_text(100000) + indexer = df.letters.apply(lambda x: len(x) > 10) + df = df.loc[indexer] + + assert df._is_copy is not None + df["letters"] = df["letters"].apply(str.lower) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_implicit_take2( + self, using_copy_on_write, warn_copy_on_write + ): + if using_copy_on_write or warn_copy_on_write: + pytest.skip("_is_copy is not always set for CoW") + # Implicitly take 2 + df = random_text(100000) + indexer = df.letters.apply(lambda x: len(x) > 10) + + df = df.loc[indexer] + assert df._is_copy is not None + df.loc[:, "letters"] = df["letters"].apply(str.lower) + + # with the enforcement of #45333 in 2.0, the .loc[:, letters] setting + # is inplace, so df._is_copy remains non-None. + assert df._is_copy is not None + + df["letters"] = df["letters"].apply(str.lower) + assert df._is_copy is None + + @pytest.mark.arm_slow + def test_detect_chained_assignment_str(self): + df = random_text(100000) + indexer = df.letters.apply(lambda x: len(x) > 10) + df.loc[indexer, "letters"] = df.loc[indexer, "letters"].apply(str.lower) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_is_copy(self): + # an identical take, so no copy + df = DataFrame({"a": [1]}).dropna() + assert df._is_copy is None + df["a"] += 1 + + @pytest.mark.arm_slow + def test_detect_chained_assignment_sorting(self): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 4))) + ser = df.iloc[:, 0].sort_values() + + tm.assert_series_equal(ser, df.iloc[:, 0].sort_values()) + tm.assert_series_equal(ser, df[0].sort_values()) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_false_positives(self): + # see gh-6025: false positives + df = DataFrame({"column1": ["a", "a", "a"], "column2": [4, 8, 9]}) + str(df) + + df["column1"] = df["column1"] + "b" + str(df) + + df = df[df["column2"] != 8] + str(df) + + df["column1"] = df["column1"] + "c" + str(df) + + @pytest.mark.arm_slow + def test_detect_chained_assignment_undefined_column( + self, using_copy_on_write, warn_copy_on_write + ): + # from SO: + # https://stackoverflow.com/questions/24054495/potential-bug-setting-value-for-undefined-column-using-iloc + df = DataFrame(np.arange(0, 9), columns=["count"]) + df["group"] = "b" + df_original = df.copy() + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df.iloc[0:5]["group"] = "a" + tm.assert_frame_equal(df, df_original) + elif warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df.iloc[0:5]["group"] = "a" + else: + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df.iloc[0:5]["group"] = "a" + + @pytest.mark.arm_slow + def test_detect_chained_assignment_changing_dtype( + self, using_array_manager, using_copy_on_write, warn_copy_on_write + ): + # Mixed type setting but same dtype & changing dtype + df = DataFrame( + { + "A": date_range("20130101", periods=5), + "B": np.random.default_rng(2).standard_normal(5), + "C": np.arange(5, dtype="int64"), + "D": ["a", "b", "c", "d", "e"], + } + ) + df_original = df.copy() + + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df.loc[2]["D"] = "foo" + with tm.raises_chained_assignment_error(): + df.loc[2]["C"] = "foo" + tm.assert_frame_equal(df, df_original) + with tm.raises_chained_assignment_error(extra_warnings=(FutureWarning,)): + df["C"][2] = "foo" + if using_copy_on_write: + tm.assert_frame_equal(df, df_original) + else: + assert df.loc[2, "C"] == "foo" + else: + with pytest.raises(SettingWithCopyError, match=msg): + df.loc[2]["D"] = "foo" + + with pytest.raises(SettingWithCopyError, match=msg): + df.loc[2]["C"] = "foo" + + if not using_array_manager: + with pytest.raises(SettingWithCopyError, match=msg): + with tm.raises_chained_assignment_error(): + df["C"][2] = "foo" + else: + # INFO(ArrayManager) for ArrayManager it doesn't matter if it's + # changing the dtype or not + df["C"][2] = "foo" + assert df.loc[2, "C"] == "foo" + + def test_setting_with_copy_bug(self, using_copy_on_write, warn_copy_on_write): + # operating on a copy + df = DataFrame( + {"a": list(range(4)), "b": list("ab.."), "c": ["a", "b", np.nan, "d"]} + ) + df_original = df.copy() + mask = pd.isna(df.c) + + if using_copy_on_write: + with tm.raises_chained_assignment_error(): + df[["c"]][mask] = df[["b"]][mask] + tm.assert_frame_equal(df, df_original) + elif warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df[["c"]][mask] = df[["b"]][mask] + else: + with pytest.raises(SettingWithCopyError, match=msg): + df[["c"]][mask] = df[["b"]][mask] + + def test_setting_with_copy_bug_no_warning(self): + # invalid warning as we are returning a new object + # GH 8730 + df1 = DataFrame({"x": Series(["a", "b", "c"]), "y": Series(["d", "e", "f"])}) + df2 = df1[["x"]] + + # this should not raise + df2["y"] = ["g", "h", "i"] + + def test_detect_chained_assignment_warnings_errors( + self, using_copy_on_write, warn_copy_on_write + ): + df = DataFrame({"A": ["aaa", "bbb", "ccc"], "B": [1, 2, 3]}) + if using_copy_on_write or warn_copy_on_write: + with tm.raises_chained_assignment_error(): + df.loc[0]["A"] = 111 + return + + with option_context("chained_assignment", "warn"): + with tm.assert_produces_warning(SettingWithCopyWarning): + df.loc[0]["A"] = 111 + + with option_context("chained_assignment", "raise"): + with pytest.raises(SettingWithCopyError, match=msg): + df.loc[0]["A"] = 111 + + @pytest.mark.parametrize("rhs", [3, DataFrame({0: [1, 2, 3, 4]})]) + def test_detect_chained_assignment_warning_stacklevel( + self, rhs, using_copy_on_write, warn_copy_on_write + ): + # GH#42570 + df = DataFrame(np.arange(25).reshape(5, 5)) + df_original = df.copy() + chained = df.loc[:3] + with option_context("chained_assignment", "warn"): + if not using_copy_on_write and not warn_copy_on_write: + with tm.assert_produces_warning(SettingWithCopyWarning) as t: + chained[2] = rhs + assert t[0].filename == __file__ + else: + # INFO(CoW) no warning, and original dataframe not changed + chained[2] = rhs + tm.assert_frame_equal(df, df_original) + + # TODO(ArrayManager) fast_xs with array-like scalars is not yet working + @td.skip_array_manager_not_yet_implemented + def test_chained_getitem_with_lists(self): + # GH6394 + # Regression in chained getitem indexing with embedded list-like from + # 0.12 + + df = DataFrame({"A": 5 * [np.zeros(3)], "B": 5 * [np.ones(3)]}) + expected = df["A"].iloc[2] + result = df.loc[2, "A"] + tm.assert_numpy_array_equal(result, expected) + result2 = df.iloc[2]["A"] + tm.assert_numpy_array_equal(result2, expected) + result3 = df["A"].loc[2] + tm.assert_numpy_array_equal(result3, expected) + result4 = df["A"].iloc[2] + tm.assert_numpy_array_equal(result4, expected) + + def test_cache_updating(self): + # GH 4939, make sure to update the cache on setitem + + df = DataFrame( + np.zeros((10, 4)), + columns=Index(list("ABCD"), dtype=object), + ) + df["A"] # cache series + df.loc["Hello Friend"] = df.iloc[0] + assert "Hello Friend" in df["A"].index + assert "Hello Friend" in df["B"].index + + def test_cache_updating2(self, using_copy_on_write): + # 10264 + df = DataFrame( + np.zeros((5, 5), dtype="int64"), + columns=["a", "b", "c", "d", "e"], + index=range(5), + ) + df["f"] = 0 + df_orig = df.copy() + if using_copy_on_write: + with pytest.raises(ValueError, match="read-only"): + df.f.values[3] = 1 + tm.assert_frame_equal(df, df_orig) + return + + df.f.values[3] = 1 + + df.f.values[3] = 2 + expected = DataFrame( + np.zeros((5, 6), dtype="int64"), + columns=["a", "b", "c", "d", "e", "f"], + index=range(5), + ) + expected.at[3, "f"] = 2 + tm.assert_frame_equal(df, expected) + expected = Series([0, 0, 0, 2, 0], name="f") + tm.assert_series_equal(df.f, expected) + + def test_iloc_setitem_chained_assignment(self, using_copy_on_write): + # GH#3970 + with option_context("chained_assignment", None): + df = DataFrame({"aa": range(5), "bb": [2.2] * 5}) + df["cc"] = 0.0 + + ck = [True] * len(df) + + with tm.raises_chained_assignment_error(): + df["bb"].iloc[0] = 0.13 + + # GH#3970 this lookup used to break the chained setting to 0.15 + df.iloc[ck] + + with tm.raises_chained_assignment_error(): + df["bb"].iloc[0] = 0.15 + + if not using_copy_on_write: + assert df["bb"].iloc[0] == 0.15 + else: + assert df["bb"].iloc[0] == 2.2 + + def test_getitem_loc_assignment_slice_state(self): + # GH 13569 + df = DataFrame({"a": [10, 20, 30]}) + with tm.raises_chained_assignment_error(): + df["a"].loc[4] = 40 + tm.assert_frame_equal(df, DataFrame({"a": [10, 20, 30]})) + tm.assert_series_equal(df["a"], Series([10, 20, 30], name="a")) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_check_indexer.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_check_indexer.py new file mode 100644 index 0000000000000000000000000000000000000000..975a31b873792c6afe59a23e5fef43b56ce7e46e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_check_indexer.py @@ -0,0 +1,105 @@ +import numpy as np +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.api.indexers import check_array_indexer + + +@pytest.mark.parametrize( + "indexer, expected", + [ + # integer + ([1, 2], np.array([1, 2], dtype=np.intp)), + (np.array([1, 2], dtype="int64"), np.array([1, 2], dtype=np.intp)), + (pd.array([1, 2], dtype="Int32"), np.array([1, 2], dtype=np.intp)), + (pd.Index([1, 2]), np.array([1, 2], dtype=np.intp)), + # boolean + ([True, False, True], np.array([True, False, True], dtype=np.bool_)), + (np.array([True, False, True]), np.array([True, False, True], dtype=np.bool_)), + ( + pd.array([True, False, True], dtype="boolean"), + np.array([True, False, True], dtype=np.bool_), + ), + # other + ([], np.array([], dtype=np.intp)), + ], +) +def test_valid_input(indexer, expected): + arr = np.array([1, 2, 3]) + result = check_array_indexer(arr, indexer) + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "indexer", [[True, False, None], pd.array([True, False, None], dtype="boolean")] +) +def test_boolean_na_returns_indexer(indexer): + # https://github.com/pandas-dev/pandas/issues/31503 + arr = np.array([1, 2, 3]) + + result = check_array_indexer(arr, indexer) + expected = np.array([True, False, False], dtype=bool) + + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize( + "indexer", + [ + [True, False], + pd.array([True, False], dtype="boolean"), + np.array([True, False], dtype=np.bool_), + ], +) +def test_bool_raise_length(indexer): + arr = np.array([1, 2, 3]) + + msg = "Boolean index has wrong length" + with pytest.raises(IndexError, match=msg): + check_array_indexer(arr, indexer) + + +@pytest.mark.parametrize( + "indexer", [[0, 1, None], pd.array([0, 1, pd.NA], dtype="Int64")] +) +def test_int_raise_missing_values(indexer): + arr = np.array([1, 2, 3]) + + msg = "Cannot index with an integer indexer containing NA values" + with pytest.raises(ValueError, match=msg): + check_array_indexer(arr, indexer) + + +@pytest.mark.parametrize( + "indexer", + [ + [0.0, 1.0], + np.array([1.0, 2.0], dtype="float64"), + np.array([True, False], dtype=object), + pd.Index([True, False], dtype=object), + ], +) +def test_raise_invalid_array_dtypes(indexer): + arr = np.array([1, 2, 3]) + + msg = "arrays used as indices must be of integer or boolean type" + with pytest.raises(IndexError, match=msg): + check_array_indexer(arr, indexer) + + +def test_raise_nullable_string_dtype(nullable_string_dtype): + indexer = pd.array(["a", "b"], dtype=nullable_string_dtype) + arr = np.array([1, 2, 3]) + + msg = "arrays used as indices must be of integer or boolean type" + with pytest.raises(IndexError, match=msg): + check_array_indexer(arr, indexer) + + +@pytest.mark.parametrize("indexer", [None, Ellipsis, slice(0, 3), (None,)]) +def test_pass_through_non_array_likes(indexer): + arr = np.array([1, 2, 3]) + + result = check_array_indexer(arr, indexer) + assert result == indexer diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_coercion.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_coercion.py new file mode 100644 index 0000000000000000000000000000000000000000..ecc640cfd05712e4367d46fcc5160cf0112f510b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_coercion.py @@ -0,0 +1,941 @@ +from __future__ import annotations + +from datetime import ( + datetime, + timedelta, +) +import itertools + +import numpy as np +import pytest + +from pandas.compat import ( + IS64, + is_platform_windows, +) +from pandas.compat.numpy import np_version_gt2 + +import pandas as pd +import pandas._testing as tm + +############################################################### +# Index / Series common tests which may trigger dtype coercions +############################################################### + + +@pytest.fixture(autouse=True, scope="class") +def check_comprehensiveness(request): + # Iterate over combination of dtype, method and klass + # and ensure that each are contained within a collected test + cls = request.cls + combos = itertools.product(cls.klasses, cls.dtypes, [cls.method]) + + def has_test(combo): + klass, dtype, method = combo + cls_funcs = request.node.session.items + return any( + klass in x.name and dtype in x.name and method in x.name for x in cls_funcs + ) + + opts = request.config.option + if opts.lf or opts.keyword: + # If we are running with "last-failed" or -k foo, we expect to only + # run a subset of tests. + yield + + else: + for combo in combos: + if not has_test(combo): + raise AssertionError( + f"test method is not defined: {cls.__name__}, {combo}" + ) + + yield + + +class CoercionBase: + klasses = ["index", "series"] + dtypes = [ + "object", + "int64", + "float64", + "complex128", + "bool", + "datetime64", + "datetime64tz", + "timedelta64", + "period", + ] + + @property + def method(self): + raise NotImplementedError(self) + + +class TestSetitemCoercion(CoercionBase): + method = "setitem" + + # disable comprehensiveness tests, as most of these have been moved to + # tests.series.indexing.test_setitem in SetitemCastingEquivalents subclasses. + klasses: list[str] = [] + + def test_setitem_series_no_coercion_from_values_list(self): + # GH35865 - int casted to str when internally calling np.array(ser.values) + ser = pd.Series(["a", 1]) + ser[:] = list(ser.values) + + expected = pd.Series(["a", 1]) + + tm.assert_series_equal(ser, expected) + + def _assert_setitem_index_conversion( + self, original_series, loc_key, expected_index, expected_dtype + ): + """test index's coercion triggered by assign key""" + temp = original_series.copy() + # GH#33469 pre-2.0 with int loc_key and temp.index.dtype == np.float64 + # `temp[loc_key] = 5` treated loc_key as positional + temp[loc_key] = 5 + exp = pd.Series([1, 2, 3, 4, 5], index=expected_index) + tm.assert_series_equal(temp, exp) + # check dtype explicitly for sure + assert temp.index.dtype == expected_dtype + + temp = original_series.copy() + temp.loc[loc_key] = 5 + exp = pd.Series([1, 2, 3, 4, 5], index=expected_index) + tm.assert_series_equal(temp, exp) + # check dtype explicitly for sure + assert temp.index.dtype == expected_dtype + + @pytest.mark.parametrize( + "val,exp_dtype", [("x", object), (5, IndexError), (1.1, object)] + ) + def test_setitem_index_object(self, val, exp_dtype): + obj = pd.Series([1, 2, 3, 4], index=pd.Index(list("abcd"), dtype=object)) + assert obj.index.dtype == object + + if exp_dtype is IndexError: + temp = obj.copy() + warn_msg = "Series.__setitem__ treating keys as positions is deprecated" + msg = "index 5 is out of bounds for axis 0 with size 4" + with pytest.raises(exp_dtype, match=msg): + with tm.assert_produces_warning(FutureWarning, match=warn_msg): + temp[5] = 5 + else: + exp_index = pd.Index(list("abcd") + [val], dtype=object) + self._assert_setitem_index_conversion(obj, val, exp_index, exp_dtype) + + @pytest.mark.parametrize( + "val,exp_dtype", [(5, np.int64), (1.1, np.float64), ("x", object)] + ) + def test_setitem_index_int64(self, val, exp_dtype): + obj = pd.Series([1, 2, 3, 4]) + assert obj.index.dtype == np.int64 + + exp_index = pd.Index([0, 1, 2, 3, val]) + self._assert_setitem_index_conversion(obj, val, exp_index, exp_dtype) + + @pytest.mark.parametrize( + "val,exp_dtype", [(5, np.float64), (5.1, np.float64), ("x", object)] + ) + def test_setitem_index_float64(self, val, exp_dtype, request): + obj = pd.Series([1, 2, 3, 4], index=[1.1, 2.1, 3.1, 4.1]) + assert obj.index.dtype == np.float64 + + exp_index = pd.Index([1.1, 2.1, 3.1, 4.1, val]) + self._assert_setitem_index_conversion(obj, val, exp_index, exp_dtype) + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_series_period(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_complex128(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_bool(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_datetime64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_datetime64tz(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_timedelta64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_setitem_index_period(self): + raise NotImplementedError + + +class TestInsertIndexCoercion(CoercionBase): + klasses = ["index"] + method = "insert" + + def _assert_insert_conversion(self, original, value, expected, expected_dtype): + """test coercion triggered by insert""" + target = original.copy() + res = target.insert(1, value) + tm.assert_index_equal(res, expected) + assert res.dtype == expected_dtype + + @pytest.mark.parametrize( + "insert, coerced_val, coerced_dtype", + [ + (1, 1, object), + (1.1, 1.1, object), + (False, False, object), + ("x", "x", object), + ], + ) + def test_insert_index_object(self, insert, coerced_val, coerced_dtype): + obj = pd.Index(list("abcd"), dtype=object) + assert obj.dtype == object + + exp = pd.Index(["a", coerced_val, "b", "c", "d"], dtype=object) + self._assert_insert_conversion(obj, insert, exp, coerced_dtype) + + @pytest.mark.parametrize( + "insert, coerced_val, coerced_dtype", + [ + (1, 1, None), + (1.1, 1.1, np.float64), + (False, False, object), # GH#36319 + ("x", "x", object), + ], + ) + def test_insert_int_index( + self, any_int_numpy_dtype, insert, coerced_val, coerced_dtype + ): + dtype = any_int_numpy_dtype + obj = pd.Index([1, 2, 3, 4], dtype=dtype) + coerced_dtype = coerced_dtype if coerced_dtype is not None else dtype + + exp = pd.Index([1, coerced_val, 2, 3, 4], dtype=coerced_dtype) + self._assert_insert_conversion(obj, insert, exp, coerced_dtype) + + @pytest.mark.parametrize( + "insert, coerced_val, coerced_dtype", + [ + (1, 1.0, None), + # When float_numpy_dtype=float32, this is not the case + # see the correction below + (1.1, 1.1, np.float64), + (False, False, object), # GH#36319 + ("x", "x", object), + ], + ) + def test_insert_float_index( + self, float_numpy_dtype, insert, coerced_val, coerced_dtype + ): + dtype = float_numpy_dtype + obj = pd.Index([1.0, 2.0, 3.0, 4.0], dtype=dtype) + coerced_dtype = coerced_dtype if coerced_dtype is not None else dtype + + if np_version_gt2 and dtype == "float32" and coerced_val == 1.1: + # Hack, in the 2nd test case, since 1.1 can be losslessly cast to float32 + # the expected dtype will be float32 if the original dtype was float32 + coerced_dtype = np.float32 + exp = pd.Index([1.0, coerced_val, 2.0, 3.0, 4.0], dtype=coerced_dtype) + self._assert_insert_conversion(obj, insert, exp, coerced_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [ + (pd.Timestamp("2012-01-01"), "datetime64[ns]"), + (pd.Timestamp("2012-01-01", tz="US/Eastern"), "datetime64[ns, US/Eastern]"), + ], + ids=["datetime64", "datetime64tz"], + ) + @pytest.mark.parametrize( + "insert_value", + [pd.Timestamp("2012-01-01"), pd.Timestamp("2012-01-01", tz="Asia/Tokyo"), 1], + ) + def test_insert_index_datetimes(self, fill_val, exp_dtype, insert_value): + obj = pd.DatetimeIndex( + ["2011-01-01", "2011-01-02", "2011-01-03", "2011-01-04"], tz=fill_val.tz + ).as_unit("ns") + assert obj.dtype == exp_dtype + + exp = pd.DatetimeIndex( + ["2011-01-01", fill_val.date(), "2011-01-02", "2011-01-03", "2011-01-04"], + tz=fill_val.tz, + ).as_unit("ns") + self._assert_insert_conversion(obj, fill_val, exp, exp_dtype) + + if fill_val.tz: + # mismatched tzawareness + ts = pd.Timestamp("2012-01-01") + result = obj.insert(1, ts) + expected = obj.astype(object).insert(1, ts) + assert expected.dtype == object + tm.assert_index_equal(result, expected) + + ts = pd.Timestamp("2012-01-01", tz="Asia/Tokyo") + result = obj.insert(1, ts) + # once deprecation is enforced: + expected = obj.insert(1, ts.tz_convert(obj.dtype.tz)) + assert expected.dtype == obj.dtype + tm.assert_index_equal(result, expected) + + else: + # mismatched tzawareness + ts = pd.Timestamp("2012-01-01", tz="Asia/Tokyo") + result = obj.insert(1, ts) + expected = obj.astype(object).insert(1, ts) + assert expected.dtype == object + tm.assert_index_equal(result, expected) + + item = 1 + result = obj.insert(1, item) + expected = obj.astype(object).insert(1, item) + assert expected[1] == item + assert expected.dtype == object + tm.assert_index_equal(result, expected) + + def test_insert_index_timedelta64(self): + obj = pd.TimedeltaIndex(["1 day", "2 day", "3 day", "4 day"]) + assert obj.dtype == "timedelta64[ns]" + + # timedelta64 + timedelta64 => timedelta64 + exp = pd.TimedeltaIndex(["1 day", "10 day", "2 day", "3 day", "4 day"]) + self._assert_insert_conversion( + obj, pd.Timedelta("10 day"), exp, "timedelta64[ns]" + ) + + for item in [pd.Timestamp("2012-01-01"), 1]: + result = obj.insert(1, item) + expected = obj.astype(object).insert(1, item) + assert expected.dtype == object + tm.assert_index_equal(result, expected) + + @pytest.mark.parametrize( + "insert, coerced_val, coerced_dtype", + [ + (pd.Period("2012-01", freq="M"), "2012-01", "period[M]"), + (pd.Timestamp("2012-01-01"), pd.Timestamp("2012-01-01"), object), + (1, 1, object), + ("x", "x", object), + ], + ) + def test_insert_index_period(self, insert, coerced_val, coerced_dtype): + obj = pd.PeriodIndex(["2011-01", "2011-02", "2011-03", "2011-04"], freq="M") + assert obj.dtype == "period[M]" + + data = [ + pd.Period("2011-01", freq="M"), + coerced_val, + pd.Period("2011-02", freq="M"), + pd.Period("2011-03", freq="M"), + pd.Period("2011-04", freq="M"), + ] + if isinstance(insert, pd.Period): + exp = pd.PeriodIndex(data, freq="M") + self._assert_insert_conversion(obj, insert, exp, coerced_dtype) + + # string that can be parsed to appropriate PeriodDtype + self._assert_insert_conversion(obj, str(insert), exp, coerced_dtype) + + else: + result = obj.insert(0, insert) + expected = obj.astype(object).insert(0, insert) + tm.assert_index_equal(result, expected) + + # TODO: ATM inserting '2012-01-01 00:00:00' when we have obj.freq=="M" + # casts that string to Period[M], not clear that is desirable + if not isinstance(insert, pd.Timestamp): + # non-castable string + result = obj.insert(0, str(insert)) + expected = obj.astype(object).insert(0, str(insert)) + tm.assert_index_equal(result, expected) + + @pytest.mark.xfail(reason="Test not implemented") + def test_insert_index_complex128(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_insert_index_bool(self): + raise NotImplementedError + + +class TestWhereCoercion(CoercionBase): + method = "where" + _cond = np.array([True, False, True, False]) + + def _assert_where_conversion( + self, original, cond, values, expected, expected_dtype + ): + """test coercion triggered by where""" + target = original.copy() + res = target.where(cond, values) + tm.assert_equal(res, expected) + assert res.dtype == expected_dtype + + def _construct_exp(self, obj, klass, fill_val, exp_dtype): + if fill_val is True: + values = klass([True, False, True, True]) + elif isinstance(fill_val, (datetime, np.datetime64)): + values = pd.date_range(fill_val, periods=4) + else: + values = klass(x * fill_val for x in [5, 6, 7, 8]) + + exp = klass([obj[0], values[1], obj[2], values[3]], dtype=exp_dtype) + return values, exp + + def _run_test(self, obj, fill_val, klass, exp_dtype): + cond = klass(self._cond) + + exp = klass([obj[0], fill_val, obj[2], fill_val], dtype=exp_dtype) + self._assert_where_conversion(obj, cond, fill_val, exp, exp_dtype) + + values, exp = self._construct_exp(obj, klass, fill_val, exp_dtype) + self._assert_where_conversion(obj, cond, values, exp, exp_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [(1, object), (1.1, object), (1 + 1j, object), (True, object)], + ) + def test_where_object(self, index_or_series, fill_val, exp_dtype): + klass = index_or_series + obj = klass(list("abcd"), dtype=object) + assert obj.dtype == object + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [(1, np.int64), (1.1, np.float64), (1 + 1j, np.complex128), (True, object)], + ) + def test_where_int64(self, index_or_series, fill_val, exp_dtype, request): + klass = index_or_series + + obj = klass([1, 2, 3, 4]) + assert obj.dtype == np.int64 + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.parametrize( + "fill_val, exp_dtype", + [(1, np.float64), (1.1, np.float64), (1 + 1j, np.complex128), (True, object)], + ) + def test_where_float64(self, index_or_series, fill_val, exp_dtype, request): + klass = index_or_series + + obj = klass([1.1, 2.2, 3.3, 4.4]) + assert obj.dtype == np.float64 + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [ + (1, np.complex128), + (1.1, np.complex128), + (1 + 1j, np.complex128), + (True, object), + ], + ) + def test_where_complex128(self, index_or_series, fill_val, exp_dtype): + klass = index_or_series + obj = klass([1 + 1j, 2 + 2j, 3 + 3j, 4 + 4j], dtype=np.complex128) + assert obj.dtype == np.complex128 + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [(1, object), (1.1, object), (1 + 1j, object), (True, np.bool_)], + ) + def test_where_series_bool(self, index_or_series, fill_val, exp_dtype): + klass = index_or_series + + obj = klass([True, False, True, False]) + assert obj.dtype == np.bool_ + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.parametrize( + "fill_val,exp_dtype", + [ + (pd.Timestamp("2012-01-01"), "datetime64[ns]"), + (pd.Timestamp("2012-01-01", tz="US/Eastern"), object), + ], + ids=["datetime64", "datetime64tz"], + ) + def test_where_datetime64(self, index_or_series, fill_val, exp_dtype): + klass = index_or_series + + obj = klass(pd.date_range("2011-01-01", periods=4, freq="D")._with_freq(None)) + assert obj.dtype == "datetime64[ns]" + + fv = fill_val + # do the check with each of the available datetime scalars + if exp_dtype == "datetime64[ns]": + for scalar in [fv, fv.to_pydatetime(), fv.to_datetime64()]: + self._run_test(obj, scalar, klass, exp_dtype) + else: + for scalar in [fv, fv.to_pydatetime()]: + self._run_test(obj, fill_val, klass, exp_dtype) + + @pytest.mark.xfail(reason="Test not implemented") + def test_where_index_complex128(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_where_index_bool(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_where_series_timedelta64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_where_series_period(self): + raise NotImplementedError + + @pytest.mark.parametrize( + "value", [pd.Timedelta(days=9), timedelta(days=9), np.timedelta64(9, "D")] + ) + def test_where_index_timedelta64(self, value): + tdi = pd.timedelta_range("1 Day", periods=4) + cond = np.array([True, False, False, True]) + + expected = pd.TimedeltaIndex(["1 Day", value, value, "4 Days"]) + result = tdi.where(cond, value) + tm.assert_index_equal(result, expected) + + # wrong-dtyped NaT + dtnat = np.datetime64("NaT", "ns") + expected = pd.Index([tdi[0], dtnat, dtnat, tdi[3]], dtype=object) + assert expected[1] is dtnat + + result = tdi.where(cond, dtnat) + tm.assert_index_equal(result, expected) + + def test_where_index_period(self): + dti = pd.date_range("2016-01-01", periods=3, freq="QS") + pi = dti.to_period("Q") + + cond = np.array([False, True, False]) + + # Passing a valid scalar + value = pi[-1] + pi.freq * 10 + expected = pd.PeriodIndex([value, pi[1], value]) + result = pi.where(cond, value) + tm.assert_index_equal(result, expected) + + # Case passing ndarray[object] of Periods + other = np.asarray(pi + pi.freq * 10, dtype=object) + result = pi.where(cond, other) + expected = pd.PeriodIndex([other[0], pi[1], other[2]]) + tm.assert_index_equal(result, expected) + + # Passing a mismatched scalar -> casts to object + td = pd.Timedelta(days=4) + expected = pd.Index([td, pi[1], td], dtype=object) + result = pi.where(cond, td) + tm.assert_index_equal(result, expected) + + per = pd.Period("2020-04-21", "D") + expected = pd.Index([per, pi[1], per], dtype=object) + result = pi.where(cond, per) + tm.assert_index_equal(result, expected) + + +class TestFillnaSeriesCoercion(CoercionBase): + # not indexing, but place here for consistency + + method = "fillna" + + @pytest.mark.xfail(reason="Test not implemented") + def test_has_comprehensive_tests(self): + raise NotImplementedError + + def _assert_fillna_conversion(self, original, value, expected, expected_dtype): + """test coercion triggered by fillna""" + target = original.copy() + res = target.fillna(value) + tm.assert_equal(res, expected) + assert res.dtype == expected_dtype + + @pytest.mark.parametrize( + "fill_val, fill_dtype", + [(1, object), (1.1, object), (1 + 1j, object), (True, object)], + ) + def test_fillna_object(self, index_or_series, fill_val, fill_dtype): + klass = index_or_series + obj = klass(["a", np.nan, "c", "d"], dtype=object) + assert obj.dtype == object + + exp = klass(["a", fill_val, "c", "d"], dtype=object) + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.parametrize( + "fill_val,fill_dtype", + [(1, np.float64), (1.1, np.float64), (1 + 1j, np.complex128), (True, object)], + ) + def test_fillna_float64(self, index_or_series, fill_val, fill_dtype): + klass = index_or_series + obj = klass([1.1, np.nan, 3.3, 4.4]) + assert obj.dtype == np.float64 + + exp = klass([1.1, fill_val, 3.3, 4.4]) + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.parametrize( + "fill_val,fill_dtype", + [ + (1, np.complex128), + (1.1, np.complex128), + (1 + 1j, np.complex128), + (True, object), + ], + ) + def test_fillna_complex128(self, index_or_series, fill_val, fill_dtype): + klass = index_or_series + obj = klass([1 + 1j, np.nan, 3 + 3j, 4 + 4j], dtype=np.complex128) + assert obj.dtype == np.complex128 + + exp = klass([1 + 1j, fill_val, 3 + 3j, 4 + 4j]) + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.parametrize( + "fill_val,fill_dtype", + [ + (pd.Timestamp("2012-01-01"), "datetime64[ns]"), + (pd.Timestamp("2012-01-01", tz="US/Eastern"), object), + (1, object), + ("x", object), + ], + ids=["datetime64", "datetime64tz", "object", "object"], + ) + def test_fillna_datetime(self, index_or_series, fill_val, fill_dtype): + klass = index_or_series + obj = klass( + [ + pd.Timestamp("2011-01-01"), + pd.NaT, + pd.Timestamp("2011-01-03"), + pd.Timestamp("2011-01-04"), + ] + ) + assert obj.dtype == "datetime64[ns]" + + exp = klass( + [ + pd.Timestamp("2011-01-01"), + fill_val, + pd.Timestamp("2011-01-03"), + pd.Timestamp("2011-01-04"), + ] + ) + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.parametrize( + "fill_val,fill_dtype", + [ + (pd.Timestamp("2012-01-01", tz="US/Eastern"), "datetime64[ns, US/Eastern]"), + (pd.Timestamp("2012-01-01"), object), + # pre-2.0 with a mismatched tz we would get object result + (pd.Timestamp("2012-01-01", tz="Asia/Tokyo"), "datetime64[ns, US/Eastern]"), + (1, object), + ("x", object), + ], + ) + def test_fillna_datetime64tz(self, index_or_series, fill_val, fill_dtype): + klass = index_or_series + tz = "US/Eastern" + + obj = klass( + [ + pd.Timestamp("2011-01-01", tz=tz), + pd.NaT, + pd.Timestamp("2011-01-03", tz=tz), + pd.Timestamp("2011-01-04", tz=tz), + ] + ) + assert obj.dtype == "datetime64[ns, US/Eastern]" + + if getattr(fill_val, "tz", None) is None: + fv = fill_val + else: + fv = fill_val.tz_convert(tz) + exp = klass( + [ + pd.Timestamp("2011-01-01", tz=tz), + fv, + pd.Timestamp("2011-01-03", tz=tz), + pd.Timestamp("2011-01-04", tz=tz), + ] + ) + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.parametrize( + "fill_val", + [ + 1, + 1.1, + 1 + 1j, + True, + pd.Interval(1, 2, closed="left"), + pd.Timestamp("2012-01-01", tz="US/Eastern"), + pd.Timestamp("2012-01-01"), + pd.Timedelta(days=1), + pd.Period("2016-01-01", "D"), + ], + ) + def test_fillna_interval(self, index_or_series, fill_val): + ii = pd.interval_range(1.0, 5.0, closed="right").insert(1, np.nan) + assert isinstance(ii.dtype, pd.IntervalDtype) + obj = index_or_series(ii) + + exp = index_or_series([ii[0], fill_val, ii[2], ii[3], ii[4]], dtype=object) + + fill_dtype = object + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_series_int64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_index_int64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_series_bool(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_index_bool(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_series_timedelta64(self): + raise NotImplementedError + + @pytest.mark.parametrize( + "fill_val", + [ + 1, + 1.1, + 1 + 1j, + True, + pd.Interval(1, 2, closed="left"), + pd.Timestamp("2012-01-01", tz="US/Eastern"), + pd.Timestamp("2012-01-01"), + pd.Timedelta(days=1), + pd.Period("2016-01-01", "W"), + ], + ) + def test_fillna_series_period(self, index_or_series, fill_val): + pi = pd.period_range("2016-01-01", periods=4, freq="D").insert(1, pd.NaT) + assert isinstance(pi.dtype, pd.PeriodDtype) + obj = index_or_series(pi) + + exp = index_or_series([pi[0], fill_val, pi[2], pi[3], pi[4]], dtype=object) + + fill_dtype = object + self._assert_fillna_conversion(obj, fill_val, exp, fill_dtype) + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_index_timedelta64(self): + raise NotImplementedError + + @pytest.mark.xfail(reason="Test not implemented") + def test_fillna_index_period(self): + raise NotImplementedError + + +class TestReplaceSeriesCoercion(CoercionBase): + klasses = ["series"] + method = "replace" + + rep: dict[str, list] = {} + rep["object"] = ["a", "b"] + rep["int64"] = [4, 5] + rep["float64"] = [1.1, 2.2] + rep["complex128"] = [1 + 1j, 2 + 2j] + rep["bool"] = [True, False] + rep["datetime64[ns]"] = [pd.Timestamp("2011-01-01"), pd.Timestamp("2011-01-03")] + + for tz in ["UTC", "US/Eastern"]: + # to test tz => different tz replacement + key = f"datetime64[ns, {tz}]" + rep[key] = [ + pd.Timestamp("2011-01-01", tz=tz), + pd.Timestamp("2011-01-03", tz=tz), + ] + + rep["timedelta64[ns]"] = [pd.Timedelta("1 day"), pd.Timedelta("2 day")] + + @pytest.fixture(params=["dict", "series"]) + def how(self, request): + return request.param + + @pytest.fixture( + params=[ + "object", + "int64", + "float64", + "complex128", + "bool", + "datetime64[ns]", + "datetime64[ns, UTC]", + "datetime64[ns, US/Eastern]", + "timedelta64[ns]", + ] + ) + def from_key(self, request): + return request.param + + @pytest.fixture( + params=[ + "object", + "int64", + "float64", + "complex128", + "bool", + "datetime64[ns]", + "datetime64[ns, UTC]", + "datetime64[ns, US/Eastern]", + "timedelta64[ns]", + ], + ids=[ + "object", + "int64", + "float64", + "complex128", + "bool", + "datetime64", + "datetime64tz", + "datetime64tz", + "timedelta64", + ], + ) + def to_key(self, request): + return request.param + + @pytest.fixture + def replacer(self, how, from_key, to_key): + """ + Object we will pass to `Series.replace` + """ + if how == "dict": + replacer = dict(zip(self.rep[from_key], self.rep[to_key])) + elif how == "series": + replacer = pd.Series(self.rep[to_key], index=self.rep[from_key]) + else: + raise ValueError + return replacer + + def test_replace_series(self, how, to_key, from_key, replacer, using_infer_string): + index = pd.Index([3, 4], name="xxx") + obj = pd.Series(self.rep[from_key], index=index, name="yyy") + obj = obj.astype(from_key) + assert obj.dtype == from_key + + if from_key.startswith("datetime") and to_key.startswith("datetime"): + # tested below + return + elif from_key in ["datetime64[ns, US/Eastern]", "datetime64[ns, UTC]"]: + # tested below + return + + if (from_key == "float64" and to_key in ("int64")) or ( + from_key == "complex128" and to_key in ("int64", "float64") + ): + if not IS64 or is_platform_windows(): + pytest.skip(f"32-bit platform buggy: {from_key} -> {to_key}") + + # Expected: do not downcast by replacement + exp = pd.Series(self.rep[to_key], index=index, name="yyy", dtype=from_key) + + else: + exp = pd.Series(self.rep[to_key], index=index, name="yyy") + + if using_infer_string and exp.dtype == "string": + # with infer_string, we disable the deprecated downcasting behavior + exp = exp.astype(object) + + msg = "Downcasting behavior in `replace`" + warn = FutureWarning + if ( + exp.dtype == obj.dtype + or exp.dtype == object + or (exp.dtype.kind in "iufc" and obj.dtype.kind in "iufc") + ): + warn = None + with tm.assert_produces_warning(warn, match=msg): + result = obj.replace(replacer) + + tm.assert_series_equal(result, exp) + + @pytest.mark.parametrize( + "to_key", + ["timedelta64[ns]", "bool", "object", "complex128", "float64", "int64"], + indirect=True, + ) + @pytest.mark.parametrize( + "from_key", ["datetime64[ns, UTC]", "datetime64[ns, US/Eastern]"], indirect=True + ) + def test_replace_series_datetime_tz( + self, how, to_key, from_key, replacer, using_infer_string + ): + index = pd.Index([3, 4], name="xyz") + obj = pd.Series(self.rep[from_key], index=index, name="yyy") + assert obj.dtype == from_key + + exp = pd.Series(self.rep[to_key], index=index, name="yyy") + if using_infer_string and exp.dtype == "string": + # with infer_string, we disable the deprecated downcasting behavior + exp = exp.astype(object) + else: + assert exp.dtype == to_key + + msg = "Downcasting behavior in `replace`" + warn = FutureWarning if exp.dtype != object else None + with tm.assert_produces_warning(warn, match=msg): + result = obj.replace(replacer) + + tm.assert_series_equal(result, exp) + + @pytest.mark.parametrize( + "to_key", + ["datetime64[ns]", "datetime64[ns, UTC]", "datetime64[ns, US/Eastern]"], + indirect=True, + ) + @pytest.mark.parametrize( + "from_key", + ["datetime64[ns]", "datetime64[ns, UTC]", "datetime64[ns, US/Eastern]"], + indirect=True, + ) + def test_replace_series_datetime_datetime(self, how, to_key, from_key, replacer): + index = pd.Index([3, 4], name="xyz") + obj = pd.Series(self.rep[from_key], index=index, name="yyy") + assert obj.dtype == from_key + + exp = pd.Series(self.rep[to_key], index=index, name="yyy") + warn = FutureWarning + if isinstance(obj.dtype, pd.DatetimeTZDtype) and isinstance( + exp.dtype, pd.DatetimeTZDtype + ): + # with mismatched tzs, we retain the original dtype as of 2.0 + exp = exp.astype(obj.dtype) + warn = None + else: + assert exp.dtype == to_key + if to_key == from_key: + warn = None + + msg = "Downcasting behavior in `replace`" + with tm.assert_produces_warning(warn, match=msg): + result = obj.replace(replacer) + + tm.assert_series_equal(result, exp) + + @pytest.mark.xfail(reason="Test not implemented") + def test_replace_series_period(self): + raise NotImplementedError diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_datetime.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_datetime.py new file mode 100644 index 0000000000000000000000000000000000000000..af7533399ea74afb5a5d2b14d2d37d2194926114 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_datetime.py @@ -0,0 +1,191 @@ +import re + +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Series, + Timestamp, + date_range, +) +import pandas._testing as tm + + +class TestDatetimeIndex: + def test_get_loc_naive_dti_aware_str_deprecated(self): + # GH#46903 + ts = Timestamp("20130101")._value + dti = pd.DatetimeIndex([ts + 50 + i for i in range(100)]) + ser = Series(range(100), index=dti) + + key = "2013-01-01 00:00:00.000000050+0000" + msg = re.escape(repr(key)) + with pytest.raises(KeyError, match=msg): + ser[key] + + with pytest.raises(KeyError, match=msg): + dti.get_loc(key) + + def test_indexing_with_datetime_tz(self): + # GH#8260 + # support datetime64 with tz + + idx = Index(date_range("20130101", periods=3, tz="US/Eastern"), name="foo") + dr = date_range("20130110", periods=3) + df = DataFrame({"A": idx, "B": dr}) + df["C"] = idx + df.iloc[1, 1] = pd.NaT + df.iloc[1, 2] = pd.NaT + + expected = Series( + [Timestamp("2013-01-02 00:00:00-0500", tz="US/Eastern"), pd.NaT, pd.NaT], + index=list("ABC"), + dtype="object", + name=1, + ) + + # indexing + result = df.iloc[1] + tm.assert_series_equal(result, expected) + result = df.loc[1] + tm.assert_series_equal(result, expected) + + def test_indexing_fast_xs(self): + # indexing - fast_xs + df = DataFrame({"a": date_range("2014-01-01", periods=10, tz="UTC")}) + result = df.iloc[5] + expected = Series( + [Timestamp("2014-01-06 00:00:00+0000", tz="UTC")], + index=["a"], + name=5, + dtype="M8[ns, UTC]", + ) + tm.assert_series_equal(result, expected) + + result = df.loc[5] + tm.assert_series_equal(result, expected) + + # indexing - boolean + result = df[df.a > df.a[3]] + expected = df.iloc[4:] + tm.assert_frame_equal(result, expected) + + def test_consistency_with_tz_aware_scalar(self): + # xef gh-12938 + # various ways of indexing the same tz-aware scalar + df = Series([Timestamp("2016-03-30 14:35:25", tz="Europe/Brussels")]).to_frame() + + df = pd.concat([df, df]).reset_index(drop=True) + expected = Timestamp("2016-03-30 14:35:25+0200", tz="Europe/Brussels") + + result = df[0][0] + assert result == expected + + result = df.iloc[0, 0] + assert result == expected + + result = df.loc[0, 0] + assert result == expected + + result = df.iat[0, 0] + assert result == expected + + result = df.at[0, 0] + assert result == expected + + result = df[0].loc[0] + assert result == expected + + result = df[0].at[0] + assert result == expected + + def test_indexing_with_datetimeindex_tz(self, indexer_sl): + # GH 12050 + # indexing on a series with a datetimeindex with tz + index = date_range("2015-01-01", periods=2, tz="utc") + + ser = Series(range(2), index=index, dtype="int64") + + # list-like indexing + + for sel in (index, list(index)): + # getitem + result = indexer_sl(ser)[sel] + expected = ser.copy() + if sel is not index: + expected.index = expected.index._with_freq(None) + tm.assert_series_equal(result, expected) + + # setitem + result = ser.copy() + indexer_sl(result)[sel] = 1 + expected = Series(1, index=index) + tm.assert_series_equal(result, expected) + + # single element indexing + + # getitem + assert indexer_sl(ser)[index[1]] == 1 + + # setitem + result = ser.copy() + indexer_sl(result)[index[1]] = 5 + expected = Series([0, 5], index=index) + tm.assert_series_equal(result, expected) + + def test_nanosecond_getitem_setitem_with_tz(self): + # GH 11679 + data = ["2016-06-28 08:30:00.123456789"] + index = pd.DatetimeIndex(data, dtype="datetime64[ns, America/Chicago]") + df = DataFrame({"a": [10]}, index=index) + result = df.loc[df.index[0]] + expected = Series(10, index=["a"], name=df.index[0]) + tm.assert_series_equal(result, expected) + + result = df.copy() + result.loc[df.index[0], "a"] = -1 + expected = DataFrame(-1, index=index, columns=["a"]) + tm.assert_frame_equal(result, expected) + + def test_getitem_str_slice_millisecond_resolution(self, frame_or_series): + # GH#33589 + + keys = [ + "2017-10-25T16:25:04.151", + "2017-10-25T16:25:04.252", + "2017-10-25T16:50:05.237", + "2017-10-25T16:50:05.238", + ] + obj = frame_or_series( + [1, 2, 3, 4], + index=[Timestamp(x) for x in keys], + ) + result = obj[keys[1] : keys[2]] + expected = frame_or_series( + [2, 3], + index=[ + Timestamp(keys[1]), + Timestamp(keys[2]), + ], + ) + tm.assert_equal(result, expected) + + def test_getitem_pyarrow_index(self, frame_or_series): + # GH 53644 + pytest.importorskip("pyarrow") + obj = frame_or_series( + range(5), + index=date_range("2020", freq="D", periods=5).astype( + "timestamp[us][pyarrow]" + ), + ) + result = obj.loc[obj.index[:-3]] + expected = frame_or_series( + range(2), + index=date_range("2020", freq="D", periods=2).astype( + "timestamp[us][pyarrow]" + ), + ) + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_floats.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_floats.py new file mode 100644 index 0000000000000000000000000000000000000000..1fe431e12f2a18207c8d8714abc15ef5495f89bb --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_floats.py @@ -0,0 +1,689 @@ +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Index, + RangeIndex, + Series, + date_range, + period_range, + timedelta_range, +) +import pandas._testing as tm + + +def gen_obj(klass, index): + if klass is Series: + obj = Series(np.arange(len(index)), index=index) + else: + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(index), len(index))), + index=index, + columns=index, + ) + return obj + + +class TestFloatIndexers: + def check(self, result, original, indexer, getitem): + """ + comparator for results + we need to take care if we are indexing on a + Series or a frame + """ + if isinstance(original, Series): + expected = original.iloc[indexer] + elif getitem: + expected = original.iloc[:, indexer] + else: + expected = original.iloc[indexer] + + tm.assert_almost_equal(result, expected) + + @pytest.mark.parametrize( + "index", + [ + Index(list("abcde")), + Index(list("abcde"), dtype="category"), + date_range("2020-01-01", periods=5), + timedelta_range("1 day", periods=5), + period_range("2020-01-01", periods=5), + ], + ) + def test_scalar_non_numeric(self, index, frame_or_series, indexer_sl): + # GH 4892 + # float_indexers should raise exceptions + # on appropriate Index types & accessors + + s = gen_obj(frame_or_series, index) + + # getting + with pytest.raises(KeyError, match="^3.0$"): + indexer_sl(s)[3.0] + + # contains + assert 3.0 not in s + + s2 = s.copy() + indexer_sl(s2)[3.0] = 10 + + if indexer_sl is tm.setitem: + assert 3.0 in s2.axes[-1] + elif indexer_sl is tm.loc: + assert 3.0 in s2.axes[0] + else: + assert 3.0 not in s2.axes[0] + assert 3.0 not in s2.axes[-1] + + @pytest.mark.parametrize( + "index", + [ + Index(list("abcde")), + Index(list("abcde"), dtype="category"), + date_range("2020-01-01", periods=5), + timedelta_range("1 day", periods=5), + period_range("2020-01-01", periods=5), + ], + ) + def test_scalar_non_numeric_series_fallback(self, index): + # fallsback to position selection, series only + s = Series(np.arange(len(index)), index=index) + + msg = "Series.__getitem__ treating keys as positions is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + s[3] + with pytest.raises(KeyError, match="^3.0$"): + s[3.0] + + def test_scalar_with_mixed(self, indexer_sl): + s2 = Series([1, 2, 3], index=["a", "b", "c"]) + s3 = Series([1, 2, 3], index=["a", "b", 1.5]) + + # lookup in a pure string index with an invalid indexer + + with pytest.raises(KeyError, match="^1.0$"): + indexer_sl(s2)[1.0] + + with pytest.raises(KeyError, match=r"^1\.0$"): + indexer_sl(s2)[1.0] + + result = indexer_sl(s2)["b"] + expected = 2 + assert result == expected + + # mixed index so we have label + # indexing + with pytest.raises(KeyError, match="^1.0$"): + indexer_sl(s3)[1.0] + + if indexer_sl is not tm.loc: + # __getitem__ falls back to positional + msg = "Series.__getitem__ treating keys as positions is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + result = s3[1] + expected = 2 + assert result == expected + + with pytest.raises(KeyError, match=r"^1\.0$"): + indexer_sl(s3)[1.0] + + result = indexer_sl(s3)[1.5] + expected = 3 + assert result == expected + + @pytest.mark.parametrize( + "index", [Index(np.arange(5), dtype=np.int64), RangeIndex(5)] + ) + def test_scalar_integer(self, index, frame_or_series, indexer_sl): + getitem = indexer_sl is not tm.loc + + # test how scalar float indexers work on int indexes + + # integer index + i = index + obj = gen_obj(frame_or_series, i) + + # coerce to equal int + + result = indexer_sl(obj)[3.0] + self.check(result, obj, 3, getitem) + + if isinstance(obj, Series): + + def compare(x, y): + assert x == y + + expected = 100 + else: + compare = tm.assert_series_equal + if getitem: + expected = Series(100, index=range(len(obj)), name=3) + else: + expected = Series(100.0, index=range(len(obj)), name=3) + + s2 = obj.copy() + indexer_sl(s2)[3.0] = 100 + + result = indexer_sl(s2)[3.0] + compare(result, expected) + + result = indexer_sl(s2)[3] + compare(result, expected) + + @pytest.mark.parametrize( + "index", [Index(np.arange(5), dtype=np.int64), RangeIndex(5)] + ) + def test_scalar_integer_contains_float(self, index, frame_or_series): + # contains + # integer index + obj = gen_obj(frame_or_series, index) + + # coerce to equal int + assert 3.0 in obj + + def test_scalar_float(self, frame_or_series): + # scalar float indexers work on a float index + index = Index(np.arange(5.0)) + s = gen_obj(frame_or_series, index) + + # assert all operations except for iloc are ok + indexer = index[3] + for idxr in [tm.loc, tm.setitem]: + getitem = idxr is not tm.loc + + # getting + result = idxr(s)[indexer] + self.check(result, s, 3, getitem) + + # setting + s2 = s.copy() + + result = idxr(s2)[indexer] + self.check(result, s, 3, getitem) + + # random float is a KeyError + with pytest.raises(KeyError, match=r"^3\.5$"): + idxr(s)[3.5] + + # contains + assert 3.0 in s + + # iloc succeeds with an integer + expected = s.iloc[3] + s2 = s.copy() + + s2.iloc[3] = expected + result = s2.iloc[3] + self.check(result, s, 3, False) + + @pytest.mark.parametrize( + "index", + [ + Index(list("abcde"), dtype=object), + date_range("2020-01-01", periods=5), + timedelta_range("1 day", periods=5), + period_range("2020-01-01", periods=5), + ], + ) + @pytest.mark.parametrize("idx", [slice(3.0, 4), slice(3, 4.0), slice(3.0, 4.0)]) + def test_slice_non_numeric(self, index, idx, frame_or_series, indexer_sli): + # GH 4892 + # float_indexers should raise exceptions + # on appropriate Index types & accessors + + s = gen_obj(frame_or_series, index) + + # getitem + if indexer_sli is tm.iloc: + msg = ( + "cannot do positional indexing " + rf"on {type(index).__name__} with these indexers \[(3|4)\.0\] of " + "type float" + ) + else: + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers " + r"\[(3|4)(\.0)?\] " + r"of type (float|int)" + ) + with pytest.raises(TypeError, match=msg): + indexer_sli(s)[idx] + + # setitem + if indexer_sli is tm.iloc: + # otherwise we keep the same message as above + msg = "slice indices must be integers or None or have an __index__ method" + with pytest.raises(TypeError, match=msg): + indexer_sli(s)[idx] = 0 + + def test_slice_integer(self): + # same as above, but for Integer based indexes + # these coerce to a like integer + # oob indicates if we are out of bounds + # of positional indexing + for index, oob in [ + (Index(np.arange(5, dtype=np.int64)), False), + (RangeIndex(5), False), + (Index(np.arange(5, dtype=np.int64) + 10), True), + ]: + # s is an in-range index + s = Series(range(5), index=index) + + # getitem + for idx in [slice(3.0, 4), slice(3, 4.0), slice(3.0, 4.0)]: + result = s.loc[idx] + + # these are all label indexing + # except getitem which is positional + # empty + if oob: + indexer = slice(0, 0) + else: + indexer = slice(3, 5) + self.check(result, s, indexer, False) + + # getitem out-of-bounds + for idx in [slice(-6, 6), slice(-6.0, 6.0)]: + result = s.loc[idx] + + # these are all label indexing + # except getitem which is positional + # empty + if oob: + indexer = slice(0, 0) + else: + indexer = slice(-6, 6) + self.check(result, s, indexer, False) + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[-6\.0\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[slice(-6.0, 6.0)] + + # getitem odd floats + for idx, res1 in [ + (slice(2.5, 4), slice(3, 5)), + (slice(2, 3.5), slice(2, 4)), + (slice(2.5, 3.5), slice(3, 4)), + ]: + result = s.loc[idx] + if oob: + res = slice(0, 0) + else: + res = res1 + + self.check(result, s, res, False) + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[(2|3)\.5\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[idx] + + @pytest.mark.parametrize("idx", [slice(2, 4.0), slice(2.0, 4), slice(2.0, 4.0)]) + def test_integer_positional_indexing(self, idx): + """make sure that we are raising on positional indexing + w.r.t. an integer index + """ + s = Series(range(2, 6), index=range(2, 6)) + + result = s[2:4] + expected = s.iloc[2:4] + tm.assert_series_equal(result, expected) + + klass = RangeIndex + msg = ( + "cannot do (slice|positional) indexing " + rf"on {klass.__name__} with these indexers \[(2|4)\.0\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[idx] + with pytest.raises(TypeError, match=msg): + s.iloc[idx] + + @pytest.mark.parametrize( + "index", [Index(np.arange(5), dtype=np.int64), RangeIndex(5)] + ) + def test_slice_integer_frame_getitem(self, index): + # similar to above, but on the getitem dim (of a DataFrame) + s = DataFrame(np.random.default_rng(2).standard_normal((5, 2)), index=index) + + # getitem + for idx in [slice(0.0, 1), slice(0, 1.0), slice(0.0, 1.0)]: + result = s.loc[idx] + indexer = slice(0, 2) + self.check(result, s, indexer, False) + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[(0|1)\.0\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[idx] + + # getitem out-of-bounds + for idx in [slice(-10, 10), slice(-10.0, 10.0)]: + result = s.loc[idx] + self.check(result, s, slice(-10, 10), True) + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[-10\.0\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[slice(-10.0, 10.0)] + + # getitem odd floats + for idx, res in [ + (slice(0.5, 1), slice(1, 2)), + (slice(0, 0.5), slice(0, 1)), + (slice(0.5, 1.5), slice(1, 2)), + ]: + result = s.loc[idx] + self.check(result, s, res, False) + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[0\.5\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[idx] + + @pytest.mark.parametrize("idx", [slice(3.0, 4), slice(3, 4.0), slice(3.0, 4.0)]) + @pytest.mark.parametrize( + "index", [Index(np.arange(5), dtype=np.int64), RangeIndex(5)] + ) + def test_float_slice_getitem_with_integer_index_raises(self, idx, index): + # similar to above, but on the getitem dim (of a DataFrame) + s = DataFrame(np.random.default_rng(2).standard_normal((5, 2)), index=index) + + # setitem + sc = s.copy() + sc.loc[idx] = 0 + result = sc.loc[idx].values.ravel() + assert (result == 0).all() + + # positional indexing + msg = ( + "cannot do slice indexing " + rf"on {type(index).__name__} with these indexers \[(3|4)\.0\] of " + "type float" + ) + with pytest.raises(TypeError, match=msg): + s[idx] = 0 + + with pytest.raises(TypeError, match=msg): + s[idx] + + @pytest.mark.parametrize("idx", [slice(3.0, 4), slice(3, 4.0), slice(3.0, 4.0)]) + def test_slice_float(self, idx, frame_or_series, indexer_sl): + # same as above, but for floats + index = Index(np.arange(5.0)) + 0.1 + s = gen_obj(frame_or_series, index) + + expected = s.iloc[3:4] + + # getitem + result = indexer_sl(s)[idx] + assert isinstance(result, type(s)) + tm.assert_equal(result, expected) + + # setitem + s2 = s.copy() + indexer_sl(s2)[idx] = 0 + result = indexer_sl(s2)[idx].values.ravel() + assert (result == 0).all() + + def test_floating_index_doc_example(self): + index = Index([1.5, 2, 3, 4.5, 5]) + s = Series(range(5), index=index) + assert s[3] == 2 + assert s.loc[3] == 2 + assert s.iloc[3] == 3 + + def test_floating_misc(self, indexer_sl): + # related 236 + # scalar/slicing of a float index + s = Series(np.arange(5), index=np.arange(5) * 2.5, dtype=np.int64) + + # label based slicing + result = indexer_sl(s)[1.0:3.0] + expected = Series(1, index=[2.5]) + tm.assert_series_equal(result, expected) + + # exact indexing when found + + result = indexer_sl(s)[5.0] + assert result == 2 + + result = indexer_sl(s)[5] + assert result == 2 + + # value not found (and no fallbacking at all) + + # scalar integers + with pytest.raises(KeyError, match=r"^4$"): + indexer_sl(s)[4] + + # fancy floats/integers create the correct entry (as nan) + # fancy tests + expected = Series([2, 0], index=Index([5.0, 0.0], dtype=np.float64)) + for fancy_idx in [[5.0, 0.0], np.array([5.0, 0.0])]: # float + tm.assert_series_equal(indexer_sl(s)[fancy_idx], expected) + + expected = Series([2, 0], index=Index([5, 0], dtype="float64")) + for fancy_idx in [[5, 0], np.array([5, 0])]: + tm.assert_series_equal(indexer_sl(s)[fancy_idx], expected) + + warn = FutureWarning if indexer_sl is tm.setitem else None + msg = r"The behavior of obj\[i:j\] with a float-dtype index" + + # all should return the same as we are slicing 'the same' + with tm.assert_produces_warning(warn, match=msg): + result1 = indexer_sl(s)[2:5] + result2 = indexer_sl(s)[2.0:5.0] + result3 = indexer_sl(s)[2.0:5] + result4 = indexer_sl(s)[2.1:5] + tm.assert_series_equal(result1, result2) + tm.assert_series_equal(result1, result3) + tm.assert_series_equal(result1, result4) + + expected = Series([1, 2], index=[2.5, 5.0]) + with tm.assert_produces_warning(warn, match=msg): + result = indexer_sl(s)[2:5] + + tm.assert_series_equal(result, expected) + + # list selection + result1 = indexer_sl(s)[[0.0, 5, 10]] + result2 = s.iloc[[0, 2, 4]] + tm.assert_series_equal(result1, result2) + + with pytest.raises(KeyError, match="not in index"): + indexer_sl(s)[[1.6, 5, 10]] + + with pytest.raises(KeyError, match="not in index"): + indexer_sl(s)[[0, 1, 2]] + + result = indexer_sl(s)[[2.5, 5]] + tm.assert_series_equal(result, Series([1, 2], index=[2.5, 5.0])) + + result = indexer_sl(s)[[2.5]] + tm.assert_series_equal(result, Series([1], index=[2.5])) + + def test_floatindex_slicing_bug(self, float_numpy_dtype): + # GH 5557, related to slicing a float index + dtype = float_numpy_dtype + ser = { + 256: 2321.0, + 1: 78.0, + 2: 2716.0, + 3: 0.0, + 4: 369.0, + 5: 0.0, + 6: 269.0, + 7: 0.0, + 8: 0.0, + 9: 0.0, + 10: 3536.0, + 11: 0.0, + 12: 24.0, + 13: 0.0, + 14: 931.0, + 15: 0.0, + 16: 101.0, + 17: 78.0, + 18: 9643.0, + 19: 0.0, + 20: 0.0, + 21: 0.0, + 22: 63761.0, + 23: 0.0, + 24: 446.0, + 25: 0.0, + 26: 34773.0, + 27: 0.0, + 28: 729.0, + 29: 78.0, + 30: 0.0, + 31: 0.0, + 32: 3374.0, + 33: 0.0, + 34: 1391.0, + 35: 0.0, + 36: 361.0, + 37: 0.0, + 38: 61808.0, + 39: 0.0, + 40: 0.0, + 41: 0.0, + 42: 6677.0, + 43: 0.0, + 44: 802.0, + 45: 0.0, + 46: 2691.0, + 47: 0.0, + 48: 3582.0, + 49: 0.0, + 50: 734.0, + 51: 0.0, + 52: 627.0, + 53: 70.0, + 54: 2584.0, + 55: 0.0, + 56: 324.0, + 57: 0.0, + 58: 605.0, + 59: 0.0, + 60: 0.0, + 61: 0.0, + 62: 3989.0, + 63: 10.0, + 64: 42.0, + 65: 0.0, + 66: 904.0, + 67: 0.0, + 68: 88.0, + 69: 70.0, + 70: 8172.0, + 71: 0.0, + 72: 0.0, + 73: 0.0, + 74: 64902.0, + 75: 0.0, + 76: 347.0, + 77: 0.0, + 78: 36605.0, + 79: 0.0, + 80: 379.0, + 81: 70.0, + 82: 0.0, + 83: 0.0, + 84: 3001.0, + 85: 0.0, + 86: 1630.0, + 87: 7.0, + 88: 364.0, + 89: 0.0, + 90: 67404.0, + 91: 9.0, + 92: 0.0, + 93: 0.0, + 94: 7685.0, + 95: 0.0, + 96: 1017.0, + 97: 0.0, + 98: 2831.0, + 99: 0.0, + 100: 2963.0, + 101: 0.0, + 102: 854.0, + 103: 0.0, + 104: 0.0, + 105: 0.0, + 106: 0.0, + 107: 0.0, + 108: 0.0, + 109: 0.0, + 110: 0.0, + 111: 0.0, + 112: 0.0, + 113: 0.0, + 114: 0.0, + 115: 0.0, + 116: 0.0, + 117: 0.0, + 118: 0.0, + 119: 0.0, + 120: 0.0, + 121: 0.0, + 122: 0.0, + 123: 0.0, + 124: 0.0, + 125: 0.0, + 126: 67744.0, + 127: 22.0, + 128: 264.0, + 129: 0.0, + 260: 197.0, + 268: 0.0, + 265: 0.0, + 269: 0.0, + 261: 0.0, + 266: 1198.0, + 267: 0.0, + 262: 2629.0, + 258: 775.0, + 257: 0.0, + 263: 0.0, + 259: 0.0, + 264: 163.0, + 250: 10326.0, + 251: 0.0, + 252: 1228.0, + 253: 0.0, + 254: 2769.0, + 255: 0.0, + } + + # smoke test for the repr + s = Series(ser, dtype=dtype) + result = s.value_counts() + assert result.index.dtype == dtype + str(result) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iat.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iat.py new file mode 100644 index 0000000000000000000000000000000000000000..5b8c4f2d4b9b97228eb768797b224cedffb239a8 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iat.py @@ -0,0 +1,53 @@ +import numpy as np + +from pandas import ( + DataFrame, + Series, + period_range, +) +import pandas._testing as tm + + +def test_iat(float_frame): + for i, row in enumerate(float_frame.index): + for j, col in enumerate(float_frame.columns): + result = float_frame.iat[i, j] + expected = float_frame.at[row, col] + assert result == expected + + +def test_iat_duplicate_columns(): + # https://github.com/pandas-dev/pandas/issues/11754 + df = DataFrame([[1, 2]], columns=["x", "x"]) + assert df.iat[0, 0] == 1 + + +def test_iat_getitem_series_with_period_index(): + # GH#4390, iat incorrectly indexing + index = period_range("1/1/2001", periods=10) + ser = Series(np.random.default_rng(2).standard_normal(10), index=index) + expected = ser[index[0]] + result = ser.iat[0] + assert expected == result + + +def test_iat_setitem_item_cache_cleared( + indexer_ial, using_copy_on_write, warn_copy_on_write +): + # GH#45684 + data = {"x": np.arange(8, dtype=np.int64), "y": np.int64(0)} + df = DataFrame(data).copy() + ser = df["y"] + + # previously this iat setting would split the block and fail to clear + # the item_cache. + with tm.assert_cow_warning(warn_copy_on_write): + indexer_ial(df)[7, 0] = 9999 + + with tm.assert_cow_warning(warn_copy_on_write): + indexer_ial(df)[7, 1] = 1234 + + assert df.iat[7, 1] == 1234 + if not using_copy_on_write: + assert ser.iloc[-1] == 1234 + assert df.iloc[-1, -1] == 1234 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iloc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iloc.py new file mode 100644 index 0000000000000000000000000000000000000000..c2742f42e3a92f504418adcf87ad4b4c8ae83d65 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_iloc.py @@ -0,0 +1,1484 @@ +""" test positional based indexing with iloc """ + +from datetime import datetime +import re + +import numpy as np +import pytest + +from pandas.errors import IndexingError +import pandas.util._test_decorators as td + +from pandas import ( + NA, + Categorical, + CategoricalDtype, + DataFrame, + Index, + Interval, + NaT, + Series, + Timestamp, + array, + concat, + date_range, + interval_range, + isna, + to_datetime, +) +import pandas._testing as tm +from pandas.api.types import is_scalar +from pandas.tests.indexing.common import check_indexing_smoketest_or_raises + +# We pass through the error message from numpy +_slice_iloc_msg = re.escape( + "only integers, slices (`:`), ellipsis (`...`), numpy.newaxis (`None`) " + "and integer or boolean arrays are valid indices" +) + + +class TestiLoc: + @pytest.mark.parametrize("key", [2, -1, [0, 1, 2]]) + @pytest.mark.parametrize("kind", ["series", "frame"]) + @pytest.mark.parametrize( + "col", + ["labels", "mixed", "ts", "floats", "empty"], + ) + def test_iloc_getitem_int_and_list_int(self, key, kind, col, request): + obj = request.getfixturevalue(f"{kind}_{col}") + check_indexing_smoketest_or_raises( + obj, + "iloc", + key, + fails=IndexError, + ) + + # array of ints (GH5006), make sure that a single indexer is returning + # the correct type + + +class TestiLocBaseIndependent: + """Tests Independent Of Base Class""" + + @pytest.mark.parametrize( + "key", + [ + slice(None), + slice(3), + range(3), + [0, 1, 2], + Index(range(3)), + np.asarray([0, 1, 2]), + ], + ) + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_iloc_setitem_fullcol_categorical(self, indexer, key, using_array_manager): + frame = DataFrame({0: range(3)}, dtype=object) + + cat = Categorical(["alpha", "beta", "gamma"]) + + if not using_array_manager: + assert frame._mgr.blocks[0]._can_hold_element(cat) + + df = frame.copy() + orig_vals = df.values + + indexer(df)[key, 0] = cat + + expected = DataFrame({0: cat}).astype(object) + if not using_array_manager: + assert np.shares_memory(df[0].values, orig_vals) + + tm.assert_frame_equal(df, expected) + + # check we dont have a view on cat (may be undesired GH#39986) + df.iloc[0, 0] = "gamma" + assert cat[0] != "gamma" + + # pre-2.0 with mixed dataframe ("split" path) we always overwrote the + # column. as of 2.0 we correctly write "into" the column, so + # we retain the object dtype. + frame = DataFrame({0: np.array([0, 1, 2], dtype=object), 1: range(3)}) + df = frame.copy() + indexer(df)[key, 0] = cat + expected = DataFrame({0: Series(cat.astype(object), dtype=object), 1: range(3)}) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("box", [array, Series]) + def test_iloc_setitem_ea_inplace(self, frame_or_series, box, using_copy_on_write): + # GH#38952 Case with not setting a full column + # IntegerArray without NAs + arr = array([1, 2, 3, 4]) + obj = frame_or_series(arr.to_numpy("i8")) + + if frame_or_series is Series: + values = obj.values + else: + values = obj._mgr.arrays[0] + + if frame_or_series is Series: + obj.iloc[:2] = box(arr[2:]) + else: + obj.iloc[:2, 0] = box(arr[2:]) + + expected = frame_or_series(np.array([3, 4, 3, 4], dtype="i8")) + tm.assert_equal(obj, expected) + + # Check that we are actually in-place + if frame_or_series is Series: + if using_copy_on_write: + assert obj.values is not values + assert np.shares_memory(obj.values, values) + else: + assert obj.values is values + else: + assert np.shares_memory(obj[0].values, values) + + def test_is_scalar_access(self): + # GH#32085 index with duplicates doesn't matter for _is_scalar_access + index = Index([1, 2, 1]) + ser = Series(range(3), index=index) + + assert ser.iloc._is_scalar_access((1,)) + + df = ser.to_frame() + assert df.iloc._is_scalar_access((1, 0)) + + def test_iloc_exceeds_bounds(self): + # GH6296 + # iloc should allow indexers that exceed the bounds + df = DataFrame(np.random.default_rng(2).random((20, 5)), columns=list("ABCDE")) + + # lists of positions should raise IndexError! + msg = "positional indexers are out-of-bounds" + with pytest.raises(IndexError, match=msg): + df.iloc[:, [0, 1, 2, 3, 4, 5]] + with pytest.raises(IndexError, match=msg): + df.iloc[[1, 30]] + with pytest.raises(IndexError, match=msg): + df.iloc[[1, -30]] + with pytest.raises(IndexError, match=msg): + df.iloc[[100]] + + s = df["A"] + with pytest.raises(IndexError, match=msg): + s.iloc[[100]] + with pytest.raises(IndexError, match=msg): + s.iloc[[-100]] + + # still raise on a single indexer + msg = "single positional indexer is out-of-bounds" + with pytest.raises(IndexError, match=msg): + df.iloc[30] + with pytest.raises(IndexError, match=msg): + df.iloc[-30] + + # GH10779 + # single positive/negative indexer exceeding Series bounds should raise + # an IndexError + with pytest.raises(IndexError, match=msg): + s.iloc[30] + with pytest.raises(IndexError, match=msg): + s.iloc[-30] + + # slices are ok + result = df.iloc[:, 4:10] # 0 < start < len < stop + expected = df.iloc[:, 4:] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, -4:-10] # stop < 0 < start < len + expected = df.iloc[:, :0] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, 10:4:-1] # 0 < stop < len < start (down) + expected = df.iloc[:, :4:-1] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, 4:-10:-1] # stop < 0 < start < len (down) + expected = df.iloc[:, 4::-1] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, -10:4] # start < 0 < stop < len + expected = df.iloc[:, :4] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, 10:4] # 0 < stop < len < start + expected = df.iloc[:, :0] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, -10:-11:-1] # stop < start < 0 < len (down) + expected = df.iloc[:, :0] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, 10:11] # 0 < len < start < stop + expected = df.iloc[:, :0] + tm.assert_frame_equal(result, expected) + + # slice bounds exceeding is ok + result = s.iloc[18:30] + expected = s.iloc[18:] + tm.assert_series_equal(result, expected) + + result = s.iloc[30:] + expected = s.iloc[:0] + tm.assert_series_equal(result, expected) + + result = s.iloc[30::-1] + expected = s.iloc[::-1] + tm.assert_series_equal(result, expected) + + # doc example + dfl = DataFrame( + np.random.default_rng(2).standard_normal((5, 2)), columns=list("AB") + ) + tm.assert_frame_equal( + dfl.iloc[:, 2:3], + DataFrame(index=dfl.index, columns=Index([], dtype=dfl.columns.dtype)), + ) + tm.assert_frame_equal(dfl.iloc[:, 1:3], dfl.iloc[:, [1]]) + tm.assert_frame_equal(dfl.iloc[4:6], dfl.iloc[[4]]) + + msg = "positional indexers are out-of-bounds" + with pytest.raises(IndexError, match=msg): + dfl.iloc[[4, 5, 6]] + msg = "single positional indexer is out-of-bounds" + with pytest.raises(IndexError, match=msg): + dfl.iloc[:, 4] + + @pytest.mark.parametrize("index,columns", [(np.arange(20), list("ABCDE"))]) + @pytest.mark.parametrize( + "index_vals,column_vals", + [ + ([slice(None), ["A", "D"]]), + (["1", "2"], slice(None)), + ([datetime(2019, 1, 1)], slice(None)), + ], + ) + def test_iloc_non_integer_raises(self, index, columns, index_vals, column_vals): + # GH 25753 + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), len(columns))), + index=index, + columns=columns, + ) + msg = ".iloc requires numeric indexers, got" + with pytest.raises(IndexError, match=msg): + df.iloc[index_vals, column_vals] + + def test_iloc_getitem_invalid_scalar(self, frame_or_series): + # GH 21982 + + obj = DataFrame(np.arange(100).reshape(10, 10)) + obj = tm.get_obj(obj, frame_or_series) + + with pytest.raises(TypeError, match="Cannot index by location index"): + obj.iloc["a"] + + def test_iloc_array_not_mutating_negative_indices(self): + # GH 21867 + array_with_neg_numbers = np.array([1, 2, -1]) + array_copy = array_with_neg_numbers.copy() + df = DataFrame( + {"A": [100, 101, 102], "B": [103, 104, 105], "C": [106, 107, 108]}, + index=[1, 2, 3], + ) + df.iloc[array_with_neg_numbers] + tm.assert_numpy_array_equal(array_with_neg_numbers, array_copy) + df.iloc[:, array_with_neg_numbers] + tm.assert_numpy_array_equal(array_with_neg_numbers, array_copy) + + def test_iloc_getitem_neg_int_can_reach_first_index(self): + # GH10547 and GH10779 + # negative integers should be able to reach index 0 + df = DataFrame({"A": [2, 3, 5], "B": [7, 11, 13]}) + s = df["A"] + + expected = df.iloc[0] + result = df.iloc[-3] + tm.assert_series_equal(result, expected) + + expected = df.iloc[[0]] + result = df.iloc[[-3]] + tm.assert_frame_equal(result, expected) + + expected = s.iloc[0] + result = s.iloc[-3] + assert result == expected + + expected = s.iloc[[0]] + result = s.iloc[[-3]] + tm.assert_series_equal(result, expected) + + # check the length 1 Series case highlighted in GH10547 + expected = Series(["a"], index=["A"]) + result = expected.iloc[[-1]] + tm.assert_series_equal(result, expected) + + def test_iloc_getitem_dups(self): + # GH 6766 + df1 = DataFrame([{"A": None, "B": 1}, {"A": 2, "B": 2}]) + df2 = DataFrame([{"A": 3, "B": 3}, {"A": 4, "B": 4}]) + df = concat([df1, df2], axis=1) + + # cross-sectional indexing + result = df.iloc[0, 0] + assert isna(result) + + result = df.iloc[0, :] + expected = Series([np.nan, 1, 3, 3], index=["A", "B", "A", "B"], name=0) + tm.assert_series_equal(result, expected) + + def test_iloc_getitem_array(self): + df = DataFrame( + [ + {"A": 1, "B": 2, "C": 3}, + {"A": 100, "B": 200, "C": 300}, + {"A": 1000, "B": 2000, "C": 3000}, + ] + ) + + expected = DataFrame([{"A": 1, "B": 2, "C": 3}]) + tm.assert_frame_equal(df.iloc[[0]], expected) + + expected = DataFrame([{"A": 1, "B": 2, "C": 3}, {"A": 100, "B": 200, "C": 300}]) + tm.assert_frame_equal(df.iloc[[0, 1]], expected) + + expected = DataFrame([{"B": 2, "C": 3}, {"B": 2000, "C": 3000}], index=[0, 2]) + result = df.iloc[[0, 2], [1, 2]] + tm.assert_frame_equal(result, expected) + + def test_iloc_getitem_bool(self): + df = DataFrame( + [ + {"A": 1, "B": 2, "C": 3}, + {"A": 100, "B": 200, "C": 300}, + {"A": 1000, "B": 2000, "C": 3000}, + ] + ) + + expected = DataFrame([{"A": 1, "B": 2, "C": 3}, {"A": 100, "B": 200, "C": 300}]) + result = df.iloc[[True, True, False]] + tm.assert_frame_equal(result, expected) + + expected = DataFrame( + [{"A": 1, "B": 2, "C": 3}, {"A": 1000, "B": 2000, "C": 3000}], index=[0, 2] + ) + result = df.iloc[lambda x: x.index % 2 == 0] + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("index", [[True, False], [True, False, True, False]]) + def test_iloc_getitem_bool_diff_len(self, index): + # GH26658 + s = Series([1, 2, 3]) + msg = f"Boolean index has wrong length: {len(index)} instead of {len(s)}" + with pytest.raises(IndexError, match=msg): + s.iloc[index] + + def test_iloc_getitem_slice(self): + df = DataFrame( + [ + {"A": 1, "B": 2, "C": 3}, + {"A": 100, "B": 200, "C": 300}, + {"A": 1000, "B": 2000, "C": 3000}, + ] + ) + + expected = DataFrame([{"A": 1, "B": 2, "C": 3}, {"A": 100, "B": 200, "C": 300}]) + result = df.iloc[:2] + tm.assert_frame_equal(result, expected) + + expected = DataFrame([{"A": 100, "B": 200}], index=[1]) + result = df.iloc[1:2, 0:2] + tm.assert_frame_equal(result, expected) + + expected = DataFrame( + [{"A": 1, "C": 3}, {"A": 100, "C": 300}, {"A": 1000, "C": 3000}] + ) + result = df.iloc[:, lambda df: [0, 2]] + tm.assert_frame_equal(result, expected) + + def test_iloc_getitem_slice_dups(self): + df1 = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=["A", "A", "B", "B"], + ) + df2 = DataFrame( + np.random.default_rng(2).integers(0, 10, size=20).reshape(10, 2), + columns=["A", "C"], + ) + + # axis=1 + df = concat([df1, df2], axis=1) + tm.assert_frame_equal(df.iloc[:, :4], df1) + tm.assert_frame_equal(df.iloc[:, 4:], df2) + + df = concat([df2, df1], axis=1) + tm.assert_frame_equal(df.iloc[:, :2], df2) + tm.assert_frame_equal(df.iloc[:, 2:], df1) + + exp = concat([df2, df1.iloc[:, [0]]], axis=1) + tm.assert_frame_equal(df.iloc[:, 0:3], exp) + + # axis=0 + df = concat([df, df], axis=0) + tm.assert_frame_equal(df.iloc[0:10, :2], df2) + tm.assert_frame_equal(df.iloc[0:10, 2:], df1) + tm.assert_frame_equal(df.iloc[10:, :2], df2) + tm.assert_frame_equal(df.iloc[10:, 2:], df1) + + def test_iloc_setitem(self, warn_copy_on_write): + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=np.arange(0, 8, 2), + columns=np.arange(0, 12, 3), + ) + + df.iloc[1, 1] = 1 + result = df.iloc[1, 1] + assert result == 1 + + df.iloc[:, 2:3] = 0 + expected = df.iloc[:, 2:3] + result = df.iloc[:, 2:3] + tm.assert_frame_equal(result, expected) + + # GH5771 + s = Series(0, index=[4, 5, 6]) + s.iloc[1:2] += 1 + expected = Series([0, 1, 0], index=[4, 5, 6]) + tm.assert_series_equal(s, expected) + + def test_iloc_setitem_axis_argument(self): + # GH45032 + df = DataFrame([[6, "c", 10], [7, "d", 11], [8, "e", 12]]) + df[1] = df[1].astype(object) + expected = DataFrame([[6, "c", 10], [7, "d", 11], [5, 5, 5]]) + expected[1] = expected[1].astype(object) + df.iloc(axis=0)[2] = 5 + tm.assert_frame_equal(df, expected) + + df = DataFrame([[6, "c", 10], [7, "d", 11], [8, "e", 12]]) + df[1] = df[1].astype(object) + expected = DataFrame([[6, "c", 5], [7, "d", 5], [8, "e", 5]]) + expected[1] = expected[1].astype(object) + df.iloc(axis=1)[2] = 5 + tm.assert_frame_equal(df, expected) + + def test_iloc_setitem_list(self): + # setitem with an iloc list + df = DataFrame( + np.arange(9).reshape((3, 3)), index=["A", "B", "C"], columns=["A", "B", "C"] + ) + df.iloc[[0, 1], [1, 2]] + df.iloc[[0, 1], [1, 2]] += 100 + + expected = DataFrame( + np.array([0, 101, 102, 3, 104, 105, 6, 7, 8]).reshape((3, 3)), + index=["A", "B", "C"], + columns=["A", "B", "C"], + ) + tm.assert_frame_equal(df, expected) + + def test_iloc_setitem_pandas_object(self): + # GH 17193 + s_orig = Series([0, 1, 2, 3]) + expected = Series([0, -1, -2, 3]) + + s = s_orig.copy() + s.iloc[Series([1, 2])] = [-1, -2] + tm.assert_series_equal(s, expected) + + s = s_orig.copy() + s.iloc[Index([1, 2])] = [-1, -2] + tm.assert_series_equal(s, expected) + + def test_iloc_setitem_dups(self): + # GH 6766 + # iloc with a mask aligning from another iloc + df1 = DataFrame([{"A": None, "B": 1}, {"A": 2, "B": 2}]) + df2 = DataFrame([{"A": 3, "B": 3}, {"A": 4, "B": 4}]) + df = concat([df1, df2], axis=1) + + expected = df.fillna(3) + inds = np.isnan(df.iloc[:, 0]) + mask = inds[inds].index + df.iloc[mask, 0] = df.iloc[mask, 2] + tm.assert_frame_equal(df, expected) + + # del a dup column across blocks + expected = DataFrame({0: [1, 2], 1: [3, 4]}) + expected.columns = ["B", "B"] + del df["A"] + tm.assert_frame_equal(df, expected) + + # assign back to self + df.iloc[[0, 1], [0, 1]] = df.iloc[[0, 1], [0, 1]] + tm.assert_frame_equal(df, expected) + + # reversed x 2 + df.iloc[[1, 0], [0, 1]] = df.iloc[[1, 0], [0, 1]].reset_index(drop=True) + df.iloc[[1, 0], [0, 1]] = df.iloc[[1, 0], [0, 1]].reset_index(drop=True) + tm.assert_frame_equal(df, expected) + + def test_iloc_setitem_frame_duplicate_columns_multiple_blocks( + self, using_array_manager + ): + # Same as the "assign back to self" check in test_iloc_setitem_dups + # but on a DataFrame with multiple blocks + df = DataFrame([[0, 1], [2, 3]], columns=["B", "B"]) + + # setting float values that can be held by existing integer arrays + # is inplace + df.iloc[:, 0] = df.iloc[:, 0].astype("f8") + if not using_array_manager: + assert len(df._mgr.blocks) == 1 + + # if the assigned values cannot be held by existing integer arrays, + # we cast + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.iloc[:, 0] = df.iloc[:, 0] + 0.5 + if not using_array_manager: + assert len(df._mgr.blocks) == 2 + + expected = df.copy() + + # assign back to self + df.iloc[[0, 1], [0, 1]] = df.iloc[[0, 1], [0, 1]] + + tm.assert_frame_equal(df, expected) + + # TODO: GH#27620 this test used to compare iloc against ix; check if this + # is redundant with another test comparing iloc against loc + def test_iloc_getitem_frame(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + index=range(0, 20, 2), + columns=range(0, 8, 2), + ) + + result = df.iloc[2] + exp = df.loc[4] + tm.assert_series_equal(result, exp) + + result = df.iloc[2, 2] + exp = df.loc[4, 4] + assert result == exp + + # slice + result = df.iloc[4:8] + expected = df.loc[8:14] + tm.assert_frame_equal(result, expected) + + result = df.iloc[:, 2:3] + expected = df.loc[:, 4:5] + tm.assert_frame_equal(result, expected) + + # list of integers + result = df.iloc[[0, 1, 3]] + expected = df.loc[[0, 2, 6]] + tm.assert_frame_equal(result, expected) + + result = df.iloc[[0, 1, 3], [0, 1]] + expected = df.loc[[0, 2, 6], [0, 2]] + tm.assert_frame_equal(result, expected) + + # neg indices + result = df.iloc[[-1, 1, 3], [-1, 1]] + expected = df.loc[[18, 2, 6], [6, 2]] + tm.assert_frame_equal(result, expected) + + # dups indices + result = df.iloc[[-1, -1, 1, 3], [-1, 1]] + expected = df.loc[[18, 18, 2, 6], [6, 2]] + tm.assert_frame_equal(result, expected) + + # with index-like + s = Series(index=range(1, 5), dtype=object) + result = df.iloc[s.index] + expected = df.loc[[2, 4, 6, 8]] + tm.assert_frame_equal(result, expected) + + def test_iloc_getitem_labelled_frame(self): + # try with labelled frame + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + index=list("abcdefghij"), + columns=list("ABCD"), + ) + + result = df.iloc[1, 1] + exp = df.loc["b", "B"] + assert result == exp + + result = df.iloc[:, 2:3] + expected = df.loc[:, ["C"]] + tm.assert_frame_equal(result, expected) + + # negative indexing + result = df.iloc[-1, -1] + exp = df.loc["j", "D"] + assert result == exp + + # out-of-bounds exception + msg = "index 5 is out of bounds for axis 0 with size 4|index out of bounds" + with pytest.raises(IndexError, match=msg): + df.iloc[10, 5] + + # trying to use a label + msg = ( + r"Location based indexing can only have \[integer, integer " + r"slice \(START point is INCLUDED, END point is EXCLUDED\), " + r"listlike of integers, boolean array\] types" + ) + with pytest.raises(ValueError, match=msg): + df.iloc["j", "D"] + + def test_iloc_getitem_doc_issue(self, using_array_manager): + # multi axis slicing issue with single block + # surfaced in GH 6059 + + arr = np.random.default_rng(2).standard_normal((6, 4)) + index = date_range("20130101", periods=6) + columns = list("ABCD") + df = DataFrame(arr, index=index, columns=columns) + + # defines ref_locs + df.describe() + + result = df.iloc[3:5, 0:2] + + expected = DataFrame(arr[3:5, 0:2], index=index[3:5], columns=columns[0:2]) + tm.assert_frame_equal(result, expected) + + # for dups + df.columns = list("aaaa") + result = df.iloc[3:5, 0:2] + + expected = DataFrame(arr[3:5, 0:2], index=index[3:5], columns=list("aa")) + tm.assert_frame_equal(result, expected) + + # related + arr = np.random.default_rng(2).standard_normal((6, 4)) + index = list(range(0, 12, 2)) + columns = list(range(0, 8, 2)) + df = DataFrame(arr, index=index, columns=columns) + + if not using_array_manager: + df._mgr.blocks[0].mgr_locs + result = df.iloc[1:5, 2:4] + expected = DataFrame(arr[1:5, 2:4], index=index[1:5], columns=columns[2:4]) + tm.assert_frame_equal(result, expected) + + def test_iloc_setitem_series(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + index=list("abcdefghij"), + columns=list("ABCD"), + ) + + df.iloc[1, 1] = 1 + result = df.iloc[1, 1] + assert result == 1 + + df.iloc[:, 2:3] = 0 + expected = df.iloc[:, 2:3] + result = df.iloc[:, 2:3] + tm.assert_frame_equal(result, expected) + + s = Series(np.random.default_rng(2).standard_normal(10), index=range(0, 20, 2)) + + s.iloc[1] = 1 + result = s.iloc[1] + assert result == 1 + + s.iloc[:4] = 0 + expected = s.iloc[:4] + result = s.iloc[:4] + tm.assert_series_equal(result, expected) + + s = Series([-1] * 6) + s.iloc[0::2] = [0, 2, 4] + s.iloc[1::2] = [1, 3, 5] + result = s + expected = Series([0, 1, 2, 3, 4, 5]) + tm.assert_series_equal(result, expected) + + def test_iloc_setitem_list_of_lists(self): + # GH 7551 + # list-of-list is set incorrectly in mixed vs. single dtyped frames + df = DataFrame( + {"A": np.arange(5, dtype="int64"), "B": np.arange(5, 10, dtype="int64")} + ) + df.iloc[2:4] = [[10, 11], [12, 13]] + expected = DataFrame({"A": [0, 1, 10, 12, 4], "B": [5, 6, 11, 13, 9]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame( + {"A": ["a", "b", "c", "d", "e"], "B": np.arange(5, 10, dtype="int64")} + ) + df.iloc[2:4] = [["x", 11], ["y", 13]] + expected = DataFrame({"A": ["a", "b", "x", "y", "e"], "B": [5, 6, 11, 13, 9]}) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [[0], slice(None, 1, None), np.array([0])]) + @pytest.mark.parametrize("value", [["Z"], np.array(["Z"])]) + def test_iloc_setitem_with_scalar_index(self, indexer, value): + # GH #19474 + # assigning like "df.iloc[0, [0]] = ['Z']" should be evaluated + # elementwisely, not using "setter('A', ['Z'])". + + # Set object type to avoid upcast when setting "Z" + df = DataFrame([[1, 2], [3, 4]], columns=["A", "B"]).astype({"A": object}) + df.iloc[0, indexer] = value + result = df.iloc[0, 0] + + assert is_scalar(result) and result == "Z" + + @pytest.mark.filterwarnings("ignore::UserWarning") + def test_iloc_mask(self): + # GH 3631, iloc with a mask (of a series) should raise + df = DataFrame(list(range(5)), index=list("ABCDE"), columns=["a"]) + mask = df.a % 2 == 0 + msg = "iLocation based boolean indexing cannot use an indexable as a mask" + with pytest.raises(ValueError, match=msg): + df.iloc[mask] + mask.index = range(len(mask)) + msg = "iLocation based boolean indexing on an integer type is not available" + with pytest.raises(NotImplementedError, match=msg): + df.iloc[mask] + + # ndarray ok + result = df.iloc[np.array([True] * len(mask), dtype=bool)] + tm.assert_frame_equal(result, df) + + # the possibilities + locs = np.arange(4) + nums = 2**locs + reps = [bin(num) for num in nums] + df = DataFrame({"locs": locs, "nums": nums}, reps) + + expected = { + (None, ""): "0b1100", + (None, ".loc"): "0b1100", + (None, ".iloc"): "0b1100", + ("index", ""): "0b11", + ("index", ".loc"): "0b11", + ("index", ".iloc"): ( + "iLocation based boolean indexing cannot use an indexable as a mask" + ), + ("locs", ""): "Unalignable boolean Series provided as indexer " + "(index of the boolean Series and of the indexed " + "object do not match).", + ("locs", ".loc"): "Unalignable boolean Series provided as indexer " + "(index of the boolean Series and of the " + "indexed object do not match).", + ("locs", ".iloc"): ( + "iLocation based boolean indexing on an " + "integer type is not available" + ), + } + + # UserWarnings from reindex of a boolean mask + for idx in [None, "index", "locs"]: + mask = (df.nums > 2).values + if idx: + mask_index = getattr(df, idx)[::-1] + mask = Series(mask, list(mask_index)) + for method in ["", ".loc", ".iloc"]: + try: + if method: + accessor = getattr(df, method[1:]) + else: + accessor = df + answer = str(bin(accessor[mask]["nums"].sum())) + except (ValueError, IndexingError, NotImplementedError) as err: + answer = str(err) + + key = ( + idx, + method, + ) + r = expected.get(key) + if r != answer: + raise AssertionError( + f"[{key}] does not match [{answer}], received [{r}]" + ) + + def test_iloc_non_unique_indexing(self): + # GH 4017, non-unique indexing (on the axis) + df = DataFrame({"A": [0.1] * 3000, "B": [1] * 3000}) + idx = np.arange(30) * 99 + expected = df.iloc[idx] + + df3 = concat([df, 2 * df, 3 * df]) + result = df3.iloc[idx] + + tm.assert_frame_equal(result, expected) + + df2 = DataFrame({"A": [0.1] * 1000, "B": [1] * 1000}) + df2 = concat([df2, 2 * df2, 3 * df2]) + + with pytest.raises(KeyError, match="not in index"): + df2.loc[idx] + + def test_iloc_empty_list_indexer_is_ok(self): + df = DataFrame( + np.ones((5, 2)), + index=Index([f"i-{i}" for i in range(5)], name="a"), + columns=Index([f"i-{i}" for i in range(2)], name="a"), + ) + # vertical empty + tm.assert_frame_equal( + df.iloc[:, []], + df.iloc[:, :0], + check_index_type=True, + check_column_type=True, + ) + # horizontal empty + tm.assert_frame_equal( + df.iloc[[], :], + df.iloc[:0, :], + check_index_type=True, + check_column_type=True, + ) + # horizontal empty + tm.assert_frame_equal( + df.iloc[[]], df.iloc[:0, :], check_index_type=True, check_column_type=True + ) + + def test_identity_slice_returns_new_object( + self, using_copy_on_write, warn_copy_on_write + ): + # GH13873 + original_df = DataFrame({"a": [1, 2, 3]}) + sliced_df = original_df.iloc[:] + assert sliced_df is not original_df + + # should be a shallow copy + assert np.shares_memory(original_df["a"], sliced_df["a"]) + + # Setting using .loc[:, "a"] sets inplace so alters both sliced and orig + # depending on CoW + with tm.assert_cow_warning(warn_copy_on_write): + original_df.loc[:, "a"] = [4, 4, 4] + if using_copy_on_write: + assert (sliced_df["a"] == [1, 2, 3]).all() + else: + assert (sliced_df["a"] == 4).all() + + original_series = Series([1, 2, 3, 4, 5, 6]) + sliced_series = original_series.iloc[:] + assert sliced_series is not original_series + + # should also be a shallow copy + with tm.assert_cow_warning(warn_copy_on_write): + original_series[:3] = [7, 8, 9] + if using_copy_on_write: + # shallow copy not updated (CoW) + assert all(sliced_series[:3] == [1, 2, 3]) + else: + assert all(sliced_series[:3] == [7, 8, 9]) + + def test_indexing_zerodim_np_array(self): + # GH24919 + df = DataFrame([[1, 2], [3, 4]]) + result = df.iloc[np.array(0)] + s = Series([1, 2], name=0) + tm.assert_series_equal(result, s) + + def test_series_indexing_zerodim_np_array(self): + # GH24919 + s = Series([1, 2]) + result = s.iloc[np.array(0)] + assert result == 1 + + def test_iloc_setitem_categorical_updates_inplace(self): + # Mixed dtype ensures we go through take_split_path in setitem_with_indexer + cat = Categorical(["A", "B", "C"]) + df = DataFrame({1: cat, 2: [1, 2, 3]}, copy=False) + + assert tm.shares_memory(df[1], cat) + + # With the enforcement of GH#45333 in 2.0, this modifies original + # values inplace + df.iloc[:, 0] = cat[::-1] + + assert tm.shares_memory(df[1], cat) + expected = Categorical(["C", "B", "A"], categories=["A", "B", "C"]) + tm.assert_categorical_equal(cat, expected) + + def test_iloc_with_boolean_operation(self): + # GH 20627 + result = DataFrame([[0, 1], [2, 3], [4, 5], [6, np.nan]]) + result.iloc[result.index <= 2] *= 2 + expected = DataFrame([[0, 2], [4, 6], [8, 10], [6, np.nan]]) + tm.assert_frame_equal(result, expected) + + result.iloc[result.index > 2] *= 2 + expected = DataFrame([[0, 2], [4, 6], [8, 10], [12, np.nan]]) + tm.assert_frame_equal(result, expected) + + result.iloc[[True, True, False, False]] *= 2 + expected = DataFrame([[0, 4], [8, 12], [8, 10], [12, np.nan]]) + tm.assert_frame_equal(result, expected) + + result.iloc[[False, False, True, True]] /= 2 + expected = DataFrame([[0, 4.0], [8, 12.0], [4, 5.0], [6, np.nan]]) + tm.assert_frame_equal(result, expected) + + def test_iloc_getitem_singlerow_slice_categoricaldtype_gives_series(self): + # GH#29521 + df = DataFrame({"x": Categorical("a b c d e".split())}) + result = df.iloc[0] + raw_cat = Categorical(["a"], categories=["a", "b", "c", "d", "e"]) + expected = Series(raw_cat, index=["x"], name=0, dtype="category") + + tm.assert_series_equal(result, expected) + + def test_iloc_getitem_categorical_values(self): + # GH#14580 + # test iloc() on Series with Categorical data + + ser = Series([1, 2, 3]).astype("category") + + # get slice + result = ser.iloc[0:2] + expected = Series([1, 2]).astype(CategoricalDtype([1, 2, 3])) + tm.assert_series_equal(result, expected) + + # get list of indexes + result = ser.iloc[[0, 1]] + expected = Series([1, 2]).astype(CategoricalDtype([1, 2, 3])) + tm.assert_series_equal(result, expected) + + # get boolean array + result = ser.iloc[[True, False, False]] + expected = Series([1]).astype(CategoricalDtype([1, 2, 3])) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("value", [None, NaT, np.nan]) + def test_iloc_setitem_td64_values_cast_na(self, value): + # GH#18586 + series = Series([0, 1, 2], dtype="timedelta64[ns]") + series.iloc[0] = value + expected = Series([NaT, 1, 2], dtype="timedelta64[ns]") + tm.assert_series_equal(series, expected) + + @pytest.mark.parametrize("not_na", [Interval(0, 1), "a", 1.0]) + def test_setitem_mix_of_nan_and_interval(self, not_na, nulls_fixture): + # GH#27937 + dtype = CategoricalDtype(categories=[not_na]) + ser = Series( + [nulls_fixture, nulls_fixture, nulls_fixture, nulls_fixture], dtype=dtype + ) + ser.iloc[:3] = [nulls_fixture, not_na, nulls_fixture] + exp = Series([nulls_fixture, not_na, nulls_fixture, nulls_fixture], dtype=dtype) + tm.assert_series_equal(ser, exp) + + def test_iloc_setitem_empty_frame_raises_with_3d_ndarray(self): + idx = Index([]) + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(idx), len(idx))), + index=idx, + columns=idx, + ) + nd3 = np.random.default_rng(2).integers(5, size=(2, 2, 2)) + + msg = f"Cannot set values with ndim > {obj.ndim}" + with pytest.raises(ValueError, match=msg): + obj.iloc[nd3] = 0 + + @pytest.mark.parametrize("indexer", [tm.loc, tm.iloc]) + def test_iloc_getitem_read_only_values(self, indexer): + # GH#10043 this is fundamentally a test for iloc, but test loc while + # we're here + rw_array = np.eye(10) + rw_df = DataFrame(rw_array) + + ro_array = np.eye(10) + ro_array.setflags(write=False) + ro_df = DataFrame(ro_array) + + tm.assert_frame_equal(indexer(rw_df)[[1, 2, 3]], indexer(ro_df)[[1, 2, 3]]) + tm.assert_frame_equal(indexer(rw_df)[[1]], indexer(ro_df)[[1]]) + tm.assert_series_equal(indexer(rw_df)[1], indexer(ro_df)[1]) + tm.assert_frame_equal(indexer(rw_df)[1:3], indexer(ro_df)[1:3]) + + def test_iloc_getitem_readonly_key(self): + # GH#17192 iloc with read-only array raising TypeError + df = DataFrame({"data": np.ones(100, dtype="float64")}) + indices = np.array([1, 3, 6]) + indices.flags.writeable = False + + result = df.iloc[indices] + expected = df.loc[[1, 3, 6]] + tm.assert_frame_equal(result, expected) + + result = df["data"].iloc[indices] + expected = df["data"].loc[[1, 3, 6]] + tm.assert_series_equal(result, expected) + + def test_iloc_assign_series_to_df_cell(self): + # GH 37593 + df = DataFrame(columns=["a"], index=[0]) + df.iloc[0, 0] = Series([1, 2, 3]) + expected = DataFrame({"a": [Series([1, 2, 3])]}, columns=["a"], index=[0]) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("klass", [list, np.array]) + def test_iloc_setitem_bool_indexer(self, klass): + # GH#36741 + df = DataFrame({"flag": ["x", "y", "z"], "value": [1, 3, 4]}) + indexer = klass([True, False, False]) + df.iloc[indexer, 1] = df.iloc[indexer, 1] * 2 + expected = DataFrame({"flag": ["x", "y", "z"], "value": [2, 3, 4]}) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [[1], slice(1, 2)]) + def test_iloc_setitem_pure_position_based(self, indexer): + # GH#22046 + df1 = DataFrame({"a2": [11, 12, 13], "b2": [14, 15, 16]}) + df2 = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6], "c": [7, 8, 9]}) + df2.iloc[:, indexer] = df1.iloc[:, [0]] + expected = DataFrame({"a": [1, 2, 3], "b": [11, 12, 13], "c": [7, 8, 9]}) + tm.assert_frame_equal(df2, expected) + + def test_iloc_setitem_dictionary_value(self): + # GH#37728 + df = DataFrame({"x": [1, 2], "y": [2, 2]}) + rhs = {"x": 9, "y": 99} + df.iloc[1] = rhs + expected = DataFrame({"x": [1, 9], "y": [2, 99]}) + tm.assert_frame_equal(df, expected) + + # GH#38335 same thing, mixed dtypes + df = DataFrame({"x": [1, 2], "y": [2.0, 2.0]}) + df.iloc[1] = rhs + expected = DataFrame({"x": [1, 9], "y": [2.0, 99.0]}) + tm.assert_frame_equal(df, expected) + + def test_iloc_getitem_float_duplicates(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((3, 3)), + index=[0.1, 0.2, 0.2], + columns=list("abc"), + ) + expect = df.iloc[1:] + tm.assert_frame_equal(df.loc[0.2], expect) + + expect = df.iloc[1:, 0] + tm.assert_series_equal(df.loc[0.2, "a"], expect) + + df.index = [1, 0.2, 0.2] + expect = df.iloc[1:] + tm.assert_frame_equal(df.loc[0.2], expect) + + expect = df.iloc[1:, 0] + tm.assert_series_equal(df.loc[0.2, "a"], expect) + + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 3)), + index=[1, 0.2, 0.2, 1], + columns=list("abc"), + ) + expect = df.iloc[1:-1] + tm.assert_frame_equal(df.loc[0.2], expect) + + expect = df.iloc[1:-1, 0] + tm.assert_series_equal(df.loc[0.2, "a"], expect) + + df.index = [0.1, 0.2, 2, 0.2] + expect = df.iloc[[1, -1]] + tm.assert_frame_equal(df.loc[0.2], expect) + + expect = df.iloc[[1, -1], 0] + tm.assert_series_equal(df.loc[0.2, "a"], expect) + + def test_iloc_setitem_custom_object(self): + # iloc with an object + class TO: + def __init__(self, value) -> None: + self.value = value + + def __str__(self) -> str: + return f"[{self.value}]" + + __repr__ = __str__ + + def __eq__(self, other) -> bool: + return self.value == other.value + + def view(self): + return self + + df = DataFrame(index=[0, 1], columns=[0]) + df.iloc[1, 0] = TO(1) + df.iloc[1, 0] = TO(2) + + result = DataFrame(index=[0, 1], columns=[0]) + result.iloc[1, 0] = TO(2) + + tm.assert_frame_equal(result, df) + + # remains object dtype even after setting it back + df = DataFrame(index=[0, 1], columns=[0]) + df.iloc[1, 0] = TO(1) + df.iloc[1, 0] = np.nan + result = DataFrame(index=[0, 1], columns=[0]) + + tm.assert_frame_equal(result, df) + + def test_iloc_getitem_with_duplicates(self): + df = DataFrame( + np.random.default_rng(2).random((3, 3)), + columns=list("ABC"), + index=list("aab"), + ) + + result = df.iloc[0] + assert isinstance(result, Series) + tm.assert_almost_equal(result.values, df.values[0]) + + result = df.T.iloc[:, 0] + assert isinstance(result, Series) + tm.assert_almost_equal(result.values, df.values[0]) + + def test_iloc_getitem_with_duplicates2(self): + # GH#2259 + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=[1, 1, 2]) + result = df.iloc[:, [0]] + expected = df.take([0], axis=1) + tm.assert_frame_equal(result, expected) + + def test_iloc_interval(self): + # GH#17130 + df = DataFrame({Interval(1, 2): [1, 2]}) + + result = df.iloc[0] + expected = Series({Interval(1, 2): 1}, name=0) + tm.assert_series_equal(result, expected) + + result = df.iloc[:, 0] + expected = Series([1, 2], name=Interval(1, 2)) + tm.assert_series_equal(result, expected) + + result = df.copy() + result.iloc[:, 0] += 1 + expected = DataFrame({Interval(1, 2): [2, 3]}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("indexing_func", [list, np.array]) + @pytest.mark.parametrize("rhs_func", [list, np.array]) + def test_loc_setitem_boolean_list(self, rhs_func, indexing_func): + # GH#20438 testing specifically list key, not arraylike + ser = Series([0, 1, 2]) + ser.iloc[indexing_func([True, False, True])] = rhs_func([5, 10]) + expected = Series([5, 1, 10]) + tm.assert_series_equal(ser, expected) + + df = DataFrame({"a": [0, 1, 2]}) + df.iloc[indexing_func([True, False, True])] = rhs_func([[5], [10]]) + expected = DataFrame({"a": [5, 1, 10]}) + tm.assert_frame_equal(df, expected) + + def test_iloc_getitem_slice_negative_step_ea_block(self): + # GH#44551 + df = DataFrame({"A": [1, 2, 3]}, dtype="Int64") + + res = df.iloc[:, ::-1] + tm.assert_frame_equal(res, df) + + df["B"] = "foo" + res = df.iloc[:, ::-1] + expected = DataFrame({"B": df["B"], "A": df["A"]}) + tm.assert_frame_equal(res, expected) + + def test_iloc_setitem_2d_ndarray_into_ea_block(self): + # GH#44703 + df = DataFrame({"status": ["a", "b", "c"]}, dtype="category") + df.iloc[np.array([0, 1]), np.array([0])] = np.array([["a"], ["a"]]) + + expected = DataFrame({"status": ["a", "a", "c"]}, dtype=df["status"].dtype) + tm.assert_frame_equal(df, expected) + + @td.skip_array_manager_not_yet_implemented + def test_iloc_getitem_int_single_ea_block_view(self): + # GH#45241 + # TODO: make an extension interface test for this? + arr = interval_range(1, 10.0)._values + df = DataFrame(arr) + + # ser should be a *view* on the DataFrame data + ser = df.iloc[2] + + # if we have a view, then changing arr[2] should also change ser[0] + assert arr[2] != arr[-1] # otherwise the rest isn't meaningful + arr[2] = arr[-1] + assert ser[0] == arr[-1] + + def test_iloc_setitem_multicolumn_to_datetime(self, using_infer_string): + # GH#20511 + df = DataFrame({"A": ["2022-01-01", "2022-01-02"], "B": ["2021", "2022"]}) + + if using_infer_string: + with tm.assert_produces_warning( + FutureWarning, match="Setting an item of incompatible dtype" + ): + df.iloc[:, [0]] = DataFrame({"A": to_datetime(["2021", "2022"])}) + else: + df.iloc[:, [0]] = DataFrame({"A": to_datetime(["2021", "2022"])}) + expected = DataFrame( + { + "A": [ + Timestamp("2021-01-01 00:00:00"), + Timestamp("2022-01-01 00:00:00"), + ], + "B": ["2021", "2022"], + } + ) + tm.assert_frame_equal(df, expected, check_dtype=False) + + +class TestILocErrors: + # NB: this test should work for _any_ Series we can pass as + # series_with_simple_index + def test_iloc_float_raises( + self, series_with_simple_index, frame_or_series, warn_copy_on_write + ): + # GH#4892 + # float_indexers should raise exceptions + # on appropriate Index types & accessors + # this duplicates the code below + # but is specifically testing for the error + # message + + obj = series_with_simple_index + if frame_or_series is DataFrame: + obj = obj.to_frame() + + msg = "Cannot index by location index with a non-integer key" + with pytest.raises(TypeError, match=msg): + obj.iloc[3.0] + + with pytest.raises(IndexError, match=_slice_iloc_msg): + with tm.assert_cow_warning( + warn_copy_on_write and frame_or_series is DataFrame + ): + obj.iloc[3.0] = 0 + + def test_iloc_getitem_setitem_fancy_exceptions(self, float_frame): + with pytest.raises(IndexingError, match="Too many indexers"): + float_frame.iloc[:, :, :] + + with pytest.raises(IndexError, match="too many indices for array"): + # GH#32257 we let numpy do validation, get their exception + float_frame.iloc[:, :, :] = 1 + + def test_iloc_frame_indexer(self): + # GH#39004 + df = DataFrame({"a": [1, 2, 3]}) + indexer = DataFrame({"a": [True, False, True]}) + msg = "DataFrame indexer for .iloc is not supported. Consider using .loc" + with pytest.raises(TypeError, match=msg): + df.iloc[indexer] = 1 + + msg = ( + "DataFrame indexer is not allowed for .iloc\n" + "Consider using .loc for automatic alignment." + ) + with pytest.raises(IndexError, match=msg): + df.iloc[indexer] + + +class TestILocSetItemDuplicateColumns: + def test_iloc_setitem_scalar_duplicate_columns(self): + # GH#15686, duplicate columns and mixed dtype + df1 = DataFrame([{"A": None, "B": 1}, {"A": 2, "B": 2}]) + df2 = DataFrame([{"A": 3, "B": 3}, {"A": 4, "B": 4}]) + df = concat([df1, df2], axis=1) + df.iloc[0, 0] = -1 + + assert df.iloc[0, 0] == -1 + assert df.iloc[0, 2] == 3 + assert df.dtypes.iloc[2] == np.int64 + + def test_iloc_setitem_list_duplicate_columns(self): + # GH#22036 setting with same-sized list + df = DataFrame([[0, "str", "str2"]], columns=["a", "b", "b"]) + + df.iloc[:, 2] = ["str3"] + + expected = DataFrame([[0, "str", "str3"]], columns=["a", "b", "b"]) + tm.assert_frame_equal(df, expected) + + def test_iloc_setitem_series_duplicate_columns(self): + df = DataFrame( + np.arange(8, dtype=np.int64).reshape(2, 4), columns=["A", "B", "A", "B"] + ) + df.iloc[:, 0] = df.iloc[:, 0].astype(np.float64) + assert df.dtypes.iloc[2] == np.int64 + + @pytest.mark.parametrize( + ["dtypes", "init_value", "expected_value"], + [("int64", "0", 0), ("float", "1.2", 1.2)], + ) + def test_iloc_setitem_dtypes_duplicate_columns( + self, dtypes, init_value, expected_value + ): + # GH#22035 + df = DataFrame( + [[init_value, "str", "str2"]], columns=["a", "b", "b"], dtype=object + ) + + # with the enforcement of GH#45333 in 2.0, this sets values inplace, + # so we retain object dtype + df.iloc[:, 0] = df.iloc[:, 0].astype(dtypes) + + expected_df = DataFrame( + [[expected_value, "str", "str2"]], + columns=["a", "b", "b"], + dtype=object, + ) + tm.assert_frame_equal(df, expected_df) + + +class TestILocCallable: + def test_frame_iloc_getitem_callable(self): + # GH#11485 + df = DataFrame({"X": [1, 2, 3, 4], "Y": list("aabb")}, index=list("ABCD")) + + # return location + res = df.iloc[lambda x: [1, 3]] + tm.assert_frame_equal(res, df.iloc[[1, 3]]) + + res = df.iloc[lambda x: [1, 3], :] + tm.assert_frame_equal(res, df.iloc[[1, 3], :]) + + res = df.iloc[lambda x: [1, 3], lambda x: 0] + tm.assert_series_equal(res, df.iloc[[1, 3], 0]) + + res = df.iloc[lambda x: [1, 3], lambda x: [0]] + tm.assert_frame_equal(res, df.iloc[[1, 3], [0]]) + + # mixture + res = df.iloc[[1, 3], lambda x: 0] + tm.assert_series_equal(res, df.iloc[[1, 3], 0]) + + res = df.iloc[[1, 3], lambda x: [0]] + tm.assert_frame_equal(res, df.iloc[[1, 3], [0]]) + + res = df.iloc[lambda x: [1, 3], 0] + tm.assert_series_equal(res, df.iloc[[1, 3], 0]) + + res = df.iloc[lambda x: [1, 3], [0]] + tm.assert_frame_equal(res, df.iloc[[1, 3], [0]]) + + def test_frame_iloc_setitem_callable(self): + # GH#11485 + df = DataFrame( + {"X": [1, 2, 3, 4], "Y": Series(list("aabb"), dtype=object)}, + index=list("ABCD"), + ) + + # return location + res = df.copy() + res.iloc[lambda x: [1, 3]] = 0 + exp = df.copy() + exp.iloc[[1, 3]] = 0 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[lambda x: [1, 3], :] = -1 + exp = df.copy() + exp.iloc[[1, 3], :] = -1 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[lambda x: [1, 3], lambda x: 0] = 5 + exp = df.copy() + exp.iloc[[1, 3], 0] = 5 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[lambda x: [1, 3], lambda x: [0]] = 25 + exp = df.copy() + exp.iloc[[1, 3], [0]] = 25 + tm.assert_frame_equal(res, exp) + + # mixture + res = df.copy() + res.iloc[[1, 3], lambda x: 0] = -3 + exp = df.copy() + exp.iloc[[1, 3], 0] = -3 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[[1, 3], lambda x: [0]] = -5 + exp = df.copy() + exp.iloc[[1, 3], [0]] = -5 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[lambda x: [1, 3], 0] = 10 + exp = df.copy() + exp.iloc[[1, 3], 0] = 10 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.iloc[lambda x: [1, 3], [0]] = [-5, -5] + exp = df.copy() + exp.iloc[[1, 3], [0]] = [-5, -5] + tm.assert_frame_equal(res, exp) + + +class TestILocSeries: + def test_iloc(self, using_copy_on_write, warn_copy_on_write): + ser = Series( + np.random.default_rng(2).standard_normal(10), index=list(range(0, 20, 2)) + ) + ser_original = ser.copy() + + for i in range(len(ser)): + result = ser.iloc[i] + exp = ser[ser.index[i]] + tm.assert_almost_equal(result, exp) + + # pass a slice + result = ser.iloc[slice(1, 3)] + expected = ser.loc[2:4] + tm.assert_series_equal(result, expected) + + # test slice is a view + with tm.assert_produces_warning(None): + # GH#45324 make sure we aren't giving a spurious FutureWarning + with tm.assert_cow_warning(warn_copy_on_write): + result[:] = 0 + if using_copy_on_write: + tm.assert_series_equal(ser, ser_original) + else: + assert (ser.iloc[1:3] == 0).all() + + # list of integers + result = ser.iloc[[0, 2, 3, 4, 5]] + expected = ser.reindex(ser.index[[0, 2, 3, 4, 5]]) + tm.assert_series_equal(result, expected) + + def test_iloc_getitem_nonunique(self): + ser = Series([0, 1, 2], index=[0, 1, 0]) + assert ser.iloc[2] == 2 + + def test_iloc_setitem_pure_position_based(self): + # GH#22046 + ser1 = Series([1, 2, 3]) + ser2 = Series([4, 5, 6], index=[1, 0, 2]) + ser1.iloc[1:3] = ser2.iloc[1:3] + expected = Series([1, 5, 6]) + tm.assert_series_equal(ser1, expected) + + def test_iloc_nullable_int64_size_1_nan(self): + # GH 31861 + result = DataFrame({"a": ["test"], "b": [np.nan]}) + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + result.loc[:, "b"] = result.loc[:, "b"].astype("Int64") + expected = DataFrame({"a": ["test"], "b": array([NA], dtype="Int64")}) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexers.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexers.py new file mode 100644 index 0000000000000000000000000000000000000000..ddc5c039160d5ada6c6dccb62514590a4ce9f620 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexers.py @@ -0,0 +1,61 @@ +# Tests aimed at pandas.core.indexers +import numpy as np +import pytest + +from pandas.core.indexers import ( + is_scalar_indexer, + length_of_indexer, + validate_indices, +) + + +def test_length_of_indexer(): + arr = np.zeros(4, dtype=bool) + arr[0] = 1 + result = length_of_indexer(arr) + assert result == 1 + + +def test_is_scalar_indexer(): + indexer = (0, 1) + assert is_scalar_indexer(indexer, 2) + assert not is_scalar_indexer(indexer[0], 2) + + indexer = (np.array([2]), 1) + assert not is_scalar_indexer(indexer, 2) + + indexer = (np.array([2]), np.array([3])) + assert not is_scalar_indexer(indexer, 2) + + indexer = (np.array([2]), np.array([3, 4])) + assert not is_scalar_indexer(indexer, 2) + + assert not is_scalar_indexer(slice(None), 1) + + indexer = 0 + assert is_scalar_indexer(indexer, 1) + + indexer = (0,) + assert is_scalar_indexer(indexer, 1) + + +class TestValidateIndices: + def test_validate_indices_ok(self): + indices = np.asarray([0, 1]) + validate_indices(indices, 2) + validate_indices(indices[:0], 0) + validate_indices(np.array([-1, -1]), 0) + + def test_validate_indices_low(self): + indices = np.asarray([0, -2]) + with pytest.raises(ValueError, match="'indices' contains"): + validate_indices(indices, 2) + + def test_validate_indices_high(self): + indices = np.asarray([0, 1, 2]) + with pytest.raises(IndexError, match="indices are out"): + validate_indices(indices, 2) + + def test_validate_indices_empty(self): + with pytest.raises(IndexError, match="indices are out"): + validate_indices(np.array([0, 1]), 0) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..07275302dcf9fd164490b043d698fcb805989227 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_indexing.py @@ -0,0 +1,1157 @@ +""" test fancy indexing & misc """ + +import array +from datetime import datetime +import re +import weakref + +import numpy as np +import pytest + +from pandas.errors import IndexingError + +from pandas.core.dtypes.common import ( + is_float_dtype, + is_integer_dtype, + is_object_dtype, +) + +import pandas as pd +from pandas import ( + DataFrame, + Index, + NaT, + Series, + date_range, + offsets, + timedelta_range, +) +import pandas._testing as tm +from pandas.tests.indexing.common import _mklbl +from pandas.tests.indexing.test_floats import gen_obj + +# ------------------------------------------------------------------------ +# Indexing test cases + + +class TestFancy: + """pure get/set item & fancy indexing""" + + def test_setitem_ndarray_1d(self): + # GH5508 + + # len of indexer vs length of the 1d ndarray + df = DataFrame(index=Index(np.arange(1, 11), dtype=np.int64)) + df["foo"] = np.zeros(10, dtype=np.float64) + df["bar"] = np.zeros(10, dtype=complex) + + # invalid + msg = "Must have equal len keys and value when setting with an iterable" + with pytest.raises(ValueError, match=msg): + df.loc[df.index[2:5], "bar"] = np.array([2.33j, 1.23 + 0.1j, 2.2, 1.0]) + + # valid + df.loc[df.index[2:6], "bar"] = np.array([2.33j, 1.23 + 0.1j, 2.2, 1.0]) + + result = df.loc[df.index[2:6], "bar"] + expected = Series( + [2.33j, 1.23 + 0.1j, 2.2, 1.0], index=[3, 4, 5, 6], name="bar" + ) + tm.assert_series_equal(result, expected) + + def test_setitem_ndarray_1d_2(self): + # GH5508 + + # dtype getting changed? + df = DataFrame(index=Index(np.arange(1, 11))) + df["foo"] = np.zeros(10, dtype=np.float64) + df["bar"] = np.zeros(10, dtype=complex) + + msg = "Must have equal len keys and value when setting with an iterable" + with pytest.raises(ValueError, match=msg): + df[2:5] = np.arange(1, 4) * 1j + + @pytest.mark.filterwarnings( + "ignore:Series.__getitem__ treating keys as positions is deprecated:" + "FutureWarning" + ) + def test_getitem_ndarray_3d( + self, index, frame_or_series, indexer_sli, using_array_manager + ): + # GH 25567 + obj = gen_obj(frame_or_series, index) + idxr = indexer_sli(obj) + nd3 = np.random.default_rng(2).integers(5, size=(2, 2, 2)) + + msgs = [] + if frame_or_series is Series and indexer_sli in [tm.setitem, tm.iloc]: + msgs.append(r"Wrong number of dimensions. values.ndim > ndim \[3 > 1\]") + if using_array_manager: + msgs.append("Passed array should be 1-dimensional") + if frame_or_series is Series or indexer_sli is tm.iloc: + msgs.append(r"Buffer has wrong number of dimensions \(expected 1, got 3\)") + if using_array_manager: + msgs.append("indexer should be 1-dimensional") + if indexer_sli is tm.loc or ( + frame_or_series is Series and indexer_sli is tm.setitem + ): + msgs.append("Cannot index with multidimensional key") + if frame_or_series is DataFrame and indexer_sli is tm.setitem: + msgs.append("Index data must be 1-dimensional") + if isinstance(index, pd.IntervalIndex) and indexer_sli is tm.iloc: + msgs.append("Index data must be 1-dimensional") + if isinstance(index, (pd.TimedeltaIndex, pd.DatetimeIndex, pd.PeriodIndex)): + msgs.append("Data must be 1-dimensional") + if len(index) == 0 or isinstance(index, pd.MultiIndex): + msgs.append("positional indexers are out-of-bounds") + if type(index) is Index and not isinstance(index._values, np.ndarray): + # e.g. Int64 + msgs.append("values must be a 1D array") + + # string[pyarrow] + msgs.append("only handle 1-dimensional arrays") + + msg = "|".join(msgs) + + potential_errors = (IndexError, ValueError, NotImplementedError) + with pytest.raises(potential_errors, match=msg): + idxr[nd3] + + @pytest.mark.filterwarnings( + "ignore:Series.__setitem__ treating keys as positions is deprecated:" + "FutureWarning" + ) + def test_setitem_ndarray_3d(self, index, frame_or_series, indexer_sli): + # GH 25567 + obj = gen_obj(frame_or_series, index) + idxr = indexer_sli(obj) + nd3 = np.random.default_rng(2).integers(5, size=(2, 2, 2)) + + if indexer_sli is tm.iloc: + err = ValueError + msg = f"Cannot set values with ndim > {obj.ndim}" + else: + err = ValueError + msg = "|".join( + [ + r"Buffer has wrong number of dimensions \(expected 1, got 3\)", + "Cannot set values with ndim > 1", + "Index data must be 1-dimensional", + "Data must be 1-dimensional", + "Array conditional must be same shape as self", + ] + ) + + with pytest.raises(err, match=msg): + idxr[nd3] = 0 + + def test_getitem_ndarray_0d(self): + # GH#24924 + key = np.array(0) + + # dataframe __getitem__ + df = DataFrame([[1, 2], [3, 4]]) + result = df[key] + expected = Series([1, 3], name=0) + tm.assert_series_equal(result, expected) + + # series __getitem__ + ser = Series([1, 2]) + result = ser[key] + assert result == 1 + + def test_inf_upcast(self): + # GH 16957 + # We should be able to use np.inf as a key + # np.inf should cause an index to convert to float + + # Test with np.inf in rows + df = DataFrame(columns=[0]) + df.loc[1] = 1 + df.loc[2] = 2 + df.loc[np.inf] = 3 + + # make sure we can look up the value + assert df.loc[np.inf, 0] == 3 + + result = df.index + expected = Index([1, 2, np.inf], dtype=np.float64) + tm.assert_index_equal(result, expected) + + def test_setitem_dtype_upcast(self): + # GH3216 + df = DataFrame([{"a": 1}, {"a": 3, "b": 2}]) + df["c"] = np.nan + assert df["c"].dtype == np.float64 + + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + df.loc[0, "c"] = "foo" + expected = DataFrame( + {"a": [1, 3], "b": [np.nan, 2], "c": Series(["foo", np.nan], dtype=object)} + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("val", [3.14, "wxyz"]) + def test_setitem_dtype_upcast2(self, val): + # GH10280 + df = DataFrame( + np.arange(6, dtype="int64").reshape(2, 3), + index=list("ab"), + columns=["foo", "bar", "baz"], + ) + + left = df.copy() + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + left.loc["a", "bar"] = val + right = DataFrame( + [[0, val, 2], [3, 4, 5]], + index=list("ab"), + columns=["foo", "bar", "baz"], + ) + + tm.assert_frame_equal(left, right) + assert is_integer_dtype(left["foo"]) + assert is_integer_dtype(left["baz"]) + + def test_setitem_dtype_upcast3(self): + left = DataFrame( + np.arange(6, dtype="int64").reshape(2, 3) / 10.0, + index=list("ab"), + columns=["foo", "bar", "baz"], + ) + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + left.loc["a", "bar"] = "wxyz" + + right = DataFrame( + [[0, "wxyz", 0.2], [0.3, 0.4, 0.5]], + index=list("ab"), + columns=["foo", "bar", "baz"], + ) + + tm.assert_frame_equal(left, right) + assert is_float_dtype(left["foo"]) + assert is_float_dtype(left["baz"]) + + def test_dups_fancy_indexing(self): + # GH 3455 + + df = DataFrame(np.eye(3), columns=["a", "a", "b"]) + result = df[["b", "a"]].columns + expected = Index(["b", "a", "a"]) + tm.assert_index_equal(result, expected) + + def test_dups_fancy_indexing_across_dtypes(self): + # across dtypes + df = DataFrame([[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]], columns=list("aaaaaaa")) + result = DataFrame([[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]]) + result.columns = list("aaaaaaa") # GH#3468 + + # GH#3509 smoke tests for indexing with duplicate columns + df.iloc[:, 4] + result.iloc[:, 4] + + tm.assert_frame_equal(df, result) + + def test_dups_fancy_indexing_not_in_order(self): + # GH 3561, dups not in selected order + df = DataFrame( + {"test": [5, 7, 9, 11], "test1": [4.0, 5, 6, 7], "other": list("abcd")}, + index=["A", "A", "B", "C"], + ) + rows = ["C", "B"] + expected = DataFrame( + {"test": [11, 9], "test1": [7.0, 6], "other": ["d", "c"]}, index=rows + ) + result = df.loc[rows] + tm.assert_frame_equal(result, expected) + + result = df.loc[Index(rows)] + tm.assert_frame_equal(result, expected) + + rows = ["C", "B", "E"] + with pytest.raises(KeyError, match="not in index"): + df.loc[rows] + + # see GH5553, make sure we use the right indexer + rows = ["F", "G", "H", "C", "B", "E"] + with pytest.raises(KeyError, match="not in index"): + df.loc[rows] + + def test_dups_fancy_indexing_only_missing_label(self, using_infer_string): + # List containing only missing label + dfnu = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), index=list("AABCD") + ) + if using_infer_string: + with pytest.raises( + KeyError, + match=re.escape( + "\"None of [Index(['E'], dtype='str')] are in the [index]\"" + ), + ): + dfnu.loc[["E"]] + else: + with pytest.raises( + KeyError, + match=re.escape( + "\"None of [Index(['E'], dtype='object')] are in the [index]\"" + ), + ): + dfnu.loc[["E"]] + + @pytest.mark.parametrize("vals", [[0, 1, 2], list("abc")]) + def test_dups_fancy_indexing_missing_label(self, vals): + # GH 4619; duplicate indexer with missing label + df = DataFrame({"A": vals}) + with pytest.raises(KeyError, match="not in index"): + df.loc[[0, 8, 0]] + + def test_dups_fancy_indexing_non_unique(self): + # non unique with non unique selector + df = DataFrame({"test": [5, 7, 9, 11]}, index=["A", "A", "B", "C"]) + with pytest.raises(KeyError, match="not in index"): + df.loc[["A", "A", "E"]] + + def test_dups_fancy_indexing2(self): + # GH 5835 + # dups on index and missing values + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 5)), + columns=["A", "B", "B", "B", "A"], + ) + + with pytest.raises(KeyError, match="not in index"): + df.loc[:, ["A", "B", "C"]] + + def test_dups_fancy_indexing3(self): + # GH 6504, multi-axis indexing + df = DataFrame( + np.random.default_rng(2).standard_normal((9, 2)), + index=[1, 1, 1, 2, 2, 2, 3, 3, 3], + columns=["a", "b"], + ) + + expected = df.iloc[0:6] + result = df.loc[[1, 2]] + tm.assert_frame_equal(result, expected) + + expected = df + result = df.loc[:, ["a", "b"]] + tm.assert_frame_equal(result, expected) + + expected = df.iloc[0:6, :] + result = df.loc[[1, 2], ["a", "b"]] + tm.assert_frame_equal(result, expected) + + def test_duplicate_int_indexing(self, indexer_sl): + # GH 17347 + ser = Series(range(3), index=[1, 1, 3]) + expected = Series(range(2), index=[1, 1]) + result = indexer_sl(ser)[[1]] + tm.assert_series_equal(result, expected) + + def test_indexing_mixed_frame_bug(self): + # GH3492 + df = DataFrame( + {"a": {1: "aaa", 2: "bbb", 3: "ccc"}, "b": {1: 111, 2: 222, 3: 333}} + ) + + # this works, new column is created correctly + df["test"] = df["a"].apply(lambda x: "_" if x == "aaa" else x) + + # this does not work, ie column test is not changed + idx = df["test"] == "_" + temp = df.loc[idx, "a"].apply(lambda x: "-----" if x == "aaa" else x) + df.loc[idx, "test"] = temp + assert df.iloc[0, 2] == "-----" + + def test_multitype_list_index_access(self): + # GH 10610 + df = DataFrame( + np.random.default_rng(2).random((10, 5)), columns=["a"] + [20, 21, 22, 23] + ) + + with pytest.raises(KeyError, match=re.escape("'[26, -8] not in index'")): + df[[22, 26, -8]] + assert df[21].shape[0] == df.shape[0] + + def test_set_index_nan(self): + # GH 3586 + df = DataFrame( + { + "PRuid": { + 17: "nonQC", + 18: "nonQC", + 19: "nonQC", + 20: "10", + 21: "11", + 22: "12", + 23: "13", + 24: "24", + 25: "35", + 26: "46", + 27: "47", + 28: "48", + 29: "59", + 30: "10", + }, + "QC": { + 17: 0.0, + 18: 0.0, + 19: 0.0, + 20: np.nan, + 21: np.nan, + 22: np.nan, + 23: np.nan, + 24: 1.0, + 25: np.nan, + 26: np.nan, + 27: np.nan, + 28: np.nan, + 29: np.nan, + 30: np.nan, + }, + "data": { + 17: 7.9544899999999998, + 18: 8.0142609999999994, + 19: 7.8591520000000008, + 20: 0.86140349999999999, + 21: 0.87853110000000001, + 22: 0.8427041999999999, + 23: 0.78587700000000005, + 24: 0.73062459999999996, + 25: 0.81668560000000001, + 26: 0.81927080000000008, + 27: 0.80705009999999999, + 28: 0.81440240000000008, + 29: 0.80140849999999997, + 30: 0.81307740000000006, + }, + "year": { + 17: 2006, + 18: 2007, + 19: 2008, + 20: 1985, + 21: 1985, + 22: 1985, + 23: 1985, + 24: 1985, + 25: 1985, + 26: 1985, + 27: 1985, + 28: 1985, + 29: 1985, + 30: 1986, + }, + } + ).reset_index() + + result = ( + df.set_index(["year", "PRuid", "QC"]) + .reset_index() + .reindex(columns=df.columns) + ) + tm.assert_frame_equal(result, df) + + def test_multi_assign(self): + # GH 3626, an assignment of a sub-df to a df + # set float64 to avoid upcast when setting nan + df = DataFrame( + { + "FC": ["a", "b", "a", "b", "a", "b"], + "PF": [0, 0, 0, 0, 1, 1], + "col1": list(range(6)), + "col2": list(range(6, 12)), + } + ).astype({"col2": "float64"}) + df.iloc[1, 0] = np.nan + df2 = df.copy() + + mask = ~df2.FC.isna() + cols = ["col1", "col2"] + + dft = df2 * 2 + dft.iloc[3, 3] = np.nan + + expected = DataFrame( + { + "FC": ["a", np.nan, "a", "b", "a", "b"], + "PF": [0, 0, 0, 0, 1, 1], + "col1": Series([0, 1, 4, 6, 8, 10]), + "col2": [12, 7, 16, np.nan, 20, 22], + } + ) + + # frame on rhs + df2.loc[mask, cols] = dft.loc[mask, cols] + tm.assert_frame_equal(df2, expected) + + # with an ndarray on rhs + # coerces to float64 because values has float64 dtype + # GH 14001 + expected = DataFrame( + { + "FC": ["a", np.nan, "a", "b", "a", "b"], + "PF": [0, 0, 0, 0, 1, 1], + "col1": [0, 1, 4, 6, 8, 10], + "col2": [12, 7, 16, np.nan, 20, 22], + } + ) + df2 = df.copy() + df2.loc[mask, cols] = dft.loc[mask, cols].values + tm.assert_frame_equal(df2, expected) + + def test_multi_assign_broadcasting_rhs(self): + # broadcasting on the rhs is required + df = DataFrame( + { + "A": [1, 2, 0, 0, 0], + "B": [0, 0, 0, 10, 11], + "C": [0, 0, 0, 10, 11], + "D": [3, 4, 5, 6, 7], + } + ) + + expected = df.copy() + mask = expected["A"] == 0 + for col in ["A", "B"]: + expected.loc[mask, col] = df["D"] + + df.loc[df["A"] == 0, ["A", "B"]] = df["D"].copy() + tm.assert_frame_equal(df, expected) + + def test_setitem_list(self): + # GH 6043 + # iloc with a list + df = DataFrame(index=[0, 1], columns=[0]) + df.iloc[1, 0] = [1, 2, 3] + df.iloc[1, 0] = [1, 2] + + result = DataFrame(index=[0, 1], columns=[0]) + result.iloc[1, 0] = [1, 2] + + tm.assert_frame_equal(result, df) + + def test_string_slice(self): + # GH 14424 + # string indexing against datetimelike with object + # dtype should properly raises KeyError + df = DataFrame([1], Index([pd.Timestamp("2011-01-01")], dtype=object)) + assert df.index._is_all_dates + with pytest.raises(KeyError, match="'2011'"): + df["2011"] + + with pytest.raises(KeyError, match="'2011'"): + df.loc["2011", 0] + + def test_string_slice_empty(self): + # GH 14424 + + df = DataFrame() + assert not df.index._is_all_dates + with pytest.raises(KeyError, match="'2011'"): + df["2011"] + + with pytest.raises(KeyError, match="^0$"): + df.loc["2011", 0] + + def test_astype_assignment(self, using_infer_string): + # GH4312 (iloc) + df_orig = DataFrame( + [["1", "2", "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") + ) + df_orig[list("ABCDG")] = df_orig[list("ABCDG")].astype(object) + + df = df_orig.copy() + + # with the enforcement of GH#45333 in 2.0, this setting is attempted inplace, + # so object dtype is retained + df.iloc[:, 0:2] = df.iloc[:, 0:2].astype(np.int64) + expected = DataFrame( + [[1, 2, "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") + ) + expected[list("CDG")] = expected[list("CDG")].astype(object) + expected["A"] = expected["A"].astype(object) + expected["B"] = expected["B"].astype(object) + tm.assert_frame_equal(df, expected) + + # GH5702 (loc) + df = df_orig.copy() + df.loc[:, "A"] = df.loc[:, "A"].astype(np.int64) + expected = DataFrame( + [[1, "2", "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") + ) + expected[list("ABCDG")] = expected[list("ABCDG")].astype(object) + tm.assert_frame_equal(df, expected) + + df = df_orig.copy() + + df.loc[:, ["B", "C"]] = df.loc[:, ["B", "C"]].astype(np.int64) + expected = DataFrame( + [["1", 2, 3, ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") + ) + expected[list("ABCDG")] = expected[list("ABCDG")].astype(object) + tm.assert_frame_equal(df, expected) + + def test_astype_assignment_full_replacements(self): + # full replacements / no nans + df = DataFrame({"A": [1.0, 2.0, 3.0, 4.0]}) + + # With the enforcement of GH#45333 in 2.0, this assignment occurs inplace, + # so float64 is retained + df.iloc[:, 0] = df["A"].astype(np.int64) + expected = DataFrame({"A": [1.0, 2.0, 3.0, 4.0]}) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"A": [1.0, 2.0, 3.0, 4.0]}) + df.loc[:, "A"] = df["A"].astype(np.int64) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize("indexer", [tm.getitem, tm.loc]) + def test_index_type_coercion(self, indexer): + # GH 11836 + # if we have an index type and set it with something that looks + # to numpy like the same, but is actually, not + # (e.g. setting with a float or string '0') + # then we need to coerce to object + + # integer indexes + for s in [Series(range(5)), Series(range(5), index=range(1, 6))]: + assert is_integer_dtype(s.index) + + s2 = s.copy() + indexer(s2)[0.1] = 0 + assert is_float_dtype(s2.index) + assert indexer(s2)[0.1] == 0 + + s2 = s.copy() + indexer(s2)[0.0] = 0 + exp = s.index + if 0 not in s: + exp = Index(s.index.tolist() + [0]) + tm.assert_index_equal(s2.index, exp) + + s2 = s.copy() + indexer(s2)["0"] = 0 + assert is_object_dtype(s2.index) + + for s in [Series(range(5), index=np.arange(5.0))]: + assert is_float_dtype(s.index) + + s2 = s.copy() + indexer(s2)[0.1] = 0 + assert is_float_dtype(s2.index) + assert indexer(s2)[0.1] == 0 + + s2 = s.copy() + indexer(s2)[0.0] = 0 + tm.assert_index_equal(s2.index, s.index) + + s2 = s.copy() + indexer(s2)["0"] = 0 + assert is_object_dtype(s2.index) + + +class TestMisc: + def test_float_index_to_mixed(self): + df = DataFrame( + { + 0.0: np.random.default_rng(2).random(10), + 1.0: np.random.default_rng(2).random(10), + } + ) + df["a"] = 10 + + expected = DataFrame({0.0: df[0.0], 1.0: df[1.0], "a": [10] * 10}) + tm.assert_frame_equal(expected, df) + + def test_float_index_non_scalar_assignment(self): + df = DataFrame({"a": [1, 2, 3], "b": [3, 4, 5]}, index=[1.0, 2.0, 3.0]) + df.loc[df.index[:2]] = 1 + expected = DataFrame({"a": [1, 1, 3], "b": [1, 1, 5]}, index=df.index) + tm.assert_frame_equal(expected, df) + + def test_loc_setitem_fullindex_views(self): + df = DataFrame({"a": [1, 2, 3], "b": [3, 4, 5]}, index=[1.0, 2.0, 3.0]) + df2 = df.copy() + df.loc[df.index] = df.loc[df.index] + tm.assert_frame_equal(df, df2) + + def test_rhs_alignment(self, using_infer_string): + # GH8258, tests that both rows & columns are aligned to what is + # assigned to. covers both uniform data-type & multi-type cases + def run_tests(df, rhs, right_loc, right_iloc): + # label, index, slice + lbl_one, idx_one, slice_one = list("bcd"), [1, 2, 3], slice(1, 4) + lbl_two, idx_two, slice_two = ["joe", "jolie"], [1, 2], slice(1, 3) + + left = df.copy() + left.loc[lbl_one, lbl_two] = rhs + tm.assert_frame_equal(left, right_loc) + + left = df.copy() + left.iloc[idx_one, idx_two] = rhs + tm.assert_frame_equal(left, right_iloc) + + left = df.copy() + left.iloc[slice_one, slice_two] = rhs + tm.assert_frame_equal(left, right_iloc) + + xs = np.arange(20).reshape(5, 4) + cols = ["jim", "joe", "jolie", "joline"] + df = DataFrame(xs, columns=cols, index=list("abcde"), dtype="int64") + + # right hand side; permute the indices and multiplpy by -2 + rhs = -2 * df.iloc[3:0:-1, 2:0:-1] + + # expected `right` result; just multiply by -2 + right_iloc = df.copy() + right_iloc["joe"] = [1, 14, 10, 6, 17] + right_iloc["jolie"] = [2, 13, 9, 5, 18] + right_iloc.iloc[1:4, 1:3] *= -2 + right_loc = df.copy() + right_loc.iloc[1:4, 1:3] *= -2 + + # run tests with uniform dtypes + run_tests(df, rhs, right_loc, right_iloc) + + # make frames multi-type & re-run tests + for frame in [df, rhs, right_loc, right_iloc]: + frame["joe"] = frame["joe"].astype("float64") + frame["jolie"] = frame["jolie"].map(lambda x: f"@{x}") + right_iloc["joe"] = [1.0, "@-28", "@-20", "@-12", 17.0] + right_iloc["jolie"] = ["@2", -26.0, -18.0, -10.0, "@18"] + if using_infer_string: + with pytest.raises(TypeError, match="Invalid value"): + with tm.assert_produces_warning( + FutureWarning, match="incompatible dtype" + ): + run_tests(df, rhs, right_loc, right_iloc) + else: + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + run_tests(df, rhs, right_loc, right_iloc) + + @pytest.mark.parametrize( + "idx", [_mklbl("A", 20), np.arange(20) + 100, np.linspace(100, 150, 20)] + ) + def test_str_label_slicing_with_negative_step(self, idx): + SLC = pd.IndexSlice + + idx = Index(idx) + ser = Series(np.arange(20), index=idx) + tm.assert_indexing_slices_equivalent(ser, SLC[idx[9] :: -1], SLC[9::-1]) + tm.assert_indexing_slices_equivalent(ser, SLC[: idx[9] : -1], SLC[:8:-1]) + tm.assert_indexing_slices_equivalent( + ser, SLC[idx[13] : idx[9] : -1], SLC[13:8:-1] + ) + tm.assert_indexing_slices_equivalent(ser, SLC[idx[9] : idx[13] : -1], SLC[:0]) + + def test_slice_with_zero_step_raises(self, index, indexer_sl, frame_or_series): + obj = frame_or_series(np.arange(len(index)), index=index) + with pytest.raises(ValueError, match="slice step cannot be zero"): + indexer_sl(obj)[::0] + + def test_loc_setitem_indexing_assignment_dict_already_exists(self): + index = Index([-5, 0, 5], name="z") + df = DataFrame({"x": [1, 2, 6], "y": [2, 2, 8]}, index=index) + expected = df.copy() + rhs = {"x": 9, "y": 99} + df.loc[5] = rhs + expected.loc[5] = [9, 99] + tm.assert_frame_equal(df, expected) + + # GH#38335 same thing, mixed dtypes + df = DataFrame({"x": [1, 2, 6], "y": [2.0, 2.0, 8.0]}, index=index) + df.loc[5] = rhs + expected = DataFrame({"x": [1, 2, 9], "y": [2.0, 2.0, 99.0]}, index=index) + tm.assert_frame_equal(df, expected) + + def test_iloc_getitem_indexing_dtypes_on_empty(self): + # Check that .iloc returns correct dtypes GH9983 + df = DataFrame({"a": [1, 2, 3], "b": ["b", "b2", "b3"]}) + df2 = df.iloc[[], :] + + assert df2.loc[:, "a"].dtype == np.int64 + tm.assert_series_equal(df2.loc[:, "a"], df2.iloc[:, 0]) + + @pytest.mark.parametrize("size", [5, 999999, 1000000]) + def test_loc_range_in_series_indexing(self, size): + # range can cause an indexing error + # GH 11652 + s = Series(index=range(size), dtype=np.float64) + s.loc[range(1)] = 42 + tm.assert_series_equal(s.loc[range(1)], Series(42.0, index=[0])) + + s.loc[range(2)] = 43 + tm.assert_series_equal(s.loc[range(2)], Series(43.0, index=[0, 1])) + + def test_partial_boolean_frame_indexing(self): + # GH 17170 + df = DataFrame( + np.arange(9.0).reshape(3, 3), index=list("abc"), columns=list("ABC") + ) + index_df = DataFrame(1, index=list("ab"), columns=list("AB")) + result = df[index_df.notnull()] + expected = DataFrame( + np.array([[0.0, 1.0, np.nan], [3.0, 4.0, np.nan], [np.nan] * 3]), + index=list("abc"), + columns=list("ABC"), + ) + tm.assert_frame_equal(result, expected) + + def test_no_reference_cycle(self): + df = DataFrame({"a": [0, 1], "b": [2, 3]}) + for name in ("loc", "iloc", "at", "iat"): + getattr(df, name) + wr = weakref.ref(df) + del df + assert wr() is None + + def test_label_indexing_on_nan(self, nulls_fixture): + # GH 32431 + df = Series([1, "{1,2}", 1, nulls_fixture]) + vc = df.value_counts(dropna=False) + result1 = vc.loc[nulls_fixture] + result2 = vc[nulls_fixture] + + expected = 1 + assert result1 == expected + assert result2 == expected + + +class TestDataframeNoneCoercion: + EXPECTED_SINGLE_ROW_RESULTS = [ + # For numeric series, we should coerce to NaN. + ([1, 2, 3], [np.nan, 2, 3], FutureWarning), + ([1.0, 2.0, 3.0], [np.nan, 2.0, 3.0], None), + # For datetime series, we should coerce to NaT. + ( + [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + [NaT, datetime(2000, 1, 2), datetime(2000, 1, 3)], + None, + ), + # For objects, we should preserve the None value. + (["foo", "bar", "baz"], [None, "bar", "baz"], None), + ] + + @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) + def test_coercion_with_loc(self, expected): + start_data, expected_result, warn = expected + + start_dataframe = DataFrame({"foo": start_data}) + start_dataframe.loc[0, ["foo"]] = None + + expected_dataframe = DataFrame({"foo": expected_result}) + tm.assert_frame_equal(start_dataframe, expected_dataframe) + + @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) + def test_coercion_with_setitem_and_dataframe(self, expected): + start_data, expected_result, warn = expected + + start_dataframe = DataFrame({"foo": start_data}) + start_dataframe[start_dataframe["foo"] == start_dataframe["foo"][0]] = None + + expected_dataframe = DataFrame({"foo": expected_result}) + tm.assert_frame_equal(start_dataframe, expected_dataframe) + + @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) + def test_none_coercion_loc_and_dataframe(self, expected): + start_data, expected_result, warn = expected + + start_dataframe = DataFrame({"foo": start_data}) + start_dataframe.loc[start_dataframe["foo"] == start_dataframe["foo"][0]] = None + + expected_dataframe = DataFrame({"foo": expected_result}) + tm.assert_frame_equal(start_dataframe, expected_dataframe) + + def test_none_coercion_mixed_dtypes(self): + start_dataframe = DataFrame( + { + "a": [1, 2, 3], + "b": [1.0, 2.0, 3.0], + "c": [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], + "d": ["a", "b", "c"], + } + ) + start_dataframe.iloc[0] = None + + exp = DataFrame( + { + "a": [np.nan, 2, 3], + "b": [np.nan, 2.0, 3.0], + "c": [NaT, datetime(2000, 1, 2), datetime(2000, 1, 3)], + "d": [None, "b", "c"], + } + ) + tm.assert_frame_equal(start_dataframe, exp) + + +class TestDatetimelikeCoercion: + def test_setitem_dt64_string_scalar(self, tz_naive_fixture, indexer_sli): + # dispatching _can_hold_element to underlying DatetimeArray + tz = tz_naive_fixture + + dti = date_range("2016-01-01", periods=3, tz=tz) + ser = Series(dti.copy(deep=True)) + + values = ser._values + + newval = "2018-01-01" + values._validate_setitem_value(newval) + + indexer_sli(ser)[0] = newval + + if tz is None: + # TODO(EA2D): we can make this no-copy in tz-naive case too + assert ser.dtype == dti.dtype + assert ser._values._ndarray is values._ndarray + else: + assert ser._values is values + + @pytest.mark.parametrize("box", [list, np.array, pd.array, pd.Categorical, Index]) + @pytest.mark.parametrize( + "key", [[0, 1], slice(0, 2), np.array([True, True, False])] + ) + def test_setitem_dt64_string_values(self, tz_naive_fixture, indexer_sli, key, box): + # dispatching _can_hold_element to underling DatetimeArray + tz = tz_naive_fixture + + if isinstance(key, slice) and indexer_sli is tm.loc: + key = slice(0, 1) + + dti = date_range("2016-01-01", periods=3, tz=tz) + ser = Series(dti.copy(deep=True)) + + values = ser._values + + newvals = box(["2019-01-01", "2010-01-02"]) + values._validate_setitem_value(newvals) + + indexer_sli(ser)[key] = newvals + + if tz is None: + # TODO(EA2D): we can make this no-copy in tz-naive case too + assert ser.dtype == dti.dtype + assert ser._values._ndarray is values._ndarray + else: + assert ser._values is values + + @pytest.mark.parametrize("scalar", ["3 Days", offsets.Hour(4)]) + def test_setitem_td64_scalar(self, indexer_sli, scalar): + # dispatching _can_hold_element to underling TimedeltaArray + tdi = timedelta_range("1 Day", periods=3) + ser = Series(tdi.copy(deep=True)) + + values = ser._values + values._validate_setitem_value(scalar) + + indexer_sli(ser)[0] = scalar + assert ser._values._ndarray is values._ndarray + + @pytest.mark.parametrize("box", [list, np.array, pd.array, pd.Categorical, Index]) + @pytest.mark.parametrize( + "key", [[0, 1], slice(0, 2), np.array([True, True, False])] + ) + def test_setitem_td64_string_values(self, indexer_sli, key, box): + # dispatching _can_hold_element to underling TimedeltaArray + if isinstance(key, slice) and indexer_sli is tm.loc: + key = slice(0, 1) + + tdi = timedelta_range("1 Day", periods=3) + ser = Series(tdi.copy(deep=True)) + + values = ser._values + + newvals = box(["10 Days", "44 hours"]) + values._validate_setitem_value(newvals) + + indexer_sli(ser)[key] = newvals + assert ser._values._ndarray is values._ndarray + + +def test_extension_array_cross_section(): + # A cross-section of a homogeneous EA should be an EA + df = DataFrame( + { + "A": pd.array([1, 2], dtype="Int64"), + "B": pd.array([3, 4], dtype="Int64"), + }, + index=["a", "b"], + ) + expected = Series(pd.array([1, 3], dtype="Int64"), index=["A", "B"], name="a") + result = df.loc["a"] + tm.assert_series_equal(result, expected) + + result = df.iloc[0] + tm.assert_series_equal(result, expected) + + +def test_extension_array_cross_section_converts(): + # all numeric columns -> numeric series + df = DataFrame( + { + "A": pd.array([1, 2], dtype="Int64"), + "B": np.array([1, 2], dtype="int64"), + }, + index=["a", "b"], + ) + result = df.loc["a"] + expected = Series([1, 1], dtype="Int64", index=["A", "B"], name="a") + tm.assert_series_equal(result, expected) + + result = df.iloc[0] + tm.assert_series_equal(result, expected) + + # mixed columns -> object series + df = DataFrame( + {"A": pd.array([1, 2], dtype="Int64"), "B": np.array(["a", "b"])}, + index=["a", "b"], + ) + result = df.loc["a"] + expected = Series([1, "a"], dtype=object, index=["A", "B"], name="a") + tm.assert_series_equal(result, expected) + + result = df.iloc[0] + tm.assert_series_equal(result, expected) + + +@pytest.mark.parametrize( + "ser, keys", + [(Series([10]), (0, 0)), (Series([1, 2, 3], index=list("abc")), (0, 1))], +) +def test_ser_tup_indexer_exceeds_dimensions(ser, keys, indexer_li): + # GH#13831 + exp_err, exp_msg = IndexingError, "Too many indexers" + with pytest.raises(exp_err, match=exp_msg): + indexer_li(ser)[keys] + + if indexer_li == tm.iloc: + # For iloc.__setitem__ we let numpy handle the error reporting. + exp_err, exp_msg = IndexError, "too many indices for array" + + with pytest.raises(exp_err, match=exp_msg): + indexer_li(ser)[keys] = 0 + + +def test_ser_list_indexer_exceeds_dimensions(indexer_li): + # GH#13831 + # Make sure an exception is raised when a tuple exceeds the dimension of the series, + # but not list when a list is used. + ser = Series([10]) + res = indexer_li(ser)[[0, 0]] + exp = Series([10, 10], index=Index([0, 0])) + tm.assert_series_equal(res, exp) + + +@pytest.mark.parametrize( + "value", [(0, 1), [0, 1], np.array([0, 1]), array.array("b", [0, 1])] +) +def test_scalar_setitem_with_nested_value(value): + # For numeric data, we try to unpack and thus raise for mismatching length + df = DataFrame({"A": [1, 2, 3]}) + msg = "|".join( + [ + "Must have equal len keys and value", + "setting an array element with a sequence", + ] + ) + with pytest.raises(ValueError, match=msg): + df.loc[0, "B"] = value + + # TODO For object dtype this happens as well, but should we rather preserve + # the nested data and set as such? + df = DataFrame({"A": [1, 2, 3], "B": np.array([1, "a", "b"], dtype=object)}) + with pytest.raises(ValueError, match="Must have equal len keys and value"): + df.loc[0, "B"] = value + # if isinstance(value, np.ndarray): + # assert (df.loc[0, "B"] == value).all() + # else: + # assert df.loc[0, "B"] == value + + +@pytest.mark.parametrize( + "value", [(0, 1), [0, 1], np.array([0, 1]), array.array("b", [0, 1])] +) +def test_scalar_setitem_series_with_nested_value(value, indexer_sli): + # For numeric data, we try to unpack and thus raise for mismatching length + ser = Series([1, 2, 3]) + with pytest.raises(ValueError, match="setting an array element with a sequence"): + indexer_sli(ser)[0] = value + + # but for object dtype we preserve the nested data and set as such + ser = Series([1, "a", "b"], dtype=object) + indexer_sli(ser)[0] = value + if isinstance(value, np.ndarray): + assert (ser.loc[0] == value).all() + else: + assert ser.loc[0] == value + + +@pytest.mark.parametrize( + "value", [(0.0,), [0.0], np.array([0.0]), array.array("d", [0.0])] +) +def test_scalar_setitem_with_nested_value_length1(value): + # https://github.com/pandas-dev/pandas/issues/46268 + + # For numeric data, assigning length-1 array to scalar position gets unpacked + df = DataFrame({"A": [1, 2, 3]}) + df.loc[0, "B"] = value + expected = DataFrame({"A": [1, 2, 3], "B": [0.0, np.nan, np.nan]}) + tm.assert_frame_equal(df, expected) + + # but for object dtype we preserve the nested data + df = DataFrame({"A": [1, 2, 3], "B": np.array([1, "a", "b"], dtype=object)}) + df.loc[0, "B"] = value + if isinstance(value, np.ndarray): + assert (df.loc[0, "B"] == value).all() + else: + assert df.loc[0, "B"] == value + + +@pytest.mark.parametrize( + "value", [(0.0,), [0.0], np.array([0.0]), array.array("d", [0.0])] +) +def test_scalar_setitem_series_with_nested_value_length1(value, indexer_sli): + # For numeric data, assigning length-1 array to scalar position gets unpacked + # TODO this only happens in case of ndarray, should we make this consistent + # for all list-likes? (as happens for DataFrame.(i)loc, see test above) + ser = Series([1.0, 2.0, 3.0]) + if isinstance(value, np.ndarray): + indexer_sli(ser)[0] = value + expected = Series([0.0, 2.0, 3.0]) + tm.assert_series_equal(ser, expected) + else: + with pytest.raises( + ValueError, match="setting an array element with a sequence" + ): + indexer_sli(ser)[0] = value + + # but for object dtype we preserve the nested data + ser = Series([1, "a", "b"], dtype=object) + indexer_sli(ser)[0] = value + if isinstance(value, np.ndarray): + assert (ser.loc[0] == value).all() + else: + assert ser.loc[0] == value + + +def test_object_dtype_series_set_series_element(): + # GH 48933 + s1 = Series(dtype="O", index=["a", "b"]) + + s1["a"] = Series() + s1.loc["b"] = Series() + + tm.assert_series_equal(s1.loc["a"], Series()) + tm.assert_series_equal(s1.loc["b"], Series()) + + s2 = Series(dtype="O", index=["a", "b"]) + + s2.iloc[1] = Series() + tm.assert_series_equal(s2.iloc[1], Series()) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_loc.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_loc.py new file mode 100644 index 0000000000000000000000000000000000000000..bb22a6d40308607528cf76620cd472c885ec6ef3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_loc.py @@ -0,0 +1,3392 @@ +""" test label based indexing with loc """ +from collections import namedtuple +import contextlib +from datetime import ( + date, + datetime, + time, + timedelta, +) +import re + +from dateutil.tz import gettz +import numpy as np +import pytest + +from pandas._config import using_string_dtype + +from pandas._libs import index as libindex +from pandas.compat.numpy import np_version_gt2 +from pandas.errors import IndexingError +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + Categorical, + CategoricalDtype, + CategoricalIndex, + DataFrame, + DatetimeIndex, + Index, + IndexSlice, + MultiIndex, + Period, + PeriodIndex, + Series, + SparseDtype, + Timedelta, + Timestamp, + date_range, + timedelta_range, + to_datetime, + to_timedelta, +) +import pandas._testing as tm +from pandas.api.types import is_scalar +from pandas.core.indexing import _one_ellipsis_message +from pandas.tests.indexing.common import check_indexing_smoketest_or_raises + + +@pytest.mark.parametrize( + "series, new_series, expected_ser", + [ + [[np.nan, np.nan, "b"], ["a", np.nan, np.nan], [False, True, True]], + [[np.nan, "b"], ["a", np.nan], [False, True]], + ], +) +def test_not_change_nan_loc(series, new_series, expected_ser): + # GH 28403 + df = DataFrame({"A": series}) + df.loc[:, "A"] = new_series + expected = DataFrame({"A": expected_ser}) + tm.assert_frame_equal(df.isna(), expected) + tm.assert_frame_equal(df.notna(), ~expected) + + +class TestLoc: + def test_none_values_on_string_columns(self, using_infer_string): + # Issue #32218 + df = DataFrame(["1", "2", None], columns=["a"], dtype=object) + assert df.loc[2, "a"] is None + + df = DataFrame(["1", "2", None], columns=["a"], dtype="str") + if using_infer_string: + assert np.isnan(df.loc[2, "a"]) + else: + assert df.loc[2, "a"] is None + + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_int(self, kind, request): + # int label + obj = request.getfixturevalue(f"{kind}_labels") + check_indexing_smoketest_or_raises(obj, "loc", 2, fails=KeyError) + + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label(self, kind, request): + # label + obj = request.getfixturevalue(f"{kind}_empty") + check_indexing_smoketest_or_raises(obj, "loc", "c", fails=KeyError) + + @pytest.mark.parametrize( + "key, typs, axes", + [ + ["f", ["ints", "uints", "labels", "mixed", "ts"], None], + ["f", ["floats"], None], + [20, ["ints", "uints", "mixed"], None], + [20, ["labels"], None], + [20, ["ts"], 0], + [20, ["floats"], 0], + ], + ) + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label_out_of_range(self, key, typs, axes, kind, request): + for typ in typs: + obj = request.getfixturevalue(f"{kind}_{typ}") + # out of range label + check_indexing_smoketest_or_raises( + obj, "loc", key, axes=axes, fails=KeyError + ) + + @pytest.mark.parametrize( + "key, typs", + [ + [[0, 1, 2], ["ints", "uints", "floats"]], + [[1, 3.0, "A"], ["ints", "uints", "floats"]], + ], + ) + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label_list(self, key, typs, kind, request): + for typ in typs: + obj = request.getfixturevalue(f"{kind}_{typ}") + # list of labels + check_indexing_smoketest_or_raises(obj, "loc", key, fails=KeyError) + + @pytest.mark.parametrize( + "key, typs, axes", + [ + [[0, 1, 2], ["empty"], None], + [[0, 2, 10], ["ints", "uints", "floats"], 0], + [[3, 6, 7], ["ints", "uints", "floats"], 1], + # GH 17758 - MultiIndex and missing keys + [[(1, 3), (1, 4), (2, 5)], ["multi"], 0], + ], + ) + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label_list_with_missing(self, key, typs, axes, kind, request): + for typ in typs: + obj = request.getfixturevalue(f"{kind}_{typ}") + check_indexing_smoketest_or_raises( + obj, "loc", key, axes=axes, fails=KeyError + ) + + @pytest.mark.parametrize("typs", ["ints", "uints"]) + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label_list_fails(self, typs, kind, request): + # fails + obj = request.getfixturevalue(f"{kind}_{typs}") + check_indexing_smoketest_or_raises( + obj, "loc", [20, 30, 40], axes=1, fails=KeyError + ) + + def test_loc_getitem_label_array_like(self): + # TODO: test something? + # array like + pass + + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_bool(self, kind, request): + obj = request.getfixturevalue(f"{kind}_empty") + # boolean indexers + b = [True, False, True, False] + + check_indexing_smoketest_or_raises(obj, "loc", b, fails=IndexError) + + @pytest.mark.parametrize( + "slc, typs, axes, fails", + [ + [ + slice(1, 3), + ["labels", "mixed", "empty", "ts", "floats"], + None, + TypeError, + ], + [slice("20130102", "20130104"), ["ts"], 1, TypeError], + [slice(2, 8), ["mixed"], 0, TypeError], + [slice(2, 8), ["mixed"], 1, KeyError], + [slice(2, 4, 2), ["mixed"], 0, TypeError], + ], + ) + @pytest.mark.parametrize("kind", ["series", "frame"]) + def test_loc_getitem_label_slice(self, slc, typs, axes, fails, kind, request): + # label slices (with ints) + + # real label slices + + # GH 14316 + for typ in typs: + obj = request.getfixturevalue(f"{kind}_{typ}") + check_indexing_smoketest_or_raises( + obj, + "loc", + slc, + axes=axes, + fails=fails, + ) + + def test_setitem_from_duplicate_axis(self): + # GH#34034 + df = DataFrame( + [[20, "a"], [200, "a"], [200, "a"]], + columns=["col1", "col2"], + index=[10, 1, 1], + ) + df.loc[1, "col1"] = np.arange(2) + expected = DataFrame( + [[20, "a"], [0, "a"], [1, "a"]], columns=["col1", "col2"], index=[10, 1, 1] + ) + tm.assert_frame_equal(df, expected) + + def test_column_types_consistent(self): + # GH 26779 + df = DataFrame( + data={ + "channel": [1, 2, 3], + "A": ["String 1", np.nan, "String 2"], + "B": [ + Timestamp("2019-06-11 11:00:00"), + pd.NaT, + Timestamp("2019-06-11 12:00:00"), + ], + } + ) + df2 = DataFrame( + data={"A": ["String 3"], "B": [Timestamp("2019-06-11 12:00:00")]} + ) + # Change Columns A and B to df2.values wherever Column A is NaN + df.loc[df["A"].isna(), ["A", "B"]] = df2.values + expected = DataFrame( + data={ + "channel": [1, 2, 3], + "A": ["String 1", "String 3", "String 2"], + "B": [ + Timestamp("2019-06-11 11:00:00"), + Timestamp("2019-06-11 12:00:00"), + Timestamp("2019-06-11 12:00:00"), + ], + } + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "obj, key, exp", + [ + ( + DataFrame([[1]], columns=Index([False])), + IndexSlice[:, False], + Series([1], name=False), + ), + (Series([1], index=Index([False])), False, [1]), + (DataFrame([[1]], index=Index([False])), False, Series([1], name=False)), + ], + ) + def test_loc_getitem_single_boolean_arg(self, obj, key, exp): + # GH 44322 + res = obj.loc[key] + if isinstance(exp, (DataFrame, Series)): + tm.assert_equal(res, exp) + else: + assert res == exp + + +class TestLocBaseIndependent: + # Tests for loc that do not depend on subclassing Base + def test_loc_npstr(self): + # GH#45580 + df = DataFrame(index=date_range("2021", "2022")) + result = df.loc[np.array(["2021/6/1"])[0] :] + expected = df.iloc[151:] + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "msg, key", + [ + (r"Period\('2019', 'Y-DEC'\), 'foo', 'bar'", (Period(2019), "foo", "bar")), + (r"Period\('2019', 'Y-DEC'\), 'y1', 'bar'", (Period(2019), "y1", "bar")), + (r"Period\('2019', 'Y-DEC'\), 'foo', 'z1'", (Period(2019), "foo", "z1")), + ( + r"Period\('2018', 'Y-DEC'\), Period\('2016', 'Y-DEC'\), 'bar'", + (Period(2018), Period(2016), "bar"), + ), + (r"Period\('2018', 'Y-DEC'\), 'foo', 'y1'", (Period(2018), "foo", "y1")), + ( + r"Period\('2017', 'Y-DEC'\), 'foo', Period\('2015', 'Y-DEC'\)", + (Period(2017), "foo", Period(2015)), + ), + (r"Period\('2017', 'Y-DEC'\), 'z1', 'bar'", (Period(2017), "z1", "bar")), + ], + ) + def test_contains_raise_error_if_period_index_is_in_multi_index(self, msg, key): + # GH#20684 + """ + parse_datetime_string_with_reso return parameter if type not matched. + PeriodIndex.get_loc takes returned value from parse_datetime_string_with_reso + as a tuple. + If first argument is Period and a tuple has 3 items, + process go on not raise exception + """ + df = DataFrame( + { + "A": [Period(2019), "x1", "x2"], + "B": [Period(2018), Period(2016), "y1"], + "C": [Period(2017), "z1", Period(2015)], + "V1": [1, 2, 3], + "V2": [10, 20, 30], + } + ).set_index(["A", "B", "C"]) + with pytest.raises(KeyError, match=msg): + df.loc[key] + + def test_loc_getitem_missing_unicode_key(self): + df = DataFrame({"a": [1]}) + with pytest.raises(KeyError, match="\u05d0"): + df.loc[:, "\u05d0"] # should not raise UnicodeEncodeError + + def test_loc_getitem_dups(self): + # GH 5678 + # repeated getitems on a dup index returning a ndarray + df = DataFrame( + np.random.default_rng(2).random((20, 5)), + index=["ABCDE"[x % 5] for x in range(20)], + ) + expected = df.loc["A", 0] + result = df.loc[:, 0].loc["A"] + tm.assert_series_equal(result, expected) + + def test_loc_getitem_dups2(self): + # GH4726 + # dup indexing with iloc/loc + df = DataFrame( + [[1, 2, "foo", "bar", Timestamp("20130101")]], + columns=["a", "a", "a", "a", "a"], + index=[1], + ) + expected = Series( + [1, 2, "foo", "bar", Timestamp("20130101")], + index=["a", "a", "a", "a", "a"], + name=1, + ) + + result = df.iloc[0] + tm.assert_series_equal(result, expected) + + result = df.loc[1] + tm.assert_series_equal(result, expected) + + def test_loc_setitem_dups(self): + # GH 6541 + df_orig = DataFrame( + { + "me": list("rttti"), + "foo": list("aaade"), + "bar": np.arange(5, dtype="float64") * 1.34 + 2, + "bar2": np.arange(5, dtype="float64") * -0.34 + 2, + } + ).set_index("me") + + indexer = ( + "r", + ["bar", "bar2"], + ) + df = df_orig.copy() + df.loc[indexer] *= 2.0 + tm.assert_series_equal(df.loc[indexer], 2.0 * df_orig.loc[indexer]) + + indexer = ( + "r", + "bar", + ) + df = df_orig.copy() + df.loc[indexer] *= 2.0 + assert df.loc[indexer] == 2.0 * df_orig.loc[indexer] + + indexer = ( + "t", + ["bar", "bar2"], + ) + df = df_orig.copy() + df.loc[indexer] *= 2.0 + tm.assert_frame_equal(df.loc[indexer], 2.0 * df_orig.loc[indexer]) + + def test_loc_setitem_slice(self): + # GH10503 + + # assigning the same type should not change the type + df1 = DataFrame({"a": [0, 1, 1], "b": Series([100, 200, 300], dtype="uint32")}) + ix = df1["a"] == 1 + newb1 = df1.loc[ix, "b"] + 1 + df1.loc[ix, "b"] = newb1 + expected = DataFrame( + {"a": [0, 1, 1], "b": Series([100, 201, 301], dtype="uint32")} + ) + tm.assert_frame_equal(df1, expected) + + # assigning a new type should get the inferred type + df2 = DataFrame({"a": [0, 1, 1], "b": [100, 200, 300]}, dtype="uint64") + ix = df1["a"] == 1 + newb2 = df2.loc[ix, "b"] + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + df1.loc[ix, "b"] = newb2 + expected = DataFrame({"a": [0, 1, 1], "b": [100, 200, 300]}, dtype="uint64") + tm.assert_frame_equal(df2, expected) + + def test_loc_setitem_dtype(self): + # GH31340 + df = DataFrame({"id": ["A"], "a": [1.2], "b": [0.0], "c": [-2.5]}) + cols = ["a", "b", "c"] + df.loc[:, cols] = df.loc[:, cols].astype("float32") + + # pre-2.0 this setting would swap in new arrays, in 2.0 it is correctly + # in-place, consistent with non-split-path + expected = DataFrame( + { + "id": ["A"], + "a": np.array([1.2], dtype="float64"), + "b": np.array([0.0], dtype="float64"), + "c": np.array([-2.5], dtype="float64"), + } + ) # id is inferred as object + + tm.assert_frame_equal(df, expected) + + def test_getitem_label_list_with_missing(self): + s = Series(range(3), index=["a", "b", "c"]) + + # consistency + with pytest.raises(KeyError, match="not in index"): + s[["a", "d"]] + + s = Series(range(3)) + with pytest.raises(KeyError, match="not in index"): + s[[0, 3]] + + @pytest.mark.parametrize("index", [[True, False], [True, False, True, False]]) + def test_loc_getitem_bool_diff_len(self, index): + # GH26658 + s = Series([1, 2, 3]) + msg = f"Boolean index has wrong length: {len(index)} instead of {len(s)}" + with pytest.raises(IndexError, match=msg): + s.loc[index] + + def test_loc_getitem_int_slice(self): + # TODO: test something here? + pass + + def test_loc_to_fail(self): + # GH3449 + df = DataFrame( + np.random.default_rng(2).random((3, 3)), + index=["a", "b", "c"], + columns=["e", "f", "g"], + ) + + msg = ( + rf"\"None of \[Index\(\[1, 2\], dtype='{np.dtype(int)}'\)\] are " + r"in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + df.loc[[1, 2], [1, 2]] + + def test_loc_to_fail2(self): + # GH 7496 + # loc should not fallback + + s = Series(dtype=object) + s.loc[1] = 1 + s.loc["a"] = 2 + + with pytest.raises(KeyError, match=r"^-1$"): + s.loc[-1] + + msg = ( + rf"\"None of \[Index\(\[-1, -2\], dtype='{np.dtype(int)}'\)\] are " + r"in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + s.loc[[-1, -2]] + + msg = r"\"None of \[Index\(\['4'\], dtype='object'\)\] are in the \[index\]\"" + with pytest.raises(KeyError, match=msg): + s.loc[Index(["4"], dtype=object)] + + s.loc[-1] = 3 + with pytest.raises(KeyError, match="not in index"): + s.loc[[-1, -2]] + + s["a"] = 2 + msg = ( + rf"\"None of \[Index\(\[-2\], dtype='{np.dtype(int)}'\)\] are " + r"in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + s.loc[[-2]] + + del s["a"] + + with pytest.raises(KeyError, match=msg): + s.loc[[-2]] = 0 + + def test_loc_to_fail3(self): + # inconsistency between .loc[values] and .loc[values,:] + # GH 7999 + df = DataFrame([["a"], ["b"]], index=[1, 2], columns=["value"]) + + msg = ( + rf"\"None of \[Index\(\[3\], dtype='{np.dtype(int)}'\)\] are " + r"in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + df.loc[[3], :] + + with pytest.raises(KeyError, match=msg): + df.loc[[3]] + + def test_loc_getitem_list_with_fail(self): + # 15747 + # should KeyError if *any* missing labels + + s = Series([1, 2, 3]) + + s.loc[[2]] + + msg = f"\"None of [Index([3], dtype='{np.dtype(int)}')] are in the [index]" + with pytest.raises(KeyError, match=re.escape(msg)): + s.loc[[3]] + + # a non-match and a match + with pytest.raises(KeyError, match="not in index"): + s.loc[[2, 3]] + + def test_loc_index(self): + # gh-17131 + # a boolean index should index like a boolean numpy array + + df = DataFrame( + np.random.default_rng(2).random(size=(5, 10)), + index=["alpha_0", "alpha_1", "alpha_2", "beta_0", "beta_1"], + ) + + mask = df.index.map(lambda x: "alpha" in x) + expected = df.loc[np.array(mask)] + + result = df.loc[mask] + tm.assert_frame_equal(result, expected) + + result = df.loc[mask.values] + tm.assert_frame_equal(result, expected) + + result = df.loc[pd.array(mask, dtype="boolean")] + tm.assert_frame_equal(result, expected) + + def test_loc_general(self): + df = DataFrame( + np.random.default_rng(2).random((4, 4)), + columns=["A", "B", "C", "D"], + index=["A", "B", "C", "D"], + ) + + # want this to work + result = df.loc[:, "A":"B"].iloc[0:2, :] + assert (result.columns == ["A", "B"]).all() + assert (result.index == ["A", "B"]).all() + + # mixed type + result = DataFrame({"a": [Timestamp("20130101")], "b": [1]}).iloc[0] + expected = Series([Timestamp("20130101"), 1], index=["a", "b"], name=0) + tm.assert_series_equal(result, expected) + assert result.dtype == object + + @pytest.fixture + def frame_for_consistency(self): + return DataFrame( + { + "date": date_range("2000-01-01", "2000-01-5"), + "val": Series(range(5), dtype=np.int64), + } + ) + + @pytest.mark.parametrize( + "val", + [0, np.array(0, dtype=np.int64), np.array([0, 0, 0, 0, 0], dtype=np.int64)], + ) + def test_loc_setitem_consistency(self, frame_for_consistency, val): + # GH 6149 + # coerce similarly for setitem and loc when rows have a null-slice + expected = DataFrame( + { + "date": Series(0, index=range(5), dtype=np.int64), + "val": Series(range(5), dtype=np.int64), + } + ) + df = frame_for_consistency.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "date"] = val + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_consistency_dt64_to_str(self, frame_for_consistency): + # GH 6149 + # coerce similarly for setitem and loc when rows have a null-slice + + expected = DataFrame( + { + "date": Series("foo", index=range(5)), + "val": Series(range(5), dtype=np.int64), + } + ) + df = frame_for_consistency.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "date"] = "foo" + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_consistency_dt64_to_float(self, frame_for_consistency): + # GH 6149 + # coerce similarly for setitem and loc when rows have a null-slice + expected = DataFrame( + { + "date": Series(1.0, index=range(5)), + "val": Series(range(5), dtype=np.int64), + } + ) + df = frame_for_consistency.copy() + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "date"] = 1.0 + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_consistency_single_row(self): + # GH 15494 + # setting on frame with single row + df = DataFrame({"date": Series([Timestamp("20180101")])}) + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, "date"] = "string" + expected = DataFrame({"date": Series(["string"])}) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_consistency_empty(self): + # empty (essentially noops) + # before the enforcement of #45333 in 2.0, the loc.setitem here would + # change the dtype of df.x to int64 + expected = DataFrame(columns=["x", "y"]) + df = DataFrame(columns=["x", "y"]) + with tm.assert_produces_warning(None): + df.loc[:, "x"] = 1 + tm.assert_frame_equal(df, expected) + + # setting with setitem swaps in a new array, so changes the dtype + df = DataFrame(columns=["x", "y"]) + df["x"] = 1 + expected["x"] = expected["x"].astype(np.int64) + tm.assert_frame_equal(df, expected) + + # incompatible dtype warning + @pytest.mark.xfail(using_string_dtype(), reason="TODO(infer_string)") + def test_loc_setitem_consistency_slice_column_len(self, using_infer_string): + # .loc[:,column] setting with slice == len of the column + # GH10408 + levels = [ + ["Region_1"] * 4, + ["Site_1", "Site_1", "Site_2", "Site_2"], + [3987227376, 3980680971, 3977723249, 3977723089], + ] + mi = MultiIndex.from_arrays(levels, names=["Region", "Site", "RespondentID"]) + + clevels = [ + ["Respondent", "Respondent", "Respondent", "OtherCat", "OtherCat"], + ["Something", "StartDate", "EndDate", "Yes/No", "SomethingElse"], + ] + cols = MultiIndex.from_arrays(clevels, names=["Level_0", "Level_1"]) + + values = [ + ["A", "5/25/2015 10:59", "5/25/2015 11:22", "Yes", np.nan], + ["A", "5/21/2015 9:40", "5/21/2015 9:52", "Yes", "Yes"], + ["A", "5/20/2015 8:27", "5/20/2015 8:41", "Yes", np.nan], + ["A", "5/20/2015 8:33", "5/20/2015 9:09", "Yes", "No"], + ] + df = DataFrame(values, index=mi, columns=cols) + + ctx = contextlib.nullcontext() + if using_infer_string: + ctx = pytest.raises(TypeError, match="Invalid value") + + with ctx: + df.loc[:, ("Respondent", "StartDate")] = to_datetime( + df.loc[:, ("Respondent", "StartDate")] + ) + with ctx: + df.loc[:, ("Respondent", "EndDate")] = to_datetime( + df.loc[:, ("Respondent", "EndDate")] + ) + + if using_infer_string: + # infer-objects won't infer stuff anymore + return + + df = df.infer_objects() + + # Adding a new key + df.loc[:, ("Respondent", "Duration")] = ( + df.loc[:, ("Respondent", "EndDate")] + - df.loc[:, ("Respondent", "StartDate")] + ) + + # timedelta64[m] -> float, so this cannot be done inplace, so + # no warning + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[:, ("Respondent", "Duration")] = df.loc[ + :, ("Respondent", "Duration") + ] / Timedelta(60_000_000_000) + + expected = Series( + [23.0, 12.0, 14.0, 36.0], index=df.index, name=("Respondent", "Duration") + ) + tm.assert_series_equal(df[("Respondent", "Duration")], expected) + + @pytest.mark.parametrize("unit", ["Y", "M", "D", "h", "m", "s", "ms", "us"]) + def test_loc_assign_non_ns_datetime(self, unit): + # GH 27395, non-ns dtype assignment via .loc should work + # and return the same result when using simple assignment + df = DataFrame( + { + "timestamp": [ + np.datetime64("2017-02-11 12:41:29"), + np.datetime64("1991-11-07 04:22:37"), + ] + } + ) + + df.loc[:, unit] = df.loc[:, "timestamp"].values.astype(f"datetime64[{unit}]") + df["expected"] = df.loc[:, "timestamp"].values.astype(f"datetime64[{unit}]") + expected = Series(df.loc[:, "expected"], name=unit) + tm.assert_series_equal(df.loc[:, unit], expected) + + def test_loc_modify_datetime(self): + # see gh-28837 + df = DataFrame.from_dict( + {"date": [1485264372711, 1485265925110, 1540215845888, 1540282121025]} + ) + + df["date_dt"] = to_datetime(df["date"], unit="ms", cache=True) + + df.loc[:, "date_dt_cp"] = df.loc[:, "date_dt"] + df.loc[[2, 3], "date_dt_cp"] = df.loc[[2, 3], "date_dt"] + + expected = DataFrame( + [ + [1485264372711, "2017-01-24 13:26:12.711", "2017-01-24 13:26:12.711"], + [1485265925110, "2017-01-24 13:52:05.110", "2017-01-24 13:52:05.110"], + [1540215845888, "2018-10-22 13:44:05.888", "2018-10-22 13:44:05.888"], + [1540282121025, "2018-10-23 08:08:41.025", "2018-10-23 08:08:41.025"], + ], + columns=["date", "date_dt", "date_dt_cp"], + ) + + columns = ["date_dt", "date_dt_cp"] + expected[columns] = expected[columns].apply(to_datetime) + + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_frame_with_reindex(self): + # GH#6254 setting issue + df = DataFrame(index=[3, 5, 4], columns=["A"], dtype=float) + df.loc[[4, 3, 5], "A"] = np.array([1, 2, 3], dtype="int64") + + # setting integer values into a float dataframe with loc is inplace, + # so we retain float dtype + ser = Series([2, 3, 1], index=[3, 5, 4], dtype=float) + expected = DataFrame({"A": ser}) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_frame_with_reindex_mixed(self): + # GH#40480 + df = DataFrame(index=[3, 5, 4], columns=["A", "B"], dtype=float) + df["B"] = "string" + df.loc[[4, 3, 5], "A"] = np.array([1, 2, 3], dtype="int64") + ser = Series([2, 3, 1], index=[3, 5, 4], dtype="int64") + # pre-2.0 this setting swapped in a new array, now it is inplace + # consistent with non-split-path + expected = DataFrame({"A": ser.astype(float)}) + expected["B"] = "string" + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_frame_with_inverted_slice(self): + # GH#40480 + df = DataFrame(index=[1, 2, 3], columns=["A", "B"], dtype=float) + df["B"] = "string" + df.loc[slice(3, 0, -1), "A"] = np.array([1, 2, 3], dtype="int64") + # pre-2.0 this setting swapped in a new array, now it is inplace + # consistent with non-split-path + expected = DataFrame({"A": [3.0, 2.0, 1.0], "B": "string"}, index=[1, 2, 3]) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_empty_frame(self): + # GH#6252 setting with an empty frame + keys1 = ["@" + str(i) for i in range(5)] + val1 = np.arange(5, dtype="int64") + + keys2 = ["@" + str(i) for i in range(4)] + val2 = np.arange(4, dtype="int64") + + index = list(set(keys1).union(keys2)) + df = DataFrame(index=index) + df["A"] = np.nan + df.loc[keys1, "A"] = val1 + + df["B"] = np.nan + df.loc[keys2, "B"] = val2 + + # Because df["A"] was initialized as float64, setting values into it + # is inplace, so that dtype is retained + sera = Series(val1, index=keys1, dtype=np.float64) + serb = Series(val2, index=keys2) + expected = DataFrame({"A": sera, "B": serb}, columns=Index(["A", "B"])).reindex( + index=index + ) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_frame(self): + df = DataFrame( + np.random.default_rng(2).standard_normal((4, 4)), + index=list("abcd"), + columns=list("ABCD"), + ) + + result = df.iloc[0, 0] + + df.loc["a", "A"] = 1 + result = df.loc["a", "A"] + assert result == 1 + + result = df.iloc[0, 0] + assert result == 1 + + df.loc[:, "B":"D"] = 0 + expected = df.loc[:, "B":"D"] + result = df.iloc[:, 1:] + tm.assert_frame_equal(result, expected) + + def test_loc_setitem_frame_nan_int_coercion_invalid(self): + # GH 8669 + # invalid coercion of nan -> int + df = DataFrame({"A": [1, 2, 3], "B": np.nan}) + df.loc[df.B > df.A, "B"] = df.A + expected = DataFrame({"A": [1, 2, 3], "B": np.nan}) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_frame_mixed_labels(self): + # GH 6546 + # setting with mixed labels + df = DataFrame({1: [1, 2], 2: [3, 4], "a": ["a", "b"]}) + + result = df.loc[0, [1, 2]] + expected = Series( + [1, 3], index=Index([1, 2], dtype=object), dtype=object, name=0 + ) + tm.assert_series_equal(result, expected) + + expected = DataFrame({1: [5, 2], 2: [6, 4], "a": ["a", "b"]}) + df.loc[0, [1, 2]] = [5, 6] + tm.assert_frame_equal(df, expected) + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + def test_loc_setitem_frame_multiples(self, warn_copy_on_write): + # multiple setting + df = DataFrame( + {"A": ["foo", "bar", "baz"], "B": Series(range(3), dtype=np.int64)} + ) + rhs = df.loc[1:2] + rhs.index = df.index[0:2] + df.loc[0:1] = rhs + expected = DataFrame( + {"A": ["bar", "baz", "baz"], "B": Series([1, 2, 2], dtype=np.int64)} + ) + tm.assert_frame_equal(df, expected) + + # multiple setting with frame on rhs (with M8) + df = DataFrame( + { + "date": date_range("2000-01-01", "2000-01-5"), + "val": Series(range(5), dtype=np.int64), + } + ) + expected = DataFrame( + { + "date": [ + Timestamp("20000101"), + Timestamp("20000102"), + Timestamp("20000101"), + Timestamp("20000102"), + Timestamp("20000103"), + ], + "val": Series([0, 1, 0, 1, 2], dtype=np.int64), + } + ) + rhs = df.loc[0:2] + rhs.index = df.index[2:5] + df.loc[2:4] = rhs + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "indexer", [["A"], slice(None, "A", None), np.array(["A"])] + ) + @pytest.mark.parametrize("value", [["Z"], np.array(["Z"])]) + def test_loc_setitem_with_scalar_index(self, indexer, value): + # GH #19474 + # assigning like "df.loc[0, ['A']] = ['Z']" should be evaluated + # elementwisely, not using "setter('A', ['Z'])". + + # Set object dtype to avoid upcast when setting 'Z' + df = DataFrame([[1, 2], [3, 4]], columns=["A", "B"]).astype({"A": object}) + df.loc[0, indexer] = value + result = df.loc[0, "A"] + + assert is_scalar(result) and result == "Z" + + @pytest.mark.parametrize( + "index,box,expected", + [ + ( + ([0, 2], ["A", "B", "C", "D"]), + 7, + DataFrame( + [[7, 7, 7, 7], [3, 4, np.nan, np.nan], [7, 7, 7, 7]], + columns=["A", "B", "C", "D"], + ), + ), + ( + (1, ["C", "D"]), + [7, 8], + DataFrame( + [[1, 2, np.nan, np.nan], [3, 4, 7, 8], [5, 6, np.nan, np.nan]], + columns=["A", "B", "C", "D"], + ), + ), + ( + (1, ["A", "B", "C"]), + np.array([7, 8, 9], dtype=np.int64), + DataFrame( + [[1, 2, np.nan], [7, 8, 9], [5, 6, np.nan]], columns=["A", "B", "C"] + ), + ), + ( + (slice(1, 3, None), ["B", "C", "D"]), + [[7, 8, 9], [10, 11, 12]], + DataFrame( + [[1, 2, np.nan, np.nan], [3, 7, 8, 9], [5, 10, 11, 12]], + columns=["A", "B", "C", "D"], + ), + ), + ( + (slice(1, 3, None), ["C", "A", "D"]), + np.array([[7, 8, 9], [10, 11, 12]], dtype=np.int64), + DataFrame( + [[1, 2, np.nan, np.nan], [8, 4, 7, 9], [11, 6, 10, 12]], + columns=["A", "B", "C", "D"], + ), + ), + ( + (slice(None, None, None), ["A", "C"]), + DataFrame([[7, 8], [9, 10], [11, 12]], columns=["A", "C"]), + DataFrame( + [[7, 2, 8], [9, 4, 10], [11, 6, 12]], columns=["A", "B", "C"] + ), + ), + ], + ) + def test_loc_setitem_missing_columns(self, index, box, expected): + # GH 29334 + df = DataFrame([[1, 2], [3, 4], [5, 6]], columns=["A", "B"]) + + df.loc[index] = box + tm.assert_frame_equal(df, expected) + + def test_loc_coercion(self): + # GH#12411 + df = DataFrame({"date": [Timestamp("20130101").tz_localize("UTC"), pd.NaT]}) + expected = df.dtypes + + result = df.iloc[[0]] + tm.assert_series_equal(result.dtypes, expected) + + result = df.iloc[[1]] + tm.assert_series_equal(result.dtypes, expected) + + def test_loc_coercion2(self): + # GH#12045 + df = DataFrame({"date": [datetime(2012, 1, 1), datetime(1012, 1, 2)]}) + expected = df.dtypes + + result = df.iloc[[0]] + tm.assert_series_equal(result.dtypes, expected) + + result = df.iloc[[1]] + tm.assert_series_equal(result.dtypes, expected) + + def test_loc_coercion3(self): + # GH#11594 + df = DataFrame({"text": ["some words"] + [None] * 9}) + expected = df.dtypes + + result = df.iloc[0:2] + tm.assert_series_equal(result.dtypes, expected) + + result = df.iloc[3:] + tm.assert_series_equal(result.dtypes, expected) + + def test_setitem_new_key_tz(self, indexer_sl): + # GH#12862 should not raise on assigning the second value + vals = [ + to_datetime(42).tz_localize("UTC"), + to_datetime(666).tz_localize("UTC"), + ] + expected = Series(vals, index=Index(["foo", "bar"])) + + ser = Series(dtype=object) + indexer_sl(ser)["foo"] = vals[0] + indexer_sl(ser)["bar"] = vals[1] + + tm.assert_series_equal(ser, expected) + + def test_loc_non_unique(self): + # GH3659 + # non-unique indexer with loc slice + # https://groups.google.com/forum/?fromgroups#!topic/pydata/zTm2No0crYs + + # these are going to raise because the we are non monotonic + df = DataFrame( + {"A": [1, 2, 3, 4, 5, 6], "B": [3, 4, 5, 6, 7, 8]}, index=[0, 1, 0, 1, 2, 3] + ) + msg = "'Cannot get left slice bound for non-unique label: 1'" + with pytest.raises(KeyError, match=msg): + df.loc[1:] + msg = "'Cannot get left slice bound for non-unique label: 0'" + with pytest.raises(KeyError, match=msg): + df.loc[0:] + msg = "'Cannot get left slice bound for non-unique label: 1'" + with pytest.raises(KeyError, match=msg): + df.loc[1:2] + + # monotonic are ok + df = DataFrame( + {"A": [1, 2, 3, 4, 5, 6], "B": [3, 4, 5, 6, 7, 8]}, index=[0, 1, 0, 1, 2, 3] + ).sort_index(axis=0) + result = df.loc[1:] + expected = DataFrame({"A": [2, 4, 5, 6], "B": [4, 6, 7, 8]}, index=[1, 1, 2, 3]) + tm.assert_frame_equal(result, expected) + + result = df.loc[0:] + tm.assert_frame_equal(result, df) + + result = df.loc[1:2] + expected = DataFrame({"A": [2, 4, 5], "B": [4, 6, 7]}, index=[1, 1, 2]) + tm.assert_frame_equal(result, expected) + + @pytest.mark.arm_slow + @pytest.mark.parametrize("length, l2", [[900, 100], [900000, 100000]]) + def test_loc_non_unique_memory_error(self, length, l2): + # GH 4280 + # non_unique index with a large selection triggers a memory error + + columns = list("ABCDEFG") + + df = pd.concat( + [ + DataFrame( + np.random.default_rng(2).standard_normal((length, len(columns))), + index=np.arange(length), + columns=columns, + ), + DataFrame(np.ones((l2, len(columns))), index=[0] * l2, columns=columns), + ] + ) + + assert df.index.is_unique is False + + mask = np.arange(l2) + result = df.loc[mask] + expected = pd.concat( + [ + df.take([0]), + DataFrame( + np.ones((len(mask), len(columns))), + index=[0] * len(mask), + columns=columns, + ), + df.take(mask[1:]), + ] + ) + tm.assert_frame_equal(result, expected) + + def test_loc_name(self): + # GH 3880 + df = DataFrame([[1, 1], [1, 1]]) + df.index.name = "index_name" + result = df.iloc[[0, 1]].index.name + assert result == "index_name" + + result = df.loc[[0, 1]].index.name + assert result == "index_name" + + def test_loc_empty_list_indexer_is_ok(self): + df = DataFrame( + np.ones((5, 2)), + index=Index([f"i-{i}" for i in range(5)], name="a"), + columns=Index([f"i-{i}" for i in range(2)], name="a"), + ) + # vertical empty + tm.assert_frame_equal( + df.loc[:, []], df.iloc[:, :0], check_index_type=True, check_column_type=True + ) + # horizontal empty + tm.assert_frame_equal( + df.loc[[], :], df.iloc[:0, :], check_index_type=True, check_column_type=True + ) + # horizontal empty + tm.assert_frame_equal( + df.loc[[]], df.iloc[:0, :], check_index_type=True, check_column_type=True + ) + + def test_identity_slice_returns_new_object( + self, using_copy_on_write, warn_copy_on_write + ): + # GH13873 + + original_df = DataFrame({"a": [1, 2, 3]}) + sliced_df = original_df.loc[:] + assert sliced_df is not original_df + assert original_df[:] is not original_df + assert original_df.loc[:, :] is not original_df + + # should be a shallow copy + assert np.shares_memory(original_df["a"]._values, sliced_df["a"]._values) + + # Setting using .loc[:, "a"] sets inplace so alters both sliced and orig + # depending on CoW + with tm.assert_cow_warning(warn_copy_on_write): + original_df.loc[:, "a"] = [4, 4, 4] + if using_copy_on_write: + assert (sliced_df["a"] == [1, 2, 3]).all() + else: + assert (sliced_df["a"] == 4).all() + + # These should not return copies + df = DataFrame(np.random.default_rng(2).standard_normal((10, 4))) + if using_copy_on_write or warn_copy_on_write: + assert df[0] is not df.loc[:, 0] + else: + assert df[0] is df.loc[:, 0] + + # Same tests for Series + original_series = Series([1, 2, 3, 4, 5, 6]) + sliced_series = original_series.loc[:] + assert sliced_series is not original_series + assert original_series[:] is not original_series + + with tm.assert_cow_warning(warn_copy_on_write): + original_series[:3] = [7, 8, 9] + if using_copy_on_write: + assert all(sliced_series[:3] == [1, 2, 3]) + else: + assert all(sliced_series[:3] == [7, 8, 9]) + + def test_loc_copy_vs_view(self, request, using_copy_on_write): + # GH 15631 + + if not using_copy_on_write: + mark = pytest.mark.xfail(reason="accidental fix reverted - GH37497") + request.applymarker(mark) + x = DataFrame(zip(range(3), range(3)), columns=["a", "b"]) + + y = x.copy() + q = y.loc[:, "a"] + q += 2 + + tm.assert_frame_equal(x, y) + + z = x.copy() + q = z.loc[x.index, "a"] + q += 2 + + tm.assert_frame_equal(x, z) + + def test_loc_uint64(self): + # GH20722 + # Test whether loc accept uint64 max value as index. + umax = np.iinfo("uint64").max + ser = Series([1, 2], index=[umax - 1, umax]) + + result = ser.loc[umax - 1] + expected = ser.iloc[0] + assert result == expected + + result = ser.loc[[umax - 1]] + expected = ser.iloc[[0]] + tm.assert_series_equal(result, expected) + + result = ser.loc[[umax - 1, umax]] + tm.assert_series_equal(result, ser) + + def test_loc_uint64_disallow_negative(self): + # GH#41775 + umax = np.iinfo("uint64").max + ser = Series([1, 2], index=[umax - 1, umax]) + + with pytest.raises(KeyError, match="-1"): + # don't wrap around + ser.loc[-1] + + with pytest.raises(KeyError, match="-1"): + # don't wrap around + ser.loc[[-1]] + + def test_loc_setitem_empty_append_expands_rows(self): + # GH6173, various appends to an empty dataframe + + data = [1, 2, 3] + expected = DataFrame( + {"x": data, "y": np.array([np.nan] * len(data), dtype=object)} + ) + + # appends to fit length of data + df = DataFrame(columns=["x", "y"]) + df.loc[:, "x"] = data + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_empty_append_expands_rows_mixed_dtype(self): + # GH#37932 same as test_loc_setitem_empty_append_expands_rows + # but with mixed dtype so we go through take_split_path + data = [1, 2, 3] + expected = DataFrame( + {"x": data, "y": np.array([np.nan] * len(data), dtype=object)} + ) + + df = DataFrame(columns=["x", "y"]) + df["x"] = df["x"].astype(np.int64) + df.loc[:, "x"] = data + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_empty_append_single_value(self): + # only appends one value + expected = DataFrame({"x": [1.0], "y": [np.nan]}) + df = DataFrame(columns=["x", "y"], dtype=float) + df.loc[0, "x"] = expected.loc[0, "x"] + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_empty_append_raises(self): + # GH6173, various appends to an empty dataframe + + data = [1, 2] + df = DataFrame(columns=["x", "y"]) + df.index = df.index.astype(np.int64) + msg = ( + rf"None of \[Index\(\[0, 1\], dtype='{np.dtype(int)}'\)\] " + r"are in the \[index\]" + ) + with pytest.raises(KeyError, match=msg): + df.loc[[0, 1], "x"] = data + + msg = "setting an array element with a sequence." + with pytest.raises(ValueError, match=msg): + df.loc[0:2, "x"] = data + + def test_indexing_zerodim_np_array(self): + # GH24924 + df = DataFrame([[1, 2], [3, 4]]) + result = df.loc[np.array(0)] + s = Series([1, 2], name=0) + tm.assert_series_equal(result, s) + + def test_series_indexing_zerodim_np_array(self): + # GH24924 + s = Series([1, 2]) + result = s.loc[np.array(0)] + assert result == 1 + + def test_loc_reverse_assignment(self): + # GH26939 + data = [1, 2, 3, 4, 5, 6] + [None] * 4 + expected = Series(data, index=range(2010, 2020)) + + result = Series(index=range(2010, 2020), dtype=np.float64) + result.loc[2015:2010:-1] = [6, 5, 4, 3, 2, 1] + + tm.assert_series_equal(result, expected) + + def test_loc_setitem_str_to_small_float_conversion_type(self, using_infer_string): + # GH#20388 + + col_data = [str(np.random.default_rng(2).random() * 1e-12) for _ in range(5)] + result = DataFrame(col_data, columns=["A"]) + expected = DataFrame(col_data, columns=["A"]) + tm.assert_frame_equal(result, expected) + + # assigning with loc/iloc attempts to set the values inplace, which + # in this case is successful + if using_infer_string: + with pytest.raises(TypeError, match="Invalid value"): + result.loc[result.index, "A"] = [float(x) for x in col_data] + else: + result.loc[result.index, "A"] = [float(x) for x in col_data] + expected = DataFrame(col_data, columns=["A"], dtype=float).astype(object) + tm.assert_frame_equal(result, expected) + + # assigning the entire column using __setitem__ swaps in the new array + # GH#??? + result["A"] = [float(x) for x in col_data] + expected = DataFrame(col_data, columns=["A"], dtype=float) + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_time_object(self, frame_or_series): + rng = date_range("1/1/2000", "1/5/2000", freq="5min") + mask = (rng.hour == 9) & (rng.minute == 30) + + obj = DataFrame( + np.random.default_rng(2).standard_normal((len(rng), 3)), index=rng + ) + obj = tm.get_obj(obj, frame_or_series) + + result = obj.loc[time(9, 30)] + exp = obj.loc[mask] + tm.assert_equal(result, exp) + + chunk = obj.loc["1/4/2000":] + result = chunk.loc[time(9, 30)] + expected = result[-1:] + + # Without resetting the freqs, these are 5 min and 1440 min, respectively + result.index = result.index._with_freq(None) + expected.index = expected.index._with_freq(None) + tm.assert_equal(result, expected) + + @pytest.mark.parametrize("spmatrix_t", ["coo_matrix", "csc_matrix", "csr_matrix"]) + @pytest.mark.parametrize("dtype", [np.int64, np.float64, complex]) + def test_loc_getitem_range_from_spmatrix(self, spmatrix_t, dtype): + sp_sparse = pytest.importorskip("scipy.sparse") + + spmatrix_t = getattr(sp_sparse, spmatrix_t) + + # The bug is triggered by a sparse matrix with purely sparse columns. So the + # recipe below generates a rectangular matrix of dimension (5, 7) where all the + # diagonal cells are ones, meaning the last two columns are purely sparse. + rows, cols = 5, 7 + spmatrix = spmatrix_t(np.eye(rows, cols, dtype=dtype), dtype=dtype) + df = DataFrame.sparse.from_spmatrix(spmatrix) + + # regression test for GH#34526 + itr_idx = range(2, rows) + result = df.loc[itr_idx].values + expected = spmatrix.toarray()[itr_idx] + tm.assert_numpy_array_equal(result, expected) + + # regression test for GH#34540 + result = df.loc[itr_idx].dtypes.values + expected = np.full(cols, SparseDtype(dtype, fill_value=0)) + tm.assert_numpy_array_equal(result, expected) + + def test_loc_getitem_listlike_all_retains_sparse(self): + df = DataFrame({"A": pd.array([0, 0], dtype=SparseDtype("int64"))}) + result = df.loc[[0, 1]] + tm.assert_frame_equal(result, df) + + def test_loc_getitem_sparse_frame(self): + # GH34687 + sp_sparse = pytest.importorskip("scipy.sparse") + + df = DataFrame.sparse.from_spmatrix(sp_sparse.eye(5)) + result = df.loc[range(2)] + expected = DataFrame( + [[1.0, 0.0, 0.0, 0.0, 0.0], [0.0, 1.0, 0.0, 0.0, 0.0]], + dtype=SparseDtype("float64", 0.0), + ) + tm.assert_frame_equal(result, expected) + + result = df.loc[range(2)].loc[range(1)] + expected = DataFrame( + [[1.0, 0.0, 0.0, 0.0, 0.0]], dtype=SparseDtype("float64", 0.0) + ) + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_sparse_series(self): + # GH34687 + s = Series([1.0, 0.0, 0.0, 0.0, 0.0], dtype=SparseDtype("float64", 0.0)) + + result = s.loc[range(2)] + expected = Series([1.0, 0.0], dtype=SparseDtype("float64", 0.0)) + tm.assert_series_equal(result, expected) + + result = s.loc[range(3)].loc[range(2)] + expected = Series([1.0, 0.0], dtype=SparseDtype("float64", 0.0)) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("indexer", ["loc", "iloc"]) + def test_getitem_single_row_sparse_df(self, indexer): + # GH#46406 + df = DataFrame([[1.0, 0.0, 1.5], [0.0, 2.0, 0.0]], dtype=SparseDtype(float)) + result = getattr(df, indexer)[0] + expected = Series([1.0, 0.0, 1.5], dtype=SparseDtype(float), name=0) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("key_type", [iter, np.array, Series, Index]) + def test_loc_getitem_iterable(self, float_frame, key_type): + idx = key_type(["A", "B", "C"]) + result = float_frame.loc[:, idx] + expected = float_frame.loc[:, ["A", "B", "C"]] + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_timedelta_0seconds(self): + # GH#10583 + df = DataFrame(np.random.default_rng(2).normal(size=(10, 4))) + df.index = timedelta_range(start="0s", periods=10, freq="s") + expected = df.loc[Timedelta("0s") :, :] + result = df.loc["0s":, :] + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "val,expected", [(2**63 - 1, Series([1])), (2**63, Series([2]))] + ) + def test_loc_getitem_uint64_scalar(self, val, expected): + # see GH#19399 + df = DataFrame([1, 2], index=[2**63 - 1, 2**63]) + result = df.loc[val] + + expected.name = val + tm.assert_series_equal(result, expected) + + def test_loc_setitem_int_label_with_float_index(self, float_numpy_dtype): + # note labels are floats + dtype = float_numpy_dtype + ser = Series(["a", "b", "c"], index=Index([0, 0.5, 1], dtype=dtype)) + expected = ser.copy() + + ser.loc[1] = "zoo" + expected.iloc[2] = "zoo" + + tm.assert_series_equal(ser, expected) + + @pytest.mark.parametrize( + "indexer, expected", + [ + # The test name is a misnomer in the 0 case as df.index[indexer] + # is a scalar. + (0, [20, 1, 2, 3, 4, 5, 6, 7, 8, 9]), + (slice(4, 8), [0, 1, 2, 3, 20, 20, 20, 20, 8, 9]), + ([3, 5], [0, 1, 2, 20, 4, 20, 6, 7, 8, 9]), + ], + ) + def test_loc_setitem_listlike_with_timedelta64index(self, indexer, expected): + # GH#16637 + tdi = to_timedelta(range(10), unit="s") + df = DataFrame({"x": range(10)}, dtype="int64", index=tdi) + + df.loc[df.index[indexer], "x"] = 20 + + expected = DataFrame( + expected, + index=tdi, + columns=["x"], + dtype="int64", + ) + + tm.assert_frame_equal(expected, df) + + def test_loc_setitem_categorical_values_partial_column_slice(self): + # Assigning a Category to parts of a int/... column uses the values of + # the Categorical + df = DataFrame({"a": [1, 1, 1, 1, 1], "b": list("aaaaa")}) + exp = DataFrame({"a": [1, "b", "b", 1, 1], "b": list("aabba")}) + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + df.loc[1:2, "a"] = Categorical(["b", "b"], categories=["a", "b"]) + df.loc[2:3, "b"] = Categorical(["b", "b"], categories=["a", "b"]) + tm.assert_frame_equal(df, exp) + + def test_loc_setitem_single_row_categorical(self, using_infer_string): + # GH#25495 + df = DataFrame({"Alpha": ["a"], "Numeric": [0]}) + categories = Categorical(df["Alpha"], categories=["a", "b", "c"]) + + # pre-2.0 this swapped in a new array, in 2.0 it operates inplace, + # consistent with non-split-path + df.loc[:, "Alpha"] = categories + + result = df["Alpha"] + expected = Series(categories, index=df.index, name="Alpha").astype( + object if not using_infer_string else "str" + ) + tm.assert_series_equal(result, expected) + + # double-check that the non-loc setting retains categoricalness + df["Alpha"] = categories + tm.assert_series_equal(df["Alpha"], Series(categories, name="Alpha")) + + def test_loc_setitem_datetime_coercion(self): + # GH#1048 + df = DataFrame({"c": [Timestamp("2010-10-01")] * 3}) + df.loc[0:1, "c"] = np.datetime64("2008-08-08") + assert Timestamp("2008-08-08") == df.loc[0, "c"] + assert Timestamp("2008-08-08") == df.loc[1, "c"] + with tm.assert_produces_warning(FutureWarning, match="incompatible dtype"): + df.loc[2, "c"] = date(2005, 5, 5) + assert Timestamp("2005-05-05").date() == df.loc[2, "c"] + + @pytest.mark.parametrize("idxer", ["var", ["var"]]) + def test_loc_setitem_datetimeindex_tz(self, idxer, tz_naive_fixture): + # GH#11365 + tz = tz_naive_fixture + idx = date_range(start="2015-07-12", periods=3, freq="h", tz=tz) + expected = DataFrame(1.2, index=idx, columns=["var"]) + # if result started off with object dtype, then the .loc.__setitem__ + # below would retain object dtype + result = DataFrame(index=idx, columns=["var"], dtype=np.float64) + with tm.assert_produces_warning( + FutureWarning if idxer == "var" else None, match="incompatible dtype" + ): + # See https://github.com/pandas-dev/pandas/issues/56223 + result.loc[:, idxer] = expected + tm.assert_frame_equal(result, expected) + + def test_loc_setitem_time_key(self, using_array_manager): + index = date_range("2012-01-01", "2012-01-05", freq="30min") + df = DataFrame( + np.random.default_rng(2).standard_normal((len(index), 5)), index=index + ) + akey = time(12, 0, 0) + bkey = slice(time(13, 0, 0), time(14, 0, 0)) + ainds = [24, 72, 120, 168] + binds = [26, 27, 28, 74, 75, 76, 122, 123, 124, 170, 171, 172] + + result = df.copy() + result.loc[akey] = 0 + result = result.loc[akey] + expected = df.loc[akey].copy() + expected.loc[:] = 0 + if using_array_manager: + # TODO(ArrayManager) we are still overwriting columns + expected = expected.astype(float) + tm.assert_frame_equal(result, expected) + + result = df.copy() + result.loc[akey] = 0 + result.loc[akey] = df.iloc[ainds] + tm.assert_frame_equal(result, df) + + result = df.copy() + result.loc[bkey] = 0 + result = result.loc[bkey] + expected = df.loc[bkey].copy() + expected.loc[:] = 0 + if using_array_manager: + # TODO(ArrayManager) we are still overwriting columns + expected = expected.astype(float) + tm.assert_frame_equal(result, expected) + + result = df.copy() + result.loc[bkey] = 0 + result.loc[bkey] = df.iloc[binds] + tm.assert_frame_equal(result, df) + + @pytest.mark.parametrize("key", ["A", ["A"], ("A", slice(None))]) + def test_loc_setitem_unsorted_multiindex_columns(self, key): + # GH#38601 + mi = MultiIndex.from_tuples([("A", 4), ("B", "3"), ("A", "2")]) + df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=mi) + obj = df.copy() + obj.loc[:, key] = np.zeros((2, 2), dtype="int64") + expected = DataFrame([[0, 2, 0], [0, 5, 0]], columns=mi) + tm.assert_frame_equal(obj, expected) + + df = df.sort_index(axis=1) + df.loc[:, key] = np.zeros((2, 2), dtype="int64") + expected = expected.sort_index(axis=1) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_uint_drop(self, any_int_numpy_dtype): + # see GH#18311 + # assigning series.loc[0] = 4 changed series.dtype to int + series = Series([1, 2, 3], dtype=any_int_numpy_dtype) + series.loc[0] = 4 + expected = Series([4, 2, 3], dtype=any_int_numpy_dtype) + tm.assert_series_equal(series, expected) + + def test_loc_setitem_td64_non_nano(self): + # GH#14155 + ser = Series(10 * [np.timedelta64(10, "m")]) + ser.loc[[1, 2, 3]] = np.timedelta64(20, "m") + expected = Series(10 * [np.timedelta64(10, "m")]) + expected.loc[[1, 2, 3]] = Timedelta(np.timedelta64(20, "m")) + tm.assert_series_equal(ser, expected) + + def test_loc_setitem_2d_to_1d_raises(self): + data = np.random.default_rng(2).standard_normal((2, 2)) + # float64 dtype to avoid upcast when trying to set float data + ser = Series(range(2), dtype="float64") + + msg = "setting an array element with a sequence." + with pytest.raises(ValueError, match=msg): + ser.loc[range(2)] = data + + with pytest.raises(ValueError, match=msg): + ser.loc[:] = data + + def test_loc_getitem_interval_index(self): + # GH#19977 + index = pd.interval_range(start=0, periods=3) + df = DataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], index=index, columns=["A", "B", "C"] + ) + + expected = 1 + result = df.loc[0.5, "A"] + tm.assert_almost_equal(result, expected) + + def test_loc_getitem_interval_index2(self): + # GH#19977 + index = pd.interval_range(start=0, periods=3, closed="both") + df = DataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], index=index, columns=["A", "B", "C"] + ) + + index_exp = pd.interval_range(start=0, periods=2, freq=1, closed="both") + expected = Series([1, 4], index=index_exp, name="A") + result = df.loc[1, "A"] + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("tpl", [(1,), (1, 2)]) + def test_loc_getitem_index_single_double_tuples(self, tpl): + # GH#20991 + idx = Index( + [(1,), (1, 2)], + name="A", + tupleize_cols=False, + ) + df = DataFrame(index=idx) + + result = df.loc[[tpl]] + idx = Index([tpl], name="A", tupleize_cols=False) + expected = DataFrame(index=idx) + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_index_namedtuple(self): + IndexType = namedtuple("IndexType", ["a", "b"]) + idx1 = IndexType("foo", "bar") + idx2 = IndexType("baz", "bof") + index = Index([idx1, idx2], name="composite_index", tupleize_cols=False) + df = DataFrame([(1, 2), (3, 4)], index=index, columns=["A", "B"]) + + result = df.loc[IndexType("foo", "bar")]["A"] + assert result == 1 + + def test_loc_setitem_single_column_mixed(self, using_infer_string): + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + index=["a", "b", "c", "d", "e"], + columns=["foo", "bar", "baz"], + ) + df["str"] = "qux" + df.loc[df.index[::2], "str"] = np.nan + expected = Series( + [np.nan, "qux", np.nan, "qux", np.nan], + dtype=object if not using_infer_string else "str", + ).values + tm.assert_almost_equal(df["str"].values, expected) + + def test_loc_setitem_cast2(self): + # GH#7704 + # dtype conversion on setting + df = DataFrame(np.random.default_rng(2).random((30, 3)), columns=tuple("ABC")) + df["event"] = np.nan + with tm.assert_produces_warning( + FutureWarning, match="item of incompatible dtype" + ): + df.loc[10, "event"] = "foo" + result = df.dtypes + expected = Series( + [np.dtype("float64")] * 3 + [np.dtype("object")], + index=["A", "B", "C", "event"], + ) + tm.assert_series_equal(result, expected) + + def test_loc_setitem_cast3(self): + # Test that data type is preserved . GH#5782 + df = DataFrame({"one": np.arange(6, dtype=np.int8)}) + df.loc[1, "one"] = 6 + assert df.dtypes.one == np.dtype(np.int8) + df.one = np.int8(7) + assert df.dtypes.one == np.dtype(np.int8) + + def test_loc_setitem_range_key(self, frame_or_series): + # GH#45479 don't treat range key as positional + obj = frame_or_series(range(5), index=[3, 4, 1, 0, 2]) + + values = [9, 10, 11] + if obj.ndim == 2: + values = [[9], [10], [11]] + + obj.loc[range(3)] = values + + expected = frame_or_series([0, 1, 10, 9, 11], index=obj.index) + tm.assert_equal(obj, expected) + + def test_loc_setitem_numpy_frame_categorical_value(self): + # GH#52927 + df = DataFrame({"a": [1, 1, 1, 1, 1], "b": ["a", "a", "a", "a", "a"]}) + df.loc[1:2, "a"] = Categorical([2, 2], categories=[1, 2]) + + expected = DataFrame({"a": [1, 2, 2, 1, 1], "b": ["a", "a", "a", "a", "a"]}) + tm.assert_frame_equal(df, expected) + + +class TestLocWithEllipsis: + @pytest.fixture(params=[tm.loc, tm.iloc]) + def indexer(self, request): + # Test iloc while we're here + return request.param + + @pytest.fixture + def obj(self, series_with_simple_index, frame_or_series): + obj = series_with_simple_index + if frame_or_series is not Series: + obj = obj.to_frame() + return obj + + def test_loc_iloc_getitem_ellipsis(self, obj, indexer): + result = indexer(obj)[...] + tm.assert_equal(result, obj) + + @pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") + def test_loc_iloc_getitem_leading_ellipses(self, series_with_simple_index, indexer): + obj = series_with_simple_index + key = 0 if (indexer is tm.iloc or len(obj) == 0) else obj.index[0] + + if indexer is tm.loc and obj.index.inferred_type == "boolean": + # passing [False] will get interpreted as a boolean mask + # TODO: should it? unambiguous when lengths dont match? + return + if indexer is tm.loc and isinstance(obj.index, MultiIndex): + msg = "MultiIndex does not support indexing with Ellipsis" + with pytest.raises(NotImplementedError, match=msg): + result = indexer(obj)[..., [key]] + + elif len(obj) != 0: + result = indexer(obj)[..., [key]] + expected = indexer(obj)[[key]] + tm.assert_series_equal(result, expected) + + key2 = 0 if indexer is tm.iloc else obj.name + df = obj.to_frame() + result = indexer(df)[..., [key2]] + expected = indexer(df)[:, [key2]] + tm.assert_frame_equal(result, expected) + + def test_loc_iloc_getitem_ellipses_only_one_ellipsis(self, obj, indexer): + # GH37750 + key = 0 if (indexer is tm.iloc or len(obj) == 0) else obj.index[0] + + with pytest.raises(IndexingError, match=_one_ellipsis_message): + indexer(obj)[..., ...] + + with pytest.raises(IndexingError, match=_one_ellipsis_message): + indexer(obj)[..., [key], ...] + + with pytest.raises(IndexingError, match=_one_ellipsis_message): + indexer(obj)[..., ..., key] + + # one_ellipsis_message takes precedence over "Too many indexers" + # only when the first key is Ellipsis + with pytest.raises(IndexingError, match="Too many indexers"): + indexer(obj)[key, ..., ...] + + +class TestLocWithMultiIndex: + @pytest.mark.parametrize( + "keys, expected", + [ + (["b", "a"], [["b", "b", "a", "a"], [1, 2, 1, 2]]), + (["a", "b"], [["a", "a", "b", "b"], [1, 2, 1, 2]]), + ((["a", "b"], [1, 2]), [["a", "a", "b", "b"], [1, 2, 1, 2]]), + ((["a", "b"], [2, 1]), [["a", "a", "b", "b"], [2, 1, 2, 1]]), + ((["b", "a"], [2, 1]), [["b", "b", "a", "a"], [2, 1, 2, 1]]), + ((["b", "a"], [1, 2]), [["b", "b", "a", "a"], [1, 2, 1, 2]]), + ((["c", "a"], [2, 1]), [["c", "a", "a"], [1, 2, 1]]), + ], + ) + @pytest.mark.parametrize("dim", ["index", "columns"]) + def test_loc_getitem_multilevel_index_order(self, dim, keys, expected): + # GH#22797 + # Try to respect order of keys given for MultiIndex.loc + kwargs = {dim: [["c", "a", "a", "b", "b"], [1, 1, 2, 1, 2]]} + df = DataFrame(np.arange(25).reshape(5, 5), **kwargs) + exp_index = MultiIndex.from_arrays(expected) + if dim == "index": + res = df.loc[keys, :] + tm.assert_index_equal(res.index, exp_index) + elif dim == "columns": + res = df.loc[:, keys] + tm.assert_index_equal(res.columns, exp_index) + + def test_loc_preserve_names(self, multiindex_year_month_day_dataframe_random_data): + ymd = multiindex_year_month_day_dataframe_random_data + + result = ymd.loc[2000] + result2 = ymd["A"].loc[2000] + assert result.index.names == ymd.index.names[1:] + assert result2.index.names == ymd.index.names[1:] + + result = ymd.loc[2000, 2] + result2 = ymd["A"].loc[2000, 2] + assert result.index.name == ymd.index.names[2] + assert result2.index.name == ymd.index.names[2] + + def test_loc_getitem_multiindex_nonunique_len_zero(self): + # GH#13691 + mi = MultiIndex.from_product([[0], [1, 1]]) + ser = Series(0, index=mi) + + res = ser.loc[[]] + + expected = ser[:0] + tm.assert_series_equal(res, expected) + + res2 = ser.loc[ser.iloc[0:0]] + tm.assert_series_equal(res2, expected) + + def test_loc_getitem_access_none_value_in_multiindex(self): + # GH#34318: test that you can access a None value using .loc + # through a Multiindex + + ser = Series([None], MultiIndex.from_arrays([["Level1"], ["Level2"]])) + result = ser.loc[("Level1", "Level2")] + assert result is None + + midx = MultiIndex.from_product([["Level1"], ["Level2_a", "Level2_b"]]) + ser = Series([None] * len(midx), dtype=object, index=midx) + result = ser.loc[("Level1", "Level2_a")] + assert result is None + + ser = Series([1] * len(midx), dtype=object, index=midx) + result = ser.loc[("Level1", "Level2_a")] + assert result == 1 + + def test_loc_setitem_multiindex_slice(self): + # GH 34870 + + index = MultiIndex.from_tuples( + zip( + ["bar", "bar", "baz", "baz", "foo", "foo", "qux", "qux"], + ["one", "two", "one", "two", "one", "two", "one", "two"], + ), + names=["first", "second"], + ) + + result = Series([1, 1, 1, 1, 1, 1, 1, 1], index=index) + result.loc[("baz", "one"):("foo", "two")] = 100 + + expected = Series([1, 1, 100, 100, 100, 100, 1, 1], index=index) + + tm.assert_series_equal(result, expected) + + def test_loc_getitem_slice_datetime_objs_with_datetimeindex(self): + times = date_range("2000-01-01", freq="10min", periods=100000) + ser = Series(range(100000), times) + result = ser.loc[datetime(1900, 1, 1) : datetime(2100, 1, 1)] + tm.assert_series_equal(result, ser) + + def test_loc_getitem_datetime_string_with_datetimeindex(self): + # GH 16710 + df = DataFrame( + {"a": range(10), "b": range(10)}, + index=date_range("2010-01-01", "2010-01-10"), + ) + result = df.loc[["2010-01-01", "2010-01-05"], ["a", "b"]] + expected = DataFrame( + {"a": [0, 4], "b": [0, 4]}, + index=DatetimeIndex(["2010-01-01", "2010-01-05"]), + ) + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_sorted_index_level_with_duplicates(self): + # GH#4516 sorting a MultiIndex with duplicates and multiple dtypes + mi = MultiIndex.from_tuples( + [ + ("foo", "bar"), + ("foo", "bar"), + ("bah", "bam"), + ("bah", "bam"), + ("foo", "bar"), + ("bah", "bam"), + ], + names=["A", "B"], + ) + df = DataFrame( + [ + [1.0, 1], + [2.0, 2], + [3.0, 3], + [4.0, 4], + [5.0, 5], + [6.0, 6], + ], + index=mi, + columns=["C", "D"], + ) + df = df.sort_index(level=0) + + expected = DataFrame( + [[1.0, 1], [2.0, 2], [5.0, 5]], columns=["C", "D"], index=mi.take([0, 1, 4]) + ) + + result = df.loc[("foo", "bar")] + tm.assert_frame_equal(result, expected) + + def test_additional_element_to_categorical_series_loc(self): + # GH#47677 + result = Series(["a", "b", "c"], dtype="category") + result.loc[3] = 0 + expected = Series(["a", "b", "c", 0], dtype="object") + tm.assert_series_equal(result, expected) + + def test_additional_categorical_element_loc(self): + # GH#47677 + result = Series(["a", "b", "c"], dtype="category") + result.loc[3] = "a" + expected = Series(["a", "b", "c", "a"], dtype="category") + tm.assert_series_equal(result, expected) + + def test_loc_set_nan_in_categorical_series(self, any_numeric_ea_dtype): + # GH#47677 + srs = Series( + [1, 2, 3], + dtype=CategoricalDtype(Index([1, 2, 3], dtype=any_numeric_ea_dtype)), + ) + # enlarge + srs.loc[3] = np.nan + expected = Series( + [1, 2, 3, np.nan], + dtype=CategoricalDtype(Index([1, 2, 3], dtype=any_numeric_ea_dtype)), + ) + tm.assert_series_equal(srs, expected) + # set into + srs.loc[1] = np.nan + expected = Series( + [1, np.nan, 3, np.nan], + dtype=CategoricalDtype(Index([1, 2, 3], dtype=any_numeric_ea_dtype)), + ) + tm.assert_series_equal(srs, expected) + + @pytest.mark.parametrize("na", (np.nan, pd.NA, None, pd.NaT)) + def test_loc_consistency_series_enlarge_set_into(self, na): + # GH#47677 + srs_enlarge = Series(["a", "b", "c"], dtype="category") + srs_enlarge.loc[3] = na + + srs_setinto = Series(["a", "b", "c", "a"], dtype="category") + srs_setinto.loc[3] = na + + tm.assert_series_equal(srs_enlarge, srs_setinto) + expected = Series(["a", "b", "c", na], dtype="category") + tm.assert_series_equal(srs_enlarge, expected) + + def test_loc_getitem_preserves_index_level_category_dtype(self): + # GH#15166 + df = DataFrame( + data=np.arange(2, 22, 2), + index=MultiIndex( + levels=[CategoricalIndex(["a", "b"]), range(10)], + codes=[[0] * 5 + [1] * 5, range(10)], + names=["Index1", "Index2"], + ), + ) + + expected = CategoricalIndex( + ["a", "b"], + categories=["a", "b"], + ordered=False, + name="Index1", + dtype="category", + ) + + result = df.index.levels[0] + tm.assert_index_equal(result, expected) + + result = df.loc[["a"]].index.levels[0] + tm.assert_index_equal(result, expected) + + @pytest.mark.parametrize("lt_value", [30, 10]) + def test_loc_multiindex_levels_contain_values_not_in_index_anymore(self, lt_value): + # GH#41170 + df = DataFrame({"a": [12, 23, 34, 45]}, index=[list("aabb"), [0, 1, 2, 3]]) + with pytest.raises(KeyError, match=r"\['b'\] not in index"): + df.loc[df["a"] < lt_value, :].loc[["b"], :] + + def test_loc_multiindex_null_slice_na_level(self): + # GH#42055 + lev1 = np.array([np.nan, np.nan]) + lev2 = ["bar", "baz"] + mi = MultiIndex.from_arrays([lev1, lev2]) + ser = Series([0, 1], index=mi) + result = ser.loc[:, "bar"] + + # TODO: should we have name="bar"? + expected = Series([0], index=[np.nan]) + tm.assert_series_equal(result, expected) + + def test_loc_drops_level(self): + # Based on test_series_varied_multiindex_alignment, where + # this used to fail to drop the first level + mi = MultiIndex.from_product( + [list("ab"), list("xy"), [1, 2]], names=["ab", "xy", "num"] + ) + ser = Series(range(8), index=mi) + + loc_result = ser.loc["a", :, :] + expected = ser.index.droplevel(0)[:4] + tm.assert_index_equal(loc_result.index, expected) + + +class TestLocSetitemWithExpansion: + def test_loc_setitem_with_expansion_large_dataframe(self, monkeypatch): + # GH#10692 + size_cutoff = 50 + with monkeypatch.context(): + monkeypatch.setattr(libindex, "_SIZE_CUTOFF", size_cutoff) + result = DataFrame({"x": range(size_cutoff)}, dtype="int64") + result.loc[size_cutoff] = size_cutoff + expected = DataFrame({"x": range(size_cutoff + 1)}, dtype="int64") + tm.assert_frame_equal(result, expected) + + def test_loc_setitem_empty_series(self): + # GH#5226 + + # partially set with an empty object series + ser = Series(dtype=object) + ser.loc[1] = 1 + tm.assert_series_equal(ser, Series([1], index=[1])) + ser.loc[3] = 3 + tm.assert_series_equal(ser, Series([1, 3], index=[1, 3])) + + def test_loc_setitem_empty_series_float(self): + # GH#5226 + + # partially set with an empty object series + ser = Series(dtype=object) + ser.loc[1] = 1.0 + tm.assert_series_equal(ser, Series([1.0], index=[1])) + ser.loc[3] = 3.0 + tm.assert_series_equal(ser, Series([1.0, 3.0], index=[1, 3])) + + def test_loc_setitem_empty_series_str_idx(self): + # GH#5226 + + # partially set with an empty object series + ser = Series(dtype=object) + ser.loc["foo"] = 1 + tm.assert_series_equal(ser, Series([1], index=Index(["foo"]))) + ser.loc["bar"] = 3 + tm.assert_series_equal(ser, Series([1, 3], index=Index(["foo", "bar"]))) + ser.loc[3] = 4 + tm.assert_series_equal(ser, Series([1, 3, 4], index=Index(["foo", "bar", 3]))) + + def test_loc_setitem_incremental_with_dst(self): + # GH#20724 + base = datetime(2015, 11, 1, tzinfo=gettz("US/Pacific")) + idxs = [base + timedelta(seconds=i * 900) for i in range(16)] + result = Series([0], index=[idxs[0]]) + for ts in idxs: + result.loc[ts] = 1 + expected = Series(1, index=idxs) + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize( + "conv", + [ + lambda x: x, + lambda x: x.to_datetime64(), + lambda x: x.to_pydatetime(), + lambda x: np.datetime64(x), + ], + ids=["self", "to_datetime64", "to_pydatetime", "np.datetime64"], + ) + def test_loc_setitem_datetime_keys_cast(self, conv, using_infer_string): + # GH#9516, GH#51363 changed in 3.0 to not cast on Index.insert + dt1 = Timestamp("20130101 09:00:00") + dt2 = Timestamp("20130101 10:00:00") + df = DataFrame() + df.loc[conv(dt1), "one"] = 100 + df.loc[conv(dt2), "one"] = 200 + + # the dtype constructed by Index([..]) does not yet follow the unit + # of the input on 2.3.x -> so checking this is datetime64, but then + # specifying the exact dtype in the expected result + if using_infer_string: + assert df.index.dtype.kind == "M" + exp_dtype = df.index.dtype + else: + exp_dtype = "datetime64[ns]" + expected = DataFrame( + {"one": [100.0, 200.0]}, + index=Index([dt1, dt2], dtype=exp_dtype), + columns=Index(["one"]), + ) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_categorical_column_retains_dtype(self, ordered): + # GH16360 + result = DataFrame({"A": [1]}) + result.loc[:, "B"] = Categorical(["b"], ordered=ordered) + expected = DataFrame({"A": [1], "B": Categorical(["b"], ordered=ordered)}) + tm.assert_frame_equal(result, expected) + + def test_loc_setitem_with_expansion_and_existing_dst(self): + # GH#18308 + start = Timestamp("2017-10-29 00:00:00+0200", tz="Europe/Madrid") + end = Timestamp("2017-10-29 03:00:00+0100", tz="Europe/Madrid") + ts = Timestamp("2016-10-10 03:00:00", tz="Europe/Madrid") + idx = date_range(start, end, inclusive="left", freq="h") + assert ts not in idx # i.e. result.loc setitem is with-expansion + + result = DataFrame(index=idx, columns=["value"]) + result.loc[ts, "value"] = 12 + expected = DataFrame( + [np.nan] * len(idx) + [12], + index=idx.append(DatetimeIndex([ts])), + columns=["value"], + dtype=object, + ) + tm.assert_frame_equal(result, expected) + + def test_setitem_with_expansion(self): + # indexing - setting an element + df = DataFrame( + data=to_datetime(["2015-03-30 20:12:32", "2015-03-12 00:11:11"]), + columns=["time"], + ) + df["new_col"] = ["new", "old"] + df.time = df.set_index("time").index.tz_localize("UTC") + v = df[df.new_col == "new"].set_index("time").index.tz_convert("US/Pacific") + + # pre-2.0 trying to set a single element on a part of a different + # timezone converted to object; in 2.0 it retains dtype + df2 = df.copy() + df2.loc[df2.new_col == "new", "time"] = v + + expected = Series([v[0].tz_convert("UTC"), df.loc[1, "time"]], name="time") + tm.assert_series_equal(df2.time, expected) + + v = df.loc[df.new_col == "new", "time"] + Timedelta("1s") + df.loc[df.new_col == "new", "time"] = v + tm.assert_series_equal(df.loc[df.new_col == "new", "time"], v) + + def test_loc_setitem_with_expansion_inf_upcast_empty(self): + # Test with np.inf in columns + df = DataFrame() + df.loc[0, 0] = 1 + df.loc[1, 1] = 2 + df.loc[0, np.inf] = 3 + + result = df.columns + expected = Index([0, 1, np.inf], dtype=np.float64) + tm.assert_index_equal(result, expected) + + @pytest.mark.filterwarnings("ignore:indexing past lexsort depth") + def test_loc_setitem_with_expansion_nonunique_index(self, index): + # GH#40096 + if not len(index): + pytest.skip("Not relevant for empty Index") + + index = index.repeat(2) # ensure non-unique + N = len(index) + arr = np.arange(N).astype(np.int64) + + orig = DataFrame(arr, index=index, columns=[0]) + + # key that will requiring object-dtype casting in the index + key = "kapow" + assert key not in index # otherwise test is invalid + # TODO: using a tuple key breaks here in many cases + + exp_index = index.insert(len(index), key) + if isinstance(index, MultiIndex): + assert exp_index[-1][0] == key + else: + assert exp_index[-1] == key + exp_data = np.arange(N + 1).astype(np.float64) + expected = DataFrame(exp_data, index=exp_index, columns=[0]) + + # Add new row, but no new columns + df = orig.copy() + df.loc[key, 0] = N + tm.assert_frame_equal(df, expected) + + # add new row on a Series + ser = orig.copy()[0] + ser.loc[key] = N + # the series machinery lets us preserve int dtype instead of float + expected = expected[0].astype(np.int64) + tm.assert_series_equal(ser, expected) + + # add new row and new column + df = orig.copy() + df.loc[key, 1] = N + expected = DataFrame( + {0: list(arr) + [np.nan], 1: [np.nan] * N + [float(N)]}, + index=exp_index, + ) + tm.assert_frame_equal(df, expected) + + @pytest.mark.parametrize( + "dtype", ["Int32", "Int64", "UInt32", "UInt64", "Float32", "Float64"] + ) + def test_loc_setitem_with_expansion_preserves_nullable_int(self, dtype): + # GH#42099 + ser = Series([0, 1, 2, 3], dtype=dtype) + df = DataFrame({"data": ser}) + + result = DataFrame(index=df.index) + result.loc[df.index, "data"] = ser + + tm.assert_frame_equal(result, df, check_column_type=False) + + result = DataFrame(index=df.index) + result.loc[df.index, "data"] = ser._values + tm.assert_frame_equal(result, df, check_column_type=False) + + def test_loc_setitem_ea_not_full_column(self): + # GH#39163 + df = DataFrame({"A": range(5)}) + + val = date_range("2016-01-01", periods=3, tz="US/Pacific") + + df.loc[[0, 1, 2], "B"] = val + + bex = val.append(DatetimeIndex([pd.NaT, pd.NaT], dtype=val.dtype)) + expected = DataFrame({"A": range(5), "B": bex}) + assert expected.dtypes["B"] == val.dtype + tm.assert_frame_equal(df, expected) + + +class TestLocCallable: + def test_frame_loc_getitem_callable(self): + # GH#11485 + df = DataFrame({"A": [1, 2, 3, 4], "B": list("aabb"), "C": [1, 2, 3, 4]}) + # iloc cannot use boolean Series (see GH3635) + + # return bool indexer + res = df.loc[lambda x: x.A > 2] + tm.assert_frame_equal(res, df.loc[df.A > 2]) + + res = df.loc[lambda x: x.B == "b", :] + tm.assert_frame_equal(res, df.loc[df.B == "b", :]) + + res = df.loc[lambda x: x.A > 2, lambda x: x.columns == "B"] + tm.assert_frame_equal(res, df.loc[df.A > 2, [False, True, False]]) + + res = df.loc[lambda x: x.A > 2, lambda x: "B"] + tm.assert_series_equal(res, df.loc[df.A > 2, "B"]) + + res = df.loc[lambda x: x.A > 2, lambda x: ["A", "B"]] + tm.assert_frame_equal(res, df.loc[df.A > 2, ["A", "B"]]) + + res = df.loc[lambda x: x.A == 2, lambda x: ["A", "B"]] + tm.assert_frame_equal(res, df.loc[df.A == 2, ["A", "B"]]) + + # scalar + res = df.loc[lambda x: 1, lambda x: "A"] + assert res == df.loc[1, "A"] + + def test_frame_loc_getitem_callable_mixture(self): + # GH#11485 + df = DataFrame({"A": [1, 2, 3, 4], "B": list("aabb"), "C": [1, 2, 3, 4]}) + + res = df.loc[lambda x: x.A > 2, ["A", "B"]] + tm.assert_frame_equal(res, df.loc[df.A > 2, ["A", "B"]]) + + res = df.loc[[2, 3], lambda x: ["A", "B"]] + tm.assert_frame_equal(res, df.loc[[2, 3], ["A", "B"]]) + + res = df.loc[3, lambda x: ["A", "B"]] + tm.assert_series_equal(res, df.loc[3, ["A", "B"]]) + + def test_frame_loc_getitem_callable_labels(self): + # GH#11485 + df = DataFrame({"X": [1, 2, 3, 4], "Y": list("aabb")}, index=list("ABCD")) + + # return label + res = df.loc[lambda x: ["A", "C"]] + tm.assert_frame_equal(res, df.loc[["A", "C"]]) + + res = df.loc[lambda x: ["A", "C"], :] + tm.assert_frame_equal(res, df.loc[["A", "C"], :]) + + res = df.loc[lambda x: ["A", "C"], lambda x: "X"] + tm.assert_series_equal(res, df.loc[["A", "C"], "X"]) + + res = df.loc[lambda x: ["A", "C"], lambda x: ["X"]] + tm.assert_frame_equal(res, df.loc[["A", "C"], ["X"]]) + + # mixture + res = df.loc[["A", "C"], lambda x: "X"] + tm.assert_series_equal(res, df.loc[["A", "C"], "X"]) + + res = df.loc[["A", "C"], lambda x: ["X"]] + tm.assert_frame_equal(res, df.loc[["A", "C"], ["X"]]) + + res = df.loc[lambda x: ["A", "C"], "X"] + tm.assert_series_equal(res, df.loc[["A", "C"], "X"]) + + res = df.loc[lambda x: ["A", "C"], ["X"]] + tm.assert_frame_equal(res, df.loc[["A", "C"], ["X"]]) + + def test_frame_loc_setitem_callable(self): + # GH#11485 + df = DataFrame( + {"X": [1, 2, 3, 4], "Y": Series(list("aabb"), dtype=object)}, + index=list("ABCD"), + ) + + # return label + res = df.copy() + res.loc[lambda x: ["A", "C"]] = -20 + exp = df.copy() + exp.loc[["A", "C"]] = -20 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[lambda x: ["A", "C"], :] = 20 + exp = df.copy() + exp.loc[["A", "C"], :] = 20 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[lambda x: ["A", "C"], lambda x: "X"] = -1 + exp = df.copy() + exp.loc[["A", "C"], "X"] = -1 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[lambda x: ["A", "C"], lambda x: ["X"]] = [5, 10] + exp = df.copy() + exp.loc[["A", "C"], ["X"]] = [5, 10] + tm.assert_frame_equal(res, exp) + + # mixture + res = df.copy() + res.loc[["A", "C"], lambda x: "X"] = np.array([-1, -2]) + exp = df.copy() + exp.loc[["A", "C"], "X"] = np.array([-1, -2]) + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[["A", "C"], lambda x: ["X"]] = 10 + exp = df.copy() + exp.loc[["A", "C"], ["X"]] = 10 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[lambda x: ["A", "C"], "X"] = -2 + exp = df.copy() + exp.loc[["A", "C"], "X"] = -2 + tm.assert_frame_equal(res, exp) + + res = df.copy() + res.loc[lambda x: ["A", "C"], ["X"]] = -4 + exp = df.copy() + exp.loc[["A", "C"], ["X"]] = -4 + tm.assert_frame_equal(res, exp) + + +class TestPartialStringSlicing: + def test_loc_getitem_partial_string_slicing_datetimeindex(self): + # GH#35509 + df = DataFrame( + {"col1": ["a", "b", "c"], "col2": [1, 2, 3]}, + index=to_datetime(["2020-08-01", "2020-07-02", "2020-08-05"]), + ) + expected = DataFrame( + {"col1": ["a", "c"], "col2": [1, 3]}, + index=to_datetime(["2020-08-01", "2020-08-05"]), + ) + result = df.loc["2020-08"] + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_partial_string_slicing_with_periodindex(self): + pi = pd.period_range(start="2017-01-01", end="2018-01-01", freq="M") + ser = pi.to_series() + result = ser.loc[:"2017-12"] + expected = ser.iloc[:-1] + + tm.assert_series_equal(result, expected) + + def test_loc_getitem_partial_string_slicing_with_timedeltaindex(self): + ix = timedelta_range(start="1 day", end="2 days", freq="1h") + ser = ix.to_series() + result = ser.loc[:"1 days"] + expected = ser.iloc[:-1] + + tm.assert_series_equal(result, expected) + + def test_loc_getitem_str_timedeltaindex(self): + # GH#16896 + df = DataFrame({"x": range(3)}, index=to_timedelta(range(3), unit="days")) + expected = df.iloc[0] + sliced = df.loc["0 days"] + tm.assert_series_equal(sliced, expected) + + @pytest.mark.parametrize("indexer_end", [None, "2020-01-02 23:59:59.999999999"]) + def test_loc_getitem_partial_slice_non_monotonicity( + self, tz_aware_fixture, indexer_end, frame_or_series + ): + # GH#33146 + obj = frame_or_series( + [1] * 5, + index=DatetimeIndex( + [ + Timestamp("2019-12-30"), + Timestamp("2020-01-01"), + Timestamp("2019-12-25"), + Timestamp("2020-01-02 23:59:59.999999999"), + Timestamp("2019-12-19"), + ], + tz=tz_aware_fixture, + ), + ) + expected = frame_or_series( + [1] * 2, + index=DatetimeIndex( + [ + Timestamp("2020-01-01"), + Timestamp("2020-01-02 23:59:59.999999999"), + ], + tz=tz_aware_fixture, + ), + ) + indexer = slice("2020-01-01", indexer_end) + + result = obj[indexer] + tm.assert_equal(result, expected) + + result = obj.loc[indexer] + tm.assert_equal(result, expected) + + +class TestLabelSlicing: + def test_loc_getitem_slicing_datetimes_frame(self): + # GH#7523 + + # unique + df_unique = DataFrame( + np.arange(4.0, dtype="float64"), + index=[datetime(2001, 1, i, 10, 00) for i in [1, 2, 3, 4]], + ) + + # duplicates + df_dups = DataFrame( + np.arange(5.0, dtype="float64"), + index=[datetime(2001, 1, i, 10, 00) for i in [1, 2, 2, 3, 4]], + ) + + for df in [df_unique, df_dups]: + result = df.loc[datetime(2001, 1, 1, 10) :] + tm.assert_frame_equal(result, df) + result = df.loc[: datetime(2001, 1, 4, 10)] + tm.assert_frame_equal(result, df) + result = df.loc[datetime(2001, 1, 1, 10) : datetime(2001, 1, 4, 10)] + tm.assert_frame_equal(result, df) + + result = df.loc[datetime(2001, 1, 1, 11) :] + expected = df.iloc[1:] + tm.assert_frame_equal(result, expected) + result = df.loc["20010101 11":] + tm.assert_frame_equal(result, expected) + + def test_loc_getitem_label_slice_across_dst(self): + # GH#21846 + idx = date_range( + "2017-10-29 01:30:00", tz="Europe/Berlin", periods=5, freq="30 min" + ) + series2 = Series([0, 1, 2, 3, 4], index=idx) + + t_1 = Timestamp("2017-10-29 02:30:00+02:00", tz="Europe/Berlin") + t_2 = Timestamp("2017-10-29 02:00:00+01:00", tz="Europe/Berlin") + result = series2.loc[t_1:t_2] + expected = Series([2, 3], index=idx[2:4]) + tm.assert_series_equal(result, expected) + + result = series2[t_1] + expected = 2 + assert result == expected + + @pytest.mark.parametrize( + "index", + [ + pd.period_range(start="2017-01-01", end="2018-01-01", freq="M"), + timedelta_range(start="1 day", end="2 days", freq="1h"), + ], + ) + def test_loc_getitem_label_slice_period_timedelta(self, index): + ser = index.to_series() + result = ser.loc[: index[-2]] + expected = ser.iloc[:-1] + + tm.assert_series_equal(result, expected) + + def test_loc_getitem_slice_floats_inexact(self): + index = [52195.504153, 52196.303147, 52198.369883] + df = DataFrame(np.random.default_rng(2).random((3, 2)), index=index) + + s1 = df.loc[52195.1:52196.5] + assert len(s1) == 2 + + s1 = df.loc[52195.1:52196.6] + assert len(s1) == 2 + + s1 = df.loc[52195.1:52198.9] + assert len(s1) == 3 + + def test_loc_getitem_float_slice_floatindex(self, float_numpy_dtype): + dtype = float_numpy_dtype + ser = Series( + np.random.default_rng(2).random(10), index=np.arange(10, 20, dtype=dtype) + ) + + assert len(ser.loc[12.0:]) == 8 + assert len(ser.loc[12.5:]) == 7 + + idx = np.arange(10, 20, dtype=dtype) + idx[2] = 12.2 + ser.index = idx + assert len(ser.loc[12.0:]) == 8 + assert len(ser.loc[12.5:]) == 7 + + @pytest.mark.parametrize( + "start,stop, expected_slice", + [ + [np.timedelta64(0, "ns"), None, slice(0, 11)], + [np.timedelta64(1, "D"), np.timedelta64(6, "D"), slice(1, 7)], + [None, np.timedelta64(4, "D"), slice(0, 5)], + ], + ) + def test_loc_getitem_slice_label_td64obj(self, start, stop, expected_slice): + # GH#20393 + ser = Series(range(11), timedelta_range("0 days", "10 days")) + result = ser.loc[slice(start, stop)] + expected = ser.iloc[expected_slice] + tm.assert_series_equal(result, expected) + + @pytest.mark.parametrize("start", ["2018", "2020"]) + def test_loc_getitem_slice_unordered_dt_index(self, frame_or_series, start): + obj = frame_or_series( + [1, 2, 3], + index=[Timestamp("2016"), Timestamp("2019"), Timestamp("2017")], + ) + with pytest.raises( + KeyError, match="Value based partial slicing on non-monotonic" + ): + obj.loc[start:"2022"] + + @pytest.mark.parametrize("value", [1, 1.5]) + def test_loc_getitem_slice_labels_int_in_object_index(self, frame_or_series, value): + # GH: 26491 + obj = frame_or_series(range(4), index=[value, "first", 2, "third"]) + result = obj.loc[value:"third"] + expected = frame_or_series(range(4), index=[value, "first", 2, "third"]) + tm.assert_equal(result, expected) + + def test_loc_getitem_slice_columns_mixed_dtype(self): + # GH: 20975 + df = DataFrame({"test": 1, 1: 2, 2: 3}, index=[0]) + expected = DataFrame( + data=[[2, 3]], index=[0], columns=Index([1, 2], dtype=object) + ) + tm.assert_frame_equal(df.loc[:, 1:], expected) + + +class TestLocBooleanLabelsAndSlices: + @pytest.mark.parametrize("bool_value", [True, False]) + def test_loc_bool_incompatible_index_raises( + self, index, frame_or_series, bool_value + ): + # GH20432 + message = f"{bool_value}: boolean label can not be used without a boolean index" + if index.inferred_type != "boolean": + obj = frame_or_series(index=index, dtype="object") + with pytest.raises(KeyError, match=message): + obj.loc[bool_value] + + @pytest.mark.parametrize("bool_value", [True, False]) + def test_loc_bool_should_not_raise(self, frame_or_series, bool_value): + obj = frame_or_series( + index=Index([True, False], dtype="boolean"), dtype="object" + ) + obj.loc[bool_value] + + def test_loc_bool_slice_raises(self, index, frame_or_series): + # GH20432 + message = ( + r"slice\(True, False, None\): boolean values can not be used in a slice" + ) + obj = frame_or_series(index=index, dtype="object") + with pytest.raises(TypeError, match=message): + obj.loc[True:False] + + +class TestLocBooleanMask: + def test_loc_setitem_bool_mask_timedeltaindex(self): + # GH#14946 + df = DataFrame({"x": range(10)}) + df.index = to_timedelta(range(10), unit="s") + conditions = [df["x"] > 3, df["x"] == 3, df["x"] < 3] + expected_data = [ + [0, 1, 2, 3, 10, 10, 10, 10, 10, 10], + [0, 1, 2, 10, 4, 5, 6, 7, 8, 9], + [10, 10, 10, 3, 4, 5, 6, 7, 8, 9], + ] + for cond, data in zip(conditions, expected_data): + result = df.copy() + result.loc[cond, "x"] = 10 + + expected = DataFrame( + data, + index=to_timedelta(range(10), unit="s"), + columns=["x"], + dtype="int64", + ) + tm.assert_frame_equal(expected, result) + + @pytest.mark.parametrize("tz", [None, "UTC"]) + def test_loc_setitem_mask_with_datetimeindex_tz(self, tz): + # GH#16889 + # support .loc with alignment and tz-aware DatetimeIndex + mask = np.array([True, False, True, False]) + + idx = date_range("20010101", periods=4, tz=tz) + df = DataFrame({"a": np.arange(4)}, index=idx).astype("float64") + + result = df.copy() + result.loc[mask, :] = df.loc[mask, :] + tm.assert_frame_equal(result, df) + + result = df.copy() + result.loc[mask] = df.loc[mask] + tm.assert_frame_equal(result, df) + + def test_loc_setitem_mask_and_label_with_datetimeindex(self): + # GH#9478 + # a datetimeindex alignment issue with partial setting + df = DataFrame( + np.arange(6.0).reshape(3, 2), + columns=list("AB"), + index=date_range("1/1/2000", periods=3, freq="1h"), + ) + expected = df.copy() + expected["C"] = [expected.index[0]] + [pd.NaT, pd.NaT] + + mask = df.A < 1 + df.loc[mask, "C"] = df.loc[mask].index + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_mask_td64_series_value(self): + # GH#23462 key list of bools, value is a Series + td1 = Timedelta(0) + td2 = Timedelta(28767471428571405) + df = DataFrame({"col": Series([td1, td2])}) + df_copy = df.copy() + ser = Series([td1]) + + expected = df["col"].iloc[1]._value + df.loc[[True, False]] = ser + result = df["col"].iloc[1]._value + + assert expected == result + tm.assert_frame_equal(df, df_copy) + + @td.skip_array_manager_invalid_test # TODO(ArrayManager) rewrite not using .values + def test_loc_setitem_boolean_and_column(self, float_frame): + expected = float_frame.copy() + mask = float_frame["A"] > 0 + + float_frame.loc[mask, "B"] = 0 + + values = expected.values.copy() + values[mask.values, 1] = 0 + expected = DataFrame(values, index=expected.index, columns=expected.columns) + tm.assert_frame_equal(float_frame, expected) + + def test_loc_setitem_ndframe_values_alignment( + self, using_copy_on_write, warn_copy_on_write + ): + # GH#45501 + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df.loc[[False, False, True], ["a"]] = DataFrame( + {"a": [10, 20, 30]}, index=[2, 1, 0] + ) + + expected = DataFrame({"a": [1, 2, 10], "b": [4, 5, 6]}) + tm.assert_frame_equal(df, expected) + + # same thing with Series RHS + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df.loc[[False, False, True], ["a"]] = Series([10, 11, 12], index=[2, 1, 0]) + tm.assert_frame_equal(df, expected) + + # same thing but setting "a" instead of ["a"] + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df.loc[[False, False, True], "a"] = Series([10, 11, 12], index=[2, 1, 0]) + tm.assert_frame_equal(df, expected) + + df = DataFrame({"a": [1, 2, 3], "b": [4, 5, 6]}) + df_orig = df.copy() + ser = df["a"] + with tm.assert_cow_warning(warn_copy_on_write): + ser.loc[[False, False, True]] = Series([10, 11, 12], index=[2, 1, 0]) + if using_copy_on_write: + tm.assert_frame_equal(df, df_orig) + else: + tm.assert_frame_equal(df, expected) + + def test_loc_indexer_empty_broadcast(self): + # GH#51450 + df = DataFrame({"a": [], "b": []}, dtype=object) + expected = df.copy() + df.loc[np.array([], dtype=np.bool_), ["a"]] = df["a"].copy() + tm.assert_frame_equal(df, expected) + + def test_loc_indexer_all_false_broadcast(self): + # GH#51450 + df = DataFrame({"a": ["x"], "b": ["y"]}, dtype=object) + expected = df.copy() + df.loc[np.array([False], dtype=np.bool_), ["a"]] = df["b"].copy() + tm.assert_frame_equal(df, expected) + + def test_loc_indexer_length_one(self): + # GH#51435 + df = DataFrame({"a": ["x"], "b": ["y"]}, dtype=object) + expected = DataFrame({"a": ["y"], "b": ["y"]}, dtype=object) + df.loc[np.array([True], dtype=np.bool_), ["a"]] = df["b"].copy() + tm.assert_frame_equal(df, expected) + + +class TestLocListlike: + @pytest.mark.parametrize("box", [lambda x: x, np.asarray, list]) + def test_loc_getitem_list_of_labels_categoricalindex_with_na(self, box): + # passing a list can include valid categories _or_ NA values + ci = CategoricalIndex(["A", "B", np.nan]) + ser = Series(range(3), index=ci) + + result = ser.loc[box(ci)] + tm.assert_series_equal(result, ser) + + result = ser[box(ci)] + tm.assert_series_equal(result, ser) + + result = ser.to_frame().loc[box(ci)] + tm.assert_frame_equal(result, ser.to_frame()) + + ser2 = ser[:-1] + ci2 = ci[1:] + # but if there are no NAs present, this should raise KeyError + msg = "not in index" + with pytest.raises(KeyError, match=msg): + ser2.loc[box(ci2)] + + with pytest.raises(KeyError, match=msg): + ser2[box(ci2)] + + with pytest.raises(KeyError, match=msg): + ser2.to_frame().loc[box(ci2)] + + def test_loc_getitem_series_label_list_missing_values(self): + # gh-11428 + key = np.array( + ["2001-01-04", "2001-01-02", "2001-01-04", "2001-01-14"], dtype="datetime64" + ) + ser = Series([2, 5, 8, 11], date_range("2001-01-01", freq="D", periods=4)) + with pytest.raises(KeyError, match="not in index"): + ser.loc[key] + + def test_loc_getitem_series_label_list_missing_integer_values(self): + # GH: 25927 + ser = Series( + index=np.array([9730701000001104, 10049011000001109]), + data=np.array([999000011000001104, 999000011000001104]), + ) + with pytest.raises(KeyError, match="not in index"): + ser.loc[np.array([9730701000001104, 10047311000001102])] + + @pytest.mark.parametrize("to_period", [True, False]) + def test_loc_getitem_listlike_of_datetimelike_keys(self, to_period): + # GH#11497 + + idx = date_range("2011-01-01", "2011-01-02", freq="D", name="idx") + if to_period: + idx = idx.to_period("D") + ser = Series([0.1, 0.2], index=idx, name="s") + + keys = [Timestamp("2011-01-01"), Timestamp("2011-01-02")] + if to_period: + keys = [x.to_period("D") for x in keys] + result = ser.loc[keys] + exp = Series([0.1, 0.2], index=idx, name="s") + if not to_period: + exp.index = exp.index._with_freq(None) + tm.assert_series_equal(result, exp, check_index_type=True) + + keys = [ + Timestamp("2011-01-02"), + Timestamp("2011-01-02"), + Timestamp("2011-01-01"), + ] + if to_period: + keys = [x.to_period("D") for x in keys] + exp = Series( + [0.2, 0.2, 0.1], index=Index(keys, name="idx", dtype=idx.dtype), name="s" + ) + result = ser.loc[keys] + tm.assert_series_equal(result, exp, check_index_type=True) + + keys = [ + Timestamp("2011-01-03"), + Timestamp("2011-01-02"), + Timestamp("2011-01-03"), + ] + if to_period: + keys = [x.to_period("D") for x in keys] + + with pytest.raises(KeyError, match="not in index"): + ser.loc[keys] + + def test_loc_named_index(self): + # GH 42790 + df = DataFrame( + [[1, 2], [4, 5], [7, 8]], + index=["cobra", "viper", "sidewinder"], + columns=["max_speed", "shield"], + ) + expected = df.iloc[:2] + expected.index.name = "foo" + result = df.loc[Index(["cobra", "viper"], name="foo")] + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "columns, column_key, expected_columns", + [ + ([2011, 2012, 2013], [2011, 2012], [0, 1]), + ([2011, 2012, "All"], [2011, 2012], [0, 1]), + ([2011, 2012, "All"], [2011, "All"], [0, 2]), + ], +) +def test_loc_getitem_label_list_integer_labels(columns, column_key, expected_columns): + # gh-14836 + df = DataFrame( + np.random.default_rng(2).random((3, 3)), columns=columns, index=list("ABC") + ) + expected = df.iloc[:, expected_columns] + result = df.loc[["A", "B", "C"], column_key] + + tm.assert_frame_equal(result, expected, check_column_type=True) + + +def test_loc_setitem_float_intindex(): + # GH 8720 + rand_data = np.random.default_rng(2).standard_normal((8, 4)) + result = DataFrame(rand_data) + result.loc[:, 0.5] = np.nan + expected_data = np.hstack((rand_data, np.array([np.nan] * 8).reshape(8, 1))) + expected = DataFrame(expected_data, columns=[0.0, 1.0, 2.0, 3.0, 0.5]) + tm.assert_frame_equal(result, expected) + + result = DataFrame(rand_data) + result.loc[:, 0.5] = np.nan + tm.assert_frame_equal(result, expected) + + +def test_loc_axis_1_slice(): + # GH 10586 + cols = [(yr, m) for yr in [2014, 2015] for m in [7, 8, 9, 10]] + df = DataFrame( + np.ones((10, 8)), + index=tuple("ABCDEFGHIJ"), + columns=MultiIndex.from_tuples(cols), + ) + result = df.loc(axis=1)[(2014, 9):(2015, 8)] + expected = DataFrame( + np.ones((10, 4)), + index=tuple("ABCDEFGHIJ"), + columns=MultiIndex.from_tuples([(2014, 9), (2014, 10), (2015, 7), (2015, 8)]), + ) + tm.assert_frame_equal(result, expected) + + +def test_loc_set_dataframe_multiindex(): + # GH 14592 + expected = DataFrame( + "a", index=range(2), columns=MultiIndex.from_product([range(2), range(2)]) + ) + result = expected.copy() + result.loc[0, [(0, 1)]] = result.loc[0, [(0, 1)]] + tm.assert_frame_equal(result, expected) + + +def test_loc_mixed_int_float(): + # GH#19456 + ser = Series(range(2), Index([1, 2.0], dtype=object)) + + result = ser.loc[1] + assert result == 0 + + +def test_loc_with_positional_slice_raises(): + # GH#31840 + ser = Series(range(4), index=["A", "B", "C", "D"]) + + with pytest.raises(TypeError, match="Slicing a positional slice with .loc"): + ser.loc[:3] = 2 + + +def test_loc_slice_disallows_positional(): + # GH#16121, GH#24612, GH#31810 + dti = date_range("2016-01-01", periods=3) + df = DataFrame(np.random.default_rng(2).random((3, 2)), index=dti) + + ser = df[0] + + msg = ( + "cannot do slice indexing on DatetimeIndex with these " + r"indexers \[1\] of type int" + ) + + for obj in [df, ser]: + with pytest.raises(TypeError, match=msg): + obj.loc[1:3] + + with pytest.raises(TypeError, match="Slicing a positional slice with .loc"): + # GH#31840 enforce incorrect behavior + obj.loc[1:3] = 1 + + with pytest.raises(TypeError, match=msg): + df.loc[1:3, 1] + + with pytest.raises(TypeError, match="Slicing a positional slice with .loc"): + # GH#31840 enforce incorrect behavior + df.loc[1:3, 1] = 2 + + +def test_loc_datetimelike_mismatched_dtypes(): + # GH#32650 dont mix and match datetime/timedelta/period dtypes + + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 3)), + columns=["a", "b", "c"], + index=date_range("2012", freq="h", periods=5), + ) + # create dataframe with non-unique DatetimeIndex + df = df.iloc[[0, 2, 2, 3]].copy() + + dti = df.index + tdi = pd.TimedeltaIndex(dti.asi8) # matching i8 values + + msg = r"None of \[TimedeltaIndex.* are in the \[index\]" + with pytest.raises(KeyError, match=msg): + df.loc[tdi] + + with pytest.raises(KeyError, match=msg): + df["a"].loc[tdi] + + +def test_loc_with_period_index_indexer(): + # GH#4125 + idx = pd.period_range("2002-01", "2003-12", freq="M") + df = DataFrame(np.random.default_rng(2).standard_normal((24, 10)), index=idx) + tm.assert_frame_equal(df, df.loc[idx]) + tm.assert_frame_equal(df, df.loc[list(idx)]) + tm.assert_frame_equal(df, df.loc[list(idx)]) + tm.assert_frame_equal(df.iloc[0:5], df.loc[idx[0:5]]) + tm.assert_frame_equal(df, df.loc[list(idx)]) + + +def test_loc_setitem_multiindex_timestamp(): + # GH#13831 + vals = np.random.default_rng(2).standard_normal((8, 6)) + idx = date_range("1/1/2000", periods=8) + cols = ["A", "B", "C", "D", "E", "F"] + exp = DataFrame(vals, index=idx, columns=cols) + exp.loc[exp.index[1], ("A", "B")] = np.nan + vals[1][0:2] = np.nan + res = DataFrame(vals, index=idx, columns=cols) + tm.assert_frame_equal(res, exp) + + +def test_loc_getitem_multiindex_tuple_level(): + # GH#27591 + lev1 = ["a", "b", "c"] + lev2 = [(0, 1), (1, 0)] + lev3 = [0, 1] + cols = MultiIndex.from_product([lev1, lev2, lev3], names=["x", "y", "z"]) + df = DataFrame(6, index=range(5), columns=cols) + + # the lev2[0] here should be treated as a single label, not as a sequence + # of labels + result = df.loc[:, (lev1[0], lev2[0], lev3[0])] + + # TODO: i think this actually should drop levels + expected = df.iloc[:, :1] + tm.assert_frame_equal(result, expected) + + alt = df.xs((lev1[0], lev2[0], lev3[0]), level=[0, 1, 2], axis=1) + tm.assert_frame_equal(alt, expected) + + # same thing on a Series + ser = df.iloc[0] + expected2 = ser.iloc[:1] + + alt2 = ser.xs((lev1[0], lev2[0], lev3[0]), level=[0, 1, 2], axis=0) + tm.assert_series_equal(alt2, expected2) + + result2 = ser.loc[lev1[0], lev2[0], lev3[0]] + assert result2 == 6 + + +def test_loc_getitem_nullable_index_with_duplicates(): + # GH#34497 + df = DataFrame( + data=np.array([[1, 2, 3, 4], [5, 6, 7, 8], [1, 2, np.nan, np.nan]]).T, + columns=["a", "b", "c"], + dtype="Int64", + ) + df2 = df.set_index("c") + assert df2.index.dtype == "Int64" + + res = df2.loc[1] + expected = Series([1, 5], index=df2.columns, dtype="Int64", name=1) + tm.assert_series_equal(res, expected) + + # pd.NA and duplicates in an object-dtype Index + df2.index = df2.index.astype(object) + res = df2.loc[1] + tm.assert_series_equal(res, expected) + + +@pytest.mark.parametrize("value", [300, np.uint16(300), np.int16(300)]) +def test_loc_setitem_uint8_upcast(value): + # GH#26049 + + df = DataFrame([1, 2, 3, 4], columns=["col1"], dtype="uint8") + with tm.assert_produces_warning(FutureWarning, match="item of incompatible dtype"): + df.loc[2, "col1"] = value # value that can't be held in uint8 + + if np_version_gt2 and isinstance(value, np.int16): + # Note, result type of uint8 + int16 is int16 + # in numpy < 2, though, numpy would inspect the + # value and see that it could fit in an uint16, resulting in a uint16 + dtype = "int16" + else: + dtype = "uint16" + + expected = DataFrame([1, 2, 300, 4], columns=["col1"], dtype=dtype) + tm.assert_frame_equal(df, expected) + + +@pytest.mark.parametrize( + "fill_val,exp_dtype", + [ + (Timestamp("2022-01-06"), "datetime64[ns]"), + (Timestamp("2022-01-07", tz="US/Eastern"), "datetime64[ns, US/Eastern]"), + ], +) +def test_loc_setitem_using_datetimelike_str_as_index(fill_val, exp_dtype): + data = ["2022-01-02", "2022-01-03", "2022-01-04", fill_val.date()] + index = DatetimeIndex(data, tz=fill_val.tz, dtype=exp_dtype) + df = DataFrame([10, 11, 12, 14], columns=["a"], index=index) + # adding new row using an unexisting datetime-like str index + df.loc["2022-01-08", "a"] = 13 + + data.append("2022-01-08") + expected_index = DatetimeIndex(data, dtype=exp_dtype) + tm.assert_index_equal(df.index, expected_index, exact=True) + + +def test_loc_set_int_dtype(): + # GH#23326 + df = DataFrame([list("abc")]) + df.loc[:, "col1"] = 5 + + expected = DataFrame({0: ["a"], 1: ["b"], 2: ["c"], "col1": [5]}) + tm.assert_frame_equal(df, expected) + + +@pytest.mark.filterwarnings(r"ignore:Period with BDay freq is deprecated:FutureWarning") +@pytest.mark.filterwarnings(r"ignore:PeriodDtype\[B\] is deprecated:FutureWarning") +def test_loc_periodindex_3_levels(): + # GH#24091 + p_index = PeriodIndex( + ["20181101 1100", "20181101 1200", "20181102 1300", "20181102 1400"], + name="datetime", + freq="B", + ) + mi_series = DataFrame( + [["A", "B", 1.0], ["A", "C", 2.0], ["Z", "Q", 3.0], ["W", "F", 4.0]], + index=p_index, + columns=["ONE", "TWO", "VALUES"], + ) + mi_series = mi_series.set_index(["ONE", "TWO"], append=True)["VALUES"] + assert mi_series.loc[(p_index[0], "A", "B")] == 1.0 + + +def test_loc_setitem_pyarrow_strings(): + # GH#52319 + pytest.importorskip("pyarrow") + df = DataFrame( + { + "strings": Series(["A", "B", "C"], dtype="string[pyarrow]"), + "ids": Series([True, True, False]), + } + ) + new_value = Series(["X", "Y"]) + df.loc[df.ids, "strings"] = new_value + + expected_df = DataFrame( + { + "strings": Series(["X", "Y", "C"], dtype="string[pyarrow]"), + "ids": Series([True, True, False]), + } + ) + + tm.assert_frame_equal(df, expected_df) + + +class TestLocSeries: + @pytest.mark.parametrize("val,expected", [(2**63 - 1, 3), (2**63, 4)]) + def test_loc_uint64(self, val, expected): + # see GH#19399 + ser = Series({2**63 - 1: 3, 2**63: 4}) + assert ser.loc[val] == expected + + def test_loc_getitem(self, string_series, datetime_series): + inds = string_series.index[[3, 4, 7]] + tm.assert_series_equal(string_series.loc[inds], string_series.reindex(inds)) + tm.assert_series_equal(string_series.iloc[5::2], string_series[5::2]) + + # slice with indices + d1, d2 = datetime_series.index[[5, 15]] + result = datetime_series.loc[d1:d2] + expected = datetime_series.truncate(d1, d2) + tm.assert_series_equal(result, expected) + + # boolean + mask = string_series > string_series.median() + tm.assert_series_equal(string_series.loc[mask], string_series[mask]) + + # ask for index value + assert datetime_series.loc[d1] == datetime_series[d1] + assert datetime_series.loc[d2] == datetime_series[d2] + + def test_loc_getitem_not_monotonic(self, datetime_series): + d1, d2 = datetime_series.index[[5, 15]] + + ts2 = datetime_series[::2].iloc[[1, 2, 0]] + + msg = r"Timestamp\('2000-01-10 00:00:00'\)" + with pytest.raises(KeyError, match=msg): + ts2.loc[d1:d2] + with pytest.raises(KeyError, match=msg): + ts2.loc[d1:d2] = 0 + + def test_loc_getitem_setitem_integer_slice_keyerrors(self): + ser = Series( + np.random.default_rng(2).standard_normal(10), index=list(range(0, 20, 2)) + ) + + # this is OK + cp = ser.copy() + cp.iloc[4:10] = 0 + assert (cp.iloc[4:10] == 0).all() + + # so is this + cp = ser.copy() + cp.iloc[3:11] = 0 + assert (cp.iloc[3:11] == 0).values.all() + + result = ser.iloc[2:6] + result2 = ser.loc[3:11] + expected = ser.reindex([4, 6, 8, 10]) + + tm.assert_series_equal(result, expected) + tm.assert_series_equal(result2, expected) + + # non-monotonic, raise KeyError + s2 = ser.iloc[list(range(5)) + list(range(9, 4, -1))] + with pytest.raises(KeyError, match=r"^3$"): + s2.loc[3:11] + with pytest.raises(KeyError, match=r"^3$"): + s2.loc[3:11] = 0 + + def test_loc_getitem_iterator(self, string_series): + idx = iter(string_series.index[:10]) + result = string_series.loc[idx] + tm.assert_series_equal(result, string_series[:10]) + + def test_loc_setitem_boolean(self, string_series): + mask = string_series > string_series.median() + + result = string_series.copy() + result.loc[mask] = 0 + expected = string_series + expected[mask] = 0 + tm.assert_series_equal(result, expected) + + def test_loc_setitem_corner(self, string_series): + inds = list(string_series.index[[5, 8, 12]]) + string_series.loc[inds] = 5 + msg = r"\['foo'\] not in index" + with pytest.raises(KeyError, match=msg): + string_series.loc[inds + ["foo"]] = 5 + + def test_basic_setitem_with_labels(self, datetime_series): + indices = datetime_series.index[[5, 10, 15]] + + cp = datetime_series.copy() + exp = datetime_series.copy() + cp[indices] = 0 + exp.loc[indices] = 0 + tm.assert_series_equal(cp, exp) + + cp = datetime_series.copy() + exp = datetime_series.copy() + cp[indices[0] : indices[2]] = 0 + exp.loc[indices[0] : indices[2]] = 0 + tm.assert_series_equal(cp, exp) + + def test_loc_setitem_listlike_of_ints(self): + # integer indexes, be careful + ser = Series( + np.random.default_rng(2).standard_normal(10), index=list(range(0, 20, 2)) + ) + inds = [0, 4, 6] + arr_inds = np.array([0, 4, 6]) + + cp = ser.copy() + exp = ser.copy() + ser[inds] = 0 + ser.loc[inds] = 0 + tm.assert_series_equal(cp, exp) + + cp = ser.copy() + exp = ser.copy() + ser[arr_inds] = 0 + ser.loc[arr_inds] = 0 + tm.assert_series_equal(cp, exp) + + inds_notfound = [0, 4, 5, 6] + arr_inds_notfound = np.array([0, 4, 5, 6]) + msg = r"\[5\] not in index" + with pytest.raises(KeyError, match=msg): + ser[inds_notfound] = 0 + with pytest.raises(Exception, match=msg): + ser[arr_inds_notfound] = 0 + + def test_loc_setitem_dt64tz_values(self): + # GH#12089 + ser = Series( + date_range("2011-01-01", periods=3, tz="US/Eastern"), + index=["a", "b", "c"], + ) + s2 = ser.copy() + expected = Timestamp("2011-01-03", tz="US/Eastern") + s2.loc["a"] = expected + result = s2.loc["a"] + assert result == expected + + s2 = ser.copy() + s2.iloc[0] = expected + result = s2.iloc[0] + assert result == expected + + s2 = ser.copy() + s2["a"] = expected + result = s2["a"] + assert result == expected + + @pytest.mark.parametrize("array_fn", [np.array, pd.array, list, tuple]) + @pytest.mark.parametrize("size", [0, 4, 5, 6]) + def test_loc_iloc_setitem_with_listlike(self, size, array_fn): + # GH37748 + # testing insertion, in a Series of size N (here 5), of a listlike object + # of size 0, N-1, N, N+1 + + arr = array_fn([0] * size) + expected = Series([arr, 0, 0, 0, 0], index=list("abcde"), dtype=object) + + ser = Series(0, index=list("abcde"), dtype=object) + ser.loc["a"] = arr + tm.assert_series_equal(ser, expected) + + ser = Series(0, index=list("abcde"), dtype=object) + ser.iloc[0] = arr + tm.assert_series_equal(ser, expected) + + @pytest.mark.parametrize("indexer", [IndexSlice["A", :], ("A", slice(None))]) + def test_loc_series_getitem_too_many_dimensions(self, indexer): + # GH#35349 + ser = Series( + index=MultiIndex.from_tuples([("A", "0"), ("A", "1"), ("B", "0")]), + data=[21, 22, 23], + ) + msg = "Too many indexers" + with pytest.raises(IndexingError, match=msg): + ser.loc[indexer, :] + + with pytest.raises(IndexingError, match=msg): + ser.loc[indexer, :] = 1 + + def test_loc_setitem(self, string_series): + inds = string_series.index[[3, 4, 7]] + + result = string_series.copy() + result.loc[inds] = 5 + + expected = string_series.copy() + expected.iloc[[3, 4, 7]] = 5 + tm.assert_series_equal(result, expected) + + result.iloc[5:10] = 10 + expected[5:10] = 10 + tm.assert_series_equal(result, expected) + + # set slice with indices + d1, d2 = string_series.index[[5, 15]] + result.loc[d1:d2] = 6 + expected[5:16] = 6 # because it's inclusive + tm.assert_series_equal(result, expected) + + # set index value + string_series.loc[d1] = 4 + string_series.loc[d2] = 6 + assert string_series[d1] == 4 + assert string_series[d2] == 6 + + @pytest.mark.parametrize("dtype", ["object", "string"]) + def test_loc_assign_dict_to_row(self, dtype): + # GH41044 + df = DataFrame({"A": ["abc", "def"], "B": ["ghi", "jkl"]}, dtype=dtype) + df.loc[0, :] = {"A": "newA", "B": "newB"} + + expected = DataFrame({"A": ["newA", "def"], "B": ["newB", "jkl"]}, dtype=dtype) + + tm.assert_frame_equal(df, expected) + + @td.skip_array_manager_invalid_test + def test_loc_setitem_dict_timedelta_multiple_set(self): + # GH 16309 + result = DataFrame(columns=["time", "value"]) + result.loc[1] = {"time": Timedelta(6, unit="s"), "value": "foo"} + result.loc[1] = {"time": Timedelta(6, unit="s"), "value": "foo"} + expected = DataFrame( + [[Timedelta(6, unit="s"), "foo"]], columns=["time", "value"], index=[1] + ) + tm.assert_frame_equal(result, expected) + + def test_loc_set_multiple_items_in_multiple_new_columns(self): + # GH 25594 + df = DataFrame(index=[1, 2], columns=["a"]) + df.loc[1, ["b", "c"]] = [6, 7] + + expected = DataFrame( + { + "a": Series([np.nan, np.nan], dtype="object"), + "b": [6, np.nan], + "c": [7, np.nan], + }, + index=[1, 2], + ) + + tm.assert_frame_equal(df, expected) + + def test_getitem_loc_str_periodindex(self): + # GH#33964 + msg = "Period with BDay freq is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + index = pd.period_range(start="2000", periods=20, freq="B") + series = Series(range(20), index=index) + assert series.loc["2000-01-14"] == 9 + + def test_loc_nonunique_masked_index(self): + # GH 57027 + ids = list(range(11)) + index = Index(ids * 1000, dtype="Int64") + df = DataFrame({"val": np.arange(len(index), dtype=np.intp)}, index=index) + result = df.loc[ids] + expected = DataFrame( + {"val": index.argsort(kind="stable").astype(np.intp)}, + index=Index(np.array(ids).repeat(1000), dtype="Int64"), + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_na_indexing.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_na_indexing.py new file mode 100644 index 0000000000000000000000000000000000000000..5364cfe85243001040bf40c8b72b4f71808c3d9c --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_na_indexing.py @@ -0,0 +1,75 @@ +import pytest + +import pandas as pd +import pandas._testing as tm + + +@pytest.mark.parametrize( + "values, dtype", + [ + ([], "object"), + ([1, 2, 3], "int64"), + ([1.0, 2.0, 3.0], "float64"), + (["a", "b", "c"], "object"), + (["a", "b", "c"], "string"), + ([1, 2, 3], "datetime64[ns]"), + ([1, 2, 3], "datetime64[ns, CET]"), + ([1, 2, 3], "timedelta64[ns]"), + (["2000", "2001", "2002"], "Period[D]"), + ([1, 0, 3], "Sparse"), + ([pd.Interval(0, 1), pd.Interval(1, 2), pd.Interval(3, 4)], "interval"), + ], +) +@pytest.mark.parametrize( + "mask", [[True, False, False], [True, True, True], [False, False, False]] +) +@pytest.mark.parametrize("indexer_class", [list, pd.array, pd.Index, pd.Series]) +@pytest.mark.parametrize("frame", [True, False]) +def test_series_mask_boolean(values, dtype, mask, indexer_class, frame): + # In case len(values) < 3 + index = ["a", "b", "c"][: len(values)] + mask = mask[: len(values)] + + obj = pd.Series(values, dtype=dtype, index=index) + if frame: + if len(values) == 0: + # Otherwise obj is an empty DataFrame with shape (0, 1) + obj = pd.DataFrame(dtype=dtype, index=index) + else: + obj = obj.to_frame() + + if indexer_class is pd.array: + mask = pd.array(mask, dtype="boolean") + elif indexer_class is pd.Series: + mask = pd.Series(mask, index=obj.index, dtype="boolean") + else: + mask = indexer_class(mask) + + expected = obj[mask] + + result = obj[mask] + tm.assert_equal(result, expected) + + if indexer_class is pd.Series: + msg = "iLocation based boolean indexing cannot use an indexable as a mask" + with pytest.raises(ValueError, match=msg): + result = obj.iloc[mask] + tm.assert_equal(result, expected) + else: + result = obj.iloc[mask] + tm.assert_equal(result, expected) + + result = obj.loc[mask] + tm.assert_equal(result, expected) + + +def test_na_treated_as_false(frame_or_series, indexer_sli): + # https://github.com/pandas-dev/pandas/issues/31503 + obj = frame_or_series([1, 2, 3]) + + mask = pd.array([True, False, None], dtype="boolean") + + result = indexer_sli(obj)[mask] + expected = indexer_sli(obj)[mask.fillna(False)] + + tm.assert_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_partial.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_partial.py new file mode 100644 index 0000000000000000000000000000000000000000..e3246fd3c2a59da586f294480580e9f21d0a2705 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_partial.py @@ -0,0 +1,696 @@ +""" +test setting *parts* of objects both positionally and label based + +TODO: these should be split among the indexer tests +""" + +import numpy as np +import pytest + +import pandas as pd +from pandas import ( + DataFrame, + Index, + Period, + Series, + Timestamp, + date_range, + period_range, +) +import pandas._testing as tm + + +class TestEmptyFrameSetitemExpansion: + def test_empty_frame_setitem_index_name_retained(self): + # GH#31368 empty frame has non-None index.name -> retained + df = DataFrame({}, index=pd.RangeIndex(0, name="df_index")) + series = Series(1.23, index=pd.RangeIndex(4, name="series_index")) + + df["series"] = series + expected = DataFrame( + {"series": [1.23] * 4}, + index=pd.RangeIndex(4, name="df_index"), + columns=Index(["series"]), + ) + + tm.assert_frame_equal(df, expected) + + def test_empty_frame_setitem_index_name_inherited(self): + # GH#36527 empty frame has None index.name -> not retained + df = DataFrame() + series = Series(1.23, index=pd.RangeIndex(4, name="series_index")) + df["series"] = series + expected = DataFrame( + {"series": [1.23] * 4}, + index=pd.RangeIndex(4, name="series_index"), + columns=Index(["series"]), + ) + tm.assert_frame_equal(df, expected) + + def test_loc_setitem_zerolen_series_columns_align(self): + # columns will align + df = DataFrame(columns=["A", "B"]) + df.loc[0] = Series(1, index=range(4)) + expected = DataFrame(columns=["A", "B"], index=[0], dtype=np.float64) + tm.assert_frame_equal(df, expected) + + # columns will align + df = DataFrame(columns=["A", "B"]) + df.loc[0] = Series(1, index=["B"]) + + exp = DataFrame([[np.nan, 1]], columns=["A", "B"], index=[0], dtype="float64") + tm.assert_frame_equal(df, exp) + + def test_loc_setitem_zerolen_list_length_must_match_columns(self): + # list-like must conform + df = DataFrame(columns=["A", "B"]) + + msg = "cannot set a row with mismatched columns" + with pytest.raises(ValueError, match=msg): + df.loc[0] = [1, 2, 3] + + df = DataFrame(columns=["A", "B"]) + df.loc[3] = [6, 7] # length matches len(df.columns) --> OK! + + exp = DataFrame([[6, 7]], index=[3], columns=["A", "B"], dtype=np.int64) + tm.assert_frame_equal(df, exp) + + def test_partial_set_empty_frame(self): + # partially set with an empty object + # frame + df = DataFrame() + + msg = "cannot set a frame with no defined columns" + + with pytest.raises(ValueError, match=msg): + df.loc[1] = 1 + + with pytest.raises(ValueError, match=msg): + df.loc[1] = Series([1], index=["foo"]) + + msg = "cannot set a frame with no defined index and a scalar" + with pytest.raises(ValueError, match=msg): + df.loc[:, 1] = 1 + + def test_partial_set_empty_frame2(self): + # these work as they don't really change + # anything but the index + # GH#5632 + expected = DataFrame(columns=Index(["foo"]), index=Index([], dtype="object")) + + df = DataFrame(index=Index([], dtype="object")) + df["foo"] = Series([], dtype="object") + + tm.assert_frame_equal(df, expected) + + df = DataFrame(index=Index([])) + df["foo"] = Series(df.index) + + tm.assert_frame_equal(df, expected) + + df = DataFrame(index=Index([])) + df["foo"] = df.index + + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame3(self): + expected = DataFrame(columns=Index(["foo"]), index=Index([], dtype="int64")) + expected["foo"] = expected["foo"].astype("float64") + + df = DataFrame(index=Index([], dtype="int64")) + df["foo"] = [] + + tm.assert_frame_equal(df, expected) + + df = DataFrame(index=Index([], dtype="int64")) + df["foo"] = Series(np.arange(len(df)), dtype="float64") + + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame4(self): + df = DataFrame(index=Index([], dtype="int64")) + df["foo"] = range(len(df)) + + expected = DataFrame(columns=Index(["foo"]), index=Index([], dtype="int64")) + # range is int-dtype-like, so we get int64 dtype + expected["foo"] = expected["foo"].astype("int64") + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame5(self): + df = DataFrame() + tm.assert_index_equal(df.columns, pd.RangeIndex(0)) + df2 = DataFrame() + df2[1] = Series([1], index=["foo"]) + df.loc[:, 1] = Series([1], index=["foo"]) + tm.assert_frame_equal(df, DataFrame([[1]], index=["foo"], columns=[1])) + tm.assert_frame_equal(df, df2) + + def test_partial_set_empty_frame_no_index(self): + # no index to start + expected = DataFrame({0: Series(1, index=range(4))}, columns=["A", "B", 0]) + + df = DataFrame(columns=["A", "B"]) + df[0] = Series(1, index=range(4)) + tm.assert_frame_equal(df, expected) + + df = DataFrame(columns=["A", "B"]) + df.loc[:, 0] = Series(1, index=range(4)) + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame_row(self): + # GH#5720, GH#5744 + # don't create rows when empty + expected = DataFrame(columns=["A", "B", "New"], index=Index([], dtype="int64")) + expected["A"] = expected["A"].astype("int64") + expected["B"] = expected["B"].astype("float64") + expected["New"] = expected["New"].astype("float64") + + df = DataFrame({"A": [1, 2, 3], "B": [1.2, 4.2, 5.2]}) + y = df[df.A > 5] + y["New"] = np.nan + tm.assert_frame_equal(y, expected) + + expected = DataFrame(columns=["a", "b", "c c", "d"]) + expected["d"] = expected["d"].astype("int64") + df = DataFrame(columns=["a", "b", "c c"]) + df["d"] = 3 + tm.assert_frame_equal(df, expected) + tm.assert_series_equal(df["c c"], Series(name="c c", dtype=object)) + + # reindex columns is ok + df = DataFrame({"A": [1, 2, 3], "B": [1.2, 4.2, 5.2]}) + y = df[df.A > 5] + result = y.reindex(columns=["A", "B", "C"]) + expected = DataFrame(columns=["A", "B", "C"]) + expected["A"] = expected["A"].astype("int64") + expected["B"] = expected["B"].astype("float64") + expected["C"] = expected["C"].astype("float64") + tm.assert_frame_equal(result, expected) + + def test_partial_set_empty_frame_set_series(self): + # GH#5756 + # setting with empty Series + df = DataFrame(Series(dtype=object)) + expected = DataFrame({0: Series(dtype=object)}) + tm.assert_frame_equal(df, expected) + + df = DataFrame(Series(name="foo", dtype=object)) + expected = DataFrame({"foo": Series(dtype=object)}) + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame_empty_copy_assignment(self): + # GH#5932 + # copy on empty with assignment fails + df = DataFrame(index=[0]) + df = df.copy() + df["a"] = 0 + expected = DataFrame(0, index=[0], columns=Index(["a"])) + tm.assert_frame_equal(df, expected) + + def test_partial_set_empty_frame_empty_consistencies(self, using_infer_string): + # GH#6171 + # consistency on empty frames + df = DataFrame(columns=["x", "y"]) + df["x"] = [1, 2] + expected = DataFrame({"x": [1, 2], "y": [np.nan, np.nan]}) + tm.assert_frame_equal(df, expected, check_dtype=False) + + df = DataFrame(columns=["x", "y"]) + df["x"] = ["1", "2"] + expected = DataFrame( + { + "x": Series( + ["1", "2"], + dtype=object if not using_infer_string else "str", + ), + "y": Series([np.nan, np.nan], dtype=object), + } + ) + tm.assert_frame_equal(df, expected) + + df = DataFrame(columns=["x", "y"]) + df.loc[0, "x"] = 1 + expected = DataFrame({"x": [1], "y": [np.nan]}) + tm.assert_frame_equal(df, expected, check_dtype=False) + + +class TestPartialSetting: + def test_partial_setting(self): + # GH2578, allow ix and friends to partially set + + # series + s_orig = Series([1, 2, 3]) + + s = s_orig.copy() + s[5] = 5 + expected = Series([1, 2, 3, 5], index=[0, 1, 2, 5]) + tm.assert_series_equal(s, expected) + + s = s_orig.copy() + s.loc[5] = 5 + expected = Series([1, 2, 3, 5], index=[0, 1, 2, 5]) + tm.assert_series_equal(s, expected) + + s = s_orig.copy() + s[5] = 5.0 + expected = Series([1, 2, 3, 5.0], index=[0, 1, 2, 5]) + tm.assert_series_equal(s, expected) + + s = s_orig.copy() + s.loc[5] = 5.0 + expected = Series([1, 2, 3, 5.0], index=[0, 1, 2, 5]) + tm.assert_series_equal(s, expected) + + # iloc/iat raise + s = s_orig.copy() + + msg = "iloc cannot enlarge its target object" + with pytest.raises(IndexError, match=msg): + s.iloc[3] = 5.0 + + msg = "index 3 is out of bounds for axis 0 with size 3" + with pytest.raises(IndexError, match=msg): + s.iat[3] = 5.0 + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + def test_partial_setting_frame(self, using_array_manager): + df_orig = DataFrame( + np.arange(6).reshape(3, 2), columns=["A", "B"], dtype="int64" + ) + + # iloc/iat raise + df = df_orig.copy() + + msg = "iloc cannot enlarge its target object" + with pytest.raises(IndexError, match=msg): + df.iloc[4, 2] = 5.0 + + msg = "index 2 is out of bounds for axis 0 with size 2" + if using_array_manager: + msg = "list index out of range" + with pytest.raises(IndexError, match=msg): + df.iat[4, 2] = 5.0 + + # row setting where it exists + expected = DataFrame({"A": [0, 4, 4], "B": [1, 5, 5]}) + df = df_orig.copy() + df.iloc[1] = df.iloc[2] + tm.assert_frame_equal(df, expected) + + expected = DataFrame({"A": [0, 4, 4], "B": [1, 5, 5]}) + df = df_orig.copy() + df.loc[1] = df.loc[2] + tm.assert_frame_equal(df, expected) + + # like 2578, partial setting with dtype preservation + expected = DataFrame({"A": [0, 2, 4, 4], "B": [1, 3, 5, 5]}) + df = df_orig.copy() + df.loc[3] = df.loc[2] + tm.assert_frame_equal(df, expected) + + # single dtype frame, overwrite + expected = DataFrame({"A": [0, 2, 4], "B": [0, 2, 4]}) + df = df_orig.copy() + df.loc[:, "B"] = df.loc[:, "A"] + tm.assert_frame_equal(df, expected) + + # mixed dtype frame, overwrite + expected = DataFrame({"A": [0, 2, 4], "B": Series([0.0, 2.0, 4.0])}) + df = df_orig.copy() + df["B"] = df["B"].astype(np.float64) + # as of 2.0, df.loc[:, "B"] = ... attempts (and here succeeds) at + # setting inplace + df.loc[:, "B"] = df.loc[:, "A"] + tm.assert_frame_equal(df, expected) + + # single dtype frame, partial setting + expected = df_orig.copy() + expected["C"] = df["A"] + df = df_orig.copy() + df.loc[:, "C"] = df.loc[:, "A"] + tm.assert_frame_equal(df, expected) + + # mixed frame, partial setting + expected = df_orig.copy() + expected["C"] = df["A"] + df = df_orig.copy() + df.loc[:, "C"] = df.loc[:, "A"] + tm.assert_frame_equal(df, expected) + + def test_partial_setting2(self): + # GH 8473 + dates = date_range("1/1/2000", periods=8) + df_orig = DataFrame( + np.random.default_rng(2).standard_normal((8, 4)), + index=dates, + columns=["A", "B", "C", "D"], + ) + + expected = pd.concat( + [df_orig, DataFrame({"A": 7}, index=dates[-1:] + dates.freq)], sort=True + ) + df = df_orig.copy() + df.loc[dates[-1] + dates.freq, "A"] = 7 + tm.assert_frame_equal(df, expected) + df = df_orig.copy() + df.at[dates[-1] + dates.freq, "A"] = 7 + tm.assert_frame_equal(df, expected) + + exp_other = DataFrame({0: 7}, index=dates[-1:] + dates.freq) + expected = pd.concat([df_orig, exp_other], axis=1) + + df = df_orig.copy() + df.loc[dates[-1] + dates.freq, 0] = 7 + tm.assert_frame_equal(df, expected) + df = df_orig.copy() + df.at[dates[-1] + dates.freq, 0] = 7 + tm.assert_frame_equal(df, expected) + + def test_partial_setting_mixed_dtype(self): + # in a mixed dtype environment, try to preserve dtypes + # by appending + df = DataFrame([[True, 1], [False, 2]], columns=["female", "fitness"]) + + s = df.loc[1].copy() + s.name = 2 + expected = pd.concat([df, DataFrame(s).T.infer_objects()]) + + df.loc[2] = df.loc[1] + tm.assert_frame_equal(df, expected) + + def test_series_partial_set(self): + # partial set with new index + # Regression from GH4825 + ser = Series([0.1, 0.2], index=[1, 2]) + + # loc equiv to .reindex + expected = Series([np.nan, 0.2, np.nan], index=[3, 2, 3]) + with pytest.raises(KeyError, match=r"not in index"): + ser.loc[[3, 2, 3]] + + result = ser.reindex([3, 2, 3]) + tm.assert_series_equal(result, expected, check_index_type=True) + + expected = Series([np.nan, 0.2, np.nan, np.nan], index=[3, 2, 3, "x"]) + with pytest.raises(KeyError, match="not in index"): + ser.loc[[3, 2, 3, "x"]] + + result = ser.reindex([3, 2, 3, "x"]) + tm.assert_series_equal(result, expected, check_index_type=True) + + expected = Series([0.2, 0.2, 0.1], index=[2, 2, 1]) + result = ser.loc[[2, 2, 1]] + tm.assert_series_equal(result, expected, check_index_type=True) + + expected = Series([0.2, 0.2, np.nan, 0.1], index=[2, 2, "x", 1]) + with pytest.raises(KeyError, match="not in index"): + ser.loc[[2, 2, "x", 1]] + + result = ser.reindex([2, 2, "x", 1]) + tm.assert_series_equal(result, expected, check_index_type=True) + + # raises as nothing is in the index + msg = ( + rf"\"None of \[Index\(\[3, 3, 3\], dtype='{np.dtype(int)}'\)\] " + r"are in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + ser.loc[[3, 3, 3]] + + expected = Series([0.2, 0.2, np.nan], index=[2, 2, 3]) + with pytest.raises(KeyError, match="not in index"): + ser.loc[[2, 2, 3]] + + result = ser.reindex([2, 2, 3]) + tm.assert_series_equal(result, expected, check_index_type=True) + + s = Series([0.1, 0.2, 0.3], index=[1, 2, 3]) + expected = Series([0.3, np.nan, np.nan], index=[3, 4, 4]) + with pytest.raises(KeyError, match="not in index"): + s.loc[[3, 4, 4]] + + result = s.reindex([3, 4, 4]) + tm.assert_series_equal(result, expected, check_index_type=True) + + s = Series([0.1, 0.2, 0.3, 0.4], index=[1, 2, 3, 4]) + expected = Series([np.nan, 0.3, 0.3], index=[5, 3, 3]) + with pytest.raises(KeyError, match="not in index"): + s.loc[[5, 3, 3]] + + result = s.reindex([5, 3, 3]) + tm.assert_series_equal(result, expected, check_index_type=True) + + s = Series([0.1, 0.2, 0.3, 0.4], index=[1, 2, 3, 4]) + expected = Series([np.nan, 0.4, 0.4], index=[5, 4, 4]) + with pytest.raises(KeyError, match="not in index"): + s.loc[[5, 4, 4]] + + result = s.reindex([5, 4, 4]) + tm.assert_series_equal(result, expected, check_index_type=True) + + s = Series([0.1, 0.2, 0.3, 0.4], index=[4, 5, 6, 7]) + expected = Series([0.4, np.nan, np.nan], index=[7, 2, 2]) + with pytest.raises(KeyError, match="not in index"): + s.loc[[7, 2, 2]] + + result = s.reindex([7, 2, 2]) + tm.assert_series_equal(result, expected, check_index_type=True) + + s = Series([0.1, 0.2, 0.3, 0.4], index=[1, 2, 3, 4]) + expected = Series([0.4, np.nan, np.nan], index=[4, 5, 5]) + with pytest.raises(KeyError, match="not in index"): + s.loc[[4, 5, 5]] + + result = s.reindex([4, 5, 5]) + tm.assert_series_equal(result, expected, check_index_type=True) + + # iloc + expected = Series([0.2, 0.2, 0.1, 0.1], index=[2, 2, 1, 1]) + result = ser.iloc[[1, 1, 0, 0]] + tm.assert_series_equal(result, expected, check_index_type=True) + + def test_series_partial_set_with_name(self): + # GH 11497 + + idx = Index([1, 2], dtype="int64", name="idx") + ser = Series([0.1, 0.2], index=idx, name="s") + + # loc + with pytest.raises(KeyError, match=r"\[3\] not in index"): + ser.loc[[3, 2, 3]] + + with pytest.raises(KeyError, match=r"not in index"): + ser.loc[[3, 2, 3, "x"]] + + exp_idx = Index([2, 2, 1], dtype="int64", name="idx") + expected = Series([0.2, 0.2, 0.1], index=exp_idx, name="s") + result = ser.loc[[2, 2, 1]] + tm.assert_series_equal(result, expected, check_index_type=True) + + with pytest.raises(KeyError, match=r"\['x'\] not in index"): + ser.loc[[2, 2, "x", 1]] + + # raises as nothing is in the index + msg = ( + rf"\"None of \[Index\(\[3, 3, 3\], dtype='{np.dtype(int)}', " + r"name='idx'\)\] are in the \[index\]\"" + ) + with pytest.raises(KeyError, match=msg): + ser.loc[[3, 3, 3]] + + with pytest.raises(KeyError, match="not in index"): + ser.loc[[2, 2, 3]] + + idx = Index([1, 2, 3], dtype="int64", name="idx") + with pytest.raises(KeyError, match="not in index"): + Series([0.1, 0.2, 0.3], index=idx, name="s").loc[[3, 4, 4]] + + idx = Index([1, 2, 3, 4], dtype="int64", name="idx") + with pytest.raises(KeyError, match="not in index"): + Series([0.1, 0.2, 0.3, 0.4], index=idx, name="s").loc[[5, 3, 3]] + + idx = Index([1, 2, 3, 4], dtype="int64", name="idx") + with pytest.raises(KeyError, match="not in index"): + Series([0.1, 0.2, 0.3, 0.4], index=idx, name="s").loc[[5, 4, 4]] + + idx = Index([4, 5, 6, 7], dtype="int64", name="idx") + with pytest.raises(KeyError, match="not in index"): + Series([0.1, 0.2, 0.3, 0.4], index=idx, name="s").loc[[7, 2, 2]] + + idx = Index([1, 2, 3, 4], dtype="int64", name="idx") + with pytest.raises(KeyError, match="not in index"): + Series([0.1, 0.2, 0.3, 0.4], index=idx, name="s").loc[[4, 5, 5]] + + # iloc + exp_idx = Index([2, 2, 1, 1], dtype="int64", name="idx") + expected = Series([0.2, 0.2, 0.1, 0.1], index=exp_idx, name="s") + result = ser.iloc[[1, 1, 0, 0]] + tm.assert_series_equal(result, expected, check_index_type=True) + + @pytest.mark.parametrize("key", [100, 100.0]) + def test_setitem_with_expansion_numeric_into_datetimeindex(self, key): + # GH#4940 inserting non-strings + orig = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + df = orig.copy() + + df.loc[key, :] = df.iloc[0] + ex_index = Index(list(orig.index) + [key], dtype=object, name=orig.index.name) + ex_data = np.concatenate([orig.values, df.iloc[[0]].values], axis=0) + expected = DataFrame(ex_data, index=ex_index, columns=orig.columns) + + tm.assert_frame_equal(df, expected) + + def test_partial_set_invalid(self): + # GH 4940 + # allow only setting of 'valid' values + + orig = DataFrame( + np.random.default_rng(2).standard_normal((10, 4)), + columns=Index(list("ABCD"), dtype=object), + index=date_range("2000-01-01", periods=10, freq="B"), + ) + + # allow object conversion here + df = orig.copy() + df.loc["a", :] = df.iloc[0] + ser = Series(df.iloc[0], name="a") + exp = pd.concat([orig, DataFrame(ser).T.infer_objects()]) + tm.assert_frame_equal(df, exp) + tm.assert_index_equal(df.index, Index(orig.index.tolist() + ["a"])) + assert df.index.dtype == "object" + + @pytest.mark.parametrize( + "idx,labels,expected_idx", + [ + ( + period_range(start="2000", periods=20, freq="D"), + ["2000-01-04", "2000-01-08", "2000-01-12"], + [ + Period("2000-01-04", freq="D"), + Period("2000-01-08", freq="D"), + Period("2000-01-12", freq="D"), + ], + ), + ( + date_range(start="2000", periods=20, freq="D"), + ["2000-01-04", "2000-01-08", "2000-01-12"], + [ + Timestamp("2000-01-04"), + Timestamp("2000-01-08"), + Timestamp("2000-01-12"), + ], + ), + ( + pd.timedelta_range(start="1 day", periods=20), + ["4D", "8D", "12D"], + [pd.Timedelta("4 day"), pd.Timedelta("8 day"), pd.Timedelta("12 day")], + ), + ], + ) + def test_loc_with_list_of_strings_representing_datetimes( + self, idx, labels, expected_idx, frame_or_series + ): + # GH 11278 + obj = frame_or_series(range(20), index=idx) + + expected_value = [3, 7, 11] + expected = frame_or_series(expected_value, expected_idx) + + tm.assert_equal(expected, obj.loc[labels]) + if frame_or_series is Series: + tm.assert_series_equal(expected, obj[labels]) + + @pytest.mark.parametrize( + "idx,labels", + [ + ( + period_range(start="2000", periods=20, freq="D"), + ["2000-01-04", "2000-01-30"], + ), + ( + date_range(start="2000", periods=20, freq="D"), + ["2000-01-04", "2000-01-30"], + ), + (pd.timedelta_range(start="1 day", periods=20), ["3 day", "30 day"]), + ], + ) + def test_loc_with_list_of_strings_representing_datetimes_missing_value( + self, idx, labels + ): + # GH 11278 + ser = Series(range(20), index=idx) + df = DataFrame(range(20), index=idx) + msg = r"not in index" + + with pytest.raises(KeyError, match=msg): + ser.loc[labels] + with pytest.raises(KeyError, match=msg): + ser[labels] + with pytest.raises(KeyError, match=msg): + df.loc[labels] + + @pytest.mark.parametrize( + "idx,labels,msg", + [ + ( + period_range(start="2000", periods=20, freq="D"), + Index(["4D", "8D"], dtype=object), + ( + r"None of \[Index\(\['4D', '8D'\], dtype='object'\)\] " + r"are in the \[index\]" + ), + ), + ( + date_range(start="2000", periods=20, freq="D"), + Index(["4D", "8D"], dtype=object), + ( + r"None of \[Index\(\['4D', '8D'\], dtype='object'\)\] " + r"are in the \[index\]" + ), + ), + ( + pd.timedelta_range(start="1 day", periods=20), + Index(["2000-01-04", "2000-01-08"], dtype=object), + ( + r"None of \[Index\(\['2000-01-04', '2000-01-08'\], " + r"dtype='object'\)\] are in the \[index\]" + ), + ), + ], + ) + def test_loc_with_list_of_strings_representing_datetimes_not_matched_type( + self, idx, labels, msg + ): + # GH 11278 + ser = Series(range(20), index=idx) + df = DataFrame(range(20), index=idx) + + with pytest.raises(KeyError, match=msg): + ser.loc[labels] + with pytest.raises(KeyError, match=msg): + ser[labels] + with pytest.raises(KeyError, match=msg): + df.loc[labels] + + +class TestStringSlicing: + def test_slice_irregular_datetime_index_with_nan(self): + # GH36953 + index = pd.to_datetime(["2012-01-01", "2012-01-02", "2012-01-03", None]) + df = DataFrame(range(len(index)), index=index) + expected = DataFrame(range(len(index[:3])), index=index[:3]) + with pytest.raises(KeyError, match="non-existing keys is not allowed"): + # Upper bound is not in index (which is unordered) + # GH53983 + # GH37819 + df["2012-01-01":"2012-01-04"] + # Need this precision for right bound since the right slice + # bound is "rounded" up to the largest timepoint smaller than + # the next "resolution"-step of the provided point. + # e.g. 2012-01-03 is rounded up to 2012-01-04 - 1ns + result = df["2012-01-01":"2012-01-03 00:00:00.000000000"] + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_scalar.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_scalar.py new file mode 100644 index 0000000000000000000000000000000000000000..29e3dc0aebe9551ae94566904372dde3563fbef9 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/indexing/test_scalar.py @@ -0,0 +1,303 @@ +""" test scalar indexing, including at and iat """ +from datetime import ( + datetime, + timedelta, +) +import itertools + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + Series, + Timedelta, + Timestamp, + date_range, +) +import pandas._testing as tm + + +def generate_indices(f, values=False): + """ + generate the indices + if values is True , use the axis values + is False, use the range + """ + axes = f.axes + if values: + axes = (list(range(len(ax))) for ax in axes) + + return itertools.product(*axes) + + +class TestScalar: + @pytest.mark.parametrize("kind", ["series", "frame"]) + @pytest.mark.parametrize("col", ["ints", "uints"]) + def test_iat_set_ints(self, kind, col, request): + f = request.getfixturevalue(f"{kind}_{col}") + indices = generate_indices(f, True) + for i in indices: + f.iat[i] = 1 + expected = f.values[i] + tm.assert_almost_equal(expected, 1) + + @pytest.mark.parametrize("kind", ["series", "frame"]) + @pytest.mark.parametrize("col", ["labels", "ts", "floats"]) + def test_iat_set_other(self, kind, col, request): + f = request.getfixturevalue(f"{kind}_{col}") + msg = "iAt based indexing can only have integer indexers" + with pytest.raises(ValueError, match=msg): + idx = next(generate_indices(f, False)) + f.iat[idx] = 1 + + @pytest.mark.parametrize("kind", ["series", "frame"]) + @pytest.mark.parametrize("col", ["ints", "uints", "labels", "ts", "floats"]) + def test_at_set_ints_other(self, kind, col, request): + f = request.getfixturevalue(f"{kind}_{col}") + indices = generate_indices(f, False) + for i in indices: + f.at[i] = 1 + expected = f.loc[i] + tm.assert_almost_equal(expected, 1) + + +class TestAtAndiAT: + # at and iat tests that don't need Base class + + def test_float_index_at_iat(self): + ser = Series([1, 2, 3], index=[0.1, 0.2, 0.3]) + for el, item in ser.items(): + assert ser.at[el] == item + for i in range(len(ser)): + assert ser.iat[i] == i + 1 + + def test_at_iat_coercion(self): + # as timestamp is not a tuple! + dates = date_range("1/1/2000", periods=8) + df = DataFrame( + np.random.default_rng(2).standard_normal((8, 4)), + index=dates, + columns=["A", "B", "C", "D"], + ) + s = df["A"] + + result = s.at[dates[5]] + xp = s.values[5] + assert result == xp + + @pytest.mark.parametrize( + "ser, expected", + [ + [ + Series(["2014-01-01", "2014-02-02"], dtype="datetime64[ns]"), + Timestamp("2014-02-02"), + ], + [ + Series(["1 days", "2 days"], dtype="timedelta64[ns]"), + Timedelta("2 days"), + ], + ], + ) + def test_iloc_iat_coercion_datelike(self, indexer_ial, ser, expected): + # GH 7729 + # make sure we are boxing the returns + result = indexer_ial(ser)[1] + assert result == expected + + def test_imethods_with_dups(self): + # GH6493 + # iat/iloc with dups + + s = Series(range(5), index=[1, 1, 2, 2, 3], dtype="int64") + result = s.iloc[2] + assert result == 2 + result = s.iat[2] + assert result == 2 + + msg = "index 10 is out of bounds for axis 0 with size 5" + with pytest.raises(IndexError, match=msg): + s.iat[10] + msg = "index -10 is out of bounds for axis 0 with size 5" + with pytest.raises(IndexError, match=msg): + s.iat[-10] + + result = s.iloc[[2, 3]] + expected = Series([2, 3], [2, 2], dtype="int64") + tm.assert_series_equal(result, expected) + + df = s.to_frame() + result = df.iloc[2] + expected = Series(2, index=[0], name=2) + tm.assert_series_equal(result, expected) + + result = df.iat[2, 0] + assert result == 2 + + def test_frame_at_with_duplicate_axes(self): + # GH#33041 + arr = np.random.default_rng(2).standard_normal(6).reshape(3, 2) + df = DataFrame(arr, columns=["A", "A"]) + + result = df.at[0, "A"] + expected = df.iloc[0].copy() + + tm.assert_series_equal(result, expected) + + result = df.T.at["A", 0] + tm.assert_series_equal(result, expected) + + # setter + df.at[1, "A"] = 2 + expected = Series([2.0, 2.0], index=["A", "A"], name=1) + tm.assert_series_equal(df.iloc[1], expected) + + def test_at_getitem_dt64tz_values(self): + # gh-15822 + df = DataFrame( + { + "name": ["John", "Anderson"], + "date": [ + Timestamp(2017, 3, 13, 13, 32, 56), + Timestamp(2017, 2, 16, 12, 10, 3), + ], + } + ) + df["date"] = df["date"].dt.tz_localize("Asia/Shanghai") + + expected = Timestamp("2017-03-13 13:32:56+0800", tz="Asia/Shanghai") + + result = df.loc[0, "date"] + assert result == expected + + result = df.at[0, "date"] + assert result == expected + + def test_mixed_index_at_iat_loc_iloc_series(self): + # GH 19860 + s = Series([1, 2, 3, 4, 5], index=["a", "b", "c", 1, 2]) + for el, item in s.items(): + assert s.at[el] == s.loc[el] == item + for i in range(len(s)): + assert s.iat[i] == s.iloc[i] == i + 1 + + with pytest.raises(KeyError, match="^4$"): + s.at[4] + with pytest.raises(KeyError, match="^4$"): + s.loc[4] + + def test_mixed_index_at_iat_loc_iloc_dataframe(self): + # GH 19860 + df = DataFrame( + [[0, 1, 2, 3, 4], [5, 6, 7, 8, 9]], columns=["a", "b", "c", 1, 2] + ) + for rowIdx, row in df.iterrows(): + for el, item in row.items(): + assert df.at[rowIdx, el] == df.loc[rowIdx, el] == item + + for row in range(2): + for i in range(5): + assert df.iat[row, i] == df.iloc[row, i] == row * 5 + i + + with pytest.raises(KeyError, match="^3$"): + df.at[0, 3] + with pytest.raises(KeyError, match="^3$"): + df.loc[0, 3] + + def test_iat_setter_incompatible_assignment(self): + # GH 23236 + result = DataFrame({"a": [0.0, 1.0], "b": [4, 5]}) + result.iat[0, 0] = None + expected = DataFrame({"a": [None, 1], "b": [4, 5]}) + tm.assert_frame_equal(result, expected) + + +def test_iat_dont_wrap_object_datetimelike(): + # GH#32809 .iat calls go through DataFrame._get_value, should not + # call maybe_box_datetimelike + dti = date_range("2016-01-01", periods=3) + tdi = dti - dti + ser = Series(dti.to_pydatetime(), dtype=object) + ser2 = Series(tdi.to_pytimedelta(), dtype=object) + df = DataFrame({"A": ser, "B": ser2}) + assert (df.dtypes == object).all() + + for result in [df.at[0, "A"], df.iat[0, 0], df.loc[0, "A"], df.iloc[0, 0]]: + assert result is ser[0] + assert isinstance(result, datetime) + assert not isinstance(result, Timestamp) + + for result in [df.at[1, "B"], df.iat[1, 1], df.loc[1, "B"], df.iloc[1, 1]]: + assert result is ser2[1] + assert isinstance(result, timedelta) + assert not isinstance(result, Timedelta) + + +def test_at_with_tuple_index_get(): + # GH 26989 + # DataFrame.at getter works with Index of tuples + df = DataFrame({"a": [1, 2]}, index=[(1, 2), (3, 4)]) + assert df.index.nlevels == 1 + assert df.at[(1, 2), "a"] == 1 + + # Series.at getter works with Index of tuples + series = df["a"] + assert series.index.nlevels == 1 + assert series.at[(1, 2)] == 1 + + +@pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") +def test_at_with_tuple_index_set(): + # GH 26989 + # DataFrame.at setter works with Index of tuples + df = DataFrame({"a": [1, 2]}, index=[(1, 2), (3, 4)]) + assert df.index.nlevels == 1 + df.at[(1, 2), "a"] = 2 + assert df.at[(1, 2), "a"] == 2 + + # Series.at setter works with Index of tuples + series = df["a"] + assert series.index.nlevels == 1 + series.at[1, 2] = 3 + assert series.at[1, 2] == 3 + + +class TestMultiIndexScalar: + def test_multiindex_at_get(self): + # GH 26989 + # DataFrame.at and DataFrame.loc getter works with MultiIndex + df = DataFrame({"a": [1, 2]}, index=[[1, 2], [3, 4]]) + assert df.index.nlevels == 2 + assert df.at[(1, 3), "a"] == 1 + assert df.loc[(1, 3), "a"] == 1 + + # Series.at and Series.loc getter works with MultiIndex + series = df["a"] + assert series.index.nlevels == 2 + assert series.at[1, 3] == 1 + assert series.loc[1, 3] == 1 + + @pytest.mark.filterwarnings("ignore:Setting a value on a view:FutureWarning") + def test_multiindex_at_set(self): + # GH 26989 + # DataFrame.at and DataFrame.loc setter works with MultiIndex + df = DataFrame({"a": [1, 2]}, index=[[1, 2], [3, 4]]) + assert df.index.nlevels == 2 + df.at[(1, 3), "a"] = 3 + assert df.at[(1, 3), "a"] == 3 + df.loc[(1, 3), "a"] = 4 + assert df.loc[(1, 3), "a"] == 4 + + # Series.at and Series.loc setter works with MultiIndex + series = df["a"] + assert series.index.nlevels == 2 + series.at[1, 3] = 5 + assert series.at[1, 3] == 5 + series.loc[1, 3] = 6 + assert series.loc[1, 3] == 6 + + def test_multiindex_at_get_one_level(self): + # GH#38053 + s2 = Series((0, 1), index=[[False, True]]) + result = s2.at[False] + assert result == 0 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_impl.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_impl.py new file mode 100644 index 0000000000000000000000000000000000000000..5563ee8b4caed45bea14ddebaf4ad41f2b846ea6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_impl.py @@ -0,0 +1,616 @@ +from datetime import ( + datetime, + timezone, +) + +import numpy as np +import pytest + +from pandas._libs.tslibs import iNaT +from pandas.compat import ( + is_ci_environment, + is_platform_windows, +) +from pandas.compat.numpy import np_version_lt1p23 + +import pandas as pd +import pandas._testing as tm +from pandas.core.interchange.column import PandasColumn +from pandas.core.interchange.dataframe_protocol import ( + ColumnNullType, + DtypeKind, +) +from pandas.core.interchange.from_dataframe import from_dataframe +from pandas.core.interchange.utils import ArrowCTypes + + +@pytest.fixture +def data_categorical(): + return { + "ordered": pd.Categorical(list("testdata") * 30, ordered=True), + "unordered": pd.Categorical(list("testdata") * 30, ordered=False), + } + + +@pytest.fixture +def string_data(): + return { + "separator data": [ + "abC|DeF,Hik", + "234,3245.67", + "gSaf,qWer|Gre", + "asd3,4sad|", + np.nan, + ] + } + + +@pytest.mark.parametrize("data", [("ordered", True), ("unordered", False)]) +def test_categorical_dtype(data, data_categorical): + df = pd.DataFrame({"A": (data_categorical[data[0]])}) + + col = df.__dataframe__().get_column_by_name("A") + assert col.dtype[0] == DtypeKind.CATEGORICAL + assert col.null_count == 0 + assert col.describe_null == (ColumnNullType.USE_SENTINEL, -1) + assert col.num_chunks() == 1 + desc_cat = col.describe_categorical + assert desc_cat["is_ordered"] == data[1] + assert desc_cat["is_dictionary"] is True + assert isinstance(desc_cat["categories"], PandasColumn) + tm.assert_series_equal( + desc_cat["categories"]._col, pd.Series(["a", "d", "e", "s", "t"]) + ) + + tm.assert_frame_equal(df, from_dataframe(df.__dataframe__())) + + +def test_categorical_pyarrow(): + # GH 49889 + pa = pytest.importorskip("pyarrow", "11.0.0") + + arr = ["Mon", "Tue", "Mon", "Wed", "Mon", "Thu", "Fri", "Sat", "Sun"] + table = pa.table({"weekday": pa.array(arr).dictionary_encode()}) + exchange_df = table.__dataframe__() + result = from_dataframe(exchange_df) + weekday = pd.Categorical( + arr, categories=["Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"] + ) + expected = pd.DataFrame({"weekday": weekday}) + tm.assert_frame_equal(result, expected) + + +def test_empty_categorical_pyarrow(): + # https://github.com/pandas-dev/pandas/issues/53077 + pa = pytest.importorskip("pyarrow", "11.0.0") + + arr = [None] + table = pa.table({"arr": pa.array(arr, "float64").dictionary_encode()}) + exchange_df = table.__dataframe__() + result = pd.api.interchange.from_dataframe(exchange_df) + expected = pd.DataFrame({"arr": pd.Categorical([np.nan])}) + tm.assert_frame_equal(result, expected) + + +def test_large_string_pyarrow(): + # GH 52795 + pa = pytest.importorskip("pyarrow", "11.0.0") + + arr = ["Mon", "Tue"] + table = pa.table({"weekday": pa.array(arr, "large_string")}) + exchange_df = table.__dataframe__() + result = from_dataframe(exchange_df) + expected = pd.DataFrame({"weekday": ["Mon", "Tue"]}) + tm.assert_frame_equal(result, expected) + + # check round-trip + assert pa.Table.equals(pa.interchange.from_dataframe(result), table) + + +@pytest.mark.parametrize( + ("offset", "length", "expected_values"), + [ + (0, None, [3.3, float("nan"), 2.1]), + (1, None, [float("nan"), 2.1]), + (2, None, [2.1]), + (0, 2, [3.3, float("nan")]), + (0, 1, [3.3]), + (1, 1, [float("nan")]), + ], +) +def test_bitmasks_pyarrow(offset, length, expected_values): + # GH 52795 + pa = pytest.importorskip("pyarrow", "11.0.0") + + arr = [3.3, None, 2.1] + table = pa.table({"arr": arr}).slice(offset, length) + exchange_df = table.__dataframe__() + result = from_dataframe(exchange_df) + expected = pd.DataFrame({"arr": expected_values}) + tm.assert_frame_equal(result, expected) + + # check round-trip + assert pa.Table.equals(pa.interchange.from_dataframe(result), table) + + +@pytest.mark.parametrize( + "data", + [ + lambda: np.random.default_rng(2).integers(-100, 100), + lambda: np.random.default_rng(2).integers(1, 100), + lambda: np.random.default_rng(2).random(), + lambda: np.random.default_rng(2).choice([True, False]), + lambda: datetime( + year=np.random.default_rng(2).integers(1900, 2100), + month=np.random.default_rng(2).integers(1, 12), + day=np.random.default_rng(2).integers(1, 20), + ), + ], +) +def test_dataframe(data): + NCOLS, NROWS = 10, 20 + data = { + f"col{int((i - NCOLS / 2) % NCOLS + 1)}": [data() for _ in range(NROWS)] + for i in range(NCOLS) + } + df = pd.DataFrame(data) + + df2 = df.__dataframe__() + + assert df2.num_columns() == NCOLS + assert df2.num_rows() == NROWS + + assert list(df2.column_names()) == list(data.keys()) + + indices = (0, 2) + names = tuple(list(data.keys())[idx] for idx in indices) + + result = from_dataframe(df2.select_columns(indices)) + expected = from_dataframe(df2.select_columns_by_name(names)) + tm.assert_frame_equal(result, expected) + + assert isinstance(result.attrs["_INTERCHANGE_PROTOCOL_BUFFERS"], list) + assert isinstance(expected.attrs["_INTERCHANGE_PROTOCOL_BUFFERS"], list) + + +def test_missing_from_masked(): + df = pd.DataFrame( + { + "x": np.array([1.0, 2.0, 3.0, 4.0, 0.0]), + "y": np.array([1.5, 2.5, 3.5, 4.5, 0]), + "z": np.array([1.0, 0.0, 1.0, 1.0, 1.0]), + } + ) + + rng = np.random.default_rng(2) + dict_null = {col: rng.integers(low=0, high=len(df)) for col in df.columns} + for col, num_nulls in dict_null.items(): + null_idx = df.index[ + rng.choice(np.arange(len(df)), size=num_nulls, replace=False) + ] + df.loc[null_idx, col] = None + + df2 = df.__dataframe__() + + assert df2.get_column_by_name("x").null_count == dict_null["x"] + assert df2.get_column_by_name("y").null_count == dict_null["y"] + assert df2.get_column_by_name("z").null_count == dict_null["z"] + + +@pytest.mark.parametrize( + "data", + [ + {"x": [1.5, 2.5, 3.5], "y": [9.2, 10.5, 11.8]}, + {"x": [1, 2, 0], "y": [9.2, 10.5, 11.8]}, + { + "x": np.array([True, True, False]), + "y": np.array([1, 2, 0]), + "z": np.array([9.2, 10.5, 11.8]), + }, + ], +) +def test_mixed_data(data): + df = pd.DataFrame(data) + df2 = df.__dataframe__() + + for col_name in df.columns: + assert df2.get_column_by_name(col_name).null_count == 0 + + +def test_mixed_missing(): + df = pd.DataFrame( + { + "x": np.array([True, None, False, None, True]), + "y": np.array([None, 2, None, 1, 2]), + "z": np.array([9.2, 10.5, None, 11.8, None]), + } + ) + + df2 = df.__dataframe__() + + for col_name in df.columns: + assert df2.get_column_by_name(col_name).null_count == 2 + + +def test_string(string_data): + test_str_data = string_data["separator data"] + [""] + df = pd.DataFrame({"A": test_str_data}) + col = df.__dataframe__().get_column_by_name("A") + + assert col.size() == 6 + assert col.null_count == 1 + assert col.dtype[0] == DtypeKind.STRING + assert col.describe_null == (ColumnNullType.USE_BYTEMASK, 0) + + df_sliced = df[1:] + col = df_sliced.__dataframe__().get_column_by_name("A") + assert col.size() == 5 + assert col.null_count == 1 + assert col.dtype[0] == DtypeKind.STRING + assert col.describe_null == (ColumnNullType.USE_BYTEMASK, 0) + + +def test_nonstring_object(): + df = pd.DataFrame({"A": ["a", 10, 1.0, ()]}) + col = df.__dataframe__().get_column_by_name("A") + with pytest.raises(NotImplementedError, match="not supported yet"): + col.dtype + + +def test_datetime(): + df = pd.DataFrame({"A": [pd.Timestamp("2022-01-01"), pd.NaT]}) + col = df.__dataframe__().get_column_by_name("A") + + assert col.size() == 2 + assert col.null_count == 1 + assert col.dtype[0] == DtypeKind.DATETIME + assert col.describe_null == (ColumnNullType.USE_SENTINEL, iNaT) + + tm.assert_frame_equal(df, from_dataframe(df.__dataframe__())) + + +@pytest.mark.skipif(np_version_lt1p23, reason="Numpy > 1.23 required") +def test_categorical_to_numpy_dlpack(): + # https://github.com/pandas-dev/pandas/issues/48393 + df = pd.DataFrame({"A": pd.Categorical(["a", "b", "a"])}) + col = df.__dataframe__().get_column_by_name("A") + result = np.from_dlpack(col.get_buffers()["data"][0]) + expected = np.array([0, 1, 0], dtype="int8") + tm.assert_numpy_array_equal(result, expected) + + +@pytest.mark.parametrize("data", [{}, {"a": []}]) +def test_empty_pyarrow(data): + # GH 53155 + pytest.importorskip("pyarrow", "11.0.0") + from pyarrow.interchange import from_dataframe as pa_from_dataframe + + expected = pd.DataFrame(data) + arrow_df = pa_from_dataframe(expected) + result = from_dataframe(arrow_df) + tm.assert_frame_equal(result, expected, check_column_type=False) + + +def test_multi_chunk_pyarrow() -> None: + pa = pytest.importorskip("pyarrow", "11.0.0") + n_legs = pa.chunked_array([[2, 2, 4], [4, 5, 100]]) + names = ["n_legs"] + table = pa.table([n_legs], names=names) + with pytest.raises( + RuntimeError, + match="Cannot do zero copy conversion into multi-column DataFrame block", + ): + pd.api.interchange.from_dataframe(table, allow_copy=False) + + +def test_multi_chunk_column() -> None: + pytest.importorskip("pyarrow", "11.0.0") + ser = pd.Series([1, 2, None], dtype="Int64[pyarrow]") + df = pd.concat([ser, ser], ignore_index=True).to_frame("a") + df_orig = df.copy() + with pytest.raises( + RuntimeError, match="Found multi-chunk pyarrow array, but `allow_copy` is False" + ): + pd.api.interchange.from_dataframe(df.__dataframe__(allow_copy=False)) + result = pd.api.interchange.from_dataframe(df.__dataframe__(allow_copy=True)) + # Interchange protocol defaults to creating numpy-backed columns, so currently this + # is 'float64'. + expected = pd.DataFrame({"a": [1.0, 2.0, None, 1.0, 2.0, None]}, dtype="float64") + tm.assert_frame_equal(result, expected) + + # Check that the rechunking we did didn't modify the original DataFrame. + tm.assert_frame_equal(df, df_orig) + assert len(df["a"].array._pa_array.chunks) == 2 + assert len(df_orig["a"].array._pa_array.chunks) == 2 + + +def test_timestamp_ns_pyarrow(): + # GH 56712 + pytest.importorskip("pyarrow", "11.0.0") + timestamp_args = { + "year": 2000, + "month": 1, + "day": 1, + "hour": 1, + "minute": 1, + "second": 1, + } + df = pd.Series( + [datetime(**timestamp_args)], + dtype="timestamp[ns][pyarrow]", + name="col0", + ).to_frame() + + dfi = df.__dataframe__() + result = pd.api.interchange.from_dataframe(dfi)["col0"].item() + + expected = pd.Timestamp(**timestamp_args) + assert result == expected + + +@pytest.mark.parametrize("tz", ["UTC", "US/Pacific"]) +@pytest.mark.parametrize("unit", ["s", "ms", "us", "ns"]) +def test_datetimetzdtype(tz, unit): + # GH 54239 + tz_data = ( + pd.date_range("2018-01-01", periods=5, freq="D").tz_localize(tz).as_unit(unit) + ) + df = pd.DataFrame({"ts_tz": tz_data}) + tm.assert_frame_equal(df, from_dataframe(df.__dataframe__())) + + +def test_interchange_from_non_pandas_tz_aware(request): + # GH 54239, 54287 + pa = pytest.importorskip("pyarrow", "11.0.0") + import pyarrow.compute as pc + + if is_platform_windows() and is_ci_environment(): + mark = pytest.mark.xfail( + raises=pa.ArrowInvalid, + reason=( + "TODO: Set ARROW_TIMEZONE_DATABASE environment variable " + "on CI to path to the tzdata for pyarrow." + ), + ) + request.applymarker(mark) + + arr = pa.array([datetime(2020, 1, 1), None, datetime(2020, 1, 2)]) + arr = pc.assume_timezone(arr, "Asia/Kathmandu") + table = pa.table({"arr": arr}) + exchange_df = table.__dataframe__() + result = from_dataframe(exchange_df) + + expected = pd.DataFrame( + ["2020-01-01 00:00:00+05:45", "NaT", "2020-01-02 00:00:00+05:45"], + columns=["arr"], + dtype="datetime64[us, Asia/Kathmandu]", + ) + tm.assert_frame_equal(expected, result) + + +def test_interchange_from_corrected_buffer_dtypes(monkeypatch) -> None: + # https://github.com/pandas-dev/pandas/issues/54781 + df = pd.DataFrame({"a": ["foo", "bar"]}).__dataframe__() + interchange = df.__dataframe__() + column = interchange.get_column_by_name("a") + buffers = column.get_buffers() + buffers_data = buffers["data"] + buffer_dtype = buffers_data[1] + buffer_dtype = ( + DtypeKind.UINT, + 8, + ArrowCTypes.UINT8, + buffer_dtype[3], + ) + buffers["data"] = (buffers_data[0], buffer_dtype) + column.get_buffers = lambda: buffers + interchange.get_column_by_name = lambda _: column + monkeypatch.setattr(df, "__dataframe__", lambda allow_copy: interchange) + pd.api.interchange.from_dataframe(df) + + +def test_empty_string_column(): + # https://github.com/pandas-dev/pandas/issues/56703 + df = pd.DataFrame({"a": []}, dtype=str) + df2 = df.__dataframe__() + result = pd.api.interchange.from_dataframe(df2) + tm.assert_frame_equal(df, result) + + +def test_large_string(): + # GH#56702 + pytest.importorskip("pyarrow") + df = pd.DataFrame({"a": ["x"]}, dtype="large_string[pyarrow]") + result = pd.api.interchange.from_dataframe(df.__dataframe__()) + expected = pd.DataFrame({"a": ["x"]}, dtype="str") + tm.assert_frame_equal(result, expected) + + +def test_non_str_names(): + # https://github.com/pandas-dev/pandas/issues/56701 + df = pd.Series([1, 2, 3], name=0).to_frame() + names = df.__dataframe__().column_names() + assert names == ["0"] + + +def test_non_str_names_w_duplicates(): + # https://github.com/pandas-dev/pandas/issues/56701 + df = pd.DataFrame({"0": [1, 2, 3], 0: [4, 5, 6]}) + dfi = df.__dataframe__() + with pytest.raises( + TypeError, + match=( + "Expected a Series, got a DataFrame. This likely happened because you " + "called __dataframe__ on a DataFrame which, after converting column " + r"names to string, resulted in duplicated names: Index\(\['0', '0'\], " + r"dtype='(str|object)'\). Please rename these columns before using the " + "interchange protocol." + ), + ): + pd.api.interchange.from_dataframe(dfi, allow_copy=False) + + +@pytest.mark.parametrize( + ("data", "dtype", "expected_dtype"), + [ + ([1, 2, None], "Int64", "int64"), + ([1, 2, None], "Int64[pyarrow]", "int64"), + ([1, 2, None], "Int8", "int8"), + ([1, 2, None], "Int8[pyarrow]", "int8"), + ( + [1, 2, None], + "UInt64", + "uint64", + ), + ( + [1, 2, None], + "UInt64[pyarrow]", + "uint64", + ), + ([1.0, 2.25, None], "Float32", "float32"), + ([1.0, 2.25, None], "Float32[pyarrow]", "float32"), + ([True, False, None], "boolean", "bool"), + ([True, False, None], "boolean[pyarrow]", "bool"), + (["much ado", "about", None], pd.StringDtype(na_value=np.nan), "large_string"), + (["much ado", "about", None], "string[pyarrow]", "large_string"), + ( + [datetime(2020, 1, 1), datetime(2020, 1, 2), None], + "timestamp[ns][pyarrow]", + "timestamp[ns]", + ), + ( + [datetime(2020, 1, 1), datetime(2020, 1, 2), None], + "timestamp[us][pyarrow]", + "timestamp[us]", + ), + ( + [ + datetime(2020, 1, 1, tzinfo=timezone.utc), + datetime(2020, 1, 2, tzinfo=timezone.utc), + None, + ], + "timestamp[us, Asia/Kathmandu][pyarrow]", + "timestamp[us, tz=Asia/Kathmandu]", + ), + ], +) +def test_pandas_nullable_with_missing_values( + data: list, dtype: str, expected_dtype: str +) -> None: + # https://github.com/pandas-dev/pandas/issues/57643 + # https://github.com/pandas-dev/pandas/issues/57664 + pa = pytest.importorskip("pyarrow", "11.0.0") + import pyarrow.interchange as pai + + if expected_dtype == "timestamp[us, tz=Asia/Kathmandu]": + expected_dtype = pa.timestamp("us", "Asia/Kathmandu") + + df = pd.DataFrame({"a": data}, dtype=dtype) + result = pai.from_dataframe(df.__dataframe__())["a"] + assert result.type == expected_dtype + assert result[0].as_py() == data[0] + assert result[1].as_py() == data[1] + assert result[2].as_py() is None + + +@pytest.mark.parametrize( + ("data", "dtype", "expected_dtype"), + [ + ([1, 2, 3], "Int64", "int64"), + ([1, 2, 3], "Int64[pyarrow]", "int64"), + ([1, 2, 3], "Int8", "int8"), + ([1, 2, 3], "Int8[pyarrow]", "int8"), + ( + [1, 2, 3], + "UInt64", + "uint64", + ), + ( + [1, 2, 3], + "UInt64[pyarrow]", + "uint64", + ), + ([1.0, 2.25, 5.0], "Float32", "float32"), + ([1.0, 2.25, 5.0], "Float32[pyarrow]", "float32"), + ([True, False, False], "boolean", "bool"), + ([True, False, False], "boolean[pyarrow]", "bool"), + ( + ["much ado", "about", "nothing"], + pd.StringDtype(na_value=np.nan), + "large_string", + ), + (["much ado", "about", "nothing"], "string[pyarrow]", "large_string"), + ( + [datetime(2020, 1, 1), datetime(2020, 1, 2), datetime(2020, 1, 3)], + "timestamp[ns][pyarrow]", + "timestamp[ns]", + ), + ( + [datetime(2020, 1, 1), datetime(2020, 1, 2), datetime(2020, 1, 3)], + "timestamp[us][pyarrow]", + "timestamp[us]", + ), + ( + [ + datetime(2020, 1, 1, tzinfo=timezone.utc), + datetime(2020, 1, 2, tzinfo=timezone.utc), + datetime(2020, 1, 3, tzinfo=timezone.utc), + ], + "timestamp[us, Asia/Kathmandu][pyarrow]", + "timestamp[us, tz=Asia/Kathmandu]", + ), + ], +) +def test_pandas_nullable_without_missing_values( + data: list, dtype: str, expected_dtype: str +) -> None: + # https://github.com/pandas-dev/pandas/issues/57643 + pa = pytest.importorskip("pyarrow", "11.0.0") + import pyarrow.interchange as pai + + if expected_dtype == "timestamp[us, tz=Asia/Kathmandu]": + expected_dtype = pa.timestamp("us", "Asia/Kathmandu") + + df = pd.DataFrame({"a": data}, dtype=dtype) + result = pai.from_dataframe(df.__dataframe__())["a"] + assert result.type == expected_dtype + assert result[0].as_py() == data[0] + assert result[1].as_py() == data[1] + assert result[2].as_py() == data[2] + + +def test_string_validity_buffer() -> None: + # https://github.com/pandas-dev/pandas/issues/57761 + pytest.importorskip("pyarrow", "11.0.0") + df = pd.DataFrame({"a": ["x"]}, dtype="large_string[pyarrow]") + result = df.__dataframe__().get_column_by_name("a").get_buffers()["validity"] + assert result is None + + +def test_string_validity_buffer_no_missing() -> None: + # https://github.com/pandas-dev/pandas/issues/57762 + pytest.importorskip("pyarrow", "11.0.0") + df = pd.DataFrame({"a": ["x", None]}, dtype="large_string[pyarrow]") + validity = df.__dataframe__().get_column_by_name("a").get_buffers()["validity"] + assert validity is not None + result = validity[1] + expected = (DtypeKind.BOOL, 1, ArrowCTypes.BOOL, "=") + assert result == expected + + +def test_empty_dataframe(): + # https://github.com/pandas-dev/pandas/issues/56700 + df = pd.DataFrame({"a": []}, dtype="int8") + dfi = df.__dataframe__() + result = pd.api.interchange.from_dataframe(dfi, allow_copy=False) + expected = pd.DataFrame({"a": []}, dtype="int8") + tm.assert_frame_equal(result, expected) + + +def test_from_dataframe_list_dtype(): + pa = pytest.importorskip("pyarrow", "14.0.0") + data = {"a": [[1, 2], [4, 5, 6]]} + tbl = pa.table(data) + result = from_dataframe(tbl) + expected = pd.DataFrame(data) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_spec_conformance.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_spec_conformance.py new file mode 100644 index 0000000000000000000000000000000000000000..7c02379c118539032cb79d682d4baa2c7ae1fb81 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_spec_conformance.py @@ -0,0 +1,175 @@ +""" +A verbatim copy (vendored) of the spec tests. +Taken from https://github.com/data-apis/dataframe-api +""" +import ctypes +import math + +import pytest + +import pandas as pd + + +@pytest.fixture +def df_from_dict(): + def maker(dct, is_categorical=False): + df = pd.DataFrame(dct) + return df.astype("category") if is_categorical else df + + return maker + + +@pytest.mark.parametrize( + "test_data", + [ + {"a": ["foo", "bar"], "b": ["baz", "qux"]}, + {"a": [1.5, 2.5, 3.5], "b": [9.2, 10.5, 11.8]}, + {"A": [1, 2, 3, 4], "B": [1, 2, 3, 4]}, + ], + ids=["str_data", "float_data", "int_data"], +) +def test_only_one_dtype(test_data, df_from_dict): + columns = list(test_data.keys()) + df = df_from_dict(test_data) + dfX = df.__dataframe__() + + column_size = len(test_data[columns[0]]) + for column in columns: + null_count = dfX.get_column_by_name(column).null_count + assert null_count == 0 + assert isinstance(null_count, int) + assert dfX.get_column_by_name(column).size() == column_size + assert dfX.get_column_by_name(column).offset == 0 + + +def test_mixed_dtypes(df_from_dict): + df = df_from_dict( + { + "a": [1, 2, 3], # dtype kind INT = 0 + "b": [3, 4, 5], # dtype kind INT = 0 + "c": [1.5, 2.5, 3.5], # dtype kind FLOAT = 2 + "d": [9, 10, 11], # dtype kind INT = 0 + "e": [True, False, True], # dtype kind BOOLEAN = 20 + "f": ["a", "", "c"], # dtype kind STRING = 21 + } + ) + dfX = df.__dataframe__() + # for meanings of dtype[0] see the spec; we cannot import the spec here as this + # file is expected to be vendored *anywhere*; + # values for dtype[0] are explained above + columns = {"a": 0, "b": 0, "c": 2, "d": 0, "e": 20, "f": 21} + + for column, kind in columns.items(): + colX = dfX.get_column_by_name(column) + assert colX.null_count == 0 + assert isinstance(colX.null_count, int) + assert colX.size() == 3 + assert colX.offset == 0 + + assert colX.dtype[0] == kind + + assert dfX.get_column_by_name("c").dtype[1] == 64 + + +def test_na_float(df_from_dict): + df = df_from_dict({"a": [1.0, math.nan, 2.0]}) + dfX = df.__dataframe__() + colX = dfX.get_column_by_name("a") + assert colX.null_count == 1 + assert isinstance(colX.null_count, int) + + +def test_noncategorical(df_from_dict): + df = df_from_dict({"a": [1, 2, 3]}) + dfX = df.__dataframe__() + colX = dfX.get_column_by_name("a") + with pytest.raises(TypeError, match=".*categorical.*"): + colX.describe_categorical + + +def test_categorical(df_from_dict): + df = df_from_dict( + {"weekday": ["Mon", "Tue", "Mon", "Wed", "Mon", "Thu", "Fri", "Sat", "Sun"]}, + is_categorical=True, + ) + + colX = df.__dataframe__().get_column_by_name("weekday") + categorical = colX.describe_categorical + assert isinstance(categorical["is_ordered"], bool) + assert isinstance(categorical["is_dictionary"], bool) + + +def test_dataframe(df_from_dict): + df = df_from_dict( + {"x": [True, True, False], "y": [1, 2, 0], "z": [9.2, 10.5, 11.8]} + ) + dfX = df.__dataframe__() + + assert dfX.num_columns() == 3 + assert dfX.num_rows() == 3 + assert dfX.num_chunks() == 1 + assert list(dfX.column_names()) == ["x", "y", "z"] + assert list(dfX.select_columns((0, 2)).column_names()) == list( + dfX.select_columns_by_name(("x", "z")).column_names() + ) + + +@pytest.mark.parametrize(["size", "n_chunks"], [(10, 3), (12, 3), (12, 5)]) +def test_df_get_chunks(size, n_chunks, df_from_dict): + df = df_from_dict({"x": list(range(size))}) + dfX = df.__dataframe__() + chunks = list(dfX.get_chunks(n_chunks)) + assert len(chunks) == n_chunks + assert sum(chunk.num_rows() for chunk in chunks) == size + + +@pytest.mark.parametrize(["size", "n_chunks"], [(10, 3), (12, 3), (12, 5)]) +def test_column_get_chunks(size, n_chunks, df_from_dict): + df = df_from_dict({"x": list(range(size))}) + dfX = df.__dataframe__() + chunks = list(dfX.get_column(0).get_chunks(n_chunks)) + assert len(chunks) == n_chunks + assert sum(chunk.size() for chunk in chunks) == size + + +def test_get_columns(df_from_dict): + df = df_from_dict({"a": [0, 1], "b": [2.5, 3.5]}) + dfX = df.__dataframe__() + for colX in dfX.get_columns(): + assert colX.size() == 2 + assert colX.num_chunks() == 1 + # for meanings of dtype[0] see the spec; we cannot import the spec here as this + # file is expected to be vendored *anywhere* + assert dfX.get_column(0).dtype[0] == 0 # INT + assert dfX.get_column(1).dtype[0] == 2 # FLOAT + + +def test_buffer(df_from_dict): + arr = [0, 1, -1] + df = df_from_dict({"a": arr}) + dfX = df.__dataframe__() + colX = dfX.get_column(0) + bufX = colX.get_buffers() + + dataBuf, dataDtype = bufX["data"] + + assert dataBuf.bufsize > 0 + assert dataBuf.ptr != 0 + device, _ = dataBuf.__dlpack_device__() + + # for meanings of dtype[0] see the spec; we cannot import the spec here as this + # file is expected to be vendored *anywhere* + assert dataDtype[0] == 0 # INT + + if device == 1: # CPU-only as we're going to directly read memory here + bitwidth = dataDtype[1] + ctype = { + 8: ctypes.c_int8, + 16: ctypes.c_int16, + 32: ctypes.c_int32, + 64: ctypes.c_int64, + }[bitwidth] + + for idx, truth in enumerate(arr): + val = ctype.from_address(dataBuf.ptr + idx * (bitwidth // 8)).value + assert val == truth, f"Buffer at index {idx} mismatch" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_utils.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_utils.py new file mode 100644 index 0000000000000000000000000000000000000000..a47bc2752ff32f5eb7630a3960e7611242cb73e3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/interchange/test_utils.py @@ -0,0 +1,89 @@ +import numpy as np +import pytest + +import pandas as pd +from pandas.core.interchange.utils import dtype_to_arrow_c_fmt + +# TODO: use ArrowSchema to get reference C-string. +# At the time, there is no way to access ArrowSchema holding a type format string +# from python. The only way to access it is to export the structure to a C-pointer, +# see DataType._export_to_c() method defined in +# https://github.com/apache/arrow/blob/master/python/pyarrow/types.pxi + + +@pytest.mark.parametrize( + "pandas_dtype, c_string", + [ + (np.dtype("bool"), "b"), + (np.dtype("int8"), "c"), + (np.dtype("uint8"), "C"), + (np.dtype("int16"), "s"), + (np.dtype("uint16"), "S"), + (np.dtype("int32"), "i"), + (np.dtype("uint32"), "I"), + (np.dtype("int64"), "l"), + (np.dtype("uint64"), "L"), + (np.dtype("float16"), "e"), + (np.dtype("float32"), "f"), + (np.dtype("float64"), "g"), + (pd.Series(["a"]).dtype, "u"), + ( + pd.Series([0]).astype("datetime64[ns]").dtype, + "tsn:", + ), + (pd.CategoricalDtype(["a"]), "l"), + (np.dtype("O"), "u"), + ], +) +def test_dtype_to_arrow_c_fmt(pandas_dtype, c_string): # PR01 + """Test ``dtype_to_arrow_c_fmt`` utility function.""" + assert dtype_to_arrow_c_fmt(pandas_dtype) == c_string + + +@pytest.mark.parametrize( + "pa_dtype, args_kwargs, c_string", + [ + ["null", {}, "n"], + ["bool_", {}, "b"], + ["uint8", {}, "C"], + ["uint16", {}, "S"], + ["uint32", {}, "I"], + ["uint64", {}, "L"], + ["int8", {}, "c"], + ["int16", {}, "S"], + ["int32", {}, "i"], + ["int64", {}, "l"], + ["float16", {}, "e"], + ["float32", {}, "f"], + ["float64", {}, "g"], + ["string", {}, "u"], + ["binary", {}, "z"], + ["time32", ("s",), "tts"], + ["time32", ("ms",), "ttm"], + ["time64", ("us",), "ttu"], + ["time64", ("ns",), "ttn"], + ["date32", {}, "tdD"], + ["date64", {}, "tdm"], + ["timestamp", {"unit": "s"}, "tss:"], + ["timestamp", {"unit": "ms"}, "tsm:"], + ["timestamp", {"unit": "us"}, "tsu:"], + ["timestamp", {"unit": "ns"}, "tsn:"], + ["timestamp", {"unit": "ns", "tz": "UTC"}, "tsn:UTC"], + ["duration", ("s",), "tDs"], + ["duration", ("ms",), "tDm"], + ["duration", ("us",), "tDu"], + ["duration", ("ns",), "tDn"], + ["decimal128", {"precision": 4, "scale": 2}, "d:4,2"], + ], +) +def test_dtype_to_arrow_c_fmt_arrowdtype(pa_dtype, args_kwargs, c_string): + # GH 52323 + pa = pytest.importorskip("pyarrow") + if not args_kwargs: + pa_type = getattr(pa, pa_dtype)() + elif isinstance(args_kwargs, tuple): + pa_type = getattr(pa, pa_dtype)(*args_kwargs) + else: + pa_type = getattr(pa, pa_dtype)(**args_kwargs) + arrow_type = pd.ArrowDtype(pa_type) + assert dtype_to_arrow_c_fmt(arrow_type) == c_string diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_api.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_api.py new file mode 100644 index 0000000000000000000000000000000000000000..1251a6ae97a1cb9304de036dba252de54e7fb10b --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_api.py @@ -0,0 +1,86 @@ +""" +Tests for the pseudo-public API implemented in internals/api.py and exposed +in core.internals +""" + +import pytest + +import pandas as pd +import pandas._testing as tm +from pandas.core import internals +from pandas.core.internals import api + + +def test_internals_api(): + assert internals.make_block is api.make_block + + +def test_namespace(): + # SUBJECT TO CHANGE + + modules = [ + "blocks", + "concat", + "managers", + "construction", + "array_manager", + "base", + "api", + "ops", + ] + expected = [ + "make_block", + "DataManager", + "ArrayManager", + "BlockManager", + "SingleDataManager", + "SingleBlockManager", + "SingleArrayManager", + "concatenate_managers", + ] + + result = [x for x in dir(internals) if not x.startswith("__")] + assert set(result) == set(expected + modules) + + +@pytest.mark.parametrize( + "name", + [ + "NumericBlock", + "ObjectBlock", + "Block", + "ExtensionBlock", + "DatetimeTZBlock", + ], +) +def test_deprecations(name): + # GH#55139 + msg = f"{name} is deprecated.* Use public APIs instead" + with tm.assert_produces_warning(DeprecationWarning, match=msg): + getattr(internals, name) + + if name not in ["NumericBlock", "ObjectBlock"]: + # NumericBlock and ObjectBlock are not in the internals.api namespace + with tm.assert_produces_warning(DeprecationWarning, match=msg): + getattr(api, name) + + +def test_make_block_2d_with_dti(): + # GH#41168 + dti = pd.date_range("2012", periods=3, tz="UTC") + blk = api.make_block(dti, placement=[0]) + + assert blk.shape == (1, 3) + assert blk.values.shape == (1, 3) + + +def test_create_block_manager_from_blocks_deprecated(): + # GH#33892 + # If they must, downstream packages should get this from internals.api, + # not internals. + msg = ( + "create_block_manager_from_blocks is deprecated and will be " + "removed in a future version. Use public APIs instead" + ) + with tm.assert_produces_warning(DeprecationWarning, match=msg): + internals.create_block_manager_from_blocks diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_internals.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_internals.py new file mode 100644 index 0000000000000000000000000000000000000000..30c5d3177c5a569676c20b47e2776f266bb308cc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_internals.py @@ -0,0 +1,1422 @@ +from datetime import ( + date, + datetime, +) +import itertools +import re + +import numpy as np +import pytest + +from pandas._libs.internals import BlockPlacement +from pandas.compat import IS64 +import pandas.util._test_decorators as td + +from pandas.core.dtypes.common import is_scalar + +import pandas as pd +from pandas import ( + Categorical, + DataFrame, + DatetimeIndex, + Index, + IntervalIndex, + Series, + Timedelta, + Timestamp, + period_range, +) +import pandas._testing as tm +import pandas.core.algorithms as algos +from pandas.core.arrays import ( + DatetimeArray, + SparseArray, + TimedeltaArray, +) +from pandas.core.internals import ( + BlockManager, + SingleBlockManager, + make_block, +) +from pandas.core.internals.blocks import ( + ensure_block_shape, + maybe_coerce_values, + new_block, +) + +# this file contains BlockManager specific tests +# TODO(ArrayManager) factor out interleave_dtype tests +pytestmark = td.skip_array_manager_invalid_test + + +@pytest.fixture(params=[new_block, make_block]) +def block_maker(request): + """ + Fixture to test both the internal new_block and pseudo-public make_block. + """ + return request.param + + +@pytest.fixture +def mgr(): + return create_mgr( + "a: f8; b: object; c: f8; d: object; e: f8;" + "f: bool; g: i8; h: complex; i: datetime-1; j: datetime-2;" + "k: M8[ns, US/Eastern]; l: M8[ns, CET];" + ) + + +def assert_block_equal(left, right): + tm.assert_numpy_array_equal(left.values, right.values) + assert left.dtype == right.dtype + assert isinstance(left.mgr_locs, BlockPlacement) + assert isinstance(right.mgr_locs, BlockPlacement) + tm.assert_numpy_array_equal(left.mgr_locs.as_array, right.mgr_locs.as_array) + + +def get_numeric_mat(shape): + arr = np.arange(shape[0]) + return np.lib.stride_tricks.as_strided( + x=arr, shape=shape, strides=(arr.itemsize,) + (0,) * (len(shape) - 1) + ).copy() + + +N = 10 + + +def create_block(typestr, placement, item_shape=None, num_offset=0, maker=new_block): + """ + Supported typestr: + + * float, f8, f4, f2 + * int, i8, i4, i2, i1 + * uint, u8, u4, u2, u1 + * complex, c16, c8 + * bool + * object, string, O + * datetime, dt, M8[ns], M8[ns, tz] + * timedelta, td, m8[ns] + * sparse (SparseArray with fill_value=0.0) + * sparse_na (SparseArray with fill_value=np.nan) + * category, category2 + + """ + placement = BlockPlacement(placement) + num_items = len(placement) + + if item_shape is None: + item_shape = (N,) + + shape = (num_items,) + item_shape + + mat = get_numeric_mat(shape) + + if typestr in ( + "float", + "f8", + "f4", + "f2", + "int", + "i8", + "i4", + "i2", + "i1", + "uint", + "u8", + "u4", + "u2", + "u1", + ): + values = mat.astype(typestr) + num_offset + elif typestr in ("complex", "c16", "c8"): + values = 1.0j * (mat.astype(typestr) + num_offset) + elif typestr in ("object", "string", "O"): + values = np.reshape([f"A{i:d}" for i in mat.ravel() + num_offset], shape) + elif typestr in ("b", "bool"): + values = np.ones(shape, dtype=np.bool_) + elif typestr in ("datetime", "dt", "M8[ns]"): + values = (mat * 1e9).astype("M8[ns]") + elif typestr.startswith("M8[ns"): + # datetime with tz + m = re.search(r"M8\[ns,\s*(\w+\/?\w*)\]", typestr) + assert m is not None, f"incompatible typestr -> {typestr}" + tz = m.groups()[0] + assert num_items == 1, "must have only 1 num items for a tz-aware" + values = DatetimeIndex(np.arange(N) * 10**9, tz=tz)._data + values = ensure_block_shape(values, ndim=len(shape)) + elif typestr in ("timedelta", "td", "m8[ns]"): + values = (mat * 1).astype("m8[ns]") + elif typestr in ("category",): + values = Categorical([1, 1, 2, 2, 3, 3, 3, 3, 4, 4]) + elif typestr in ("category2",): + values = Categorical(["a", "a", "a", "a", "b", "b", "c", "c", "c", "d"]) + elif typestr in ("sparse", "sparse_na"): + if shape[-1] != 10: + # We also are implicitly assuming this in the category cases above + raise NotImplementedError + + assert all(s == 1 for s in shape[:-1]) + if typestr.endswith("_na"): + fill_value = np.nan + else: + fill_value = 0.0 + values = SparseArray( + [fill_value, fill_value, 1, 2, 3, fill_value, 4, 5, fill_value, 6], + fill_value=fill_value, + ) + arr = values.sp_values.view() + arr += num_offset - 1 + else: + raise ValueError(f'Unsupported typestr: "{typestr}"') + + values = maybe_coerce_values(values) + return maker(values, placement=placement, ndim=len(shape)) + + +def create_single_mgr(typestr, num_rows=None): + if num_rows is None: + num_rows = N + + return SingleBlockManager( + create_block(typestr, placement=slice(0, num_rows), item_shape=()), + Index(np.arange(num_rows)), + ) + + +def create_mgr(descr, item_shape=None): + """ + Construct BlockManager from string description. + + String description syntax looks similar to np.matrix initializer. It looks + like this:: + + a,b,c: f8; d,e,f: i8 + + Rules are rather simple: + + * see list of supported datatypes in `create_block` method + * components are semicolon-separated + * each component is `NAME,NAME,NAME: DTYPE_ID` + * whitespace around colons & semicolons are removed + * components with same DTYPE_ID are combined into single block + * to force multiple blocks with same dtype, use '-SUFFIX':: + + 'a:f8-1; b:f8-2; c:f8-foobar' + + """ + if item_shape is None: + item_shape = (N,) + + offset = 0 + mgr_items = [] + block_placements = {} + for d in descr.split(";"): + d = d.strip() + if not len(d): + continue + names, blockstr = d.partition(":")[::2] + blockstr = blockstr.strip() + names = names.strip().split(",") + + mgr_items.extend(names) + placement = list(np.arange(len(names)) + offset) + try: + block_placements[blockstr].extend(placement) + except KeyError: + block_placements[blockstr] = placement + offset += len(names) + + mgr_items = Index(mgr_items) + + blocks = [] + num_offset = 0 + for blockstr, placement in block_placements.items(): + typestr = blockstr.split("-")[0] + blocks.append( + create_block( + typestr, placement, item_shape=item_shape, num_offset=num_offset + ) + ) + num_offset += len(placement) + + sblocks = sorted(blocks, key=lambda b: b.mgr_locs[0]) + return BlockManager( + tuple(sblocks), + [mgr_items] + [Index(np.arange(n)) for n in item_shape], + ) + + +@pytest.fixture +def fblock(): + return create_block("float", [0, 2, 4]) + + +class TestBlock: + def test_constructor(self): + int32block = create_block("i4", [0]) + assert int32block.dtype == np.int32 + + @pytest.mark.parametrize( + "typ, data", + [ + ["float", [0, 2, 4]], + ["complex", [7]], + ["object", [1, 3]], + ["bool", [5]], + ], + ) + def test_pickle(self, typ, data): + blk = create_block(typ, data) + assert_block_equal(tm.round_trip_pickle(blk), blk) + + def test_mgr_locs(self, fblock): + assert isinstance(fblock.mgr_locs, BlockPlacement) + tm.assert_numpy_array_equal( + fblock.mgr_locs.as_array, np.array([0, 2, 4], dtype=np.intp) + ) + + def test_attrs(self, fblock): + assert fblock.shape == fblock.values.shape + assert fblock.dtype == fblock.values.dtype + assert len(fblock) == len(fblock.values) + + def test_copy(self, fblock): + cop = fblock.copy() + assert cop is not fblock + assert_block_equal(fblock, cop) + + def test_delete(self, fblock): + newb = fblock.copy() + locs = newb.mgr_locs + nb = newb.delete(0)[0] + assert newb.mgr_locs is locs + + assert nb is not newb + + tm.assert_numpy_array_equal( + nb.mgr_locs.as_array, np.array([2, 4], dtype=np.intp) + ) + assert not (newb.values[0] == 1).all() + assert (nb.values[0] == 1).all() + + newb = fblock.copy() + locs = newb.mgr_locs + nb = newb.delete(1) + assert len(nb) == 2 + assert newb.mgr_locs is locs + + tm.assert_numpy_array_equal( + nb[0].mgr_locs.as_array, np.array([0], dtype=np.intp) + ) + tm.assert_numpy_array_equal( + nb[1].mgr_locs.as_array, np.array([4], dtype=np.intp) + ) + assert not (newb.values[1] == 2).all() + assert (nb[1].values[0] == 2).all() + + newb = fblock.copy() + nb = newb.delete(2) + assert len(nb) == 1 + tm.assert_numpy_array_equal( + nb[0].mgr_locs.as_array, np.array([0, 2], dtype=np.intp) + ) + assert (nb[0].values[1] == 1).all() + + newb = fblock.copy() + + with pytest.raises(IndexError, match=None): + newb.delete(3) + + def test_delete_datetimelike(self): + # dont use np.delete on values, as that will coerce from DTA/TDA to ndarray + arr = np.arange(20, dtype="i8").reshape(5, 4).view("m8[ns]") + df = DataFrame(arr) + blk = df._mgr.blocks[0] + assert isinstance(blk.values, TimedeltaArray) + + nb = blk.delete(1) + assert len(nb) == 2 + assert isinstance(nb[0].values, TimedeltaArray) + assert isinstance(nb[1].values, TimedeltaArray) + + df = DataFrame(arr.view("M8[ns]")) + blk = df._mgr.blocks[0] + assert isinstance(blk.values, DatetimeArray) + + nb = blk.delete([1, 3]) + assert len(nb) == 2 + assert isinstance(nb[0].values, DatetimeArray) + assert isinstance(nb[1].values, DatetimeArray) + + def test_split(self): + # GH#37799 + values = np.random.default_rng(2).standard_normal((3, 4)) + blk = new_block(values, placement=BlockPlacement([3, 1, 6]), ndim=2) + result = blk._split() + + # check that we get views, not copies + values[:] = -9999 + assert (blk.values == -9999).all() + + assert len(result) == 3 + expected = [ + new_block(values[[0]], placement=BlockPlacement([3]), ndim=2), + new_block(values[[1]], placement=BlockPlacement([1]), ndim=2), + new_block(values[[2]], placement=BlockPlacement([6]), ndim=2), + ] + for res, exp in zip(result, expected): + assert_block_equal(res, exp) + + +class TestBlockManager: + def test_attrs(self): + mgr = create_mgr("a,b,c: f8-1; d,e,f: f8-2") + assert mgr.nblocks == 2 + assert len(mgr) == 6 + + def test_duplicate_ref_loc_failure(self): + tmp_mgr = create_mgr("a:bool; a: f8") + + axes, blocks = tmp_mgr.axes, tmp_mgr.blocks + + blocks[0].mgr_locs = BlockPlacement(np.array([0])) + blocks[1].mgr_locs = BlockPlacement(np.array([0])) + + # test trying to create block manager with overlapping ref locs + + msg = "Gaps in blk ref_locs" + + with pytest.raises(AssertionError, match=msg): + mgr = BlockManager(blocks, axes) + mgr._rebuild_blknos_and_blklocs() + + blocks[0].mgr_locs = BlockPlacement(np.array([0])) + blocks[1].mgr_locs = BlockPlacement(np.array([1])) + mgr = BlockManager(blocks, axes) + mgr.iget(1) + + def test_pickle(self, mgr): + mgr2 = tm.round_trip_pickle(mgr) + tm.assert_frame_equal( + DataFrame._from_mgr(mgr, axes=mgr.axes), + DataFrame._from_mgr(mgr2, axes=mgr2.axes), + ) + + # GH2431 + assert hasattr(mgr2, "_is_consolidated") + assert hasattr(mgr2, "_known_consolidated") + + # reset to False on load + assert not mgr2._is_consolidated + assert not mgr2._known_consolidated + + @pytest.mark.parametrize("mgr_string", ["a,a,a:f8", "a: f8; a: i8"]) + def test_non_unique_pickle(self, mgr_string): + mgr = create_mgr(mgr_string) + mgr2 = tm.round_trip_pickle(mgr) + tm.assert_frame_equal( + DataFrame._from_mgr(mgr, axes=mgr.axes), + DataFrame._from_mgr(mgr2, axes=mgr2.axes), + ) + + def test_categorical_block_pickle(self): + mgr = create_mgr("a: category") + mgr2 = tm.round_trip_pickle(mgr) + tm.assert_frame_equal( + DataFrame._from_mgr(mgr, axes=mgr.axes), + DataFrame._from_mgr(mgr2, axes=mgr2.axes), + ) + + smgr = create_single_mgr("category") + smgr2 = tm.round_trip_pickle(smgr) + tm.assert_series_equal( + Series()._constructor_from_mgr(smgr, axes=smgr.axes), + Series()._constructor_from_mgr(smgr2, axes=smgr2.axes), + ) + + def test_iget(self): + cols = Index(list("abc")) + values = np.random.default_rng(2).random((3, 3)) + block = new_block( + values=values.copy(), + placement=BlockPlacement(np.arange(3, dtype=np.intp)), + ndim=values.ndim, + ) + mgr = BlockManager(blocks=(block,), axes=[cols, Index(np.arange(3))]) + + tm.assert_almost_equal(mgr.iget(0).internal_values(), values[0]) + tm.assert_almost_equal(mgr.iget(1).internal_values(), values[1]) + tm.assert_almost_equal(mgr.iget(2).internal_values(), values[2]) + + def test_set(self): + mgr = create_mgr("a,b,c: int", item_shape=(3,)) + + mgr.insert(len(mgr.items), "d", np.array(["foo"] * 3)) + mgr.iset(1, np.array(["bar"] * 3)) + tm.assert_numpy_array_equal(mgr.iget(0).internal_values(), np.array([0] * 3)) + tm.assert_numpy_array_equal( + mgr.iget(1).internal_values(), np.array(["bar"] * 3, dtype=np.object_) + ) + tm.assert_numpy_array_equal(mgr.iget(2).internal_values(), np.array([2] * 3)) + tm.assert_numpy_array_equal( + mgr.iget(3).internal_values(), np.array(["foo"] * 3, dtype=np.object_) + ) + + def test_set_change_dtype(self, mgr): + mgr.insert(len(mgr.items), "baz", np.zeros(N, dtype=bool)) + + mgr.iset(mgr.items.get_loc("baz"), np.repeat("foo", N)) + idx = mgr.items.get_loc("baz") + assert mgr.iget(idx).dtype == np.object_ + + mgr2 = mgr.consolidate() + mgr2.iset(mgr2.items.get_loc("baz"), np.repeat("foo", N)) + idx = mgr2.items.get_loc("baz") + assert mgr2.iget(idx).dtype == np.object_ + + mgr2.insert( + len(mgr2.items), + "quux", + np.random.default_rng(2).standard_normal(N).astype(int), + ) + idx = mgr2.items.get_loc("quux") + assert mgr2.iget(idx).dtype == np.dtype(int) + + mgr2.iset( + mgr2.items.get_loc("quux"), np.random.default_rng(2).standard_normal(N) + ) + assert mgr2.iget(idx).dtype == np.float64 + + def test_copy(self, mgr): + cp = mgr.copy(deep=False) + for blk, cp_blk in zip(mgr.blocks, cp.blocks): + # view assertion + tm.assert_equal(cp_blk.values, blk.values) + if isinstance(blk.values, np.ndarray): + assert cp_blk.values.base is blk.values.base + else: + # DatetimeTZBlock has DatetimeIndex values + assert cp_blk.values._ndarray.base is blk.values._ndarray.base + + # copy(deep=True) consolidates, so the block-wise assertions will + # fail is mgr is not consolidated + mgr._consolidate_inplace() + cp = mgr.copy(deep=True) + for blk, cp_blk in zip(mgr.blocks, cp.blocks): + bvals = blk.values + cpvals = cp_blk.values + + tm.assert_equal(cpvals, bvals) + + if isinstance(cpvals, np.ndarray): + lbase = cpvals.base + rbase = bvals.base + else: + lbase = cpvals._ndarray.base + rbase = bvals._ndarray.base + + # copy assertion we either have a None for a base or in case of + # some blocks it is an array (e.g. datetimetz), but was copied + if isinstance(cpvals, DatetimeArray): + assert (lbase is None and rbase is None) or (lbase is not rbase) + elif not isinstance(cpvals, np.ndarray): + assert lbase is not rbase + else: + assert lbase is None and rbase is None + + def test_sparse(self): + mgr = create_mgr("a: sparse-1; b: sparse-2") + assert mgr.as_array().dtype == np.float64 + + def test_sparse_mixed(self): + mgr = create_mgr("a: sparse-1; b: sparse-2; c: f8") + assert len(mgr.blocks) == 3 + assert isinstance(mgr, BlockManager) + + @pytest.mark.parametrize( + "mgr_string, dtype", + [("c: f4; d: f2", np.float32), ("c: f4; d: f2; e: f8", np.float64)], + ) + def test_as_array_float(self, mgr_string, dtype): + mgr = create_mgr(mgr_string) + assert mgr.as_array().dtype == dtype + + @pytest.mark.parametrize( + "mgr_string, dtype", + [ + ("a: bool-1; b: bool-2", np.bool_), + ("a: i8-1; b: i8-2; c: i4; d: i2; e: u1", np.int64), + ("c: i4; d: i2; e: u1", np.int32), + ], + ) + def test_as_array_int_bool(self, mgr_string, dtype): + mgr = create_mgr(mgr_string) + assert mgr.as_array().dtype == dtype + + def test_as_array_datetime(self): + mgr = create_mgr("h: datetime-1; g: datetime-2") + assert mgr.as_array().dtype == "M8[ns]" + + def test_as_array_datetime_tz(self): + mgr = create_mgr("h: M8[ns, US/Eastern]; g: M8[ns, CET]") + assert mgr.iget(0).dtype == "datetime64[ns, US/Eastern]" + assert mgr.iget(1).dtype == "datetime64[ns, CET]" + assert mgr.as_array().dtype == "object" + + @pytest.mark.parametrize("t", ["float16", "float32", "float64", "int32", "int64"]) + def test_astype(self, t): + # coerce all + mgr = create_mgr("c: f4; d: f2; e: f8") + + t = np.dtype(t) + tmgr = mgr.astype(t) + assert tmgr.iget(0).dtype.type == t + assert tmgr.iget(1).dtype.type == t + assert tmgr.iget(2).dtype.type == t + + # mixed + mgr = create_mgr("a,b: object; c: bool; d: datetime; e: f4; f: f2; g: f8") + + t = np.dtype(t) + tmgr = mgr.astype(t, errors="ignore") + assert tmgr.iget(2).dtype.type == t + assert tmgr.iget(4).dtype.type == t + assert tmgr.iget(5).dtype.type == t + assert tmgr.iget(6).dtype.type == t + + assert tmgr.iget(0).dtype.type == np.object_ + assert tmgr.iget(1).dtype.type == np.object_ + if t != np.int64: + assert tmgr.iget(3).dtype.type == np.datetime64 + else: + assert tmgr.iget(3).dtype.type == t + + def test_convert(self, using_infer_string): + def _compare(old_mgr, new_mgr): + """compare the blocks, numeric compare ==, object don't""" + old_blocks = set(old_mgr.blocks) + new_blocks = set(new_mgr.blocks) + assert len(old_blocks) == len(new_blocks) + + # compare non-numeric + for b in old_blocks: + found = False + for nb in new_blocks: + if (b.values == nb.values).all(): + found = True + break + assert found + + for b in new_blocks: + found = False + for ob in old_blocks: + if (b.values == ob.values).all(): + found = True + break + assert found + + # noops + mgr = create_mgr("f: i8; g: f8") + new_mgr = mgr.convert(copy=True) + _compare(mgr, new_mgr) + + # convert + mgr = create_mgr("a,b,foo: object; f: i8; g: f8") + mgr.iset(0, np.array(["1"] * N, dtype=np.object_)) + mgr.iset(1, np.array(["2."] * N, dtype=np.object_)) + mgr.iset(2, np.array(["foo."] * N, dtype=np.object_)) + new_mgr = mgr.convert(copy=True) + dtype = "str" if using_infer_string else np.object_ + assert new_mgr.iget(0).dtype == dtype + assert new_mgr.iget(1).dtype == dtype + assert new_mgr.iget(2).dtype == dtype + assert new_mgr.iget(3).dtype == np.int64 + assert new_mgr.iget(4).dtype == np.float64 + + mgr = create_mgr( + "a,b,foo: object; f: i4; bool: bool; dt: datetime; i: i8; g: f8; h: f2" + ) + mgr.iset(0, np.array(["1"] * N, dtype=np.object_)) + mgr.iset(1, np.array(["2."] * N, dtype=np.object_)) + mgr.iset(2, np.array(["foo."] * N, dtype=np.object_)) + new_mgr = mgr.convert(copy=True) + assert new_mgr.iget(0).dtype == dtype + assert new_mgr.iget(1).dtype == dtype + assert new_mgr.iget(2).dtype == dtype + assert new_mgr.iget(3).dtype == np.int32 + assert new_mgr.iget(4).dtype == np.bool_ + assert new_mgr.iget(5).dtype.type, np.datetime64 + assert new_mgr.iget(6).dtype == np.int64 + assert new_mgr.iget(7).dtype == np.float64 + assert new_mgr.iget(8).dtype == np.float16 + + def test_interleave(self): + # self + for dtype in ["f8", "i8", "object", "bool", "complex", "M8[ns]", "m8[ns]"]: + mgr = create_mgr(f"a: {dtype}") + assert mgr.as_array().dtype == dtype + mgr = create_mgr(f"a: {dtype}; b: {dtype}") + assert mgr.as_array().dtype == dtype + + @pytest.mark.parametrize( + "mgr_string, dtype", + [ + ("a: category", "i8"), + ("a: category; b: category", "i8"), + ("a: category; b: category2", "object"), + ("a: category2", "object"), + ("a: category2; b: category2", "object"), + ("a: f8", "f8"), + ("a: f8; b: i8", "f8"), + ("a: f4; b: i8", "f8"), + ("a: f4; b: i8; d: object", "object"), + ("a: bool; b: i8", "object"), + ("a: complex", "complex"), + ("a: f8; b: category", "object"), + ("a: M8[ns]; b: category", "object"), + ("a: M8[ns]; b: bool", "object"), + ("a: M8[ns]; b: i8", "object"), + ("a: m8[ns]; b: bool", "object"), + ("a: m8[ns]; b: i8", "object"), + ("a: M8[ns]; b: m8[ns]", "object"), + ], + ) + def test_interleave_dtype(self, mgr_string, dtype): + # will be converted according the actual dtype of the underlying + mgr = create_mgr("a: category") + assert mgr.as_array().dtype == "i8" + mgr = create_mgr("a: category; b: category2") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: category2") + assert mgr.as_array().dtype == "object" + + # combinations + mgr = create_mgr("a: f8") + assert mgr.as_array().dtype == "f8" + mgr = create_mgr("a: f8; b: i8") + assert mgr.as_array().dtype == "f8" + mgr = create_mgr("a: f4; b: i8") + assert mgr.as_array().dtype == "f8" + mgr = create_mgr("a: f4; b: i8; d: object") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: bool; b: i8") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: complex") + assert mgr.as_array().dtype == "complex" + mgr = create_mgr("a: f8; b: category") + assert mgr.as_array().dtype == "f8" + mgr = create_mgr("a: M8[ns]; b: category") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: M8[ns]; b: bool") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: M8[ns]; b: i8") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: m8[ns]; b: bool") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: m8[ns]; b: i8") + assert mgr.as_array().dtype == "object" + mgr = create_mgr("a: M8[ns]; b: m8[ns]") + assert mgr.as_array().dtype == "object" + + def test_consolidate_ordering_issues(self, mgr): + mgr.iset(mgr.items.get_loc("f"), np.random.default_rng(2).standard_normal(N)) + mgr.iset(mgr.items.get_loc("d"), np.random.default_rng(2).standard_normal(N)) + mgr.iset(mgr.items.get_loc("b"), np.random.default_rng(2).standard_normal(N)) + mgr.iset(mgr.items.get_loc("g"), np.random.default_rng(2).standard_normal(N)) + mgr.iset(mgr.items.get_loc("h"), np.random.default_rng(2).standard_normal(N)) + + # we have datetime/tz blocks in mgr + cons = mgr.consolidate() + assert cons.nblocks == 4 + cons = mgr.consolidate().get_numeric_data() + assert cons.nblocks == 1 + assert isinstance(cons.blocks[0].mgr_locs, BlockPlacement) + tm.assert_numpy_array_equal( + cons.blocks[0].mgr_locs.as_array, np.arange(len(cons.items), dtype=np.intp) + ) + + def test_reindex_items(self): + # mgr is not consolidated, f8 & f8-2 blocks + mgr = create_mgr("a: f8; b: i8; c: f8; d: i8; e: f8; f: bool; g: f8-2") + + reindexed = mgr.reindex_axis(["g", "c", "a", "d"], axis=0) + # reindex_axis does not consolidate_inplace, as that risks failing to + # invalidate _item_cache + assert not reindexed.is_consolidated() + + tm.assert_index_equal(reindexed.items, Index(["g", "c", "a", "d"])) + tm.assert_almost_equal( + mgr.iget(6).internal_values(), reindexed.iget(0).internal_values() + ) + tm.assert_almost_equal( + mgr.iget(2).internal_values(), reindexed.iget(1).internal_values() + ) + tm.assert_almost_equal( + mgr.iget(0).internal_values(), reindexed.iget(2).internal_values() + ) + tm.assert_almost_equal( + mgr.iget(3).internal_values(), reindexed.iget(3).internal_values() + ) + + def test_get_numeric_data(self, using_copy_on_write): + mgr = create_mgr( + "int: int; float: float; complex: complex;" + "str: object; bool: bool; obj: object; dt: datetime", + item_shape=(3,), + ) + mgr.iset(5, np.array([1, 2, 3], dtype=np.object_)) + + numeric = mgr.get_numeric_data() + tm.assert_index_equal(numeric.items, Index(["int", "float", "complex", "bool"])) + tm.assert_almost_equal( + mgr.iget(mgr.items.get_loc("float")).internal_values(), + numeric.iget(numeric.items.get_loc("float")).internal_values(), + ) + + # Check sharing + numeric.iset( + numeric.items.get_loc("float"), + np.array([100.0, 200.0, 300.0]), + inplace=True, + ) + if using_copy_on_write: + tm.assert_almost_equal( + mgr.iget(mgr.items.get_loc("float")).internal_values(), + np.array([1.0, 1.0, 1.0]), + ) + else: + tm.assert_almost_equal( + mgr.iget(mgr.items.get_loc("float")).internal_values(), + np.array([100.0, 200.0, 300.0]), + ) + + def test_get_bool_data(self, using_copy_on_write): + mgr = create_mgr( + "int: int; float: float; complex: complex;" + "str: object; bool: bool; obj: object; dt: datetime", + item_shape=(3,), + ) + mgr.iset(6, np.array([True, False, True], dtype=np.object_)) + + bools = mgr.get_bool_data() + tm.assert_index_equal(bools.items, Index(["bool"])) + tm.assert_almost_equal( + mgr.iget(mgr.items.get_loc("bool")).internal_values(), + bools.iget(bools.items.get_loc("bool")).internal_values(), + ) + + bools.iset(0, np.array([True, False, True]), inplace=True) + if using_copy_on_write: + tm.assert_numpy_array_equal( + mgr.iget(mgr.items.get_loc("bool")).internal_values(), + np.array([True, True, True]), + ) + else: + tm.assert_numpy_array_equal( + mgr.iget(mgr.items.get_loc("bool")).internal_values(), + np.array([True, False, True]), + ) + + def test_unicode_repr_doesnt_raise(self): + repr(create_mgr("b,\u05d0: object")) + + @pytest.mark.parametrize( + "mgr_string", ["a,b,c: i8-1; d,e,f: i8-2", "a,a,a: i8-1; b,b,b: i8-2"] + ) + def test_equals(self, mgr_string): + # unique items + bm1 = create_mgr(mgr_string) + bm2 = BlockManager(bm1.blocks[::-1], bm1.axes) + assert bm1.equals(bm2) + + @pytest.mark.parametrize( + "mgr_string", + [ + "a:i8;b:f8", # basic case + "a:i8;b:f8;c:c8;d:b", # many types + "a:i8;e:dt;f:td;g:string", # more types + "a:i8;b:category;c:category2", # categories + "c:sparse;d:sparse_na;b:f8", # sparse + ], + ) + def test_equals_block_order_different_dtypes(self, mgr_string): + # GH 9330 + bm = create_mgr(mgr_string) + block_perms = itertools.permutations(bm.blocks) + for bm_perm in block_perms: + bm_this = BlockManager(tuple(bm_perm), bm.axes) + assert bm.equals(bm_this) + assert bm_this.equals(bm) + + def test_single_mgr_ctor(self): + mgr = create_single_mgr("f8", num_rows=5) + assert mgr.external_values().tolist() == [0.0, 1.0, 2.0, 3.0, 4.0] + + @pytest.mark.parametrize("value", [1, "True", [1, 2, 3], 5.0]) + def test_validate_bool_args(self, value): + bm1 = create_mgr("a,b,c: i8-1; d,e,f: i8-2") + + msg = ( + 'For argument "inplace" expected type bool, ' + f"received type {type(value).__name__}." + ) + with pytest.raises(ValueError, match=msg): + bm1.replace_list([1], [2], inplace=value) + + def test_iset_split_block(self): + bm = create_mgr("a,b,c: i8; d: f8") + bm._iset_split_block(0, np.array([0])) + tm.assert_numpy_array_equal( + bm.blklocs, np.array([0, 0, 1, 0], dtype="int64" if IS64 else "int32") + ) + # First indexer currently does not have a block associated with it in case + tm.assert_numpy_array_equal( + bm.blknos, np.array([0, 0, 0, 1], dtype="int64" if IS64 else "int32") + ) + assert len(bm.blocks) == 2 + + def test_iset_split_block_values(self): + bm = create_mgr("a,b,c: i8; d: f8") + bm._iset_split_block(0, np.array([0]), np.array([list(range(10))])) + tm.assert_numpy_array_equal( + bm.blklocs, np.array([0, 0, 1, 0], dtype="int64" if IS64 else "int32") + ) + # First indexer currently does not have a block associated with it in case + tm.assert_numpy_array_equal( + bm.blknos, np.array([0, 2, 2, 1], dtype="int64" if IS64 else "int32") + ) + assert len(bm.blocks) == 3 + + +def _as_array(mgr): + if mgr.ndim == 1: + return mgr.external_values() + return mgr.as_array().T + + +class TestIndexing: + # Nosetests-style data-driven tests. + # + # This test applies different indexing routines to block managers and + # compares the outcome to the result of same operations on np.ndarray. + # + # NOTE: sparse (SparseBlock with fill_value != np.nan) fail a lot of tests + # and are disabled. + + MANAGERS = [ + create_single_mgr("f8", N), + create_single_mgr("i8", N), + # 2-dim + create_mgr("a,b,c,d,e,f: f8", item_shape=(N,)), + create_mgr("a,b,c,d,e,f: i8", item_shape=(N,)), + create_mgr("a,b: f8; c,d: i8; e,f: string", item_shape=(N,)), + create_mgr("a,b: f8; c,d: i8; e,f: f8", item_shape=(N,)), + ] + + @pytest.mark.parametrize("mgr", MANAGERS) + def test_get_slice(self, mgr): + def assert_slice_ok(mgr, axis, slobj): + mat = _as_array(mgr) + + # we maybe using an ndarray to test slicing and + # might not be the full length of the axis + if isinstance(slobj, np.ndarray): + ax = mgr.axes[axis] + if len(ax) and len(slobj) and len(slobj) != len(ax): + slobj = np.concatenate( + [slobj, np.zeros(len(ax) - len(slobj), dtype=bool)] + ) + + if isinstance(slobj, slice): + sliced = mgr.get_slice(slobj, axis=axis) + elif ( + mgr.ndim == 1 + and axis == 0 + and isinstance(slobj, np.ndarray) + and slobj.dtype == bool + ): + sliced = mgr.get_rows_with_mask(slobj) + else: + # BlockManager doesn't support non-slice, SingleBlockManager + # doesn't support axis > 0 + raise TypeError(slobj) + + mat_slobj = (slice(None),) * axis + (slobj,) + tm.assert_numpy_array_equal( + mat[mat_slobj], _as_array(sliced), check_dtype=False + ) + tm.assert_index_equal(mgr.axes[axis][slobj], sliced.axes[axis]) + + assert mgr.ndim <= 2, mgr.ndim + for ax in range(mgr.ndim): + # slice + assert_slice_ok(mgr, ax, slice(None)) + assert_slice_ok(mgr, ax, slice(3)) + assert_slice_ok(mgr, ax, slice(100)) + assert_slice_ok(mgr, ax, slice(1, 4)) + assert_slice_ok(mgr, ax, slice(3, 0, -2)) + + if mgr.ndim < 2: + # 2D only support slice objects + + # boolean mask + assert_slice_ok(mgr, ax, np.ones(mgr.shape[ax], dtype=np.bool_)) + assert_slice_ok(mgr, ax, np.zeros(mgr.shape[ax], dtype=np.bool_)) + + if mgr.shape[ax] >= 3: + assert_slice_ok(mgr, ax, np.arange(mgr.shape[ax]) % 3 == 0) + assert_slice_ok( + mgr, ax, np.array([True, True, False], dtype=np.bool_) + ) + + @pytest.mark.parametrize("mgr", MANAGERS) + def test_take(self, mgr): + def assert_take_ok(mgr, axis, indexer): + mat = _as_array(mgr) + taken = mgr.take(indexer, axis) + tm.assert_numpy_array_equal( + np.take(mat, indexer, axis), _as_array(taken), check_dtype=False + ) + tm.assert_index_equal(mgr.axes[axis].take(indexer), taken.axes[axis]) + + for ax in range(mgr.ndim): + # take/fancy indexer + assert_take_ok(mgr, ax, indexer=np.array([], dtype=np.intp)) + assert_take_ok(mgr, ax, indexer=np.array([0, 0, 0], dtype=np.intp)) + assert_take_ok( + mgr, ax, indexer=np.array(list(range(mgr.shape[ax])), dtype=np.intp) + ) + + if mgr.shape[ax] >= 3: + assert_take_ok(mgr, ax, indexer=np.array([0, 1, 2], dtype=np.intp)) + assert_take_ok(mgr, ax, indexer=np.array([-1, -2, -3], dtype=np.intp)) + + @pytest.mark.parametrize("mgr", MANAGERS) + @pytest.mark.parametrize("fill_value", [None, np.nan, 100.0]) + def test_reindex_axis(self, fill_value, mgr): + def assert_reindex_axis_is_ok(mgr, axis, new_labels, fill_value): + mat = _as_array(mgr) + indexer = mgr.axes[axis].get_indexer_for(new_labels) + + reindexed = mgr.reindex_axis(new_labels, axis, fill_value=fill_value) + tm.assert_numpy_array_equal( + algos.take_nd(mat, indexer, axis, fill_value=fill_value), + _as_array(reindexed), + check_dtype=False, + ) + tm.assert_index_equal(reindexed.axes[axis], new_labels) + + for ax in range(mgr.ndim): + assert_reindex_axis_is_ok(mgr, ax, Index([]), fill_value) + assert_reindex_axis_is_ok(mgr, ax, mgr.axes[ax], fill_value) + assert_reindex_axis_is_ok(mgr, ax, mgr.axes[ax][[0, 0, 0]], fill_value) + assert_reindex_axis_is_ok(mgr, ax, Index(["foo", "bar", "baz"]), fill_value) + assert_reindex_axis_is_ok( + mgr, ax, Index(["foo", mgr.axes[ax][0], "baz"]), fill_value + ) + + if mgr.shape[ax] >= 3: + assert_reindex_axis_is_ok(mgr, ax, mgr.axes[ax][:-3], fill_value) + assert_reindex_axis_is_ok(mgr, ax, mgr.axes[ax][-3::-1], fill_value) + assert_reindex_axis_is_ok( + mgr, ax, mgr.axes[ax][[0, 1, 2, 0, 1, 2]], fill_value + ) + + @pytest.mark.parametrize("mgr", MANAGERS) + @pytest.mark.parametrize("fill_value", [None, np.nan, 100.0]) + def test_reindex_indexer(self, fill_value, mgr): + def assert_reindex_indexer_is_ok(mgr, axis, new_labels, indexer, fill_value): + mat = _as_array(mgr) + reindexed_mat = algos.take_nd(mat, indexer, axis, fill_value=fill_value) + reindexed = mgr.reindex_indexer( + new_labels, indexer, axis, fill_value=fill_value + ) + tm.assert_numpy_array_equal( + reindexed_mat, _as_array(reindexed), check_dtype=False + ) + tm.assert_index_equal(reindexed.axes[axis], new_labels) + + for ax in range(mgr.ndim): + assert_reindex_indexer_is_ok( + mgr, ax, Index([]), np.array([], dtype=np.intp), fill_value + ) + assert_reindex_indexer_is_ok( + mgr, ax, mgr.axes[ax], np.arange(mgr.shape[ax]), fill_value + ) + assert_reindex_indexer_is_ok( + mgr, + ax, + Index(["foo"] * mgr.shape[ax]), + np.arange(mgr.shape[ax]), + fill_value, + ) + assert_reindex_indexer_is_ok( + mgr, ax, mgr.axes[ax][::-1], np.arange(mgr.shape[ax]), fill_value + ) + assert_reindex_indexer_is_ok( + mgr, ax, mgr.axes[ax], np.arange(mgr.shape[ax])[::-1], fill_value + ) + assert_reindex_indexer_is_ok( + mgr, ax, Index(["foo", "bar", "baz"]), np.array([0, 0, 0]), fill_value + ) + assert_reindex_indexer_is_ok( + mgr, ax, Index(["foo", "bar", "baz"]), np.array([-1, 0, -1]), fill_value + ) + assert_reindex_indexer_is_ok( + mgr, + ax, + Index(["foo", mgr.axes[ax][0], "baz"]), + np.array([-1, -1, -1]), + fill_value, + ) + + if mgr.shape[ax] >= 3: + assert_reindex_indexer_is_ok( + mgr, + ax, + Index(["foo", "bar", "baz"]), + np.array([0, 1, 2]), + fill_value, + ) + + +class TestBlockPlacement: + @pytest.mark.parametrize( + "slc, expected", + [ + (slice(0, 4), 4), + (slice(0, 4, 2), 2), + (slice(0, 3, 2), 2), + (slice(0, 1, 2), 1), + (slice(1, 0, -1), 1), + ], + ) + def test_slice_len(self, slc, expected): + assert len(BlockPlacement(slc)) == expected + + @pytest.mark.parametrize("slc", [slice(1, 1, 0), slice(1, 2, 0)]) + def test_zero_step_raises(self, slc): + msg = "slice step cannot be zero" + with pytest.raises(ValueError, match=msg): + BlockPlacement(slc) + + def test_slice_canonize_negative_stop(self): + # GH#37524 negative stop is OK with negative step and positive start + slc = slice(3, -1, -2) + + bp = BlockPlacement(slc) + assert bp.indexer == slice(3, None, -2) + + @pytest.mark.parametrize( + "slc", + [ + slice(None, None), + slice(10, None), + slice(None, None, -1), + slice(None, 10, -1), + # These are "unbounded" because negative index will + # change depending on container shape. + slice(-1, None), + slice(None, -1), + slice(-1, -1), + slice(-1, None, -1), + slice(None, -1, -1), + slice(-1, -1, -1), + ], + ) + def test_unbounded_slice_raises(self, slc): + msg = "unbounded slice" + with pytest.raises(ValueError, match=msg): + BlockPlacement(slc) + + @pytest.mark.parametrize( + "slc", + [ + slice(0, 0), + slice(100, 0), + slice(100, 100), + slice(100, 100, -1), + slice(0, 100, -1), + ], + ) + def test_not_slice_like_slices(self, slc): + assert not BlockPlacement(slc).is_slice_like + + @pytest.mark.parametrize( + "arr, slc", + [ + ([0], slice(0, 1, 1)), + ([100], slice(100, 101, 1)), + ([0, 1, 2], slice(0, 3, 1)), + ([0, 5, 10], slice(0, 15, 5)), + ([0, 100], slice(0, 200, 100)), + ([2, 1], slice(2, 0, -1)), + ], + ) + def test_array_to_slice_conversion(self, arr, slc): + assert BlockPlacement(arr).as_slice == slc + + @pytest.mark.parametrize( + "arr", + [ + [], + [-1], + [-1, -2, -3], + [-10], + [-1], + [-1, 0, 1, 2], + [-2, 0, 2, 4], + [1, 0, -1], + [1, 1, 1], + ], + ) + def test_not_slice_like_arrays(self, arr): + assert not BlockPlacement(arr).is_slice_like + + @pytest.mark.parametrize( + "slc, expected", + [(slice(0, 3), [0, 1, 2]), (slice(0, 0), []), (slice(3, 0), [])], + ) + def test_slice_iter(self, slc, expected): + assert list(BlockPlacement(slc)) == expected + + @pytest.mark.parametrize( + "slc, arr", + [ + (slice(0, 3), [0, 1, 2]), + (slice(0, 0), []), + (slice(3, 0), []), + (slice(3, 0, -1), [3, 2, 1]), + ], + ) + def test_slice_to_array_conversion(self, slc, arr): + tm.assert_numpy_array_equal( + BlockPlacement(slc).as_array, np.asarray(arr, dtype=np.intp) + ) + + def test_blockplacement_add(self): + bpl = BlockPlacement(slice(0, 5)) + assert bpl.add(1).as_slice == slice(1, 6, 1) + assert bpl.add(np.arange(5)).as_slice == slice(0, 10, 2) + assert list(bpl.add(np.arange(5, 0, -1))) == [5, 5, 5, 5, 5] + + @pytest.mark.parametrize( + "val, inc, expected", + [ + (slice(0, 0), 0, []), + (slice(1, 4), 0, [1, 2, 3]), + (slice(3, 0, -1), 0, [3, 2, 1]), + ([1, 2, 4], 0, [1, 2, 4]), + (slice(0, 0), 10, []), + (slice(1, 4), 10, [11, 12, 13]), + (slice(3, 0, -1), 10, [13, 12, 11]), + ([1, 2, 4], 10, [11, 12, 14]), + (slice(0, 0), -1, []), + (slice(1, 4), -1, [0, 1, 2]), + ([1, 2, 4], -1, [0, 1, 3]), + ], + ) + def test_blockplacement_add_int(self, val, inc, expected): + assert list(BlockPlacement(val).add(inc)) == expected + + @pytest.mark.parametrize("val", [slice(1, 4), [1, 2, 4]]) + def test_blockplacement_add_int_raises(self, val): + msg = "iadd causes length change" + with pytest.raises(ValueError, match=msg): + BlockPlacement(val).add(-10) + + +class TestCanHoldElement: + @pytest.fixture( + params=[ + lambda x: x, + lambda x: x.to_series(), + lambda x: x._data, + lambda x: list(x), + lambda x: x.astype(object), + lambda x: np.asarray(x), + lambda x: x[0], + lambda x: x[:0], + ] + ) + def element(self, request): + """ + Functions that take an Index and return an element that should have + blk._can_hold_element(element) for a Block with this index's dtype. + """ + return request.param + + def test_datetime_block_can_hold_element(self): + block = create_block("datetime", [0]) + + assert block._can_hold_element([]) + + # We will check that block._can_hold_element iff arr.__setitem__ works + arr = pd.array(block.values.ravel()) + + # coerce None + assert block._can_hold_element(None) + arr[0] = None + assert arr[0] is pd.NaT + + # coerce different types of datetime objects + vals = [np.datetime64("2010-10-10"), datetime(2010, 10, 10)] + for val in vals: + assert block._can_hold_element(val) + arr[0] = val + + val = date(2010, 10, 10) + assert not block._can_hold_element(val) + + msg = ( + "value should be a 'Timestamp', 'NaT', " + "or array of those. Got 'date' instead." + ) + with pytest.raises(TypeError, match=msg): + arr[0] = val + + @pytest.mark.parametrize("dtype", [np.int64, np.uint64, np.float64]) + def test_interval_can_hold_element_emptylist(self, dtype, element): + arr = np.array([1, 3, 4], dtype=dtype) + ii = IntervalIndex.from_breaks(arr) + blk = new_block(ii._data, BlockPlacement([1]), ndim=2) + + assert blk._can_hold_element([]) + # TODO: check this holds for all blocks + + @pytest.mark.parametrize("dtype", [np.int64, np.uint64, np.float64]) + def test_interval_can_hold_element(self, dtype, element): + arr = np.array([1, 3, 4, 9], dtype=dtype) + ii = IntervalIndex.from_breaks(arr) + blk = new_block(ii._data, BlockPlacement([1]), ndim=2) + + elem = element(ii) + self.check_series_setitem(elem, ii, True) + assert blk._can_hold_element(elem) + + # Careful: to get the expected Series-inplace behavior we need + # `elem` to not have the same length as `arr` + ii2 = IntervalIndex.from_breaks(arr[:-1], closed="neither") + elem = element(ii2) + with tm.assert_produces_warning(FutureWarning): + self.check_series_setitem(elem, ii, False) + assert not blk._can_hold_element(elem) + + ii3 = IntervalIndex.from_breaks([Timestamp(1), Timestamp(3), Timestamp(4)]) + elem = element(ii3) + with tm.assert_produces_warning(FutureWarning): + self.check_series_setitem(elem, ii, False) + assert not blk._can_hold_element(elem) + + ii4 = IntervalIndex.from_breaks([Timedelta(1), Timedelta(3), Timedelta(4)]) + elem = element(ii4) + with tm.assert_produces_warning(FutureWarning): + self.check_series_setitem(elem, ii, False) + assert not blk._can_hold_element(elem) + + def test_period_can_hold_element_emptylist(self): + pi = period_range("2016", periods=3, freq="Y") + blk = new_block(pi._data.reshape(1, 3), BlockPlacement([1]), ndim=2) + + assert blk._can_hold_element([]) + + def test_period_can_hold_element(self, element): + pi = period_range("2016", periods=3, freq="Y") + + elem = element(pi) + self.check_series_setitem(elem, pi, True) + + # Careful: to get the expected Series-inplace behavior we need + # `elem` to not have the same length as `arr` + pi2 = pi.asfreq("D")[:-1] + elem = element(pi2) + with tm.assert_produces_warning(FutureWarning): + self.check_series_setitem(elem, pi, False) + + dti = pi.to_timestamp("s")[:-1] + elem = element(dti) + with tm.assert_produces_warning(FutureWarning): + self.check_series_setitem(elem, pi, False) + + def check_can_hold_element(self, obj, elem, inplace: bool): + blk = obj._mgr.blocks[0] + if inplace: + assert blk._can_hold_element(elem) + else: + assert not blk._can_hold_element(elem) + + def check_series_setitem(self, elem, index: Index, inplace: bool): + arr = index._data.copy() + ser = Series(arr, copy=False) + + self.check_can_hold_element(ser, elem, inplace) + + if is_scalar(elem): + ser[0] = elem + else: + ser[: len(elem)] = elem + + if inplace: + assert ser.array is arr # i.e. setting was done inplace + else: + assert ser.dtype == object + + +class TestShouldStore: + def test_should_store_categorical(self): + cat = Categorical(["A", "B", "C"]) + df = DataFrame(cat) + blk = df._mgr.blocks[0] + + # matching dtype + assert blk.should_store(cat) + assert blk.should_store(cat[:-1]) + + # different dtype + assert not blk.should_store(cat.as_ordered()) + + # ndarray instead of Categorical + assert not blk.should_store(np.asarray(cat)) + + +def test_validate_ndim(): + values = np.array([1.0, 2.0]) + placement = BlockPlacement(slice(2)) + msg = r"Wrong number of dimensions. values.ndim != ndim \[1 != 2\]" + + with pytest.raises(ValueError, match=msg): + make_block(values, placement, ndim=2) + + +def test_block_shape(): + idx = Index([0, 1, 2, 3, 4]) + a = Series([1, 2, 3]).reindex(idx) + b = Series(Categorical([1, 2, 3])).reindex(idx) + + assert a._mgr.blocks[0].mgr_locs.indexer == b._mgr.blocks[0].mgr_locs.indexer + + +def test_make_block_no_pandas_array(block_maker): + # https://github.com/pandas-dev/pandas/pull/24866 + arr = pd.arrays.NumpyExtensionArray(np.array([1, 2])) + + # NumpyExtensionArray, no dtype + result = block_maker(arr, BlockPlacement(slice(len(arr))), ndim=arr.ndim) + assert result.dtype.kind in ["i", "u"] + + if block_maker is make_block: + # new_block requires caller to unwrap NumpyExtensionArray + assert result.is_extension is False + + # NumpyExtensionArray, NumpyEADtype + result = block_maker(arr, slice(len(arr)), dtype=arr.dtype, ndim=arr.ndim) + assert result.dtype.kind in ["i", "u"] + assert result.is_extension is False + + # new_block no longer taked dtype keyword + # ndarray, NumpyEADtype + result = block_maker( + arr.to_numpy(), slice(len(arr)), dtype=arr.dtype, ndim=arr.ndim + ) + assert result.dtype.kind in ["i", "u"] + assert result.is_extension is False diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_managers.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_managers.py new file mode 100644 index 0000000000000000000000000000000000000000..f40362c299717be5f2e8665e4547276c2af05fb0 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/internals/test_managers.py @@ -0,0 +1,103 @@ +""" +Testing interaction between the different managers (BlockManager, ArrayManager) +""" +import os +import subprocess +import sys + +import pytest + +from pandas.core.dtypes.missing import array_equivalent + +import pandas as pd +import pandas._testing as tm +from pandas.core.internals import ( + ArrayManager, + BlockManager, + SingleArrayManager, + SingleBlockManager, +) + + +def test_dataframe_creation(): + msg = "data_manager option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pd.option_context("mode.data_manager", "block"): + df_block = pd.DataFrame( + {"a": [1, 2, 3], "b": [0.1, 0.2, 0.3], "c": [4, 5, 6]} + ) + assert isinstance(df_block._mgr, BlockManager) + + with tm.assert_produces_warning(FutureWarning, match=msg): + with pd.option_context("mode.data_manager", "array"): + df_array = pd.DataFrame( + {"a": [1, 2, 3], "b": [0.1, 0.2, 0.3], "c": [4, 5, 6]} + ) + assert isinstance(df_array._mgr, ArrayManager) + + # also ensure both are seen as equal + tm.assert_frame_equal(df_block, df_array) + + # conversion from one manager to the other + result = df_block._as_manager("block") + assert isinstance(result._mgr, BlockManager) + result = df_block._as_manager("array") + assert isinstance(result._mgr, ArrayManager) + tm.assert_frame_equal(result, df_block) + assert all( + array_equivalent(left, right) + for left, right in zip(result._mgr.arrays, df_array._mgr.arrays) + ) + + result = df_array._as_manager("array") + assert isinstance(result._mgr, ArrayManager) + result = df_array._as_manager("block") + assert isinstance(result._mgr, BlockManager) + tm.assert_frame_equal(result, df_array) + assert len(result._mgr.blocks) == 2 + + +def test_series_creation(): + msg = "data_manager option is deprecated" + with tm.assert_produces_warning(FutureWarning, match=msg): + with pd.option_context("mode.data_manager", "block"): + s_block = pd.Series([1, 2, 3], name="A", index=["a", "b", "c"]) + assert isinstance(s_block._mgr, SingleBlockManager) + + with tm.assert_produces_warning(FutureWarning, match=msg): + with pd.option_context("mode.data_manager", "array"): + s_array = pd.Series([1, 2, 3], name="A", index=["a", "b", "c"]) + assert isinstance(s_array._mgr, SingleArrayManager) + + # also ensure both are seen as equal + tm.assert_series_equal(s_block, s_array) + + # conversion from one manager to the other + result = s_block._as_manager("block") + assert isinstance(result._mgr, SingleBlockManager) + result = s_block._as_manager("array") + assert isinstance(result._mgr, SingleArrayManager) + tm.assert_series_equal(result, s_block) + + result = s_array._as_manager("array") + assert isinstance(result._mgr, SingleArrayManager) + result = s_array._as_manager("block") + assert isinstance(result._mgr, SingleBlockManager) + tm.assert_series_equal(result, s_array) + + +@pytest.mark.single_cpu +@pytest.mark.parametrize("manager", ["block", "array"]) +def test_array_manager_depr_env_var(manager): + # GH#55043 + test_env = os.environ.copy() + test_env["PANDAS_DATA_MANAGER"] = manager + response = subprocess.run( + [sys.executable, "-c", "import pandas"], + capture_output=True, + env=test_env, + check=True, + ) + msg = "FutureWarning: The env variable PANDAS_DATA_MANAGER is set" + stderr_msg = response.stderr.decode("utf-8") + assert msg in stderr_msg, stderr_msg diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/conftest.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/conftest.py new file mode 100644 index 0000000000000000000000000000000000000000..a5ddda9d66e7af4a418a65650f1f44ae35bec4a1 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/conftest.py @@ -0,0 +1,225 @@ +import shlex +import subprocess +import time +import uuid + +import pytest + +from pandas.compat import ( + is_ci_environment, + is_platform_arm, + is_platform_mac, + is_platform_windows, +) +import pandas.util._test_decorators as td + +import pandas.io.common as icom +from pandas.io.parsers import read_csv + + +@pytest.fixture +def compression_to_extension(): + return {value: key for key, value in icom.extension_to_compression.items()} + + +@pytest.fixture +def tips_file(datapath): + """Path to the tips dataset""" + return datapath("io", "data", "csv", "tips.csv") + + +@pytest.fixture +def jsonl_file(datapath): + """Path to a JSONL dataset""" + return datapath("io", "parser", "data", "items.jsonl") + + +@pytest.fixture +def salaries_table(datapath): + """DataFrame with the salaries dataset""" + return read_csv(datapath("io", "parser", "data", "salaries.csv"), sep="\t") + + +@pytest.fixture +def feather_file(datapath): + return datapath("io", "data", "feather", "feather-0_3_1.feather") + + +@pytest.fixture +def xml_file(datapath): + return datapath("io", "data", "xml", "books.xml") + + +@pytest.fixture +def s3_base(worker_id, monkeypatch): + """ + Fixture for mocking S3 interaction. + + Sets up moto server in separate process locally + Return url for motoserver/moto CI service + """ + pytest.importorskip("s3fs") + pytest.importorskip("boto3") + + # temporary workaround as moto fails for botocore >= 1.11 otherwise, + # see https://github.com/spulec/moto/issues/1924 & 1952 + monkeypatch.setenv("AWS_ACCESS_KEY_ID", "foobar_key") + monkeypatch.setenv("AWS_SECRET_ACCESS_KEY", "foobar_secret") + if is_ci_environment(): + if is_platform_arm() or is_platform_mac() or is_platform_windows(): + # NOT RUN on Windows/macOS, only Ubuntu + # - subprocess in CI can cause timeouts + # - GitHub Actions do not support + # container services for the above OSs + pytest.skip( + "S3 tests do not have a corresponding service on " + "Windows or macOS platforms" + ) + else: + # set in .github/workflows/unit-tests.yml + yield "http://localhost:5000" + else: + requests = pytest.importorskip("requests") + pytest.importorskip("moto") + pytest.importorskip("flask") # server mode needs flask too + + # Launching moto in server mode, i.e., as a separate process + # with an S3 endpoint on localhost + + worker_id = "5" if worker_id == "master" else worker_id.lstrip("gw") + endpoint_port = f"555{worker_id}" + endpoint_uri = f"http://127.0.0.1:{endpoint_port}/" + + # pipe to null to avoid logging in terminal + with subprocess.Popen( + shlex.split(f"moto_server s3 -p {endpoint_port}"), + stdout=subprocess.DEVNULL, + stderr=subprocess.DEVNULL, + ) as proc: + timeout = 5 + while timeout > 0: + try: + # OK to go once server is accepting connections + r = requests.get(endpoint_uri) + if r.ok: + break + except Exception: + pass + timeout -= 0.1 + time.sleep(0.1) + yield endpoint_uri + + proc.terminate() + + +@pytest.fixture +def s3so(s3_base): + return {"client_kwargs": {"endpoint_url": s3_base}} + + +@pytest.fixture +def s3_resource(s3_base): + import boto3 + + s3 = boto3.resource("s3", endpoint_url=s3_base) + return s3 + + +@pytest.fixture +def s3_public_bucket(s3_resource): + bucket = s3_resource.Bucket(f"pandas-test-{uuid.uuid4()}") + bucket.create() + yield bucket + bucket.objects.delete() + bucket.delete() + + +@pytest.fixture +def s3_public_bucket_with_data( + s3_public_bucket, tips_file, jsonl_file, feather_file, xml_file +): + """ + The following datasets + are loaded. + + - tips.csv + - tips.csv.gz + - tips.csv.bz2 + - items.jsonl + """ + test_s3_files = [ + ("tips#1.csv", tips_file), + ("tips.csv", tips_file), + ("tips.csv.gz", tips_file + ".gz"), + ("tips.csv.bz2", tips_file + ".bz2"), + ("items.jsonl", jsonl_file), + ("simple_dataset.feather", feather_file), + ("books.xml", xml_file), + ] + for s3_key, file_name in test_s3_files: + with open(file_name, "rb") as f: + s3_public_bucket.put_object(Key=s3_key, Body=f) + return s3_public_bucket + + +@pytest.fixture +def s3_private_bucket(s3_resource): + bucket = s3_resource.Bucket(f"cant_get_it-{uuid.uuid4()}") + bucket.create(ACL="private") + yield bucket + bucket.objects.delete() + bucket.delete() + + +@pytest.fixture +def s3_private_bucket_with_data( + s3_private_bucket, tips_file, jsonl_file, feather_file, xml_file +): + """ + The following datasets + are loaded. + + - tips.csv + - tips.csv.gz + - tips.csv.bz2 + - items.jsonl + """ + test_s3_files = [ + ("tips#1.csv", tips_file), + ("tips.csv", tips_file), + ("tips.csv.gz", tips_file + ".gz"), + ("tips.csv.bz2", tips_file + ".bz2"), + ("items.jsonl", jsonl_file), + ("simple_dataset.feather", feather_file), + ("books.xml", xml_file), + ] + for s3_key, file_name in test_s3_files: + with open(file_name, "rb") as f: + s3_private_bucket.put_object(Key=s3_key, Body=f) + return s3_private_bucket + + +_compression_formats_params = [ + (".no_compress", None), + ("", None), + (".gz", "gzip"), + (".GZ", "gzip"), + (".bz2", "bz2"), + (".BZ2", "bz2"), + (".zip", "zip"), + (".ZIP", "zip"), + (".xz", "xz"), + (".XZ", "xz"), + pytest.param((".zst", "zstd"), marks=td.skip_if_no("zstandard")), + pytest.param((".ZST", "zstd"), marks=td.skip_if_no("zstandard")), +] + + +@pytest.fixture(params=_compression_formats_params[1:]) +def compression_format(request): + return request.param + + +@pytest.fixture(params=_compression_formats_params) +def compression_ext(request): + return request.param[0] diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odf.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odf.py new file mode 100644 index 0000000000000000000000000000000000000000..b5bb9b27258d86cda6e44aeae17a4cdba4157a43 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odf.py @@ -0,0 +1,77 @@ +import functools + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows + +import pandas as pd +import pandas._testing as tm + +pytest.importorskip("odf") + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +@pytest.fixture(autouse=True) +def cd_and_set_engine(monkeypatch, datapath): + func = functools.partial(pd.read_excel, engine="odf") + monkeypatch.setattr(pd, "read_excel", func) + monkeypatch.chdir(datapath("io", "data", "excel")) + + +def test_read_invalid_types_raises(): + # the invalid_value_type.ods required manually editing + # of the included content.xml file + with pytest.raises(ValueError, match="Unrecognized type awesome_new_type"): + pd.read_excel("invalid_value_type.ods") + + +def test_read_writer_table(): + # Also test reading tables from an text OpenDocument file + # (.odt) + index = pd.Index(["Row 1", "Row 2", "Row 3"], name="Header") + expected = pd.DataFrame( + [[1, np.nan, 7], [2, np.nan, 8], [3, np.nan, 9]], + index=index, + columns=["Column 1", "Unnamed: 2", "Column 3"], + ) + + result = pd.read_excel("writertable.odt", sheet_name="Table1", index_col=0) + + tm.assert_frame_equal(result, expected) + + +def test_read_newlines_between_xml_elements_table(): + # GH#45598 + expected = pd.DataFrame( + [[1.0, 4.0, 7], [np.nan, np.nan, 8], [3.0, 6.0, 9]], + columns=["Column 1", "Column 2", "Column 3"], + ) + + result = pd.read_excel("test_newlines.ods") + + tm.assert_frame_equal(result, expected) + + +def test_read_unempty_cells(): + expected = pd.DataFrame( + [1, np.nan, 3, np.nan, 5], + columns=["Column 1"], + ) + + result = pd.read_excel("test_unempty_cells.ods") + + tm.assert_frame_equal(result, expected) + + +def test_read_cell_annotation(): + expected = pd.DataFrame( + ["test", np.nan, "test 3"], + columns=["Column 1"], + ) + + result = pd.read_excel("test_cell_annotation.ods") + + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odswriter.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odswriter.py new file mode 100644 index 0000000000000000000000000000000000000000..1c728ad801bc139c1ca1cd2e902884a5a2c91ffc --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_odswriter.py @@ -0,0 +1,106 @@ +from datetime import ( + date, + datetime, +) +import re + +import pytest + +from pandas.compat import is_platform_windows + +import pandas as pd +import pandas._testing as tm + +from pandas.io.excel import ExcelWriter + +odf = pytest.importorskip("odf") + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +@pytest.fixture +def ext(): + return ".ods" + + +def test_write_append_mode_raises(ext): + msg = "Append mode is not supported with odf!" + + with tm.ensure_clean(ext) as f: + with pytest.raises(ValueError, match=msg): + ExcelWriter(f, engine="odf", mode="a") + + +@pytest.mark.parametrize("engine_kwargs", [None, {"kwarg": 1}]) +def test_engine_kwargs(ext, engine_kwargs): + # GH 42286 + # GH 43445 + # test for error: OpenDocumentSpreadsheet does not accept any arguments + with tm.ensure_clean(ext) as f: + if engine_kwargs is not None: + error = re.escape( + "OpenDocumentSpreadsheet() got an unexpected keyword argument 'kwarg'" + ) + with pytest.raises( + TypeError, + match=error, + ): + ExcelWriter(f, engine="odf", engine_kwargs=engine_kwargs) + else: + with ExcelWriter(f, engine="odf", engine_kwargs=engine_kwargs) as _: + pass + + +def test_book_and_sheets_consistent(ext): + # GH#45687 - Ensure sheets is updated if user modifies book + with tm.ensure_clean(ext) as f: + with ExcelWriter(f) as writer: + assert writer.sheets == {} + table = odf.table.Table(name="test_name") + writer.book.spreadsheet.addElement(table) + assert writer.sheets == {"test_name": table} + + +@pytest.mark.parametrize( + ["value", "cell_value_type", "cell_value_attribute", "cell_value"], + argvalues=[ + (True, "boolean", "boolean-value", "true"), + ("test string", "string", "string-value", "test string"), + (1, "float", "value", "1"), + (1.5, "float", "value", "1.5"), + ( + datetime(2010, 10, 10, 10, 10, 10), + "date", + "date-value", + "2010-10-10T10:10:10", + ), + (date(2010, 10, 10), "date", "date-value", "2010-10-10"), + ], +) +def test_cell_value_type(ext, value, cell_value_type, cell_value_attribute, cell_value): + # GH#54994 ODS: cell attributes should follow specification + # http://docs.oasis-open.org/office/v1.2/os/OpenDocument-v1.2-os-part1.html#refTable13 + from odf.namespaces import OFFICENS + from odf.table import ( + TableCell, + TableRow, + ) + + table_cell_name = TableCell().qname + + with tm.ensure_clean(ext) as f: + pd.DataFrame([[value]]).to_excel(f, header=False, index=False) + + with pd.ExcelFile(f) as wb: + sheet = wb._reader.get_sheet_by_index(0) + sheet_rows = sheet.getElementsByType(TableRow) + sheet_cells = [ + x + for x in sheet_rows[0].childNodes + if hasattr(x, "qname") and x.qname == table_cell_name + ] + + cell = sheet_cells[0] + assert cell.attributes.get((OFFICENS, "value-type")) == cell_value_type + assert cell.attributes.get((OFFICENS, cell_value_attribute)) == cell_value diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_openpyxl.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_openpyxl.py new file mode 100644 index 0000000000000000000000000000000000000000..e53b5830ec6a4b315165f4896aed27bdaadfbda6 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_openpyxl.py @@ -0,0 +1,432 @@ +import contextlib +from pathlib import Path +import re + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows + +import pandas as pd +from pandas import DataFrame +import pandas._testing as tm + +from pandas.io.excel import ( + ExcelWriter, + _OpenpyxlWriter, +) +from pandas.io.excel._openpyxl import OpenpyxlReader + +openpyxl = pytest.importorskip("openpyxl") + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +@pytest.fixture +def ext(): + return ".xlsx" + + +def test_to_excel_styleconverter(): + from openpyxl import styles + + hstyle = { + "font": {"color": "00FF0000", "bold": True}, + "borders": {"top": "thin", "right": "thin", "bottom": "thin", "left": "thin"}, + "alignment": {"horizontal": "center", "vertical": "top"}, + "fill": {"patternType": "solid", "fgColor": {"rgb": "006666FF", "tint": 0.3}}, + "number_format": {"format_code": "0.00"}, + "protection": {"locked": True, "hidden": False}, + } + + font_color = styles.Color("00FF0000") + font = styles.Font(bold=True, color=font_color) + side = styles.Side(style=styles.borders.BORDER_THIN) + border = styles.Border(top=side, right=side, bottom=side, left=side) + alignment = styles.Alignment(horizontal="center", vertical="top") + fill_color = styles.Color(rgb="006666FF", tint=0.3) + fill = styles.PatternFill(patternType="solid", fgColor=fill_color) + + number_format = "0.00" + + protection = styles.Protection(locked=True, hidden=False) + + kw = _OpenpyxlWriter._convert_to_style_kwargs(hstyle) + assert kw["font"] == font + assert kw["border"] == border + assert kw["alignment"] == alignment + assert kw["fill"] == fill + assert kw["number_format"] == number_format + assert kw["protection"] == protection + + +def test_write_cells_merge_styled(ext): + from pandas.io.formats.excel import ExcelCell + + sheet_name = "merge_styled" + + sty_b1 = {"font": {"color": "00FF0000"}} + sty_a2 = {"font": {"color": "0000FF00"}} + + initial_cells = [ + ExcelCell(col=1, row=0, val=42, style=sty_b1), + ExcelCell(col=0, row=1, val=99, style=sty_a2), + ] + + sty_merged = {"font": {"color": "000000FF", "bold": True}} + sty_kwargs = _OpenpyxlWriter._convert_to_style_kwargs(sty_merged) + openpyxl_sty_merged = sty_kwargs["font"] + merge_cells = [ + ExcelCell( + col=0, row=0, val="pandas", mergestart=1, mergeend=1, style=sty_merged + ) + ] + + with tm.ensure_clean(ext) as path: + with _OpenpyxlWriter(path) as writer: + writer._write_cells(initial_cells, sheet_name=sheet_name) + writer._write_cells(merge_cells, sheet_name=sheet_name) + + wks = writer.sheets[sheet_name] + xcell_b1 = wks["B1"] + xcell_a2 = wks["A2"] + assert xcell_b1.font == openpyxl_sty_merged + assert xcell_a2.font == openpyxl_sty_merged + + +@pytest.mark.parametrize("iso_dates", [True, False]) +def test_engine_kwargs_write(ext, iso_dates): + # GH 42286 GH 43445 + engine_kwargs = {"iso_dates": iso_dates} + with tm.ensure_clean(ext) as f: + with ExcelWriter(f, engine="openpyxl", engine_kwargs=engine_kwargs) as writer: + assert writer.book.iso_dates == iso_dates + # ExcelWriter won't allow us to close without writing something + DataFrame().to_excel(writer) + + +def test_engine_kwargs_append_invalid(ext): + # GH 43445 + # test whether an invalid engine kwargs actually raises + with tm.ensure_clean(ext) as f: + DataFrame(["hello", "world"]).to_excel(f) + with pytest.raises( + TypeError, + match=re.escape( + "load_workbook() got an unexpected keyword argument 'apple_banana'" + ), + ): + with ExcelWriter( + f, engine="openpyxl", mode="a", engine_kwargs={"apple_banana": "fruit"} + ) as writer: + # ExcelWriter needs us to write something to close properly + DataFrame(["good"]).to_excel(writer, sheet_name="Sheet2") + + +@pytest.mark.parametrize("data_only, expected", [(True, 0), (False, "=1+1")]) +def test_engine_kwargs_append_data_only(ext, data_only, expected): + # GH 43445 + # tests whether the data_only engine_kwarg actually works well for + # openpyxl's load_workbook + with tm.ensure_clean(ext) as f: + DataFrame(["=1+1"]).to_excel(f) + with ExcelWriter( + f, engine="openpyxl", mode="a", engine_kwargs={"data_only": data_only} + ) as writer: + assert writer.sheets["Sheet1"]["B2"].value == expected + # ExcelWriter needs us to writer something to close properly? + DataFrame().to_excel(writer, sheet_name="Sheet2") + + # ensure that data_only also works for reading + # and that formulas/values roundtrip + assert ( + pd.read_excel( + f, + sheet_name="Sheet1", + engine="openpyxl", + engine_kwargs={"data_only": data_only}, + ).iloc[0, 1] + == expected + ) + + +@pytest.mark.parametrize("kwarg_name", ["read_only", "data_only"]) +@pytest.mark.parametrize("kwarg_value", [True, False]) +def test_engine_kwargs_append_reader(datapath, ext, kwarg_name, kwarg_value): + # GH 55027 + # test that `read_only` and `data_only` can be passed to + # `openpyxl.reader.excel.load_workbook` via `engine_kwargs` + filename = datapath("io", "data", "excel", "test1" + ext) + with contextlib.closing( + OpenpyxlReader(filename, engine_kwargs={kwarg_name: kwarg_value}) + ) as reader: + assert getattr(reader.book, kwarg_name) == kwarg_value + + +@pytest.mark.parametrize( + "mode,expected", [("w", ["baz"]), ("a", ["foo", "bar", "baz"])] +) +def test_write_append_mode(ext, mode, expected): + df = DataFrame([1], columns=["baz"]) + + with tm.ensure_clean(ext) as f: + wb = openpyxl.Workbook() + wb.worksheets[0].title = "foo" + wb.worksheets[0]["A1"].value = "foo" + wb.create_sheet("bar") + wb.worksheets[1]["A1"].value = "bar" + wb.save(f) + + with ExcelWriter(f, engine="openpyxl", mode=mode) as writer: + df.to_excel(writer, sheet_name="baz", index=False) + + with contextlib.closing(openpyxl.load_workbook(f)) as wb2: + result = [sheet.title for sheet in wb2.worksheets] + assert result == expected + + for index, cell_value in enumerate(expected): + assert wb2.worksheets[index]["A1"].value == cell_value + + +@pytest.mark.parametrize( + "if_sheet_exists,num_sheets,expected", + [ + ("new", 2, ["apple", "banana"]), + ("replace", 1, ["pear"]), + ("overlay", 1, ["pear", "banana"]), + ], +) +def test_if_sheet_exists_append_modes(ext, if_sheet_exists, num_sheets, expected): + # GH 40230 + df1 = DataFrame({"fruit": ["apple", "banana"]}) + df2 = DataFrame({"fruit": ["pear"]}) + + with tm.ensure_clean(ext) as f: + df1.to_excel(f, engine="openpyxl", sheet_name="foo", index=False) + with ExcelWriter( + f, engine="openpyxl", mode="a", if_sheet_exists=if_sheet_exists + ) as writer: + df2.to_excel(writer, sheet_name="foo", index=False) + + with contextlib.closing(openpyxl.load_workbook(f)) as wb: + assert len(wb.sheetnames) == num_sheets + assert wb.sheetnames[0] == "foo" + result = pd.read_excel(wb, "foo", engine="openpyxl") + assert list(result["fruit"]) == expected + if len(wb.sheetnames) == 2: + result = pd.read_excel(wb, wb.sheetnames[1], engine="openpyxl") + tm.assert_frame_equal(result, df2) + + +@pytest.mark.parametrize( + "startrow, startcol, greeting, goodbye", + [ + (0, 0, ["poop", "world"], ["goodbye", "people"]), + (0, 1, ["hello", "world"], ["poop", "people"]), + (1, 0, ["hello", "poop"], ["goodbye", "people"]), + (1, 1, ["hello", "world"], ["goodbye", "poop"]), + ], +) +def test_append_overlay_startrow_startcol(ext, startrow, startcol, greeting, goodbye): + df1 = DataFrame({"greeting": ["hello", "world"], "goodbye": ["goodbye", "people"]}) + df2 = DataFrame(["poop"]) + + with tm.ensure_clean(ext) as f: + df1.to_excel(f, engine="openpyxl", sheet_name="poo", index=False) + with ExcelWriter( + f, engine="openpyxl", mode="a", if_sheet_exists="overlay" + ) as writer: + # use startrow+1 because we don't have a header + df2.to_excel( + writer, + index=False, + header=False, + startrow=startrow + 1, + startcol=startcol, + sheet_name="poo", + ) + + result = pd.read_excel(f, sheet_name="poo", engine="openpyxl") + expected = DataFrame({"greeting": greeting, "goodbye": goodbye}) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "if_sheet_exists,msg", + [ + ( + "invalid", + "'invalid' is not valid for if_sheet_exists. Valid options " + "are 'error', 'new', 'replace' and 'overlay'.", + ), + ( + "error", + "Sheet 'foo' already exists and if_sheet_exists is set to 'error'.", + ), + ( + None, + "Sheet 'foo' already exists and if_sheet_exists is set to 'error'.", + ), + ], +) +def test_if_sheet_exists_raises(ext, if_sheet_exists, msg): + # GH 40230 + df = DataFrame({"fruit": ["pear"]}) + with tm.ensure_clean(ext) as f: + with pytest.raises(ValueError, match=re.escape(msg)): + df.to_excel(f, sheet_name="foo", engine="openpyxl") + with ExcelWriter( + f, engine="openpyxl", mode="a", if_sheet_exists=if_sheet_exists + ) as writer: + df.to_excel(writer, sheet_name="foo") + + +def test_to_excel_with_openpyxl_engine(ext): + # GH 29854 + with tm.ensure_clean(ext) as filename: + df1 = DataFrame({"A": np.linspace(1, 10, 10)}) + df2 = DataFrame({"B": np.linspace(1, 20, 10)}) + df = pd.concat([df1, df2], axis=1) + styled = df.style.map( + lambda val: f"color: {'red' if val < 0 else 'black'}" + ).highlight_max() + + styled.to_excel(filename, engine="openpyxl") + + +@pytest.mark.parametrize("read_only", [True, False]) +def test_read_workbook(datapath, ext, read_only): + # GH 39528 + filename = datapath("io", "data", "excel", "test1" + ext) + with contextlib.closing( + openpyxl.load_workbook(filename, read_only=read_only) + ) as wb: + result = pd.read_excel(wb, engine="openpyxl") + expected = pd.read_excel(filename) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "header, expected_data", + [ + ( + 0, + { + "Title": [np.nan, "A", 1, 2, 3], + "Unnamed: 1": [np.nan, "B", 4, 5, 6], + "Unnamed: 2": [np.nan, "C", 7, 8, 9], + }, + ), + (2, {"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}), + ], +) +@pytest.mark.parametrize( + "filename", ["dimension_missing", "dimension_small", "dimension_large"] +) +# When read_only is None, use read_excel instead of a workbook +@pytest.mark.parametrize("read_only", [True, False, None]) +def test_read_with_bad_dimension( + datapath, ext, header, expected_data, filename, read_only +): + # GH 38956, 39001 - no/incorrect dimension information + path = datapath("io", "data", "excel", f"{filename}{ext}") + if read_only is None: + result = pd.read_excel(path, header=header) + else: + with contextlib.closing( + openpyxl.load_workbook(path, read_only=read_only) + ) as wb: + result = pd.read_excel(wb, engine="openpyxl", header=header) + expected = DataFrame(expected_data) + tm.assert_frame_equal(result, expected) + + +def test_append_mode_file(ext): + # GH 39576 + df = DataFrame() + + with tm.ensure_clean(ext) as f: + df.to_excel(f, engine="openpyxl") + + with ExcelWriter( + f, mode="a", engine="openpyxl", if_sheet_exists="new" + ) as writer: + df.to_excel(writer) + + # make sure that zip files are not concatenated by making sure that + # "docProps/app.xml" only occurs twice in the file + data = Path(f).read_bytes() + first = data.find(b"docProps/app.xml") + second = data.find(b"docProps/app.xml", first + 1) + third = data.find(b"docProps/app.xml", second + 1) + assert second != -1 and third == -1 + + +# When read_only is None, use read_excel instead of a workbook +@pytest.mark.parametrize("read_only", [True, False, None]) +def test_read_with_empty_trailing_rows(datapath, ext, read_only): + # GH 39181 + path = datapath("io", "data", "excel", f"empty_trailing_rows{ext}") + if read_only is None: + result = pd.read_excel(path) + else: + with contextlib.closing( + openpyxl.load_workbook(path, read_only=read_only) + ) as wb: + result = pd.read_excel(wb, engine="openpyxl") + expected = DataFrame( + { + "Title": [np.nan, "A", 1, 2, 3], + "Unnamed: 1": [np.nan, "B", 4, 5, 6], + "Unnamed: 2": [np.nan, "C", 7, 8, 9], + } + ) + tm.assert_frame_equal(result, expected) + + +# When read_only is None, use read_excel instead of a workbook +@pytest.mark.parametrize("read_only", [True, False, None]) +def test_read_empty_with_blank_row(datapath, ext, read_only): + # GH 39547 - empty excel file with a row that has no data + path = datapath("io", "data", "excel", f"empty_with_blank_row{ext}") + if read_only is None: + result = pd.read_excel(path) + else: + with contextlib.closing( + openpyxl.load_workbook(path, read_only=read_only) + ) as wb: + result = pd.read_excel(wb, engine="openpyxl") + expected = DataFrame() + tm.assert_frame_equal(result, expected) + + +def test_book_and_sheets_consistent(ext): + # GH#45687 - Ensure sheets is updated if user modifies book + with tm.ensure_clean(ext) as f: + with ExcelWriter(f, engine="openpyxl") as writer: + assert writer.sheets == {} + sheet = writer.book.create_sheet("test_name", 0) + assert writer.sheets == {"test_name": sheet} + + +def test_ints_spelled_with_decimals(datapath, ext): + # GH 46988 - openpyxl returns this sheet with floats + path = datapath("io", "data", "excel", f"ints_spelled_with_decimals{ext}") + result = pd.read_excel(path) + expected = DataFrame(range(2, 12), columns=[1]) + tm.assert_frame_equal(result, expected) + + +def test_read_multiindex_header_no_index_names(datapath, ext): + # GH#47487 + path = datapath("io", "data", "excel", f"multiindex_no_index_names{ext}") + result = pd.read_excel(path, index_col=[0, 1, 2], header=[0, 1, 2]) + expected = DataFrame( + [[np.nan, "x", "x", "x"], ["x", np.nan, np.nan, np.nan]], + columns=pd.MultiIndex.from_tuples( + [("X", "Y", "A1"), ("X", "Y", "A2"), ("XX", "YY", "B1"), ("XX", "YY", "B2")] + ), + index=pd.MultiIndex.from_tuples([("A", "AA", "AAA"), ("A", "BB", "BBB")]), + ) + tm.assert_frame_equal(result, expected) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_readers.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_readers.py new file mode 100644 index 0000000000000000000000000000000000000000..c62144adbaecbdd445a4171896e9ca2905f13205 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_readers.py @@ -0,0 +1,1735 @@ +from __future__ import annotations + +from datetime import ( + datetime, + time, +) +from functools import partial +from io import BytesIO +import os +from pathlib import Path +import platform +import re +from urllib.error import URLError +from zipfile import BadZipFile + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + Series, + read_csv, +) +import pandas._testing as tm + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + +read_ext_params = [".xls", ".xlsx", ".xlsm", ".xlsb", ".ods"] +engine_params = [ + # Add any engines to test here + # When defusedxml is installed it triggers deprecation warnings for + # xlrd and openpyxl, so catch those here + pytest.param( + "xlrd", + marks=[ + td.skip_if_no("xlrd"), + ], + ), + pytest.param( + "openpyxl", + marks=[ + td.skip_if_no("openpyxl"), + ], + ), + pytest.param( + None, + marks=[ + td.skip_if_no("xlrd"), + ], + ), + pytest.param("pyxlsb", marks=td.skip_if_no("pyxlsb")), + pytest.param("odf", marks=td.skip_if_no("odf")), + pytest.param("calamine", marks=td.skip_if_no("python_calamine")), +] + + +def _is_valid_engine_ext_pair(engine, read_ext: str) -> bool: + """ + Filter out invalid (engine, ext) pairs instead of skipping, as that + produces 500+ pytest.skips. + """ + engine = engine.values[0] + if engine == "openpyxl" and read_ext == ".xls": + return False + if engine == "odf" and read_ext != ".ods": + return False + if read_ext == ".ods" and engine not in {"odf", "calamine"}: + return False + if engine == "pyxlsb" and read_ext != ".xlsb": + return False + if read_ext == ".xlsb" and engine not in {"pyxlsb", "calamine"}: + return False + if engine == "xlrd" and read_ext != ".xls": + return False + return True + + +def _transfer_marks(engine, read_ext): + """ + engine gives us a pytest.param object with some marks, read_ext is just + a string. We need to generate a new pytest.param inheriting the marks. + """ + values = engine.values + (read_ext,) + new_param = pytest.param(values, marks=engine.marks) + return new_param + + +@pytest.fixture( + params=[ + _transfer_marks(eng, ext) + for eng in engine_params + for ext in read_ext_params + if _is_valid_engine_ext_pair(eng, ext) + ], + ids=str, +) +def engine_and_read_ext(request): + """ + Fixture for Excel reader engine and read_ext, only including valid pairs. + """ + return request.param + + +@pytest.fixture +def engine(engine_and_read_ext): + engine, read_ext = engine_and_read_ext + return engine + + +@pytest.fixture +def read_ext(engine_and_read_ext): + engine, read_ext = engine_and_read_ext + return read_ext + + +@pytest.fixture +def df_ref(datapath): + """ + Obtain the reference data from read_csv with the Python engine. + """ + filepath = datapath("io", "data", "csv", "test1.csv") + df_ref = read_csv(filepath, index_col=0, parse_dates=True, engine="python") + return df_ref + + +def get_exp_unit(read_ext: str, engine: str | None) -> str: + return "ns" + + +def adjust_expected(expected: DataFrame, read_ext: str, engine: str) -> None: + expected.index.name = None + unit = get_exp_unit(read_ext, engine) + # error: "Index" has no attribute "as_unit" + expected.index = expected.index.as_unit(unit) # type: ignore[attr-defined] + + +def xfail_datetimes_with_pyxlsb(engine, request): + if engine == "pyxlsb": + request.applymarker( + pytest.mark.xfail( + reason="Sheets containing datetimes not supported by pyxlsb" + ) + ) + + +class TestReaders: + @pytest.fixture(autouse=True) + def cd_and_set_engine(self, engine, datapath, monkeypatch): + """ + Change directory and set engine for read_excel calls. + """ + func = partial(pd.read_excel, engine=engine) + monkeypatch.chdir(datapath("io", "data", "excel")) + monkeypatch.setattr(pd, "read_excel", func) + + def test_engine_used(self, read_ext, engine, monkeypatch): + # GH 38884 + def parser(self, *args, **kwargs): + return self.engine + + monkeypatch.setattr(pd.ExcelFile, "parse", parser) + + expected_defaults = { + "xlsx": "openpyxl", + "xlsm": "openpyxl", + "xlsb": "pyxlsb", + "xls": "xlrd", + "ods": "odf", + } + + with open("test1" + read_ext, "rb") as f: + result = pd.read_excel(f) + + if engine is not None: + expected = engine + else: + expected = expected_defaults[read_ext[1:]] + assert result == expected + + def test_engine_kwargs(self, read_ext, engine): + # GH#52214 + expected_defaults = { + "xlsx": {"foo": "abcd"}, + "xlsm": {"foo": 123}, + "xlsb": {"foo": "True"}, + "xls": {"foo": True}, + "ods": {"foo": "abcd"}, + } + + if engine in {"xlrd", "pyxlsb"}: + msg = re.escape(r"open_workbook() got an unexpected keyword argument 'foo'") + elif engine == "odf": + msg = re.escape(r"load() got an unexpected keyword argument 'foo'") + else: + msg = re.escape(r"load_workbook() got an unexpected keyword argument 'foo'") + + if engine is not None: + with pytest.raises(TypeError, match=msg): + pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet1", + index_col=0, + engine_kwargs=expected_defaults[read_ext[1:]], + ) + + def test_usecols_int(self, read_ext): + # usecols as int + msg = "Passing an integer for `usecols`" + with pytest.raises(ValueError, match=msg): + pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols=3 + ) + + # usecols as int + with pytest.raises(ValueError, match=msg): + pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet2", + skiprows=[1], + index_col=0, + usecols=3, + ) + + def test_usecols_list(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref[["B", "C"]] + adjust_expected(expected, read_ext, engine) + + df1 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols=[0, 2, 3] + ) + df2 = pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet2", + skiprows=[1], + index_col=0, + usecols=[0, 2, 3], + ) + + # TODO add index to xls file) + tm.assert_frame_equal(df1, expected) + tm.assert_frame_equal(df2, expected) + + def test_usecols_str(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref[["A", "B", "C"]] + adjust_expected(expected, read_ext, engine) + + df2 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols="A:D" + ) + df3 = pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet2", + skiprows=[1], + index_col=0, + usecols="A:D", + ) + + # TODO add index to xls, read xls ignores index name ? + tm.assert_frame_equal(df2, expected) + tm.assert_frame_equal(df3, expected) + + expected = df_ref[["B", "C"]] + adjust_expected(expected, read_ext, engine) + + df2 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols="A,C,D" + ) + df3 = pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet2", + skiprows=[1], + index_col=0, + usecols="A,C,D", + ) + # TODO add index to xls file + tm.assert_frame_equal(df2, expected) + tm.assert_frame_equal(df3, expected) + + df2 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols="A,C:D" + ) + df3 = pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet2", + skiprows=[1], + index_col=0, + usecols="A,C:D", + ) + tm.assert_frame_equal(df2, expected) + tm.assert_frame_equal(df3, expected) + + @pytest.mark.parametrize( + "usecols", [[0, 1, 3], [0, 3, 1], [1, 0, 3], [1, 3, 0], [3, 0, 1], [3, 1, 0]] + ) + def test_usecols_diff_positional_int_columns_order( + self, request, engine, read_ext, usecols, df_ref + ): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref[["A", "C"]] + adjust_expected(expected, read_ext, engine) + + result = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols=usecols + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("usecols", [["B", "D"], ["D", "B"]]) + def test_usecols_diff_positional_str_columns_order(self, read_ext, usecols, df_ref): + expected = df_ref[["B", "D"]] + expected.index = range(len(expected)) + + result = pd.read_excel("test1" + read_ext, sheet_name="Sheet1", usecols=usecols) + tm.assert_frame_equal(result, expected) + + def test_read_excel_without_slicing(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref + adjust_expected(expected, read_ext, engine) + + result = pd.read_excel("test1" + read_ext, sheet_name="Sheet1", index_col=0) + tm.assert_frame_equal(result, expected) + + def test_usecols_excel_range_str(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref[["C", "D"]] + adjust_expected(expected, read_ext, engine) + + result = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, usecols="A,D:E" + ) + tm.assert_frame_equal(result, expected) + + def test_usecols_excel_range_str_invalid(self, read_ext): + msg = "Invalid column name: E1" + + with pytest.raises(ValueError, match=msg): + pd.read_excel("test1" + read_ext, sheet_name="Sheet1", usecols="D:E1") + + def test_index_col_label_error(self, read_ext): + msg = "list indices must be integers.*, not str" + + with pytest.raises(TypeError, match=msg): + pd.read_excel( + "test1" + read_ext, + sheet_name="Sheet1", + index_col=["A"], + usecols=["A", "C"], + ) + + def test_index_col_str(self, read_ext): + # see gh-52716 + result = pd.read_excel("test1" + read_ext, sheet_name="Sheet3", index_col="A") + expected = DataFrame( + columns=["B", "C", "D", "E", "F"], index=Index([], name="A") + ) + tm.assert_frame_equal(result, expected) + + def test_index_col_empty(self, read_ext): + # see gh-9208 + result = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet3", index_col=["A", "B", "C"] + ) + expected = DataFrame( + columns=["D", "E", "F"], + index=MultiIndex(levels=[[]] * 3, codes=[[]] * 3, names=["A", "B", "C"]), + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("index_col", [None, 2]) + def test_index_col_with_unnamed(self, read_ext, index_col): + # see gh-18792 + result = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet4", index_col=index_col + ) + expected = DataFrame( + [["i1", "a", "x"], ["i2", "b", "y"]], columns=["Unnamed: 0", "col1", "col2"] + ) + if index_col: + expected = expected.set_index(expected.columns[index_col]) + + tm.assert_frame_equal(result, expected) + + def test_usecols_pass_non_existent_column(self, read_ext): + msg = ( + "Usecols do not match columns, " + "columns expected but not found: " + r"\['E'\]" + ) + + with pytest.raises(ValueError, match=msg): + pd.read_excel("test1" + read_ext, usecols=["E"]) + + def test_usecols_wrong_type(self, read_ext): + msg = ( + "'usecols' must either be list-like of " + "all strings, all unicode, all integers or a callable." + ) + + with pytest.raises(ValueError, match=msg): + pd.read_excel("test1" + read_ext, usecols=["E1", 0]) + + def test_excel_stop_iterator(self, read_ext): + parsed = pd.read_excel("test2" + read_ext, sheet_name="Sheet1") + expected = DataFrame([["aaaa", "bbbbb"]], columns=["Test", "Test1"]) + tm.assert_frame_equal(parsed, expected) + + def test_excel_cell_error_na(self, request, engine, read_ext): + xfail_datetimes_with_pyxlsb(engine, request) + + # https://github.com/tafia/calamine/issues/355 + if engine == "calamine" and read_ext == ".ods": + request.applymarker( + pytest.mark.xfail(reason="Calamine can't extract error from ods files") + ) + + parsed = pd.read_excel("test3" + read_ext, sheet_name="Sheet1") + expected = DataFrame([[np.nan]], columns=["Test"]) + tm.assert_frame_equal(parsed, expected) + + def test_excel_table(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref + adjust_expected(expected, read_ext, engine) + + df1 = pd.read_excel("test1" + read_ext, sheet_name="Sheet1", index_col=0) + df2 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet2", skiprows=[1], index_col=0 + ) + # TODO add index to file + tm.assert_frame_equal(df1, expected) + tm.assert_frame_equal(df2, expected) + + df3 = pd.read_excel( + "test1" + read_ext, sheet_name="Sheet1", index_col=0, skipfooter=1 + ) + tm.assert_frame_equal(df3, df1.iloc[:-1]) + + def test_reader_special_dtypes(self, request, engine, read_ext): + xfail_datetimes_with_pyxlsb(engine, request) + + unit = get_exp_unit(read_ext, engine) + expected = DataFrame.from_dict( + { + "IntCol": [1, 2, -3, 4, 0], + "FloatCol": [1.25, 2.25, 1.83, 1.92, 0.0000000005], + "BoolCol": [True, False, True, True, False], + "StrCol": [1, 2, 3, 4, 5], + "Str2Col": ["a", 3, "c", "d", "e"], + "DateCol": Index( + [ + datetime(2013, 10, 30), + datetime(2013, 10, 31), + datetime(1905, 1, 1), + datetime(2013, 12, 14), + datetime(2015, 3, 14), + ], + dtype=f"M8[{unit}]", + ), + }, + ) + basename = "test_types" + + # should read in correctly and infer types + actual = pd.read_excel(basename + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, expected) + + # if not coercing number, then int comes in as float + float_expected = expected.copy() + float_expected.loc[float_expected.index[1], "Str2Col"] = 3.0 + actual = pd.read_excel(basename + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, float_expected) + + # check setting Index (assuming xls and xlsx are the same here) + for icol, name in enumerate(expected.columns): + actual = pd.read_excel( + basename + read_ext, sheet_name="Sheet1", index_col=icol + ) + exp = expected.set_index(name) + tm.assert_frame_equal(actual, exp) + + expected["StrCol"] = expected["StrCol"].apply(str) + actual = pd.read_excel( + basename + read_ext, sheet_name="Sheet1", converters={"StrCol": str} + ) + tm.assert_frame_equal(actual, expected) + + # GH8212 - support for converters and missing values + def test_reader_converters(self, read_ext): + basename = "test_converters" + + expected = DataFrame.from_dict( + { + "IntCol": [1, 2, -3, -1000, 0], + "FloatCol": [12.5, np.nan, 18.3, 19.2, 0.000000005], + "BoolCol": ["Found", "Found", "Found", "Not found", "Found"], + "StrCol": ["1", np.nan, "3", "4", "5"], + } + ) + + converters = { + "IntCol": lambda x: int(x) if x != "" else -1000, + "FloatCol": lambda x: 10 * x if x else np.nan, + 2: lambda x: "Found" if x != "" else "Not found", + 3: lambda x: str(x) if x else "", + } + + # should read in correctly and set types of single cells (not array + # dtypes) + actual = pd.read_excel( + basename + read_ext, sheet_name="Sheet1", converters=converters + ) + tm.assert_frame_equal(actual, expected) + + def test_reader_dtype(self, read_ext): + # GH 8212 + basename = "testdtype" + actual = pd.read_excel(basename + read_ext) + + expected = DataFrame( + { + "a": [1, 2, 3, 4], + "b": [2.5, 3.5, 4.5, 5.5], + "c": [1, 2, 3, 4], + "d": [1.0, 2.0, np.nan, 4.0], + } + ) + + tm.assert_frame_equal(actual, expected) + + actual = pd.read_excel( + basename + read_ext, dtype={"a": "float64", "b": "float32", "c": str} + ) + + expected["a"] = expected["a"].astype("float64") + expected["b"] = expected["b"].astype("float32") + expected["c"] = Series(["001", "002", "003", "004"], dtype="str") + tm.assert_frame_equal(actual, expected) + + msg = "Unable to convert column d to type int64" + with pytest.raises(ValueError, match=msg): + pd.read_excel(basename + read_ext, dtype={"d": "int64"}) + + @pytest.mark.parametrize( + "dtype,expected", + [ + ( + None, + DataFrame( + { + "a": [1, 2, 3, 4], + "b": [2.5, 3.5, 4.5, 5.5], + "c": [1, 2, 3, 4], + "d": [1.0, 2.0, np.nan, 4.0], + } + ), + ), + ( + {"a": "float64", "b": "float32", "c": str, "d": str}, + DataFrame( + { + "a": Series([1, 2, 3, 4], dtype="float64"), + "b": Series([2.5, 3.5, 4.5, 5.5], dtype="float32"), + "c": Series(["001", "002", "003", "004"], dtype="str"), + "d": Series(["1", "2", np.nan, "4"], dtype="str"), + }, + ), + ), + ], + ) + def test_reader_dtype_str(self, read_ext, dtype, expected): + # see gh-20377 + basename = "testdtype" + + actual = pd.read_excel(basename + read_ext, dtype=dtype) + tm.assert_frame_equal(actual, expected) + + def test_dtype_backend(self, read_ext, dtype_backend, engine): + # GH#36712 + if read_ext in (".xlsb", ".xls"): + pytest.skip(f"No engine for filetype: '{read_ext}'") + + df = DataFrame( + { + "a": Series([1, 3], dtype="Int64"), + "b": Series([2.5, 4.5], dtype="Float64"), + "c": Series([True, False], dtype="boolean"), + "d": Series(["a", "b"], dtype="string"), + "e": Series([pd.NA, 6], dtype="Int64"), + "f": Series([pd.NA, 7.5], dtype="Float64"), + "g": Series([pd.NA, True], dtype="boolean"), + "h": Series([pd.NA, "a"], dtype="string"), + "i": Series([pd.Timestamp("2019-12-31")] * 2), + "j": Series([pd.NA, pd.NA], dtype="Int64"), + } + ) + with tm.ensure_clean(read_ext) as file_path: + df.to_excel(file_path, sheet_name="test", index=False) + result = pd.read_excel( + file_path, sheet_name="test", dtype_backend=dtype_backend + ) + if dtype_backend == "pyarrow": + import pyarrow as pa + + from pandas.arrays import ArrowExtensionArray + + expected = DataFrame( + { + col: ArrowExtensionArray(pa.array(df[col], from_pandas=True)) + for col in df.columns + } + ) + # pyarrow by default infers timestamp resolution as us, not ns + expected["i"] = ArrowExtensionArray( + expected["i"].array._pa_array.cast(pa.timestamp(unit="us")) + ) + # pyarrow supports a null type, so don't have to default to Int64 + expected["j"] = ArrowExtensionArray(pa.array([None, None])) + else: + expected = df + unit = get_exp_unit(read_ext, engine) + expected["i"] = expected["i"].astype(f"M8[{unit}]") + + tm.assert_frame_equal(result, expected) + + def test_dtype_backend_and_dtype(self, read_ext): + # GH#36712 + if read_ext in (".xlsb", ".xls"): + pytest.skip(f"No engine for filetype: '{read_ext}'") + + df = DataFrame({"a": [np.nan, 1.0], "b": [2.5, np.nan]}) + with tm.ensure_clean(read_ext) as file_path: + df.to_excel(file_path, sheet_name="test", index=False) + result = pd.read_excel( + file_path, + sheet_name="test", + dtype_backend="numpy_nullable", + dtype="float64", + ) + tm.assert_frame_equal(result, df) + + def test_dtype_backend_string(self, read_ext, string_storage): + # GH#36712 + if read_ext in (".xlsb", ".xls"): + pytest.skip(f"No engine for filetype: '{read_ext}'") + + with pd.option_context("mode.string_storage", string_storage): + df = DataFrame( + { + "a": np.array(["a", "b"], dtype=np.object_), + "b": np.array(["x", pd.NA], dtype=np.object_), + } + ) + + with tm.ensure_clean(read_ext) as file_path: + df.to_excel(file_path, sheet_name="test", index=False) + result = pd.read_excel( + file_path, sheet_name="test", dtype_backend="numpy_nullable" + ) + + expected = DataFrame( + { + "a": Series(["a", "b"], dtype=pd.StringDtype(string_storage)), + "b": Series(["x", None], dtype=pd.StringDtype(string_storage)), + } + ) + # the storage of the str columns' Index is also affected by the + # string_storage setting -> ignore that for checking the result + tm.assert_frame_equal(result, expected, check_column_type=False) + + @pytest.mark.parametrize("dtypes, exp_value", [({}, 1), ({"a.1": "int64"}, 1)]) + def test_dtype_mangle_dup_cols(self, read_ext, dtypes, exp_value): + # GH#35211 + basename = "df_mangle_dup_col_dtypes" + dtype_dict = {"a": object, **dtypes} + dtype_dict_copy = dtype_dict.copy() + # GH#42462 + result = pd.read_excel(basename + read_ext, dtype=dtype_dict) + expected = DataFrame( + { + "a": Series([1], dtype=object), + "a.1": Series([exp_value], dtype=object if not dtypes else None), + } + ) + assert dtype_dict == dtype_dict_copy, "dtype dict changed" + tm.assert_frame_equal(result, expected) + + def test_reader_spaces(self, read_ext): + # see gh-32207 + basename = "test_spaces" + + actual = pd.read_excel(basename + read_ext) + expected = DataFrame( + { + "testcol": [ + "this is great", + "4 spaces", + "1 trailing ", + " 1 leading", + "2 spaces multiple times", + ] + } + ) + tm.assert_frame_equal(actual, expected) + + # gh-36122, gh-35802 + @pytest.mark.parametrize( + "basename,expected", + [ + ("gh-35802", DataFrame({"COLUMN": ["Test (1)"]})), + ("gh-36122", DataFrame(columns=["got 2nd sa"])), + ], + ) + def test_read_excel_ods_nested_xml(self, engine, read_ext, basename, expected): + # see gh-35802 + if engine != "odf": + pytest.skip(f"Skipped for engine: {engine}") + + actual = pd.read_excel(basename + read_ext) + tm.assert_frame_equal(actual, expected) + + def test_reading_all_sheets(self, read_ext): + # Test reading all sheet names by setting sheet_name to None, + # Ensure a dict is returned. + # See PR #9450 + basename = "test_multisheet" + dfs = pd.read_excel(basename + read_ext, sheet_name=None) + # ensure this is not alphabetical to test order preservation + expected_keys = ["Charlie", "Alpha", "Beta"] + tm.assert_contains_all(expected_keys, dfs.keys()) + # Issue 9930 + # Ensure sheet order is preserved + assert expected_keys == list(dfs.keys()) + + def test_reading_multiple_specific_sheets(self, read_ext): + # Test reading specific sheet names by specifying a mixed list + # of integers and strings, and confirm that duplicated sheet + # references (positions/names) are removed properly. + # Ensure a dict is returned + # See PR #9450 + basename = "test_multisheet" + # Explicitly request duplicates. Only the set should be returned. + expected_keys = [2, "Charlie", "Charlie"] + dfs = pd.read_excel(basename + read_ext, sheet_name=expected_keys) + expected_keys = list(set(expected_keys)) + tm.assert_contains_all(expected_keys, dfs.keys()) + assert len(expected_keys) == len(dfs.keys()) + + def test_reading_all_sheets_with_blank(self, read_ext): + # Test reading all sheet names by setting sheet_name to None, + # In the case where some sheets are blank. + # Issue #11711 + basename = "blank_with_header" + dfs = pd.read_excel(basename + read_ext, sheet_name=None) + expected_keys = ["Sheet1", "Sheet2", "Sheet3"] + tm.assert_contains_all(expected_keys, dfs.keys()) + + # GH6403 + def test_read_excel_blank(self, read_ext): + actual = pd.read_excel("blank" + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, DataFrame()) + + def test_read_excel_blank_with_header(self, read_ext): + expected = DataFrame(columns=["col_1", "col_2"]) + actual = pd.read_excel("blank_with_header" + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, expected) + + def test_exception_message_includes_sheet_name(self, read_ext): + # GH 48706 + with pytest.raises(ValueError, match=r" \(sheet: Sheet1\)$"): + pd.read_excel("blank_with_header" + read_ext, header=[1], sheet_name=None) + with pytest.raises(ZeroDivisionError, match=r" \(sheet: Sheet1\)$"): + pd.read_excel("test1" + read_ext, usecols=lambda x: 1 / 0, sheet_name=None) + + @pytest.mark.filterwarnings("ignore:Cell A4 is marked:UserWarning:openpyxl") + def test_date_conversion_overflow(self, request, engine, read_ext): + # GH 10001 : pandas.ExcelFile ignore parse_dates=False + xfail_datetimes_with_pyxlsb(engine, request) + + expected = DataFrame( + [ + [pd.Timestamp("2016-03-12"), "Marc Johnson"], + [pd.Timestamp("2016-03-16"), "Jack Black"], + [1e20, "Timothy Brown"], + ], + columns=["DateColWithBigInt", "StringCol"], + ) + + if engine == "openpyxl": + request.applymarker( + pytest.mark.xfail(reason="Maybe not supported by openpyxl") + ) + + if engine is None and read_ext in (".xlsx", ".xlsm"): + # GH 35029 + request.applymarker( + pytest.mark.xfail(reason="Defaults to openpyxl, maybe not supported") + ) + + result = pd.read_excel("testdateoverflow" + read_ext) + tm.assert_frame_equal(result, expected) + + def test_sheet_name(self, request, read_ext, engine, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + filename = "test1" + sheet_name = "Sheet1" + + expected = df_ref + adjust_expected(expected, read_ext, engine) + + df1 = pd.read_excel( + filename + read_ext, sheet_name=sheet_name, index_col=0 + ) # doc + df2 = pd.read_excel(filename + read_ext, index_col=0, sheet_name=sheet_name) + + tm.assert_frame_equal(df1, expected) + tm.assert_frame_equal(df2, expected) + + def test_excel_read_buffer(self, read_ext): + pth = "test1" + read_ext + expected = pd.read_excel(pth, sheet_name="Sheet1", index_col=0) + with open(pth, "rb") as f: + actual = pd.read_excel(f, sheet_name="Sheet1", index_col=0) + tm.assert_frame_equal(expected, actual) + + def test_bad_engine_raises(self): + bad_engine = "foo" + with pytest.raises(ValueError, match="Unknown engine: foo"): + pd.read_excel("", engine=bad_engine) + + @pytest.mark.parametrize( + "sheet_name", + [3, [0, 3], [3, 0], "Sheet4", ["Sheet1", "Sheet4"], ["Sheet4", "Sheet1"]], + ) + def test_bad_sheetname_raises(self, read_ext, sheet_name): + # GH 39250 + msg = "Worksheet index 3 is invalid|Worksheet named 'Sheet4' not found" + with pytest.raises(ValueError, match=msg): + pd.read_excel("blank" + read_ext, sheet_name=sheet_name) + + def test_missing_file_raises(self, read_ext): + bad_file = f"foo{read_ext}" + # CI tests with other languages, translates to "No such file or directory" + match = "|".join( + [ + "(No such file or directory", + "没有那个文件或目录", + "File o directory non esistente)", + ] + ) + with pytest.raises(FileNotFoundError, match=match): + pd.read_excel(bad_file) + + def test_corrupt_bytes_raises(self, engine): + bad_stream = b"foo" + if engine is None: + error = ValueError + msg = ( + "Excel file format cannot be determined, you must " + "specify an engine manually." + ) + elif engine == "xlrd": + from xlrd import XLRDError + + error = XLRDError + msg = ( + "Unsupported format, or corrupt file: Expected BOF " + "record; found b'foo'" + ) + elif engine == "calamine": + from python_calamine import CalamineError + + error = CalamineError + msg = "Cannot detect file format" + else: + error = BadZipFile + msg = "File is not a zip file" + with pytest.raises(error, match=msg): + pd.read_excel(BytesIO(bad_stream)) + + @pytest.mark.network + @pytest.mark.single_cpu + def test_read_from_http_url(self, httpserver, read_ext): + with open("test1" + read_ext, "rb") as f: + httpserver.serve_content(content=f.read()) + url_table = pd.read_excel(httpserver.url) + local_table = pd.read_excel("test1" + read_ext) + tm.assert_frame_equal(url_table, local_table) + + @td.skip_if_not_us_locale + @pytest.mark.single_cpu + def test_read_from_s3_url(self, read_ext, s3_public_bucket, s3so): + # Bucket created in tests/io/conftest.py + with open("test1" + read_ext, "rb") as f: + s3_public_bucket.put_object(Key="test1" + read_ext, Body=f) + + url = f"s3://{s3_public_bucket.name}/test1" + read_ext + + url_table = pd.read_excel(url, storage_options=s3so) + local_table = pd.read_excel("test1" + read_ext) + tm.assert_frame_equal(url_table, local_table) + + @pytest.mark.single_cpu + def test_read_from_s3_object(self, read_ext, s3_public_bucket, s3so): + # GH 38788 + # Bucket created in tests/io/conftest.py + with open("test1" + read_ext, "rb") as f: + s3_public_bucket.put_object(Key="test1" + read_ext, Body=f) + + import s3fs + + s3 = s3fs.S3FileSystem(**s3so) + + with s3.open(f"s3://{s3_public_bucket.name}/test1" + read_ext) as f: + url_table = pd.read_excel(f) + + local_table = pd.read_excel("test1" + read_ext) + tm.assert_frame_equal(url_table, local_table) + + @pytest.mark.slow + def test_read_from_file_url(self, read_ext, datapath): + # FILE + localtable = os.path.join(datapath("io", "data", "excel"), "test1" + read_ext) + local_table = pd.read_excel(localtable) + + try: + url_table = pd.read_excel("file://localhost/" + localtable) + except URLError: + # fails on some systems + platform_info = " ".join(platform.uname()).strip() + pytest.skip(f"failing on {platform_info}") + + tm.assert_frame_equal(url_table, local_table) + + def test_read_from_pathlib_path(self, read_ext): + # GH12655 + str_path = "test1" + read_ext + expected = pd.read_excel(str_path, sheet_name="Sheet1", index_col=0) + + path_obj = Path("test1" + read_ext) + actual = pd.read_excel(path_obj, sheet_name="Sheet1", index_col=0) + + tm.assert_frame_equal(expected, actual) + + @td.skip_if_no("py.path") + def test_read_from_py_localpath(self, read_ext): + # GH12655 + from py.path import local as LocalPath + + str_path = os.path.join("test1" + read_ext) + expected = pd.read_excel(str_path, sheet_name="Sheet1", index_col=0) + + path_obj = LocalPath().join("test1" + read_ext) + actual = pd.read_excel(path_obj, sheet_name="Sheet1", index_col=0) + + tm.assert_frame_equal(expected, actual) + + def test_close_from_py_localpath(self, read_ext): + # GH31467 + str_path = os.path.join("test1" + read_ext) + with open(str_path, "rb") as f: + x = pd.read_excel(f, sheet_name="Sheet1", index_col=0) + del x + # should not throw an exception because the passed file was closed + f.read() + + def test_reader_seconds(self, request, engine, read_ext): + xfail_datetimes_with_pyxlsb(engine, request) + + # GH 55045 + if engine == "calamine" and read_ext == ".ods": + request.applymarker( + pytest.mark.xfail( + reason="ODS file contains bad datetime (seconds as text)" + ) + ) + + # Test reading times with and without milliseconds. GH5945. + expected = DataFrame.from_dict( + { + "Time": [ + time(1, 2, 3), + time(2, 45, 56, 100000), + time(4, 29, 49, 200000), + time(6, 13, 42, 300000), + time(7, 57, 35, 400000), + time(9, 41, 28, 500000), + time(11, 25, 21, 600000), + time(13, 9, 14, 700000), + time(14, 53, 7, 800000), + time(16, 37, 0, 900000), + time(18, 20, 54), + ] + } + ) + + actual = pd.read_excel("times_1900" + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, expected) + + actual = pd.read_excel("times_1904" + read_ext, sheet_name="Sheet1") + tm.assert_frame_equal(actual, expected) + + def test_read_excel_multiindex(self, request, engine, read_ext): + # see gh-4679 + xfail_datetimes_with_pyxlsb(engine, request) + + unit = get_exp_unit(read_ext, engine) + + mi = MultiIndex.from_product([["foo", "bar"], ["a", "b"]]) + mi_file = "testmultiindex" + read_ext + + # "mi_column" sheet + expected = DataFrame( + [ + [1, 2.5, pd.Timestamp("2015-01-01"), True], + [2, 3.5, pd.Timestamp("2015-01-02"), False], + [3, 4.5, pd.Timestamp("2015-01-03"), False], + [4, 5.5, pd.Timestamp("2015-01-04"), True], + ], + columns=mi, + ) + expected[mi[2]] = expected[mi[2]].astype(f"M8[{unit}]") + + actual = pd.read_excel( + mi_file, sheet_name="mi_column", header=[0, 1], index_col=0 + ) + tm.assert_frame_equal(actual, expected) + + # "mi_index" sheet + expected.index = mi + expected.columns = ["a", "b", "c", "d"] + + actual = pd.read_excel(mi_file, sheet_name="mi_index", index_col=[0, 1]) + tm.assert_frame_equal(actual, expected) + + # "both" sheet + expected.columns = mi + + actual = pd.read_excel( + mi_file, sheet_name="both", index_col=[0, 1], header=[0, 1] + ) + tm.assert_frame_equal(actual, expected) + + # "mi_index_name" sheet + expected.columns = ["a", "b", "c", "d"] + expected.index = mi.set_names(["ilvl1", "ilvl2"]) + + actual = pd.read_excel(mi_file, sheet_name="mi_index_name", index_col=[0, 1]) + tm.assert_frame_equal(actual, expected) + + # "mi_column_name" sheet + expected.index = list(range(4)) + expected.columns = mi.set_names(["c1", "c2"]) + actual = pd.read_excel( + mi_file, sheet_name="mi_column_name", header=[0, 1], index_col=0 + ) + tm.assert_frame_equal(actual, expected) + + # see gh-11317 + # "name_with_int" sheet + expected.columns = mi.set_levels([1, 2], level=1).set_names(["c1", "c2"]) + + actual = pd.read_excel( + mi_file, sheet_name="name_with_int", index_col=0, header=[0, 1] + ) + tm.assert_frame_equal(actual, expected) + + # "both_name" sheet + expected.columns = mi.set_names(["c1", "c2"]) + expected.index = mi.set_names(["ilvl1", "ilvl2"]) + + actual = pd.read_excel( + mi_file, sheet_name="both_name", index_col=[0, 1], header=[0, 1] + ) + tm.assert_frame_equal(actual, expected) + + # "both_skiprows" sheet + actual = pd.read_excel( + mi_file, + sheet_name="both_name_skiprows", + index_col=[0, 1], + header=[0, 1], + skiprows=2, + ) + tm.assert_frame_equal(actual, expected) + + @pytest.mark.parametrize( + "sheet_name,idx_lvl2", + [ + ("both_name_blank_after_mi_name", [np.nan, "b", "a", "b"]), + ("both_name_multiple_blanks", [np.nan] * 4), + ], + ) + def test_read_excel_multiindex_blank_after_name( + self, request, engine, read_ext, sheet_name, idx_lvl2 + ): + # GH34673 + xfail_datetimes_with_pyxlsb(engine, request) + + mi_file = "testmultiindex" + read_ext + mi = MultiIndex.from_product([["foo", "bar"], ["a", "b"]], names=["c1", "c2"]) + + unit = get_exp_unit(read_ext, engine) + + expected = DataFrame( + [ + [1, 2.5, pd.Timestamp("2015-01-01"), True], + [2, 3.5, pd.Timestamp("2015-01-02"), False], + [3, 4.5, pd.Timestamp("2015-01-03"), False], + [4, 5.5, pd.Timestamp("2015-01-04"), True], + ], + columns=mi, + index=MultiIndex.from_arrays( + (["foo", "foo", "bar", "bar"], idx_lvl2), + names=["ilvl1", "ilvl2"], + ), + ) + expected[mi[2]] = expected[mi[2]].astype(f"M8[{unit}]") + result = pd.read_excel( + mi_file, + sheet_name=sheet_name, + index_col=[0, 1], + header=[0, 1], + ) + tm.assert_frame_equal(result, expected) + + def test_read_excel_multiindex_header_only(self, read_ext): + # see gh-11733. + # + # Don't try to parse a header name if there isn't one. + mi_file = "testmultiindex" + read_ext + result = pd.read_excel(mi_file, sheet_name="index_col_none", header=[0, 1]) + + exp_columns = MultiIndex.from_product([("A", "B"), ("key", "val")]) + expected = DataFrame([[1, 2, 3, 4]] * 2, columns=exp_columns) + tm.assert_frame_equal(result, expected) + + def test_excel_old_index_format(self, read_ext): + # see gh-4679 + filename = "test_index_name_pre17" + read_ext + + # We detect headers to determine if index names exist, so + # that "index" name in the "names" version of the data will + # now be interpreted as rows that include null data. + data = np.array( + [ + [np.nan, np.nan, np.nan, np.nan, np.nan], + ["R0C0", "R0C1", "R0C2", "R0C3", "R0C4"], + ["R1C0", "R1C1", "R1C2", "R1C3", "R1C4"], + ["R2C0", "R2C1", "R2C2", "R2C3", "R2C4"], + ["R3C0", "R3C1", "R3C2", "R3C3", "R3C4"], + ["R4C0", "R4C1", "R4C2", "R4C3", "R4C4"], + ], + dtype=object, + ) + columns = ["C_l0_g0", "C_l0_g1", "C_l0_g2", "C_l0_g3", "C_l0_g4"] + mi = MultiIndex( + levels=[ + ["R0", "R_l0_g0", "R_l0_g1", "R_l0_g2", "R_l0_g3", "R_l0_g4"], + ["R1", "R_l1_g0", "R_l1_g1", "R_l1_g2", "R_l1_g3", "R_l1_g4"], + ], + codes=[[0, 1, 2, 3, 4, 5], [0, 1, 2, 3, 4, 5]], + names=[None, None], + ) + si = Index( + ["R0", "R_l0_g0", "R_l0_g1", "R_l0_g2", "R_l0_g3", "R_l0_g4"], name=None + ) + + expected = DataFrame(data, index=si, columns=columns) + + actual = pd.read_excel(filename, sheet_name="single_names", index_col=0) + tm.assert_frame_equal(actual, expected) + + expected.index = mi + + actual = pd.read_excel(filename, sheet_name="multi_names", index_col=[0, 1]) + tm.assert_frame_equal(actual, expected) + + # The analogous versions of the "names" version data + # where there are explicitly no names for the indices. + data = np.array( + [ + ["R0C0", "R0C1", "R0C2", "R0C3", "R0C4"], + ["R1C0", "R1C1", "R1C2", "R1C3", "R1C4"], + ["R2C0", "R2C1", "R2C2", "R2C3", "R2C4"], + ["R3C0", "R3C1", "R3C2", "R3C3", "R3C4"], + ["R4C0", "R4C1", "R4C2", "R4C3", "R4C4"], + ] + ) + columns = ["C_l0_g0", "C_l0_g1", "C_l0_g2", "C_l0_g3", "C_l0_g4"] + mi = MultiIndex( + levels=[ + ["R_l0_g0", "R_l0_g1", "R_l0_g2", "R_l0_g3", "R_l0_g4"], + ["R_l1_g0", "R_l1_g1", "R_l1_g2", "R_l1_g3", "R_l1_g4"], + ], + codes=[[0, 1, 2, 3, 4], [0, 1, 2, 3, 4]], + names=[None, None], + ) + si = Index(["R_l0_g0", "R_l0_g1", "R_l0_g2", "R_l0_g3", "R_l0_g4"], name=None) + + expected = DataFrame(data, index=si, columns=columns) + + actual = pd.read_excel(filename, sheet_name="single_no_names", index_col=0) + tm.assert_frame_equal(actual, expected) + + expected.index = mi + + actual = pd.read_excel(filename, sheet_name="multi_no_names", index_col=[0, 1]) + tm.assert_frame_equal(actual, expected) + + def test_read_excel_bool_header_arg(self, read_ext): + # GH 6114 + msg = "Passing a bool to header is invalid" + for arg in [True, False]: + with pytest.raises(TypeError, match=msg): + pd.read_excel("test1" + read_ext, header=arg) + + def test_read_excel_skiprows(self, request, engine, read_ext): + # GH 4903 + xfail_datetimes_with_pyxlsb(engine, request) + + unit = get_exp_unit(read_ext, engine) + + actual = pd.read_excel( + "testskiprows" + read_ext, sheet_name="skiprows_list", skiprows=[0, 2] + ) + expected = DataFrame( + [ + [1, 2.5, pd.Timestamp("2015-01-01"), True], + [2, 3.5, pd.Timestamp("2015-01-02"), False], + [3, 4.5, pd.Timestamp("2015-01-03"), False], + [4, 5.5, pd.Timestamp("2015-01-04"), True], + ], + columns=["a", "b", "c", "d"], + ) + expected["c"] = expected["c"].astype(f"M8[{unit}]") + tm.assert_frame_equal(actual, expected) + + actual = pd.read_excel( + "testskiprows" + read_ext, + sheet_name="skiprows_list", + skiprows=np.array([0, 2]), + ) + tm.assert_frame_equal(actual, expected) + + # GH36435 + actual = pd.read_excel( + "testskiprows" + read_ext, + sheet_name="skiprows_list", + skiprows=lambda x: x in [0, 2], + ) + tm.assert_frame_equal(actual, expected) + + actual = pd.read_excel( + "testskiprows" + read_ext, + sheet_name="skiprows_list", + skiprows=3, + names=["a", "b", "c", "d"], + ) + expected = DataFrame( + [ + # [1, 2.5, pd.Timestamp("2015-01-01"), True], + [2, 3.5, pd.Timestamp("2015-01-02"), False], + [3, 4.5, pd.Timestamp("2015-01-03"), False], + [4, 5.5, pd.Timestamp("2015-01-04"), True], + ], + columns=["a", "b", "c", "d"], + ) + expected["c"] = expected["c"].astype(f"M8[{unit}]") + tm.assert_frame_equal(actual, expected) + + def test_read_excel_skiprows_callable_not_in(self, request, engine, read_ext): + # GH 4903 + xfail_datetimes_with_pyxlsb(engine, request) + unit = get_exp_unit(read_ext, engine) + + actual = pd.read_excel( + "testskiprows" + read_ext, + sheet_name="skiprows_list", + skiprows=lambda x: x not in [1, 3, 5], + ) + expected = DataFrame( + [ + [1, 2.5, pd.Timestamp("2015-01-01"), True], + # [2, 3.5, pd.Timestamp("2015-01-02"), False], + [3, 4.5, pd.Timestamp("2015-01-03"), False], + # [4, 5.5, pd.Timestamp("2015-01-04"), True], + ], + columns=["a", "b", "c", "d"], + ) + expected["c"] = expected["c"].astype(f"M8[{unit}]") + tm.assert_frame_equal(actual, expected) + + def test_read_excel_nrows(self, read_ext): + # GH 16645 + num_rows_to_pull = 5 + actual = pd.read_excel("test1" + read_ext, nrows=num_rows_to_pull) + expected = pd.read_excel("test1" + read_ext) + expected = expected[:num_rows_to_pull] + tm.assert_frame_equal(actual, expected) + + def test_read_excel_nrows_greater_than_nrows_in_file(self, read_ext): + # GH 16645 + expected = pd.read_excel("test1" + read_ext) + num_records_in_file = len(expected) + num_rows_to_pull = num_records_in_file + 10 + actual = pd.read_excel("test1" + read_ext, nrows=num_rows_to_pull) + tm.assert_frame_equal(actual, expected) + + def test_read_excel_nrows_non_integer_parameter(self, read_ext): + # GH 16645 + msg = "'nrows' must be an integer >=0" + with pytest.raises(ValueError, match=msg): + pd.read_excel("test1" + read_ext, nrows="5") + + @pytest.mark.parametrize( + "filename,sheet_name,header,index_col,skiprows", + [ + ("testmultiindex", "mi_column", [0, 1], 0, None), + ("testmultiindex", "mi_index", None, [0, 1], None), + ("testmultiindex", "both", [0, 1], [0, 1], None), + ("testmultiindex", "mi_column_name", [0, 1], 0, None), + ("testskiprows", "skiprows_list", None, None, [0, 2]), + ("testskiprows", "skiprows_list", None, None, lambda x: x in (0, 2)), + ], + ) + def test_read_excel_nrows_params( + self, read_ext, filename, sheet_name, header, index_col, skiprows + ): + """ + For various parameters, we should get the same result whether we + limit the rows during load (nrows=3) or after (df.iloc[:3]). + """ + # GH 46894 + expected = pd.read_excel( + filename + read_ext, + sheet_name=sheet_name, + header=header, + index_col=index_col, + skiprows=skiprows, + ).iloc[:3] + actual = pd.read_excel( + filename + read_ext, + sheet_name=sheet_name, + header=header, + index_col=index_col, + skiprows=skiprows, + nrows=3, + ) + tm.assert_frame_equal(actual, expected) + + def test_deprecated_kwargs(self, read_ext): + with pytest.raises(TypeError, match="but 3 positional arguments"): + pd.read_excel("test1" + read_ext, "Sheet1", 0) + + def test_no_header_with_list_index_col(self, read_ext): + # GH 31783 + file_name = "testmultiindex" + read_ext + data = [("B", "B"), ("key", "val"), (3, 4), (3, 4)] + idx = MultiIndex.from_tuples( + [("A", "A"), ("key", "val"), (1, 2), (1, 2)], names=(0, 1) + ) + expected = DataFrame(data, index=idx, columns=(2, 3)) + result = pd.read_excel( + file_name, sheet_name="index_col_none", index_col=[0, 1], header=None + ) + tm.assert_frame_equal(expected, result) + + def test_one_col_noskip_blank_line(self, read_ext): + # GH 39808 + file_name = "one_col_blank_line" + read_ext + data = [0.5, np.nan, 1, 2] + expected = DataFrame(data, columns=["numbers"]) + result = pd.read_excel(file_name) + tm.assert_frame_equal(result, expected) + + def test_multiheader_two_blank_lines(self, read_ext): + # GH 40442 + file_name = "testmultiindex" + read_ext + columns = MultiIndex.from_tuples([("a", "A"), ("b", "B")]) + data = [[np.nan, np.nan], [np.nan, np.nan], [1, 3], [2, 4]] + expected = DataFrame(data, columns=columns) + result = pd.read_excel( + file_name, sheet_name="mi_column_empty_rows", header=[0, 1] + ) + tm.assert_frame_equal(result, expected) + + def test_trailing_blanks(self, read_ext): + """ + Sheets can contain blank cells with no data. Some of our readers + were including those cells, creating many empty rows and columns + """ + file_name = "trailing_blanks" + read_ext + result = pd.read_excel(file_name) + assert result.shape == (3, 3) + + def test_ignore_chartsheets_by_str(self, request, engine, read_ext): + # GH 41448 + if read_ext == ".ods": + pytest.skip("chartsheets do not exist in the ODF format") + if engine == "pyxlsb": + request.applymarker( + pytest.mark.xfail( + reason="pyxlsb can't distinguish chartsheets from worksheets" + ) + ) + with pytest.raises(ValueError, match="Worksheet named 'Chart1' not found"): + pd.read_excel("chartsheet" + read_ext, sheet_name="Chart1") + + def test_ignore_chartsheets_by_int(self, request, engine, read_ext): + # GH 41448 + if read_ext == ".ods": + pytest.skip("chartsheets do not exist in the ODF format") + if engine == "pyxlsb": + request.applymarker( + pytest.mark.xfail( + reason="pyxlsb can't distinguish chartsheets from worksheets" + ) + ) + with pytest.raises( + ValueError, match="Worksheet index 1 is invalid, 1 worksheets found" + ): + pd.read_excel("chartsheet" + read_ext, sheet_name=1) + + def test_euro_decimal_format(self, read_ext): + # copied from read_csv + result = pd.read_excel("test_decimal" + read_ext, decimal=",", skiprows=1) + expected = DataFrame( + [ + [1, 1521.1541, 187101.9543, "ABC", "poi", 4.738797819], + [2, 121.12, 14897.76, "DEF", "uyt", 0.377320872], + [3, 878.158, 108013.434, "GHI", "rez", 2.735694704], + ], + columns=["Id", "Number1", "Number2", "Text1", "Text2", "Number3"], + ) + tm.assert_frame_equal(result, expected) + + +class TestExcelFileRead: + def test_deprecate_bytes_input(self, engine, read_ext): + # GH 53830 + msg = ( + "Passing bytes to 'read_excel' is deprecated and " + "will be removed in a future version. To read from a " + "byte string, wrap it in a `BytesIO` object." + ) + + with tm.assert_produces_warning( + FutureWarning, match=msg, raise_on_extra_warnings=False + ): + with open("test1" + read_ext, "rb") as f: + pd.read_excel(f.read(), engine=engine) + + @pytest.fixture(autouse=True) + def cd_and_set_engine(self, engine, datapath, monkeypatch): + """ + Change directory and set engine for ExcelFile objects. + """ + func = partial(pd.ExcelFile, engine=engine) + monkeypatch.chdir(datapath("io", "data", "excel")) + monkeypatch.setattr(pd, "ExcelFile", func) + + def test_engine_used(self, read_ext, engine): + expected_defaults = { + "xlsx": "openpyxl", + "xlsm": "openpyxl", + "xlsb": "pyxlsb", + "xls": "xlrd", + "ods": "odf", + } + + with pd.ExcelFile("test1" + read_ext) as excel: + result = excel.engine + + if engine is not None: + expected = engine + else: + expected = expected_defaults[read_ext[1:]] + assert result == expected + + def test_excel_passes_na(self, read_ext): + with pd.ExcelFile("test4" + read_ext) as excel: + parsed = pd.read_excel( + excel, sheet_name="Sheet1", keep_default_na=False, na_values=["apple"] + ) + expected = DataFrame( + [["NA"], [1], ["NA"], [np.nan], ["rabbit"]], columns=["Test"] + ) + tm.assert_frame_equal(parsed, expected) + + with pd.ExcelFile("test4" + read_ext) as excel: + parsed = pd.read_excel( + excel, sheet_name="Sheet1", keep_default_na=True, na_values=["apple"] + ) + expected = DataFrame( + [[np.nan], [1], [np.nan], [np.nan], ["rabbit"]], columns=["Test"] + ) + tm.assert_frame_equal(parsed, expected) + + # 13967 + with pd.ExcelFile("test5" + read_ext) as excel: + parsed = pd.read_excel( + excel, sheet_name="Sheet1", keep_default_na=False, na_values=["apple"] + ) + expected = DataFrame( + [["1.#QNAN"], [1], ["nan"], [np.nan], ["rabbit"]], columns=["Test"] + ) + tm.assert_frame_equal(parsed, expected) + + with pd.ExcelFile("test5" + read_ext) as excel: + parsed = pd.read_excel( + excel, sheet_name="Sheet1", keep_default_na=True, na_values=["apple"] + ) + expected = DataFrame( + [[np.nan], [1], [np.nan], [np.nan], ["rabbit"]], columns=["Test"] + ) + tm.assert_frame_equal(parsed, expected) + + @pytest.mark.parametrize("na_filter", [None, True, False]) + def test_excel_passes_na_filter(self, read_ext, na_filter): + # gh-25453 + kwargs = {} + + if na_filter is not None: + kwargs["na_filter"] = na_filter + + with pd.ExcelFile("test5" + read_ext) as excel: + parsed = pd.read_excel( + excel, + sheet_name="Sheet1", + keep_default_na=True, + na_values=["apple"], + **kwargs, + ) + + if na_filter is False: + expected = [["1.#QNAN"], [1], ["nan"], ["apple"], ["rabbit"]] + else: + expected = [[np.nan], [1], [np.nan], [np.nan], ["rabbit"]] + + expected = DataFrame(expected, columns=["Test"]) + tm.assert_frame_equal(parsed, expected) + + def test_excel_table_sheet_by_index(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref + adjust_expected(expected, read_ext, engine) + + with pd.ExcelFile("test1" + read_ext) as excel: + df1 = pd.read_excel(excel, sheet_name=0, index_col=0) + df2 = pd.read_excel(excel, sheet_name=1, skiprows=[1], index_col=0) + tm.assert_frame_equal(df1, expected) + tm.assert_frame_equal(df2, expected) + + with pd.ExcelFile("test1" + read_ext) as excel: + df1 = excel.parse(0, index_col=0) + df2 = excel.parse(1, skiprows=[1], index_col=0) + tm.assert_frame_equal(df1, expected) + tm.assert_frame_equal(df2, expected) + + with pd.ExcelFile("test1" + read_ext) as excel: + df3 = pd.read_excel(excel, sheet_name=0, index_col=0, skipfooter=1) + tm.assert_frame_equal(df3, df1.iloc[:-1]) + + with pd.ExcelFile("test1" + read_ext) as excel: + df3 = excel.parse(0, index_col=0, skipfooter=1) + + tm.assert_frame_equal(df3, df1.iloc[:-1]) + + def test_sheet_name(self, request, engine, read_ext, df_ref): + xfail_datetimes_with_pyxlsb(engine, request) + + expected = df_ref + adjust_expected(expected, read_ext, engine) + + filename = "test1" + sheet_name = "Sheet1" + + with pd.ExcelFile(filename + read_ext) as excel: + df1_parse = excel.parse(sheet_name=sheet_name, index_col=0) # doc + + with pd.ExcelFile(filename + read_ext) as excel: + df2_parse = excel.parse(index_col=0, sheet_name=sheet_name) + + tm.assert_frame_equal(df1_parse, expected) + tm.assert_frame_equal(df2_parse, expected) + + @pytest.mark.parametrize( + "sheet_name", + [3, [0, 3], [3, 0], "Sheet4", ["Sheet1", "Sheet4"], ["Sheet4", "Sheet1"]], + ) + def test_bad_sheetname_raises(self, read_ext, sheet_name): + # GH 39250 + msg = "Worksheet index 3 is invalid|Worksheet named 'Sheet4' not found" + with pytest.raises(ValueError, match=msg): + with pd.ExcelFile("blank" + read_ext) as excel: + excel.parse(sheet_name=sheet_name) + + def test_excel_read_buffer(self, engine, read_ext): + pth = "test1" + read_ext + expected = pd.read_excel(pth, sheet_name="Sheet1", index_col=0, engine=engine) + + with open(pth, "rb") as f: + with pd.ExcelFile(f) as xls: + actual = pd.read_excel(xls, sheet_name="Sheet1", index_col=0) + + tm.assert_frame_equal(expected, actual) + + def test_reader_closes_file(self, engine, read_ext): + with open("test1" + read_ext, "rb") as f: + with pd.ExcelFile(f) as xlsx: + # parses okay + pd.read_excel(xlsx, sheet_name="Sheet1", index_col=0, engine=engine) + + assert f.closed + + def test_conflicting_excel_engines(self, read_ext): + # GH 26566 + msg = "Engine should not be specified when passing an ExcelFile" + + with pd.ExcelFile("test1" + read_ext) as xl: + with pytest.raises(ValueError, match=msg): + pd.read_excel(xl, engine="foo") + + def test_excel_read_binary(self, engine, read_ext): + # GH 15914 + expected = pd.read_excel("test1" + read_ext, engine=engine) + + with open("test1" + read_ext, "rb") as f: + data = f.read() + + actual = pd.read_excel(BytesIO(data), engine=engine) + tm.assert_frame_equal(expected, actual) + + def test_excel_read_binary_via_read_excel(self, read_ext, engine): + # GH 38424 + with open("test1" + read_ext, "rb") as f: + result = pd.read_excel(f, engine=engine) + expected = pd.read_excel("test1" + read_ext, engine=engine) + tm.assert_frame_equal(result, expected) + + def test_read_excel_header_index_out_of_range(self, engine): + # GH#43143 + with open("df_header_oob.xlsx", "rb") as f: + with pytest.raises(ValueError, match="exceeds maximum"): + pd.read_excel(f, header=[0, 1]) + + @pytest.mark.parametrize("filename", ["df_empty.xlsx", "df_equals.xlsx"]) + def test_header_with_index_col(self, filename): + # GH 33476 + idx = Index(["Z"], name="I2") + cols = MultiIndex.from_tuples([("A", "B"), ("A", "B.1")], names=["I11", "I12"]) + expected = DataFrame([[1, 3]], index=idx, columns=cols, dtype="int64") + result = pd.read_excel( + filename, sheet_name="Sheet1", index_col=0, header=[0, 1] + ) + tm.assert_frame_equal(expected, result) + + def test_read_datetime_multiindex(self, request, engine, read_ext): + # GH 34748 + xfail_datetimes_with_pyxlsb(engine, request) + + f = "test_datetime_mi" + read_ext + with pd.ExcelFile(f) as excel: + actual = pd.read_excel(excel, header=[0, 1], index_col=0, engine=engine) + + unit = get_exp_unit(read_ext, engine) + dti = pd.DatetimeIndex(["2020-02-29", "2020-03-01"], dtype=f"M8[{unit}]") + expected_column_index = MultiIndex.from_arrays( + [dti[:1], dti[1:]], + names=[ + dti[0].to_pydatetime(), + dti[1].to_pydatetime(), + ], + ) + expected = DataFrame([], index=[], columns=expected_column_index) + + tm.assert_frame_equal(expected, actual) + + def test_engine_invalid_option(self, read_ext): + # read_ext includes the '.' hence the weird formatting + with pytest.raises(ValueError, match="Value must be one of *"): + with pd.option_context(f"io.excel{read_ext}.reader", "abc"): + pass + + def test_ignore_chartsheets(self, request, engine, read_ext): + # GH 41448 + if read_ext == ".ods": + pytest.skip("chartsheets do not exist in the ODF format") + if engine == "pyxlsb": + request.applymarker( + pytest.mark.xfail( + reason="pyxlsb can't distinguish chartsheets from worksheets" + ) + ) + with pd.ExcelFile("chartsheet" + read_ext) as excel: + assert excel.sheet_names == ["Sheet1"] + + def test_corrupt_files_closed(self, engine, read_ext): + # GH41778 + errors = (BadZipFile,) + if engine is None: + pytest.skip(f"Invalid test for engine={engine}") + elif engine == "xlrd": + import xlrd + + errors = (BadZipFile, xlrd.biffh.XLRDError) + elif engine == "calamine": + from python_calamine import CalamineError + + errors = (CalamineError,) + + with tm.ensure_clean(f"corrupt{read_ext}") as file: + Path(file).write_text("corrupt", encoding="utf-8") + with tm.assert_produces_warning(False): + try: + pd.ExcelFile(file, engine=engine) + except errors: + pass diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_style.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_style.py new file mode 100644 index 0000000000000000000000000000000000000000..89615172688d7b56fbb070dbcd4750365d7d612d --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_style.py @@ -0,0 +1,298 @@ +import contextlib +import time + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows +import pandas.util._test_decorators as td + +from pandas import ( + DataFrame, + read_excel, +) +import pandas._testing as tm + +from pandas.io.excel import ExcelWriter +from pandas.io.formats.excel import ExcelFormatter + +pytest.importorskip("jinja2") +# jinja2 is currently required for Styler.__init__(). Technically Styler.to_excel +# could compute styles and render to excel without jinja2, since there is no +# 'template' file, but this needs the import error to delayed until render time. + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +def assert_equal_cell_styles(cell1, cell2): + # TODO: should find a better way to check equality + assert cell1.alignment.__dict__ == cell2.alignment.__dict__ + assert cell1.border.__dict__ == cell2.border.__dict__ + assert cell1.fill.__dict__ == cell2.fill.__dict__ + assert cell1.font.__dict__ == cell2.font.__dict__ + assert cell1.number_format == cell2.number_format + assert cell1.protection.__dict__ == cell2.protection.__dict__ + + +@pytest.mark.parametrize( + "engine", + ["xlsxwriter", "openpyxl"], +) +def test_styler_to_excel_unstyled(engine): + # compare DataFrame.to_excel and Styler.to_excel when no styles applied + pytest.importorskip(engine) + df = DataFrame(np.random.default_rng(2).standard_normal((2, 2))) + with tm.ensure_clean(".xlsx") as path: + with ExcelWriter(path, engine=engine) as writer: + df.to_excel(writer, sheet_name="dataframe") + df.style.to_excel(writer, sheet_name="unstyled") + + openpyxl = pytest.importorskip("openpyxl") # test loading only with openpyxl + with contextlib.closing(openpyxl.load_workbook(path)) as wb: + for col1, col2 in zip(wb["dataframe"].columns, wb["unstyled"].columns): + assert len(col1) == len(col2) + for cell1, cell2 in zip(col1, col2): + assert cell1.value == cell2.value + assert_equal_cell_styles(cell1, cell2) + + +shared_style_params = [ + ( + "background-color: #111222", + ["fill", "fgColor", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ( + "color: #111222", + ["font", "color", "value"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ("font-family: Arial;", ["font", "name"], "arial"), + ("font-weight: bold;", ["font", "b"], True), + ("font-style: italic;", ["font", "i"], True), + ("text-decoration: underline;", ["font", "u"], "single"), + ("number-format: $??,???.00;", ["number_format"], "$??,???.00"), + ("text-align: left;", ["alignment", "horizontal"], "left"), + ( + "vertical-align: bottom;", + ["alignment", "vertical"], + {"xlsxwriter": None, "openpyxl": "bottom"}, # xlsxwriter Fails + ), + ("vertical-align: middle;", ["alignment", "vertical"], "center"), + # Border widths + ("border-left: 2pt solid red", ["border", "left", "style"], "medium"), + ("border-left: 1pt dotted red", ["border", "left", "style"], "dotted"), + ("border-left: 2pt dotted red", ["border", "left", "style"], "mediumDashDotDot"), + ("border-left: 1pt dashed red", ["border", "left", "style"], "dashed"), + ("border-left: 2pt dashed red", ["border", "left", "style"], "mediumDashed"), + ("border-left: 1pt solid red", ["border", "left", "style"], "thin"), + ("border-left: 3pt solid red", ["border", "left", "style"], "thick"), + # Border expansion + ( + "border-left: 2pt solid #111222", + ["border", "left", "color", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ("border: 1pt solid red", ["border", "top", "style"], "thin"), + ( + "border: 1pt solid #111222", + ["border", "top", "color", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ("border: 1pt solid red", ["border", "right", "style"], "thin"), + ( + "border: 1pt solid #111222", + ["border", "right", "color", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ("border: 1pt solid red", ["border", "bottom", "style"], "thin"), + ( + "border: 1pt solid #111222", + ["border", "bottom", "color", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + ("border: 1pt solid red", ["border", "left", "style"], "thin"), + ( + "border: 1pt solid #111222", + ["border", "left", "color", "rgb"], + {"xlsxwriter": "FF111222", "openpyxl": "00111222"}, + ), + # Border styles + ( + "border-left-style: hair; border-left-color: black", + ["border", "left", "style"], + "hair", + ), +] + + +@pytest.mark.parametrize( + "engine", + ["xlsxwriter", "openpyxl"], +) +@pytest.mark.parametrize("css, attrs, expected", shared_style_params) +def test_styler_to_excel_basic(engine, css, attrs, expected): + pytest.importorskip(engine) + df = DataFrame(np.random.default_rng(2).standard_normal((1, 1))) + styler = df.style.map(lambda x: css) + + with tm.ensure_clean(".xlsx") as path: + with ExcelWriter(path, engine=engine) as writer: + df.to_excel(writer, sheet_name="dataframe") + styler.to_excel(writer, sheet_name="styled") + + openpyxl = pytest.importorskip("openpyxl") # test loading only with openpyxl + with contextlib.closing(openpyxl.load_workbook(path)) as wb: + # test unstyled data cell does not have expected styles + # test styled cell has expected styles + u_cell, s_cell = wb["dataframe"].cell(2, 2), wb["styled"].cell(2, 2) + for attr in attrs: + u_cell, s_cell = getattr(u_cell, attr, None), getattr(s_cell, attr) + + if isinstance(expected, dict): + assert u_cell is None or u_cell != expected[engine] + assert s_cell == expected[engine] + else: + assert u_cell is None or u_cell != expected + assert s_cell == expected + + +@pytest.mark.parametrize( + "engine", + ["xlsxwriter", "openpyxl"], +) +@pytest.mark.parametrize("css, attrs, expected", shared_style_params) +def test_styler_to_excel_basic_indexes(engine, css, attrs, expected): + pytest.importorskip(engine) + df = DataFrame(np.random.default_rng(2).standard_normal((1, 1))) + + styler = df.style + styler.map_index(lambda x: css, axis=0) + styler.map_index(lambda x: css, axis=1) + + null_styler = df.style + null_styler.map(lambda x: "null: css;") + null_styler.map_index(lambda x: "null: css;", axis=0) + null_styler.map_index(lambda x: "null: css;", axis=1) + + with tm.ensure_clean(".xlsx") as path: + with ExcelWriter(path, engine=engine) as writer: + null_styler.to_excel(writer, sheet_name="null_styled") + styler.to_excel(writer, sheet_name="styled") + + openpyxl = pytest.importorskip("openpyxl") # test loading only with openpyxl + with contextlib.closing(openpyxl.load_workbook(path)) as wb: + # test null styled index cells does not have expected styles + # test styled cell has expected styles + ui_cell, si_cell = wb["null_styled"].cell(2, 1), wb["styled"].cell(2, 1) + uc_cell, sc_cell = wb["null_styled"].cell(1, 2), wb["styled"].cell(1, 2) + for attr in attrs: + ui_cell, si_cell = getattr(ui_cell, attr, None), getattr(si_cell, attr) + uc_cell, sc_cell = getattr(uc_cell, attr, None), getattr(sc_cell, attr) + + if isinstance(expected, dict): + assert ui_cell is None or ui_cell != expected[engine] + assert si_cell == expected[engine] + assert uc_cell is None or uc_cell != expected[engine] + assert sc_cell == expected[engine] + else: + assert ui_cell is None or ui_cell != expected + assert si_cell == expected + assert uc_cell is None or uc_cell != expected + assert sc_cell == expected + + +# From https://openpyxl.readthedocs.io/en/stable/api/openpyxl.styles.borders.html +# Note: Leaving behavior of "width"-type styles undefined; user should use border-width +# instead +excel_border_styles = [ + # "thin", + "dashed", + "mediumDashDot", + "dashDotDot", + "hair", + "dotted", + "mediumDashDotDot", + # "medium", + "double", + "dashDot", + "slantDashDot", + # "thick", + "mediumDashed", +] + + +@pytest.mark.parametrize( + "engine", + ["xlsxwriter", "openpyxl"], +) +@pytest.mark.parametrize("border_style", excel_border_styles) +def test_styler_to_excel_border_style(engine, border_style): + css = f"border-left: {border_style} black thin" + attrs = ["border", "left", "style"] + expected = border_style + + pytest.importorskip(engine) + df = DataFrame(np.random.default_rng(2).standard_normal((1, 1))) + styler = df.style.map(lambda x: css) + + with tm.ensure_clean(".xlsx") as path: + with ExcelWriter(path, engine=engine) as writer: + df.to_excel(writer, sheet_name="dataframe") + styler.to_excel(writer, sheet_name="styled") + + openpyxl = pytest.importorskip("openpyxl") # test loading only with openpyxl + with contextlib.closing(openpyxl.load_workbook(path)) as wb: + # test unstyled data cell does not have expected styles + # test styled cell has expected styles + u_cell, s_cell = wb["dataframe"].cell(2, 2), wb["styled"].cell(2, 2) + for attr in attrs: + u_cell, s_cell = getattr(u_cell, attr, None), getattr(s_cell, attr) + + if isinstance(expected, dict): + assert u_cell is None or u_cell != expected[engine] + assert s_cell == expected[engine] + else: + assert u_cell is None or u_cell != expected + assert s_cell == expected + + +def test_styler_custom_converter(): + openpyxl = pytest.importorskip("openpyxl") + + def custom_converter(css): + return {"font": {"color": {"rgb": "111222"}}} + + df = DataFrame(np.random.default_rng(2).standard_normal((1, 1))) + styler = df.style.map(lambda x: "color: #888999") + with tm.ensure_clean(".xlsx") as path: + with ExcelWriter(path, engine="openpyxl") as writer: + ExcelFormatter(styler, style_converter=custom_converter).write( + writer, sheet_name="custom" + ) + + with contextlib.closing(openpyxl.load_workbook(path)) as wb: + assert wb["custom"].cell(2, 2).font.color.value == "00111222" + + +@pytest.mark.single_cpu +@td.skip_if_not_us_locale +def test_styler_to_s3(s3_public_bucket, s3so): + # GH#46381 + + mock_bucket_name, target_file = s3_public_bucket.name, "test.xlsx" + df = DataFrame({"x": [1, 2, 3], "y": [2, 4, 6]}) + styler = df.style.set_sticky(axis="index") + styler.to_excel(f"s3://{mock_bucket_name}/{target_file}", storage_options=s3so) + timeout = 5 + while True: + if target_file in (obj.key for obj in s3_public_bucket.objects.all()): + break + time.sleep(0.1) + timeout -= 0.1 + assert timeout > 0, "Timed out waiting for file to appear on moto" + result = read_excel( + f"s3://{mock_bucket_name}/{target_file}", index_col=0, storage_options=s3so + ) + tm.assert_frame_equal(result, df) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_writers.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_writers.py new file mode 100644 index 0000000000000000000000000000000000000000..d6e99de4f9d91a6da9b96c1601511d00ed5e36e2 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_writers.py @@ -0,0 +1,1514 @@ +from datetime import ( + date, + datetime, + timedelta, +) +from functools import partial +from io import BytesIO +import os +import re + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows +from pandas.compat._constants import PY310 +from pandas.compat._optional import import_optional_dependency +import pandas.util._test_decorators as td + +import pandas as pd +from pandas import ( + DataFrame, + Index, + MultiIndex, + date_range, + option_context, +) +import pandas._testing as tm + +from pandas.io.excel import ( + ExcelFile, + ExcelWriter, + _OpenpyxlWriter, + _XlsxWriter, + register_writer, +) +from pandas.io.excel._util import _writers + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +def get_exp_unit(path: str) -> str: + return "ns" + + +@pytest.fixture +def frame(float_frame): + """ + Returns the first ten items in fixture "float_frame". + """ + return float_frame[:10] + + +@pytest.fixture(params=[True, False]) +def merge_cells(request): + return request.param + + +@pytest.fixture +def path(ext): + """ + Fixture to open file for use in each test case. + """ + with tm.ensure_clean(ext) as file_path: + yield file_path + + +@pytest.fixture +def set_engine(engine, ext): + """ + Fixture to set engine for use in each test case. + + Rather than requiring `engine=...` to be provided explicitly as an + argument in each test, this fixture sets a global option to dictate + which engine should be used to write Excel files. After executing + the test it rolls back said change to the global option. + """ + option_name = f"io.excel.{ext.strip('.')}.writer" + with option_context(option_name, engine): + yield + + +@pytest.mark.parametrize( + "ext", + [ + pytest.param(".xlsx", marks=[td.skip_if_no("openpyxl"), td.skip_if_no("xlrd")]), + pytest.param(".xlsm", marks=[td.skip_if_no("openpyxl"), td.skip_if_no("xlrd")]), + pytest.param( + ".xlsx", marks=[td.skip_if_no("xlsxwriter"), td.skip_if_no("xlrd")] + ), + pytest.param(".ods", marks=td.skip_if_no("odf")), + ], +) +class TestRoundTrip: + @pytest.mark.parametrize( + "header,expected", + [(None, DataFrame([np.nan] * 4)), (0, DataFrame({"Unnamed: 0": [np.nan] * 3}))], + ) + def test_read_one_empty_col_no_header(self, ext, header, expected): + # xref gh-12292 + filename = "no_header" + df = DataFrame([["", 1, 100], ["", 2, 200], ["", 3, 300], ["", 4, 400]]) + + with tm.ensure_clean(ext) as path: + df.to_excel(path, sheet_name=filename, index=False, header=False) + result = pd.read_excel( + path, sheet_name=filename, usecols=[0], header=header + ) + + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "header,expected", + [(None, DataFrame([0] + [np.nan] * 4)), (0, DataFrame([np.nan] * 4))], + ) + def test_read_one_empty_col_with_header(self, ext, header, expected): + filename = "with_header" + df = DataFrame([["", 1, 100], ["", 2, 200], ["", 3, 300], ["", 4, 400]]) + + with tm.ensure_clean(ext) as path: + df.to_excel(path, sheet_name="with_header", index=False, header=True) + result = pd.read_excel( + path, sheet_name=filename, usecols=[0], header=header + ) + + tm.assert_frame_equal(result, expected) + + def test_set_column_names_in_parameter(self, ext): + # GH 12870 : pass down column names associated with + # keyword argument names + refdf = DataFrame([[1, "foo"], [2, "bar"], [3, "baz"]], columns=["a", "b"]) + + with tm.ensure_clean(ext) as pth: + with ExcelWriter(pth) as writer: + refdf.to_excel( + writer, sheet_name="Data_no_head", header=False, index=False + ) + refdf.to_excel(writer, sheet_name="Data_with_head", index=False) + + refdf.columns = ["A", "B"] + + with ExcelFile(pth) as reader: + xlsdf_no_head = pd.read_excel( + reader, sheet_name="Data_no_head", header=None, names=["A", "B"] + ) + xlsdf_with_head = pd.read_excel( + reader, + sheet_name="Data_with_head", + index_col=None, + names=["A", "B"], + ) + + tm.assert_frame_equal(xlsdf_no_head, refdf) + tm.assert_frame_equal(xlsdf_with_head, refdf) + + def test_creating_and_reading_multiple_sheets(self, ext): + # see gh-9450 + # + # Test reading multiple sheets, from a runtime + # created Excel file with multiple sheets. + def tdf(col_sheet_name): + d, i = [11, 22, 33], [1, 2, 3] + return DataFrame(d, i, columns=[col_sheet_name]) + + sheets = ["AAA", "BBB", "CCC"] + + dfs = [tdf(s) for s in sheets] + dfs = dict(zip(sheets, dfs)) + + with tm.ensure_clean(ext) as pth: + with ExcelWriter(pth) as ew: + for sheetname, df in dfs.items(): + df.to_excel(ew, sheet_name=sheetname) + + dfs_returned = pd.read_excel(pth, sheet_name=sheets, index_col=0) + + for s in sheets: + tm.assert_frame_equal(dfs[s], dfs_returned[s]) + + def test_read_excel_multiindex_empty_level(self, ext): + # see gh-12453 + with tm.ensure_clean(ext) as path: + df = DataFrame( + { + ("One", "x"): {0: 1}, + ("Two", "X"): {0: 3}, + ("Two", "Y"): {0: 7}, + ("Zero", ""): {0: 0}, + } + ) + + expected = DataFrame( + { + ("One", "x"): {0: 1}, + ("Two", "X"): {0: 3}, + ("Two", "Y"): {0: 7}, + ("Zero", "Unnamed: 4_level_1"): {0: 0}, + } + ) + + df.to_excel(path) + actual = pd.read_excel(path, header=[0, 1], index_col=0) + tm.assert_frame_equal(actual, expected) + + df = DataFrame( + { + ("Beg", ""): {0: 0}, + ("Middle", "x"): {0: 1}, + ("Tail", "X"): {0: 3}, + ("Tail", "Y"): {0: 7}, + } + ) + + expected = DataFrame( + { + ("Beg", "Unnamed: 1_level_1"): {0: 0}, + ("Middle", "x"): {0: 1}, + ("Tail", "X"): {0: 3}, + ("Tail", "Y"): {0: 7}, + } + ) + + df.to_excel(path) + actual = pd.read_excel(path, header=[0, 1], index_col=0) + tm.assert_frame_equal(actual, expected) + + @pytest.mark.parametrize("c_idx_names", ["a", None]) + @pytest.mark.parametrize("r_idx_names", ["b", None]) + @pytest.mark.parametrize("c_idx_levels", [1, 3]) + @pytest.mark.parametrize("r_idx_levels", [1, 3]) + def test_excel_multindex_roundtrip( + self, ext, c_idx_names, r_idx_names, c_idx_levels, r_idx_levels, request + ): + # see gh-4679 + with tm.ensure_clean(ext) as pth: + # Empty name case current read in as + # unnamed levels, not Nones. + check_names = bool(r_idx_names) or r_idx_levels <= 1 + + if c_idx_levels == 1: + columns = Index(list("abcde")) + else: + columns = MultiIndex.from_arrays( + [range(5) for _ in range(c_idx_levels)], + names=[f"{c_idx_names}-{i}" for i in range(c_idx_levels)], + ) + if r_idx_levels == 1: + index = Index(list("ghijk")) + else: + index = MultiIndex.from_arrays( + [range(5) for _ in range(r_idx_levels)], + names=[f"{r_idx_names}-{i}" for i in range(r_idx_levels)], + ) + df = DataFrame( + 1.1 * np.ones((5, 5)), + columns=columns, + index=index, + ) + df.to_excel(pth) + + act = pd.read_excel( + pth, + index_col=list(range(r_idx_levels)), + header=list(range(c_idx_levels)), + ) + tm.assert_frame_equal(df, act, check_names=check_names) + + df.iloc[0, :] = np.nan + df.to_excel(pth) + + act = pd.read_excel( + pth, + index_col=list(range(r_idx_levels)), + header=list(range(c_idx_levels)), + ) + tm.assert_frame_equal(df, act, check_names=check_names) + + df.iloc[-1, :] = np.nan + df.to_excel(pth) + act = pd.read_excel( + pth, + index_col=list(range(r_idx_levels)), + header=list(range(c_idx_levels)), + ) + tm.assert_frame_equal(df, act, check_names=check_names) + + def test_read_excel_parse_dates(self, ext): + # see gh-11544, gh-12051 + df = DataFrame( + {"col": [1, 2, 3], "date_strings": date_range("2012-01-01", periods=3)} + ) + df2 = df.copy() + df2["date_strings"] = df2["date_strings"].dt.strftime("%m/%d/%Y") + + with tm.ensure_clean(ext) as pth: + df2.to_excel(pth) + + res = pd.read_excel(pth, index_col=0) + tm.assert_frame_equal(df2, res) + + res = pd.read_excel(pth, parse_dates=["date_strings"], index_col=0) + tm.assert_frame_equal(df, res) + + date_parser = lambda x: datetime.strptime(x, "%m/%d/%Y") + with tm.assert_produces_warning( + FutureWarning, + match="use 'date_format' instead", + raise_on_extra_warnings=False, + ): + res = pd.read_excel( + pth, + parse_dates=["date_strings"], + date_parser=date_parser, + index_col=0, + ) + tm.assert_frame_equal(df, res) + res = pd.read_excel( + pth, parse_dates=["date_strings"], date_format="%m/%d/%Y", index_col=0 + ) + tm.assert_frame_equal(df, res) + + def test_multiindex_interval_datetimes(self, ext): + # GH 30986 + midx = MultiIndex.from_arrays( + [ + range(4), + pd.interval_range( + start=pd.Timestamp("2020-01-01"), periods=4, freq="6ME" + ), + ] + ) + df = DataFrame(range(4), index=midx) + with tm.ensure_clean(ext) as pth: + df.to_excel(pth) + result = pd.read_excel(pth, index_col=[0, 1]) + expected = DataFrame( + range(4), + MultiIndex.from_arrays( + [ + range(4), + [ + "(2020-01-31 00:00:00, 2020-07-31 00:00:00]", + "(2020-07-31 00:00:00, 2021-01-31 00:00:00]", + "(2021-01-31 00:00:00, 2021-07-31 00:00:00]", + "(2021-07-31 00:00:00, 2022-01-31 00:00:00]", + ], + ] + ), + ) + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "engine,ext", + [ + pytest.param( + "openpyxl", + ".xlsx", + marks=[td.skip_if_no("openpyxl"), td.skip_if_no("xlrd")], + ), + pytest.param( + "openpyxl", + ".xlsm", + marks=[td.skip_if_no("openpyxl"), td.skip_if_no("xlrd")], + ), + pytest.param( + "xlsxwriter", + ".xlsx", + marks=[td.skip_if_no("xlsxwriter"), td.skip_if_no("xlrd")], + ), + pytest.param("odf", ".ods", marks=td.skip_if_no("odf")), + ], +) +@pytest.mark.usefixtures("set_engine") +class TestExcelWriter: + def test_excel_sheet_size(self, path): + # GH 26080 + breaking_row_count = 2**20 + 1 + breaking_col_count = 2**14 + 1 + # purposely using two arrays to prevent memory issues while testing + row_arr = np.zeros(shape=(breaking_row_count, 1)) + col_arr = np.zeros(shape=(1, breaking_col_count)) + row_df = DataFrame(row_arr) + col_df = DataFrame(col_arr) + + msg = "sheet is too large" + with pytest.raises(ValueError, match=msg): + row_df.to_excel(path) + + with pytest.raises(ValueError, match=msg): + col_df.to_excel(path) + + def test_excel_sheet_by_name_raise(self, path): + gt = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) + gt.to_excel(path) + + with ExcelFile(path) as xl: + df = pd.read_excel(xl, sheet_name=0, index_col=0) + + tm.assert_frame_equal(gt, df) + + msg = "Worksheet named '0' not found" + with pytest.raises(ValueError, match=msg): + pd.read_excel(xl, "0") + + def test_excel_writer_context_manager(self, frame, path): + with ExcelWriter(path) as writer: + frame.to_excel(writer, sheet_name="Data1") + frame2 = frame.copy() + frame2.columns = frame.columns[::-1] + frame2.to_excel(writer, sheet_name="Data2") + + with ExcelFile(path) as reader: + found_df = pd.read_excel(reader, sheet_name="Data1", index_col=0) + found_df2 = pd.read_excel(reader, sheet_name="Data2", index_col=0) + + tm.assert_frame_equal(found_df, frame) + tm.assert_frame_equal(found_df2, frame2) + + def test_roundtrip(self, frame, path): + frame = frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + + frame.to_excel(path, sheet_name="test1") + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", index=False) + + # test roundtrip + frame.to_excel(path, sheet_name="test1") + recons = pd.read_excel(path, sheet_name="test1", index_col=0) + tm.assert_frame_equal(frame, recons) + + frame.to_excel(path, sheet_name="test1", index=False) + recons = pd.read_excel(path, sheet_name="test1", index_col=None) + recons.index = frame.index + tm.assert_frame_equal(frame, recons) + + frame.to_excel(path, sheet_name="test1", na_rep="NA") + recons = pd.read_excel(path, sheet_name="test1", index_col=0, na_values=["NA"]) + tm.assert_frame_equal(frame, recons) + + # GH 3611 + frame.to_excel(path, sheet_name="test1", na_rep="88") + recons = pd.read_excel(path, sheet_name="test1", index_col=0, na_values=["88"]) + tm.assert_frame_equal(frame, recons) + + frame.to_excel(path, sheet_name="test1", na_rep="88") + recons = pd.read_excel( + path, sheet_name="test1", index_col=0, na_values=[88, 88.0] + ) + tm.assert_frame_equal(frame, recons) + + # GH 6573 + frame.to_excel(path, sheet_name="Sheet1") + recons = pd.read_excel(path, index_col=0) + tm.assert_frame_equal(frame, recons) + + frame.to_excel(path, sheet_name="0") + recons = pd.read_excel(path, index_col=0) + tm.assert_frame_equal(frame, recons) + + # GH 8825 Pandas Series should provide to_excel method + s = frame["A"] + s.to_excel(path) + recons = pd.read_excel(path, index_col=0) + tm.assert_frame_equal(s.to_frame(), recons) + + def test_mixed(self, frame, path): + mixed_frame = frame.copy() + mixed_frame["foo"] = "bar" + + mixed_frame.to_excel(path, sheet_name="test1") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(mixed_frame, recons) + + def test_ts_frame(self, path): + unit = get_exp_unit(path) + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=5, freq="B"), + ) + + # freq doesn't round-trip + index = pd.DatetimeIndex(np.asarray(df.index), freq=None) + df.index = index + + expected = df[:] + expected.index = expected.index.as_unit(unit) + + df.to_excel(path, sheet_name="test1") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(expected, recons) + + def test_basics_with_nan(self, frame, path): + frame = frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + frame.to_excel(path, sheet_name="test1") + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", index=False) + + @pytest.mark.parametrize("np_type", [np.int8, np.int16, np.int32, np.int64]) + def test_int_types(self, np_type, path): + # Test np.int values read come back as int + # (rather than float which is Excel's format). + df = DataFrame( + np.random.default_rng(2).integers(-10, 10, size=(10, 2)), dtype=np_type + ) + df.to_excel(path, sheet_name="test1") + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + + int_frame = df.astype(np.int64) + tm.assert_frame_equal(int_frame, recons) + + recons2 = pd.read_excel(path, sheet_name="test1", index_col=0) + tm.assert_frame_equal(int_frame, recons2) + + @pytest.mark.parametrize("np_type", [np.float16, np.float32, np.float64]) + def test_float_types(self, np_type, path): + # Test np.float values read come back as float. + df = DataFrame(np.random.default_rng(2).random(10), dtype=np_type) + df.to_excel(path, sheet_name="test1") + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0).astype( + np_type + ) + + tm.assert_frame_equal(df, recons) + + def test_bool_types(self, path): + # Test np.bool_ values read come back as float. + df = DataFrame([1, 0, True, False], dtype=np.bool_) + df.to_excel(path, sheet_name="test1") + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0).astype( + np.bool_ + ) + + tm.assert_frame_equal(df, recons) + + def test_inf_roundtrip(self, path): + df = DataFrame([(1, np.inf), (2, 3), (5, -np.inf)]) + df.to_excel(path, sheet_name="test1") + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + + tm.assert_frame_equal(df, recons) + + def test_sheets(self, frame, path): + # freq doesn't round-trip + unit = get_exp_unit(path) + tsframe = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=5, freq="B"), + ) + index = pd.DatetimeIndex(np.asarray(tsframe.index), freq=None) + tsframe.index = index + + expected = tsframe[:] + expected.index = expected.index.as_unit(unit) + + frame = frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + + frame.to_excel(path, sheet_name="test1") + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", index=False) + + # Test writing to separate sheets + with ExcelWriter(path) as writer: + frame.to_excel(writer, sheet_name="test1") + tsframe.to_excel(writer, sheet_name="test2") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(frame, recons) + recons = pd.read_excel(reader, sheet_name="test2", index_col=0) + tm.assert_frame_equal(expected, recons) + assert 2 == len(reader.sheet_names) + assert "test1" == reader.sheet_names[0] + assert "test2" == reader.sheet_names[1] + + def test_colaliases(self, frame, path): + frame = frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + + frame.to_excel(path, sheet_name="test1") + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", index=False) + + # column aliases + col_aliases = Index(["AA", "X", "Y", "Z"]) + frame.to_excel(path, sheet_name="test1", header=col_aliases) + with ExcelFile(path) as reader: + rs = pd.read_excel(reader, sheet_name="test1", index_col=0) + xp = frame.copy() + xp.columns = col_aliases + tm.assert_frame_equal(xp, rs) + + def test_roundtrip_indexlabels(self, merge_cells, frame, path): + frame = frame.copy() + frame.iloc[:5, frame.columns.get_loc("A")] = np.nan + + frame.to_excel(path, sheet_name="test1") + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", index=False) + + # test index_label + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) >= 0 + df.to_excel( + path, sheet_name="test1", index_label=["test"], merge_cells=merge_cells + ) + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0).astype( + np.int64 + ) + df.index.names = ["test"] + assert df.index.names == recons.index.names + + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) >= 0 + df.to_excel( + path, + sheet_name="test1", + index_label=["test", "dummy", "dummy2"], + merge_cells=merge_cells, + ) + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0).astype( + np.int64 + ) + df.index.names = ["test"] + assert df.index.names == recons.index.names + + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) >= 0 + df.to_excel( + path, sheet_name="test1", index_label="test", merge_cells=merge_cells + ) + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0).astype( + np.int64 + ) + df.index.names = ["test"] + tm.assert_frame_equal(df, recons.astype(bool)) + + frame.to_excel( + path, + sheet_name="test1", + columns=["A", "B", "C", "D"], + index=False, + merge_cells=merge_cells, + ) + # take 'A' and 'B' as indexes (same row as cols 'C', 'D') + df = frame.copy() + df = df.set_index(["A", "B"]) + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=[0, 1]) + tm.assert_frame_equal(df, recons) + + def test_excel_roundtrip_indexname(self, merge_cells, path): + df = DataFrame(np.random.default_rng(2).standard_normal((10, 4))) + df.index.name = "foo" + + df.to_excel(path, merge_cells=merge_cells) + + with ExcelFile(path) as xf: + result = pd.read_excel(xf, sheet_name=xf.sheet_names[0], index_col=0) + + tm.assert_frame_equal(result, df) + assert result.index.name == "foo" + + def test_excel_roundtrip_datetime(self, merge_cells, path): + # datetime.date, not sure what to test here exactly + unit = get_exp_unit(path) + + # freq does not round-trip + tsframe = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=5, freq="B"), + ) + index = pd.DatetimeIndex(np.asarray(tsframe.index), freq=None) + tsframe.index = index + + tsf = tsframe.copy() + + tsf.index = [x.date() for x in tsframe.index] + tsf.to_excel(path, sheet_name="test1", merge_cells=merge_cells) + + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + + expected = tsframe[:] + expected.index = expected.index.as_unit(unit) + tm.assert_frame_equal(expected, recons) + + def test_excel_date_datetime_format(self, ext, path): + # see gh-4133 + # + # Excel output format strings + unit = get_exp_unit(path) + + df = DataFrame( + [ + [date(2014, 1, 31), date(1999, 9, 24)], + [datetime(1998, 5, 26, 23, 33, 4), datetime(2014, 2, 28, 13, 5, 13)], + ], + index=["DATE", "DATETIME"], + columns=["X", "Y"], + ) + df_expected = DataFrame( + [ + [datetime(2014, 1, 31), datetime(1999, 9, 24)], + [datetime(1998, 5, 26, 23, 33, 4), datetime(2014, 2, 28, 13, 5, 13)], + ], + index=["DATE", "DATETIME"], + columns=["X", "Y"], + ) + df_expected = df_expected.astype(f"M8[{unit}]") + + with tm.ensure_clean(ext) as filename2: + with ExcelWriter(path) as writer1: + df.to_excel(writer1, sheet_name="test1") + + with ExcelWriter( + filename2, + date_format="DD.MM.YYYY", + datetime_format="DD.MM.YYYY HH-MM-SS", + ) as writer2: + df.to_excel(writer2, sheet_name="test1") + + with ExcelFile(path) as reader1: + rs1 = pd.read_excel(reader1, sheet_name="test1", index_col=0) + + with ExcelFile(filename2) as reader2: + rs2 = pd.read_excel(reader2, sheet_name="test1", index_col=0) + + tm.assert_frame_equal(rs1, rs2) + + # Since the reader returns a datetime object for dates, + # we need to use df_expected to check the result. + tm.assert_frame_equal(rs2, df_expected) + + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in cast:RuntimeWarning" + ) + def test_to_excel_interval_no_labels(self, path, using_infer_string): + # see gh-19242 + # + # Test writing Interval without labels. + df = DataFrame( + np.random.default_rng(2).integers(-10, 10, size=(20, 1)), dtype=np.int64 + ) + expected = df.copy() + + df["new"] = pd.cut(df[0], 10) + expected["new"] = pd.cut(expected[0], 10).astype( + str if not using_infer_string else "str" + ) + + df.to_excel(path, sheet_name="test1") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(expected, recons) + + def test_to_excel_interval_labels(self, path): + # see gh-19242 + # + # Test writing Interval with labels. + df = DataFrame( + np.random.default_rng(2).integers(-10, 10, size=(20, 1)), dtype=np.int64 + ) + expected = df.copy() + intervals = pd.cut( + df[0], 10, labels=["A", "B", "C", "D", "E", "F", "G", "H", "I", "J"] + ) + df["new"] = intervals + expected["new"] = pd.Series(list(intervals)) + + df.to_excel(path, sheet_name="test1") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(expected, recons) + + def test_to_excel_timedelta(self, path): + # see gh-19242, gh-9155 + # + # Test writing timedelta to xls. + df = DataFrame( + np.random.default_rng(2).integers(-10, 10, size=(20, 1)), + columns=["A"], + dtype=np.int64, + ) + expected = df.copy() + + df["new"] = df["A"].apply(lambda x: timedelta(seconds=x)) + expected["new"] = expected["A"].apply( + lambda x: timedelta(seconds=x).total_seconds() / 86400 + ) + + df.to_excel(path, sheet_name="test1") + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=0) + tm.assert_frame_equal(expected, recons) + + def test_to_excel_periodindex(self, path): + # xp has a PeriodIndex + df = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=5, freq="B"), + ) + xp = df.resample("ME").mean().to_period("M") + + xp.to_excel(path, sheet_name="sht1") + + with ExcelFile(path) as reader: + rs = pd.read_excel(reader, sheet_name="sht1", index_col=0) + tm.assert_frame_equal(xp, rs.to_period("M")) + + def test_to_excel_multiindex(self, merge_cells, frame, path): + arrays = np.arange(len(frame.index) * 2, dtype=np.int64).reshape(2, -1) + new_index = MultiIndex.from_arrays(arrays, names=["first", "second"]) + frame.index = new_index + + frame.to_excel(path, sheet_name="test1", header=False) + frame.to_excel(path, sheet_name="test1", columns=["A", "B"]) + + # round trip + frame.to_excel(path, sheet_name="test1", merge_cells=merge_cells) + with ExcelFile(path) as reader: + df = pd.read_excel(reader, sheet_name="test1", index_col=[0, 1]) + tm.assert_frame_equal(frame, df) + + # GH13511 + def test_to_excel_multiindex_nan_label(self, merge_cells, path): + df = DataFrame( + { + "A": [None, 2, 3], + "B": [10, 20, 30], + "C": np.random.default_rng(2).random(3), + } + ) + df = df.set_index(["A", "B"]) + + df.to_excel(path, merge_cells=merge_cells) + df1 = pd.read_excel(path, index_col=[0, 1]) + tm.assert_frame_equal(df, df1) + + # Test for Issue 11328. If column indices are integers, make + # sure they are handled correctly for either setting of + # merge_cells + def test_to_excel_multiindex_cols(self, merge_cells, frame, path): + arrays = np.arange(len(frame.index) * 2, dtype=np.int64).reshape(2, -1) + new_index = MultiIndex.from_arrays(arrays, names=["first", "second"]) + frame.index = new_index + + new_cols_index = MultiIndex.from_tuples([(40, 1), (40, 2), (50, 1), (50, 2)]) + frame.columns = new_cols_index + header = [0, 1] + if not merge_cells: + header = 0 + + # round trip + frame.to_excel(path, sheet_name="test1", merge_cells=merge_cells) + with ExcelFile(path) as reader: + df = pd.read_excel( + reader, sheet_name="test1", header=header, index_col=[0, 1] + ) + if not merge_cells: + fm = frame.columns._format_multi(sparsify=False, include_names=False) + frame.columns = [".".join(map(str, q)) for q in zip(*fm)] + tm.assert_frame_equal(frame, df) + + def test_to_excel_multiindex_dates(self, merge_cells, path): + # try multiindex with dates + unit = get_exp_unit(path) + tsframe = DataFrame( + np.random.default_rng(2).standard_normal((5, 4)), + columns=Index(list("ABCD")), + index=date_range("2000-01-01", periods=5, freq="B"), + ) + tsframe.index = MultiIndex.from_arrays( + [ + tsframe.index.as_unit(unit), + np.arange(len(tsframe.index), dtype=np.int64), + ], + names=["time", "foo"], + ) + + tsframe.to_excel(path, sheet_name="test1", merge_cells=merge_cells) + with ExcelFile(path) as reader: + recons = pd.read_excel(reader, sheet_name="test1", index_col=[0, 1]) + + tm.assert_frame_equal(tsframe, recons) + assert recons.index.names == ("time", "foo") + + def test_to_excel_multiindex_no_write_index(self, path): + # Test writing and re-reading a MI without the index. GH 5616. + + # Initial non-MI frame. + frame1 = DataFrame({"a": [10, 20], "b": [30, 40], "c": [50, 60]}) + + # Add a MI. + frame2 = frame1.copy() + multi_index = MultiIndex.from_tuples([(70, 80), (90, 100)]) + frame2.index = multi_index + + # Write out to Excel without the index. + frame2.to_excel(path, sheet_name="test1", index=False) + + # Read it back in. + with ExcelFile(path) as reader: + frame3 = pd.read_excel(reader, sheet_name="test1") + + # Test that it is the same as the initial frame. + tm.assert_frame_equal(frame1, frame3) + + def test_to_excel_empty_multiindex(self, path): + # GH 19543. + expected = DataFrame([], columns=[0, 1, 2]) + + df = DataFrame([], index=MultiIndex.from_tuples([], names=[0, 1]), columns=[2]) + df.to_excel(path, sheet_name="test1") + + with ExcelFile(path) as reader: + result = pd.read_excel(reader, sheet_name="test1") + tm.assert_frame_equal( + result, expected, check_index_type=False, check_dtype=False + ) + + def test_to_excel_float_format(self, path): + df = DataFrame( + [[0.123456, 0.234567, 0.567567], [12.32112, 123123.2, 321321.2]], + index=["A", "B"], + columns=["X", "Y", "Z"], + ) + df.to_excel(path, sheet_name="test1", float_format="%.2f") + + with ExcelFile(path) as reader: + result = pd.read_excel(reader, sheet_name="test1", index_col=0) + + expected = DataFrame( + [[0.12, 0.23, 0.57], [12.32, 123123.20, 321321.20]], + index=["A", "B"], + columns=["X", "Y", "Z"], + ) + tm.assert_frame_equal(result, expected) + + def test_to_excel_output_encoding(self, ext): + # Avoid mixed inferred_type. + df = DataFrame( + [["\u0192", "\u0193", "\u0194"], ["\u0195", "\u0196", "\u0197"]], + index=["A\u0192", "B"], + columns=["X\u0193", "Y", "Z"], + ) + + with tm.ensure_clean("__tmp_to_excel_float_format__." + ext) as filename: + df.to_excel(filename, sheet_name="TestSheet") + result = pd.read_excel(filename, sheet_name="TestSheet", index_col=0) + tm.assert_frame_equal(result, df) + + def test_to_excel_unicode_filename(self, ext): + with tm.ensure_clean("\u0192u." + ext) as filename: + try: + with open(filename, "wb"): + pass + except UnicodeEncodeError: + pytest.skip("No unicode file names on this system") + + df = DataFrame( + [[0.123456, 0.234567, 0.567567], [12.32112, 123123.2, 321321.2]], + index=["A", "B"], + columns=["X", "Y", "Z"], + ) + df.to_excel(filename, sheet_name="test1", float_format="%.2f") + + with ExcelFile(filename) as reader: + result = pd.read_excel(reader, sheet_name="test1", index_col=0) + + expected = DataFrame( + [[0.12, 0.23, 0.57], [12.32, 123123.20, 321321.20]], + index=["A", "B"], + columns=["X", "Y", "Z"], + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("use_headers", [True, False]) + @pytest.mark.parametrize("r_idx_nlevels", [1, 2, 3]) + @pytest.mark.parametrize("c_idx_nlevels", [1, 2, 3]) + def test_excel_010_hemstring( + self, merge_cells, c_idx_nlevels, r_idx_nlevels, use_headers, path + ): + def roundtrip(data, header=True, parser_hdr=0, index=True): + data.to_excel(path, header=header, merge_cells=merge_cells, index=index) + + with ExcelFile(path) as xf: + return pd.read_excel( + xf, sheet_name=xf.sheet_names[0], header=parser_hdr + ) + + # Basic test. + parser_header = 0 if use_headers else None + res = roundtrip(DataFrame([0]), use_headers, parser_header) + + assert res.shape == (1, 2) + assert res.iloc[0, 0] is not np.nan + + # More complex tests with multi-index. + nrows = 5 + ncols = 3 + + # ensure limited functionality in 0.10 + # override of gh-2370 until sorted out in 0.11 + + if c_idx_nlevels == 1: + columns = Index([f"a-{i}" for i in range(ncols)], dtype=object) + else: + columns = MultiIndex.from_arrays( + [range(ncols) for _ in range(c_idx_nlevels)], + names=[f"i-{i}" for i in range(c_idx_nlevels)], + ) + if r_idx_nlevels == 1: + index = Index([f"b-{i}" for i in range(nrows)], dtype=object) + else: + index = MultiIndex.from_arrays( + [range(nrows) for _ in range(r_idx_nlevels)], + names=[f"j-{i}" for i in range(r_idx_nlevels)], + ) + + df = DataFrame( + np.ones((nrows, ncols)), + columns=columns, + index=index, + ) + + # This if will be removed once multi-column Excel writing + # is implemented. For now fixing gh-9794. + if c_idx_nlevels > 1: + msg = ( + "Writing to Excel with MultiIndex columns and no index " + "\\('index'=False\\) is not yet implemented." + ) + with pytest.raises(NotImplementedError, match=msg): + roundtrip(df, use_headers, index=False) + else: + res = roundtrip(df, use_headers) + + if use_headers: + assert res.shape == (nrows, ncols + r_idx_nlevels) + else: + # First row taken as columns. + assert res.shape == (nrows - 1, ncols + r_idx_nlevels) + + # No NaNs. + for r in range(len(res.index)): + for c in range(len(res.columns)): + assert res.iloc[r, c] is not np.nan + + def test_duplicated_columns(self, path): + # see gh-5235 + df = DataFrame([[1, 2, 3], [1, 2, 3], [1, 2, 3]], columns=["A", "B", "B"]) + df.to_excel(path, sheet_name="test1") + expected = DataFrame( + [[1, 2, 3], [1, 2, 3], [1, 2, 3]], columns=["A", "B", "B.1"] + ) + + # By default, we mangle. + result = pd.read_excel(path, sheet_name="test1", index_col=0) + tm.assert_frame_equal(result, expected) + + # see gh-11007, gh-10970 + df = DataFrame([[1, 2, 3, 4], [5, 6, 7, 8]], columns=["A", "B", "A", "B"]) + df.to_excel(path, sheet_name="test1") + + result = pd.read_excel(path, sheet_name="test1", index_col=0) + expected = DataFrame( + [[1, 2, 3, 4], [5, 6, 7, 8]], columns=["A", "B", "A.1", "B.1"] + ) + tm.assert_frame_equal(result, expected) + + # see gh-10982 + df.to_excel(path, sheet_name="test1", index=False, header=False) + result = pd.read_excel(path, sheet_name="test1", header=None) + + expected = DataFrame([[1, 2, 3, 4], [5, 6, 7, 8]]) + tm.assert_frame_equal(result, expected) + + def test_swapped_columns(self, path): + # Test for issue #5427. + write_frame = DataFrame({"A": [1, 1, 1], "B": [2, 2, 2]}) + write_frame.to_excel(path, sheet_name="test1", columns=["B", "A"]) + + read_frame = pd.read_excel(path, sheet_name="test1", header=0) + + tm.assert_series_equal(write_frame["A"], read_frame["A"]) + tm.assert_series_equal(write_frame["B"], read_frame["B"]) + + def test_invalid_columns(self, path): + # see gh-10982 + write_frame = DataFrame({"A": [1, 1, 1], "B": [2, 2, 2]}) + + with pytest.raises(KeyError, match="Not all names specified"): + write_frame.to_excel(path, sheet_name="test1", columns=["B", "C"]) + + with pytest.raises( + KeyError, match="'passes columns are not ALL present dataframe'" + ): + write_frame.to_excel(path, sheet_name="test1", columns=["C", "D"]) + + @pytest.mark.parametrize( + "to_excel_index,read_excel_index_col", + [ + (True, 0), # Include index in write to file + (False, None), # Dont include index in write to file + ], + ) + def test_write_subset_columns(self, path, to_excel_index, read_excel_index_col): + # GH 31677 + write_frame = DataFrame({"A": [1, 1, 1], "B": [2, 2, 2], "C": [3, 3, 3]}) + write_frame.to_excel( + path, sheet_name="col_subset_bug", columns=["A", "B"], index=to_excel_index + ) + + expected = write_frame[["A", "B"]] + read_frame = pd.read_excel( + path, sheet_name="col_subset_bug", index_col=read_excel_index_col + ) + + tm.assert_frame_equal(expected, read_frame) + + def test_comment_arg(self, path): + # see gh-18735 + # + # Test the comment argument functionality to pd.read_excel. + + # Create file to read in. + df = DataFrame({"A": ["one", "#one", "one"], "B": ["two", "two", "#two"]}) + df.to_excel(path, sheet_name="test_c") + + # Read file without comment arg. + result1 = pd.read_excel(path, sheet_name="test_c", index_col=0) + + result1.iloc[1, 0] = None + result1.iloc[1, 1] = None + result1.iloc[2, 1] = None + + result2 = pd.read_excel(path, sheet_name="test_c", comment="#", index_col=0) + tm.assert_frame_equal(result1, result2) + + def test_comment_default(self, path): + # Re issue #18735 + # Test the comment argument default to pd.read_excel + + # Create file to read in + df = DataFrame({"A": ["one", "#one", "one"], "B": ["two", "two", "#two"]}) + df.to_excel(path, sheet_name="test_c") + + # Read file with default and explicit comment=None + result1 = pd.read_excel(path, sheet_name="test_c") + result2 = pd.read_excel(path, sheet_name="test_c", comment=None) + tm.assert_frame_equal(result1, result2) + + def test_comment_used(self, path): + # see gh-18735 + # + # Test the comment argument is working as expected when used. + + # Create file to read in. + df = DataFrame({"A": ["one", "#one", "one"], "B": ["two", "two", "#two"]}) + df.to_excel(path, sheet_name="test_c") + + # Test read_frame_comment against manually produced expected output. + expected = DataFrame({"A": ["one", None, "one"], "B": ["two", None, None]}) + result = pd.read_excel(path, sheet_name="test_c", comment="#", index_col=0) + tm.assert_frame_equal(result, expected) + + def test_comment_empty_line(self, path): + # Re issue #18735 + # Test that pd.read_excel ignores commented lines at the end of file + + df = DataFrame({"a": ["1", "#2"], "b": ["2", "3"]}) + df.to_excel(path, index=False) + + # Test that all-comment lines at EoF are ignored + expected = DataFrame({"a": [1], "b": [2]}) + result = pd.read_excel(path, comment="#") + tm.assert_frame_equal(result, expected) + + def test_datetimes(self, path): + # Test writing and reading datetimes. For issue #9139. (xref #9185) + unit = get_exp_unit(path) + datetimes = [ + datetime(2013, 1, 13, 1, 2, 3), + datetime(2013, 1, 13, 2, 45, 56), + datetime(2013, 1, 13, 4, 29, 49), + datetime(2013, 1, 13, 6, 13, 42), + datetime(2013, 1, 13, 7, 57, 35), + datetime(2013, 1, 13, 9, 41, 28), + datetime(2013, 1, 13, 11, 25, 21), + datetime(2013, 1, 13, 13, 9, 14), + datetime(2013, 1, 13, 14, 53, 7), + datetime(2013, 1, 13, 16, 37, 0), + datetime(2013, 1, 13, 18, 20, 52), + ] + + write_frame = DataFrame({"A": datetimes}) + write_frame.to_excel(path, sheet_name="Sheet1") + read_frame = pd.read_excel(path, sheet_name="Sheet1", header=0) + + expected = write_frame.astype(f"M8[{unit}]") + tm.assert_series_equal(expected["A"], read_frame["A"]) + + def test_bytes_io(self, engine): + # see gh-7074 + with BytesIO() as bio: + df = DataFrame(np.random.default_rng(2).standard_normal((10, 2))) + + # Pass engine explicitly, as there is no file path to infer from. + with ExcelWriter(bio, engine=engine) as writer: + df.to_excel(writer) + + bio.seek(0) + reread_df = pd.read_excel(bio, index_col=0) + tm.assert_frame_equal(df, reread_df) + + def test_engine_kwargs(self, engine, path): + # GH#52368 + df = DataFrame([{"A": 1, "B": 2}, {"A": 3, "B": 4}]) + + msgs = { + "odf": r"OpenDocumentSpreadsheet() got an unexpected keyword " + r"argument 'foo'", + "openpyxl": r"__init__() got an unexpected keyword argument 'foo'", + "xlsxwriter": r"__init__() got an unexpected keyword argument 'foo'", + } + + if PY310: + msgs[ + "openpyxl" + ] = "Workbook.__init__() got an unexpected keyword argument 'foo'" + msgs[ + "xlsxwriter" + ] = "Workbook.__init__() got an unexpected keyword argument 'foo'" + + # Handle change in error message for openpyxl (write and append mode) + if engine == "openpyxl" and not os.path.exists(path): + msgs[ + "openpyxl" + ] = r"load_workbook() got an unexpected keyword argument 'foo'" + + with pytest.raises(TypeError, match=re.escape(msgs[engine])): + df.to_excel( + path, + engine=engine, + engine_kwargs={"foo": "bar"}, + ) + + def test_write_lists_dict(self, path): + # see gh-8188. + df = DataFrame( + { + "mixed": ["a", ["b", "c"], {"d": "e", "f": 2}], + "numeric": [1, 2, 3.0], + "str": ["apple", "banana", "cherry"], + } + ) + df.to_excel(path, sheet_name="Sheet1") + read = pd.read_excel(path, sheet_name="Sheet1", header=0, index_col=0) + + expected = df.copy() + expected.mixed = expected.mixed.apply(str) + expected.numeric = expected.numeric.astype("int64") + + tm.assert_frame_equal(read, expected) + + def test_render_as_column_name(self, path): + # see gh-34331 + df = DataFrame({"render": [1, 2], "data": [3, 4]}) + df.to_excel(path, sheet_name="Sheet1") + read = pd.read_excel(path, "Sheet1", index_col=0) + expected = df + tm.assert_frame_equal(read, expected) + + def test_true_and_false_value_options(self, path): + # see gh-13347 + df = DataFrame([["foo", "bar"]], columns=["col1", "col2"], dtype=object) + with option_context("future.no_silent_downcasting", True): + expected = df.replace({"foo": True, "bar": False}).astype("bool") + + df.to_excel(path) + read_frame = pd.read_excel( + path, true_values=["foo"], false_values=["bar"], index_col=0 + ) + tm.assert_frame_equal(read_frame, expected) + + def test_freeze_panes(self, path): + # see gh-15160 + expected = DataFrame([[1, 2], [3, 4]], columns=["col1", "col2"]) + expected.to_excel(path, sheet_name="Sheet1", freeze_panes=(1, 1)) + + result = pd.read_excel(path, index_col=0) + tm.assert_frame_equal(result, expected) + + def test_path_path_lib(self, engine, ext): + df = DataFrame( + 1.1 * np.arange(120).reshape((30, 4)), + columns=Index(list("ABCD")), + index=Index([f"i-{i}" for i in range(30)]), + ) + writer = partial(df.to_excel, engine=engine) + + reader = partial(pd.read_excel, index_col=0) + result = tm.round_trip_pathlib(writer, reader, path=f"foo{ext}") + tm.assert_frame_equal(result, df) + + def test_path_local_path(self, engine, ext): + df = DataFrame( + 1.1 * np.arange(120).reshape((30, 4)), + columns=Index(list("ABCD")), + index=Index([f"i-{i}" for i in range(30)]), + ) + writer = partial(df.to_excel, engine=engine) + + reader = partial(pd.read_excel, index_col=0) + result = tm.round_trip_localpath(writer, reader, path=f"foo{ext}") + tm.assert_frame_equal(result, df) + + def test_merged_cell_custom_objects(self, path): + # see GH-27006 + mi = MultiIndex.from_tuples( + [ + (pd.Period("2018"), pd.Period("2018Q1")), + (pd.Period("2018"), pd.Period("2018Q2")), + ] + ) + expected = DataFrame(np.ones((2, 2), dtype="int64"), columns=mi) + expected.to_excel(path) + result = pd.read_excel(path, header=[0, 1], index_col=0) + # need to convert PeriodIndexes to standard Indexes for assert equal + expected.columns = expected.columns.set_levels( + [[str(i) for i in mi.levels[0]], [str(i) for i in mi.levels[1]]], + level=[0, 1], + ) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize("dtype", [None, object]) + def test_raise_when_saving_timezones(self, dtype, tz_aware_fixture, path): + # GH 27008, GH 7056 + tz = tz_aware_fixture + data = pd.Timestamp("2019", tz=tz) + df = DataFrame([data], dtype=dtype) + with pytest.raises(ValueError, match="Excel does not support"): + df.to_excel(path) + + data = data.to_pydatetime() + df = DataFrame([data], dtype=dtype) + with pytest.raises(ValueError, match="Excel does not support"): + df.to_excel(path) + + def test_excel_duplicate_columns_with_names(self, path): + # GH#39695 + df = DataFrame({"A": [0, 1], "B": [10, 11]}) + df.to_excel(path, columns=["A", "B", "A"], index=False) + + result = pd.read_excel(path) + expected = DataFrame([[0, 10, 0], [1, 11, 1]], columns=["A", "B", "A.1"]) + tm.assert_frame_equal(result, expected) + + def test_if_sheet_exists_raises(self, ext): + # GH 40230 + msg = "if_sheet_exists is only valid in append mode (mode='a')" + + with tm.ensure_clean(ext) as f: + with pytest.raises(ValueError, match=re.escape(msg)): + ExcelWriter(f, if_sheet_exists="replace") + + def test_excel_writer_empty_frame(self, engine, ext): + # GH#45793 + with tm.ensure_clean(ext) as path: + with ExcelWriter(path, engine=engine) as writer: + DataFrame().to_excel(writer) + result = pd.read_excel(path) + expected = DataFrame() + tm.assert_frame_equal(result, expected) + + def test_to_excel_empty_frame(self, engine, ext): + # GH#45793 + with tm.ensure_clean(ext) as path: + DataFrame().to_excel(path, engine=engine) + result = pd.read_excel(path) + expected = DataFrame() + tm.assert_frame_equal(result, expected) + + +class TestExcelWriterEngineTests: + @pytest.mark.parametrize( + "klass,ext", + [ + pytest.param(_XlsxWriter, ".xlsx", marks=td.skip_if_no("xlsxwriter")), + pytest.param(_OpenpyxlWriter, ".xlsx", marks=td.skip_if_no("openpyxl")), + ], + ) + def test_ExcelWriter_dispatch(self, klass, ext): + with tm.ensure_clean(ext) as path: + with ExcelWriter(path) as writer: + if ext == ".xlsx" and bool( + import_optional_dependency("xlsxwriter", errors="ignore") + ): + # xlsxwriter has preference over openpyxl if both installed + assert isinstance(writer, _XlsxWriter) + else: + assert isinstance(writer, klass) + + def test_ExcelWriter_dispatch_raises(self): + with pytest.raises(ValueError, match="No engine"): + ExcelWriter("nothing") + + def test_register_writer(self): + class DummyClass(ExcelWriter): + called_save = False + called_write_cells = False + called_sheets = False + _supported_extensions = ("xlsx", "xls") + _engine = "dummy" + + def book(self): + pass + + def _save(self): + type(self).called_save = True + + def _write_cells(self, *args, **kwargs): + type(self).called_write_cells = True + + @property + def sheets(self): + type(self).called_sheets = True + + @classmethod + def assert_called_and_reset(cls): + assert cls.called_save + assert cls.called_write_cells + assert not cls.called_sheets + cls.called_save = False + cls.called_write_cells = False + + register_writer(DummyClass) + + with option_context("io.excel.xlsx.writer", "dummy"): + path = "something.xlsx" + with tm.ensure_clean(path) as filepath: + with ExcelWriter(filepath) as writer: + assert isinstance(writer, DummyClass) + df = DataFrame( + ["a"], + columns=Index(["b"], name="foo"), + index=Index(["c"], name="bar"), + ) + df.to_excel(filepath) + DummyClass.assert_called_and_reset() + + with tm.ensure_clean("something.xls") as filepath: + df.to_excel(filepath, engine="dummy") + DummyClass.assert_called_and_reset() + + +@td.skip_if_no("xlrd") +@td.skip_if_no("openpyxl") +class TestFSPath: + def test_excelfile_fspath(self): + with tm.ensure_clean("foo.xlsx") as path: + df = DataFrame({"A": [1, 2]}) + df.to_excel(path) + with ExcelFile(path) as xl: + result = os.fspath(xl) + assert result == path + + def test_excelwriter_fspath(self): + with tm.ensure_clean("foo.xlsx") as path: + with ExcelWriter(path) as writer: + assert os.fspath(writer) == str(path) + + def test_to_excel_pos_args_deprecation(self): + # GH-54229 + df = DataFrame({"a": [1, 2, 3]}) + msg = ( + r"Starting with pandas version 3.0 all arguments of to_excel except " + r"for the argument 'excel_writer' will be keyword-only." + ) + with tm.assert_produces_warning(FutureWarning, match=msg): + buf = BytesIO() + writer = ExcelWriter(buf) + df.to_excel(writer, "Sheet_name_1") + + +@pytest.mark.parametrize("klass", _writers.values()) +def test_subclass_attr(klass): + # testing that subclasses of ExcelWriter don't have public attributes (issue 49602) + attrs_base = {name for name in dir(ExcelWriter) if not name.startswith("_")} + attrs_klass = {name for name in dir(klass) if not name.startswith("_")} + assert not attrs_base.symmetric_difference(attrs_klass) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlrd.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlrd.py new file mode 100644 index 0000000000000000000000000000000000000000..066393d91eeadcdc08873f4ffeedda0f689337fe --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlrd.py @@ -0,0 +1,76 @@ +import io + +import numpy as np +import pytest + +from pandas.compat import is_platform_windows + +import pandas as pd +import pandas._testing as tm + +from pandas.io.excel import ExcelFile +from pandas.io.excel._base import inspect_excel_format + +xlrd = pytest.importorskip("xlrd") + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +@pytest.fixture(params=[".xls"]) +def read_ext_xlrd(request): + """ + Valid extensions for reading Excel files with xlrd. + + Similar to read_ext, but excludes .ods, .xlsb, and for xlrd>2 .xlsx, .xlsm + """ + return request.param + + +def test_read_xlrd_book(read_ext_xlrd, datapath): + engine = "xlrd" + sheet_name = "Sheet1" + pth = datapath("io", "data", "excel", "test1.xls") + with xlrd.open_workbook(pth) as book: + with ExcelFile(book, engine=engine) as xl: + result = pd.read_excel(xl, sheet_name=sheet_name, index_col=0) + + expected = pd.read_excel( + book, sheet_name=sheet_name, engine=engine, index_col=0 + ) + tm.assert_frame_equal(result, expected) + + +def test_read_xlsx_fails(datapath): + # GH 29375 + from xlrd.biffh import XLRDError + + path = datapath("io", "data", "excel", "test1.xlsx") + with pytest.raises(XLRDError, match="Excel xlsx file; not supported"): + pd.read_excel(path, engine="xlrd") + + +def test_nan_in_xls(datapath): + # GH 54564 + path = datapath("io", "data", "excel", "test6.xls") + + expected = pd.DataFrame({0: np.r_[0, 2].astype("int64"), 1: np.r_[1, np.nan]}) + + result = pd.read_excel(path, header=None) + + tm.assert_frame_equal(result, expected) + + +@pytest.mark.parametrize( + "file_header", + [ + b"\x09\x00\x04\x00\x07\x00\x10\x00", + b"\x09\x02\x06\x00\x00\x00\x10\x00", + b"\x09\x04\x06\x00\x00\x00\x10\x00", + b"\xd0\xcf\x11\xe0\xa1\xb1\x1a\xe1", + ], +) +def test_read_old_xls_files(file_header): + # GH 41226 + f = io.BytesIO(file_header) + assert inspect_excel_format(f) == "xls" diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlsxwriter.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlsxwriter.py new file mode 100644 index 0000000000000000000000000000000000000000..529367761fc025e3e5d02bea85741c82f64c97ca --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/excel/test_xlsxwriter.py @@ -0,0 +1,86 @@ +import contextlib + +import pytest + +from pandas.compat import is_platform_windows + +from pandas import DataFrame +import pandas._testing as tm + +from pandas.io.excel import ExcelWriter + +xlsxwriter = pytest.importorskip("xlsxwriter") + +if is_platform_windows(): + pytestmark = pytest.mark.single_cpu + + +@pytest.fixture +def ext(): + return ".xlsx" + + +def test_column_format(ext): + # Test that column formats are applied to cells. Test for issue #9167. + # Applicable to xlsxwriter only. + openpyxl = pytest.importorskip("openpyxl") + + with tm.ensure_clean(ext) as path: + frame = DataFrame({"A": [123456, 123456], "B": [123456, 123456]}) + + with ExcelWriter(path) as writer: + frame.to_excel(writer) + + # Add a number format to col B and ensure it is applied to cells. + num_format = "#,##0" + write_workbook = writer.book + write_worksheet = write_workbook.worksheets()[0] + col_format = write_workbook.add_format({"num_format": num_format}) + write_worksheet.set_column("B:B", None, col_format) + + with contextlib.closing(openpyxl.load_workbook(path)) as read_workbook: + try: + read_worksheet = read_workbook["Sheet1"] + except TypeError: + # compat + read_worksheet = read_workbook.get_sheet_by_name(name="Sheet1") + + # Get the number format from the cell. + try: + cell = read_worksheet["B2"] + except TypeError: + # compat + cell = read_worksheet.cell("B2") + + try: + read_num_format = cell.number_format + except AttributeError: + read_num_format = cell.style.number_format._format_code + + assert read_num_format == num_format + + +def test_write_append_mode_raises(ext): + msg = "Append mode is not supported with xlsxwriter!" + + with tm.ensure_clean(ext) as f: + with pytest.raises(ValueError, match=msg): + ExcelWriter(f, engine="xlsxwriter", mode="a") + + +@pytest.mark.parametrize("nan_inf_to_errors", [True, False]) +def test_engine_kwargs(ext, nan_inf_to_errors): + # GH 42286 + engine_kwargs = {"options": {"nan_inf_to_errors": nan_inf_to_errors}} + with tm.ensure_clean(ext) as f: + with ExcelWriter(f, engine="xlsxwriter", engine_kwargs=engine_kwargs) as writer: + assert writer.book.nan_inf_to_errors == nan_inf_to_errors + + +def test_book_and_sheets_consistent(ext): + # GH#45687 - Ensure sheets is updated if user modifies book + with tm.ensure_clean(ext) as f: + with ExcelWriter(f, engine="xlsxwriter") as writer: + assert writer.sheets == {} + sheet = writer.book.add_worksheet("test_name") + assert writer.sheets == {"test_name": sheet} diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/__init__.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_bar.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_bar.py new file mode 100644 index 0000000000000000000000000000000000000000..d28c7c566d851f16f81cdc04f22e04ca8bde2c71 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_bar.py @@ -0,0 +1,359 @@ +import io + +import numpy as np +import pytest + +from pandas import ( + NA, + DataFrame, + read_csv, +) + +pytest.importorskip("jinja2") + + +def bar_grad(a=None, b=None, c=None, d=None): + """Used in multiple tests to simplify formatting of expected result""" + ret = [("width", "10em")] + if all(x is None for x in [a, b, c, d]): + return ret + return ret + [ + ( + "background", + f"linear-gradient(90deg,{','.join([x for x in [a, b, c, d] if x])})", + ) + ] + + +def no_bar(): + return bar_grad() + + +def bar_to(x, color="#d65f5f"): + return bar_grad(f" {color} {x:.1f}%", f" transparent {x:.1f}%") + + +def bar_from_to(x, y, color="#d65f5f"): + return bar_grad( + f" transparent {x:.1f}%", + f" {color} {x:.1f}%", + f" {color} {y:.1f}%", + f" transparent {y:.1f}%", + ) + + +@pytest.fixture +def df_pos(): + return DataFrame([[1], [2], [3]]) + + +@pytest.fixture +def df_neg(): + return DataFrame([[-1], [-2], [-3]]) + + +@pytest.fixture +def df_mix(): + return DataFrame([[-3], [1], [2]]) + + +@pytest.mark.parametrize( + "align, exp", + [ + ("left", [no_bar(), bar_to(50), bar_to(100)]), + ("right", [bar_to(100), bar_from_to(50, 100), no_bar()]), + ("mid", [bar_to(33.33), bar_to(66.66), bar_to(100)]), + ("zero", [bar_from_to(50, 66.7), bar_from_to(50, 83.3), bar_from_to(50, 100)]), + ("mean", [bar_to(50), no_bar(), bar_from_to(50, 100)]), + (2.0, [bar_to(50), no_bar(), bar_from_to(50, 100)]), + (np.median, [bar_to(50), no_bar(), bar_from_to(50, 100)]), + ], +) +def test_align_positive_cases(df_pos, align, exp): + # test different align cases for all positive values + result = df_pos.style.bar(align=align)._compute().ctx + expected = {(0, 0): exp[0], (1, 0): exp[1], (2, 0): exp[2]} + assert result == expected + + +@pytest.mark.parametrize( + "align, exp", + [ + ("left", [bar_to(100), bar_to(50), no_bar()]), + ("right", [no_bar(), bar_from_to(50, 100), bar_to(100)]), + ("mid", [bar_from_to(66.66, 100), bar_from_to(33.33, 100), bar_to(100)]), + ("zero", [bar_from_to(33.33, 50), bar_from_to(16.66, 50), bar_to(50)]), + ("mean", [bar_from_to(50, 100), no_bar(), bar_to(50)]), + (-2.0, [bar_from_to(50, 100), no_bar(), bar_to(50)]), + (np.median, [bar_from_to(50, 100), no_bar(), bar_to(50)]), + ], +) +def test_align_negative_cases(df_neg, align, exp): + # test different align cases for all negative values + result = df_neg.style.bar(align=align)._compute().ctx + expected = {(0, 0): exp[0], (1, 0): exp[1], (2, 0): exp[2]} + assert result == expected + + +@pytest.mark.parametrize( + "align, exp", + [ + ("left", [no_bar(), bar_to(80), bar_to(100)]), + ("right", [bar_to(100), bar_from_to(80, 100), no_bar()]), + ("mid", [bar_to(60), bar_from_to(60, 80), bar_from_to(60, 100)]), + ("zero", [bar_to(50), bar_from_to(50, 66.66), bar_from_to(50, 83.33)]), + ("mean", [bar_to(50), bar_from_to(50, 66.66), bar_from_to(50, 83.33)]), + (-0.0, [bar_to(50), bar_from_to(50, 66.66), bar_from_to(50, 83.33)]), + (np.nanmedian, [bar_to(50), no_bar(), bar_from_to(50, 62.5)]), + ], +) +@pytest.mark.parametrize("nans", [True, False]) +def test_align_mixed_cases(df_mix, align, exp, nans): + # test different align cases for mixed positive and negative values + # also test no impact of NaNs and no_bar + expected = {(0, 0): exp[0], (1, 0): exp[1], (2, 0): exp[2]} + if nans: + df_mix.loc[3, :] = np.nan + expected.update({(3, 0): no_bar()}) + result = df_mix.style.bar(align=align)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "align, exp", + [ + ( + "left", + { + "index": [[no_bar(), no_bar()], [bar_to(100), bar_to(100)]], + "columns": [[no_bar(), bar_to(100)], [no_bar(), bar_to(100)]], + "none": [[no_bar(), bar_to(33.33)], [bar_to(66.66), bar_to(100)]], + }, + ), + ( + "mid", + { + "index": [[bar_to(33.33), bar_to(50)], [bar_to(100), bar_to(100)]], + "columns": [[bar_to(50), bar_to(100)], [bar_to(75), bar_to(100)]], + "none": [[bar_to(25), bar_to(50)], [bar_to(75), bar_to(100)]], + }, + ), + ( + "zero", + { + "index": [ + [bar_from_to(50, 66.66), bar_from_to(50, 75)], + [bar_from_to(50, 100), bar_from_to(50, 100)], + ], + "columns": [ + [bar_from_to(50, 75), bar_from_to(50, 100)], + [bar_from_to(50, 87.5), bar_from_to(50, 100)], + ], + "none": [ + [bar_from_to(50, 62.5), bar_from_to(50, 75)], + [bar_from_to(50, 87.5), bar_from_to(50, 100)], + ], + }, + ), + ( + 2, + { + "index": [ + [bar_to(50), no_bar()], + [bar_from_to(50, 100), bar_from_to(50, 100)], + ], + "columns": [ + [bar_to(50), no_bar()], + [bar_from_to(50, 75), bar_from_to(50, 100)], + ], + "none": [ + [bar_from_to(25, 50), no_bar()], + [bar_from_to(50, 75), bar_from_to(50, 100)], + ], + }, + ), + ], +) +@pytest.mark.parametrize("axis", ["index", "columns", "none"]) +def test_align_axis(align, exp, axis): + # test all axis combinations with positive values and different aligns + data = DataFrame([[1, 2], [3, 4]]) + result = ( + data.style.bar(align=align, axis=None if axis == "none" else axis) + ._compute() + .ctx + ) + expected = { + (0, 0): exp[axis][0][0], + (0, 1): exp[axis][0][1], + (1, 0): exp[axis][1][0], + (1, 1): exp[axis][1][1], + } + assert result == expected + + +@pytest.mark.parametrize( + "values, vmin, vmax", + [ + ("positive", 1.5, 2.5), + ("negative", -2.5, -1.5), + ("mixed", -2.5, 1.5), + ], +) +@pytest.mark.parametrize("nullify", [None, "vmin", "vmax"]) # test min/max separately +@pytest.mark.parametrize("align", ["left", "right", "zero", "mid"]) +def test_vmin_vmax_clipping(df_pos, df_neg, df_mix, values, vmin, vmax, nullify, align): + # test that clipping occurs if any vmin > data_values or vmax < data_values + if align == "mid": # mid acts as left or right in each case + if values == "positive": + align = "left" + elif values == "negative": + align = "right" + df = {"positive": df_pos, "negative": df_neg, "mixed": df_mix}[values] + vmin = None if nullify == "vmin" else vmin + vmax = None if nullify == "vmax" else vmax + + clip_df = df.where(df <= (vmax if vmax else 999), other=vmax) + clip_df = clip_df.where(clip_df >= (vmin if vmin else -999), other=vmin) + + result = ( + df.style.bar(align=align, vmin=vmin, vmax=vmax, color=["red", "green"]) + ._compute() + .ctx + ) + expected = clip_df.style.bar(align=align, color=["red", "green"])._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "values, vmin, vmax", + [ + ("positive", 0.5, 4.5), + ("negative", -4.5, -0.5), + ("mixed", -4.5, 4.5), + ], +) +@pytest.mark.parametrize("nullify", [None, "vmin", "vmax"]) # test min/max separately +@pytest.mark.parametrize("align", ["left", "right", "zero", "mid"]) +def test_vmin_vmax_widening(df_pos, df_neg, df_mix, values, vmin, vmax, nullify, align): + # test that widening occurs if any vmax > data_values or vmin < data_values + if align == "mid": # mid acts as left or right in each case + if values == "positive": + align = "left" + elif values == "negative": + align = "right" + df = {"positive": df_pos, "negative": df_neg, "mixed": df_mix}[values] + vmin = None if nullify == "vmin" else vmin + vmax = None if nullify == "vmax" else vmax + + expand_df = df.copy() + expand_df.loc[3, :], expand_df.loc[4, :] = vmin, vmax + + result = ( + df.style.bar(align=align, vmin=vmin, vmax=vmax, color=["red", "green"]) + ._compute() + .ctx + ) + expected = expand_df.style.bar(align=align, color=["red", "green"])._compute().ctx + assert result.items() <= expected.items() + + +def test_numerics(): + # test data is pre-selected for numeric values + data = DataFrame([[1, "a"], [2, "b"]]) + result = data.style.bar()._compute().ctx + assert (0, 1) not in result + assert (1, 1) not in result + + +@pytest.mark.parametrize( + "align, exp", + [ + ("left", [no_bar(), bar_to(100, "green")]), + ("right", [bar_to(100, "red"), no_bar()]), + ("mid", [bar_to(25, "red"), bar_from_to(25, 100, "green")]), + ("zero", [bar_from_to(33.33, 50, "red"), bar_from_to(50, 100, "green")]), + ], +) +def test_colors_mixed(align, exp): + data = DataFrame([[-1], [3]]) + result = data.style.bar(align=align, color=["red", "green"])._compute().ctx + assert result == {(0, 0): exp[0], (1, 0): exp[1]} + + +def test_bar_align_height(): + # test when keyword height is used 'no-repeat center' and 'background-size' present + data = DataFrame([[1], [2]]) + result = data.style.bar(align="left", height=50)._compute().ctx + bg_s = "linear-gradient(90deg, #d65f5f 100.0%, transparent 100.0%) no-repeat center" + expected = { + (0, 0): [("width", "10em")], + (1, 0): [ + ("width", "10em"), + ("background", bg_s), + ("background-size", "100% 50.0%"), + ], + } + assert result == expected + + +def test_bar_value_error_raises(): + df = DataFrame({"A": [-100, -60, -30, -20]}) + + msg = "`align` should be in {'left', 'right', 'mid', 'mean', 'zero'} or" + with pytest.raises(ValueError, match=msg): + df.style.bar(align="poorly", color=["#d65f5f", "#5fba7d"]).to_html() + + msg = r"`width` must be a value in \[0, 100\]" + with pytest.raises(ValueError, match=msg): + df.style.bar(width=200).to_html() + + msg = r"`height` must be a value in \[0, 100\]" + with pytest.raises(ValueError, match=msg): + df.style.bar(height=200).to_html() + + +def test_bar_color_and_cmap_error_raises(): + df = DataFrame({"A": [1, 2, 3, 4]}) + msg = "`color` and `cmap` cannot both be given" + # Test that providing both color and cmap raises a ValueError + with pytest.raises(ValueError, match=msg): + df.style.bar(color="#d65f5f", cmap="viridis").to_html() + + +def test_bar_invalid_color_type_error_raises(): + df = DataFrame({"A": [1, 2, 3, 4]}) + msg = ( + r"`color` must be string or list or tuple of 2 strings," + r"\(eg: color=\['#d65f5f', '#5fba7d'\]\)" + ) + # Test that providing an invalid color type raises a ValueError + with pytest.raises(ValueError, match=msg): + df.style.bar(color=123).to_html() + + # Test that providing a color list with more than two elements raises a ValueError + with pytest.raises(ValueError, match=msg): + df.style.bar(color=["#d65f5f", "#5fba7d", "#abcdef"]).to_html() + + +def test_styler_bar_with_NA_values(): + df1 = DataFrame({"A": [1, 2, NA, 4]}) + df2 = DataFrame([[NA, NA], [NA, NA]]) + expected_substring = "style type=" + html_output1 = df1.style.bar(subset="A").to_html() + html_output2 = df2.style.bar(align="left", axis=None).to_html() + assert expected_substring in html_output1 + assert expected_substring in html_output2 + + +def test_style_bar_with_pyarrow_NA_values(): + pytest.importorskip("pyarrow") + data = """name,age,test1,test2,teacher + Adam,15,95.0,80,Ashby + Bob,16,81.0,82,Ashby + Dave,16,89.0,84,Jones + Fred,15,,88,Jones""" + df = read_csv(io.StringIO(data), dtype_backend="pyarrow") + expected_substring = "style type=" + html_output = df.style.bar(subset="test1").to_html() + assert expected_substring in html_output diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_exceptions.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_exceptions.py new file mode 100644 index 0000000000000000000000000000000000000000..d52e3a37e7693dadce34f73fc03a0790c7a0b4d3 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_exceptions.py @@ -0,0 +1,44 @@ +import pytest + +jinja2 = pytest.importorskip("jinja2") + +from pandas import ( + DataFrame, + MultiIndex, +) + +from pandas.io.formats.style import Styler + + +@pytest.fixture +def df(): + return DataFrame( + data=[[0, -0.609], [1, -1.228]], + columns=["A", "B"], + index=["x", "y"], + ) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0) + + +def test_concat_bad_columns(styler): + msg = "`other.data` must have same columns as `Styler.data" + with pytest.raises(ValueError, match=msg): + styler.concat(DataFrame([[1, 2]]).style) + + +def test_concat_bad_type(styler): + msg = "`other` must be of type `Styler`" + with pytest.raises(TypeError, match=msg): + styler.concat(DataFrame([[1, 2]])) + + +def test_concat_bad_index_levels(styler, df): + df = df.copy() + df.index = MultiIndex.from_tuples([(0, 0), (1, 1)]) + msg = "number of index levels must be same in `other`" + with pytest.raises(ValueError, match=msg): + styler.concat(df.style) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_format.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_format.py new file mode 100644 index 0000000000000000000000000000000000000000..1c84816ead140b95f14df8dbeccc83b317ac239a --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_format.py @@ -0,0 +1,562 @@ +import numpy as np +import pytest + +from pandas import ( + NA, + DataFrame, + IndexSlice, + MultiIndex, + NaT, + Timestamp, + option_context, +) + +pytest.importorskip("jinja2") +from pandas.io.formats.style import Styler +from pandas.io.formats.style_render import _str_escape + + +@pytest.fixture +def df(): + return DataFrame( + data=[[0, -0.609], [1, -1.228]], + columns=["A", "B"], + index=["x", "y"], + ) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0) + + +@pytest.fixture +def df_multi(): + return DataFrame( + data=np.arange(16).reshape(4, 4), + columns=MultiIndex.from_product([["A", "B"], ["a", "b"]]), + index=MultiIndex.from_product([["X", "Y"], ["x", "y"]]), + ) + + +@pytest.fixture +def styler_multi(df_multi): + return Styler(df_multi, uuid_len=0) + + +def test_display_format(styler): + ctx = styler.format("{:0.1f}")._translate(True, True) + assert all(["display_value" in c for c in row] for row in ctx["body"]) + assert all([len(c["display_value"]) <= 3 for c in row[1:]] for row in ctx["body"]) + assert len(ctx["body"][0][1]["display_value"].lstrip("-")) <= 3 + + +@pytest.mark.parametrize("index", [True, False]) +@pytest.mark.parametrize("columns", [True, False]) +def test_display_format_index(styler, index, columns): + exp_index = ["x", "y"] + if index: + styler.format_index(lambda v: v.upper(), axis=0) # test callable + exp_index = ["X", "Y"] + + exp_columns = ["A", "B"] + if columns: + styler.format_index("*{}*", axis=1) # test string + exp_columns = ["*A*", "*B*"] + + ctx = styler._translate(True, True) + + for r, row in enumerate(ctx["body"]): + assert row[0]["display_value"] == exp_index[r] + + for c, col in enumerate(ctx["head"][1:]): + assert col["display_value"] == exp_columns[c] + + +def test_format_dict(styler): + ctx = styler.format({"A": "{:0.1f}", "B": "{0:.2%}"})._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "0.0" + assert ctx["body"][0][2]["display_value"] == "-60.90%" + + +def test_format_index_dict(styler): + ctx = styler.format_index({0: lambda v: v.upper()})._translate(True, True) + for i, val in enumerate(["X", "Y"]): + assert ctx["body"][i][0]["display_value"] == val + + +def test_format_string(styler): + ctx = styler.format("{:.2f}")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "0.00" + assert ctx["body"][0][2]["display_value"] == "-0.61" + assert ctx["body"][1][1]["display_value"] == "1.00" + assert ctx["body"][1][2]["display_value"] == "-1.23" + + +def test_format_callable(styler): + ctx = styler.format(lambda v: "neg" if v < 0 else "pos")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "pos" + assert ctx["body"][0][2]["display_value"] == "neg" + assert ctx["body"][1][1]["display_value"] == "pos" + assert ctx["body"][1][2]["display_value"] == "neg" + + +def test_format_with_na_rep(): + # GH 21527 28358 + df = DataFrame([[None, None], [1.1, 1.2]], columns=["A", "B"]) + + ctx = df.style.format(None, na_rep="-")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "-" + assert ctx["body"][0][2]["display_value"] == "-" + + ctx = df.style.format("{:.2%}", na_rep="-")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "-" + assert ctx["body"][0][2]["display_value"] == "-" + assert ctx["body"][1][1]["display_value"] == "110.00%" + assert ctx["body"][1][2]["display_value"] == "120.00%" + + ctx = df.style.format("{:.2%}", na_rep="-", subset=["B"])._translate(True, True) + assert ctx["body"][0][2]["display_value"] == "-" + assert ctx["body"][1][2]["display_value"] == "120.00%" + + +def test_format_index_with_na_rep(): + df = DataFrame([[1, 2, 3, 4, 5]], columns=["A", None, np.nan, NaT, NA]) + ctx = df.style.format_index(None, na_rep="--", axis=1)._translate(True, True) + assert ctx["head"][0][1]["display_value"] == "A" + for i in [2, 3, 4, 5]: + assert ctx["head"][0][i]["display_value"] == "--" + + +def test_format_non_numeric_na(): + # GH 21527 28358 + df = DataFrame( + { + "object": [None, np.nan, "foo"], + "datetime": [None, NaT, Timestamp("20120101")], + } + ) + ctx = df.style.format(None, na_rep="-")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "-" + assert ctx["body"][0][2]["display_value"] == "-" + assert ctx["body"][1][1]["display_value"] == "-" + assert ctx["body"][1][2]["display_value"] == "-" + + +@pytest.mark.parametrize( + "func, attr, kwargs", + [ + ("format", "_display_funcs", {}), + ("format_index", "_display_funcs_index", {"axis": 0}), + ("format_index", "_display_funcs_columns", {"axis": 1}), + ], +) +def test_format_clear(styler, func, attr, kwargs): + assert (0, 0) not in getattr(styler, attr) # using default + getattr(styler, func)("{:.2f}", **kwargs) + assert (0, 0) in getattr(styler, attr) # formatter is specified + getattr(styler, func)(**kwargs) + assert (0, 0) not in getattr(styler, attr) # formatter cleared to default + + +@pytest.mark.parametrize( + "escape, exp", + [ + ("html", "<>&"%$#_{}~^\\~ ^ \\ "), + ( + "latex", + '<>\\&"\\%\\$\\#\\_\\{\\}\\textasciitilde \\textasciicircum ' + "\\textbackslash \\textasciitilde \\space \\textasciicircum \\space " + "\\textbackslash \\space ", + ), + ], +) +def test_format_escape_html(escape, exp): + chars = '<>&"%$#_{}~^\\~ ^ \\ ' + df = DataFrame([[chars]]) + + s = Styler(df, uuid_len=0).format("&{0}&", escape=None) + expected = f'&{chars}&' + assert expected in s.to_html() + + # only the value should be escaped before passing to the formatter + s = Styler(df, uuid_len=0).format("&{0}&", escape=escape) + expected = f'&{exp}&' + assert expected in s.to_html() + + # also test format_index() + styler = Styler(DataFrame(columns=[chars]), uuid_len=0) + styler.format_index("&{0}&", escape=None, axis=1) + assert styler._translate(True, True)["head"][0][1]["display_value"] == f"&{chars}&" + styler.format_index("&{0}&", escape=escape, axis=1) + assert styler._translate(True, True)["head"][0][1]["display_value"] == f"&{exp}&" + + +@pytest.mark.parametrize( + "chars, expected", + [ + ( + r"$ \$&%#_{}~^\ $ &%#_{}~^\ $", + "".join( + [ + r"$ \$&%#_{}~^\ $ ", + r"\&\%\#\_\{\}\textasciitilde \textasciicircum ", + r"\textbackslash \space \$", + ] + ), + ), + ( + r"\( &%#_{}~^\ \) &%#_{}~^\ \(", + "".join( + [ + r"\( &%#_{}~^\ \) ", + r"\&\%\#\_\{\}\textasciitilde \textasciicircum ", + r"\textbackslash \space \textbackslash (", + ] + ), + ), + ( + r"$\&%#_{}^\$", + r"\$\textbackslash \&\%\#\_\{\}\textasciicircum \textbackslash \$", + ), + ( + r"$ \frac{1}{2} $ \( \frac{1}{2} \)", + "".join( + [ + r"$ \frac{1}{2} $", + r" \textbackslash ( \textbackslash frac\{1\}\{2\} \textbackslash )", + ] + ), + ), + ], +) +def test_format_escape_latex_math(chars, expected): + # GH 51903 + # latex-math escape works for each DataFrame cell separately. If we have + # a combination of dollar signs and brackets, the dollar sign would apply. + df = DataFrame([[chars]]) + s = df.style.format("{0}", escape="latex-math") + assert s._translate(True, True)["body"][0][1]["display_value"] == expected + + +def test_format_escape_na_rep(): + # tests the na_rep is not escaped + df = DataFrame([['<>&"', None]]) + s = Styler(df, uuid_len=0).format("X&{0}>X", escape="html", na_rep="&") + ex = 'X&<>&">X' + expected2 = '&' + assert ex in s.to_html() + assert expected2 in s.to_html() + + # also test for format_index() + df = DataFrame(columns=['<>&"', None]) + styler = Styler(df, uuid_len=0) + styler.format_index("X&{0}>X", escape="html", na_rep="&", axis=1) + ctx = styler._translate(True, True) + assert ctx["head"][0][1]["display_value"] == "X&<>&">X" + assert ctx["head"][0][2]["display_value"] == "&" + + +def test_format_escape_floats(styler): + # test given formatter for number format is not impacted by escape + s = styler.format("{:.1f}", escape="html") + for expected in [">0.0<", ">1.0<", ">-1.2<", ">-0.6<"]: + assert expected in s.to_html() + # tests precision of floats is not impacted by escape + s = styler.format(precision=1, escape="html") + for expected in [">0<", ">1<", ">-1.2<", ">-0.6<"]: + assert expected in s.to_html() + + +@pytest.mark.parametrize("formatter", [5, True, [2.0]]) +@pytest.mark.parametrize("func", ["format", "format_index"]) +def test_format_raises(styler, formatter, func): + with pytest.raises(TypeError, match="expected str or callable"): + getattr(styler, func)(formatter) + + +@pytest.mark.parametrize( + "precision, expected", + [ + (1, ["1.0", "2.0", "3.2", "4.6"]), + (2, ["1.00", "2.01", "3.21", "4.57"]), + (3, ["1.000", "2.009", "3.212", "4.566"]), + ], +) +def test_format_with_precision(precision, expected): + # Issue #13257 + df = DataFrame([[1.0, 2.0090, 3.2121, 4.566]], columns=[1.0, 2.0090, 3.2121, 4.566]) + styler = Styler(df) + styler.format(precision=precision) + styler.format_index(precision=precision, axis=1) + + ctx = styler._translate(True, True) + for col, exp in enumerate(expected): + assert ctx["body"][0][col + 1]["display_value"] == exp # format test + assert ctx["head"][0][col + 1]["display_value"] == exp # format_index test + + +@pytest.mark.parametrize("axis", [0, 1]) +@pytest.mark.parametrize( + "level, expected", + [ + (0, ["X", "X", "_", "_"]), # level int + ("zero", ["X", "X", "_", "_"]), # level name + (1, ["_", "_", "X", "X"]), # other level int + ("one", ["_", "_", "X", "X"]), # other level name + ([0, 1], ["X", "X", "X", "X"]), # both levels + ([0, "zero"], ["X", "X", "_", "_"]), # level int and name simultaneous + ([0, "one"], ["X", "X", "X", "X"]), # both levels as int and name + (["one", "zero"], ["X", "X", "X", "X"]), # both level names, reversed + ], +) +def test_format_index_level(axis, level, expected): + midx = MultiIndex.from_arrays([["_", "_"], ["_", "_"]], names=["zero", "one"]) + df = DataFrame([[1, 2], [3, 4]]) + if axis == 0: + df.index = midx + else: + df.columns = midx + + styler = df.style.format_index(lambda v: "X", level=level, axis=axis) + ctx = styler._translate(True, True) + + if axis == 0: # compare index + result = [ctx["body"][s][0]["display_value"] for s in range(2)] + result += [ctx["body"][s][1]["display_value"] for s in range(2)] + else: # compare columns + result = [ctx["head"][0][s + 1]["display_value"] for s in range(2)] + result += [ctx["head"][1][s + 1]["display_value"] for s in range(2)] + + assert expected == result + + +def test_format_subset(): + df = DataFrame([[0.1234, 0.1234], [1.1234, 1.1234]], columns=["a", "b"]) + ctx = df.style.format( + {"a": "{:0.1f}", "b": "{0:.2%}"}, subset=IndexSlice[0, :] + )._translate(True, True) + expected = "0.1" + raw_11 = "1.123400" + assert ctx["body"][0][1]["display_value"] == expected + assert ctx["body"][1][1]["display_value"] == raw_11 + assert ctx["body"][0][2]["display_value"] == "12.34%" + + ctx = df.style.format("{:0.1f}", subset=IndexSlice[0, :])._translate(True, True) + assert ctx["body"][0][1]["display_value"] == expected + assert ctx["body"][1][1]["display_value"] == raw_11 + + ctx = df.style.format("{:0.1f}", subset=IndexSlice["a"])._translate(True, True) + assert ctx["body"][0][1]["display_value"] == expected + assert ctx["body"][0][2]["display_value"] == "0.123400" + + ctx = df.style.format("{:0.1f}", subset=IndexSlice[0, "a"])._translate(True, True) + assert ctx["body"][0][1]["display_value"] == expected + assert ctx["body"][1][1]["display_value"] == raw_11 + + ctx = df.style.format("{:0.1f}", subset=IndexSlice[[0, 1], ["a"]])._translate( + True, True + ) + assert ctx["body"][0][1]["display_value"] == expected + assert ctx["body"][1][1]["display_value"] == "1.1" + assert ctx["body"][0][2]["display_value"] == "0.123400" + assert ctx["body"][1][2]["display_value"] == raw_11 + + +@pytest.mark.parametrize("formatter", [None, "{:,.1f}"]) +@pytest.mark.parametrize("decimal", [".", "*"]) +@pytest.mark.parametrize("precision", [None, 2]) +@pytest.mark.parametrize("func, col", [("format", 1), ("format_index", 0)]) +def test_format_thousands(formatter, decimal, precision, func, col): + styler = DataFrame([[1000000.123456789]], index=[1000000.123456789]).style + result = getattr(styler, func)( # testing float + thousands="_", formatter=formatter, decimal=decimal, precision=precision + )._translate(True, True) + assert "1_000_000" in result["body"][0][col]["display_value"] + + styler = DataFrame([[1000000]], index=[1000000]).style + result = getattr(styler, func)( # testing int + thousands="_", formatter=formatter, decimal=decimal, precision=precision + )._translate(True, True) + assert "1_000_000" in result["body"][0][col]["display_value"] + + styler = DataFrame([[1 + 1000000.123456789j]], index=[1 + 1000000.123456789j]).style + result = getattr(styler, func)( # testing complex + thousands="_", formatter=formatter, decimal=decimal, precision=precision + )._translate(True, True) + assert "1_000_000" in result["body"][0][col]["display_value"] + + +@pytest.mark.parametrize("formatter", [None, "{:,.4f}"]) +@pytest.mark.parametrize("thousands", [None, ",", "*"]) +@pytest.mark.parametrize("precision", [None, 4]) +@pytest.mark.parametrize("func, col", [("format", 1), ("format_index", 0)]) +def test_format_decimal(formatter, thousands, precision, func, col): + styler = DataFrame([[1000000.123456789]], index=[1000000.123456789]).style + result = getattr(styler, func)( # testing float + decimal="_", formatter=formatter, thousands=thousands, precision=precision + )._translate(True, True) + assert "000_123" in result["body"][0][col]["display_value"] + + styler = DataFrame([[1 + 1000000.123456789j]], index=[1 + 1000000.123456789j]).style + result = getattr(styler, func)( # testing complex + decimal="_", formatter=formatter, thousands=thousands, precision=precision + )._translate(True, True) + assert "000_123" in result["body"][0][col]["display_value"] + + +def test_str_escape_error(): + msg = "`escape` only permitted in {'html', 'latex', 'latex-math'}, got " + with pytest.raises(ValueError, match=msg): + _str_escape("text", "bad_escape") + + with pytest.raises(ValueError, match=msg): + _str_escape("text", []) + + _str_escape(2.00, "bad_escape") # OK since dtype is float + + +def test_long_int_formatting(): + df = DataFrame(data=[[1234567890123456789]], columns=["test"]) + styler = df.style + ctx = styler._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "1234567890123456789" + + styler = df.style.format(thousands="_") + ctx = styler._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "1_234_567_890_123_456_789" + + +def test_format_options(): + df = DataFrame({"int": [2000, 1], "float": [1.009, None], "str": ["&<", "&~"]}) + ctx = df.style._translate(True, True) + + # test option: na_rep + assert ctx["body"][1][2]["display_value"] == "nan" + with option_context("styler.format.na_rep", "MISSING"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][1][2]["display_value"] == "MISSING" + + # test option: decimal and precision + assert ctx["body"][0][2]["display_value"] == "1.009000" + with option_context("styler.format.decimal", "_"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][0][2]["display_value"] == "1_009000" + with option_context("styler.format.precision", 2): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][0][2]["display_value"] == "1.01" + + # test option: thousands + assert ctx["body"][0][1]["display_value"] == "2000" + with option_context("styler.format.thousands", "_"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][0][1]["display_value"] == "2_000" + + # test option: escape + assert ctx["body"][0][3]["display_value"] == "&<" + assert ctx["body"][1][3]["display_value"] == "&~" + with option_context("styler.format.escape", "html"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][0][3]["display_value"] == "&<" + with option_context("styler.format.escape", "latex"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][1][3]["display_value"] == "\\&\\textasciitilde " + with option_context("styler.format.escape", "latex-math"): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][1][3]["display_value"] == "\\&\\textasciitilde " + + # test option: formatter + with option_context("styler.format.formatter", {"int": "{:,.2f}"}): + ctx_with_op = df.style._translate(True, True) + assert ctx_with_op["body"][0][1]["display_value"] == "2,000.00" + + +def test_precision_zero(df): + styler = Styler(df, precision=0) + ctx = styler._translate(True, True) + assert ctx["body"][0][2]["display_value"] == "-1" + assert ctx["body"][1][2]["display_value"] == "-1" + + +@pytest.mark.parametrize( + "formatter, exp", + [ + (lambda x: f"{x:.3f}", "9.000"), + ("{:.2f}", "9.00"), + ({0: "{:.1f}"}, "9.0"), + (None, "9"), + ], +) +def test_formatter_options_validator(formatter, exp): + df = DataFrame([[9]]) + with option_context("styler.format.formatter", formatter): + assert f" {exp} " in df.style.to_latex() + + +def test_formatter_options_raises(): + msg = "Value must be an instance of" + with pytest.raises(ValueError, match=msg): + with option_context("styler.format.formatter", ["bad", "type"]): + DataFrame().style.to_latex() + + +def test_1level_multiindex(): + # GH 43383 + midx = MultiIndex.from_product([[1, 2]], names=[""]) + df = DataFrame(-1, index=midx, columns=[0, 1]) + ctx = df.style._translate(True, True) + assert ctx["body"][0][0]["display_value"] == "1" + assert ctx["body"][0][0]["is_visible"] is True + assert ctx["body"][1][0]["display_value"] == "2" + assert ctx["body"][1][0]["is_visible"] is True + + +def test_boolean_format(): + # gh 46384: booleans do not collapse to integer representation on display + df = DataFrame([[True, False]]) + ctx = df.style._translate(True, True) + assert ctx["body"][0][1]["display_value"] is True + assert ctx["body"][0][2]["display_value"] is False + + +@pytest.mark.parametrize( + "hide, labels", + [ + (False, [1, 2]), + (True, [1, 2, 3, 4]), + ], +) +def test_relabel_raise_length(styler_multi, hide, labels): + if hide: + styler_multi.hide(axis=0, subset=[("X", "x"), ("Y", "y")]) + with pytest.raises(ValueError, match="``labels`` must be of length equal"): + styler_multi.relabel_index(labels=labels) + + +def test_relabel_index(styler_multi): + labels = [(1, 2), (3, 4)] + styler_multi.hide(axis=0, subset=[("X", "x"), ("Y", "y")]) + styler_multi.relabel_index(labels=labels) + ctx = styler_multi._translate(True, True) + assert {"value": "X", "display_value": 1}.items() <= ctx["body"][0][0].items() + assert {"value": "y", "display_value": 2}.items() <= ctx["body"][0][1].items() + assert {"value": "Y", "display_value": 3}.items() <= ctx["body"][1][0].items() + assert {"value": "x", "display_value": 4}.items() <= ctx["body"][1][1].items() + + +def test_relabel_columns(styler_multi): + labels = [(1, 2), (3, 4)] + styler_multi.hide(axis=1, subset=[("A", "a"), ("B", "b")]) + styler_multi.relabel_index(axis=1, labels=labels) + ctx = styler_multi._translate(True, True) + assert {"value": "A", "display_value": 1}.items() <= ctx["head"][0][3].items() + assert {"value": "B", "display_value": 3}.items() <= ctx["head"][0][4].items() + assert {"value": "b", "display_value": 2}.items() <= ctx["head"][1][3].items() + assert {"value": "a", "display_value": 4}.items() <= ctx["head"][1][4].items() + + +def test_relabel_roundtrip(styler): + styler.relabel_index(["{}", "{}"]) + ctx = styler._translate(True, True) + assert {"value": "x", "display_value": "x"}.items() <= ctx["body"][0][0].items() + assert {"value": "y", "display_value": "y"}.items() <= ctx["body"][1][0].items() diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_highlight.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_highlight.py new file mode 100644 index 0000000000000000000000000000000000000000..3d59719010ee03cc53373a1c96f5f8c5611d7681 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_highlight.py @@ -0,0 +1,218 @@ +import numpy as np +import pytest + +from pandas import ( + NA, + DataFrame, + IndexSlice, +) + +pytest.importorskip("jinja2") + +from pandas.io.formats.style import Styler + + +@pytest.fixture(params=[(None, "float64"), (NA, "Int64")]) +def df(request): + # GH 45804 + return DataFrame( + {"A": [0, np.nan, 10], "B": [1, request.param[0], 2]}, dtype=request.param[1] + ) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0) + + +def test_highlight_null(styler): + result = styler.highlight_null()._compute().ctx + expected = { + (1, 0): [("background-color", "red")], + (1, 1): [("background-color", "red")], + } + assert result == expected + + +def test_highlight_null_subset(styler): + # GH 31345 + result = ( + styler.highlight_null(color="red", subset=["A"]) + .highlight_null(color="green", subset=["B"]) + ._compute() + .ctx + ) + expected = { + (1, 0): [("background-color", "red")], + (1, 1): [("background-color", "green")], + } + assert result == expected + + +@pytest.mark.parametrize("f", ["highlight_min", "highlight_max"]) +def test_highlight_minmax_basic(df, f): + expected = { + (0, 1): [("background-color", "red")], + # ignores NaN row, + (2, 0): [("background-color", "red")], + } + if f == "highlight_min": + df = -df + result = getattr(df.style, f)(axis=1, color="red")._compute().ctx + assert result == expected + + +@pytest.mark.parametrize("f", ["highlight_min", "highlight_max"]) +@pytest.mark.parametrize( + "kwargs", + [ + {"axis": None, "color": "red"}, # test axis + {"axis": 0, "subset": ["A"], "color": "red"}, # test subset and ignores NaN + {"axis": None, "props": "background-color: red"}, # test props + ], +) +def test_highlight_minmax_ext(df, f, kwargs): + expected = {(2, 0): [("background-color", "red")]} + if f == "highlight_min": + df = -df + result = getattr(df.style, f)(**kwargs)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize("f", ["highlight_min", "highlight_max"]) +@pytest.mark.parametrize("axis", [None, 0, 1]) +def test_highlight_minmax_nulls(f, axis): + # GH 42750 + expected = { + (1, 0): [("background-color", "yellow")], + (1, 1): [("background-color", "yellow")], + } + if axis == 1: + expected.update({(2, 1): [("background-color", "yellow")]}) + + if f == "highlight_max": + df = DataFrame({"a": [NA, 1, None], "b": [np.nan, 1, -1]}) + else: + df = DataFrame({"a": [NA, -1, None], "b": [np.nan, -1, 1]}) + + result = getattr(df.style, f)(axis=axis)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "kwargs", + [ + {"left": 0, "right": 1}, # test basic range + {"left": 0, "right": 1, "props": "background-color: yellow"}, # test props + {"left": -100, "right": 100, "subset": IndexSlice[[0, 1], :]}, # test subset + {"left": 0, "subset": IndexSlice[[0, 1], :]}, # test no right + {"right": 1}, # test no left + {"left": [0, 0, 11], "axis": 0}, # test left as sequence + {"left": DataFrame({"A": [0, 0, 11], "B": [1, 1, 11]}), "axis": None}, # axis + {"left": 0, "right": [0, 1], "axis": 1}, # test sequence right + ], +) +def test_highlight_between(styler, kwargs): + expected = { + (0, 0): [("background-color", "yellow")], + (0, 1): [("background-color", "yellow")], + } + result = styler.highlight_between(**kwargs)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "arg, map, axis", + [ + ("left", [1, 2], 0), # 0 axis has 3 elements not 2 + ("left", [1, 2, 3], 1), # 1 axis has 2 elements not 3 + ("left", np.array([[1, 2], [1, 2]]), None), # df is (2,3) not (2,2) + ("right", [1, 2], 0), # same tests as above for 'right' not 'left' + ("right", [1, 2, 3], 1), # .. + ("right", np.array([[1, 2], [1, 2]]), None), # .. + ], +) +def test_highlight_between_raises(arg, styler, map, axis): + msg = f"supplied '{arg}' is not correct shape" + with pytest.raises(ValueError, match=msg): + styler.highlight_between(**{arg: map, "axis": axis})._compute() + + +def test_highlight_between_raises2(styler): + msg = "values can be 'both', 'left', 'right', or 'neither'" + with pytest.raises(ValueError, match=msg): + styler.highlight_between(inclusive="badstring")._compute() + + with pytest.raises(ValueError, match=msg): + styler.highlight_between(inclusive=1)._compute() + + +@pytest.mark.parametrize( + "inclusive, expected", + [ + ( + "both", + { + (0, 0): [("background-color", "yellow")], + (0, 1): [("background-color", "yellow")], + }, + ), + ("neither", {}), + ("left", {(0, 0): [("background-color", "yellow")]}), + ("right", {(0, 1): [("background-color", "yellow")]}), + ], +) +def test_highlight_between_inclusive(styler, inclusive, expected): + kwargs = {"left": 0, "right": 1, "subset": IndexSlice[[0, 1], :]} + result = styler.highlight_between(**kwargs, inclusive=inclusive)._compute() + assert result.ctx == expected + + +@pytest.mark.parametrize( + "kwargs", + [ + {"q_left": 0.5, "q_right": 1, "axis": 0}, # base case + {"q_left": 0.5, "q_right": 1, "axis": None}, # test axis + {"q_left": 0, "q_right": 1, "subset": IndexSlice[2, :]}, # test subset + {"q_left": 0.5, "axis": 0}, # test no high + {"q_right": 1, "subset": IndexSlice[2, :], "axis": 1}, # test no low + {"q_left": 0.5, "axis": 0, "props": "background-color: yellow"}, # tst prop + ], +) +def test_highlight_quantile(styler, kwargs): + expected = { + (2, 0): [("background-color", "yellow")], + (2, 1): [("background-color", "yellow")], + } + result = styler.highlight_quantile(**kwargs)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "f,kwargs", + [ + ("highlight_min", {"axis": 1, "subset": IndexSlice[1, :]}), + ("highlight_max", {"axis": 0, "subset": [0]}), + ("highlight_quantile", {"axis": None, "q_left": 0.6, "q_right": 0.8}), + ("highlight_between", {"subset": [0]}), + ], +) +@pytest.mark.parametrize( + "df", + [ + DataFrame([[0, 10], [20, 30]], dtype=int), + DataFrame([[0, 10], [20, 30]], dtype=float), + DataFrame([[0, 10], [20, 30]], dtype="datetime64[ns]"), + DataFrame([[0, 10], [20, 30]], dtype=str), + DataFrame([[0, 10], [20, 30]], dtype="timedelta64[ns]"), + ], +) +def test_all_highlight_dtypes(f, kwargs, df): + if f == "highlight_quantile" and isinstance(df.iloc[0, 0], (str)): + return None # quantile incompatible with str + if f == "highlight_between": + kwargs["left"] = df.iloc[1, 0] # set the range low for testing + + expected = {(1, 0): [("background-color", "yellow")]} + result = getattr(df.style, f)(**kwargs)._compute().ctx + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_html.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_html.py new file mode 100644 index 0000000000000000000000000000000000000000..1e345eb82ed3c31e7a5e0f89fa574aea84923dd7 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_html.py @@ -0,0 +1,1009 @@ +from textwrap import ( + dedent, + indent, +) + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, + option_context, +) + +jinja2 = pytest.importorskip("jinja2") +from pandas.io.formats.style import Styler + + +@pytest.fixture +def env(): + loader = jinja2.PackageLoader("pandas", "io/formats/templates") + env = jinja2.Environment(loader=loader, trim_blocks=True) + return env + + +@pytest.fixture +def styler(): + return Styler(DataFrame([[2.61], [2.69]], index=["a", "b"], columns=["A"])) + + +@pytest.fixture +def styler_mi(): + midx = MultiIndex.from_product([["a", "b"], ["c", "d"]]) + return Styler(DataFrame(np.arange(16).reshape(4, 4), index=midx, columns=midx)) + + +@pytest.fixture +def tpl_style(env): + return env.get_template("html_style.tpl") + + +@pytest.fixture +def tpl_table(env): + return env.get_template("html_table.tpl") + + +def test_html_template_extends_options(): + # make sure if templates are edited tests are updated as are setup fixtures + # to understand the dependency + with open("pandas/io/formats/templates/html.tpl", encoding="utf-8") as file: + result = file.read() + assert "{% include html_style_tpl %}" in result + assert "{% include html_table_tpl %}" in result + + +def test_exclude_styles(styler): + result = styler.to_html(exclude_styles=True, doctype_html=True) + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + + + + + +
 A
a2.610000
b2.690000
+ + + """ + ) + assert result == expected + + +def test_w3_html_format(styler): + styler.set_uuid("").set_table_styles([{"selector": "th", "props": "att2:v2;"}]).map( + lambda x: "att1:v1;" + ).set_table_attributes('class="my-cls1" style="attr3:v3;"').set_td_classes( + DataFrame(["my-cls2"], index=["a"], columns=["A"]) + ).format( + "{:.1f}" + ).set_caption( + "A comprehensive test" + ) + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + +
A comprehensive test
 A
a2.6
b2.7
+ """ + ) + assert expected == styler.to_html() + + +def test_colspan_w3(): + # GH 36223 + df = DataFrame(data=[[1, 2]], columns=[["l0", "l0"], ["l1a", "l1b"]]) + styler = Styler(df, uuid="_", cell_ids=False) + assert 'l0' in styler.to_html() + + +def test_rowspan_w3(): + # GH 38533 + df = DataFrame(data=[[1, 2]], index=[["l0", "l0"], ["l1a", "l1b"]]) + styler = Styler(df, uuid="_", cell_ids=False) + assert 'l0' in styler.to_html() + + +def test_styles(styler): + styler.set_uuid("abc") + styler.set_table_styles([{"selector": "td", "props": "color: red;"}]) + result = styler.to_html(doctype_html=True) + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + + + + + + +
 A
a2.610000
b2.690000
+ + + """ + ) + assert result == expected + + +def test_doctype(styler): + result = styler.to_html(doctype_html=False) + assert "" not in result + assert "" not in result + assert "" not in result + assert "" not in result + + +def test_doctype_encoding(styler): + with option_context("styler.render.encoding", "ASCII"): + result = styler.to_html(doctype_html=True) + assert '' in result + result = styler.to_html(doctype_html=True, encoding="ANSI") + assert '' in result + + +def test_bold_headers_arg(styler): + result = styler.to_html(bold_headers=True) + assert "th {\n font-weight: bold;\n}" in result + result = styler.to_html() + assert "th {\n font-weight: bold;\n}" not in result + + +def test_caption_arg(styler): + result = styler.to_html(caption="foo bar") + assert "foo bar" in result + result = styler.to_html() + assert "foo bar" not in result + + +def test_block_names(tpl_style, tpl_table): + # catch accidental removal of a block + expected_style = { + "before_style", + "style", + "table_styles", + "before_cellstyle", + "cellstyle", + } + expected_table = { + "before_table", + "table", + "caption", + "thead", + "tbody", + "after_table", + "before_head_rows", + "head_tr", + "after_head_rows", + "before_rows", + "tr", + "after_rows", + } + result1 = set(tpl_style.blocks) + assert result1 == expected_style + + result2 = set(tpl_table.blocks) + assert result2 == expected_table + + +def test_from_custom_template_table(tmpdir): + p = tmpdir.mkdir("tpl").join("myhtml_table.tpl") + p.write( + dedent( + """\ + {% extends "html_table.tpl" %} + {% block table %} +

{{custom_title}}

+ {{ super() }} + {% endblock table %}""" + ) + ) + result = Styler.from_custom_template(str(tmpdir.join("tpl")), "myhtml_table.tpl") + assert issubclass(result, Styler) + assert result.env is not Styler.env + assert result.template_html_table is not Styler.template_html_table + styler = result(DataFrame({"A": [1, 2]})) + assert "

My Title

\n\n\n + {{ super() }} + {% endblock style %}""" + ) + ) + result = Styler.from_custom_template( + str(tmpdir.join("tpl")), html_style="myhtml_style.tpl" + ) + assert issubclass(result, Styler) + assert result.env is not Styler.env + assert result.template_html_style is not Styler.template_html_style + styler = result(DataFrame({"A": [1, 2]})) + assert '\n\nfull cap" in styler.to_html() + + +@pytest.mark.parametrize("index", [False, True]) +@pytest.mark.parametrize("columns", [False, True]) +@pytest.mark.parametrize("index_name", [True, False]) +def test_sticky_basic(styler, index, columns, index_name): + if index_name: + styler.index.name = "some text" + if index: + styler.set_sticky(axis=0) + if columns: + styler.set_sticky(axis=1) + + left_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " left: 0px;\n z-index: {1};\n}}" + ) + top_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " top: {1}px;\n z-index: {2};\n{3}}}" + ) + + res = styler.set_uuid("").to_html() + + # test index stickys over thead and tbody + assert (left_css.format("thead tr th:nth-child(1)", "3 !important") in res) is index + assert (left_css.format("tbody tr th:nth-child(1)", "1") in res) is index + + # test column stickys including if name row + assert ( + top_css.format("thead tr:nth-child(1) th", "0", "2", " height: 25px;\n") in res + ) is (columns and index_name) + assert ( + top_css.format("thead tr:nth-child(2) th", "25", "2", " height: 25px;\n") + in res + ) is (columns and index_name) + assert (top_css.format("thead tr:nth-child(1) th", "0", "2", "") in res) is ( + columns and not index_name + ) + + +@pytest.mark.parametrize("index", [False, True]) +@pytest.mark.parametrize("columns", [False, True]) +def test_sticky_mi(styler_mi, index, columns): + if index: + styler_mi.set_sticky(axis=0) + if columns: + styler_mi.set_sticky(axis=1) + + left_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " left: {1}px;\n min-width: 75px;\n max-width: 75px;\n z-index: {2};\n}}" + ) + top_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " top: {1}px;\n height: 25px;\n z-index: {2};\n}}" + ) + + res = styler_mi.set_uuid("").to_html() + + # test the index stickys for thead and tbody over both levels + assert ( + left_css.format("thead tr th:nth-child(1)", "0", "3 !important") in res + ) is index + assert (left_css.format("tbody tr th.level0", "0", "1") in res) is index + assert ( + left_css.format("thead tr th:nth-child(2)", "75", "3 !important") in res + ) is index + assert (left_css.format("tbody tr th.level1", "75", "1") in res) is index + + # test the column stickys for each level row + assert (top_css.format("thead tr:nth-child(1) th", "0", "2") in res) is columns + assert (top_css.format("thead tr:nth-child(2) th", "25", "2") in res) is columns + + +@pytest.mark.parametrize("index", [False, True]) +@pytest.mark.parametrize("columns", [False, True]) +@pytest.mark.parametrize("levels", [[1], ["one"], "one"]) +def test_sticky_levels(styler_mi, index, columns, levels): + styler_mi.index.names, styler_mi.columns.names = ["zero", "one"], ["zero", "one"] + if index: + styler_mi.set_sticky(axis=0, levels=levels) + if columns: + styler_mi.set_sticky(axis=1, levels=levels) + + left_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " left: {1}px;\n min-width: 75px;\n max-width: 75px;\n z-index: {2};\n}}" + ) + top_css = ( + "#T_ {0} {{\n position: sticky;\n background-color: inherit;\n" + " top: {1}px;\n height: 25px;\n z-index: {2};\n}}" + ) + + res = styler_mi.set_uuid("").to_html() + + # test no sticking of level0 + assert "#T_ thead tr th:nth-child(1)" not in res + assert "#T_ tbody tr th.level0" not in res + assert "#T_ thead tr:nth-child(1) th" not in res + + # test sticking level1 + assert ( + left_css.format("thead tr th:nth-child(2)", "0", "3 !important") in res + ) is index + assert (left_css.format("tbody tr th.level1", "0", "1") in res) is index + assert (top_css.format("thead tr:nth-child(2) th", "0", "2") in res) is columns + + +def test_sticky_raises(styler): + with pytest.raises(ValueError, match="No axis named bad for object type DataFrame"): + styler.set_sticky(axis="bad") + + +@pytest.mark.parametrize( + "sparse_index, sparse_columns", + [(True, True), (True, False), (False, True), (False, False)], +) +def test_sparse_options(sparse_index, sparse_columns): + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df = DataFrame([[1, 2, 3], [4, 5, 6], [7, 8, 9]], index=ridx, columns=cidx) + styler = df.style + + default_html = styler.to_html() # defaults under pd.options to (True , True) + + with option_context( + "styler.sparse.index", sparse_index, "styler.sparse.columns", sparse_columns + ): + html1 = styler.to_html() + assert (html1 == default_html) is (sparse_index and sparse_columns) + html2 = styler.to_html(sparse_index=sparse_index, sparse_columns=sparse_columns) + assert html1 == html2 + + +@pytest.mark.parametrize("index", [True, False]) +@pytest.mark.parametrize("columns", [True, False]) +def test_map_header_cell_ids(styler, index, columns): + # GH 41893 + func = lambda v: "attr: val;" + styler.uuid, styler.cell_ids = "", False + if index: + styler.map_index(func, axis="index") + if columns: + styler.map_index(func, axis="columns") + + result = styler.to_html() + + # test no data cell ids + assert '2.610000' in result + assert '2.690000' in result + + # test index header ids where needed and css styles + assert ( + 'a' in result + ) is index + assert ( + 'b' in result + ) is index + assert ("#T__level0_row0, #T__level0_row1 {\n attr: val;\n}" in result) is index + + # test column header ids where needed and css styles + assert ( + 'A' in result + ) is columns + assert ("#T__level0_col0 {\n attr: val;\n}" in result) is columns + + +@pytest.mark.parametrize("rows", [True, False]) +@pytest.mark.parametrize("cols", [True, False]) +def test_maximums(styler_mi, rows, cols): + result = styler_mi.to_html( + max_rows=2 if rows else None, + max_columns=2 if cols else None, + ) + + assert ">5" in result # [[0,1], [4,5]] always visible + assert (">8" in result) is not rows # first trimmed vertical element + assert (">2" in result) is not cols # first trimmed horizontal element + + +def test_replaced_css_class_names(): + css = { + "row_heading": "ROWHEAD", + # "col_heading": "COLHEAD", + "index_name": "IDXNAME", + # "col": "COL", + "row": "ROW", + # "col_trim": "COLTRIM", + "row_trim": "ROWTRIM", + "level": "LEVEL", + "data": "DATA", + "blank": "BLANK", + } + midx = MultiIndex.from_product([["a", "b"], ["c", "d"]]) + styler_mi = Styler( + DataFrame(np.arange(16).reshape(4, 4), index=midx, columns=midx), + uuid_len=0, + ).set_table_styles(css_class_names=css) + styler_mi.index.names = ["n1", "n2"] + styler_mi.hide(styler_mi.index[1:], axis=0) + styler_mi.hide(styler_mi.columns[1:], axis=1) + styler_mi.map_index(lambda v: "color: red;", axis=0) + styler_mi.map_index(lambda v: "color: green;", axis=1) + styler_mi.map(lambda v: "color: blue;") + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + + + + + + + + +
 n1a
 n2c
n1n2 
ac0
+ """ + ) + result = styler_mi.to_html() + assert result == expected + + +def test_include_css_style_rules_only_for_visible_cells(styler_mi): + # GH 43619 + result = ( + styler_mi.set_uuid("") + .map(lambda v: "color: blue;") + .hide(styler_mi.data.columns[1:], axis="columns") + .hide(styler_mi.data.index[1:], axis="index") + .to_html() + ) + expected_styles = dedent( + """\ + + """ + ) + assert expected_styles in result + + +def test_include_css_style_rules_only_for_visible_index_labels(styler_mi): + # GH 43619 + result = ( + styler_mi.set_uuid("") + .map_index(lambda v: "color: blue;", axis="index") + .hide(styler_mi.data.columns, axis="columns") + .hide(styler_mi.data.index[1:], axis="index") + .to_html() + ) + expected_styles = dedent( + """\ + + """ + ) + assert expected_styles in result + + +def test_include_css_style_rules_only_for_visible_column_labels(styler_mi): + # GH 43619 + result = ( + styler_mi.set_uuid("") + .map_index(lambda v: "color: blue;", axis="columns") + .hide(styler_mi.data.columns[1:], axis="columns") + .hide(styler_mi.data.index, axis="index") + .to_html() + ) + expected_styles = dedent( + """\ + + """ + ) + assert expected_styles in result + + +def test_hiding_index_columns_multiindex_alignment(): + # gh 43644 + midx = MultiIndex.from_product( + [["i0", "j0"], ["i1"], ["i2", "j2"]], names=["i-0", "i-1", "i-2"] + ) + cidx = MultiIndex.from_product( + [["c0"], ["c1", "d1"], ["c2", "d2"]], names=["c-0", "c-1", "c-2"] + ) + df = DataFrame(np.arange(16).reshape(4, 4), index=midx, columns=cidx) + styler = Styler(df, uuid_len=0) + styler.hide(level=1, axis=0).hide(level=0, axis=1) + styler.hide([("j0", "i1", "j2")], axis=0) + styler.hide([("c0", "d1", "d2")], axis=1) + result = styler.to_html() + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
 c-1c1d1
 c-2c2d2c2
i-0i-2   
i0i2012
j2456
j0i28910
+ """ + ) + assert result == expected + + +def test_hiding_index_columns_multiindex_trimming(): + # gh 44272 + df = DataFrame(np.arange(64).reshape(8, 8)) + df.columns = MultiIndex.from_product([[0, 1, 2, 3], [0, 1]]) + df.index = MultiIndex.from_product([[0, 1, 2, 3], [0, 1]]) + df.index.names, df.columns.names = ["a", "b"], ["c", "d"] + styler = Styler(df, cell_ids=False, uuid_len=0) + styler.hide([(0, 0), (0, 1), (1, 0)], axis=1).hide([(0, 0), (0, 1), (1, 0)], axis=0) + with option_context("styler.render.max_rows", 4, "styler.render.max_columns", 4): + result = styler.to_html() + + expected = dedent( + """\ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
 c123
 d1010...
ab     
1127282930...
2035363738...
143444546...
3051525354...
.....................
+ """ + ) + + assert result == expected + + +@pytest.mark.parametrize("type", ["data", "index"]) +@pytest.mark.parametrize( + "text, exp, found", + [ + ("no link, just text", False, ""), + ("subdomain not www: sub.web.com", False, ""), + ("www subdomain: www.web.com other", True, "www.web.com"), + ("scheme full structure: http://www.web.com", True, "http://www.web.com"), + ("scheme no top-level: http://www.web", True, "http://www.web"), + ("no scheme, no top-level: www.web", False, "www.web"), + ("https scheme: https://www.web.com", True, "https://www.web.com"), + ("ftp scheme: ftp://www.web", True, "ftp://www.web"), + ("ftps scheme: ftps://www.web", True, "ftps://www.web"), + ("subdirectories: www.web.com/directory", True, "www.web.com/directory"), + ("Multiple domains: www.1.2.3.4", True, "www.1.2.3.4"), + ("with port: http://web.com:80", True, "http://web.com:80"), + ( + "full net_loc scheme: http://user:pass@web.com", + True, + "http://user:pass@web.com", + ), + ( + "with valid special chars: http://web.com/,.':;~!@#$*()[]", + True, + "http://web.com/,.':;~!@#$*()[]", + ), + ], +) +def test_rendered_links(type, text, exp, found): + if type == "data": + df = DataFrame([text]) + styler = df.style.format(hyperlinks="html") + else: + df = DataFrame([0], index=[text]) + styler = df.style.format_index(hyperlinks="html") + + rendered = f'{found}' + result = styler.to_html() + assert (rendered in result) is exp + assert (text in result) is not exp # test conversion done when expected and not + + +def test_multiple_rendered_links(): + links = ("www.a.b", "http://a.c", "https://a.d", "ftp://a.e") + # pylint: disable-next=consider-using-f-string + df = DataFrame(["text {} {} text {} {}".format(*links)]) + result = df.style.format(hyperlinks="html").to_html() + href = '{0}' + for link in links: + assert href.format(link) in result + assert href.format("text") not in result + + +def test_concat(styler): + other = styler.data.agg(["mean"]).style + styler.concat(other).set_uuid("X") + result = styler.to_html() + fp = "foot0_" + expected = dedent( + f"""\ + + b + 2.690000 + + + mean + 2.650000 + + + + """ + ) + assert expected in result + + +def test_concat_recursion(styler): + df = styler.data + styler1 = styler + styler2 = Styler(df.agg(["mean"]), precision=3) + styler3 = Styler(df.agg(["mean"]), precision=4) + styler1.concat(styler2.concat(styler3)).set_uuid("X") + result = styler.to_html() + # notice that the second concat (last of the output html), + # there are two `foot_` in the id and class + fp1 = "foot0_" + fp2 = "foot0_foot0_" + expected = dedent( + f"""\ + + b + 2.690000 + + + mean + 2.650 + + + mean + 2.6500 + + + + """ + ) + assert expected in result + + +def test_concat_chain(styler): + df = styler.data + styler1 = styler + styler2 = Styler(df.agg(["mean"]), precision=3) + styler3 = Styler(df.agg(["mean"]), precision=4) + styler1.concat(styler2).concat(styler3).set_uuid("X") + result = styler.to_html() + fp1 = "foot0_" + fp2 = "foot1_" + expected = dedent( + f"""\ + + b + 2.690000 + + + mean + 2.650 + + + mean + 2.6500 + + + + """ + ) + assert expected in result + + +def test_concat_combined(): + def html_lines(foot_prefix: str): + assert foot_prefix.endswith("_") or foot_prefix == "" + fp = foot_prefix + return indent( + dedent( + f"""\ + + a + 2.610000 + + + b + 2.690000 + + """ + ), + prefix=" " * 4, + ) + + df = DataFrame([[2.61], [2.69]], index=["a", "b"], columns=["A"]) + s1 = df.style.highlight_max(color="red") + s2 = df.style.highlight_max(color="green") + s3 = df.style.highlight_max(color="blue") + s4 = df.style.highlight_max(color="yellow") + + result = s1.concat(s2).concat(s3.concat(s4)).set_uuid("X").to_html() + expected_css = dedent( + """\ + + """ + ) + expected_table = ( + dedent( + """\ + + + + + + + + + """ + ) + + html_lines("") + + html_lines("foot0_") + + html_lines("foot1_") + + html_lines("foot1_foot0_") + + dedent( + """\ + +
 A
+ """ + ) + ) + assert expected_css + expected_table == result + + +def test_to_html_na_rep_non_scalar_data(datapath): + # GH47103 + df = DataFrame([{"a": 1, "b": [1, 2, 3], "c": np.nan}]) + result = df.style.format(na_rep="-").to_html(table_uuid="test") + expected = """\ + + + + + + + + + + + + + + + + + + +
 abc
01[1, 2, 3]-
+""" + assert result == expected diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_matplotlib.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_matplotlib.py new file mode 100644 index 0000000000000000000000000000000000000000..fb7a77f1ddb27db66a847fc1a1d87d14d95822aa --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_matplotlib.py @@ -0,0 +1,335 @@ +import gc + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + IndexSlice, + Series, +) + +pytest.importorskip("matplotlib") +pytest.importorskip("jinja2") + +import matplotlib as mpl + +from pandas.io.formats.style import Styler + + +@pytest.fixture(autouse=True) +def mpl_cleanup(): + # matplotlib/testing/decorators.py#L24 + # 1) Resets units registry + # 2) Resets rc_context + # 3) Closes all figures + mpl = pytest.importorskip("matplotlib") + mpl_units = pytest.importorskip("matplotlib.units") + plt = pytest.importorskip("matplotlib.pyplot") + orig_units_registry = mpl_units.registry.copy() + with mpl.rc_context(): + mpl.use("template") + yield + mpl_units.registry.clear() + mpl_units.registry.update(orig_units_registry) + plt.close("all") + # https://matplotlib.org/stable/users/prev_whats_new/whats_new_3.6.0.html#garbage-collection-is-no-longer-run-on-figure-close # noqa: E501 + gc.collect(1) + + +@pytest.fixture +def df(): + return DataFrame([[1, 2], [2, 4]], columns=["A", "B"]) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0) + + +@pytest.fixture +def df_blank(): + return DataFrame([[0, 0], [0, 0]], columns=["A", "B"], index=["X", "Y"]) + + +@pytest.fixture +def styler_blank(df_blank): + return Styler(df_blank, uuid_len=0) + + +@pytest.mark.parametrize("f", ["background_gradient", "text_gradient"]) +def test_function_gradient(styler, f): + for c_map in [None, "YlOrRd"]: + result = getattr(styler, f)(cmap=c_map)._compute().ctx + assert all("#" in x[0][1] for x in result.values()) + assert result[(0, 0)] == result[(0, 1)] + assert result[(1, 0)] == result[(1, 1)] + + +@pytest.mark.parametrize("f", ["background_gradient", "text_gradient"]) +def test_background_gradient_color(styler, f): + result = getattr(styler, f)(subset=IndexSlice[1, "A"])._compute().ctx + if f == "background_gradient": + assert result[(1, 0)] == [("background-color", "#fff7fb"), ("color", "#000000")] + elif f == "text_gradient": + assert result[(1, 0)] == [("color", "#fff7fb")] + + +@pytest.mark.parametrize( + "axis, expected", + [ + (0, ["low", "low", "high", "high"]), + (1, ["low", "high", "low", "high"]), + (None, ["low", "mid", "mid", "high"]), + ], +) +@pytest.mark.parametrize("f", ["background_gradient", "text_gradient"]) +def test_background_gradient_axis(styler, axis, expected, f): + if f == "background_gradient": + colors = { + "low": [("background-color", "#f7fbff"), ("color", "#000000")], + "mid": [("background-color", "#abd0e6"), ("color", "#000000")], + "high": [("background-color", "#08306b"), ("color", "#f1f1f1")], + } + elif f == "text_gradient": + colors = { + "low": [("color", "#f7fbff")], + "mid": [("color", "#abd0e6")], + "high": [("color", "#08306b")], + } + result = getattr(styler, f)(cmap="Blues", axis=axis)._compute().ctx + for i, cell in enumerate([(0, 0), (0, 1), (1, 0), (1, 1)]): + assert result[cell] == colors[expected[i]] + + +@pytest.mark.parametrize( + "cmap, expected", + [ + ( + "PuBu", + { + (4, 5): [("background-color", "#86b0d3"), ("color", "#000000")], + (4, 6): [("background-color", "#83afd3"), ("color", "#f1f1f1")], + }, + ), + ( + "YlOrRd", + { + (4, 8): [("background-color", "#fd913e"), ("color", "#000000")], + (4, 9): [("background-color", "#fd8f3d"), ("color", "#f1f1f1")], + }, + ), + ( + None, + { + (7, 0): [("background-color", "#48c16e"), ("color", "#f1f1f1")], + (7, 1): [("background-color", "#4cc26c"), ("color", "#000000")], + }, + ), + ], +) +def test_text_color_threshold(cmap, expected): + # GH 39888 + df = DataFrame(np.arange(100).reshape(10, 10)) + result = df.style.background_gradient(cmap=cmap, axis=None)._compute().ctx + for k in expected.keys(): + assert result[k] == expected[k] + + +def test_background_gradient_vmin_vmax(): + # GH 12145 + df = DataFrame(range(5)) + ctx = df.style.background_gradient(vmin=1, vmax=3)._compute().ctx + assert ctx[(0, 0)] == ctx[(1, 0)] + assert ctx[(4, 0)] == ctx[(3, 0)] + + +def test_background_gradient_int64(): + # GH 28869 + df1 = Series(range(3)).to_frame() + df2 = Series(range(3), dtype="Int64").to_frame() + ctx1 = df1.style.background_gradient()._compute().ctx + ctx2 = df2.style.background_gradient()._compute().ctx + assert ctx2[(0, 0)] == ctx1[(0, 0)] + assert ctx2[(1, 0)] == ctx1[(1, 0)] + assert ctx2[(2, 0)] == ctx1[(2, 0)] + + +@pytest.mark.parametrize( + "axis, gmap, expected", + [ + ( + 0, + [1, 2], + { + (0, 0): [("background-color", "#fff7fb"), ("color", "#000000")], + (1, 0): [("background-color", "#023858"), ("color", "#f1f1f1")], + (0, 1): [("background-color", "#fff7fb"), ("color", "#000000")], + (1, 1): [("background-color", "#023858"), ("color", "#f1f1f1")], + }, + ), + ( + 1, + [1, 2], + { + (0, 0): [("background-color", "#fff7fb"), ("color", "#000000")], + (1, 0): [("background-color", "#fff7fb"), ("color", "#000000")], + (0, 1): [("background-color", "#023858"), ("color", "#f1f1f1")], + (1, 1): [("background-color", "#023858"), ("color", "#f1f1f1")], + }, + ), + ( + None, + np.array([[2, 1], [1, 2]]), + { + (0, 0): [("background-color", "#023858"), ("color", "#f1f1f1")], + (1, 0): [("background-color", "#fff7fb"), ("color", "#000000")], + (0, 1): [("background-color", "#fff7fb"), ("color", "#000000")], + (1, 1): [("background-color", "#023858"), ("color", "#f1f1f1")], + }, + ), + ], +) +def test_background_gradient_gmap_array(styler_blank, axis, gmap, expected): + # tests when gmap is given as a sequence and converted to ndarray + result = styler_blank.background_gradient(axis=axis, gmap=gmap)._compute().ctx + assert result == expected + + +@pytest.mark.parametrize( + "gmap, axis", [([1, 2, 3], 0), ([1, 2], 1), (np.array([[1, 2], [1, 2]]), None)] +) +def test_background_gradient_gmap_array_raises(gmap, axis): + # test when gmap as converted ndarray is bad shape + df = DataFrame([[0, 0, 0], [0, 0, 0]]) + msg = "supplied 'gmap' is not correct shape" + with pytest.raises(ValueError, match=msg): + df.style.background_gradient(gmap=gmap, axis=axis)._compute() + + +@pytest.mark.parametrize( + "gmap", + [ + DataFrame( # reverse the columns + [[2, 1], [1, 2]], columns=["B", "A"], index=["X", "Y"] + ), + DataFrame( # reverse the index + [[2, 1], [1, 2]], columns=["A", "B"], index=["Y", "X"] + ), + DataFrame( # reverse the index and columns + [[1, 2], [2, 1]], columns=["B", "A"], index=["Y", "X"] + ), + DataFrame( # add unnecessary columns + [[1, 2, 3], [2, 1, 3]], columns=["A", "B", "C"], index=["X", "Y"] + ), + DataFrame( # add unnecessary index + [[1, 2], [2, 1], [3, 3]], columns=["A", "B"], index=["X", "Y", "Z"] + ), + ], +) +@pytest.mark.parametrize( + "subset, exp_gmap", # exp_gmap is underlying map DataFrame should conform to + [ + (None, [[1, 2], [2, 1]]), + (["A"], [[1], [2]]), # slice only column "A" in data and gmap + (["B", "A"], [[2, 1], [1, 2]]), # reverse the columns in data + (IndexSlice["X", :], [[1, 2]]), # slice only index "X" in data and gmap + (IndexSlice[["Y", "X"], :], [[2, 1], [1, 2]]), # reverse the index in data + ], +) +def test_background_gradient_gmap_dataframe_align(styler_blank, gmap, subset, exp_gmap): + # test gmap given as DataFrame that it aligns to the data including subset + expected = styler_blank.background_gradient(axis=None, gmap=exp_gmap, subset=subset) + result = styler_blank.background_gradient(axis=None, gmap=gmap, subset=subset) + assert expected._compute().ctx == result._compute().ctx + + +@pytest.mark.parametrize( + "gmap, axis, exp_gmap", + [ + (Series([2, 1], index=["Y", "X"]), 0, [[1, 1], [2, 2]]), # revrse the index + (Series([2, 1], index=["B", "A"]), 1, [[1, 2], [1, 2]]), # revrse the cols + (Series([1, 2, 3], index=["X", "Y", "Z"]), 0, [[1, 1], [2, 2]]), # add idx + (Series([1, 2, 3], index=["A", "B", "C"]), 1, [[1, 2], [1, 2]]), # add col + ], +) +def test_background_gradient_gmap_series_align(styler_blank, gmap, axis, exp_gmap): + # test gmap given as Series that it aligns to the data including subset + expected = styler_blank.background_gradient(axis=None, gmap=exp_gmap)._compute() + result = styler_blank.background_gradient(axis=axis, gmap=gmap)._compute() + assert expected.ctx == result.ctx + + +@pytest.mark.parametrize( + "gmap, axis", + [ + (DataFrame([[1, 2], [2, 1]], columns=["A", "B"], index=["X", "Y"]), 1), + (DataFrame([[1, 2], [2, 1]], columns=["A", "B"], index=["X", "Y"]), 0), + ], +) +def test_background_gradient_gmap_wrong_dataframe(styler_blank, gmap, axis): + # test giving a gmap in DataFrame but with wrong axis + msg = "'gmap' is a DataFrame but underlying data for operations is a Series" + with pytest.raises(ValueError, match=msg): + styler_blank.background_gradient(gmap=gmap, axis=axis)._compute() + + +def test_background_gradient_gmap_wrong_series(styler_blank): + # test giving a gmap in Series form but with wrong axis + msg = "'gmap' is a Series but underlying data for operations is a DataFrame" + gmap = Series([1, 2], index=["X", "Y"]) + with pytest.raises(ValueError, match=msg): + styler_blank.background_gradient(gmap=gmap, axis=None)._compute() + + +def test_background_gradient_nullable_dtypes(): + # GH 50712 + df1 = DataFrame([[1], [0], [np.nan]], dtype=float) + df2 = DataFrame([[1], [0], [None]], dtype="Int64") + + ctx1 = df1.style.background_gradient()._compute().ctx + ctx2 = df2.style.background_gradient()._compute().ctx + assert ctx1 == ctx2 + + +@pytest.mark.parametrize( + "cmap", + ["PuBu", mpl.colormaps["PuBu"]], +) +def test_bar_colormap(cmap): + data = DataFrame([[1, 2], [3, 4]]) + ctx = data.style.bar(cmap=cmap, axis=None)._compute().ctx + pubu_colors = { + (0, 0): "#d0d1e6", + (1, 0): "#056faf", + (0, 1): "#73a9cf", + (1, 1): "#023858", + } + for k, v in pubu_colors.items(): + assert v in ctx[k][1][1] + + +def test_bar_color_raises(df): + msg = "`color` must be string or list or tuple of 2 strings" + with pytest.raises(ValueError, match=msg): + df.style.bar(color={"a", "b"}).to_html() + with pytest.raises(ValueError, match=msg): + df.style.bar(color=["a", "b", "c"]).to_html() + + msg = "`color` and `cmap` cannot both be given" + with pytest.raises(ValueError, match=msg): + df.style.bar(color="something", cmap="something else").to_html() + + +@pytest.mark.parametrize( + "plot_method", + ["scatter", "hexbin"], +) +def test_pass_colormap_instance(df, plot_method): + # https://github.com/pandas-dev/pandas/issues/49374 + cmap = mpl.colors.ListedColormap([[1, 1, 1], [0, 0, 0]]) + df["c"] = df.A + df.B + kwargs = {"x": "A", "y": "B", "c": "c", "colormap": cmap} + if plot_method == "hexbin": + kwargs["C"] = kwargs.pop("c") + getattr(df.plot, plot_method)(**kwargs) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_non_unique.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_non_unique.py new file mode 100644 index 0000000000000000000000000000000000000000..e4d31fe21f2c9cf3454a67f8c7443382f7f1c0ef --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_non_unique.py @@ -0,0 +1,140 @@ +from textwrap import dedent + +import pytest + +from pandas import ( + DataFrame, + IndexSlice, +) + +pytest.importorskip("jinja2") + +from pandas.io.formats.style import Styler + + +@pytest.fixture +def df(): + return DataFrame( + [[1, 2, 3], [4, 5, 6], [7, 8, 9]], + index=["i", "j", "j"], + columns=["c", "d", "d"], + dtype=float, + ) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0) + + +def test_format_non_unique(df): + # GH 41269 + + # test dict + html = df.style.format({"d": "{:.1f}"}).to_html() + for val in ["1.000000<", "4.000000<", "7.000000<"]: + assert val in html + for val in ["2.0<", "3.0<", "5.0<", "6.0<", "8.0<", "9.0<"]: + assert val in html + + # test subset + html = df.style.format(precision=1, subset=IndexSlice["j", "d"]).to_html() + for val in ["1.000000<", "4.000000<", "7.000000<", "2.000000<", "3.000000<"]: + assert val in html + for val in ["5.0<", "6.0<", "8.0<", "9.0<"]: + assert val in html + + +@pytest.mark.parametrize("func", ["apply", "map"]) +def test_apply_map_non_unique_raises(df, func): + # GH 41269 + if func == "apply": + op = lambda s: ["color: red;"] * len(s) + else: + op = lambda v: "color: red;" + + with pytest.raises(KeyError, match="`Styler.apply` and `.map` are not"): + getattr(df.style, func)(op)._compute() + + +def test_table_styles_dict_non_unique_index(styler): + styles = styler.set_table_styles( + {"j": [{"selector": "td", "props": "a: v;"}]}, axis=1 + ).table_styles + assert styles == [ + {"selector": "td.row1", "props": [("a", "v")]}, + {"selector": "td.row2", "props": [("a", "v")]}, + ] + + +def test_table_styles_dict_non_unique_columns(styler): + styles = styler.set_table_styles( + {"d": [{"selector": "td", "props": "a: v;"}]}, axis=0 + ).table_styles + assert styles == [ + {"selector": "td.col1", "props": [("a", "v")]}, + {"selector": "td.col2", "props": [("a", "v")]}, + ] + + +def test_tooltips_non_unique_raises(styler): + # ttips has unique keys + ttips = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "d"], index=["a", "b"]) + styler.set_tooltips(ttips=ttips) # OK + + # ttips has non-unique columns + ttips = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "c"], index=["a", "b"]) + with pytest.raises(KeyError, match="Tooltips render only if `ttips` has unique"): + styler.set_tooltips(ttips=ttips) + + # ttips has non-unique index + ttips = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "d"], index=["a", "a"]) + with pytest.raises(KeyError, match="Tooltips render only if `ttips` has unique"): + styler.set_tooltips(ttips=ttips) + + +def test_set_td_classes_non_unique_raises(styler): + # classes has unique keys + classes = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "d"], index=["a", "b"]) + styler.set_td_classes(classes=classes) # OK + + # classes has non-unique columns + classes = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "c"], index=["a", "b"]) + with pytest.raises(KeyError, match="Classes render only if `classes` has unique"): + styler.set_td_classes(classes=classes) + + # classes has non-unique index + classes = DataFrame([["1", "2"], ["3", "4"]], columns=["c", "d"], index=["a", "a"]) + with pytest.raises(KeyError, match="Classes render only if `classes` has unique"): + styler.set_td_classes(classes=classes) + + +def test_hide_columns_non_unique(styler): + ctx = styler.hide(["d"], axis="columns")._translate(True, True) + + assert ctx["head"][0][1]["display_value"] == "c" + assert ctx["head"][0][1]["is_visible"] is True + + assert ctx["head"][0][2]["display_value"] == "d" + assert ctx["head"][0][2]["is_visible"] is False + + assert ctx["head"][0][3]["display_value"] == "d" + assert ctx["head"][0][3]["is_visible"] is False + + assert ctx["body"][0][1]["is_visible"] is True + assert ctx["body"][0][2]["is_visible"] is False + assert ctx["body"][0][3]["is_visible"] is False + + +def test_latex_non_unique(styler): + result = styler.to_latex() + assert result == dedent( + """\ + \\begin{tabular}{lrrr} + & c & d & d \\\\ + i & 1.000000 & 2.000000 & 3.000000 \\\\ + j & 4.000000 & 5.000000 & 6.000000 \\\\ + j & 7.000000 & 8.000000 & 9.000000 \\\\ + \\end{tabular} + """ + ) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_style.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_style.py new file mode 100644 index 0000000000000000000000000000000000000000..6fa72bd48031cca999b81cccfcedafcd3abcd924 --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_style.py @@ -0,0 +1,1588 @@ +import contextlib +import copy +import re +from textwrap import dedent + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + IndexSlice, + MultiIndex, + Series, + option_context, +) +import pandas._testing as tm + +jinja2 = pytest.importorskip("jinja2") +from pandas.io.formats.style import ( # isort:skip + Styler, +) +from pandas.io.formats.style_render import ( + _get_level_lengths, + _get_trimming_maximums, + maybe_convert_css_to_tuples, + non_reducing_slice, +) + + +@pytest.fixture +def mi_df(): + return DataFrame( + [[1, 2], [3, 4]], + index=MultiIndex.from_product([["i0"], ["i1_a", "i1_b"]]), + columns=MultiIndex.from_product([["c0"], ["c1_a", "c1_b"]]), + dtype=int, + ) + + +@pytest.fixture +def mi_styler(mi_df): + return Styler(mi_df, uuid_len=0) + + +@pytest.fixture +def mi_styler_comp(mi_styler): + # comprehensively add features to mi_styler + mi_styler = mi_styler._copy(deepcopy=True) + mi_styler.css = {**mi_styler.css, "row": "ROW", "col": "COL"} + mi_styler.uuid_len = 5 + mi_styler.uuid = "abcde" + mi_styler.set_caption("capt") + mi_styler.set_table_styles([{"selector": "a", "props": "a:v;"}]) + mi_styler.hide(axis="columns") + mi_styler.hide([("c0", "c1_a")], axis="columns", names=True) + mi_styler.hide(axis="index") + mi_styler.hide([("i0", "i1_a")], axis="index", names=True) + mi_styler.set_table_attributes('class="box"') + other = mi_styler.data.agg(["mean"]) + other.index = MultiIndex.from_product([[""], other.index]) + mi_styler.concat(other.style) + mi_styler.format(na_rep="MISSING", precision=3) + mi_styler.format_index(precision=2, axis=0) + mi_styler.format_index(precision=4, axis=1) + mi_styler.highlight_max(axis=None) + mi_styler.map_index(lambda x: "color: white;", axis=0) + mi_styler.map_index(lambda x: "color: black;", axis=1) + mi_styler.set_td_classes( + DataFrame( + [["a", "b"], ["a", "c"]], index=mi_styler.index, columns=mi_styler.columns + ) + ) + mi_styler.set_tooltips( + DataFrame( + [["a2", "b2"], ["a2", "c2"]], + index=mi_styler.index, + columns=mi_styler.columns, + ) + ) + return mi_styler + + +@pytest.fixture +def blank_value(): + return " " + + +@pytest.fixture +def df(): + df = DataFrame({"A": [0, 1], "B": np.random.default_rng(2).standard_normal(2)}) + return df + + +@pytest.fixture +def styler(df): + df = DataFrame({"A": [0, 1], "B": np.random.default_rng(2).standard_normal(2)}) + return Styler(df) + + +@pytest.mark.parametrize( + "sparse_columns, exp_cols", + [ + ( + True, + [ + {"is_visible": True, "attributes": 'colspan="2"', "value": "c0"}, + {"is_visible": False, "attributes": "", "value": "c0"}, + ], + ), + ( + False, + [ + {"is_visible": True, "attributes": "", "value": "c0"}, + {"is_visible": True, "attributes": "", "value": "c0"}, + ], + ), + ], +) +def test_mi_styler_sparsify_columns(mi_styler, sparse_columns, exp_cols): + exp_l1_c0 = {"is_visible": True, "attributes": "", "display_value": "c1_a"} + exp_l1_c1 = {"is_visible": True, "attributes": "", "display_value": "c1_b"} + + ctx = mi_styler._translate(True, sparse_columns) + + assert exp_cols[0].items() <= ctx["head"][0][2].items() + assert exp_cols[1].items() <= ctx["head"][0][3].items() + assert exp_l1_c0.items() <= ctx["head"][1][2].items() + assert exp_l1_c1.items() <= ctx["head"][1][3].items() + + +@pytest.mark.parametrize( + "sparse_index, exp_rows", + [ + ( + True, + [ + {"is_visible": True, "attributes": 'rowspan="2"', "value": "i0"}, + {"is_visible": False, "attributes": "", "value": "i0"}, + ], + ), + ( + False, + [ + {"is_visible": True, "attributes": "", "value": "i0"}, + {"is_visible": True, "attributes": "", "value": "i0"}, + ], + ), + ], +) +def test_mi_styler_sparsify_index(mi_styler, sparse_index, exp_rows): + exp_l1_r0 = {"is_visible": True, "attributes": "", "display_value": "i1_a"} + exp_l1_r1 = {"is_visible": True, "attributes": "", "display_value": "i1_b"} + + ctx = mi_styler._translate(sparse_index, True) + + assert exp_rows[0].items() <= ctx["body"][0][0].items() + assert exp_rows[1].items() <= ctx["body"][1][0].items() + assert exp_l1_r0.items() <= ctx["body"][0][1].items() + assert exp_l1_r1.items() <= ctx["body"][1][1].items() + + +def test_mi_styler_sparsify_options(mi_styler): + with option_context("styler.sparse.index", False): + html1 = mi_styler.to_html() + with option_context("styler.sparse.index", True): + html2 = mi_styler.to_html() + + assert html1 != html2 + + with option_context("styler.sparse.columns", False): + html1 = mi_styler.to_html() + with option_context("styler.sparse.columns", True): + html2 = mi_styler.to_html() + + assert html1 != html2 + + +@pytest.mark.parametrize( + "rn, cn, max_els, max_rows, max_cols, exp_rn, exp_cn", + [ + (100, 100, 100, None, None, 12, 6), # reduce to (12, 6) < 100 elements + (1000, 3, 750, None, None, 250, 3), # dynamically reduce rows to 250, keep cols + (4, 1000, 500, None, None, 4, 125), # dynamically reduce cols to 125, keep rows + (1000, 3, 750, 10, None, 10, 3), # overwrite above dynamics with max_row + (4, 1000, 500, None, 5, 4, 5), # overwrite above dynamics with max_col + (100, 100, 700, 50, 50, 25, 25), # rows cols below given maxes so < 700 elmts + ], +) +def test_trimming_maximum(rn, cn, max_els, max_rows, max_cols, exp_rn, exp_cn): + rn, cn = _get_trimming_maximums( + rn, cn, max_els, max_rows, max_cols, scaling_factor=0.5 + ) + assert (rn, cn) == (exp_rn, exp_cn) + + +@pytest.mark.parametrize( + "option, val", + [ + ("styler.render.max_elements", 6), + ("styler.render.max_rows", 3), + ], +) +def test_render_trimming_rows(option, val): + # test auto and specific trimming of rows + df = DataFrame(np.arange(120).reshape(60, 2)) + with option_context(option, val): + ctx = df.style._translate(True, True) + assert len(ctx["head"][0]) == 3 # index + 2 data cols + assert len(ctx["body"]) == 4 # 3 data rows + trimming row + assert len(ctx["body"][0]) == 3 # index + 2 data cols + + +@pytest.mark.parametrize( + "option, val", + [ + ("styler.render.max_elements", 6), + ("styler.render.max_columns", 2), + ], +) +def test_render_trimming_cols(option, val): + # test auto and specific trimming of cols + df = DataFrame(np.arange(30).reshape(3, 10)) + with option_context(option, val): + ctx = df.style._translate(True, True) + assert len(ctx["head"][0]) == 4 # index + 2 data cols + trimming col + assert len(ctx["body"]) == 3 # 3 data rows + assert len(ctx["body"][0]) == 4 # index + 2 data cols + trimming col + + +def test_render_trimming_mi(): + midx = MultiIndex.from_product([[1, 2], [1, 2, 3]]) + df = DataFrame(np.arange(36).reshape(6, 6), columns=midx, index=midx) + with option_context("styler.render.max_elements", 4): + ctx = df.style._translate(True, True) + + assert len(ctx["body"][0]) == 5 # 2 indexes + 2 data cols + trimming row + assert {"attributes": 'rowspan="2"'}.items() <= ctx["body"][0][0].items() + assert {"class": "data row0 col_trim"}.items() <= ctx["body"][0][4].items() + assert {"class": "data row_trim col_trim"}.items() <= ctx["body"][2][4].items() + assert len(ctx["body"]) == 3 # 2 data rows + trimming row + + +def test_render_empty_mi(): + # GH 43305 + df = DataFrame(index=MultiIndex.from_product([["A"], [0, 1]], names=[None, "one"])) + expected = dedent( + """\ + > + + +   + one + + + """ + ) + assert expected in df.style.to_html() + + +@pytest.mark.parametrize("comprehensive", [True, False]) +@pytest.mark.parametrize("render", [True, False]) +@pytest.mark.parametrize("deepcopy", [True, False]) +def test_copy(comprehensive, render, deepcopy, mi_styler, mi_styler_comp): + styler = mi_styler_comp if comprehensive else mi_styler + styler.uuid_len = 5 + + s2 = copy.deepcopy(styler) if deepcopy else copy.copy(styler) # make copy and check + assert s2 is not styler + + if render: + styler.to_html() + + excl = [ + "cellstyle_map", # render time vars.. + "cellstyle_map_columns", + "cellstyle_map_index", + "template_latex", # render templates are class level + "template_html", + "template_html_style", + "template_html_table", + ] + if not deepcopy: # check memory locations are equal for all included attributes + for attr in [a for a in styler.__dict__ if (not callable(a) and a not in excl)]: + assert id(getattr(s2, attr)) == id(getattr(styler, attr)) + else: # check memory locations are different for nested or mutable vars + shallow = [ + "data", + "columns", + "index", + "uuid_len", + "uuid", + "caption", + "cell_ids", + "hide_index_", + "hide_columns_", + "hide_index_names", + "hide_column_names", + "table_attributes", + ] + for attr in shallow: + assert id(getattr(s2, attr)) == id(getattr(styler, attr)) + + for attr in [ + a + for a in styler.__dict__ + if (not callable(a) and a not in excl and a not in shallow) + ]: + if getattr(s2, attr) is None: + assert id(getattr(s2, attr)) == id(getattr(styler, attr)) + else: + assert id(getattr(s2, attr)) != id(getattr(styler, attr)) + + +@pytest.mark.parametrize("deepcopy", [True, False]) +def test_inherited_copy(mi_styler, deepcopy): + # Ensure that the inherited class is preserved when a Styler object is copied. + # GH 52728 + class CustomStyler(Styler): + pass + + custom_styler = CustomStyler(mi_styler.data) + custom_styler_copy = ( + copy.deepcopy(custom_styler) if deepcopy else copy.copy(custom_styler) + ) + assert isinstance(custom_styler_copy, CustomStyler) + + +def test_clear(mi_styler_comp): + # NOTE: if this test fails for new features then 'mi_styler_comp' should be updated + # to ensure proper testing of the 'copy', 'clear', 'export' methods with new feature + # GH 40675 + styler = mi_styler_comp + styler._compute() # execute applied methods + + clean_copy = Styler(styler.data, uuid=styler.uuid) + + excl = [ + "data", + "index", + "columns", + "uuid", + "uuid_len", # uuid is set to be the same on styler and clean_copy + "cell_ids", + "cellstyle_map", # execution time only + "cellstyle_map_columns", # execution time only + "cellstyle_map_index", # execution time only + "template_latex", # render templates are class level + "template_html", + "template_html_style", + "template_html_table", + ] + # tests vars are not same vals on obj and clean copy before clear (except for excl) + for attr in [a for a in styler.__dict__ if not (callable(a) or a in excl)]: + res = getattr(styler, attr) == getattr(clean_copy, attr) + if hasattr(res, "__iter__") and len(res) > 0: + assert not all(res) # some element in iterable differs + elif hasattr(res, "__iter__") and len(res) == 0: + pass # empty array + else: + assert not res # explicit var differs + + # test vars have same vales on obj and clean copy after clearing + styler.clear() + for attr in [a for a in styler.__dict__ if not callable(a)]: + res = getattr(styler, attr) == getattr(clean_copy, attr) + assert all(res) if hasattr(res, "__iter__") else res + + +def test_export(mi_styler_comp, mi_styler): + exp_attrs = [ + "_todo", + "hide_index_", + "hide_index_names", + "hide_columns_", + "hide_column_names", + "table_attributes", + "table_styles", + "css", + ] + for attr in exp_attrs: + check = getattr(mi_styler, attr) == getattr(mi_styler_comp, attr) + assert not ( + all(check) if (hasattr(check, "__iter__") and len(check) > 0) else check + ) + + export = mi_styler_comp.export() + used = mi_styler.use(export) + for attr in exp_attrs: + check = getattr(used, attr) == getattr(mi_styler_comp, attr) + assert all(check) if (hasattr(check, "__iter__") and len(check) > 0) else check + + used.to_html() + + +def test_hide_raises(mi_styler): + msg = "`subset` and `level` cannot be passed simultaneously" + with pytest.raises(ValueError, match=msg): + mi_styler.hide(axis="index", subset="something", level="something else") + + msg = "`level` must be of type `int`, `str` or list of such" + with pytest.raises(ValueError, match=msg): + mi_styler.hide(axis="index", level={"bad": 1, "type": 2}) + + +@pytest.mark.parametrize("level", [1, "one", [1], ["one"]]) +def test_hide_index_level(mi_styler, level): + mi_styler.index.names, mi_styler.columns.names = ["zero", "one"], ["zero", "one"] + ctx = mi_styler.hide(axis="index", level=level)._translate(False, True) + assert len(ctx["head"][0]) == 3 + assert len(ctx["head"][1]) == 3 + assert len(ctx["head"][2]) == 4 + assert ctx["head"][2][0]["is_visible"] + assert not ctx["head"][2][1]["is_visible"] + + assert ctx["body"][0][0]["is_visible"] + assert not ctx["body"][0][1]["is_visible"] + assert ctx["body"][1][0]["is_visible"] + assert not ctx["body"][1][1]["is_visible"] + + +@pytest.mark.parametrize("level", [1, "one", [1], ["one"]]) +@pytest.mark.parametrize("names", [True, False]) +def test_hide_columns_level(mi_styler, level, names): + mi_styler.columns.names = ["zero", "one"] + if names: + mi_styler.index.names = ["zero", "one"] + ctx = mi_styler.hide(axis="columns", level=level)._translate(True, False) + assert len(ctx["head"]) == (2 if names else 1) + + +@pytest.mark.parametrize("method", ["map", "apply"]) +@pytest.mark.parametrize("axis", ["index", "columns"]) +def test_apply_map_header(method, axis): + # GH 41893 + df = DataFrame({"A": [0, 0], "B": [1, 1]}, index=["C", "D"]) + func = { + "apply": lambda s: ["attr: val" if ("A" in v or "C" in v) else "" for v in s], + "map": lambda v: "attr: val" if ("A" in v or "C" in v) else "", + } + + # test execution added to todo + result = getattr(df.style, f"{method}_index")(func[method], axis=axis) + assert len(result._todo) == 1 + assert len(getattr(result, f"ctx_{axis}")) == 0 + + # test ctx object on compute + result._compute() + expected = { + (0, 0): [("attr", "val")], + } + assert getattr(result, f"ctx_{axis}") == expected + + +@pytest.mark.parametrize("method", ["apply", "map"]) +@pytest.mark.parametrize("axis", ["index", "columns"]) +def test_apply_map_header_mi(mi_styler, method, axis): + # GH 41893 + func = { + "apply": lambda s: ["attr: val;" if "b" in v else "" for v in s], + "map": lambda v: "attr: val" if "b" in v else "", + } + result = getattr(mi_styler, f"{method}_index")(func[method], axis=axis)._compute() + expected = {(1, 1): [("attr", "val")]} + assert getattr(result, f"ctx_{axis}") == expected + + +def test_apply_map_header_raises(mi_styler): + # GH 41893 + with pytest.raises(ValueError, match="No axis named bad for object type DataFrame"): + mi_styler.map_index(lambda v: "attr: val;", axis="bad")._compute() + + +class TestStyler: + def test_init_non_pandas(self): + msg = "``data`` must be a Series or DataFrame" + with pytest.raises(TypeError, match=msg): + Styler([1, 2, 3]) + + def test_init_series(self): + result = Styler(Series([1, 2])) + assert result.data.ndim == 2 + + def test_repr_html_ok(self, styler): + styler._repr_html_() + + def test_repr_html_mathjax(self, styler): + # gh-19824 / 41395 + assert "tex2jax_ignore" not in styler._repr_html_() + + with option_context("styler.html.mathjax", False): + assert "tex2jax_ignore" in styler._repr_html_() + + def test_update_ctx(self, styler): + styler._update_ctx(DataFrame({"A": ["color: red", "color: blue"]})) + expected = {(0, 0): [("color", "red")], (1, 0): [("color", "blue")]} + assert styler.ctx == expected + + def test_update_ctx_flatten_multi_and_trailing_semi(self, styler): + attrs = DataFrame({"A": ["color: red; foo: bar", "color:blue ; foo: baz;"]}) + styler._update_ctx(attrs) + expected = { + (0, 0): [("color", "red"), ("foo", "bar")], + (1, 0): [("color", "blue"), ("foo", "baz")], + } + assert styler.ctx == expected + + def test_render(self): + df = DataFrame({"A": [0, 1]}) + style = lambda x: Series(["color: red", "color: blue"], name=x.name) + s = Styler(df, uuid="AB").apply(style) + s.to_html() + # it worked? + + def test_multiple_render(self, df): + # GH 39396 + s = Styler(df, uuid_len=0).map(lambda x: "color: red;", subset=["A"]) + s.to_html() # do 2 renders to ensure css styles not duplicated + assert ( + '" in s.to_html() + ) + + def test_render_empty_dfs(self): + empty_df = DataFrame() + es = Styler(empty_df) + es.to_html() + # An index but no columns + DataFrame(columns=["a"]).style.to_html() + # A column but no index + DataFrame(index=["a"]).style.to_html() + # No IndexError raised? + + def test_render_double(self): + df = DataFrame({"A": [0, 1]}) + style = lambda x: Series( + ["color: red; border: 1px", "color: blue; border: 2px"], name=x.name + ) + s = Styler(df, uuid="AB").apply(style) + s.to_html() + # it worked? + + def test_set_properties(self): + df = DataFrame({"A": [0, 1]}) + result = df.style.set_properties(color="white", size="10px")._compute().ctx + # order is deterministic + v = [("color", "white"), ("size", "10px")] + expected = {(0, 0): v, (1, 0): v} + assert result.keys() == expected.keys() + for v1, v2 in zip(result.values(), expected.values()): + assert sorted(v1) == sorted(v2) + + def test_set_properties_subset(self): + df = DataFrame({"A": [0, 1]}) + result = ( + df.style.set_properties(subset=IndexSlice[0, "A"], color="white") + ._compute() + .ctx + ) + expected = {(0, 0): [("color", "white")]} + assert result == expected + + def test_empty_index_name_doesnt_display(self, blank_value): + # https://github.com/pandas-dev/pandas/pull/12090#issuecomment-180695902 + df = DataFrame({"A": [1, 2], "B": [3, 4], "C": [5, 6]}) + result = df.style._translate(True, True) + assert len(result["head"]) == 1 + expected = { + "class": "blank level0", + "type": "th", + "value": blank_value, + "is_visible": True, + "display_value": blank_value, + } + assert expected.items() <= result["head"][0][0].items() + + def test_index_name(self): + # https://github.com/pandas-dev/pandas/issues/11655 + df = DataFrame({"A": [1, 2], "B": [3, 4], "C": [5, 6]}) + result = df.set_index("A").style._translate(True, True) + expected = { + "class": "index_name level0", + "type": "th", + "value": "A", + "is_visible": True, + "display_value": "A", + } + assert expected.items() <= result["head"][1][0].items() + + def test_numeric_columns(self): + # https://github.com/pandas-dev/pandas/issues/12125 + # smoke test for _translate + df = DataFrame({0: [1, 2, 3]}) + df.style._translate(True, True) + + def test_apply_axis(self): + df = DataFrame({"A": [0, 0], "B": [1, 1]}) + f = lambda x: [f"val: {x.max()}" for v in x] + result = df.style.apply(f, axis=1) + assert len(result._todo) == 1 + assert len(result.ctx) == 0 + result._compute() + expected = { + (0, 0): [("val", "1")], + (0, 1): [("val", "1")], + (1, 0): [("val", "1")], + (1, 1): [("val", "1")], + } + assert result.ctx == expected + + result = df.style.apply(f, axis=0) + expected = { + (0, 0): [("val", "0")], + (0, 1): [("val", "1")], + (1, 0): [("val", "0")], + (1, 1): [("val", "1")], + } + result._compute() + assert result.ctx == expected + result = df.style.apply(f) # default + result._compute() + assert result.ctx == expected + + @pytest.mark.parametrize("axis", [0, 1]) + def test_apply_series_return(self, axis): + # GH 42014 + df = DataFrame([[1, 2], [3, 4]], index=["X", "Y"], columns=["X", "Y"]) + + # test Series return where len(Series) < df.index or df.columns but labels OK + func = lambda s: Series(["color: red;"], index=["Y"]) + result = df.style.apply(func, axis=axis)._compute().ctx + assert result[(1, 1)] == [("color", "red")] + assert result[(1 - axis, axis)] == [("color", "red")] + + # test Series return where labels align but different order + func = lambda s: Series(["color: red;", "color: blue;"], index=["Y", "X"]) + result = df.style.apply(func, axis=axis)._compute().ctx + assert result[(0, 0)] == [("color", "blue")] + assert result[(1, 1)] == [("color", "red")] + assert result[(1 - axis, axis)] == [("color", "red")] + assert result[(axis, 1 - axis)] == [("color", "blue")] + + @pytest.mark.parametrize("index", [False, True]) + @pytest.mark.parametrize("columns", [False, True]) + def test_apply_dataframe_return(self, index, columns): + # GH 42014 + df = DataFrame([[1, 2], [3, 4]], index=["X", "Y"], columns=["X", "Y"]) + idxs = ["X", "Y"] if index else ["Y"] + cols = ["X", "Y"] if columns else ["Y"] + df_styles = DataFrame("color: red;", index=idxs, columns=cols) + result = df.style.apply(lambda x: df_styles, axis=None)._compute().ctx + + assert result[(1, 1)] == [("color", "red")] # (Y,Y) styles always present + assert (result[(0, 1)] == [("color", "red")]) is index # (X,Y) only if index + assert (result[(1, 0)] == [("color", "red")]) is columns # (Y,X) only if cols + assert (result[(0, 0)] == [("color", "red")]) is (index and columns) # (X,X) + + @pytest.mark.parametrize( + "slice_", + [ + IndexSlice[:], + IndexSlice[:, ["A"]], + IndexSlice[[1], :], + IndexSlice[[1], ["A"]], + IndexSlice[:2, ["A", "B"]], + ], + ) + @pytest.mark.parametrize("axis", [0, 1]) + def test_apply_subset(self, slice_, axis, df): + def h(x, color="bar"): + return Series(f"color: {color}", index=x.index, name=x.name) + + result = df.style.apply(h, axis=axis, subset=slice_, color="baz")._compute().ctx + expected = { + (r, c): [("color", "baz")] + for r, row in enumerate(df.index) + for c, col in enumerate(df.columns) + if row in df.loc[slice_].index and col in df.loc[slice_].columns + } + assert result == expected + + @pytest.mark.parametrize( + "slice_", + [ + IndexSlice[:], + IndexSlice[:, ["A"]], + IndexSlice[[1], :], + IndexSlice[[1], ["A"]], + IndexSlice[:2, ["A", "B"]], + ], + ) + def test_map_subset(self, slice_, df): + result = df.style.map(lambda x: "color:baz;", subset=slice_)._compute().ctx + expected = { + (r, c): [("color", "baz")] + for r, row in enumerate(df.index) + for c, col in enumerate(df.columns) + if row in df.loc[slice_].index and col in df.loc[slice_].columns + } + assert result == expected + + @pytest.mark.parametrize( + "slice_", + [ + IndexSlice[:, IndexSlice["x", "A"]], + IndexSlice[:, IndexSlice[:, "A"]], + IndexSlice[:, IndexSlice[:, ["A", "C"]]], # missing col element + IndexSlice[IndexSlice["a", 1], :], + IndexSlice[IndexSlice[:, 1], :], + IndexSlice[IndexSlice[:, [1, 3]], :], # missing row element + IndexSlice[:, ("x", "A")], + IndexSlice[("a", 1), :], + ], + ) + def test_map_subset_multiindex(self, slice_): + # GH 19861 + # edited for GH 33562 + if ( + isinstance(slice_[-1], tuple) + and isinstance(slice_[-1][-1], list) + and "C" in slice_[-1][-1] + ): + ctx = pytest.raises(KeyError, match="C") + elif ( + isinstance(slice_[0], tuple) + and isinstance(slice_[0][1], list) + and 3 in slice_[0][1] + ): + ctx = pytest.raises(KeyError, match="3") + else: + ctx = contextlib.nullcontext() + + idx = MultiIndex.from_product([["a", "b"], [1, 2]]) + col = MultiIndex.from_product([["x", "y"], ["A", "B"]]) + df = DataFrame(np.random.default_rng(2).random((4, 4)), columns=col, index=idx) + + with ctx: + df.style.map(lambda x: "color: red;", subset=slice_).to_html() + + def test_map_subset_multiindex_code(self): + # https://github.com/pandas-dev/pandas/issues/25858 + # Checks styler.map works with multindex when codes are provided + codes = np.array([[0, 0, 1, 1], [0, 1, 0, 1]]) + columns = MultiIndex( + levels=[["a", "b"], ["%", "#"]], codes=codes, names=["", ""] + ) + df = DataFrame( + [[1, -1, 1, 1], [-1, 1, 1, 1]], index=["hello", "world"], columns=columns + ) + pct_subset = IndexSlice[:, IndexSlice[:, "%":"%"]] + + def color_negative_red(val): + color = "red" if val < 0 else "black" + return f"color: {color}" + + df.loc[pct_subset] + df.style.map(color_negative_red, subset=pct_subset) + + @pytest.mark.parametrize( + "stylefunc", ["background_gradient", "bar", "text_gradient"] + ) + def test_subset_for_boolean_cols(self, stylefunc): + # GH47838 + df = DataFrame( + [ + [1, 2], + [3, 4], + ], + columns=[False, True], + ) + styled = getattr(df.style, stylefunc)() + styled._compute() + assert set(styled.ctx) == {(0, 0), (0, 1), (1, 0), (1, 1)} + + def test_empty(self): + df = DataFrame({"A": [1, 0]}) + s = df.style + s.ctx = {(0, 0): [("color", "red")], (1, 0): [("", "")]} + + result = s._translate(True, True)["cellstyle"] + expected = [ + {"props": [("color", "red")], "selectors": ["row0_col0"]}, + {"props": [("", "")], "selectors": ["row1_col0"]}, + ] + assert result == expected + + def test_duplicate(self): + df = DataFrame({"A": [1, 0]}) + s = df.style + s.ctx = {(0, 0): [("color", "red")], (1, 0): [("color", "red")]} + + result = s._translate(True, True)["cellstyle"] + expected = [ + {"props": [("color", "red")], "selectors": ["row0_col0", "row1_col0"]} + ] + assert result == expected + + def test_init_with_na_rep(self): + # GH 21527 28358 + df = DataFrame([[None, None], [1.1, 1.2]], columns=["A", "B"]) + + ctx = Styler(df, na_rep="NA")._translate(True, True) + assert ctx["body"][0][1]["display_value"] == "NA" + assert ctx["body"][0][2]["display_value"] == "NA" + + def test_caption(self, df): + styler = Styler(df, caption="foo") + result = styler.to_html() + assert all(["caption" in result, "foo" in result]) + + styler = df.style + result = styler.set_caption("baz") + assert styler is result + assert styler.caption == "baz" + + def test_uuid(self, df): + styler = Styler(df, uuid="abc123") + result = styler.to_html() + assert "abc123" in result + + styler = df.style + result = styler.set_uuid("aaa") + assert result is styler + assert result.uuid == "aaa" + + def test_unique_id(self): + # See https://github.com/pandas-dev/pandas/issues/16780 + df = DataFrame({"a": [1, 3, 5, 6], "b": [2, 4, 12, 21]}) + result = df.style.to_html(uuid="test") + assert "test" in result + ids = re.findall('id="(.*?)"', result) + assert np.unique(ids).size == len(ids) + + def test_table_styles(self, df): + style = [{"selector": "th", "props": [("foo", "bar")]}] # default format + styler = Styler(df, table_styles=style) + result = " ".join(styler.to_html().split()) + assert "th { foo: bar; }" in result + + styler = df.style + result = styler.set_table_styles(style) + assert styler is result + assert styler.table_styles == style + + # GH 39563 + style = [{"selector": "th", "props": "foo:bar;"}] # css string format + styler = df.style.set_table_styles(style) + result = " ".join(styler.to_html().split()) + assert "th { foo: bar; }" in result + + def test_table_styles_multiple(self, df): + ctx = df.style.set_table_styles( + [ + {"selector": "th,td", "props": "color:red;"}, + {"selector": "tr", "props": "color:green;"}, + ] + )._translate(True, True)["table_styles"] + assert ctx == [ + {"selector": "th", "props": [("color", "red")]}, + {"selector": "td", "props": [("color", "red")]}, + {"selector": "tr", "props": [("color", "green")]}, + ] + + def test_table_styles_dict_multiple_selectors(self, df): + # GH 44011 + result = df.style.set_table_styles( + { + "B": [ + {"selector": "th,td", "props": [("border-left", "2px solid black")]} + ] + } + )._translate(True, True)["table_styles"] + + expected = [ + {"selector": "th.col1", "props": [("border-left", "2px solid black")]}, + {"selector": "td.col1", "props": [("border-left", "2px solid black")]}, + ] + + assert result == expected + + def test_maybe_convert_css_to_tuples(self): + expected = [("a", "b"), ("c", "d e")] + assert maybe_convert_css_to_tuples("a:b;c:d e;") == expected + assert maybe_convert_css_to_tuples("a: b ;c: d e ") == expected + expected = [] + assert maybe_convert_css_to_tuples("") == expected + + def test_maybe_convert_css_to_tuples_err(self): + msg = "Styles supplied as string must follow CSS rule formats" + with pytest.raises(ValueError, match=msg): + maybe_convert_css_to_tuples("err") + + def test_table_attributes(self, df): + attributes = 'class="foo" data-bar' + styler = Styler(df, table_attributes=attributes) + result = styler.to_html() + assert 'class="foo" data-bar' in result + + result = df.style.set_table_attributes(attributes).to_html() + assert 'class="foo" data-bar' in result + + def test_apply_none(self): + def f(x): + return DataFrame( + np.where(x == x.max(), "color: red", ""), + index=x.index, + columns=x.columns, + ) + + result = DataFrame([[1, 2], [3, 4]]).style.apply(f, axis=None)._compute().ctx + assert result[(1, 1)] == [("color", "red")] + + def test_trim(self, df): + result = df.style.to_html() # trim=True + assert result.count("#") == 0 + + result = df.style.highlight_max().to_html() + assert result.count("#") == len(df.columns) + + def test_export(self, df, styler): + f = lambda x: "color: red" if x > 0 else "color: blue" + g = lambda x, z: f"color: {z}" if x > 0 else f"color: {z}" + style1 = styler + style1.map(f).map(g, z="b").highlight_max()._compute() # = render + result = style1.export() + style2 = df.style + style2.use(result) + assert style1._todo == style2._todo + style2.to_html() + + def test_bad_apply_shape(self): + df = DataFrame([[1, 2], [3, 4]], index=["A", "B"], columns=["X", "Y"]) + + msg = "resulted in the apply method collapsing to a Series." + with pytest.raises(ValueError, match=msg): + df.style._apply(lambda x: "x") + + msg = "created invalid {} labels" + with pytest.raises(ValueError, match=msg.format("index")): + df.style._apply(lambda x: [""]) + + with pytest.raises(ValueError, match=msg.format("index")): + df.style._apply(lambda x: ["", "", "", ""]) + + with pytest.raises(ValueError, match=msg.format("index")): + df.style._apply(lambda x: Series(["a:v;", ""], index=["A", "C"]), axis=0) + + with pytest.raises(ValueError, match=msg.format("columns")): + df.style._apply(lambda x: ["", "", ""], axis=1) + + with pytest.raises(ValueError, match=msg.format("columns")): + df.style._apply(lambda x: Series(["a:v;", ""], index=["X", "Z"]), axis=1) + + msg = "returned ndarray with wrong shape" + with pytest.raises(ValueError, match=msg): + df.style._apply(lambda x: np.array([[""], [""]]), axis=None) + + def test_apply_bad_return(self): + def f(x): + return "" + + df = DataFrame([[1, 2], [3, 4]]) + msg = ( + "must return a DataFrame or ndarray when passed to `Styler.apply` " + "with axis=None" + ) + with pytest.raises(TypeError, match=msg): + df.style._apply(f, axis=None) + + @pytest.mark.parametrize("axis", ["index", "columns"]) + def test_apply_bad_labels(self, axis): + def f(x): + return DataFrame(**{axis: ["bad", "labels"]}) + + df = DataFrame([[1, 2], [3, 4]]) + msg = f"created invalid {axis} labels." + with pytest.raises(ValueError, match=msg): + df.style._apply(f, axis=None) + + def test_get_level_lengths(self): + index = MultiIndex.from_product([["a", "b"], [0, 1, 2]]) + expected = { + (0, 0): 3, + (0, 3): 3, + (1, 0): 1, + (1, 1): 1, + (1, 2): 1, + (1, 3): 1, + (1, 4): 1, + (1, 5): 1, + } + result = _get_level_lengths(index, sparsify=True, max_index=100) + tm.assert_dict_equal(result, expected) + + expected = { + (0, 0): 1, + (0, 1): 1, + (0, 2): 1, + (0, 3): 1, + (0, 4): 1, + (0, 5): 1, + (1, 0): 1, + (1, 1): 1, + (1, 2): 1, + (1, 3): 1, + (1, 4): 1, + (1, 5): 1, + } + result = _get_level_lengths(index, sparsify=False, max_index=100) + tm.assert_dict_equal(result, expected) + + def test_get_level_lengths_un_sorted(self): + index = MultiIndex.from_arrays([[1, 1, 2, 1], ["a", "b", "b", "d"]]) + expected = { + (0, 0): 2, + (0, 2): 1, + (0, 3): 1, + (1, 0): 1, + (1, 1): 1, + (1, 2): 1, + (1, 3): 1, + } + result = _get_level_lengths(index, sparsify=True, max_index=100) + tm.assert_dict_equal(result, expected) + + expected = { + (0, 0): 1, + (0, 1): 1, + (0, 2): 1, + (0, 3): 1, + (1, 0): 1, + (1, 1): 1, + (1, 2): 1, + (1, 3): 1, + } + result = _get_level_lengths(index, sparsify=False, max_index=100) + tm.assert_dict_equal(result, expected) + + def test_mi_sparse_index_names(self, blank_value): + # Test the class names and displayed value are correct on rendering MI names + df = DataFrame( + {"A": [1, 2]}, + index=MultiIndex.from_arrays( + [["a", "a"], [0, 1]], names=["idx_level_0", "idx_level_1"] + ), + ) + result = df.style._translate(True, True) + head = result["head"][1] + expected = [ + { + "class": "index_name level0", + "display_value": "idx_level_0", + "is_visible": True, + }, + { + "class": "index_name level1", + "display_value": "idx_level_1", + "is_visible": True, + }, + { + "class": "blank col0", + "display_value": blank_value, + "is_visible": True, + }, + ] + for i, expected_dict in enumerate(expected): + assert expected_dict.items() <= head[i].items() + + def test_mi_sparse_column_names(self, blank_value): + df = DataFrame( + np.arange(16).reshape(4, 4), + index=MultiIndex.from_arrays( + [["a", "a", "b", "a"], [0, 1, 1, 2]], + names=["idx_level_0", "idx_level_1"], + ), + columns=MultiIndex.from_arrays( + [["C1", "C1", "C2", "C2"], [1, 0, 1, 0]], names=["colnam_0", "colnam_1"] + ), + ) + result = Styler(df, cell_ids=False)._translate(True, True) + + for level in [0, 1]: + head = result["head"][level] + expected = [ + { + "class": "blank", + "display_value": blank_value, + "is_visible": True, + }, + { + "class": f"index_name level{level}", + "display_value": f"colnam_{level}", + "is_visible": True, + }, + ] + for i, expected_dict in enumerate(expected): + assert expected_dict.items() <= head[i].items() + + def test_hide_column_headers(self, df, styler): + ctx = styler.hide(axis="columns")._translate(True, True) + assert len(ctx["head"]) == 0 # no header entries with an unnamed index + + df.index.name = "some_name" + ctx = df.style.hide(axis="columns")._translate(True, True) + assert len(ctx["head"]) == 1 + # index names still visible, changed in #42101, reverted in 43404 + + def test_hide_single_index(self, df): + # GH 14194 + # single unnamed index + ctx = df.style._translate(True, True) + assert ctx["body"][0][0]["is_visible"] + assert ctx["head"][0][0]["is_visible"] + ctx2 = df.style.hide(axis="index")._translate(True, True) + assert not ctx2["body"][0][0]["is_visible"] + assert not ctx2["head"][0][0]["is_visible"] + + # single named index + ctx3 = df.set_index("A").style._translate(True, True) + assert ctx3["body"][0][0]["is_visible"] + assert len(ctx3["head"]) == 2 # 2 header levels + assert ctx3["head"][0][0]["is_visible"] + + ctx4 = df.set_index("A").style.hide(axis="index")._translate(True, True) + assert not ctx4["body"][0][0]["is_visible"] + assert len(ctx4["head"]) == 1 # only 1 header levels + assert not ctx4["head"][0][0]["is_visible"] + + def test_hide_multiindex(self): + # GH 14194 + df = DataFrame( + {"A": [1, 2], "B": [1, 2]}, + index=MultiIndex.from_arrays( + [["a", "a"], [0, 1]], names=["idx_level_0", "idx_level_1"] + ), + ) + ctx1 = df.style._translate(True, True) + # tests for 'a' and '0' + assert ctx1["body"][0][0]["is_visible"] + assert ctx1["body"][0][1]["is_visible"] + # check for blank header rows + assert len(ctx1["head"][0]) == 4 # two visible indexes and two data columns + + ctx2 = df.style.hide(axis="index")._translate(True, True) + # tests for 'a' and '0' + assert not ctx2["body"][0][0]["is_visible"] + assert not ctx2["body"][0][1]["is_visible"] + # check for blank header rows + assert len(ctx2["head"][0]) == 3 # one hidden (col name) and two data columns + assert not ctx2["head"][0][0]["is_visible"] + + def test_hide_columns_single_level(self, df): + # GH 14194 + # test hiding single column + ctx = df.style._translate(True, True) + assert ctx["head"][0][1]["is_visible"] + assert ctx["head"][0][1]["display_value"] == "A" + assert ctx["head"][0][2]["is_visible"] + assert ctx["head"][0][2]["display_value"] == "B" + assert ctx["body"][0][1]["is_visible"] # col A, row 1 + assert ctx["body"][1][2]["is_visible"] # col B, row 1 + + ctx = df.style.hide("A", axis="columns")._translate(True, True) + assert not ctx["head"][0][1]["is_visible"] + assert not ctx["body"][0][1]["is_visible"] # col A, row 1 + assert ctx["body"][1][2]["is_visible"] # col B, row 1 + + # test hiding multiple columns + ctx = df.style.hide(["A", "B"], axis="columns")._translate(True, True) + assert not ctx["head"][0][1]["is_visible"] + assert not ctx["head"][0][2]["is_visible"] + assert not ctx["body"][0][1]["is_visible"] # col A, row 1 + assert not ctx["body"][1][2]["is_visible"] # col B, row 1 + + def test_hide_columns_index_mult_levels(self): + # GH 14194 + # setup dataframe with multiple column levels and indices + i1 = MultiIndex.from_arrays( + [["a", "a"], [0, 1]], names=["idx_level_0", "idx_level_1"] + ) + i2 = MultiIndex.from_arrays( + [["b", "b"], [0, 1]], names=["col_level_0", "col_level_1"] + ) + df = DataFrame([[1, 2], [3, 4]], index=i1, columns=i2) + ctx = df.style._translate(True, True) + # column headers + assert ctx["head"][0][2]["is_visible"] + assert ctx["head"][1][2]["is_visible"] + assert ctx["head"][1][3]["display_value"] == "1" + # indices + assert ctx["body"][0][0]["is_visible"] + # data + assert ctx["body"][1][2]["is_visible"] + assert ctx["body"][1][2]["display_value"] == "3" + assert ctx["body"][1][3]["is_visible"] + assert ctx["body"][1][3]["display_value"] == "4" + + # hide top column level, which hides both columns + ctx = df.style.hide("b", axis="columns")._translate(True, True) + assert not ctx["head"][0][2]["is_visible"] # b + assert not ctx["head"][1][2]["is_visible"] # 0 + assert not ctx["body"][1][2]["is_visible"] # 3 + assert ctx["body"][0][0]["is_visible"] # index + + # hide first column only + ctx = df.style.hide([("b", 0)], axis="columns")._translate(True, True) + assert not ctx["head"][0][2]["is_visible"] # b + assert ctx["head"][0][3]["is_visible"] # b + assert not ctx["head"][1][2]["is_visible"] # 0 + assert not ctx["body"][1][2]["is_visible"] # 3 + assert ctx["body"][1][3]["is_visible"] + assert ctx["body"][1][3]["display_value"] == "4" + + # hide second column and index + ctx = df.style.hide([("b", 1)], axis=1).hide(axis=0)._translate(True, True) + assert not ctx["body"][0][0]["is_visible"] # index + assert len(ctx["head"][0]) == 3 + assert ctx["head"][0][1]["is_visible"] # b + assert ctx["head"][1][1]["is_visible"] # 0 + assert not ctx["head"][1][2]["is_visible"] # 1 + assert not ctx["body"][1][3]["is_visible"] # 4 + assert ctx["body"][1][2]["is_visible"] + assert ctx["body"][1][2]["display_value"] == "3" + + # hide top row level, which hides both rows so body empty + ctx = df.style.hide("a", axis="index")._translate(True, True) + assert ctx["body"] == [] + + # hide first row only + ctx = df.style.hide(("a", 0), axis="index")._translate(True, True) + for i in [0, 1, 2, 3]: + assert "row1" in ctx["body"][0][i]["class"] # row0 not included in body + assert ctx["body"][0][i]["is_visible"] + + def test_pipe(self, df): + def set_caption_from_template(styler, a, b): + return styler.set_caption(f"Dataframe with a = {a} and b = {b}") + + styler = df.style.pipe(set_caption_from_template, "A", b="B") + assert "Dataframe with a = A and b = B" in styler.to_html() + + # Test with an argument that is a (callable, keyword_name) pair. + def f(a, b, styler): + return (a, b, styler) + + styler = df.style + result = styler.pipe((f, "styler"), a=1, b=2) + assert result == (1, 2, styler) + + def test_no_cell_ids(self): + # GH 35588 + # GH 35663 + df = DataFrame(data=[[0]]) + styler = Styler(df, uuid="_", cell_ids=False) + styler.to_html() + s = styler.to_html() # render twice to ensure ctx is not updated + assert s.find('') != -1 + + @pytest.mark.parametrize( + "classes", + [ + DataFrame( + data=[["", "test-class"], [np.nan, None]], + columns=["A", "B"], + index=["a", "b"], + ), + DataFrame(data=[["test-class"]], columns=["B"], index=["a"]), + DataFrame(data=[["test-class", "unused"]], columns=["B", "C"], index=["a"]), + ], + ) + def test_set_data_classes(self, classes): + # GH 36159 + df = DataFrame(data=[[0, 1], [2, 3]], columns=["A", "B"], index=["a", "b"]) + s = Styler(df, uuid_len=0, cell_ids=False).set_td_classes(classes).to_html() + assert '0' in s + assert '1' in s + assert '2' in s + assert '3' in s + # GH 39317 + s = Styler(df, uuid_len=0, cell_ids=True).set_td_classes(classes).to_html() + assert '0' in s + assert '1' in s + assert '2' in s + assert '3' in s + + def test_set_data_classes_reindex(self): + # GH 39317 + df = DataFrame( + data=[[0, 1, 2], [3, 4, 5], [6, 7, 8]], columns=[0, 1, 2], index=[0, 1, 2] + ) + classes = DataFrame( + data=[["mi", "ma"], ["mu", "mo"]], + columns=[0, 2], + index=[0, 2], + ) + s = Styler(df, uuid_len=0).set_td_classes(classes).to_html() + assert '0' in s + assert '2' in s + assert '4' in s + assert '6' in s + assert '8' in s + + def test_chaining_table_styles(self): + # GH 35607 + df = DataFrame(data=[[0, 1], [1, 2]], columns=["A", "B"]) + styler = df.style.set_table_styles( + [{"selector": "", "props": [("background-color", "yellow")]}] + ).set_table_styles( + [{"selector": ".col0", "props": [("background-color", "blue")]}], + overwrite=False, + ) + assert len(styler.table_styles) == 2 + + def test_column_and_row_styling(self): + # GH 35607 + df = DataFrame(data=[[0, 1], [1, 2]], columns=["A", "B"]) + s = Styler(df, uuid_len=0) + s = s.set_table_styles({"A": [{"selector": "", "props": [("color", "blue")]}]}) + assert "#T_ .col0 {\n color: blue;\n}" in s.to_html() + s = s.set_table_styles( + {0: [{"selector": "", "props": [("color", "blue")]}]}, axis=1 + ) + assert "#T_ .row0 {\n color: blue;\n}" in s.to_html() + + @pytest.mark.parametrize("len_", [1, 5, 32, 33, 100]) + def test_uuid_len(self, len_): + # GH 36345 + df = DataFrame(data=[["A"]]) + s = Styler(df, uuid_len=len_, cell_ids=False).to_html() + strt = s.find('id="T_') + end = s[strt + 6 :].find('"') + if len_ > 32: + assert end == 32 + else: + assert end == len_ + + @pytest.mark.parametrize("len_", [-2, "bad", None]) + def test_uuid_len_raises(self, len_): + # GH 36345 + df = DataFrame(data=[["A"]]) + msg = "``uuid_len`` must be an integer in range \\[0, 32\\]." + with pytest.raises(TypeError, match=msg): + Styler(df, uuid_len=len_, cell_ids=False).to_html() + + @pytest.mark.parametrize( + "slc", + [ + IndexSlice[:, :], + IndexSlice[:, 1], + IndexSlice[1, :], + IndexSlice[[1], [1]], + IndexSlice[1, [1]], + IndexSlice[[1], 1], + IndexSlice[1], + IndexSlice[1, 1], + slice(None, None, None), + [0, 1], + np.array([0, 1]), + Series([0, 1]), + ], + ) + def test_non_reducing_slice(self, slc): + df = DataFrame([[0, 1], [2, 3]]) + + tslice_ = non_reducing_slice(slc) + assert isinstance(df.loc[tslice_], DataFrame) + + @pytest.mark.parametrize("box", [list, Series, np.array]) + def test_list_slice(self, box): + # like dataframe getitem + subset = box(["A"]) + + df = DataFrame({"A": [1, 2], "B": [3, 4]}, index=["A", "B"]) + expected = IndexSlice[:, ["A"]] + + result = non_reducing_slice(subset) + tm.assert_frame_equal(df.loc[result], df.loc[expected]) + + def test_non_reducing_slice_on_multiindex(self): + # GH 19861 + dic = { + ("a", "d"): [1, 4], + ("a", "c"): [2, 3], + ("b", "c"): [3, 2], + ("b", "d"): [4, 1], + } + df = DataFrame(dic, index=[0, 1]) + idx = IndexSlice + slice_ = idx[:, idx["b", "d"]] + tslice_ = non_reducing_slice(slice_) + + result = df.loc[tslice_] + expected = DataFrame({("b", "d"): [4, 1]}) + tm.assert_frame_equal(result, expected) + + @pytest.mark.parametrize( + "slice_", + [ + IndexSlice[:, :], + # check cols + IndexSlice[:, IndexSlice[["a"]]], # inferred deeper need list + IndexSlice[:, IndexSlice[["a"], ["c"]]], # inferred deeper need list + IndexSlice[:, IndexSlice["a", "c", :]], + IndexSlice[:, IndexSlice["a", :, "e"]], + IndexSlice[:, IndexSlice[:, "c", "e"]], + IndexSlice[:, IndexSlice["a", ["c", "d"], :]], # check list + IndexSlice[:, IndexSlice["a", ["c", "d", "-"], :]], # don't allow missing + IndexSlice[:, IndexSlice["a", ["c", "d", "-"], "e"]], # no slice + # check rows + IndexSlice[IndexSlice[["U"]], :], # inferred deeper need list + IndexSlice[IndexSlice[["U"], ["W"]], :], # inferred deeper need list + IndexSlice[IndexSlice["U", "W", :], :], + IndexSlice[IndexSlice["U", :, "Y"], :], + IndexSlice[IndexSlice[:, "W", "Y"], :], + IndexSlice[IndexSlice[:, "W", ["Y", "Z"]], :], # check list + IndexSlice[IndexSlice[:, "W", ["Y", "Z", "-"]], :], # don't allow missing + IndexSlice[IndexSlice["U", "W", ["Y", "Z", "-"]], :], # no slice + # check simultaneous + IndexSlice[IndexSlice[:, "W", "Y"], IndexSlice["a", "c", :]], + ], + ) + def test_non_reducing_multi_slice_on_multiindex(self, slice_): + # GH 33562 + cols = MultiIndex.from_product([["a", "b"], ["c", "d"], ["e", "f"]]) + idxs = MultiIndex.from_product([["U", "V"], ["W", "X"], ["Y", "Z"]]) + df = DataFrame(np.arange(64).reshape(8, 8), columns=cols, index=idxs) + + for lvl in [0, 1]: + key = slice_[lvl] + if isinstance(key, tuple): + for subkey in key: + if isinstance(subkey, list) and "-" in subkey: + # not present in the index level, raises KeyError since 2.0 + with pytest.raises(KeyError, match="-"): + df.loc[slice_] + return + + expected = df.loc[slice_] + result = df.loc[non_reducing_slice(slice_)] + tm.assert_frame_equal(result, expected) + + +def test_hidden_index_names(mi_df): + mi_df.index.names = ["Lev0", "Lev1"] + mi_styler = mi_df.style + ctx = mi_styler._translate(True, True) + assert len(ctx["head"]) == 3 # 2 column index levels + 1 index names row + + mi_styler.hide(axis="index", names=True) + ctx = mi_styler._translate(True, True) + assert len(ctx["head"]) == 2 # index names row is unparsed + for i in range(4): + assert ctx["body"][0][i]["is_visible"] # 2 index levels + 2 data values visible + + mi_styler.hide(axis="index", level=1) + ctx = mi_styler._translate(True, True) + assert len(ctx["head"]) == 2 # index names row is still hidden + assert ctx["body"][0][0]["is_visible"] is True + assert ctx["body"][0][1]["is_visible"] is False + + +def test_hidden_column_names(mi_df): + mi_df.columns.names = ["Lev0", "Lev1"] + mi_styler = mi_df.style + ctx = mi_styler._translate(True, True) + assert ctx["head"][0][1]["display_value"] == "Lev0" + assert ctx["head"][1][1]["display_value"] == "Lev1" + + mi_styler.hide(names=True, axis="columns") + ctx = mi_styler._translate(True, True) + assert ctx["head"][0][1]["display_value"] == " " + assert ctx["head"][1][1]["display_value"] == " " + + mi_styler.hide(level=0, axis="columns") + ctx = mi_styler._translate(True, True) + assert len(ctx["head"]) == 1 # no index names and only one visible column headers + assert ctx["head"][0][1]["display_value"] == " " + + +@pytest.mark.parametrize("caption", [1, ("a", "b", "c"), (1, "s")]) +def test_caption_raises(mi_styler, caption): + msg = "`caption` must be either a string or 2-tuple of strings." + with pytest.raises(ValueError, match=msg): + mi_styler.set_caption(caption) + + +def test_hiding_headers_over_index_no_sparsify(): + # GH 43464 + midx = MultiIndex.from_product([[1, 2], ["a", "a", "b"]]) + df = DataFrame(9, index=midx, columns=[0]) + ctx = df.style._translate(False, False) + assert len(ctx["body"]) == 6 + ctx = df.style.hide((1, "a"), axis=0)._translate(False, False) + assert len(ctx["body"]) == 4 + assert "row2" in ctx["body"][0][0]["class"] + + +def test_hiding_headers_over_columns_no_sparsify(): + # GH 43464 + midx = MultiIndex.from_product([[1, 2], ["a", "a", "b"]]) + df = DataFrame(9, columns=midx, index=[0]) + ctx = df.style._translate(False, False) + for ix in [(0, 1), (0, 2), (1, 1), (1, 2)]: + assert ctx["head"][ix[0]][ix[1]]["is_visible"] is True + ctx = df.style.hide((1, "a"), axis="columns")._translate(False, False) + for ix in [(0, 1), (0, 2), (1, 1), (1, 2)]: + assert ctx["head"][ix[0]][ix[1]]["is_visible"] is False + + +def test_get_level_lengths_mi_hidden(): + # GH 43464 + index = MultiIndex.from_arrays([[1, 1, 1, 2, 2, 2], ["a", "a", "b", "a", "a", "b"]]) + expected = { + (0, 2): 1, + (0, 3): 1, + (0, 4): 1, + (0, 5): 1, + (1, 2): 1, + (1, 3): 1, + (1, 4): 1, + (1, 5): 1, + } + result = _get_level_lengths( + index, + sparsify=False, + max_index=100, + hidden_elements=[0, 1, 0, 1], # hidden element can repeat if duplicated index + ) + tm.assert_dict_equal(result, expected) + + +def test_row_trimming_hide_index(): + # gh 43703 + df = DataFrame([[1], [2], [3], [4], [5]]) + with option_context("styler.render.max_rows", 2): + ctx = df.style.hide([0, 1], axis="index")._translate(True, True) + assert len(ctx["body"]) == 3 + for r, val in enumerate(["3", "4", "..."]): + assert ctx["body"][r][1]["display_value"] == val + + +def test_row_trimming_hide_index_mi(): + # gh 44247 + df = DataFrame([[1], [2], [3], [4], [5]]) + df.index = MultiIndex.from_product([[0], [0, 1, 2, 3, 4]]) + with option_context("styler.render.max_rows", 2): + ctx = df.style.hide([(0, 0), (0, 1)], axis="index")._translate(True, True) + assert len(ctx["body"]) == 3 + + # level 0 index headers (sparsified) + assert {"value": 0, "attributes": 'rowspan="2"', "is_visible": True}.items() <= ctx[ + "body" + ][0][0].items() + assert {"value": 0, "attributes": "", "is_visible": False}.items() <= ctx["body"][ + 1 + ][0].items() + assert {"value": "...", "is_visible": True}.items() <= ctx["body"][2][0].items() + + for r, val in enumerate(["2", "3", "..."]): + assert ctx["body"][r][1]["display_value"] == val # level 1 index headers + for r, val in enumerate(["3", "4", "..."]): + assert ctx["body"][r][2]["display_value"] == val # data values + + +def test_col_trimming_hide_columns(): + # gh 44272 + df = DataFrame([[1, 2, 3, 4, 5]]) + with option_context("styler.render.max_columns", 2): + ctx = df.style.hide([0, 1], axis="columns")._translate(True, True) + + assert len(ctx["head"][0]) == 6 # blank, [0, 1 (hidden)], [2 ,3 (visible)], + trim + for c, vals in enumerate([(1, False), (2, True), (3, True), ("...", True)]): + assert ctx["head"][0][c + 2]["value"] == vals[0] + assert ctx["head"][0][c + 2]["is_visible"] == vals[1] + + assert len(ctx["body"][0]) == 6 # index + 2 hidden + 2 visible + trimming col + + +def test_no_empty_apply(mi_styler): + # 45313 + mi_styler.apply(lambda s: ["a:v;"] * 2, subset=[False, False]) + mi_styler._compute() + + +@pytest.mark.parametrize("format", ["html", "latex", "string"]) +def test_output_buffer(mi_styler, format): + # gh 47053 + with tm.ensure_clean(f"delete_me.{format}") as f: + getattr(mi_styler, f"to_{format}")(f) diff --git a/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_to_latex.py b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_to_latex.py new file mode 100644 index 0000000000000000000000000000000000000000..7f1443c3ee66be040f668f546682924207cfd31e --- /dev/null +++ b/Scripts_RSCM_sim_growth_n_climate_to_Yield/.venv/lib/python3.10/site-packages/pandas/tests/io/formats/style/test_to_latex.py @@ -0,0 +1,1090 @@ +from textwrap import dedent + +import numpy as np +import pytest + +from pandas import ( + DataFrame, + MultiIndex, + Series, + option_context, +) + +pytest.importorskip("jinja2") +from pandas.io.formats.style import Styler +from pandas.io.formats.style_render import ( + _parse_latex_cell_styles, + _parse_latex_css_conversion, + _parse_latex_header_span, + _parse_latex_table_styles, + _parse_latex_table_wrapping, +) + + +@pytest.fixture +def df(): + return DataFrame( + {"A": [0, 1], "B": [-0.61, -1.22], "C": Series(["ab", "cd"], dtype=object)} + ) + + +@pytest.fixture +def df_ext(): + return DataFrame( + {"A": [0, 1, 2], "B": [-0.61, -1.22, -2.22], "C": ["ab", "cd", "de"]} + ) + + +@pytest.fixture +def styler(df): + return Styler(df, uuid_len=0, precision=2) + + +def test_minimal_latex_tabular(styler): + expected = dedent( + """\ + \\begin{tabular}{lrrl} + & A & B & C \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{tabular} + """ + ) + assert styler.to_latex() == expected + + +def test_tabular_hrules(styler): + expected = dedent( + """\ + \\begin{tabular}{lrrl} + \\toprule + & A & B & C \\\\ + \\midrule + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\bottomrule + \\end{tabular} + """ + ) + assert styler.to_latex(hrules=True) == expected + + +def test_tabular_custom_hrules(styler): + styler.set_table_styles( + [ + {"selector": "toprule", "props": ":hline"}, + {"selector": "bottomrule", "props": ":otherline"}, + ] + ) # no midrule + expected = dedent( + """\ + \\begin{tabular}{lrrl} + \\hline + & A & B & C \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\otherline + \\end{tabular} + """ + ) + assert styler.to_latex() == expected + + +def test_column_format(styler): + # default setting is already tested in `test_latex_minimal_tabular` + styler.set_table_styles([{"selector": "column_format", "props": ":cccc"}]) + + assert "\\begin{tabular}{rrrr}" in styler.to_latex(column_format="rrrr") + styler.set_table_styles([{"selector": "column_format", "props": ":r|r|cc"}]) + assert "\\begin{tabular}{r|r|cc}" in styler.to_latex() + + +def test_siunitx_cols(styler): + expected = dedent( + """\ + \\begin{tabular}{lSSl} + {} & {A} & {B} & {C} \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{tabular} + """ + ) + assert styler.to_latex(siunitx=True) == expected + + +def test_position(styler): + assert "\\begin{table}[h!]" in styler.to_latex(position="h!") + assert "\\end{table}" in styler.to_latex(position="h!") + styler.set_table_styles([{"selector": "position", "props": ":b!"}]) + assert "\\begin{table}[b!]" in styler.to_latex() + assert "\\end{table}" in styler.to_latex() + + +@pytest.mark.parametrize("env", [None, "longtable"]) +def test_label(styler, env): + assert "\n\\label{text}" in styler.to_latex(label="text", environment=env) + styler.set_table_styles([{"selector": "label", "props": ":{more §text}"}]) + assert "\n\\label{more :text}" in styler.to_latex(environment=env) + + +def test_position_float_raises(styler): + msg = "`position_float` should be one of 'raggedright', 'raggedleft', 'centering'," + with pytest.raises(ValueError, match=msg): + styler.to_latex(position_float="bad_string") + + msg = "`position_float` cannot be used in 'longtable' `environment`" + with pytest.raises(ValueError, match=msg): + styler.to_latex(position_float="centering", environment="longtable") + + +@pytest.mark.parametrize("label", [(None, ""), ("text", "\\label{text}")]) +@pytest.mark.parametrize("position", [(None, ""), ("h!", "{table}[h!]")]) +@pytest.mark.parametrize("caption", [(None, ""), ("text", "\\caption{text}")]) +@pytest.mark.parametrize("column_format", [(None, ""), ("rcrl", "{tabular}{rcrl}")]) +@pytest.mark.parametrize("position_float", [(None, ""), ("centering", "\\centering")]) +def test_kwargs_combinations( + styler, label, position, caption, column_format, position_float +): + result = styler.to_latex( + label=label[0], + position=position[0], + caption=caption[0], + column_format=column_format[0], + position_float=position_float[0], + ) + assert label[1] in result + assert position[1] in result + assert caption[1] in result + assert column_format[1] in result + assert position_float[1] in result + + +def test_custom_table_styles(styler): + styler.set_table_styles( + [ + {"selector": "mycommand", "props": ":{myoptions}"}, + {"selector": "mycommand2", "props": ":{myoptions2}"}, + ] + ) + expected = dedent( + """\ + \\begin{table} + \\mycommand{myoptions} + \\mycommand2{myoptions2} + """ + ) + assert expected in styler.to_latex() + + +def test_cell_styling(styler): + styler.highlight_max(props="itshape:;Huge:--wrap;") + expected = dedent( + """\ + \\begin{tabular}{lrrl} + & A & B & C \\\\ + 0 & 0 & \\itshape {\\Huge -0.61} & ab \\\\ + 1 & \\itshape {\\Huge 1} & -1.22 & \\itshape {\\Huge cd} \\\\ + \\end{tabular} + """ + ) + assert expected == styler.to_latex() + + +def test_multiindex_columns(df): + cidx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df.columns = cidx + expected = dedent( + """\ + \\begin{tabular}{lrrl} + & \\multicolumn{2}{r}{A} & B \\\\ + & a & b & c \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{tabular} + """ + ) + s = df.style.format(precision=2) + assert expected == s.to_latex() + + # non-sparse + expected = dedent( + """\ + \\begin{tabular}{lrrl} + & A & A & B \\\\ + & a & b & c \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{tabular} + """ + ) + s = df.style.format(precision=2) + assert expected == s.to_latex(sparse_columns=False) + + +def test_multiindex_row(df_ext): + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index = ridx + expected = dedent( + """\ + \\begin{tabular}{llrrl} + & & A & B & C \\\\ + \\multirow[c]{2}{*}{A} & a & 0 & -0.61 & ab \\\\ + & b & 1 & -1.22 & cd \\\\ + B & c & 2 & -2.22 & de \\\\ + \\end{tabular} + """ + ) + styler = df_ext.style.format(precision=2) + result = styler.to_latex() + assert expected == result + + # non-sparse + expected = dedent( + """\ + \\begin{tabular}{llrrl} + & & A & B & C \\\\ + A & a & 0 & -0.61 & ab \\\\ + A & b & 1 & -1.22 & cd \\\\ + B & c & 2 & -2.22 & de \\\\ + \\end{tabular} + """ + ) + result = styler.to_latex(sparse_index=False) + assert expected == result + + +def test_multirow_naive(df_ext): + ridx = MultiIndex.from_tuples([("X", "x"), ("X", "y"), ("Y", "z")]) + df_ext.index = ridx + expected = dedent( + """\ + \\begin{tabular}{llrrl} + & & A & B & C \\\\ + X & x & 0 & -0.61 & ab \\\\ + & y & 1 & -1.22 & cd \\\\ + Y & z & 2 & -2.22 & de \\\\ + \\end{tabular} + """ + ) + styler = df_ext.style.format(precision=2) + result = styler.to_latex(multirow_align="naive") + assert expected == result + + +def test_multiindex_row_and_col(df_ext): + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index, df_ext.columns = ridx, cidx + expected = dedent( + """\ + \\begin{tabular}{llrrl} + & & \\multicolumn{2}{l}{Z} & Y \\\\ + & & a & b & c \\\\ + \\multirow[b]{2}{*}{A} & a & 0 & -0.61 & ab \\\\ + & b & 1 & -1.22 & cd \\\\ + B & c & 2 & -2.22 & de \\\\ + \\end{tabular} + """ + ) + styler = df_ext.style.format(precision=2) + result = styler.to_latex(multirow_align="b", multicol_align="l") + assert result == expected + + # non-sparse + expected = dedent( + """\ + \\begin{tabular}{llrrl} + & & Z & Z & Y \\\\ + & & a & b & c \\\\ + A & a & 0 & -0.61 & ab \\\\ + A & b & 1 & -1.22 & cd \\\\ + B & c & 2 & -2.22 & de \\\\ + \\end{tabular} + """ + ) + result = styler.to_latex(sparse_index=False, sparse_columns=False) + assert result == expected + + +@pytest.mark.parametrize( + "multicol_align, siunitx, header", + [ + ("naive-l", False, " & A & &"), + ("naive-r", False, " & & & A"), + ("naive-l", True, "{} & {A} & {} & {}"), + ("naive-r", True, "{} & {} & {} & {A}"), + ], +) +def test_multicol_naive(df, multicol_align, siunitx, header): + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("A", "c")]) + df.columns = ridx + level1 = " & a & b & c" if not siunitx else "{} & {a} & {b} & {c}" + col_format = "lrrl" if not siunitx else "lSSl" + expected = dedent( + f"""\ + \\begin{{tabular}}{{{col_format}}} + {header} \\\\ + {level1} \\\\ + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{{tabular}} + """ + ) + styler = df.style.format(precision=2) + result = styler.to_latex(multicol_align=multicol_align, siunitx=siunitx) + assert expected == result + + +def test_multi_options(df_ext): + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index, df_ext.columns = ridx, cidx + styler = df_ext.style.format(precision=2) + + expected = dedent( + """\ + & & \\multicolumn{2}{r}{Z} & Y \\\\ + & & a & b & c \\\\ + \\multirow[c]{2}{*}{A} & a & 0 & -0.61 & ab \\\\ + """ + ) + result = styler.to_latex() + assert expected in result + + with option_context("styler.latex.multicol_align", "l"): + assert " & & \\multicolumn{2}{l}{Z} & Y \\\\" in styler.to_latex() + + with option_context("styler.latex.multirow_align", "b"): + assert "\\multirow[b]{2}{*}{A} & a & 0 & -0.61 & ab \\\\" in styler.to_latex() + + +def test_multiindex_columns_hidden(): + df = DataFrame([[1, 2, 3, 4]]) + df.columns = MultiIndex.from_tuples([("A", 1), ("A", 2), ("A", 3), ("B", 1)]) + s = df.style + assert "{tabular}{lrrrr}" in s.to_latex() + s.set_table_styles([]) # reset the position command + s.hide([("A", 2)], axis="columns") + assert "{tabular}{lrrr}" in s.to_latex() + + +@pytest.mark.parametrize( + "option, value", + [ + ("styler.sparse.index", True), + ("styler.sparse.index", False), + ("styler.sparse.columns", True), + ("styler.sparse.columns", False), + ], +) +def test_sparse_options(df_ext, option, value): + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index, df_ext.columns = ridx, cidx + styler = df_ext.style + + latex1 = styler.to_latex() + with option_context(option, value): + latex2 = styler.to_latex() + assert (latex1 == latex2) is value + + +def test_hidden_index(styler): + styler.hide(axis="index") + expected = dedent( + """\ + \\begin{tabular}{rrl} + A & B & C \\\\ + 0 & -0.61 & ab \\\\ + 1 & -1.22 & cd \\\\ + \\end{tabular} + """ + ) + assert styler.to_latex() == expected + + +@pytest.mark.parametrize("environment", ["table", "figure*", None]) +def test_comprehensive(df_ext, environment): + # test as many low level features simultaneously as possible + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index, df_ext.columns = ridx, cidx + stlr = df_ext.style + stlr.set_caption("mycap") + stlr.set_table_styles( + [ + {"selector": "label", "props": ":{fig§item}"}, + {"selector": "position", "props": ":h!"}, + {"selector": "position_float", "props": ":centering"}, + {"selector": "column_format", "props": ":rlrlr"}, + {"selector": "toprule", "props": ":toprule"}, + {"selector": "midrule", "props": ":midrule"}, + {"selector": "bottomrule", "props": ":bottomrule"}, + {"selector": "rowcolors", "props": ":{3}{pink}{}"}, # custom command + ] + ) + stlr.highlight_max(axis=0, props="textbf:--rwrap;cellcolor:[rgb]{1,1,0.6}--rwrap") + stlr.highlight_max(axis=None, props="Huge:--wrap;", subset=[("Z", "a"), ("Z", "b")]) + + expected = ( + """\ +\\begin{table}[h!] +\\centering +\\caption{mycap} +\\label{fig:item} +\\rowcolors{3}{pink}{} +\\begin{tabular}{rlrlr} +\\toprule + & & \\multicolumn{2}{r}{Z} & Y \\\\ + & & a & b & c \\\\ +\\midrule +\\multirow[c]{2}{*}{A} & a & 0 & \\textbf{\\cellcolor[rgb]{1,1,0.6}{-0.61}} & ab \\\\ + & b & 1 & -1.22 & cd \\\\ +B & c & \\textbf{\\cellcolor[rgb]{1,1,0.6}{{\\Huge 2}}} & -2.22 & """ + """\ +\\textbf{\\cellcolor[rgb]{1,1,0.6}{de}} \\\\ +\\bottomrule +\\end{tabular} +\\end{table} +""" + ).replace("table", environment if environment else "table") + result = stlr.format(precision=2).to_latex(environment=environment) + assert result == expected + + +def test_environment_option(styler): + with option_context("styler.latex.environment", "bar-env"): + assert "\\begin{bar-env}" in styler.to_latex() + assert "\\begin{foo-env}" in styler.to_latex(environment="foo-env") + + +def test_parse_latex_table_styles(styler): + styler.set_table_styles( + [ + {"selector": "foo", "props": [("attr", "value")]}, + {"selector": "bar", "props": [("attr", "overwritten")]}, + {"selector": "bar", "props": [("attr", "baz"), ("attr2", "ignored")]}, + {"selector": "label", "props": [("", "{fig§item}")]}, + ] + ) + assert _parse_latex_table_styles(styler.table_styles, "bar") == "baz" + + # test '§' replaced by ':' [for CSS compatibility] + assert _parse_latex_table_styles(styler.table_styles, "label") == "{fig:item}" + + +def test_parse_latex_cell_styles_basic(): # test nesting + cell_style = [("itshape", "--rwrap"), ("cellcolor", "[rgb]{0,1,1}--rwrap")] + expected = "\\itshape{\\cellcolor[rgb]{0,1,1}{text}}" + assert _parse_latex_cell_styles(cell_style, "text") == expected + + +@pytest.mark.parametrize( + "wrap_arg, expected", + [ # test wrapping + ("", "\\ "), + ("--wrap", "{\\ }"), + ("--nowrap", "\\ "), + ("--lwrap", "{\\} "), + ("--dwrap", "{\\}{}"), + ("--rwrap", "\\{}"), + ], +) +def test_parse_latex_cell_styles_braces(wrap_arg, expected): + cell_style = [("", f"{wrap_arg}")] + assert _parse_latex_cell_styles(cell_style, "") == expected + + +def test_parse_latex_header_span(): + cell = {"attributes": 'colspan="3"', "display_value": "text", "cellstyle": []} + expected = "\\multicolumn{3}{Y}{text}" + assert _parse_latex_header_span(cell, "X", "Y") == expected + + cell = {"attributes": 'rowspan="5"', "display_value": "text", "cellstyle": []} + expected = "\\multirow[X]{5}{*}{text}" + assert _parse_latex_header_span(cell, "X", "Y") == expected + + cell = {"display_value": "text", "cellstyle": []} + assert _parse_latex_header_span(cell, "X", "Y") == "text" + + cell = {"display_value": "text", "cellstyle": [("bfseries", "--rwrap")]} + assert _parse_latex_header_span(cell, "X", "Y") == "\\bfseries{text}" + + +def test_parse_latex_table_wrapping(styler): + styler.set_table_styles( + [ + {"selector": "toprule", "props": ":value"}, + {"selector": "bottomrule", "props": ":value"}, + {"selector": "midrule", "props": ":value"}, + {"selector": "column_format", "props": ":value"}, + ] + ) + assert _parse_latex_table_wrapping(styler.table_styles, styler.caption) is False + assert _parse_latex_table_wrapping(styler.table_styles, "some caption") is True + styler.set_table_styles( + [ + {"selector": "not-ignored", "props": ":value"}, + ], + overwrite=False, + ) + assert _parse_latex_table_wrapping(styler.table_styles, None) is True + + +def test_short_caption(styler): + result = styler.to_latex(caption=("full cap", "short cap")) + assert "\\caption[short cap]{full cap}" in result + + +@pytest.mark.parametrize( + "css, expected", + [ + ([("color", "red")], [("color", "{red}")]), # test color and input format types + ( + [("color", "rgb(128, 128, 128 )")], + [("color", "[rgb]{0.502, 0.502, 0.502}")], + ), + ( + [("color", "rgb(128, 50%, 25% )")], + [("color", "[rgb]{0.502, 0.500, 0.250}")], + ), + ( + [("color", "rgba(128,128,128,1)")], + [("color", "[rgb]{0.502, 0.502, 0.502}")], + ), + ([("color", "#FF00FF")], [("color", "[HTML]{FF00FF}")]), + ([("color", "#F0F")], [("color", "[HTML]{FF00FF}")]), + ([("font-weight", "bold")], [("bfseries", "")]), # test font-weight and types + ([("font-weight", "bolder")], [("bfseries", "")]), + ([("font-weight", "normal")], []), + ([("background-color", "red")], [("cellcolor", "{red}--lwrap")]), + ( + [("background-color", "#FF00FF")], # test background-color command and wrap + [("cellcolor", "[HTML]{FF00FF}--lwrap")], + ), + ([("font-style", "italic")], [("itshape", "")]), # test font-style and types + ([("font-style", "oblique")], [("slshape", "")]), + ([("font-style", "normal")], []), + ([("color", "red /*--dwrap*/")], [("color", "{red}--dwrap")]), # css comments + ([("background-color", "red /* --dwrap */")], [("cellcolor", "{red}--dwrap")]), + ], +) +def test_parse_latex_css_conversion(css, expected): + result = _parse_latex_css_conversion(css) + assert result == expected + + +@pytest.mark.parametrize( + "env, inner_env", + [ + (None, "tabular"), + ("table", "tabular"), + ("longtable", "longtable"), + ], +) +@pytest.mark.parametrize( + "convert, exp", [(True, "bfseries"), (False, "font-weightbold")] +) +def test_parse_latex_css_convert_minimal(styler, env, inner_env, convert, exp): + # parameters ensure longtable template is also tested + styler.highlight_max(props="font-weight:bold;") + result = styler.to_latex(convert_css=convert, environment=env) + expected = dedent( + f"""\ + 0 & 0 & \\{exp} -0.61 & ab \\\\ + 1 & \\{exp} 1 & -1.22 & \\{exp} cd \\\\ + \\end{{{inner_env}}} + """ + ) + assert expected in result + + +def test_parse_latex_css_conversion_option(): + css = [("command", "option--latex--wrap")] + expected = [("command", "option--wrap")] + result = _parse_latex_css_conversion(css) + assert result == expected + + +def test_styler_object_after_render(styler): + # GH 42320 + pre_render = styler._copy(deepcopy=True) + styler.to_latex( + column_format="rllr", + position="h", + position_float="centering", + hrules=True, + label="my lab", + caption="my cap", + ) + + assert pre_render.table_styles == styler.table_styles + assert pre_render.caption == styler.caption + + +def test_longtable_comprehensive(styler): + result = styler.to_latex( + environment="longtable", hrules=True, label="fig:A", caption=("full", "short") + ) + expected = dedent( + """\ + \\begin{longtable}{lrrl} + \\caption[short]{full} \\label{fig:A} \\\\ + \\toprule + & A & B & C \\\\ + \\midrule + \\endfirsthead + \\caption[]{full} \\\\ + \\toprule + & A & B & C \\\\ + \\midrule + \\endhead + \\midrule + \\multicolumn{4}{r}{Continued on next page} \\\\ + \\midrule + \\endfoot + \\bottomrule + \\endlastfoot + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{longtable} + """ + ) + assert result == expected + + +def test_longtable_minimal(styler): + result = styler.to_latex(environment="longtable") + expected = dedent( + """\ + \\begin{longtable}{lrrl} + & A & B & C \\\\ + \\endfirsthead + & A & B & C \\\\ + \\endhead + \\multicolumn{4}{r}{Continued on next page} \\\\ + \\endfoot + \\endlastfoot + 0 & 0 & -0.61 & ab \\\\ + 1 & 1 & -1.22 & cd \\\\ + \\end{longtable} + """ + ) + assert result == expected + + +@pytest.mark.parametrize( + "sparse, exp, siunitx", + [ + (True, "{} & \\multicolumn{2}{r}{A} & {B}", True), + (False, "{} & {A} & {A} & {B}", True), + (True, " & \\multicolumn{2}{r}{A} & B", False), + (False, " & A & A & B", False), + ], +) +def test_longtable_multiindex_columns(df, sparse, exp, siunitx): + cidx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df.columns = cidx + with_si = "{} & {a} & {b} & {c} \\\\" + without_si = " & a & b & c \\\\" + expected = dedent( + f"""\ + \\begin{{longtable}}{{l{"SS" if siunitx else "rr"}l}} + {exp} \\\\ + {with_si if siunitx else without_si} + \\endfirsthead + {exp} \\\\ + {with_si if siunitx else without_si} + \\endhead + """ + ) + result = df.style.to_latex( + environment="longtable", sparse_columns=sparse, siunitx=siunitx + ) + assert expected in result + + +@pytest.mark.parametrize( + "caption, cap_exp", + [ + ("full", ("{full}", "")), + (("full", "short"), ("{full}", "[short]")), + ], +) +@pytest.mark.parametrize("label, lab_exp", [(None, ""), ("tab:A", " \\label{tab:A}")]) +def test_longtable_caption_label(styler, caption, cap_exp, label, lab_exp): + cap_exp1 = f"\\caption{cap_exp[1]}{cap_exp[0]}" + cap_exp2 = f"\\caption[]{cap_exp[0]}" + + expected = dedent( + f"""\ + {cap_exp1}{lab_exp} \\\\ + & A & B & C \\\\ + \\endfirsthead + {cap_exp2} \\\\ + """ + ) + assert expected in styler.to_latex( + environment="longtable", caption=caption, label=label + ) + + +@pytest.mark.parametrize("index", [True, False]) +@pytest.mark.parametrize( + "columns, siunitx", + [ + (True, True), + (True, False), + (False, False), + ], +) +def test_apply_map_header_render_mi(df_ext, index, columns, siunitx): + cidx = MultiIndex.from_tuples([("Z", "a"), ("Z", "b"), ("Y", "c")]) + ridx = MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("B", "c")]) + df_ext.index, df_ext.columns = ridx, cidx + styler = df_ext.style + + func = lambda v: "bfseries: --rwrap" if "A" in v or "Z" in v or "c" in v else None + + if index: + styler.map_index(func, axis="index") + if columns: + styler.map_index(func, axis="columns") + + result = styler.to_latex(siunitx=siunitx) + + expected_index = dedent( + """\ + \\multirow[c]{2}{*}{\\bfseries{A}} & a & 0 & -0.610000 & ab \\\\ + \\bfseries{} & b & 1 & -1.220000 & cd \\\\ + B & \\bfseries{c} & 2 & -2.220000 & de \\\\ + """ + ) + assert (expected_index in result) is index + + exp_cols_si = dedent( + """\ + {} & {} & \\multicolumn{2}{r}{\\bfseries{Z}} & {Y} \\\\ + {} & {} & {a} & {b} & {\\bfseries{c}} \\\\ + """ + ) + exp_cols_no_si = """\ + & & \\multicolumn{2}{r}{\\bfseries{Z}} & Y \\\\ + & & a & b & \\bfseries{c} \\\\ +""" + assert ((exp_cols_si if siunitx else exp_cols_no_si) in result) is columns + + +def test_repr_option(styler): + assert "